gotosocial/vendor/modernc.org/sqlite/lib/sqlite_darwin_amd64.go
tobi b344c2c8f4
[chore] Update uptrace/bun and modernc/sqlite dependencies (#1598)
* [chore] Update bun from 1.1.10 -> 1.1.12

* [chore] bump modernc/sqlite 1.20.4 -> 1.21.0
2023-03-06 11:00:53 +01:00

159242 lines
5.5 MiB

// Code generated by 'ccgo -DSQLITE_PRIVATE= -export-defines "" -export-enums "" -export-externs X -export-fields F -export-typedefs "" -ignore-unsupported-alignment -pkgname sqlite3 -volatile=sqlite3_io_error_pending,sqlite3_open_file_count,sqlite3_pager_readdb_count,sqlite3_pager_writedb_count,sqlite3_pager_writej_count,sqlite3_search_count,sqlite3_sort_count,saved_cnt,randomnessPid -o lib/sqlite_darwin_amd64.go -trace-translation-units testdata/sqlite-amalgamation-3410000/sqlite3.c -full-path-comments -DNDEBUG -DHAVE_USLEEP -DLONGDOUBLE_TYPE=double -DSQLITE_CORE -DSQLITE_DEFAULT_MEMSTATUS=0 -DSQLITE_ENABLE_COLUMN_METADATA -DSQLITE_ENABLE_FTS5 -DSQLITE_ENABLE_GEOPOLY -DSQLITE_ENABLE_MATH_FUNCTIONS -DSQLITE_ENABLE_MEMORY_MANAGEMENT -DSQLITE_ENABLE_OFFSET_SQL_FUNC -DSQLITE_ENABLE_PREUPDATE_HOOK -DSQLITE_ENABLE_RBU -DSQLITE_ENABLE_RTREE -DSQLITE_ENABLE_SESSION -DSQLITE_ENABLE_SNAPSHOT -DSQLITE_ENABLE_STAT4 -DSQLITE_ENABLE_UNLOCK_NOTIFY -DSQLITE_LIKE_DOESNT_MATCH_BLOBS -DSQLITE_MUTEX_APPDEF=1 -DSQLITE_MUTEX_NOOP -DSQLITE_SOUNDEX -DSQLITE_THREADSAFE=1 -DSQLITE_OS_UNIX=1 -DSQLITE_WITHOUT_ZONEMALLOC', DO NOT EDIT.
package sqlite3
import (
"math"
"reflect"
"sync/atomic"
"unsafe"
"modernc.org/libc"
"modernc.org/libc/sys/types"
)
var _ = math.Pi
var _ reflect.Kind
var _ atomic.Value
var _ unsafe.Pointer
var _ *libc.TLS
var _ types.Size_t
const (
ACCESSPERMS = 511
ACCESSX_MAX_DESCRIPTORS = 100
ACCESSX_MAX_TABLESIZE = 16384
ALLPERMS = 4095
AQ_BUFSZ = 32767
AQ_HIWATER = 100
AQ_LOWATER = 10
AQ_MAXBUFSZ = 1048576
AQ_MAXHIGH = 10000
ARG_MAX = 262144
ATTR_BIT_MAP_COUNT = 5
ATTR_BULK_REQUIRED = 2147483649
ATTR_CMNEXT_CLONEID = 0x00000100
ATTR_CMNEXT_EXT_FLAGS = 0x00000200
ATTR_CMNEXT_LINKID = 0x00000010
ATTR_CMNEXT_NOFIRMLINKPATH = 0x00000020
ATTR_CMNEXT_PRIVATESIZE = 0x00000008
ATTR_CMNEXT_REALDEVID = 0x00000040
ATTR_CMNEXT_REALFSID = 0x00000080
ATTR_CMNEXT_RELPATH = 0x00000004
ATTR_CMNEXT_SETMASK = 0x00000000
ATTR_CMNEXT_VALIDMASK = 0x000003fc
ATTR_CMN_ACCESSMASK = 0x00020000
ATTR_CMN_ACCTIME = 0x00001000
ATTR_CMN_ADDEDTIME = 0x10000000
ATTR_CMN_BKUPTIME = 0x00002000
ATTR_CMN_CHGTIME = 0x00000800
ATTR_CMN_CRTIME = 0x00000200
ATTR_CMN_DATA_PROTECT_FLAGS = 0x40000000
ATTR_CMN_DEVID = 0x00000002
ATTR_CMN_DOCUMENT_ID = 0x00100000
ATTR_CMN_ERROR = 0x20000000
ATTR_CMN_EXTENDED_SECURITY = 0x00400000
ATTR_CMN_FILEID = 0x02000000
ATTR_CMN_FLAGS = 0x00040000
ATTR_CMN_FNDRINFO = 0x00004000
ATTR_CMN_FSID = 0x00000004
ATTR_CMN_FULLPATH = 0x08000000
ATTR_CMN_GEN_COUNT = 0x00080000
ATTR_CMN_GRPID = 0x00010000
ATTR_CMN_GRPUUID = 0x01000000
ATTR_CMN_MODTIME = 0x00000400
ATTR_CMN_NAME = 0x00000001
ATTR_CMN_NAMEDATTRCOUNT = 0x00080000
ATTR_CMN_NAMEDATTRLIST = 0x00100000
ATTR_CMN_OBJID = 0x00000020
ATTR_CMN_OBJPERMANENTID = 0x00000040
ATTR_CMN_OBJTAG = 0x00000010
ATTR_CMN_OBJTYPE = 0x00000008
ATTR_CMN_OWNERID = 0x00008000
ATTR_CMN_PARENTID = 0x04000000
ATTR_CMN_PAROBJID = 0x00000080
ATTR_CMN_RETURNED_ATTRS = 0x80000000
ATTR_CMN_SCRIPT = 0x00000100
ATTR_CMN_SETMASK = 0x51C7FF00
ATTR_CMN_USERACCESS = 0x00200000
ATTR_CMN_UUID = 0x00800000
ATTR_CMN_VALIDMASK = 0xFFFFFFFF
ATTR_CMN_VOLSETMASK = 0x00006700
ATTR_DIR_ALLOCSIZE = 0x00000008
ATTR_DIR_DATALENGTH = 0x00000020
ATTR_DIR_ENTRYCOUNT = 0x00000002
ATTR_DIR_IOBLOCKSIZE = 0x00000010
ATTR_DIR_LINKCOUNT = 0x00000001
ATTR_DIR_MOUNTSTATUS = 0x00000004
ATTR_DIR_SETMASK = 0x00000000
ATTR_DIR_VALIDMASK = 0x0000003f
ATTR_FILE_ALLOCSIZE = 0x00000004
ATTR_FILE_CLUMPSIZE = 0x00000010
ATTR_FILE_DATAALLOCSIZE = 0x00000400
ATTR_FILE_DATAEXTENTS = 0x00000800
ATTR_FILE_DATALENGTH = 0x00000200
ATTR_FILE_DEVTYPE = 0x00000020
ATTR_FILE_FILETYPE = 0x00000040
ATTR_FILE_FORKCOUNT = 0x00000080
ATTR_FILE_FORKLIST = 0x00000100
ATTR_FILE_IOBLOCKSIZE = 0x00000008
ATTR_FILE_LINKCOUNT = 0x00000001
ATTR_FILE_RSRCALLOCSIZE = 0x00002000
ATTR_FILE_RSRCEXTENTS = 0x00004000
ATTR_FILE_RSRCLENGTH = 0x00001000
ATTR_FILE_SETMASK = 0x00000020
ATTR_FILE_TOTALSIZE = 0x00000002
ATTR_FILE_VALIDMASK = 0x000037FF
ATTR_FORK_ALLOCSIZE = 0x00000002
ATTR_FORK_RESERVED = 0xffffffff
ATTR_FORK_SETMASK = 0x00000000
ATTR_FORK_TOTALSIZE = 0x00000001
ATTR_FORK_VALIDMASK = 0x00000003
ATTR_MAX_BUFFER = 8192
ATTR_VOL_ALLOCATIONCLUMP = 0x00000040
ATTR_VOL_ATTRIBUTES = 0x40000000
ATTR_VOL_CAPABILITIES = 0x00020000
ATTR_VOL_DIRCOUNT = 0x00000400
ATTR_VOL_ENCODINGSUSED = 0x00010000
ATTR_VOL_FILECOUNT = 0x00000200
ATTR_VOL_FSTYPE = 0x00000001
ATTR_VOL_INFO = 0x80000000
ATTR_VOL_IOBLOCKSIZE = 0x00000080
ATTR_VOL_MAXOBJCOUNT = 0x00000800
ATTR_VOL_MINALLOCATION = 0x00000020
ATTR_VOL_MOUNTEDDEVICE = 0x00008000
ATTR_VOL_MOUNTFLAGS = 0x00004000
ATTR_VOL_MOUNTPOINT = 0x00001000
ATTR_VOL_NAME = 0x00002000
ATTR_VOL_OBJCOUNT = 0x00000100
ATTR_VOL_QUOTA_SIZE = 0x10000000
ATTR_VOL_RESERVED_SIZE = 0x20000000
ATTR_VOL_SETMASK = 0x80002000
ATTR_VOL_SIGNATURE = 0x00000002
ATTR_VOL_SIZE = 0x00000004
ATTR_VOL_SPACEAVAIL = 0x00000010
ATTR_VOL_SPACEFREE = 0x00000008
ATTR_VOL_UUID = 0x00040000
ATTR_VOL_VALIDMASK = 0xF007FFFF
AT_EACCESS = 0x0010
AT_FDCWD = -2
AT_FDONLY = 0x0400
AT_REALDEV = 0x0200
AT_REMOVEDIR = 0x0080
AT_SYMLINK_FOLLOW = 0x0040
AT_SYMLINK_NOFOLLOW = 0x0020
AUC_AUDITING = 1
AUC_DISABLED = -1
AUC_NOAUDIT = 2
AUC_UNSET = 0
AUDITDEV_FILENAME = "audit"
AUDIT_AHLT = 0x0002
AUDIT_ARGE = 0x0008
AUDIT_ARGV = 0x0004
AUDIT_CNT = 0x0001
AUDIT_GROUP = 0x0080
AUDIT_HARD_LIMIT_FREE_BLOCKS = 4
AUDIT_PATH = 0x0200
AUDIT_PERZONE = 0x2000
AUDIT_PUBLIC = 0x0800
AUDIT_RECORD_MAGIC = 0x828a0f1b
AUDIT_SCNT = 0x0400
AUDIT_SEQ = 0x0010
AUDIT_TRAIL = 0x0100
AUDIT_TRIGGER_CLOSE_AND_DIE = 4
AUDIT_TRIGGER_EXPIRE_TRAILS = 8
AUDIT_TRIGGER_INITIALIZE = 7
AUDIT_TRIGGER_LOW_SPACE = 1
AUDIT_TRIGGER_MAX = 8
AUDIT_TRIGGER_MIN = 1
AUDIT_TRIGGER_NO_SPACE = 5
AUDIT_TRIGGER_READ_FILE = 3
AUDIT_TRIGGER_ROTATE_KERNEL = 2
AUDIT_TRIGGER_ROTATE_USER = 6
AUDIT_USER = 0x0040
AUDIT_WINDATA = 0x0020
AUDIT_ZONENAME = 0x1000
AU_ASSIGN_ASID = -1
AU_CLASS_MASK_RESERVED = 0x10000000
AU_DEFAUDITSID = 0
AU_FS_MINFREE = 20
AU_IPv4 = 4
AU_IPv6 = 16
A_GETCAR = 9
A_GETCLASS = 22
A_GETCOND = 37
A_GETCTLMODE = 41
A_GETCWD = 8
A_GETEXPAFTER = 43
A_GETFSIZE = 27
A_GETKAUDIT = 29
A_GETKMASK = 4
A_GETPINFO = 24
A_GETPINFO_ADDR = 28
A_GETPOLICY = 33
A_GETQCTRL = 35
A_GETSFLAGS = 39
A_GETSINFO_ADDR = 32
A_GETSTAT = 12
A_OLDGETCOND = 20
A_OLDGETPOLICY = 2
A_OLDGETQCTRL = 6
A_OLDSETCOND = 21
A_OLDSETPOLICY = 3
A_OLDSETQCTRL = 7
A_SENDTRIGGER = 31
A_SETCLASS = 23
A_SETCOND = 38
A_SETCTLMODE = 42
A_SETEXPAFTER = 44
A_SETFSIZE = 26
A_SETKAUDIT = 30
A_SETKMASK = 5
A_SETPMASK = 25
A_SETPOLICY = 34
A_SETQCTRL = 36
A_SETSFLAGS = 40
A_SETSMASK = 15
A_SETSTAT = 13
A_SETUMASK = 14
BC_BASE_MAX = 99
BC_DIM_MAX = 2048
BC_SCALE_MAX = 99
BC_STRING_MAX = 1000
BIG_ENDIAN = 4321
BITVEC_SZ = 512
BITVEC_SZELEM = 8
BLKDEV_IOSIZE = 2048
BSD = 199506
BSD4_3 = 1
BSD4_4 = 1
BTALLOC_ANY = 0
BTALLOC_EXACT = 1
BTALLOC_LE = 2
BTCF_AtLast = 0x08
BTCF_Incrblob = 0x10
BTCF_Multiple = 0x20
BTCF_Pinned = 0x40
BTCF_ValidNKey = 0x02
BTCF_ValidOvfl = 0x04
BTCF_WriteFlag = 0x01
BTCURSOR_MAX_DEPTH = 20
BTREE_APPEND = 0x08
BTREE_APPLICATION_ID = 8
BTREE_AUTOVACUUM_FULL = 1
BTREE_AUTOVACUUM_INCR = 2
BTREE_AUTOVACUUM_NONE = 0
BTREE_AUXDELETE = 0x04
BTREE_BLOBKEY = 2
BTREE_BULKLOAD = 0x00000001
BTREE_DATA_VERSION = 15
BTREE_DEFAULT_CACHE_SIZE = 3
BTREE_FILE_FORMAT = 2
BTREE_FORDELETE = 0x00000008
BTREE_FREE_PAGE_COUNT = 0
BTREE_HINT_RANGE = 0
BTREE_INCR_VACUUM = 7
BTREE_INTKEY = 1
BTREE_LARGEST_ROOT_PAGE = 4
BTREE_MEMORY = 2
BTREE_OMIT_JOURNAL = 1
BTREE_PREFORMAT = 0x80
BTREE_SAVEPOSITION = 0x02
BTREE_SCHEMA_VERSION = 1
BTREE_SEEK_EQ = 0x00000002
BTREE_SINGLE = 4
BTREE_TEXT_ENCODING = 5
BTREE_UNORDERED = 8
BTREE_USER_VERSION = 6
BTREE_WRCSR = 0x00000004
BTS_EXCLUSIVE = 0x0040
BTS_FAST_SECURE = 0x000c
BTS_INITIALLY_EMPTY = 0x0010
BTS_NO_WAL = 0x0020
BTS_OVERWRITE = 0x0008
BTS_PAGESIZE_FIXED = 0x0002
BTS_PENDING = 0x0080
BTS_READ_ONLY = 0x0001
BTS_SECURE_DELETE = 0x0004
BUFSIZ = 1024
BUS_ADRALN = 1
BUS_ADRERR = 2
BUS_NOOP = 0
BUS_OBJERR = 3
BYTE_ORDER = 1234
BYTE_SIZE = 8
CACHE_STALE = 0
CBLOCK = 64
CBQSIZE = 8
CC_AND = 24
CC_BANG = 15
CC_BOM = 30
CC_COMMA = 23
CC_DIGIT = 3
CC_DOLLAR = 4
CC_DOT = 26
CC_EQ = 14
CC_GT = 13
CC_ID = 27
CC_ILLEGAL = 28
CC_KYWD = 2
CC_KYWD0 = 1
CC_LP = 17
CC_LT = 12
CC_MINUS = 11
CC_NUL = 29
CC_PERCENT = 22
CC_PIPE = 10
CC_PLUS = 20
CC_QUOTE = 8
CC_QUOTE2 = 9
CC_RP = 18
CC_SEMI = 19
CC_SLASH = 16
CC_SPACE = 7
CC_STAR = 21
CC_TILDA = 25
CC_VARALPHA = 5
CC_VARNUM = 6
CC_X = 0
CHARCLASS_NAME_MAX = 14
CHAR_BIT = 8
CHAR_MAX = 127
CHAR_MIN = -128
CHILD_MAX = 266
CKCNSTRNT_COLUMN = 0x01
CKCNSTRNT_ROWID = 0x02
CLBYTES = 4096
CLD_CONTINUED = 6
CLD_DUMPED = 3
CLD_EXITED = 1
CLD_KILLED = 2
CLD_NOOP = 0
CLD_STOPPED = 5
CLD_TRAPPED = 4
CLOCKS_PER_SEC = 1000000
CLOFF = 4095
CLOFSET = 4095
CLSHIFT = 12
CLSIZE = 1
CLSIZELOG2 = 0
CMASK = 022
COLFLAG_BUSY = 0x0100
COLFLAG_GENERATED = 0x0060
COLFLAG_HASCOLL = 0x0200
COLFLAG_HASTYPE = 0x0004
COLFLAG_HIDDEN = 0x0002
COLFLAG_NOEXPAND = 0x0400
COLFLAG_NOINSERT = 0x0062
COLFLAG_NOTAVAIL = 0x0080
COLFLAG_PRIMKEY = 0x0001
COLFLAG_SORTERREF = 0x0010
COLFLAG_STORED = 0x0040
COLFLAG_UNIQUE = 0x0008
COLFLAG_VIRTUAL = 0x0020
COLL_WEIGHTS_MAX = 2
COLNAME_COLUMN = 4
COLNAME_DATABASE = 2
COLNAME_DECLTYPE = 1
COLNAME_N = 5
COLNAME_NAME = 0
COLNAME_TABLE = 3
COLTYPE_ANY = 1
COLTYPE_BLOB = 2
COLTYPE_CUSTOM = 0
COLTYPE_INT = 3
COLTYPE_INTEGER = 4
COLTYPE_REAL = 5
COLTYPE_TEXT = 6
CPF_IGNORE_MODE = 0x0002
CPF_MASK = 3
CPF_OVERWRITE = 0x0001
CPUMON_MAKE_FATAL = 0x1000
CRF_MAC_ENFORCE = 0x00000002
CRF_NOMEMBERD = 0x00000001
CROUND = 63
CURSOR_FAULT = 4
CURSOR_INVALID = 1
CURSOR_REQUIRESEEK = 3
CURSOR_SKIPNEXT = 2
CURSOR_VALID = 0
CURTYPE_BTREE = 0
CURTYPE_PSEUDO = 3
CURTYPE_SORTER = 1
CURTYPE_VTAB = 2
DBFLAG_EncodingFixed = 0x0040
DBFLAG_InternalFunc = 0x0020
DBFLAG_PreferBuiltin = 0x0002
DBFLAG_SchemaChange = 0x0001
DBFLAG_SchemaKnownOk = 0x0010
DBFLAG_Vacuum = 0x0004
DBFLAG_VacuumInto = 0x0008
DB_ResetWanted = 0x0008
DB_SchemaLoaded = 0x0001
DB_UnresetViews = 0x0002
DEFFILEMODE = 438
DEV_BSHIFT = 9
DEV_BSIZE = 512
DIRECT_MODE = 0
DIR_MNTSTATUS_MNTPOINT = 0x00000001
DIR_MNTSTATUS_TRIGGER = 0x00000002
DOMAIN = 1
DOTLOCK_SUFFIX = ".lock"
DST_AUST = 2
DST_CAN = 6
DST_EET = 5
DST_MET = 4
DST_NONE = 0
DST_USA = 1
DST_WET = 3
DYNAMIC_TARGETS_ENABLED = 0
E2BIG = 7
EACCES = 13
EADDRINUSE = 48
EADDRNOTAVAIL = 49
EAFNOSUPPORT = 47
EAGAIN = 35
EALREADY = 37
EAUTH = 80
EBADARCH = 86
EBADEXEC = 85
EBADF = 9
EBADMACHO = 88
EBADMSG = 94
EBADRPC = 72
EBUSY = 16
ECANCELED = 89
ECHILD = 10
ECONNABORTED = 53
ECONNREFUSED = 61
ECONNRESET = 54
EDEADLK = 11
EDESTADDRREQ = 39
EDEVERR = 83
EDOM = 33
EDQUOT = 69
EEXIST = 17
EFAULT = 14
EFBIG = 27
EFTYPE = 79
EF_IS_PURGEABLE = 0x00000008
EF_IS_SPARSE = 0x00000010
EF_IS_SYNC_ROOT = 0x00000004
EF_MAY_SHARE_BLOCKS = 0x00000001
EF_NO_XATTRS = 0x00000002
EHOSTDOWN = 64
EHOSTUNREACH = 65
EIDRM = 90
EILSEQ = 92
EINPROGRESS = 36
EINTR = 4
EINVAL = 22
EIO = 5
EISCONN = 56
EISDIR = 21
ELAST = 106
ELOOP = 62
EMFILE = 24
EMLINK = 31
EMSGSIZE = 40
EMULTIHOP = 95
ENAMETOOLONG = 63
ENAME_NAME = 0
ENAME_SPAN = 1
ENAME_TAB = 2
ENEEDAUTH = 81
ENETDOWN = 50
ENETRESET = 52
ENETUNREACH = 51
ENFILE = 23
ENOATTR = 93
ENOBUFS = 55
ENODATA = 96
ENODEV = 19
ENOENT = 2
ENOEXEC = 8
ENOLCK = 77
ENOLINK = 97
ENOMEM = 12
ENOMSG = 91
ENOPOLICY = 103
ENOPROTOOPT = 42
ENOSPC = 28
ENOSR = 98
ENOSTR = 99
ENOSYS = 78
ENOTBLK = 15
ENOTCONN = 57
ENOTDIR = 20
ENOTEMPTY = 66
ENOTRECOVERABLE = 104
ENOTSOCK = 38
ENOTSUP = 45
ENOTTY = 25
ENXIO = 6
EOF = -1
EOPNOTSUPP = 102
EOVERFLOW = 84
EOWNERDEAD = 105
EPERM = 1
EPFNOSUPPORT = 46
EPIPE = 32
EPROCLIM = 67
EPROCUNAVAIL = 76
EPROGMISMATCH = 75
EPROGUNAVAIL = 74
EPROTO = 100
EPROTONOSUPPORT = 43
EPROTOTYPE = 41
EPWROFF = 82
EP_Agg = 0x000010
EP_CanBeNull = 0x200000
EP_Collate = 0x000200
EP_Commuted = 0x000400
EP_ConstFunc = 0x100000
EP_DblQuoted = 0x000080
EP_Distinct = 0x000004
EP_FixedCol = 0x000020
EP_FromDDL = 0x40000000
EP_HasFunc = 0x000008
EP_IfNullRow = 0x040000
EP_Immutable = 0x02
EP_InfixFunc = 0x000100
EP_InnerON = 0x000002
EP_IntValue = 0x000800
EP_IsFalse = 0x20000000
EP_IsTrue = 0x10000000
EP_Leaf = 0x800000
EP_NoReduce = 0x01
EP_OuterON = 0x000001
EP_Propagate = 4194824
EP_Quoted = 0x4000000
EP_Reduced = 0x004000
EP_Skip = 0x002000
EP_Static = 0x8000000
EP_Subquery = 0x400000
EP_Subrtn = 0x2000000
EP_TokenOnly = 0x010000
EP_Unlikely = 0x080000
EP_VarSelect = 0x000040
EP_Win = 0x008000
EP_WinFunc = 0x1000000
EP_xIsSelect = 0x001000
EQFULL = 106
EQUIV_CLASS_MAX = 2
ERANGE = 34
EREMOTE = 71
EROFS = 30
ERPCMISMATCH = 73
ESHLIBVERS = 87
ESHUTDOWN = 58
ESOCKTNOSUPPORT = 44
ESPIPE = 29
ESRCH = 3
ESTALE = 70
ETIME = 101
ETIMEDOUT = 60
ETOOMANYREFS = 59
ETXTBSY = 26
EU4_EXPR = 2
EU4_IDX = 1
EU4_NONE = 0
EUSERS = 68
EWOULDBLOCK = 35
EXCLUDED_TABLE_NUMBER = 2
EXCLUSIVE_LOCK = 4
EXDEV = 18
EXIT_FAILURE = 1
EXIT_SUCCESS = 0
EXPRDUP_REDUCE = 0x0001
EXPR_NEST_MAX = 32
FALSE = 0
FAPPEND = 8
FASYNC = 64
FCNTL_FS_SPECIFIC_BASE = 0x00010000
FD_CLOEXEC = 1
FD_SETSIZE = 1024
FFDSYNC = 4194304
FFSYNC = 128
FILENAME_MAX = 1024
FLAG_SIGNED = 1
FLAG_STRING = 4
FNDELAY = 4
FNONBLOCK = 4
FOOTPRINT_INTERVAL_RESET = 0x1
FOPEN_MAX = 20
FPE_FLTDIV = 1
FPE_FLTINV = 5
FPE_FLTOVF = 2
FPE_FLTRES = 4
FPE_FLTSUB = 6
FPE_FLTUND = 3
FPE_INTDIV = 7
FPE_INTOVF = 8
FPE_NOOP = 0
FP_CHOP = 3
FP_ILOGB0 = -2147483648
FP_ILOGBNAN = -2147483648
FP_INFINITE = 2
FP_NAN = 1
FP_NORMAL = 4
FP_PREC_24B = 0
FP_PREC_53B = 2
FP_PREC_64B = 3
FP_QNAN = 1
FP_RND_DOWN = 1
FP_RND_NEAR = 0
FP_RND_UP = 2
FP_SNAN = 1
FP_STATE_BYTES = 512
FP_SUBNORMAL = 5
FP_SUPERNORMAL = 6
FP_ZERO = 3
FREAD = 0x0001
FSCALE = 2048
FSHIFT = 11
FSOPT_ATTR_CMN_EXTENDED = 0x00000020
FSOPT_NOFOLLOW = 0x00000001
FSOPT_NOINMEMUPDATE = 0x00000002
FSOPT_PACK_INVAL_ATTRS = 0x00000008
FSOPT_REPORT_FULLSIZE = 0x00000004
FST_EOF = -1
FTS5CSR_EOF = 0x01
FTS5CSR_FREE_ZRANK = 0x10
FTS5CSR_REQUIRE_CONTENT = 0x02
FTS5CSR_REQUIRE_DOCSIZE = 0x04
FTS5CSR_REQUIRE_INST = 0x08
FTS5CSR_REQUIRE_POSLIST = 0x40
FTS5CSR_REQUIRE_RESEEK = 0x20
FTS5INDEX_QUERY_DESC = 0x0002
FTS5INDEX_QUERY_NOOUTPUT = 0x0020
FTS5INDEX_QUERY_PREFIX = 0x0001
FTS5INDEX_QUERY_SCAN = 0x0008
FTS5INDEX_QUERY_SKIPEMPTY = 0x0010
FTS5INDEX_QUERY_TEST_NOIDX = 0x0004
FTS5_AND = 2
FTS5_AVERAGES_ROWID = 1
FTS5_BI_MATCH = 0x0001
FTS5_BI_ORDER_DESC = 0x0080
FTS5_BI_ORDER_RANK = 0x0020
FTS5_BI_ORDER_ROWID = 0x0040
FTS5_BI_RANK = 0x0002
FTS5_BI_ROWID_EQ = 0x0004
FTS5_BI_ROWID_GE = 0x0010
FTS5_BI_ROWID_LE = 0x0008
FTS5_CARET = 12
FTS5_COLON = 5
FTS5_COMMA = 13
FTS5_CONTENT_EXTERNAL = 2
FTS5_CONTENT_NONE = 1
FTS5_CONTENT_NORMAL = 0
FTS5_CORRUPT = 267
FTS5_CURRENT_VERSION = 4
FTS5_DATA_DLI_B = 1
FTS5_DATA_HEIGHT_B = 5
FTS5_DATA_ID_B = 16
FTS5_DATA_PADDING = 20
FTS5_DATA_PAGE_B = 31
FTS5_DATA_ZERO_PADDING = 8
FTS5_DEFAULT_AUTOMERGE = 4
FTS5_DEFAULT_CRISISMERGE = 16
FTS5_DEFAULT_HASHSIZE = 1048576
FTS5_DEFAULT_NEARDIST = 10
FTS5_DEFAULT_PAGE_SIZE = 4050
FTS5_DEFAULT_RANK = "bm25"
FTS5_DEFAULT_USERMERGE = 4
FTS5_DETAIL_COLUMNS = 2
FTS5_DETAIL_FULL = 0
FTS5_DETAIL_NONE = 1
FTS5_EOF = 0
FTS5_LCP = 7
FTS5_LP = 10
FTS5_MAIN_PREFIX = 48
FTS5_MAX_LEVEL = 64
FTS5_MAX_PAGE_SIZE = 65536
FTS5_MAX_PREFIX_INDEXES = 31
FTS5_MAX_SEGMENT = 2000
FTS5_MAX_TOKEN_SIZE = 32768
FTS5_MERGE_NLIST = 16
FTS5_MINUS = 6
FTS5_MIN_DLIDX_SIZE = 4
FTS5_NOT = 3
FTS5_OPT_WORK_UNIT = 1000
FTS5_OR = 1
FTS5_PATTERN_GLOB = 66
FTS5_PATTERN_LIKE = 65
FTS5_PATTERN_NONE = 0
FTS5_PLAN_MATCH = 1
FTS5_PLAN_ROWID = 6
FTS5_PLAN_SCAN = 5
FTS5_PLAN_SORTED_MATCH = 4
FTS5_PLAN_SOURCE = 2
FTS5_PLAN_SPECIAL = 3
FTS5_PLUS = 14
FTS5_PORTER_MAX_TOKEN = 64
FTS5_RANK_NAME = "rank"
FTS5_RCP = 8
FTS5_REMOVE_DIACRITICS_COMPLEX = 2
FTS5_REMOVE_DIACRITICS_NONE = 0
FTS5_REMOVE_DIACRITICS_SIMPLE = 1
FTS5_ROWID_NAME = "rowid"
FTS5_RP = 11
FTS5_SEGITER_ONETERM = 0x01
FTS5_SEGITER_REVERSE = 0x02
FTS5_STAR = 15
FTS5_STMT_DELETE_CONTENT = 5
FTS5_STMT_DELETE_DOCSIZE = 7
FTS5_STMT_INSERT_CONTENT = 3
FTS5_STMT_LOOKUP = 2
FTS5_STMT_LOOKUP_DOCSIZE = 8
FTS5_STMT_REPLACE_CONFIG = 9
FTS5_STMT_REPLACE_CONTENT = 4
FTS5_STMT_REPLACE_DOCSIZE = 6
FTS5_STMT_SCAN = 10
FTS5_STMT_SCAN_ASC = 0
FTS5_STMT_SCAN_DESC = 1
FTS5_STRING = 9
FTS5_STRUCTURE_ROWID = 10
FTS5_TERM = 4
FTS5_TOKENIZE_AUX = 0x0008
FTS5_TOKENIZE_DOCUMENT = 0x0004
FTS5_TOKENIZE_PREFIX = 0x0002
FTS5_TOKENIZE_QUERY = 0x0001
FTS5_TOKEN_COLOCATED = 0x0001
FTS5_VOCAB_COL = 0
FTS5_VOCAB_COL_SCHEMA = "term, col, doc, cnt"
FTS5_VOCAB_INSTANCE = 2
FTS5_VOCAB_INST_SCHEMA = "term, doc, col, offset"
FTS5_VOCAB_ROW = 1
FTS5_VOCAB_ROW_SCHEMA = "term, doc, cnt"
FTS5_VOCAB_TERM_EQ = 0x01
FTS5_VOCAB_TERM_GE = 0x02
FTS5_VOCAB_TERM_LE = 0x04
FTS5_WORK_UNIT = 64
FULLY_WITHIN = 2
FUNC_PERFECT_MATCH = 6
FWRITE = 0x0002
F_ADDFILESIGS = 61
F_ADDFILESIGS_FOR_DYLD_SIM = 83
F_ADDFILESIGS_RETURN = 97
F_ADDSIGS = 59
F_ALLOCATEALL = 0x00000004
F_ALLOCATECONTIG = 0x00000002
F_BARRIERFSYNC = 85
F_CHECK_LV = 98
F_CHKCLEAN = 41
F_DUPFD = 0
F_DUPFD_CLOEXEC = 67
F_FINDSIGS = 78
F_FLUSH_DATA = 40
F_FREEZE_FS = 53
F_FULLFSYNC = 51
F_GETCODEDIR = 72
F_GETFD = 1
F_GETFL = 3
F_GETLK = 7
F_GETLKPID = 66
F_GETNOSIGPIPE = 74
F_GETOWN = 5
F_GETPATH = 50
F_GETPATH_MTMINFO = 71
F_GETPATH_NOFIRMLINK = 102
F_GETPROTECTIONCLASS = 63
F_GETPROTECTIONLEVEL = 77
F_GLOBAL_NOCACHE = 55
F_LOCK = 1
F_LOG2PHYS = 49
F_LOG2PHYS_EXT = 65
F_NOCACHE = 48
F_NODIRECT = 62
F_OK = 0
F_PATHPKG_CHECK = 52
F_PEOFPOSMODE = 3
F_PREALLOCATE = 42
F_PUNCHHOLE = 99
F_RDADVISE = 44
F_RDAHEAD = 45
F_RDLCK = 1
F_SETBACKINGSTORE = 70
F_SETFD = 2
F_SETFL = 4
F_SETLK = 8
F_SETLKW = 9
F_SETLKWTIMEOUT = 10
F_SETNOSIGPIPE = 73
F_SETOWN = 6
F_SETPROTECTIONCLASS = 64
F_SETSIZE = 43
F_SINGLE_WRITER = 76
F_SPECULATIVE_READ = 101
F_TEST = 3
F_THAW_FS = 54
F_TLOCK = 2
F_TRANSCODEKEY = 75
F_TRIM_ACTIVE_FILE = 100
F_ULOCK = 0
F_UNLCK = 2
F_VOLPOSMODE = 4
F_WRLCK = 3
GCC_VERSION = 4002001
GEOPOLY_PI = 3.1415926535897932385
GID_MAX = 2147483647
GUARD_TYPE_MACH_PORT = 0x1
HASHSIZE = 97
HASHTABLE_HASH_1 = 383
HASHTABLE_NPAGE = 4096
HASHTABLE_NSLOT = 8192
HAVE_FCHMOD = 0
HAVE_FCHOWN = 1
HAVE_FULLFSYNC = 1
HAVE_GETHOSTUUID = 1
HAVE_LSTAT = 1
HAVE_MREMAP = 0
HAVE_PREAD = 1
HAVE_PWRITE = 1
HAVE_READLINK = 1
HAVE_USLEEP = 1
HUGE = 0
I386_LPGBYTES = 2097152
I386_LPGMASK = 2097151
I386_LPGSHIFT = 21
I386_PGBYTES = 4096
I386_PGSHIFT = 12
ILL_BADSTK = 8
ILL_COPROC = 7
ILL_ILLADR = 5
ILL_ILLOPC = 1
ILL_ILLOPN = 4
ILL_ILLTRP = 2
ILL_NOOP = 0
ILL_PRVOPC = 3
ILL_PRVREG = 6
INCRINIT_NORMAL = 0
INCRINIT_ROOT = 2
INCRINIT_TASK = 1
INITFLAG_AlterAdd = 0x0003
INITFLAG_AlterDrop = 0x0002
INITFLAG_AlterMask = 0x0003
INITFLAG_AlterRename = 0x0001
INLINEFUNC_affinity = 4
INLINEFUNC_coalesce = 0
INLINEFUNC_expr_compare = 3
INLINEFUNC_expr_implies_expr = 2
INLINEFUNC_iif = 5
INLINEFUNC_implies_nonnull_row = 1
INLINEFUNC_sqlite_offset = 6
INLINEFUNC_unlikely = 99
INT16_MAX = 32767
INT16_MIN = -32768
INT32_MAX = 2147483647
INT32_MIN = -2147483648
INT64_MAX = 9223372036854775807
INT64_MIN = -9223372036854775808
INT8_MAX = 127
INT8_MIN = -128
INTERFACE = 1
INTMAX_MAX = 9223372036854775807
INTMAX_MIN = -9223372036854775808
INTPTR_MAX = 9223372036854775807
INTPTR_MIN = -9223372036854775808
INT_FAST16_MAX = 32767
INT_FAST16_MIN = -32768
INT_FAST32_MAX = 2147483647
INT_FAST32_MIN = -2147483648
INT_FAST64_MAX = 9223372036854775807
INT_FAST64_MIN = -9223372036854775808
INT_FAST8_MAX = 127
INT_FAST8_MIN = -128
INT_LEAST16_MAX = 32767
INT_LEAST16_MIN = -32768
INT_LEAST32_MAX = 2147483647
INT_LEAST32_MIN = -2147483648
INT_LEAST64_MAX = 9223372036854775807
INT_LEAST64_MIN = -9223372036854775808
INT_LEAST8_MAX = 127
INT_LEAST8_MIN = -128
INT_MAX = 2147483647
INT_MIN = -2147483648
IN_INDEX_EPH = 2
IN_INDEX_INDEX_ASC = 3
IN_INDEX_INDEX_DESC = 4
IN_INDEX_LOOP = 0x0004
IN_INDEX_MEMBERSHIP = 0x0002
IN_INDEX_NOOP = 5
IN_INDEX_NOOP_OK = 0x0001
IN_INDEX_ROWID = 1
IOCPARM_MASK = 0x1fff
IOCPARM_MAX = 8192
IOPOL_APPLICATION = 5
IOPOL_ATIME_UPDATES_DEFAULT = 0
IOPOL_ATIME_UPDATES_OFF = 1
IOPOL_DEFAULT = 0
IOPOL_IMPORTANT = 1
IOPOL_MATERIALIZE_DATALESS_FILES_DEFAULT = 0
IOPOL_MATERIALIZE_DATALESS_FILES_OFF = 1
IOPOL_MATERIALIZE_DATALESS_FILES_ON = 2
IOPOL_NORMAL = 1
IOPOL_PASSIVE = 2
IOPOL_SCOPE_DARWIN_BG = 2
IOPOL_SCOPE_PROCESS = 0
IOPOL_SCOPE_THREAD = 1
IOPOL_STANDARD = 5
IOPOL_THROTTLE = 3
IOPOL_TYPE_DISK = 0
IOPOL_TYPE_VFS_ATIME_UPDATES = 2
IOPOL_TYPE_VFS_MATERIALIZE_DATALESS_FILES = 3
IOPOL_TYPE_VFS_STATFS_NO_DATA_VOLUME = 4
IOPOL_UTILITY = 4
IOPOL_VFS_STATFS_FORCE_NO_DATA_VOLUME = 1
IOPOL_VFS_STATFS_NO_DATA_VOLUME_DEFAULT = 0
ITIMER_PROF = 2
ITIMER_REAL = 0
ITIMER_VIRTUAL = 1
IsStat4 = 1
JEACH_ATOM = 3
JEACH_FULLKEY = 6
JEACH_ID = 4
JEACH_JSON = 8
JEACH_KEY = 0
JEACH_PARENT = 5
JEACH_PATH = 7
JEACH_ROOT = 9
JEACH_TYPE = 2
JEACH_VALUE = 1
JNODE_APPEND = 0x20
JNODE_ESCAPE = 0x02
JNODE_LABEL = 0x40
JNODE_PATCH = 0x10
JNODE_RAW = 0x01
JNODE_REMOVE = 0x04
JNODE_REPLACE = 0x08
JSON_ABPATH = 0x03
JSON_ARRAY = 6
JSON_CACHE_ID = -429938
JSON_CACHE_SZ = 4
JSON_FALSE = 2
JSON_INT = 3
JSON_ISSET = 0x04
JSON_JSON = 0x01
JSON_MAX_DEPTH = 2000
JSON_NULL = 0
JSON_OBJECT = 7
JSON_REAL = 4
JSON_SQL = 0x02
JSON_STRING = 5
JSON_SUBTYPE = 74
JSON_TRUE = 1
JT_CROSS = 0x02
JT_ERROR = 0x80
JT_INNER = 0x01
JT_LEFT = 0x08
JT_LTORJ = 0x40
JT_NATURAL = 0x04
JT_OUTER = 0x20
JT_RIGHT = 0x10
KEYINFO_ORDER_BIGNULL = 0x02
KEYINFO_ORDER_DESC = 0x01
LEGACY_SCHEMA_TABLE = "sqlite_master"
LEGACY_TEMP_SCHEMA_TABLE = "sqlite_temp_master"
LINE_MAX = 2048
LINK_MAX = 32767
LITTLE_ENDIAN = 1234
LLONG_MAX = 9223372036854775807
LLONG_MIN = -9223372036854775808
LOCATE_NOERR = 0x02
LOCATE_VIEW = 0x01
LOCK_EX = 0x02
LOCK_NB = 0x04
LOCK_SH = 0x01
LOCK_UN = 0x08
LONG_LONG_MAX = 9223372036854775807
LONG_LONG_MIN = -9223372036854775808
LONG_MAX = 9223372036854775807
LONG_MIN = -9223372036854775808
LOOKASIDE_SMALL = 128
L_INCR = 1
L_SET = 0
L_XTND = 2
L_ctermid = 1024
L_tmpnam = 1024
M10d_Any = 1
M10d_No = 2
M10d_Yes = 0
M16KCLBYTES = 16384
M16KCLSHIFT = 14
MACH_PORT_DENAP_RECEIVER = 6
MACH_PORT_DNREQUESTS_SIZE = 3
MACH_PORT_DNREQUESTS_SIZE_COUNT = 1
MACH_PORT_IMPORTANCE_RECEIVER = 5
MACH_PORT_INFO_EXT = 7
MACH_PORT_LIMITS_INFO = 1
MACH_PORT_NULL = 0
MACH_PORT_QLIMIT_BASIC = 5
MACH_PORT_QLIMIT_DEFAULT = 5
MACH_PORT_QLIMIT_KERNEL = 65534
MACH_PORT_QLIMIT_LARGE = 1024
MACH_PORT_QLIMIT_MAX = 1024
MACH_PORT_QLIMIT_MIN = 0
MACH_PORT_QLIMIT_SMALL = 16
MACH_PORT_QLIMIT_ZERO = 0
MACH_PORT_RECEIVE_STATUS = 2
MACH_PORT_SRIGHTS_NONE = 0
MACH_PORT_SRIGHTS_PRESENT = 1
MACH_PORT_STATUS_FLAG_GUARDED = 0x02
MACH_PORT_STATUS_FLAG_GUARD_IMMOVABLE_RECEIVE = 0x40
MACH_PORT_STATUS_FLAG_IMP_DONATION = 0x08
MACH_PORT_STATUS_FLAG_NO_GRANT = 0x80
MACH_PORT_STATUS_FLAG_REVIVE = 0x10
MACH_PORT_STATUS_FLAG_STRICT_GUARD = 0x04
MACH_PORT_STATUS_FLAG_TASKPTR = 0x20
MACH_PORT_STATUS_FLAG_TEMPOWNER = 0x01
MACH_PORT_TEMPOWNER = 4
MACH_PORT_TYPE_DNREQUEST = 0x80000000
MACH_PORT_TYPE_SPREQUEST = 0x40000000
MACH_PORT_TYPE_SPREQUEST_DELAYED = 0x20000000
MADV_CAN_REUSE = 9
MADV_DONTNEED = 4
MADV_FREE = 5
MADV_FREE_REUSABLE = 7
MADV_FREE_REUSE = 8
MADV_NORMAL = 0
MADV_PAGEOUT = 10
MADV_RANDOM = 1
MADV_SEQUENTIAL = 2
MADV_WILLNEED = 3
MADV_ZERO_WIRED_PAGES = 6
MAP_32BIT = 0x8000
MAP_ANON = 0x1000
MAP_ANONYMOUS = 4096
MAP_COPY = 2
MAP_FILE = 0x0000
MAP_FIXED = 0x0010
MAP_HASSEMAPHORE = 0x0200
MAP_JIT = 0x0800
MAP_NOCACHE = 0x0400
MAP_NOEXTEND = 0x0100
MAP_NORESERVE = 0x0040
MAP_PRIVATE = 0x0002
MAP_RENAME = 0x0020
MAP_RESERVED0080 = 0x0080
MAP_RESILIENT_CODESIGN = 0x2000
MAP_RESILIENT_MEDIA = 0x4000
MAP_SHARED = 0x0001
MATH_ERREXCEPT = 2
MATH_ERRNO = 1
MAXALLOCSAVE = 8192
MAXAUDITDATA = 32767
MAXBSIZE = 1048576
MAXCOMLEN = 16
MAXDOMNAMELEN = 256
MAXFLOAT = 0x1.fffffep+127
MAXFRAG = 8
MAXHOSTNAMELEN = 256
MAXINTERP = 64
MAXLOGNAME = 255
MAXPATHLEN = 1024
MAXPHYS = 131072
MAXPHYSIO = 131072
MAXPHYSIO_WIRED = 16777216
MAXPRI = 127
MAXSYMLINKS = 32
MAXUPRC = 266
MAX_AUDIT_RECORDS = 20
MAX_AUDIT_RECORD_SIZE = 32767
MAX_CANON = 1024
MAX_FATAL_kGUARD_EXC_CODE = 64
MAX_INPUT = 1024
MAX_PATHNAME = 512
MAX_SECTOR_SIZE = 0x10000
MBIGCLBYTES = 4096
MBIGCLSHIFT = 12
MB_LEN_MAX = 1
MCLBYTES = 2048
MCLOFSET = 2047
MCLSHIFT = 11
MCL_CURRENT = 0x0001
MCL_FUTURE = 0x0002
MEMJOURNAL_DFLT_FILECHUNKSIZE = 1024
MEMTYPE_HEAP = 0x01
MEMTYPE_LOOKASIDE = 0x02
MEMTYPE_PCACHE = 0x04
MEM_AffMask = 0x003f
MEM_Agg = 0x8000
MEM_Blob = 0x0010
MEM_Cleared = 0x0100
MEM_Dyn = 0x1000
MEM_Ephem = 0x4000
MEM_FromBind = 0x0040
MEM_Int = 0x0004
MEM_IntReal = 0x0020
MEM_Null = 0x0001
MEM_Real = 0x0008
MEM_Static = 0x2000
MEM_Str = 0x0002
MEM_Subtype = 0x0800
MEM_Term = 0x0200
MEM_TypeMask = 0x0dbf
MEM_Undefined = 0x0000
MEM_Zero = 0x0400
MFSNAMELEN = 15
MFSTYPENAMELEN = 16
MINBUCKET = 4
MINCORE_ANONYMOUS = 0x80
MINCORE_COPIED = 0x40
MINCORE_INCORE = 0x1
MINCORE_MODIFIED = 0x4
MINCORE_MODIFIED_OTHER = 0x10
MINCORE_PAGED_OUT = 0x20
MINCORE_REFERENCED = 0x2
MINCORE_REFERENCED_OTHER = 0x8
MINSIGSTKSZ = 32768
MIN_AUDIT_FILE_SIZE = 524288
MNAMELEN = 1024
MNT_ASYNC = 0x00000040
MNT_AUTOMOUNTED = 0x00400000
MNT_CMDFLAGS = 983040
MNT_CPROTECT = 0x00000080
MNT_DEFWRITE = 0x02000000
MNT_DONTBROWSE = 0x00100000
MNT_DOVOLFS = 0x00008000
MNT_DWAIT = 4
MNT_EXPORTED = 0x00000100
MNT_EXT_ROOT_DATA_VOL = 0x00000001
MNT_FORCE = 0x00080000
MNT_IGNORE_OWNERSHIP = 0x00200000
MNT_JOURNALED = 0x00800000
MNT_LOCAL = 0x00001000
MNT_MULTILABEL = 0x04000000
MNT_NOATIME = 0x10000000
MNT_NOBLOCK = 0x00020000
MNT_NODEV = 0x00000010
MNT_NOEXEC = 0x00000004
MNT_NOSUID = 0x00000008
MNT_NOUSERXATTR = 0x01000000
MNT_NOWAIT = 2
MNT_QUARANTINE = 0x00000400
MNT_QUOTA = 0x00002000
MNT_RDONLY = 0x00000001
MNT_RELOAD = 0x00040000
MNT_REMOVABLE = 0x00000200
MNT_ROOTFS = 0x00004000
MNT_SNAPSHOT = 0x40000000
MNT_STRICTATIME = 0x80000000
MNT_SYNCHRONOUS = 0x00000002
MNT_UNION = 0x00000020
MNT_UNKNOWNPERMISSIONS = 2097152
MNT_UPDATE = 0x00010000
MNT_VISFLAGMASK = 3622893567
MNT_WAIT = 1
MPG_FLAGS_STRICT_REPLY_INVALID_REPLY_DISP = 72057594037927936
MPG_FLAGS_STRICT_REPLY_INVALID_REPLY_PORT = 144115188075855872
MPG_FLAGS_STRICT_REPLY_INVALID_VOUCHER = 288230376151711744
MPG_FLAGS_STRICT_REPLY_MASK = 18374686479671623680
MPG_FLAGS_STRICT_REPLY_MISMATCHED_PERSONA = 1152921504606846976
MPG_FLAGS_STRICT_REPLY_NO_BANK_ATTR = 576460752303423488
MPG_IMMOVABLE_RECEIVE = 0x02
MPG_STRICT = 0x01
MPO_CONTEXT_AS_GUARD = 0x01
MPO_DENAP_RECEIVER = 0x40
MPO_IMMOVABLE_RECEIVE = 0x80
MPO_IMPORTANCE_RECEIVER = 0x08
MPO_INSERT_SEND_RIGHT = 0x10
MPO_QLIMIT = 0x02
MPO_STRICT = 0x20
MPO_TEMPOWNER = 0x04
MSIZE = 256
MSIZESHIFT = 8
MSVC_VERSION = 0
MS_ASYNC = 0x0001
MS_DEACTIVATE = 0x0008
MS_INVALIDATE = 0x0002
MS_KILLPAGES = 0x0004
MS_SYNC = 0x0010
M_1_PI = 0.318309886183790671537767526745028724
M_2_PI = 0.636619772367581343075535053490057448
M_2_SQRTPI = 1.12837916709551257389615890312154517
M_E = 2.71828182845904523536028747135266250
M_LN10 = 2.30258509299404568401799145468436421
M_LN2 = 0.693147180559945309417232121458176568
M_LOG10E = 0.434294481903251827651128918916605082
M_LOG2E = 1.44269504088896340735992468100189214
M_PI = 3.14159265358979323846264338327950288
M_PI_2 = 1.57079632679489661923132169163975144
M_PI_4 = 0.785398163397448309615660845819875721
M_SQRT1_2 = 0.707106781186547524400844362104849039
M_SQRT2 = 1.41421356237309504880168872420969808
NAME_MAX = 255
NB = 3
NBBY = 8
NBPG = 4096
NCARGS = 262144
NC_AllowAgg = 0x000001
NC_AllowWin = 0x004000
NC_Complex = 0x002000
NC_FromDDL = 0x040000
NC_GenCol = 0x000008
NC_HasAgg = 0x000010
NC_HasWin = 0x008000
NC_IdxExpr = 0x000020
NC_InAggFunc = 0x020000
NC_IsCheck = 0x000004
NC_IsDDL = 0x010000
NC_MinMaxAgg = 0x001000
NC_NoSelect = 0x080000
NC_OrderAgg = 0x8000000
NC_PartIdx = 0x000002
NC_SelfRef = 0x00002e
NC_UAggInfo = 0x000100
NC_UBaseReg = 0x000400
NC_UEList = 0x000080
NC_UUpsert = 0x000200
NC_VarSelect = 0x000040
NDEBUG = 1
NFSV2_MAX_FH_SIZE = 32
NFSV3_MAX_FH_SIZE = 64
NFSV4_MAX_FH_SIZE = 128
NFS_MAX_FH_SIZE = 128
NGROUPS = 16
NGROUPS_MAX = 16
NMBCLUSTERS = 512
NN = 1
NOFILE = 256
NOGROUP = 65535
NOT_WITHIN = 0
NO_LOCK = 0
NSIG = 32
NZERO = 20
N_OR_COST = 3
N_SORT_BUCKET = 32
N_STATEMENT = 8
NeXTBSD = 1995064
NeXTBSD4_0 = 0
OE_Abort = 2
OE_Cascade = 10
OE_Default = 11
OE_Fail = 3
OE_Ignore = 4
OE_None = 0
OE_Replace = 5
OE_Restrict = 7
OE_Rollback = 1
OE_SetDflt = 9
OE_SetNull = 8
OE_Update = 6
OMIT_TEMPDB = 0
ONEPASS_MULTI = 2
ONEPASS_OFF = 0
ONEPASS_SINGLE = 1
OPEN_MAX = 10240
OPFLAG_APPEND = 0x08
OPFLAG_AUXDELETE = 0x04
OPFLAG_BULKCSR = 0x01
OPFLAG_EPHEM = 0x01
OPFLAG_FORDELETE = 0x08
OPFLAG_ISNOOP = 0x40
OPFLAG_ISUPDATE = 0x04
OPFLAG_LASTROWID = 0x20
OPFLAG_LENGTHARG = 0x40
OPFLAG_NCHANGE = 0x01
OPFLAG_NOCHNG = 0x01
OPFLAG_NOCHNG_MAGIC = 0x6d
OPFLAG_P2ISREG = 0x10
OPFLAG_PERMUTE = 0x01
OPFLAG_PREFORMAT = 0x80
OPFLAG_SAVEPOSITION = 0x02
OPFLAG_SEEKEQ = 0x02
OPFLAG_TYPEOFARG = 0x80
OPFLAG_USESEEKRESULT = 0x10
OPFLG_IN1 = 0x02
OPFLG_IN2 = 0x04
OPFLG_IN3 = 0x08
OPFLG_JUMP = 0x01
OPFLG_NCYCLE = 0x40
OPFLG_OUT2 = 0x10
OPFLG_OUT3 = 0x20
OP_Abortable = 186
OP_Add = 106
OP_AddImm = 86
OP_Affinity = 96
OP_AggFinal = 165
OP_AggInverse = 161
OP_AggStep = 162
OP_AggStep1 = 163
OP_AggValue = 164
OP_And = 44
OP_AutoCommit = 1
OP_BeginSubrtn = 74
OP_BitAnd = 102
OP_BitNot = 114
OP_BitOr = 103
OP_Blob = 77
OP_Cast = 88
OP_Checkpoint = 3
OP_Clear = 145
OP_Close = 122
OP_ClrSubtype = 179
OP_CollSeq = 85
OP_Column = 94
OP_ColumnsUsed = 123
OP_Compare = 90
OP_Concat = 111
OP_Copy = 80
OP_Count = 98
OP_CreateBtree = 147
OP_CursorHint = 182
OP_CursorLock = 167
OP_CursorUnlock = 168
OP_DecrJumpZero = 61
OP_DeferredSeek = 141
OP_Delete = 130
OP_Destroy = 144
OP_Divide = 109
OP_DropIndex = 152
OP_DropTable = 151
OP_DropTrigger = 154
OP_ElseEq = 58
OP_EndCoroutine = 68
OP_Eq = 53
OP_Expire = 166
OP_Explain = 185
OP_Filter = 64
OP_FilterAdd = 180
OP_FinishSeek = 143
OP_FkCheck = 83
OP_FkCounter = 158
OP_FkIfZero = 49
OP_Found = 29
OP_Function = 66
OP_Ge = 57
OP_Gosub = 10
OP_Goto = 9
OP_Gt = 54
OP_Halt = 70
OP_HaltIfNull = 69
OP_IdxDelete = 140
OP_IdxGE = 45
OP_IdxGT = 41
OP_IdxInsert = 138
OP_IdxLE = 40
OP_IdxLT = 42
OP_IdxRowid = 142
OP_If = 16
OP_IfNoHope = 26
OP_IfNot = 17
OP_IfNotOpen = 25
OP_IfNotZero = 60
OP_IfNullRow = 20
OP_IfPos = 59
OP_IfSmaller = 33
OP_IncrVacuum = 62
OP_Init = 8
OP_InitCoroutine = 11
OP_Insert = 128
OP_Int64 = 72
OP_IntCopy = 82
OP_Integer = 71
OP_IntegrityCk = 155
OP_IsNull = 50
OP_IsTrue = 91
OP_IsType = 18
OP_JournalMode = 4
OP_Jump = 14
OP_Last = 32
OP_Le = 55
OP_LoadAnalysis = 150
OP_Lt = 56
OP_MakeRecord = 97
OP_MaxPgcnt = 178
OP_MemMax = 159
OP_Move = 79
OP_Multiply = 108
OP_MustBeInt = 13
OP_Ne = 52
OP_NewRowid = 127
OP_Next = 39
OP_NoConflict = 27
OP_Noop = 184
OP_Not = 19
OP_NotExists = 31
OP_NotFound = 28
OP_NotNull = 51
OP_Null = 75
OP_NullRow = 136
OP_Offset = 93
OP_OffsetLimit = 160
OP_Once = 15
OP_OpenAutoindex = 116
OP_OpenDup = 115
OP_OpenEphemeral = 118
OP_OpenPseudo = 121
OP_OpenRead = 112
OP_OpenWrite = 113
OP_Or = 43
OP_Pagecount = 177
OP_Param = 157
OP_ParseSchema = 149
OP_Permutation = 89
OP_Prev = 38
OP_Program = 48
OP_PureFunc = 65
OP_ReadCookie = 99
OP_Real = 153
OP_RealAffinity = 87
OP_ReleaseReg = 183
OP_Remainder = 110
OP_ReopenIdx = 101
OP_ResetCount = 131
OP_ResetSorter = 146
OP_ResultRow = 84
OP_Return = 67
OP_Rewind = 36
OP_RowCell = 129
OP_RowData = 134
OP_RowSetAdd = 156
OP_RowSetRead = 46
OP_RowSetTest = 47
OP_Rowid = 135
OP_SCopy = 81
OP_Savepoint = 0
OP_SeekEnd = 137
OP_SeekGE = 23
OP_SeekGT = 24
OP_SeekHit = 125
OP_SeekLE = 22
OP_SeekLT = 21
OP_SeekRowid = 30
OP_SeekScan = 124
OP_Sequence = 126
OP_SequenceTest = 120
OP_SetCookie = 100
OP_ShiftLeft = 104
OP_ShiftRight = 105
OP_SoftNull = 76
OP_Sort = 35
OP_SorterCompare = 132
OP_SorterData = 133
OP_SorterInsert = 139
OP_SorterNext = 37
OP_SorterOpen = 119
OP_SorterSort = 34
OP_SqlExec = 148
OP_String = 73
OP_String8 = 117
OP_Subtract = 107
OP_TableLock = 169
OP_Trace = 181
OP_Transaction = 2
OP_TypeCheck = 95
OP_VBegin = 170
OP_VColumn = 175
OP_VCreate = 171
OP_VDestroy = 172
OP_VFilter = 6
OP_VInitIn = 174
OP_VNext = 63
OP_VOpen = 173
OP_VRename = 176
OP_VUpdate = 7
OP_Vacuum = 5
OP_Variable = 78
OP_Yield = 12
OP_ZeroOrNull = 92
OS_ASSUME_NONNULL_BEGIN = 0
OS_ASSUME_NONNULL_END = 0
OS_FALLTHROUGH = 0
OS_NOESCAPE = 0
OS_NOT_TAIL_CALLED = 0
OS_OVERLOADABLE = 0
OS_REFINED_FOR_SWIFT = 0
OS_VXWORKS = 0
OVERFLOW = 3
O_ACCMODE = 0x0003
O_ALERT = 0x20000000
O_APPEND = 0x0008
O_ASYNC = 0x0040
O_BINARY = 0
O_CLOEXEC = 0x1000000
O_CREAT = 0x0200
O_DIRECTORY = 0x100000
O_DP_GETRAWENCRYPTED = 0x0001
O_DP_GETRAWUNENCRYPTED = 0x0002
O_DSYNC = 0x400000
O_EVTONLY = 0x8000
O_EXCL = 0x0800
O_EXLOCK = 0x0020
O_FSYNC = 128
O_LARGEFILE = 0
O_NDELAY = 4
O_NOCTTY = 0x20000
O_NOFOLLOW = 0x0100
O_NONBLOCK = 0x0004
O_POPUP = 0x80000000
O_RDONLY = 0x0000
O_RDWR = 0x0002
O_SHLOCK = 0x0010
O_SYMLINK = 0x200000
O_SYNC = 0x0080
O_TRUNC = 0x0400
O_WRONLY = 0x0001
P4_COLLSEQ = -2
P4_DYNAMIC = -6
P4_EXPR = -9
P4_FREE_IF_LE = -6
P4_FUNCCTX = -15
P4_FUNCDEF = -7
P4_INT32 = -3
P4_INT64 = -13
P4_INTARRAY = -14
P4_KEYINFO = -8
P4_MEM = -10
P4_NOTUSED = 0
P4_REAL = -12
P4_STATIC = -1
P4_SUBPROGRAM = -4
P4_TABLE = -5
P4_TRANSIENT = 0
P4_VTAB = -11
P5_ConstraintCheck = 3
P5_ConstraintFK = 4
P5_ConstraintNotNull = 1
P5_ConstraintUnique = 2
PAGER_CACHESPILL = 0x20
PAGER_CKPT_FULLFSYNC = 0x10
PAGER_ERROR = 6
PAGER_FLAGS_MASK = 0x38
PAGER_FULLFSYNC = 0x08
PAGER_GET_NOCONTENT = 0x01
PAGER_GET_READONLY = 0x02
PAGER_JOURNALMODE_DELETE = 0
PAGER_JOURNALMODE_MEMORY = 4
PAGER_JOURNALMODE_OFF = 2
PAGER_JOURNALMODE_PERSIST = 1
PAGER_JOURNALMODE_QUERY = -1
PAGER_JOURNALMODE_TRUNCATE = 3
PAGER_JOURNALMODE_WAL = 5
PAGER_LOCKINGMODE_EXCLUSIVE = 1
PAGER_LOCKINGMODE_NORMAL = 0
PAGER_LOCKINGMODE_QUERY = -1
PAGER_MEMORY = 0x0002
PAGER_OMIT_JOURNAL = 0x0001
PAGER_OPEN = 0
PAGER_READER = 1
PAGER_STAT_HIT = 0
PAGER_STAT_MISS = 1
PAGER_STAT_SPILL = 3
PAGER_STAT_WRITE = 2
PAGER_SYNCHRONOUS_EXTRA = 0x04
PAGER_SYNCHRONOUS_FULL = 0x03
PAGER_SYNCHRONOUS_MASK = 0x07
PAGER_SYNCHRONOUS_NORMAL = 0x02
PAGER_SYNCHRONOUS_OFF = 0x01
PAGER_WRITER_CACHEMOD = 3
PAGER_WRITER_DBMOD = 4
PAGER_WRITER_FINISHED = 5
PAGER_WRITER_LOCKED = 2
PAGE_MASK = 4095
PAGE_MAX_MASK = 4095
PAGE_MAX_SHIFT = 12
PAGE_MAX_SIZE = 4096
PAGE_MIN_MASK = 4095
PAGE_MIN_SHIFT = 12
PAGE_MIN_SIZE = 4096
PAGE_SHIFT = 12
PAGE_SIZE = 4096
PARSE_MODE_DECLARE_VTAB = 1
PARSE_MODE_NORMAL = 0
PARSE_MODE_RENAME = 2
PARSE_MODE_UNMAP = 3
PARTLY_WITHIN = 1
PATH_MAX = 1024
PCACHE1_MIGHT_USE_GROUP_MUTEX = 1
PCACHE_DIRTYLIST_ADD = 2
PCACHE_DIRTYLIST_FRONT = 3
PCACHE_DIRTYLIST_REMOVE = 1
PCATCH = 0x100
PDP_ENDIAN = 3412
PDROP = 0x400
PENDING_LOCK = 3
PGHDR_CLEAN = 0x001
PGHDR_DIRTY = 0x002
PGHDR_DONT_WRITE = 0x010
PGHDR_MMAP = 0x020
PGHDR_NEED_SYNC = 0x008
PGHDR_WAL_APPEND = 0x040
PGHDR_WRITEABLE = 0x004
PGOFSET = 4095
PGSHIFT = 12
PINOD = 8
PIPE_BUF = 512
PLOCK = 36
PLOSS = 6
POLL_ERR = 4
POLL_HUP = 6
POLL_IN = 1
POLL_MSG = 3
POLL_OUT = 2
POLL_PRI = 5
POSIX_MADV_DONTNEED = 4
POSIX_MADV_NORMAL = 0
POSIX_MADV_RANDOM = 1
POSIX_MADV_SEQUENTIAL = 2
POSIX_MADV_WILLNEED = 3
PPAUSE = 40
PPPDISC = 5
PREFERRED_SCHEMA_TABLE = "sqlite_schema"
PREFERRED_TEMP_SCHEMA_TABLE = "sqlite_temp_schema"
PRIBIO = 16
PRIMASK = 0x0ff
PRIO_DARWIN_BG = 0x1000
PRIO_DARWIN_NONUI = 0x1001
PRIO_DARWIN_PROCESS = 4
PRIO_DARWIN_THREAD = 3
PRIO_MAX = 20
PRIO_MIN = -20
PRIO_PGRP = 1
PRIO_PROCESS = 0
PRIO_USER = 2
PROT_EXEC = 0x04
PROT_NONE = 0x00
PROT_READ = 0x01
PROT_WRITE = 0x02
PROXY_CONCHVERSION = 2
PROXY_HEADERLEN = 1
PROXY_HOSTIDLEN = 16
PROXY_MAXCONCHLEN = 1041
PROXY_PATHINDEX = 17
PSOCK = 24
PSPIN = 0x800
PSWP = 0
PTF_INTKEY = 0x01
PTF_LEAF = 0x08
PTF_LEAFDATA = 0x04
PTF_ZERODATA = 0x02
PTRDIFF_MAX = 9223372036854775807
PTRDIFF_MIN = -9223372036854775808
PTRMAP_BTREE = 5
PTRMAP_FREEPAGE = 2
PTRMAP_OVERFLOW1 = 3
PTRMAP_OVERFLOW2 = 4
PTRMAP_ROOTPAGE = 1
PTTYBLOCK = 0x200
PUSER = 50
PVFS = 20
PVM = 4
PWAIT = 32
PZERO = 22
P_tmpdir = "/var/tmp/"
PragFlg_NeedSchema = 0x01
PragFlg_NoColumns = 0x02
PragFlg_NoColumns1 = 0x04
PragFlg_ReadOnly = 0x08
PragFlg_Result0 = 0x10
PragFlg_Result1 = 0x20
PragFlg_SchemaOpt = 0x40
PragFlg_SchemaReq = 0x80
PragTyp_ACTIVATE_EXTENSIONS = 0
PragTyp_ANALYSIS_LIMIT = 1
PragTyp_AUTO_VACUUM = 3
PragTyp_BUSY_TIMEOUT = 5
PragTyp_CACHE_SIZE = 6
PragTyp_CACHE_SPILL = 7
PragTyp_CASE_SENSITIVE_LIKE = 8
PragTyp_COLLATION_LIST = 9
PragTyp_COMPILE_OPTIONS = 10
PragTyp_DATABASE_LIST = 12
PragTyp_DATA_STORE_DIRECTORY = 11
PragTyp_DEFAULT_CACHE_SIZE = 13
PragTyp_ENCODING = 14
PragTyp_FLAG = 4
PragTyp_FOREIGN_KEY_CHECK = 15
PragTyp_FOREIGN_KEY_LIST = 16
PragTyp_FUNCTION_LIST = 17
PragTyp_HARD_HEAP_LIMIT = 18
PragTyp_HEADER_VALUE = 2
PragTyp_INCREMENTAL_VACUUM = 19
PragTyp_INDEX_INFO = 20
PragTyp_INDEX_LIST = 21
PragTyp_INTEGRITY_CHECK = 22
PragTyp_JOURNAL_MODE = 23
PragTyp_JOURNAL_SIZE_LIMIT = 24
PragTyp_LOCKING_MODE = 26
PragTyp_LOCK_PROXY_FILE = 25
PragTyp_LOCK_STATUS = 44
PragTyp_MMAP_SIZE = 28
PragTyp_MODULE_LIST = 29
PragTyp_OPTIMIZE = 30
PragTyp_PAGE_COUNT = 27
PragTyp_PAGE_SIZE = 31
PragTyp_PRAGMA_LIST = 32
PragTyp_SECURE_DELETE = 33
PragTyp_SHRINK_MEMORY = 34
PragTyp_SOFT_HEAP_LIMIT = 35
PragTyp_STATS = 45
PragTyp_SYNCHRONOUS = 36
PragTyp_TABLE_INFO = 37
PragTyp_TABLE_LIST = 38
PragTyp_TEMP_STORE = 39
PragTyp_TEMP_STORE_DIRECTORY = 40
PragTyp_THREADS = 41
PragTyp_WAL_AUTOCHECKPOINT = 42
PragTyp_WAL_CHECKPOINT = 43
RAND_MAX = 0x7fffffff
RBU_CREATE_STATE = "CREATE TABLE IF NOT EXISTS %s.rbu_state(k INTEGER PRIMARY KEY, v)"
RBU_DELETE = 2
RBU_ENABLE_DELTA_CKSUM = 0
RBU_EXCLUSIVE_CHECKPOINT = "rbu_exclusive_checkpoint"
RBU_IDX_DELETE = 4
RBU_IDX_INSERT = 5
RBU_INSERT = 1
RBU_PK_EXTERNAL = 3
RBU_PK_IPK = 2
RBU_PK_NONE = 1
RBU_PK_NOTABLE = 0
RBU_PK_VTAB = 5
RBU_PK_WITHOUT_ROWID = 4
RBU_REPLACE = 3
RBU_STAGE_CAPTURE = 3
RBU_STAGE_CKPT = 4
RBU_STAGE_DONE = 5
RBU_STAGE_MOVE = 2
RBU_STAGE_OAL = 1
RBU_STATE_CKPT = 6
RBU_STATE_COOKIE = 7
RBU_STATE_DATATBL = 10
RBU_STATE_IDX = 3
RBU_STATE_OALSZ = 8
RBU_STATE_PHASEONESTEP = 9
RBU_STATE_PROGRESS = 5
RBU_STATE_ROW = 4
RBU_STATE_STAGE = 1
RBU_STATE_TBL = 2
RBU_UPDATE = 6
READMARK_NOT_USED = 0xffffffff
READ_LOCK = 1
RENAME_EXCL = 0x00000004
RENAME_SECLUDE = 0x00000001
RENAME_SWAP = 0x00000002
RESERVED_LOCK = 2
RETURNING_TRIGGER_NAME = "sqlite_returning"
RE_DUP_MAX = 255
RLIMIT_AS = 5
RLIMIT_CORE = 4
RLIMIT_CPU = 0
RLIMIT_CPU_USAGE_MONITOR = 0x2
RLIMIT_DATA = 2
RLIMIT_FOOTPRINT_INTERVAL = 0x4
RLIMIT_FSIZE = 1
RLIMIT_MEMLOCK = 6
RLIMIT_NOFILE = 8
RLIMIT_NPROC = 7
RLIMIT_RSS = 5
RLIMIT_STACK = 3
RLIMIT_THREAD_CPULIMITS = 0x3
RLIMIT_WAKEUPS_MONITOR = 0x1
RLIM_NLIMITS = 9
RNDAWAY = 0
RNDTOWARDS = 0
ROWSET_ALLOCATION_SIZE = 1024
ROWSET_NEXT = 0x02
ROWSET_SORTED = 0x01
RSIZE_MAX = 9223372036854775807
RTLD_FIRST = 0x100
RTLD_GLOBAL = 0x8
RTLD_LAZY = 0x1
RTLD_LOCAL = 0x4
RTLD_NODELETE = 0x80
RTLD_NOLOAD = 0x10
RTLD_NOW = 0x2
RTREE_CACHE_SZ = 5
RTREE_CHECK_MAX_ERROR = 100
RTREE_COORD_INT32 = 1
RTREE_COORD_REAL32 = 0
RTREE_DEFAULT_ROWEST = 1048576
RTREE_EQ = 0x41
RTREE_FALSE = 0x40
RTREE_GE = 0x44
RTREE_GT = 0x45
RTREE_LE = 0x42
RTREE_LT = 0x43
RTREE_MATCH = 0x46
RTREE_MAXCELLS = 51
RTREE_MAX_AUX_COLUMN = 100
RTREE_MAX_DEPTH = 40
RTREE_MAX_DIMENSIONS = 5
RTREE_MIN_ROWEST = 100
RTREE_QUERY = 0x47
RTREE_TRUE = 0x3f
RTREE_ZERO = 0.0
RUSAGE_CHILDREN = -1
RUSAGE_INFO_CURRENT = 4
RUSAGE_INFO_V0 = 0
RUSAGE_INFO_V1 = 1
RUSAGE_INFO_V2 = 2
RUSAGE_INFO_V3 = 3
RUSAGE_INFO_V4 = 4
RUSAGE_SELF = 0
R_OK = 4
SAVEPOINT_BEGIN = 0
SAVEPOINT_RELEASE = 1
SAVEPOINT_ROLLBACK = 2
SA_64REGSET = 0x0200
SA_NOCLDSTOP = 0x0008
SA_NOCLDWAIT = 0x0020
SA_NODEFER = 0x0010
SA_ONSTACK = 0x0001
SA_RESETHAND = 0x0004
SA_RESTART = 0x0002
SA_SIGINFO = 0x0040
SA_USERSPACE_MASK = 127
SA_USERTRAMP = 0x0100
SCHAR_MAX = 127
SCHAR_MIN = -128
SCHEMA_ROOT = 1
SEARCHFS_MAX_SEARCHPARMS = 4096
SEEK_CUR = 1
SEEK_DATA = 4
SEEK_END = 2
SEEK_HOLE = 3
SEEK_SET = 0
SEGV_ACCERR = 2
SEGV_MAPERR = 1
SEGV_NOOP = 0
SESSIONS_STRM_CHUNK_SIZE = 1024
SESSION_MAX_BUFFER_SZ = 2147483391
SESSION_UPDATE_CACHE_SZ = 12
SF_APPEND = 0x00040000
SF_ARCHIVED = 0x00010000
SF_Aggregate = 0x0000008
SF_All = 0x0000002
SF_ComplexResult = 0x0040000
SF_Compound = 0x0000100
SF_Converted = 0x0010000
SF_CopyCte = 0x4000000
SF_DATALESS = 0x40000000
SF_Distinct = 0x0000001
SF_Expanded = 0x0000040
SF_FIRMLINK = 0x00800000
SF_FixedLimit = 0x0004000
SF_HasAgg = 0x0000010
SF_HasTypeInfo = 0x0000080
SF_IMMUTABLE = 0x00020000
SF_IncludeHidden = 0x0020000
SF_MaybeConvert = 0x0008000
SF_MinMaxAgg = 0x0001000
SF_MultiPart = 0x2000000
SF_MultiValue = 0x0000400
SF_NOUNLINK = 0x00100000
SF_NestedFrom = 0x0000800
SF_NoopOrderBy = 0x0400000
SF_OrderByReqd = 0x8000000
SF_PushDown = 0x1000000
SF_RESTRICTED = 0x00080000
SF_Recursive = 0x0002000
SF_Resolved = 0x0000004
SF_SETTABLE = 0x3fff0000
SF_SUPPORTED = 0x009f0000
SF_SYNTHETIC = 0xc0000000
SF_UFSrcCheck = 0x0800000
SF_UpdateFrom = 0x10000000
SF_UsesEphemeral = 0x0000020
SF_Values = 0x0000200
SF_View = 0x0200000
SF_WhereBegin = 0x0080000
SF_WinRewrite = 0x0100000
SHARED_LOCK = 1
SHARED_SIZE = 510
SHRT_MAX = 32767
SHRT_MIN = -32768
SIGABRT = 6
SIGALRM = 14
SIGBUS = 10
SIGCHLD = 20
SIGCONT = 19
SIGEMT = 7
SIGEV_NONE = 0
SIGEV_SIGNAL = 1
SIGEV_THREAD = 3
SIGFPE = 8
SIGHUP = 1
SIGILL = 4
SIGINFO = 29
SIGINT = 2
SIGIO = 23
SIGIOT = 6
SIGKILL = 9
SIGPIPE = 13
SIGPROF = 27
SIGQUIT = 3
SIGSEGV = 11
SIGSTKSZ = 131072
SIGSTOP = 17
SIGSYS = 12
SIGTERM = 15
SIGTRAP = 5
SIGTSTP = 18
SIGTTIN = 21
SIGTTOU = 22
SIGURG = 16
SIGUSR1 = 30
SIGUSR2 = 31
SIGVTALRM = 26
SIGWINCH = 28
SIGXCPU = 24
SIGXFSZ = 25
SIG_ATOMIC_MAX = 2147483647
SIG_ATOMIC_MIN = -2147483648
SIG_BLOCK = 1
SIG_SETMASK = 3
SIG_UNBLOCK = 2
SING = 2
SIZE_MAX = 18446744073709551615
SI_ASYNCIO = 0x10004
SI_MESGQ = 0x10005
SI_QUEUE = 0x10002
SI_TIMER = 0x10003
SI_USER = 0x10001
SLIPDISC = 4
SLOT_2_0 = 0x001fc07f
SLOT_4_2_0 = 0xf01fc07f
SORTER_MAX_MERGE_COUNT = 16
SORTER_TYPE_INTEGER = 0x01
SORTER_TYPE_TEXT = 0x02
SORTFLAG_UseSorter = 0x01
SPILLFLAG_NOSYNC = 0x04
SPILLFLAG_OFF = 0x01
SPILLFLAG_ROLLBACK = 0x02
SQLITE3EXT_H = 0
SQLITE3_H = 0
SQLITE3_TEXT = 3
SQLITEINT_H = 0
SQLITE_ABORT = 4
SQLITE_ABORT_ROLLBACK = 516
SQLITE_ACCESS_EXISTS = 0
SQLITE_ACCESS_READ = 2
SQLITE_ACCESS_READWRITE = 1
SQLITE_AFF_BLOB = 0x41
SQLITE_AFF_FLEXNUM = 0x46
SQLITE_AFF_INTEGER = 0x44
SQLITE_AFF_MASK = 0x47
SQLITE_AFF_NONE = 0x40
SQLITE_AFF_NUMERIC = 0x43
SQLITE_AFF_REAL = 0x45
SQLITE_AFF_TEXT = 0x42
SQLITE_ALLOW_COVERING_INDEX_SCAN = 1
SQLITE_ALTER_TABLE = 26
SQLITE_AMALGAMATION = 1
SQLITE_ANALYZE = 28
SQLITE_ANY = 5
SQLITE_API = 0
SQLITE_APICALL = 0
SQLITE_ASCII = 1
SQLITE_ATOMIC_INTRINSICS = 0
SQLITE_ATTACH = 24
SQLITE_AUTH = 23
SQLITE_AUTH_USER = 279
SQLITE_AllOpts = 0xffffffff
SQLITE_AutoIndex = 0x00008000
SQLITE_BIGENDIAN = 0
SQLITE_BIG_DBL = 0
SQLITE_BLDF1_INDEXED = 0x0001
SQLITE_BLDF1_UNIQUE = 0x0002
SQLITE_BLDF2_2NDPASS = 0x0004
SQLITE_BLOB = 4
SQLITE_BTREE_H = 0
SQLITE_BUSY = 5
SQLITE_BUSY_RECOVERY = 261
SQLITE_BUSY_SNAPSHOT = 517
SQLITE_BUSY_TIMEOUT = 773
SQLITE_BYTEORDER = 1234
SQLITE_BalancedMerge = 0x00200000
SQLITE_BloomFilter = 0x00080000
SQLITE_BloomPulldown = 0x00100000
SQLITE_CALLBACK = 0
SQLITE_CANTOPEN = 14
SQLITE_CANTOPEN_CONVPATH = 1038
SQLITE_CANTOPEN_DIRTYWAL = 1294
SQLITE_CANTOPEN_FULLPATH = 782
SQLITE_CANTOPEN_ISDIR = 526
SQLITE_CANTOPEN_NOTEMPDIR = 270
SQLITE_CANTOPEN_SYMLINK = 1550
SQLITE_CDECL = 0
SQLITE_CHANGESETAPPLY_INVERT = 0x0002
SQLITE_CHANGESETAPPLY_NOSAVEPOINT = 0x0001
SQLITE_CHANGESETSTART_INVERT = 0x0002
SQLITE_CHANGESET_ABORT = 2
SQLITE_CHANGESET_CONFLICT = 3
SQLITE_CHANGESET_CONSTRAINT = 4
SQLITE_CHANGESET_DATA = 1
SQLITE_CHANGESET_FOREIGN_KEY = 5
SQLITE_CHANGESET_NOTFOUND = 2
SQLITE_CHANGESET_OMIT = 0
SQLITE_CHANGESET_REPLACE = 1
SQLITE_CHECKPOINT_FULL = 1
SQLITE_CHECKPOINT_PASSIVE = 0
SQLITE_CHECKPOINT_RESTART = 2
SQLITE_CHECKPOINT_TRUNCATE = 3
SQLITE_CONFIG_COVERING_INDEX_SCAN = 20
SQLITE_CONFIG_GETMALLOC = 5
SQLITE_CONFIG_GETMUTEX = 11
SQLITE_CONFIG_GETPCACHE = 15
SQLITE_CONFIG_GETPCACHE2 = 19
SQLITE_CONFIG_HEAP = 8
SQLITE_CONFIG_LOG = 16
SQLITE_CONFIG_LOOKASIDE = 13
SQLITE_CONFIG_MALLOC = 4
SQLITE_CONFIG_MEMDB_MAXSIZE = 29
SQLITE_CONFIG_MEMSTATUS = 9
SQLITE_CONFIG_MMAP_SIZE = 22
SQLITE_CONFIG_MULTITHREAD = 2
SQLITE_CONFIG_MUTEX = 10
SQLITE_CONFIG_PAGECACHE = 7
SQLITE_CONFIG_PCACHE = 14
SQLITE_CONFIG_PCACHE2 = 18
SQLITE_CONFIG_PCACHE_HDRSZ = 24
SQLITE_CONFIG_PMASZ = 25
SQLITE_CONFIG_SCRATCH = 6
SQLITE_CONFIG_SERIALIZED = 3
SQLITE_CONFIG_SINGLETHREAD = 1
SQLITE_CONFIG_SMALL_MALLOC = 27
SQLITE_CONFIG_SORTERREF_SIZE = 28
SQLITE_CONFIG_SQLLOG = 21
SQLITE_CONFIG_STMTJRNL_SPILL = 26
SQLITE_CONFIG_URI = 17
SQLITE_CONFIG_WIN32_HEAPSIZE = 23
SQLITE_CONSTRAINT = 19
SQLITE_CONSTRAINT_CHECK = 275
SQLITE_CONSTRAINT_COMMITHOOK = 531
SQLITE_CONSTRAINT_DATATYPE = 3091
SQLITE_CONSTRAINT_FOREIGNKEY = 787
SQLITE_CONSTRAINT_FUNCTION = 1043
SQLITE_CONSTRAINT_NOTNULL = 1299
SQLITE_CONSTRAINT_PINNED = 2835
SQLITE_CONSTRAINT_PRIMARYKEY = 1555
SQLITE_CONSTRAINT_ROWID = 2579
SQLITE_CONSTRAINT_TRIGGER = 1811
SQLITE_CONSTRAINT_UNIQUE = 2067
SQLITE_CONSTRAINT_VTAB = 2323
SQLITE_COPY = 0
SQLITE_CORE = 1
SQLITE_CORRUPT = 11
SQLITE_CORRUPT_INDEX = 779
SQLITE_CORRUPT_SEQUENCE = 523
SQLITE_CORRUPT_VTAB = 267
SQLITE_CREATE_INDEX = 1
SQLITE_CREATE_TABLE = 2
SQLITE_CREATE_TEMP_INDEX = 3
SQLITE_CREATE_TEMP_TABLE = 4
SQLITE_CREATE_TEMP_TRIGGER = 5
SQLITE_CREATE_TEMP_VIEW = 6
SQLITE_CREATE_TRIGGER = 7
SQLITE_CREATE_VIEW = 8
SQLITE_CREATE_VTABLE = 29
SQLITE_CacheSpill = 0x00000020
SQLITE_CellSizeCk = 0x00200000
SQLITE_CkptFullFSync = 0x00000010
SQLITE_Coroutines = 0x02000000
SQLITE_CountOfView = 0x00000200
SQLITE_CoverIdxScan = 0x00000020
SQLITE_CursorHints = 0x00000400
SQLITE_DBCONFIG_DEFENSIVE = 1010
SQLITE_DBCONFIG_DQS_DDL = 1014
SQLITE_DBCONFIG_DQS_DML = 1013
SQLITE_DBCONFIG_ENABLE_FKEY = 1002
SQLITE_DBCONFIG_ENABLE_FTS3_TOKENIZER = 1004
SQLITE_DBCONFIG_ENABLE_LOAD_EXTENSION = 1005
SQLITE_DBCONFIG_ENABLE_QPSG = 1007
SQLITE_DBCONFIG_ENABLE_TRIGGER = 1003
SQLITE_DBCONFIG_ENABLE_VIEW = 1015
SQLITE_DBCONFIG_LEGACY_ALTER_TABLE = 1012
SQLITE_DBCONFIG_LEGACY_FILE_FORMAT = 1016
SQLITE_DBCONFIG_LOOKASIDE = 1001
SQLITE_DBCONFIG_MAINDBNAME = 1000
SQLITE_DBCONFIG_MAX = 1017
SQLITE_DBCONFIG_NO_CKPT_ON_CLOSE = 1006
SQLITE_DBCONFIG_RESET_DATABASE = 1009
SQLITE_DBCONFIG_TRIGGER_EQP = 1008
SQLITE_DBCONFIG_TRUSTED_SCHEMA = 1017
SQLITE_DBCONFIG_WRITABLE_SCHEMA = 1011
SQLITE_DBSTATUS_CACHE_HIT = 7
SQLITE_DBSTATUS_CACHE_MISS = 8
SQLITE_DBSTATUS_CACHE_SPILL = 12
SQLITE_DBSTATUS_CACHE_USED = 1
SQLITE_DBSTATUS_CACHE_USED_SHARED = 11
SQLITE_DBSTATUS_CACHE_WRITE = 9
SQLITE_DBSTATUS_DEFERRED_FKS = 10
SQLITE_DBSTATUS_LOOKASIDE_HIT = 4
SQLITE_DBSTATUS_LOOKASIDE_MISS_FULL = 6
SQLITE_DBSTATUS_LOOKASIDE_MISS_SIZE = 5
SQLITE_DBSTATUS_LOOKASIDE_USED = 0
SQLITE_DBSTATUS_MAX = 12
SQLITE_DBSTATUS_SCHEMA_USED = 2
SQLITE_DBSTATUS_STMT_USED = 3
SQLITE_DEFAULT_AUTOVACUUM = 0
SQLITE_DEFAULT_CACHE_SIZE = -2000
SQLITE_DEFAULT_FILE_FORMAT = 4
SQLITE_DEFAULT_FILE_PERMISSIONS = 0644
SQLITE_DEFAULT_JOURNAL_SIZE_LIMIT = -1
SQLITE_DEFAULT_LOOKASIDE = 40
SQLITE_DEFAULT_MEMSTATUS = 0
SQLITE_DEFAULT_MMAP_SIZE = 0
SQLITE_DEFAULT_PAGE_SIZE = 4096
SQLITE_DEFAULT_PCACHE_INITSZ = 20
SQLITE_DEFAULT_PROXYDIR_PERMISSIONS = 0755
SQLITE_DEFAULT_RECURSIVE_TRIGGERS = 0
SQLITE_DEFAULT_SECTOR_SIZE = 4096
SQLITE_DEFAULT_SORTERREF_SIZE = 0x7fffffff
SQLITE_DEFAULT_SYNCHRONOUS = 2
SQLITE_DEFAULT_WAL_AUTOCHECKPOINT = 1000
SQLITE_DEFAULT_WAL_SYNCHRONOUS = 2
SQLITE_DEFAULT_WORKER_THREADS = 0
SQLITE_DELETE = 9
SQLITE_DENY = 1
SQLITE_DEPRECATED = 0
SQLITE_DESERIALIZE_FREEONCLOSE = 1
SQLITE_DESERIALIZE_READONLY = 4
SQLITE_DESERIALIZE_RESIZEABLE = 2
SQLITE_DETACH = 25
SQLITE_DETERMINISTIC = 0x000000800
SQLITE_DIRECTONLY = 0x000080000
SQLITE_DONE = 101
SQLITE_DQS = 3
SQLITE_DROP_INDEX = 10
SQLITE_DROP_TABLE = 11
SQLITE_DROP_TEMP_INDEX = 12
SQLITE_DROP_TEMP_TABLE = 13
SQLITE_DROP_TEMP_TRIGGER = 14
SQLITE_DROP_TEMP_VIEW = 15
SQLITE_DROP_TRIGGER = 16
SQLITE_DROP_VIEW = 17
SQLITE_DROP_VTABLE = 30
SQLITE_Defensive = 0x10000000
SQLITE_DeferFKs = 0x00080000
SQLITE_DistinctOpt = 0x00000010
SQLITE_DqsDDL = 0x20000000
SQLITE_DqsDML = 0x40000000
SQLITE_ECEL_DUP = 0x01
SQLITE_ECEL_FACTOR = 0x02
SQLITE_ECEL_OMITREF = 0x08
SQLITE_ECEL_REF = 0x04
SQLITE_EMPTY = 16
SQLITE_ENABLE_COLUMN_METADATA = 1
SQLITE_ENABLE_FTS5 = 1
SQLITE_ENABLE_GEOPOLY = 1
SQLITE_ENABLE_LOCKING_STYLE = 1
SQLITE_ENABLE_MATH_FUNCTIONS = 1
SQLITE_ENABLE_MEMORY_MANAGEMENT = 1
SQLITE_ENABLE_OFFSET_SQL_FUNC = 1
SQLITE_ENABLE_PREUPDATE_HOOK = 1
SQLITE_ENABLE_RBU = 1
SQLITE_ENABLE_RTREE = 1
SQLITE_ENABLE_SESSION = 1
SQLITE_ENABLE_SNAPSHOT = 1
SQLITE_ENABLE_STAT4 = 1
SQLITE_ENABLE_UNLOCK_NOTIFY = 1
SQLITE_ERROR = 1
SQLITE_ERROR_MISSING_COLLSEQ = 257
SQLITE_ERROR_RETRY = 513
SQLITE_ERROR_SNAPSHOT = 769
SQLITE_EXPERIMENTAL = 0
SQLITE_EXTENSION_INIT1 = 0
SQLITE_EXTENSION_INIT3 = 0
SQLITE_EnableQPSG = 0x00800000
SQLITE_EnableTrigger = 0x00040000
SQLITE_EnableView = 0x80000000
SQLITE_FAIL = 3
SQLITE_FAULTINJECTOR_COUNT = 1
SQLITE_FAULTINJECTOR_MALLOC = 0
SQLITE_FCNTL_BEGIN_ATOMIC_WRITE = 31
SQLITE_FCNTL_BUSYHANDLER = 15
SQLITE_FCNTL_CHUNK_SIZE = 6
SQLITE_FCNTL_CKPT_DONE = 37
SQLITE_FCNTL_CKPT_START = 39
SQLITE_FCNTL_CKSM_FILE = 41
SQLITE_FCNTL_COMMIT_ATOMIC_WRITE = 32
SQLITE_FCNTL_COMMIT_PHASETWO = 22
SQLITE_FCNTL_DATA_VERSION = 35
SQLITE_FCNTL_DB_UNCHANGED = 0xca093fa0
SQLITE_FCNTL_EXTERNAL_READER = 40
SQLITE_FCNTL_FILE_POINTER = 7
SQLITE_FCNTL_GET_LOCKPROXYFILE = 2
SQLITE_FCNTL_HAS_MOVED = 20
SQLITE_FCNTL_JOURNAL_POINTER = 28
SQLITE_FCNTL_LAST_ERRNO = 4
SQLITE_FCNTL_LOCKSTATE = 1
SQLITE_FCNTL_LOCK_TIMEOUT = 34
SQLITE_FCNTL_MMAP_SIZE = 18
SQLITE_FCNTL_OVERWRITE = 11
SQLITE_FCNTL_PDB = 30
SQLITE_FCNTL_PERSIST_WAL = 10
SQLITE_FCNTL_POWERSAFE_OVERWRITE = 13
SQLITE_FCNTL_PRAGMA = 14
SQLITE_FCNTL_RBU = 26
SQLITE_FCNTL_RBUCNT = 5149216
SQLITE_FCNTL_RESERVE_BYTES = 38
SQLITE_FCNTL_RESET_CACHE = 42
SQLITE_FCNTL_ROLLBACK_ATOMIC_WRITE = 33
SQLITE_FCNTL_SET_LOCKPROXYFILE = 3
SQLITE_FCNTL_SIZE_HINT = 5
SQLITE_FCNTL_SIZE_LIMIT = 36
SQLITE_FCNTL_SYNC = 21
SQLITE_FCNTL_SYNC_OMITTED = 8
SQLITE_FCNTL_TEMPFILENAME = 16
SQLITE_FCNTL_TRACE = 19
SQLITE_FCNTL_VFSNAME = 12
SQLITE_FCNTL_VFS_POINTER = 27
SQLITE_FCNTL_WAL_BLOCK = 24
SQLITE_FCNTL_WIN32_AV_RETRY = 9
SQLITE_FCNTL_WIN32_GET_HANDLE = 29
SQLITE_FCNTL_WIN32_SET_HANDLE = 23
SQLITE_FCNTL_ZIPVFS = 25
SQLITE_FILE_HEADER = "SQLite format 3"
SQLITE_FLOAT = 2
SQLITE_FORMAT = 24
SQLITE_FP_PRECISION_LIMIT = 100000000
SQLITE_FRAME_MAGIC = 0x879fb71e
SQLITE_FSFLAGS_IS_MSDOS = 0x1
SQLITE_FULL = 13
SQLITE_FUNCTION = 31
SQLITE_FUNC_ANYORDER = 0x08000000
SQLITE_FUNC_BUILTIN = 0x00800000
SQLITE_FUNC_CASE = 0x0008
SQLITE_FUNC_CONSTANT = 0x0800
SQLITE_FUNC_COUNT = 0x0100
SQLITE_FUNC_DIRECT = 0x00080000
SQLITE_FUNC_ENCMASK = 0x0003
SQLITE_FUNC_EPHEM = 0x0010
SQLITE_FUNC_HASH_SZ = 23
SQLITE_FUNC_INLINE = 0x00400000
SQLITE_FUNC_INTERNAL = 0x00040000
SQLITE_FUNC_LENGTH = 0x0040
SQLITE_FUNC_LIKE = 0x0004
SQLITE_FUNC_MINMAX = 0x1000
SQLITE_FUNC_NEEDCOLL = 0x0020
SQLITE_FUNC_SLOCHNG = 0x2000
SQLITE_FUNC_SUBTYPE = 0x00100000
SQLITE_FUNC_TEST = 0x4000
SQLITE_FUNC_TYPEOF = 0x0080
SQLITE_FUNC_UNLIKELY = 0x0400
SQLITE_FUNC_UNSAFE = 0x00200000
SQLITE_FUNC_WINDOW = 0x00010000
SQLITE_FactorOutConst = 0x00000008
SQLITE_FlttnUnionAll = 0x00800000
SQLITE_ForeignKeys = 0x00004000
SQLITE_Fts3Tokenizer = 0x00400000
SQLITE_FullColNames = 0x00000004
SQLITE_FullFSync = 0x00000008
SQLITE_GET_LOCKPROXYFILE = 2
SQLITE_GroupByOrder = 0x00000004
SQLITE_HASH_H = 0
SQLITE_HAVE_C99_MATH_FUNCS = 1
SQLITE_IDXTYPE_APPDEF = 0
SQLITE_IDXTYPE_IPK = 3
SQLITE_IDXTYPE_PRIMARYKEY = 2
SQLITE_IDXTYPE_UNIQUE = 1
SQLITE_IGNORE = 2
SQLITE_INDEX_CONSTRAINT_EQ = 2
SQLITE_INDEX_CONSTRAINT_FUNCTION = 150
SQLITE_INDEX_CONSTRAINT_GE = 32
SQLITE_INDEX_CONSTRAINT_GLOB = 66
SQLITE_INDEX_CONSTRAINT_GT = 4
SQLITE_INDEX_CONSTRAINT_IS = 72
SQLITE_INDEX_CONSTRAINT_ISNOT = 69
SQLITE_INDEX_CONSTRAINT_ISNOTNULL = 70
SQLITE_INDEX_CONSTRAINT_ISNULL = 71
SQLITE_INDEX_CONSTRAINT_LE = 8
SQLITE_INDEX_CONSTRAINT_LIKE = 65
SQLITE_INDEX_CONSTRAINT_LIMIT = 73
SQLITE_INDEX_CONSTRAINT_LT = 16
SQLITE_INDEX_CONSTRAINT_MATCH = 64
SQLITE_INDEX_CONSTRAINT_NE = 68
SQLITE_INDEX_CONSTRAINT_OFFSET = 74
SQLITE_INDEX_CONSTRAINT_REGEXP = 67
SQLITE_INDEX_SCAN_UNIQUE = 1
SQLITE_INNOCUOUS = 0x000200000
SQLITE_INSERT = 18
SQLITE_INTEGER = 1
SQLITE_INTEGRITY_CHECK_ERROR_MAX = 100
SQLITE_INTERNAL = 2
SQLITE_INTERRUPT = 9
SQLITE_IOCAP_ATOMIC = 0x00000001
SQLITE_IOCAP_ATOMIC16K = 0x00000040
SQLITE_IOCAP_ATOMIC1K = 0x00000004
SQLITE_IOCAP_ATOMIC2K = 0x00000008
SQLITE_IOCAP_ATOMIC32K = 0x00000080
SQLITE_IOCAP_ATOMIC4K = 0x00000010
SQLITE_IOCAP_ATOMIC512 = 0x00000002
SQLITE_IOCAP_ATOMIC64K = 0x00000100
SQLITE_IOCAP_ATOMIC8K = 0x00000020
SQLITE_IOCAP_BATCH_ATOMIC = 0x00004000
SQLITE_IOCAP_IMMUTABLE = 0x00002000
SQLITE_IOCAP_POWERSAFE_OVERWRITE = 0x00001000
SQLITE_IOCAP_SAFE_APPEND = 0x00000200
SQLITE_IOCAP_SEQUENTIAL = 0x00000400
SQLITE_IOCAP_UNDELETABLE_WHEN_OPEN = 0x00000800
SQLITE_IOERR = 10
SQLITE_IOERR_ACCESS = 3338
SQLITE_IOERR_AUTH = 7178
SQLITE_IOERR_BEGIN_ATOMIC = 7434
SQLITE_IOERR_BLOCKED = 2826
SQLITE_IOERR_CHECKRESERVEDLOCK = 3594
SQLITE_IOERR_CLOSE = 4106
SQLITE_IOERR_COMMIT_ATOMIC = 7690
SQLITE_IOERR_CONVPATH = 6666
SQLITE_IOERR_CORRUPTFS = 8458
SQLITE_IOERR_DATA = 8202
SQLITE_IOERR_DELETE = 2570
SQLITE_IOERR_DELETE_NOENT = 5898
SQLITE_IOERR_DIR_CLOSE = 4362
SQLITE_IOERR_DIR_FSYNC = 1290
SQLITE_IOERR_FSTAT = 1802
SQLITE_IOERR_FSYNC = 1034
SQLITE_IOERR_GETTEMPPATH = 6410
SQLITE_IOERR_LOCK = 3850
SQLITE_IOERR_MMAP = 6154
SQLITE_IOERR_NOMEM = 3082
SQLITE_IOERR_NOMEM_BKPT = 3082
SQLITE_IOERR_RDLOCK = 2314
SQLITE_IOERR_READ = 266
SQLITE_IOERR_ROLLBACK_ATOMIC = 7946
SQLITE_IOERR_SEEK = 5642
SQLITE_IOERR_SHMLOCK = 5130
SQLITE_IOERR_SHMMAP = 5386
SQLITE_IOERR_SHMOPEN = 4618
SQLITE_IOERR_SHMSIZE = 4874
SQLITE_IOERR_SHORT_READ = 522
SQLITE_IOERR_TRUNCATE = 1546
SQLITE_IOERR_UNLOCK = 2058
SQLITE_IOERR_VNODE = 6922
SQLITE_IOERR_WRITE = 778
SQLITE_IgnoreChecks = 0x00000200
SQLITE_IndexedExpr = 0x01000000
SQLITE_JUMPIFNULL = 0x10
SQLITE_LAST_ERRNO = 4
SQLITE_LIKE_DOESNT_MATCH_BLOBS = 1
SQLITE_LIMIT_ATTACHED = 7
SQLITE_LIMIT_COLUMN = 2
SQLITE_LIMIT_COMPOUND_SELECT = 4
SQLITE_LIMIT_EXPR_DEPTH = 3
SQLITE_LIMIT_FUNCTION_ARG = 6
SQLITE_LIMIT_LENGTH = 0
SQLITE_LIMIT_LIKE_PATTERN_LENGTH = 8
SQLITE_LIMIT_SQL_LENGTH = 1
SQLITE_LIMIT_TRIGGER_DEPTH = 10
SQLITE_LIMIT_VARIABLE_NUMBER = 9
SQLITE_LIMIT_VDBE_OP = 5
SQLITE_LIMIT_WORKER_THREADS = 11
SQLITE_LITTLEENDIAN = 1
SQLITE_LOCKED = 6
SQLITE_LOCKED_SHAREDCACHE = 262
SQLITE_LOCKED_VTAB = 518
SQLITE_LOCK_EXCLUSIVE = 4
SQLITE_LOCK_NONE = 0
SQLITE_LOCK_PENDING = 3
SQLITE_LOCK_RESERVED = 2
SQLITE_LOCK_SHARED = 1
SQLITE_LegacyAlter = 0x04000000
SQLITE_LegacyFileFmt = 0x00000002
SQLITE_LoadExtFunc = 0x00020000
SQLITE_LoadExtension = 0x00010000
SQLITE_MALLOC_SOFT_LIMIT = 1024
SQLITE_MATCH = 0
SQLITE_MAX_ALLOCATION_SIZE = 2147483391
SQLITE_MAX_ATTACHED = 10
SQLITE_MAX_COLUMN = 2000
SQLITE_MAX_COMPOUND_SELECT = 500
SQLITE_MAX_DB = 12
SQLITE_MAX_DEFAULT_PAGE_SIZE = 8192
SQLITE_MAX_EXPR_DEPTH = 1000
SQLITE_MAX_FILE_FORMAT = 4
SQLITE_MAX_FUNCTION_ARG = 127
SQLITE_MAX_LENGTH = 1000000000
SQLITE_MAX_LIKE_PATTERN_LENGTH = 50000
SQLITE_MAX_MEMORY = 0
SQLITE_MAX_MMAP_SIZE = 0x7fff0000
SQLITE_MAX_PAGE_COUNT = 1073741823
SQLITE_MAX_PAGE_SIZE = 65536
SQLITE_MAX_PATHLEN = 1024
SQLITE_MAX_PMASZ = 536870912
SQLITE_MAX_PREPARE_RETRY = 25
SQLITE_MAX_SCHEMA_RETRY = 50
SQLITE_MAX_SQL_LENGTH = 1000000000
SQLITE_MAX_SRCLIST = 200
SQLITE_MAX_SYMLINK = 200
SQLITE_MAX_SYMLINKS = 100
SQLITE_MAX_TRIGGER_DEPTH = 1000
SQLITE_MAX_VARIABLE_NUMBER = 32766
SQLITE_MAX_VDBE_OP = 250000000
SQLITE_MAX_WORKER_THREADS = 8
SQLITE_MEMDB_DEFAULT_MAXSIZE = 1073741824
SQLITE_MINIMUM_FILE_DESCRIPTOR = 3
SQLITE_MISMATCH = 20
SQLITE_MISUSE = 21
SQLITE_MSVC_H = 0
SQLITE_MUTEX_APPDEF = 1
SQLITE_MUTEX_FAST = 0
SQLITE_MUTEX_NOOP = 1
SQLITE_MUTEX_RECURSIVE = 1
SQLITE_MUTEX_STATIC_APP1 = 8
SQLITE_MUTEX_STATIC_APP2 = 9
SQLITE_MUTEX_STATIC_APP3 = 10
SQLITE_MUTEX_STATIC_LRU = 6
SQLITE_MUTEX_STATIC_LRU2 = 7
SQLITE_MUTEX_STATIC_MAIN = 2
SQLITE_MUTEX_STATIC_MASTER = 2
SQLITE_MUTEX_STATIC_MEM = 3
SQLITE_MUTEX_STATIC_MEM2 = 4
SQLITE_MUTEX_STATIC_OPEN = 4
SQLITE_MUTEX_STATIC_PMEM = 7
SQLITE_MUTEX_STATIC_PRNG = 5
SQLITE_MUTEX_STATIC_TEMPDIR = 11
SQLITE_MUTEX_STATIC_VFS1 = 11
SQLITE_MUTEX_STATIC_VFS2 = 12
SQLITE_MUTEX_STATIC_VFS3 = 13
SQLITE_MX_JUMP_OPCODE = 64
SQLITE_MinMaxOpt = 0x00010000
SQLITE_NOLFS = 22
SQLITE_NOMATCH = 1
SQLITE_NOMEM = 7
SQLITE_NOMEM_BKPT = 7
SQLITE_NOTADB = 26
SQLITE_NOTFOUND = 12
SQLITE_NOTICE = 27
SQLITE_NOTICE_RBU = 795
SQLITE_NOTICE_RECOVER_ROLLBACK = 539
SQLITE_NOTICE_RECOVER_WAL = 283
SQLITE_NOTNULL = 0x90
SQLITE_NOWILDCARDMATCH = 2
SQLITE_NTUNE = 6
SQLITE_NULL = 5
SQLITE_NULLEQ = 0x80
SQLITE_N_BTREE_META = 16
SQLITE_N_KEYWORD = 147
SQLITE_N_LIMIT = 12
SQLITE_N_STDTYPE = 6
SQLITE_NoCkptOnClose = 0x00000800
SQLITE_NoSchemaError = 0x08000000
SQLITE_NullCallback = 0x00000100
SQLITE_OK = 0
SQLITE_OK_LOAD_PERMANENTLY = 256
SQLITE_OK_SYMLINK = 512
SQLITE_OPEN_AUTOPROXY = 0x00000020
SQLITE_OPEN_CREATE = 0x00000004
SQLITE_OPEN_DELETEONCLOSE = 0x00000008
SQLITE_OPEN_EXCLUSIVE = 0x00000010
SQLITE_OPEN_EXRESCODE = 0x02000000
SQLITE_OPEN_FULLMUTEX = 0x00010000
SQLITE_OPEN_MAIN_DB = 0x00000100
SQLITE_OPEN_MAIN_JOURNAL = 0x00000800
SQLITE_OPEN_MASTER_JOURNAL = 0x00004000
SQLITE_OPEN_MEMORY = 0x00000080
SQLITE_OPEN_NOFOLLOW = 0x01000000
SQLITE_OPEN_NOMUTEX = 0x00008000
SQLITE_OPEN_PRIVATECACHE = 0x00040000
SQLITE_OPEN_READONLY = 0x00000001
SQLITE_OPEN_READWRITE = 0x00000002
SQLITE_OPEN_SHAREDCACHE = 0x00020000
SQLITE_OPEN_SUBJOURNAL = 0x00002000
SQLITE_OPEN_SUPER_JOURNAL = 0x00004000
SQLITE_OPEN_TEMP_DB = 0x00000200
SQLITE_OPEN_TEMP_JOURNAL = 0x00001000
SQLITE_OPEN_TRANSIENT_DB = 0x00000400
SQLITE_OPEN_URI = 0x00000040
SQLITE_OPEN_WAL = 0x00080000
SQLITE_OS_KV = 0
SQLITE_OS_OTHER = 0
SQLITE_OS_SETUP_H = 0
SQLITE_OS_UNIX = 1
SQLITE_OS_WIN = 0
SQLITE_OmitNoopJoin = 0x00000100
SQLITE_OmitOrderBy = 0x00040000
SQLITE_OrderByIdxJoin = 0x00000040
SQLITE_PAGER_H = 0
SQLITE_PERM = 3
SQLITE_POWERSAFE_OVERWRITE = 1
SQLITE_PRAGMA = 19
SQLITE_PREPARE_MASK = 0x0f
SQLITE_PREPARE_NORMALIZE = 0x02
SQLITE_PREPARE_NO_VTAB = 0x04
SQLITE_PREPARE_PERSISTENT = 0x01
SQLITE_PREPARE_SAVESQL = 0x80
SQLITE_PRINTF_INTERNAL = 0x01
SQLITE_PRINTF_MALLOCED = 0x04
SQLITE_PRINTF_SQLFUNC = 0x02
SQLITE_PRINT_BUF_SIZE = 70
SQLITE_PRIVATE = 0
SQLITE_PROTOCOL = 15
SQLITE_PTRSIZE = 8
SQLITE_PropagateConst = 0x00008000
SQLITE_PushDown = 0x00001000
SQLITE_QUERY_PLANNER_LIMIT = 20000
SQLITE_QUERY_PLANNER_LIMIT_INCR = 1000
SQLITE_QueryFlattener = 0x00000001
SQLITE_QueryOnly = 0x00100000
SQLITE_RANGE = 25
SQLITE_RBU_STATE_CHECKPOINT = 3
SQLITE_RBU_STATE_DONE = 4
SQLITE_RBU_STATE_ERROR = 5
SQLITE_RBU_STATE_MOVE = 2
SQLITE_RBU_STATE_OAL = 1
SQLITE_RBU_UPDATE_CACHESIZE = 16
SQLITE_READ = 20
SQLITE_READONLY = 8
SQLITE_READONLY_CANTINIT = 1288
SQLITE_READONLY_CANTLOCK = 520
SQLITE_READONLY_DBMOVED = 1032
SQLITE_READONLY_DIRECTORY = 1544
SQLITE_READONLY_RECOVERY = 264
SQLITE_READONLY_ROLLBACK = 776
SQLITE_RECURSIVE = 33
SQLITE_REINDEX = 27
SQLITE_REPLACE = 5
SQLITE_ROLLBACK = 1
SQLITE_ROW = 100
SQLITE_ReadUncommit = 0x00000400
SQLITE_RecTriggers = 0x00002000
SQLITE_ReleaseReg = 0x00400000
SQLITE_ResetDatabase = 0x02000000
SQLITE_ReverseOrder = 0x00001000
SQLITE_SAVEPOINT = 32
SQLITE_SCANSTAT_COMPLEX = 0x0001
SQLITE_SCANSTAT_EST = 2
SQLITE_SCANSTAT_EXPLAIN = 4
SQLITE_SCANSTAT_NAME = 3
SQLITE_SCANSTAT_NCYCLE = 7
SQLITE_SCANSTAT_NLOOP = 0
SQLITE_SCANSTAT_NVISIT = 1
SQLITE_SCANSTAT_PARENTID = 6
SQLITE_SCANSTAT_SELECTID = 5
SQLITE_SCHEMA = 17
SQLITE_SELECT = 21
SQLITE_SERIALIZE_NOCOPY = 0x001
SQLITE_SESSION_CONFIG_STRMSIZE = 1
SQLITE_SESSION_OBJCONFIG_SIZE = 1
SQLITE_SET_LOCKPROXYFILE = 3
SQLITE_SHM_EXCLUSIVE = 8
SQLITE_SHM_LOCK = 2
SQLITE_SHM_NLOCK = 8
SQLITE_SHM_SHARED = 4
SQLITE_SHM_UNLOCK = 1
SQLITE_SORTER_PMASZ = 250
SQLITE_SOUNDEX = 1
SQLITE_SOURCE_ID = "2023-02-21 18:09:37 05941c2a04037fc3ed2ffae11f5d2260706f89431f463518740f72ada350866d"
SQLITE_SO_ASC = 0
SQLITE_SO_DESC = 1
SQLITE_SO_UNDEFINED = -1
SQLITE_STAT4_SAMPLES = 24
SQLITE_STATE_BUSY = 0x6d
SQLITE_STATE_CLOSED = 0xce
SQLITE_STATE_ERROR = 0xd5
SQLITE_STATE_OPEN = 0x76
SQLITE_STATE_SICK = 0xba
SQLITE_STATE_ZOMBIE = 0xa7
SQLITE_STATUS_MALLOC_COUNT = 9
SQLITE_STATUS_MALLOC_SIZE = 5
SQLITE_STATUS_MEMORY_USED = 0
SQLITE_STATUS_PAGECACHE_OVERFLOW = 2
SQLITE_STATUS_PAGECACHE_SIZE = 7
SQLITE_STATUS_PAGECACHE_USED = 1
SQLITE_STATUS_PARSER_STACK = 6
SQLITE_STATUS_SCRATCH_OVERFLOW = 4
SQLITE_STATUS_SCRATCH_SIZE = 8
SQLITE_STATUS_SCRATCH_USED = 3
SQLITE_STDCALL = 0
SQLITE_STMTJRNL_SPILL = 65536
SQLITE_STMTSTATUS_AUTOINDEX = 3
SQLITE_STMTSTATUS_FILTER_HIT = 8
SQLITE_STMTSTATUS_FILTER_MISS = 7
SQLITE_STMTSTATUS_FULLSCAN_STEP = 1
SQLITE_STMTSTATUS_MEMUSED = 99
SQLITE_STMTSTATUS_REPREPARE = 5
SQLITE_STMTSTATUS_RUN = 6
SQLITE_STMTSTATUS_SORT = 2
SQLITE_STMTSTATUS_VM_STEP = 4
SQLITE_SUBTYPE = 0x000100000
SQLITE_SYNC_DATAONLY = 0x00010
SQLITE_SYNC_FULL = 0x00003
SQLITE_SYNC_NORMAL = 0x00002
SQLITE_SYSAPI = 0
SQLITE_SYSTEM_MALLOC = 1
SQLITE_SeekScan = 0x00020000
SQLITE_ShortColNames = 0x00000040
SQLITE_SimplifyJoin = 0x00002000
SQLITE_SkipScan = 0x00004000
SQLITE_Stat4 = 0x00000800
SQLITE_TCLAPI = 0
SQLITE_TEMP_FILE_PREFIX = "etilqs_"
SQLITE_TEMP_STORE = 1
SQLITE_TESTCTRL_ALWAYS = 13
SQLITE_TESTCTRL_ASSERT = 12
SQLITE_TESTCTRL_BENIGN_MALLOC_HOOKS = 10
SQLITE_TESTCTRL_BITVEC_TEST = 8
SQLITE_TESTCTRL_BYTEORDER = 22
SQLITE_TESTCTRL_EXPLAIN_STMT = 19
SQLITE_TESTCTRL_EXTRA_SCHEMA_CHECKS = 29
SQLITE_TESTCTRL_FAULT_INSTALL = 9
SQLITE_TESTCTRL_FIRST = 5
SQLITE_TESTCTRL_IMPOSTER = 25
SQLITE_TESTCTRL_INTERNAL_FUNCTIONS = 17
SQLITE_TESTCTRL_ISINIT = 23
SQLITE_TESTCTRL_ISKEYWORD = 16
SQLITE_TESTCTRL_LAST = 33
SQLITE_TESTCTRL_LOCALTIME_FAULT = 18
SQLITE_TESTCTRL_LOGEST = 33
SQLITE_TESTCTRL_NEVER_CORRUPT = 20
SQLITE_TESTCTRL_ONCE_RESET_THRESHOLD = 19
SQLITE_TESTCTRL_OPTIMIZATIONS = 15
SQLITE_TESTCTRL_PARSER_COVERAGE = 26
SQLITE_TESTCTRL_PENDING_BYTE = 11
SQLITE_TESTCTRL_PRNG_RESET = 7
SQLITE_TESTCTRL_PRNG_RESTORE = 6
SQLITE_TESTCTRL_PRNG_SAVE = 5
SQLITE_TESTCTRL_PRNG_SEED = 28
SQLITE_TESTCTRL_RESERVE = 14
SQLITE_TESTCTRL_RESULT_INTREAL = 27
SQLITE_TESTCTRL_SCRATCHMALLOC = 17
SQLITE_TESTCTRL_SEEK_COUNT = 30
SQLITE_TESTCTRL_SORTER_MMAP = 24
SQLITE_TESTCTRL_TRACEFLAGS = 31
SQLITE_TESTCTRL_TUNE = 32
SQLITE_TESTCTRL_VDBE_COVERAGE = 21
SQLITE_TEXT = 3
SQLITE_THREADSAFE = 1
SQLITE_TOKEN_KEYWORD = 0x2
SQLITE_TOKEN_QUOTED = 0x1
SQLITE_TOOBIG = 18
SQLITE_TRACE_CLOSE = 0x08
SQLITE_TRACE_LEGACY = 0x40
SQLITE_TRACE_NONLEGACY_MASK = 0x0f
SQLITE_TRACE_PROFILE = 0x02
SQLITE_TRACE_ROW = 0x04
SQLITE_TRACE_STMT = 0x01
SQLITE_TRACE_XPROFILE = 0x80
SQLITE_TRANSACTION = 22
SQLITE_TXN_NONE = 0
SQLITE_TXN_READ = 1
SQLITE_TXN_WRITE = 2
SQLITE_Transitive = 0x00000080
SQLITE_TriggerEQP = 0x01000000
SQLITE_TrustedSchema = 0x00000080
SQLITE_UPDATE = 23
SQLITE_USE_URI = 0
SQLITE_UTF16 = 4
SQLITE_UTF16BE = 3
SQLITE_UTF16LE = 2
SQLITE_UTF16NATIVE = 2
SQLITE_UTF16_ALIGNED = 8
SQLITE_UTF8 = 1
SQLITE_VDBEINT_H = 0
SQLITE_VDBE_H = 0
SQLITE_VERSION = "3.41.0"
SQLITE_VERSION_NUMBER = 3041000
SQLITE_VTABRISK_High = 2
SQLITE_VTABRISK_Low = 0
SQLITE_VTABRISK_Normal = 1
SQLITE_VTAB_CONSTRAINT_SUPPORT = 1
SQLITE_VTAB_DIRECTONLY = 3
SQLITE_VTAB_INNOCUOUS = 2
SQLITE_WAL_H = 0
SQLITE_WARNING = 28
SQLITE_WARNING_AUTOINDEX = 284
SQLITE_WHEREINT_H = 0
SQLITE_WIN32_DATA_DIRECTORY_TYPE = 1
SQLITE_WIN32_TEMP_DIRECTORY_TYPE = 2
SQLITE_WITHOUT_ZONEMALLOC = 1
SQLITE_WSD = 0
SQLITE_WindowFunc = 0x00000002
SQLITE_WriteSchema = 0x00000001
SRCHFS_MATCHDIRS = 0x00000004
SRCHFS_MATCHFILES = 0x00000008
SRCHFS_MATCHPARTIALNAMES = 0x00000002
SRCHFS_NEGATEPARAMS = 0x80000000
SRCHFS_SKIPINAPPROPRIATE = 0x00000080
SRCHFS_SKIPINVISIBLE = 0x00000020
SRCHFS_SKIPLINKS = 0x00000010
SRCHFS_SKIPPACKAGES = 0x00000040
SRCHFS_START = 0x00000001
SRCHFS_VALIDOPTIONSMASK = 0x800000FF
SRT_Coroutine = 13
SRT_Discard = 4
SRT_DistFifo = 5
SRT_DistQueue = 6
SRT_EphemTab = 12
SRT_Except = 2
SRT_Exists = 3
SRT_Fifo = 8
SRT_Mem = 10
SRT_Output = 9
SRT_Queue = 7
SRT_Set = 11
SRT_Table = 14
SRT_Union = 1
SRT_Upfrom = 15
SS_DISABLE = 0x0004
SS_ONSTACK = 0x0001
STAT_GET_NDLT = 4
STAT_GET_NEQ = 2
STAT_GET_NLT = 3
STAT_GET_ROWID = 1
STAT_GET_STAT1 = 0
STDERR_FILENO = 2
STDIN_FILENO = 0
STDOUT_FILENO = 1
SV_INTERRUPT = 2
SV_NOCLDSTOP = 8
SV_NODEFER = 16
SV_ONSTACK = 1
SV_RESETHAND = 4
SV_SIGINFO = 64
SYNC_VOLUME_FULLSYNC = 0x01
SYNC_VOLUME_WAIT = 0x02
S_BLKSIZE = 512
S_IEXEC = 64
S_IFBLK = 0060000
S_IFCHR = 0020000
S_IFDIR = 0040000
S_IFIFO = 0010000
S_IFLNK = 0120000
S_IFMT = 0170000
S_IFREG = 0100000
S_IFSOCK = 0140000
S_IFWHT = 0160000
S_IREAD = 256
S_IRGRP = 0000040
S_IROTH = 0000004
S_IRUSR = 0000400
S_IRWXG = 0000070
S_IRWXO = 0000007
S_IRWXU = 0000700
S_ISGID = 0002000
S_ISTXT = 512
S_ISUID = 0004000
S_ISVTX = 0001000
S_IWGRP = 0000020
S_IWOTH = 0000002
S_IWRITE = 128
S_IWUSR = 0000200
S_IXGRP = 0000010
S_IXOTH = 0000001
S_IXUSR = 0000100
TABLDISC = 3
TABTYP_NORM = 0
TABTYP_VIEW = 2
TABTYP_VTAB = 1
TARGET_ABI_USES_IOS_VALUES = 0
TARGET_CPU_68K = 0
TARGET_CPU_ALPHA = 0
TARGET_CPU_ARM = 0
TARGET_CPU_ARM64 = 0
TARGET_CPU_MIPS = 0
TARGET_CPU_PPC = 0
TARGET_CPU_PPC64 = 0
TARGET_CPU_SPARC = 0
TARGET_CPU_X86 = 0
TARGET_CPU_X86_64 = 1
TARGET_IPHONE_SIMULATOR = 0
TARGET_OS_DRIVERKIT = 0
TARGET_OS_EMBEDDED = 0
TARGET_OS_IOS = 0
TARGET_OS_IPHONE = 0
TARGET_OS_MAC = 1
TARGET_OS_MACCATALYST = 0
TARGET_OS_NANO = 0
TARGET_OS_OSX = 1
TARGET_OS_RTKIT = 0
TARGET_OS_SIMULATOR = 0
TARGET_OS_TV = 0
TARGET_OS_UIKITFORMAC = 0
TARGET_OS_UNIX = 0
TARGET_OS_WATCH = 0
TARGET_OS_WIN32 = 0
TARGET_RT_64_BIT = 1
TARGET_RT_BIG_ENDIAN = 0
TARGET_RT_LITTLE_ENDIAN = 1
TARGET_RT_MAC_CFM = 0
TARGET_RT_MAC_MACHO = 1
TERM_ANDINFO = 0x0020
TERM_CODED = 0x0004
TERM_COPIED = 0x0008
TERM_DYNAMIC = 0x0001
TERM_HEURTRUTH = 0x2000
TERM_HIGHTRUTH = 0x4000
TERM_IS = 0x0800
TERM_LIKE = 0x0400
TERM_LIKECOND = 0x0200
TERM_LIKEOPT = 0x0100
TERM_OK = 0x0040
TERM_ORINFO = 0x0010
TERM_SLICE = 0x8000
TERM_VARSELECT = 0x1000
TERM_VIRTUAL = 0x0002
TERM_VNULL = 0x0080
TF_Autoincrement = 0x00000008
TF_Ephemeral = 0x00004000
TF_Eponymous = 0x00008000
TF_HasGenerated = 0x00000060
TF_HasHidden = 0x00000002
TF_HasNotNull = 0x00000800
TF_HasPrimaryKey = 0x00000004
TF_HasStat1 = 0x00000010
TF_HasStat4 = 0x00002000
TF_HasStored = 0x00000040
TF_HasVirtual = 0x00000020
TF_NoVisibleRowid = 0x00000200
TF_OOOHidden = 0x00000400
TF_Readonly = 0x00000001
TF_Shadow = 0x00001000
TF_StatsUsed = 0x00000100
TF_Strict = 0x00010000
TF_WithoutRowid = 0x00000080
TIMER_END = 0
TIMER_START = 0
TIME_UTC = 1
TIOCM_CAR = 0100
TIOCM_CD = 64
TIOCM_CTS = 0040
TIOCM_DSR = 0400
TIOCM_DTR = 0002
TIOCM_LE = 0001
TIOCM_RI = 128
TIOCM_RNG = 0200
TIOCM_RTS = 0004
TIOCM_SR = 0020
TIOCM_ST = 0010
TIOCPKT_DATA = 0x00
TIOCPKT_DOSTOP = 0x20
TIOCPKT_FLUSHREAD = 0x01
TIOCPKT_FLUSHWRITE = 0x02
TIOCPKT_IOCTL = 0x40
TIOCPKT_NOSTOP = 0x10
TIOCPKT_START = 0x08
TIOCPKT_STOP = 0x04
TK_ABORT = 27
TK_ACTION = 28
TK_ADD = 163
TK_AFTER = 29
TK_AGG_COLUMN = 169
TK_AGG_FUNCTION = 168
TK_ALL = 135
TK_ALTER = 162
TK_ALWAYS = 96
TK_ANALYZE = 30
TK_AND = 44
TK_ANY = 101
TK_AS = 24
TK_ASC = 31
TK_ASTERISK = 180
TK_ATTACH = 32
TK_AUTOINCR = 126
TK_BEFORE = 33
TK_BEGIN = 5
TK_BETWEEN = 48
TK_BITAND = 102
TK_BITNOT = 114
TK_BITOR = 103
TK_BLOB = 154
TK_BY = 34
TK_CASCADE = 35
TK_CASE = 157
TK_CAST = 36
TK_CHECK = 124
TK_COLLATE = 113
TK_COLUMN = 167
TK_COLUMNKW = 60
TK_COMMA = 25
TK_COMMIT = 10
TK_CONCAT = 111
TK_CONFLICT = 37
TK_CONSTRAINT = 119
TK_CREATE = 17
TK_CTIME_KW = 100
TK_CURRENT = 85
TK_DATABASE = 38
TK_DEFAULT = 120
TK_DEFERRABLE = 131
TK_DEFERRED = 7
TK_DELETE = 128
TK_DESC = 39
TK_DETACH = 40
TK_DISTINCT = 140
TK_DO = 61
TK_DOT = 141
TK_DROP = 133
TK_EACH = 41
TK_ELSE = 160
TK_END = 11
TK_EQ = 53
TK_ERROR = 182
TK_ESCAPE = 58
TK_EXCEPT = 136
TK_EXCLUDE = 91
TK_EXCLUSIVE = 9
TK_EXISTS = 20
TK_EXPLAIN = 2
TK_FAIL = 42
TK_FILTER = 166
TK_FIRST = 83
TK_FLOAT = 153
TK_FOLLOWING = 86
TK_FOR = 62
TK_FOREIGN = 132
TK_FROM = 142
TK_FUNCTION = 172
TK_GE = 57
TK_GENERATED = 95
TK_GROUP = 146
TK_GROUPS = 92
TK_GT = 54
TK_HAVING = 147
TK_ID = 59
TK_IF = 18
TK_IF_NULL_ROW = 179
TK_IGNORE = 63
TK_ILLEGAL = 184
TK_IMMEDIATE = 8
TK_IN = 49
TK_INDEX = 161
TK_INDEXED = 116
TK_INITIALLY = 64
TK_INSERT = 127
TK_INSTEAD = 65
TK_INTEGER = 155
TK_INTERSECT = 137
TK_INTO = 151
TK_IS = 45
TK_ISNOT = 171
TK_ISNULL = 50
TK_JOIN = 143
TK_JOIN_KW = 118
TK_KEY = 67
TK_LAST = 84
TK_LE = 55
TK_LIKE_KW = 47
TK_LIMIT = 148
TK_LP = 22
TK_LSHIFT = 104
TK_LT = 56
TK_MATCH = 46
TK_MATERIALIZED = 97
TK_MINUS = 107
TK_NE = 52
TK_NO = 66
TK_NOT = 19
TK_NOTHING = 152
TK_NOTNULL = 51
TK_NULL = 121
TK_NULLS = 82
TK_OF = 68
TK_OFFSET = 69
TK_ON = 115
TK_OR = 43
TK_ORDER = 145
TK_OTHERS = 93
TK_OVER = 165
TK_PARTITION = 87
TK_PLAN = 4
TK_PLUS = 106
TK_PRAGMA = 70
TK_PRECEDING = 88
TK_PRIMARY = 122
TK_PTR = 112
TK_QUERY = 3
TK_RAISE = 71
TK_RANGE = 89
TK_RECURSIVE = 72
TK_REFERENCES = 125
TK_REGISTER = 176
TK_REINDEX = 98
TK_RELEASE = 14
TK_REM = 110
TK_RENAME = 99
TK_REPLACE = 73
TK_RESTRICT = 74
TK_RETURNING = 150
TK_ROLLBACK = 12
TK_ROW = 75
TK_ROWS = 76
TK_RP = 23
TK_RSHIFT = 105
TK_SAVEPOINT = 13
TK_SELECT = 138
TK_SELECT_COLUMN = 178
TK_SEMI = 1
TK_SET = 130
TK_SLASH = 109
TK_SPACE = 183
TK_SPAN = 181
TK_STAR = 108
TK_STRING = 117
TK_TABLE = 16
TK_TEMP = 21
TK_THEN = 159
TK_TIES = 94
TK_TO = 15
TK_TRANSACTION = 6
TK_TRIGGER = 77
TK_TRUEFALSE = 170
TK_TRUTH = 175
TK_UMINUS = 173
TK_UNBOUNDED = 90
TK_UNION = 134
TK_UNIQUE = 123
TK_UPDATE = 129
TK_UPLUS = 174
TK_USING = 144
TK_VACUUM = 78
TK_VALUES = 139
TK_VARIABLE = 156
TK_VECTOR = 177
TK_VIEW = 79
TK_VIRTUAL = 80
TK_WHEN = 158
TK_WHERE = 149
TK_WINDOW = 164
TK_WITH = 81
TK_WITHOUT = 26
TLOSS = 5
TMP_MAX = 308915776
TRACEBUF = 0
TRANS_NONE = 0
TRANS_READ = 1
TRANS_WRITE = 2
TRAP_BRKPT = 1
TRAP_TRACE = 2
TREETRACE_ENABLED = 0
TRIGGER_AFTER = 2
TRIGGER_BEFORE = 1
TRUE = 1
TTYDISC = 0
UCHAR_MAX = 255
UF_APPEND = 0x00000004
UF_COMPRESSED = 0x00000020
UF_DATAVAULT = 0x00000080
UF_HIDDEN = 0x00008000
UF_IMMUTABLE = 0x00000002
UF_NODUMP = 0x00000001
UF_OPAQUE = 0x00000008
UF_SETTABLE = 0x0000ffff
UF_TRACKED = 0x00000040
UID_MAX = 2147483647
UINT16_MAX = 65535
UINT32_MAX = 4294967295
UINT64_MAX = 18446744073709551615
UINT8_MAX = 255
UINTMAX_MAX = 18446744073709551615
UINTPTR_MAX = 18446744073709551615
UINT_FAST16_MAX = 65535
UINT_FAST32_MAX = 4294967295
UINT_FAST64_MAX = 18446744073709551615
UINT_FAST8_MAX = 255
UINT_LEAST16_MAX = 65535
UINT_LEAST32_MAX = 4294967295
UINT_LEAST64_MAX = 18446744073709551615
UINT_LEAST8_MAX = 255
UINT_MAX = 4294967295
ULLONG_MAX = 18446744073709551615
ULONG_LONG_MAX = 18446744073709551615
ULONG_MAX = 18446744073709551615
UNDERFLOW = 4
UNIXFILE_DELETE = 0x20
UNIXFILE_DIRSYNC = 0x08
UNIXFILE_EXCL = 0x01
UNIXFILE_NOLOCK = 0x80
UNIXFILE_PERSIST_WAL = 0x04
UNIXFILE_PSOW = 0x10
UNIXFILE_RDONLY = 0x02
UNIXFILE_URI = 0x40
UNIX_SHM_BASE = 120
UNIX_SHM_DMS = 128
UNKNOWN_LOCK = 5
USE_PREAD = 1
USHRT_MAX = 65535
UTIME_NOW = -1
UTIME_OMIT = -2
VDBE_DISPLAY_P4 = 1
VDBE_HALT_STATE = 3
VDBE_INIT_STATE = 0
VDBE_READY_STATE = 1
VDBE_RUN_STATE = 2
VFS_CONF = 2
VFS_CTL_DISC = 0x00010008
VFS_CTL_NEWADDR = 0x00010004
VFS_CTL_NOLOCKS = 0x00010006
VFS_CTL_NSTATUS = 0x0001000A
VFS_CTL_QUERY = 0x00010003
VFS_CTL_SADDR = 0x00010007
VFS_CTL_SERVERINFO = 0x00010009
VFS_CTL_STATFS = 0x00010001
VFS_CTL_TIMEO = 0x00010005
VFS_CTL_UMOUNT = 0x00010002
VFS_CTL_VERS1 = 0x01
VFS_GENERIC = 0
VFS_MAXTYPENUM = 1
VFS_NUMMNTOPS = 1
VOL_CAPABILITIES_FORMAT = 0
VOL_CAPABILITIES_INTERFACES = 1
VOL_CAPABILITIES_RESERVED1 = 2
VOL_CAPABILITIES_RESERVED2 = 3
VOL_CAP_FMT_2TB_FILESIZE = 0x00000800
VOL_CAP_FMT_64BIT_OBJECT_IDS = 0x00020000
VOL_CAP_FMT_CASE_PRESERVING = 0x00000200
VOL_CAP_FMT_CASE_SENSITIVE = 0x00000100
VOL_CAP_FMT_DECMPFS_COMPRESSION = 0x00010000
VOL_CAP_FMT_DIR_HARDLINKS = 0x00040000
VOL_CAP_FMT_DOCUMENT_ID = 0x00080000
VOL_CAP_FMT_FAST_STATFS = 0x00000400
VOL_CAP_FMT_HARDLINKS = 0x00000004
VOL_CAP_FMT_HIDDEN_FILES = 0x00002000
VOL_CAP_FMT_JOURNAL = 0x00000008
VOL_CAP_FMT_JOURNAL_ACTIVE = 0x00000010
VOL_CAP_FMT_NO_IMMUTABLE_FILES = 0x00200000
VOL_CAP_FMT_NO_PERMISSIONS = 0x00400000
VOL_CAP_FMT_NO_ROOT_TIMES = 0x00000020
VOL_CAP_FMT_NO_VOLUME_SIZES = 0x00008000
VOL_CAP_FMT_OPENDENYMODES = 0x00001000
VOL_CAP_FMT_PATH_FROM_ID = 0x00004000
VOL_CAP_FMT_PERSISTENTOBJECTIDS = 0x00000001
VOL_CAP_FMT_SHARED_SPACE = 0x00800000
VOL_CAP_FMT_SPARSE_FILES = 0x00000040
VOL_CAP_FMT_SYMBOLICLINKS = 0x00000002
VOL_CAP_FMT_VOL_GROUPS = 0x01000000
VOL_CAP_FMT_WRITE_GENERATION_COUNT = 0x00100000
VOL_CAP_FMT_ZERO_RUNS = 0x00000080
VOL_CAP_INT_ADVLOCK = 0x00000100
VOL_CAP_INT_ALLOCATE = 0x00000040
VOL_CAP_INT_ATTRLIST = 0x00000002
VOL_CAP_INT_CLONE = 0x00010000
VOL_CAP_INT_COPYFILE = 0x00000020
VOL_CAP_INT_EXCHANGEDATA = 0x00000010
VOL_CAP_INT_EXTENDED_ATTR = 0x00004000
VOL_CAP_INT_EXTENDED_SECURITY = 0x00000400
VOL_CAP_INT_FLOCK = 0x00000200
VOL_CAP_INT_MANLOCK = 0x00001000
VOL_CAP_INT_NAMEDSTREAMS = 0x00002000
VOL_CAP_INT_NFSEXPORT = 0x00000004
VOL_CAP_INT_READDIRATTR = 0x00000008
VOL_CAP_INT_RENAME_EXCL = 0x00080000
VOL_CAP_INT_RENAME_OPENFAIL = 0x00100000
VOL_CAP_INT_RENAME_SWAP = 0x00040000
VOL_CAP_INT_SEARCHFS = 0x00000001
VOL_CAP_INT_SNAPSHOT = 0x00020000
VOL_CAP_INT_USERACCESS = 0x00000800
VOL_CAP_INT_VOL_RENAME = 0x00000080
VQ_ASSIST = 0x0040
VQ_DEAD = 0x0020
VQ_DESIRED_DISK = 0x4000
VQ_FLAG10000 = 0x10000
VQ_FREE_SPACE_CHANGE = 0x8000
VQ_LOWDISK = 0x0004
VQ_MOUNT = 0x0008
VQ_NEARLOWDISK = 0x2000
VQ_NEEDAUTH = 0x0002
VQ_NOTRESP = 0x0001
VQ_NOTRESPLOCK = 0x0080
VQ_QUOTA = 0x1000
VQ_SERVEREVENT = 0x0800
VQ_SYNCEVENT = 0x0400
VQ_UNMOUNT = 0x0010
VQ_UPDATE = 0x0100
VQ_VERYLOWDISK = 0x0200
WAIT_ANY = -1
WAIT_MYPGRP = 0
WAKEMON_DISABLE = 0x02
WAKEMON_ENABLE = 0x01
WAKEMON_GET_PARAMS = 0x04
WAKEMON_MAKE_FATAL = 0x10
WAKEMON_SET_DEFAULTS = 0x08
WALINDEX_MAX_VERSION = 3007000
WAL_ALL_BUT_WRITE = 1
WAL_CKPT_LOCK = 1
WAL_EXCLUSIVE_MODE = 1
WAL_FRAME_HDRSIZE = 24
WAL_HDRSIZE = 32
WAL_HEAPMEMORY_MODE = 2
WAL_LOCK_CKPT = 1
WAL_LOCK_READ0 = 3
WAL_LOCK_WRITE = 0
WAL_MAGIC = 0x377f0682
WAL_MAX_VERSION = 3007000
WAL_NORMAL_MODE = 0
WAL_NREADER = 5
WAL_RDONLY = 1
WAL_RDWR = 0
WAL_RECOVER_LOCK = 2
WAL_RETRY = -1
WAL_SAVEPOINT_NDATA = 4
WAL_SHM_RDONLY = 2
WAL_WRITE_LOCK = 0
WCHAR_MAX = 2147483647
WCHAR_MIN = -2147483648
WCONTINUED = 0x00000010
WCOREFLAG = 0200
WEXITED = 0x00000004
WHERE_AGG_DISTINCT = 0x0400
WHERE_AUTO_INDEX = 0x00004000
WHERE_BIGNULL_SORT = 0x00080000
WHERE_BLOOMFILTER = 0x00400000
WHERE_BOTH_LIMIT = 0x00000030
WHERE_BTM_LIMIT = 0x00000020
WHERE_COLUMN_EQ = 0x00000001
WHERE_COLUMN_IN = 0x00000004
WHERE_COLUMN_NULL = 0x00000008
WHERE_COLUMN_RANGE = 0x00000002
WHERE_CONSTRAINT = 0x0000000f
WHERE_DISTINCTBY = 0x0080
WHERE_DISTINCT_NOOP = 0
WHERE_DISTINCT_ORDERED = 2
WHERE_DISTINCT_UNIQUE = 1
WHERE_DISTINCT_UNORDERED = 3
WHERE_DUPLICATES_OK = 0x0010
WHERE_EXPRIDX = 0x04000000
WHERE_GROUPBY = 0x0040
WHERE_IDX_ONLY = 0x00000040
WHERE_INDEXED = 0x00000200
WHERE_IN_ABLE = 0x00000800
WHERE_IN_EARLYOUT = 0x00040000
WHERE_IN_SEEKSCAN = 0x00100000
WHERE_IPK = 0x00000100
WHERE_MULTI_OR = 0x00002000
WHERE_OMIT_OFFSET = 0x01000000
WHERE_ONEPASS_DESIRED = 0x0004
WHERE_ONEPASS_MULTIROW = 0x0008
WHERE_ONEROW = 0x00001000
WHERE_ORDERBY_LIMIT = 0x0800
WHERE_ORDERBY_MAX = 0x0002
WHERE_ORDERBY_MIN = 0x0001
WHERE_ORDERBY_NORMAL = 0x0000
WHERE_OR_SUBCLAUSE = 0x0020
WHERE_PARTIALIDX = 0x00020000
WHERE_RIGHT_JOIN = 0x1000
WHERE_SELFCULL = 0x00800000
WHERE_SKIPSCAN = 0x00008000
WHERE_SORTBYGROUP = 0x0200
WHERE_TOP_LIMIT = 0x00000010
WHERE_TRANSCONS = 0x00200000
WHERE_UNQ_WANTED = 0x00010000
WHERE_USE_LIMIT = 0x4000
WHERE_VIEWSCAN = 0x02000000
WHERE_VIRTUALTABLE = 0x00000400
WHERE_WANT_DISTINCT = 0x0100
WINDOW_AGGINVERSE = 2
WINDOW_AGGSTEP = 3
WINDOW_ENDING_INT = 1
WINDOW_ENDING_NUM = 4
WINDOW_NTH_VALUE_INT = 2
WINDOW_RETURN_ROW = 1
WINDOW_STARTING_INT = 0
WINDOW_STARTING_NUM = 3
WINT_MAX = 2147483647
WINT_MIN = -2147483648
WNOHANG = 0x00000001
WNOWAIT = 0x00000020
WO_ALL = 0x3fff
WO_AND = 0x0400
WO_AUX = 0x0040
WO_EQ = 0x0002
WO_EQUIV = 0x0800
WO_GE = 32
WO_GT = 4
WO_IN = 0x0001
WO_IS = 0x0080
WO_ISNULL = 0x0100
WO_LE = 8
WO_LT = 16
WO_NOOP = 0x1000
WO_OR = 0x0200
WO_ROWVAL = 0x2000
WO_SINGLE = 0x01ff
WRC_Abort = 2
WRC_Continue = 0
WRC_Prune = 1
WRITE_LOCK = 2
WSTOPPED = 0x00000008
WUNTRACED = 0x00000002
W_OK = 2
XN_EXPR = -2
XN_ROWID = -1
XUCRED_VERSION = 0
X_OK = 1
X_TLOSS = 1.41484755040568800000e+16
YYFALLBACK = 1
YYNOCODE = 319
YYNOERRORRECOVERY = 1
YYNRULE = 405
YYNRULE_WITH_ACTION = 342
YYNSTATE = 576
YYNTOKEN = 185
YYPARSEFREENEVERNULL = 1
YYSTACKDEPTH = 100
YYWILDCARD = 101
YY_ACCEPT_ACTION = 1241
YY_ACTTAB_COUNT = 2098
YY_ERROR_ACTION = 1240
YY_MAX_REDUCE = 1647
YY_MAX_SHIFT = 575
YY_MAX_SHIFTREDUCE = 1239
YY_MIN_REDUCE = 1243
YY_MIN_SHIFTREDUCE = 835
YY_NO_ACTION = 1242
YY_REDUCE_COUNT = 408
YY_REDUCE_MAX = 1740
YY_REDUCE_MIN = -271
YY_SHIFT_COUNT = 575
YY_SHIFT_MAX = 2074
YY_SHIFT_MIN = 0
X_ACCESS_EXTENDED_MASK = 4193792
X_ALLOCA_H_ = 0
X_APPEND_OK = 8192
X_ASSERT_H_ = 0
X_BLKCNT_T = 0
X_BLKSIZE_T = 0
X_BSD_I386__TYPES_H_ = 0
X_BSD_MACHINE_ENDIAN_H_ = 0
X_BSD_MACHINE_PARAM_H_ = 0
X_BSD_MACHINE_SIGNAL_H_ = 0
X_BSD_MACHINE_TYPES_H_ = 0
X_BSD_MACHINE__TYPES_H_ = 0
X_BSM_AUDIT_H = 0
X_CADDR_T = 0
X_CDEFS_H_ = 0
X_CHOWN_OK = 2097152
X_CLOCK_T = 0
X_CS_DARWIN_USER_CACHE_DIR = 65538
X_CS_DARWIN_USER_DIR = 65536
X_CS_DARWIN_USER_TEMP_DIR = 65537
X_CS_PATH = 1
X_CS_POSIX_V6_ILP32_OFF32_CFLAGS = 2
X_CS_POSIX_V6_ILP32_OFF32_LDFLAGS = 3
X_CS_POSIX_V6_ILP32_OFF32_LIBS = 4
X_CS_POSIX_V6_ILP32_OFFBIG_CFLAGS = 5
X_CS_POSIX_V6_ILP32_OFFBIG_LDFLAGS = 6
X_CS_POSIX_V6_ILP32_OFFBIG_LIBS = 7
X_CS_POSIX_V6_LP64_OFF64_CFLAGS = 8
X_CS_POSIX_V6_LP64_OFF64_LDFLAGS = 9
X_CS_POSIX_V6_LP64_OFF64_LIBS = 10
X_CS_POSIX_V6_LPBIG_OFFBIG_CFLAGS = 11
X_CS_POSIX_V6_LPBIG_OFFBIG_LDFLAGS = 12
X_CS_POSIX_V6_LPBIG_OFFBIG_LIBS = 13
X_CS_POSIX_V6_WIDTH_RESTRICTED_ENVS = 14
X_CS_XBS5_ILP32_OFF32_CFLAGS = 20
X_CS_XBS5_ILP32_OFF32_LDFLAGS = 21
X_CS_XBS5_ILP32_OFF32_LIBS = 22
X_CS_XBS5_ILP32_OFF32_LINTFLAGS = 23
X_CS_XBS5_ILP32_OFFBIG_CFLAGS = 24
X_CS_XBS5_ILP32_OFFBIG_LDFLAGS = 25
X_CS_XBS5_ILP32_OFFBIG_LIBS = 26
X_CS_XBS5_ILP32_OFFBIG_LINTFLAGS = 27
X_CS_XBS5_LP64_OFF64_CFLAGS = 28
X_CS_XBS5_LP64_OFF64_LDFLAGS = 29
X_CS_XBS5_LP64_OFF64_LIBS = 30
X_CS_XBS5_LP64_OFF64_LINTFLAGS = 31
X_CS_XBS5_LPBIG_OFFBIG_CFLAGS = 32
X_CS_XBS5_LPBIG_OFFBIG_LDFLAGS = 33
X_CS_XBS5_LPBIG_OFFBIG_LIBS = 34
X_CS_XBS5_LPBIG_OFFBIG_LINTFLAGS = 35
X_CTERMID_H_ = 0
X_CT_RUNE_T = 0
X_DARWIN_FEATURE_64_BIT_INODE = 1
X_DARWIN_FEATURE_ONLY_UNIX_CONFORMANCE = 1
X_DARWIN_FEATURE_UNIX_CONFORMANCE = 3
X_DELETE_OK = 4096
X_DEV_T = 0
X_DLFCN_H_ = 0
X_ERRNO_T = 0
X_EXECUTE_OK = 2048
X_FD_SET = 0
X_FILESEC_T = 0
X_FILE_OFFSET_BITS = 64
X_FORTIFY_SOURCE = 2
X_FSBLKCNT_T = 0
X_FSFILCNT_T = 0
X_FSID_T = 0
X_FSOBJ_ID_T = 0
X_FSTDIO = 0
X_FTS5INT_H = 0
X_FTS5_H = 0
X_FTSINT_H = 0
X_GCC_LIMITS_H_ = 0
X_GID_T = 0
X_GNU_SOURCE = 0
X_I386_PARAM_H_ = 0
X_I386_SIGNAL_H_ = 1
X_I386__ENDIAN_H_ = 0
X_I386__PARAM_H_ = 0
X_ID_T = 0
X_INO64_T = 0
X_INO_T = 0
X_INT16_T = 0
X_INT32_T = 0
X_INT64_T = 0
X_INT8_T = 0
X_INTPTR_T = 0
X_IN_ADDR_T = 0
X_IN_PORT_T = 0
X_IOFBF = 0
X_IOLBF = 1
X_IONBF = 2
X_KAUTH_CRED_T = 0
X_KEY_T = 0
X_LARGEFILE_SOURCE = 1
X_LARGE_FILE = 1
X_LP64 = 1
X_MACHTYPES_H_ = 0
X_MACH_BOOLEAN_H_ = 0
X_MACH_I386_BOOLEAN_H_ = 0
X_MACH_I386_VM_PARAM_H_ = 0
X_MACH_I386_VM_TYPES_H_ = 0
X_MACH_I386__STRUCTS_H_ = 0
X_MACH_MACHINE_BOOLEAN_H_ = 0
X_MACH_MACHINE_VM_TYPES_H_ = 0
X_MACH_MACHINE__STRUCTS_H_ = 0
X_MACH_PORT_H_ = 0
X_MACH_PORT_T = 0
X_MALLOC_UNDERSCORE_MALLOC_H_ = 0
X_MCONTEXT_T = 0
X_MMAP = 0
X_MODE_T = 0
X_NLINK_T = 0
X_Nonnull = 0
X_Null_unspecified = 0
X_Nullable = 0
X_OFF_T = 0
X_OS_COMMON_H_ = 0
X_OS__OSBYTEORDERI386_H = 0
X_OS__OSBYTEORDER_H = 0
X_PC_2_SYMLINKS = 15
X_PC_ALLOC_SIZE_MIN = 16
X_PC_ASYNC_IO = 17
X_PC_AUTH_OPAQUE_NP = 14
X_PC_CASE_PRESERVING = 12
X_PC_CASE_SENSITIVE = 11
X_PC_CHOWN_RESTRICTED = 7
X_PC_EXTENDED_SECURITY_NP = 13
X_PC_FILESIZEBITS = 18
X_PC_LINK_MAX = 1
X_PC_MAX_CANON = 2
X_PC_MAX_INPUT = 3
X_PC_MIN_HOLE_SIZE = 27
X_PC_NAME_CHARS_MAX = 10
X_PC_NAME_MAX = 4
X_PC_NO_TRUNC = 8
X_PC_PATH_MAX = 5
X_PC_PIPE_BUF = 6
X_PC_PRIO_IO = 19
X_PC_REC_INCR_XFER_SIZE = 20
X_PC_REC_MAX_XFER_SIZE = 21
X_PC_REC_MIN_XFER_SIZE = 22
X_PC_REC_XFER_ALIGN = 23
X_PC_SYMLINK_MAX = 24
X_PC_SYNC_IO = 25
X_PC_VDISABLE = 9
X_PC_XATTR_SIZE_BITS = 26
X_PID_T = 0
X_POSIX2_CHAR_TERM = 200112
X_POSIX2_C_BIND = 200112
X_POSIX2_C_DEV = 200112
X_POSIX2_FORT_DEV = -1
X_POSIX2_FORT_RUN = 200112
X_POSIX2_LOCALEDEF = 200112
X_POSIX2_PBS = -1
X_POSIX2_PBS_ACCOUNTING = -1
X_POSIX2_PBS_CHECKPOINT = -1
X_POSIX2_PBS_LOCATE = -1
X_POSIX2_PBS_MESSAGE = -1
X_POSIX2_PBS_TRACK = -1
X_POSIX2_SW_DEV = 200112
X_POSIX2_UPE = 200112
X_POSIX2_VERSION = 200112
X_POSIX_ADVISORY_INFO = -1
X_POSIX_ASYNCHRONOUS_IO = -1
X_POSIX_BARRIERS = -1
X_POSIX_CHOWN_RESTRICTED = 200112
X_POSIX_CLOCK_SELECTION = -1
X_POSIX_CPUTIME = -1
X_POSIX_FSYNC = 200112
X_POSIX_IPV6 = 200112
X_POSIX_JOB_CONTROL = 200112
X_POSIX_MAPPED_FILES = 200112
X_POSIX_MEMLOCK = -1
X_POSIX_MEMLOCK_RANGE = -1
X_POSIX_MEMORY_PROTECTION = 200112
X_POSIX_MESSAGE_PASSING = -1
X_POSIX_MONOTONIC_CLOCK = -1
X_POSIX_NO_TRUNC = 200112
X_POSIX_PRIORITIZED_IO = -1
X_POSIX_PRIORITY_SCHEDULING = -1
X_POSIX_RAW_SOCKETS = -1
X_POSIX_READER_WRITER_LOCKS = 200112
X_POSIX_REALTIME_SIGNALS = -1
X_POSIX_REGEXP = 200112
X_POSIX_SAVED_IDS = 200112
X_POSIX_SEMAPHORES = -1
X_POSIX_SHARED_MEMORY_OBJECTS = -1
X_POSIX_SHELL = 200112
X_POSIX_SPAWN = -1
X_POSIX_SPIN_LOCKS = -1
X_POSIX_SPORADIC_SERVER = -1
X_POSIX_SYNCHRONIZED_IO = -1
X_POSIX_THREADS = 200112
X_POSIX_THREAD_ATTR_STACKADDR = 200112
X_POSIX_THREAD_ATTR_STACKSIZE = 200112
X_POSIX_THREAD_CPUTIME = -1
X_POSIX_THREAD_KEYS_MAX = 128
X_POSIX_THREAD_PRIORITY_SCHEDULING = -1
X_POSIX_THREAD_PRIO_INHERIT = -1
X_POSIX_THREAD_PRIO_PROTECT = -1
X_POSIX_THREAD_PROCESS_SHARED = 200112
X_POSIX_THREAD_SAFE_FUNCTIONS = 200112
X_POSIX_THREAD_SPORADIC_SERVER = -1
X_POSIX_TIMEOUTS = -1
X_POSIX_TIMERS = -1
X_POSIX_TRACE = -1
X_POSIX_TRACE_EVENT_FILTER = -1
X_POSIX_TRACE_INHERIT = -1
X_POSIX_TRACE_LOG = -1
X_POSIX_TYPED_MEMORY_OBJECTS = -1
X_POSIX_V6_ILP32_OFF32 = -1
X_POSIX_V6_ILP32_OFFBIG = -1
X_POSIX_V6_LP64_OFF64 = 1
X_POSIX_V6_LPBIG_OFFBIG = 1
X_POSIX_V7_ILP32_OFF32 = -1
X_POSIX_V7_ILP32_OFFBIG = -1
X_POSIX_V7_LP64_OFF64 = 1
X_POSIX_V7_LPBIG_OFFBIG = 1
X_POSIX_VERSION = 200112
X_PTHREAD_ATTR_T = 0
X_PTHREAD_CONDATTR_T = 0
X_PTHREAD_COND_T = 0
X_PTHREAD_KEY_T = 0
X_PTHREAD_MUTEXATTR_T = 0
X_PTHREAD_MUTEX_T = 0
X_PTHREAD_ONCE_T = 0
X_PTHREAD_RWLOCKATTR_T = 0
X_PTHREAD_RWLOCK_T = 0
X_PTHREAD_T = 0
X_PTRDIFF_T = 0
X_QUAD_HIGHWORD = 1
X_QUAD_LOWWORD = 0
X_RATTR_OK = 32768
X_READ_OK = 512
X_REXT_OK = 131072
X_RLIMIT_POSIX_FLAG = 0x1000
X_RMFILE_OK = 16384
X_RPERM_OK = 524288
X_RSIZE_T = 0
X_RUNE_T = 0
X_SC_2_CHAR_TERM = 20
X_SC_2_C_BIND = 18
X_SC_2_C_DEV = 19
X_SC_2_FORT_DEV = 21
X_SC_2_FORT_RUN = 22
X_SC_2_LOCALEDEF = 23
X_SC_2_PBS = 59
X_SC_2_PBS_ACCOUNTING = 60
X_SC_2_PBS_CHECKPOINT = 61
X_SC_2_PBS_LOCATE = 62
X_SC_2_PBS_MESSAGE = 63
X_SC_2_PBS_TRACK = 64
X_SC_2_SW_DEV = 24
X_SC_2_UPE = 25
X_SC_2_VERSION = 17
X_SC_ADVISORY_INFO = 65
X_SC_AIO_LISTIO_MAX = 42
X_SC_AIO_MAX = 43
X_SC_AIO_PRIO_DELTA_MAX = 44
X_SC_ARG_MAX = 1
X_SC_ASYNCHRONOUS_IO = 28
X_SC_ATEXIT_MAX = 107
X_SC_BARRIERS = 66
X_SC_BC_BASE_MAX = 9
X_SC_BC_DIM_MAX = 10
X_SC_BC_SCALE_MAX = 11
X_SC_BC_STRING_MAX = 12
X_SC_CHILD_MAX = 2
X_SC_CLK_TCK = 3
X_SC_CLOCK_SELECTION = 67
X_SC_COLL_WEIGHTS_MAX = 13
X_SC_CPUTIME = 68
X_SC_DELAYTIMER_MAX = 45
X_SC_EXPR_NEST_MAX = 14
X_SC_FILE_LOCKING = 69
X_SC_FSYNC = 38
X_SC_GETGR_R_SIZE_MAX = 70
X_SC_GETPW_R_SIZE_MAX = 71
X_SC_HOST_NAME_MAX = 72
X_SC_IOV_MAX = 56
X_SC_IPV6 = 118
X_SC_JOB_CONTROL = 6
X_SC_LINE_MAX = 15
X_SC_LOGIN_NAME_MAX = 73
X_SC_MAPPED_FILES = 47
X_SC_MEMLOCK = 30
X_SC_MEMLOCK_RANGE = 31
X_SC_MEMORY_PROTECTION = 32
X_SC_MESSAGE_PASSING = 33
X_SC_MONOTONIC_CLOCK = 74
X_SC_MQ_OPEN_MAX = 46
X_SC_MQ_PRIO_MAX = 75
X_SC_NGROUPS_MAX = 4
X_SC_NPROCESSORS_CONF = 57
X_SC_NPROCESSORS_ONLN = 58
X_SC_OPEN_MAX = 5
X_SC_PAGESIZE = 29
X_SC_PAGE_SIZE = 29
X_SC_PASS_MAX = 131
X_SC_PHYS_PAGES = 200
X_SC_PRIORITIZED_IO = 34
X_SC_PRIORITY_SCHEDULING = 35
X_SC_RAW_SOCKETS = 119
X_SC_READER_WRITER_LOCKS = 76
X_SC_REALTIME_SIGNALS = 36
X_SC_REGEXP = 77
X_SC_RE_DUP_MAX = 16
X_SC_RTSIG_MAX = 48
X_SC_SAVED_IDS = 7
X_SC_SEMAPHORES = 37
X_SC_SEM_NSEMS_MAX = 49
X_SC_SEM_VALUE_MAX = 50
X_SC_SHARED_MEMORY_OBJECTS = 39
X_SC_SHELL = 78
X_SC_SIGQUEUE_MAX = 51
X_SC_SPAWN = 79
X_SC_SPIN_LOCKS = 80
X_SC_SPORADIC_SERVER = 81
X_SC_SS_REPL_MAX = 126
X_SC_STREAM_MAX = 26
X_SC_SYMLOOP_MAX = 120
X_SC_SYNCHRONIZED_IO = 40
X_SC_THREADS = 96
X_SC_THREAD_ATTR_STACKADDR = 82
X_SC_THREAD_ATTR_STACKSIZE = 83
X_SC_THREAD_CPUTIME = 84
X_SC_THREAD_DESTRUCTOR_ITERATIONS = 85
X_SC_THREAD_KEYS_MAX = 86
X_SC_THREAD_PRIORITY_SCHEDULING = 89
X_SC_THREAD_PRIO_INHERIT = 87
X_SC_THREAD_PRIO_PROTECT = 88
X_SC_THREAD_PROCESS_SHARED = 90
X_SC_THREAD_SAFE_FUNCTIONS = 91
X_SC_THREAD_SPORADIC_SERVER = 92
X_SC_THREAD_STACK_MIN = 93
X_SC_THREAD_THREADS_MAX = 94
X_SC_TIMEOUTS = 95
X_SC_TIMERS = 41
X_SC_TIMER_MAX = 52
X_SC_TRACE = 97
X_SC_TRACE_EVENT_FILTER = 98
X_SC_TRACE_EVENT_NAME_MAX = 127
X_SC_TRACE_INHERIT = 99
X_SC_TRACE_LOG = 100
X_SC_TRACE_NAME_MAX = 128
X_SC_TRACE_SYS_MAX = 129
X_SC_TRACE_USER_EVENT_MAX = 130
X_SC_TTY_NAME_MAX = 101
X_SC_TYPED_MEMORY_OBJECTS = 102
X_SC_TZNAME_MAX = 27
X_SC_V6_ILP32_OFF32 = 103
X_SC_V6_ILP32_OFFBIG = 104
X_SC_V6_LP64_OFF64 = 105
X_SC_V6_LPBIG_OFFBIG = 106
X_SC_VERSION = 8
X_SC_XBS5_ILP32_OFF32 = 122
X_SC_XBS5_ILP32_OFFBIG = 123
X_SC_XBS5_LP64_OFF64 = 124
X_SC_XBS5_LPBIG_OFFBIG = 125
X_SC_XOPEN_CRYPT = 108
X_SC_XOPEN_ENH_I18N = 109
X_SC_XOPEN_LEGACY = 110
X_SC_XOPEN_REALTIME = 111
X_SC_XOPEN_REALTIME_THREADS = 112
X_SC_XOPEN_SHM = 113
X_SC_XOPEN_STREAMS = 114
X_SC_XOPEN_UNIX = 115
X_SC_XOPEN_VERSION = 116
X_SC_XOPEN_XCU_VERSION = 121
X_SECURE__COMMON_H_ = 0
X_SECURE__STDIO_H_ = 0
X_SECURE__STRINGS_H_ = 0
X_SECURE__STRING_H_ = 0
X_SIGSET_T = 0
X_SIZE_T = 0
X_SQLITE3RBU_H = 0
X_SQLITE3RTREE_H_ = 0
X_SQLITE_OS_H_ = 0
X_SSIZE_T = 0
X_STDIO_H_ = 0
X_STDLIB_H_ = 0
X_STRINGS_H_ = 0
X_STRING_H_ = 0
X_STRUCT_TIMEVAL64 = 0
X_SUSECONDS_T = 0
X_SYS_ATTR_H_ = 0
X_SYS_ERRNO_H_ = 0
X_SYS_FCNTL_H_ = 0
X_SYS_FILE_H_ = 0
X_SYS_FILIO_H_ = 0
X_SYS_IOCCOM_H_ = 0
X_SYS_IOCTL_H_ = 0
X_SYS_MMAN_H_ = 0
X_SYS_MOUNT_H_ = 0
X_SYS_PARAM_H_ = 0
X_SYS_QUEUE_H_ = 0
X_SYS_RESOURCE_H_ = 0
X_SYS_SELECT_H_ = 0
X_SYS_SIGNAL_H_ = 0
X_SYS_SOCKIO_H_ = 0
X_SYS_STAT_H_ = 0
X_SYS_STDIO_H_ = 0
X_SYS_SYSLIMITS_H_ = 0
X_SYS_TIME_H_ = 0
X_SYS_TTYCOM_H_ = 0
X_SYS_TYPES_H_ = 0
X_SYS_UCRED_H_ = 0
X_SYS_UNISTD_H_ = 0
X_SYS_WAIT_H_ = 0
X_SYS__ENDIAN_H_ = 0
X_SYS__PTHREAD_TYPES_H_ = 0
X_SYS__SELECT_H_ = 0
X_SYS__TYPES_H_ = 0
X_TIME_H_ = 0
X_TIME_T = 0
X_UID_T = 0
X_UINT32_T = 0
X_UINT64_T = 0
X_UINTPTR_T = 0
X_UNISTD_H_ = 0
X_USECONDS_T = 0
X_USE_FORTIFY_LEVEL = 2
X_UUID_T = 0
X_U_CHAR = 0
X_U_INT = 0
X_U_INT16_T = 0
X_U_INT32_T = 0
X_U_INT64_T = 0
X_U_INT8_T = 0
X_U_LONG = 0
X_U_SHORT = 0
X_V6_ILP32_OFF32 = -1
X_V6_ILP32_OFFBIG = -1
X_V6_LP64_OFF64 = 1
X_V6_LPBIG_OFFBIG = 1
X_VA_LIST = 0
X_VA_LIST_T = 0
X_WATTR_OK = 65536
X_WCHAR_T = 0
X_WEXT_OK = 262144
X_WPERM_OK = 1048576
X_WRITE_OK = 1024
X_WSTOPPED = 0177
X_XBS5_ILP32_OFF32 = -1
X_XBS5_ILP32_OFFBIG = -1
X_XBS5_LP64_OFF64 = 1
X_XBS5_LPBIG_OFFBIG = 1
X_XOPEN_CRYPT = 1
X_XOPEN_ENH_I18N = 1
X_XOPEN_LEGACY = -1
X_XOPEN_REALTIME = -1
X_XOPEN_REALTIME_THREADS = -1
X_XOPEN_SHM = 1
X_XOPEN_STREAMS = -1
X_XOPEN_UNIX = 1
X_XOPEN_VERSION = 600
X_XOPEN_XCU_VERSION = 4
BBatch = 0
Deliberate_fall_through = 0
EtBUFSIZE = 70
EtCHARX = 8
EtDECIMAL = 16
EtDYNSTRING = 6
EtEXP = 2
EtFLOAT = 1
EtGENERIC = 3
EtINVALID = 17
EtORDINAL = 15
EtPERCENT = 7
EtPOINTER = 13
EtRADIX = 0
EtSIZE = 4
EtSQLESCAPE = 9
EtSQLESCAPE2 = 10
EtSQLESCAPE3 = 14
EtSRCITEM = 12
EtSTRING = 5
EtTOKEN = 11
False = 0
Fts5YYNFTS5TOKEN = 16
Fts5YYNOCODE = 27
Fts5YYNOERRORRECOVERY = 1
Fts5YYNRULE = 28
Fts5YYNRULE_WITH_ACTION = 28
Fts5YYNSTATE = 35
Fts5YYPARSEFREENOTNULL = 1
Fts5YYSTACKDEPTH = 100
Fts5YY_ACCEPT_ACTION = 81
Fts5YY_ACTTAB_COUNT = 105
Fts5YY_ERROR_ACTION = 80
Fts5YY_MAX_REDUCE = 110
Fts5YY_MAX_SHIFT = 34
Fts5YY_MAX_SHIFTREDUCE = 79
Fts5YY_MIN_REDUCE = 83
Fts5YY_MIN_SHIFTREDUCE = 52
Fts5YY_NO_ACTION = 82
Fts5YY_REDUCE_COUNT = 17
Fts5YY_REDUCE_MAX = 67
Fts5YY_REDUCE_MIN = -17
Fts5YY_SHIFT_COUNT = 34
Fts5YY_SHIFT_MAX = 93
Fts5YY_SHIFT_MIN = 0
Sqlite3Fts5ParserCTX_FETCH = 0
Sqlite3Fts5ParserCTX_PARAM = 0
Sqlite3Fts5ParserCTX_PDECL = 0
Sqlite3Fts5ParserCTX_SDECL = 0
Sqlite3Fts5ParserCTX_STORE = 0
Sqlite3ParserARG_FETCH = 0
Sqlite3ParserARG_PARAM = 0
Sqlite3ParserARG_PDECL = 0
Sqlite3ParserARG_SDECL = 0
Sqlite3ParserARG_STORE = 0
Sqlite3Parser_ENGINEALWAYSONSTACK = 1
TkCREATE = 4
TkEND = 7
TkEXPLAIN = 3
TkOTHER = 2
TkSEMI = 0
TkTEMP = 5
TkTRIGGER = 6
TkWS = 1
True = 1
WsdAutoextInit = 0
WsdHooksInit = 0
WsdStatInit = 0
)
const (
KGUARD_EXC_DESTROY = 1
KGUARD_EXC_MOD_REFS = 2
KGUARD_EXC_SET_CONTEXT = 4
KGUARD_EXC_UNGUARDED = 8
KGUARD_EXC_INCORRECT_GUARD = 16
KGUARD_EXC_IMMOVABLE = 32
KGUARD_EXC_STRICT_REPLY = 64
KGUARD_EXC_INVALID_RIGHT = 256
KGUARD_EXC_INVALID_NAME = 512
KGUARD_EXC_INVALID_VALUE = 1024
KGUARD_EXC_INVALID_ARGUMENT = 2048
KGUARD_EXC_RIGHT_EXISTS = 4096
KGUARD_EXC_KERN_NO_SPACE = 8192
KGUARD_EXC_KERN_FAILURE = 16384
KGUARD_EXC_KERN_RESOURCE = 32768
KGUARD_EXC_SEND_INVALID_REPLY = 65536
KGUARD_EXC_SEND_INVALID_VOUCHER = 131072
KGUARD_EXC_SEND_INVALID_RIGHT = 262144
KGUARD_EXC_RCV_INVALID_NAME = 524288
KGUARD_EXC_RCV_GUARDED_DESC = 1048576
)
const (
FILESEC_OWNER = 1
FILESEC_GROUP = 2
FILESEC_UUID = 3
FILESEC_MODE = 4
FILESEC_ACL = 5
FILESEC_GRPUUID = 6
FILESEC_ACL_RAW = 100
FILESEC_ACL_ALLOCSIZE = 101
)
const (
P_ALL = 0
P_PID = 1
P_PGID = 2
)
const (
X_CLOCK_REALTIME = 0
X_CLOCK_MONOTONIC = 6
X_CLOCK_MONOTONIC_RAW = 4
X_CLOCK_MONOTONIC_RAW_APPROX = 5
X_CLOCK_UPTIME_RAW = 8
X_CLOCK_UPTIME_RAW_APPROX = 9
X_CLOCK_PROCESS_CPUTIME_ID = 12
X_CLOCK_THREAD_CPUTIME_ID = 16
)
type Ptrdiff_t = int64
type Size_t = uint64
type Wchar_t = int32
type X__int128_t = struct {
Flo int64
Fhi int64
}
type X__uint128_t = struct {
Flo uint64
Fhi uint64
}
type X__builtin_va_list = uintptr
type X__float128 = float64
var X__darwin_check_fd_set_overflow uintptr
type Va_list = X__builtin_va_list
type X__gnuc_va_list = X__builtin_va_list
// CAPI3REF: Run-Time Library Version Numbers
// KEYWORDS: sqlite3_version sqlite3_sourceid
//
// These interfaces provide the same information as the [SQLITE_VERSION],
// [SQLITE_VERSION_NUMBER], and [SQLITE_SOURCE_ID] C preprocessor macros
// but are associated with the library instead of the header file. ^(Cautious
// programmers might include assert() statements in their application to
// verify that values returned by these interfaces match the macros in
// the header, and thus ensure that the application is
// compiled with matching library and header files.
//
// assert( sqlite3_libversion_number()==SQLITE_VERSION_NUMBER );
// assert( strncmp(sqlite3_sourceid(),SQLITE_SOURCE_ID,80)==0 );
// assert( strcmp(sqlite3_libversion(),SQLITE_VERSION)==0 );
//
// ^The sqlite3_version[] string constant contains the text of [SQLITE_VERSION]
// macro. ^The sqlite3_libversion() function returns a pointer to the
// to the sqlite3_version[] string constant. The sqlite3_libversion()
// function is provided for use in DLLs since DLL users usually do not have
// direct access to string constants within the DLL. ^The
// sqlite3_libversion_number() function returns an integer equal to
// [SQLITE_VERSION_NUMBER]. ^(The sqlite3_sourceid() function returns
// a pointer to a string constant whose value is the same as the
// [SQLITE_SOURCE_ID] C preprocessor macro. Except if SQLite is built
// using an edited copy of [the amalgamation], then the last four characters
// of the hash might be different from [SQLITE_SOURCE_ID].)^
//
// See also: [sqlite_version()] and [sqlite_source_id()].
var Xsqlite3_version = *(*[7]int8)(unsafe.Pointer(ts))
type sqlite3 = struct {
FpVfs uintptr
FpVdbe uintptr
FpDfltColl uintptr
Fmutex uintptr
FaDb uintptr
FnDb int32
FmDbFlags U32
Fflags U64
FlastRowid I64
FszMmap I64
FnSchemaLock U32
FopenFlags uint32
FerrCode int32
FerrByteOffset int32
FerrMask int32
FiSysErrno int32
FdbOptFlags U32
Fenc U8
FautoCommit U8
Ftemp_store U8
FmallocFailed U8
FbBenignMalloc U8
FdfltLockMode U8
FnextAutovac int8
FsuppressErr U8
FvtabOnConflict U8
FisTransactionSavepoint U8
FmTrace U8
FnoSharedCache U8
FnSqlExec U8
FeOpenState U8
F__ccgo_pad1 [2]byte
FnextPagesize int32
FnChange I64
FnTotalChange I64
FaLimit [12]int32
FnMaxSorterMmap int32
F__ccgo_pad2 [4]byte
Finit struct {
FnewTnum Pgno
FiDb U8
Fbusy U8
F__ccgo_pad1 [2]byte
ForphanTrigger uint8
F__ccgo_pad2 [7]byte
FazInit uintptr
}
FnVdbeActive int32
FnVdbeRead int32
FnVdbeWrite int32
FnVdbeExec int32
FnVDestroy int32
FnExtension int32
FaExtension uintptr
Ftrace struct{ FxLegacy uintptr }
FpTraceArg uintptr
FxProfile uintptr
FpProfileArg uintptr
FpCommitArg uintptr
FxCommitCallback uintptr
FpRollbackArg uintptr
FxRollbackCallback uintptr
FpUpdateArg uintptr
FxUpdateCallback uintptr
FpAutovacPagesArg uintptr
FxAutovacDestr uintptr
FxAutovacPages uintptr
FpParse uintptr
FpPreUpdateArg uintptr
FxPreUpdateCallback uintptr
FpPreUpdate uintptr
FxWalCallback uintptr
FpWalArg uintptr
FxCollNeeded uintptr
FxCollNeeded16 uintptr
FpCollNeededArg uintptr
FpErr uintptr
Fu1 struct {
F__ccgo_pad1 [0]uint64
FisInterrupted int32
F__ccgo_pad2 [4]byte
}
Flookaside Lookaside
FxAuth Sqlite3_xauth
FpAuthArg uintptr
FxProgress uintptr
FpProgressArg uintptr
FnProgressOps uint32
FnVTrans int32
FaModule Hash
FpVtabCtx uintptr
FaVTrans uintptr
FpDisconnect uintptr
FaFunc Hash
FaCollSeq Hash
FbusyHandler BusyHandler
FaDbStatic [2]Db
FpSavepoint uintptr
FnAnalysisLimit int32
FbusyTimeout int32
FnSavepoint int32
FnStatement int32
FnDeferredCons I64
FnDeferredImmCons I64
FpnBytesFreed uintptr
FpBlockingConnection uintptr
FpUnlockConnection uintptr
FpUnlockArg uintptr
FxUnlockNotify uintptr
FpNextBlocked uintptr
}
// CAPI3REF: Database Connection Handle
// KEYWORDS: {database connection} {database connections}
//
// Each open SQLite database is represented by a pointer to an instance of
// the opaque structure named "sqlite3". It is useful to think of an sqlite3
// pointer as an object. The [sqlite3_open()], [sqlite3_open16()], and
// [sqlite3_open_v2()] interfaces are its constructors, and [sqlite3_close()]
// and [sqlite3_close_v2()] are its destructors. There are many other
// interfaces (such as
// [sqlite3_prepare_v2()], [sqlite3_create_function()], and
// [sqlite3_busy_timeout()] to name but three) that are methods on an
// sqlite3 object.
type Sqlite3 = sqlite3
// CAPI3REF: 64-Bit Integer Types
// KEYWORDS: sqlite_int64 sqlite_uint64
//
// Because there is no cross-platform way to specify 64-bit integer types
// SQLite includes typedefs for 64-bit signed and unsigned integers.
//
// The sqlite3_int64 and sqlite3_uint64 are the preferred type definitions.
// The sqlite_int64 and sqlite_uint64 types are supported for backwards
// compatibility only.
//
// ^The sqlite3_int64 and sqlite_int64 types can store integer values
// between -9223372036854775808 and +9223372036854775807 inclusive. ^The
// sqlite3_uint64 and sqlite_uint64 types can store integer values
// between 0 and +18446744073709551615 inclusive.
type Sqlite_int64 = int64
type Sqlite_uint64 = uint64
type Sqlite3_int64 = Sqlite_int64
type Sqlite3_uint64 = Sqlite_uint64
// The type for a callback function.
// This is legacy and deprecated. It is included for historical
// compatibility and is not documented.
type Sqlite3_callback = uintptr
type sqlite3_file = struct{ FpMethods uintptr }
// CAPI3REF: OS Interface Open File Handle
//
// An [sqlite3_file] object represents an open file in the
// [sqlite3_vfs | OS interface layer]. Individual OS interface
// implementations will
// want to subclass this object by appending additional fields
// for their own use. The pMethods entry is a pointer to an
// [sqlite3_io_methods] object that defines methods for performing
// I/O operations on the open file.
type Sqlite3_file = sqlite3_file
type sqlite3_io_methods = struct {
FiVersion int32
F__ccgo_pad1 [4]byte
FxClose uintptr
FxRead uintptr
FxWrite uintptr
FxTruncate uintptr
FxSync uintptr
FxFileSize uintptr
FxLock uintptr
FxUnlock uintptr
FxCheckReservedLock uintptr
FxFileControl uintptr
FxSectorSize uintptr
FxDeviceCharacteristics uintptr
FxShmMap uintptr
FxShmLock uintptr
FxShmBarrier uintptr
FxShmUnmap uintptr
FxFetch uintptr
FxUnfetch uintptr
}
// CAPI3REF: OS Interface File Virtual Methods Object
//
// Every file opened by the [sqlite3_vfs.xOpen] method populates an
// [sqlite3_file] object (or, more commonly, a subclass of the
// [sqlite3_file] object) with a pointer to an instance of this object.
// This object defines the methods used to perform various operations
// against the open file represented by the [sqlite3_file] object.
//
// If the [sqlite3_vfs.xOpen] method sets the sqlite3_file.pMethods element
// to a non-NULL pointer, then the sqlite3_io_methods.xClose method
// may be invoked even if the [sqlite3_vfs.xOpen] reported that it failed. The
// only way to prevent a call to xClose following a failed [sqlite3_vfs.xOpen]
// is for the [sqlite3_vfs.xOpen] to set the sqlite3_file.pMethods element
// to NULL.
//
// The flags argument to xSync may be one of [SQLITE_SYNC_NORMAL] or
// [SQLITE_SYNC_FULL]. The first choice is the normal fsync().
// The second choice is a Mac OS X style fullsync. The [SQLITE_SYNC_DATAONLY]
// flag may be ORed in to indicate that only the data of the file
// and not its inode needs to be synced.
//
// The integer values to xLock() and xUnlock() are one of
// <ul>
// <li> [SQLITE_LOCK_NONE],
// <li> [SQLITE_LOCK_SHARED],
// <li> [SQLITE_LOCK_RESERVED],
// <li> [SQLITE_LOCK_PENDING], or
// <li> [SQLITE_LOCK_EXCLUSIVE].
// </ul>
// xLock() upgrades the database file lock. In other words, xLock() moves the
// database file lock in the direction NONE toward EXCLUSIVE. The argument to
// xLock() is always on of SHARED, RESERVED, PENDING, or EXCLUSIVE, never
// SQLITE_LOCK_NONE. If the database file lock is already at or above the
// requested lock, then the call to xLock() is a no-op.
// xUnlock() downgrades the database file lock to either SHARED or NONE.
//
// If the lock is already at or below the requested lock state, then the call
//
// to xUnlock() is a no-op.
// The xCheckReservedLock() method checks whether any database connection,
// either in this process or in some other process, is holding a RESERVED,
// PENDING, or EXCLUSIVE lock on the file. It returns true
// if such a lock exists and false otherwise.
//
// The xFileControl() method is a generic interface that allows custom
// VFS implementations to directly control an open file using the
// [sqlite3_file_control()] interface. The second "op" argument is an
// integer opcode. The third argument is a generic pointer intended to
// point to a structure that may contain arguments or space in which to
// write return values. Potential uses for xFileControl() might be
// functions to enable blocking locks with timeouts, to change the
// locking strategy (for example to use dot-file locks), to inquire
// about the status of a lock, or to break stale locks. The SQLite
// core reserves all opcodes less than 100 for its own use.
// A [file control opcodes | list of opcodes] less than 100 is available.
// Applications that define a custom xFileControl method should use opcodes
// greater than 100 to avoid conflicts. VFS implementations should
// return [SQLITE_NOTFOUND] for file control opcodes that they do not
// recognize.
//
// The xSectorSize() method returns the sector size of the
// device that underlies the file. The sector size is the
// minimum write that can be performed without disturbing
// other bytes in the file. The xDeviceCharacteristics()
// method returns a bit vector describing behaviors of the
// underlying device:
//
// <ul>
// <li> [SQLITE_IOCAP_ATOMIC]
// <li> [SQLITE_IOCAP_ATOMIC512]
// <li> [SQLITE_IOCAP_ATOMIC1K]
// <li> [SQLITE_IOCAP_ATOMIC2K]
// <li> [SQLITE_IOCAP_ATOMIC4K]
// <li> [SQLITE_IOCAP_ATOMIC8K]
// <li> [SQLITE_IOCAP_ATOMIC16K]
// <li> [SQLITE_IOCAP_ATOMIC32K]
// <li> [SQLITE_IOCAP_ATOMIC64K]
// <li> [SQLITE_IOCAP_SAFE_APPEND]
// <li> [SQLITE_IOCAP_SEQUENTIAL]
// <li> [SQLITE_IOCAP_UNDELETABLE_WHEN_OPEN]
// <li> [SQLITE_IOCAP_POWERSAFE_OVERWRITE]
// <li> [SQLITE_IOCAP_IMMUTABLE]
// <li> [SQLITE_IOCAP_BATCH_ATOMIC]
// </ul>
//
// The SQLITE_IOCAP_ATOMIC property means that all writes of
// any size are atomic. The SQLITE_IOCAP_ATOMICnnn values
// mean that writes of blocks that are nnn bytes in size and
// are aligned to an address which is an integer multiple of
// nnn are atomic. The SQLITE_IOCAP_SAFE_APPEND value means
// that when data is appended to a file, the data is appended
// first then the size of the file is extended, never the other
// way around. The SQLITE_IOCAP_SEQUENTIAL property means that
// information is written to disk in the same order as calls
// to xWrite().
//
// If xRead() returns SQLITE_IOERR_SHORT_READ it must also fill
// in the unread portions of the buffer with zeros. A VFS that
// fails to zero-fill short reads might seem to work. However,
// failure to zero-fill short reads will eventually lead to
// database corruption.
type Sqlite3_io_methods = sqlite3_io_methods
type sqlite3_api_routines = struct {
Faggregate_context uintptr
Faggregate_count uintptr
Fbind_blob uintptr
Fbind_double uintptr
Fbind_int uintptr
Fbind_int64 uintptr
Fbind_null uintptr
Fbind_parameter_count uintptr
Fbind_parameter_index uintptr
Fbind_parameter_name uintptr
Fbind_text uintptr
Fbind_text16 uintptr
Fbind_value uintptr
Fbusy_handler uintptr
Fbusy_timeout uintptr
Fchanges uintptr
Fclose uintptr
Fcollation_needed uintptr
Fcollation_needed16 uintptr
Fcolumn_blob uintptr
Fcolumn_bytes uintptr
Fcolumn_bytes16 uintptr
Fcolumn_count uintptr
Fcolumn_database_name uintptr
Fcolumn_database_name16 uintptr
Fcolumn_decltype uintptr
Fcolumn_decltype16 uintptr
Fcolumn_double uintptr
Fcolumn_int uintptr
Fcolumn_int64 uintptr
Fcolumn_name uintptr
Fcolumn_name16 uintptr
Fcolumn_origin_name uintptr
Fcolumn_origin_name16 uintptr
Fcolumn_table_name uintptr
Fcolumn_table_name16 uintptr
Fcolumn_text uintptr
Fcolumn_text16 uintptr
Fcolumn_type uintptr
Fcolumn_value uintptr
Fcommit_hook uintptr
Fcomplete uintptr
Fcomplete16 uintptr
Fcreate_collation uintptr
Fcreate_collation16 uintptr
Fcreate_function uintptr
Fcreate_function16 uintptr
Fcreate_module uintptr
Fdata_count uintptr
Fdb_handle uintptr
Fdeclare_vtab uintptr
Fenable_shared_cache uintptr
Ferrcode uintptr
Ferrmsg uintptr
Ferrmsg16 uintptr
Fexec uintptr
Fexpired uintptr
Ffinalize uintptr
Ffree uintptr
Ffree_table uintptr
Fget_autocommit uintptr
Fget_auxdata uintptr
Fget_table uintptr
Fglobal_recover uintptr
Finterruptx uintptr
Flast_insert_rowid uintptr
Flibversion uintptr
Flibversion_number uintptr
Fmalloc uintptr
Fmprintf uintptr
Fopen uintptr
Fopen16 uintptr
Fprepare uintptr
Fprepare16 uintptr
Fprofile uintptr
Fprogress_handler uintptr
Frealloc uintptr
Freset uintptr
Fresult_blob uintptr
Fresult_double uintptr
Fresult_error uintptr
Fresult_error16 uintptr
Fresult_int uintptr
Fresult_int64 uintptr
Fresult_null uintptr
Fresult_text uintptr
Fresult_text16 uintptr
Fresult_text16be uintptr
Fresult_text16le uintptr
Fresult_value uintptr
Frollback_hook uintptr
Fset_authorizer uintptr
Fset_auxdata uintptr
Fxsnprintf uintptr
Fstep uintptr
Ftable_column_metadata uintptr
Fthread_cleanup uintptr
Ftotal_changes uintptr
Ftrace uintptr
Ftransfer_bindings uintptr
Fupdate_hook uintptr
Fuser_data uintptr
Fvalue_blob uintptr
Fvalue_bytes uintptr
Fvalue_bytes16 uintptr
Fvalue_double uintptr
Fvalue_int uintptr
Fvalue_int64 uintptr
Fvalue_numeric_type uintptr
Fvalue_text uintptr
Fvalue_text16 uintptr
Fvalue_text16be uintptr
Fvalue_text16le uintptr
Fvalue_type uintptr
Fvmprintf uintptr
Foverload_function uintptr
Fprepare_v2 uintptr
Fprepare16_v2 uintptr
Fclear_bindings uintptr
Fcreate_module_v2 uintptr
Fbind_zeroblob uintptr
Fblob_bytes uintptr
Fblob_close uintptr
Fblob_open uintptr
Fblob_read uintptr
Fblob_write uintptr
Fcreate_collation_v2 uintptr
Ffile_control uintptr
Fmemory_highwater uintptr
Fmemory_used uintptr
Fmutex_alloc uintptr
Fmutex_enter uintptr
Fmutex_free uintptr
Fmutex_leave uintptr
Fmutex_try uintptr
Fopen_v2 uintptr
Frelease_memory uintptr
Fresult_error_nomem uintptr
Fresult_error_toobig uintptr
Fsleep uintptr
Fsoft_heap_limit uintptr
Fvfs_find uintptr
Fvfs_register uintptr
Fvfs_unregister uintptr
Fxthreadsafe uintptr
Fresult_zeroblob uintptr
Fresult_error_code uintptr
Ftest_control uintptr
Frandomness uintptr
Fcontext_db_handle uintptr
Fextended_result_codes uintptr
Flimit uintptr
Fnext_stmt uintptr
Fsql uintptr
Fstatus uintptr
Fbackup_finish uintptr
Fbackup_init uintptr
Fbackup_pagecount uintptr
Fbackup_remaining uintptr
Fbackup_step uintptr
Fcompileoption_get uintptr
Fcompileoption_used uintptr
Fcreate_function_v2 uintptr
Fdb_config uintptr
Fdb_mutex uintptr
Fdb_status uintptr
Fextended_errcode uintptr
Flog uintptr
Fsoft_heap_limit64 uintptr
Fsourceid uintptr
Fstmt_status uintptr
Fstrnicmp uintptr
Funlock_notify uintptr
Fwal_autocheckpoint uintptr
Fwal_checkpoint uintptr
Fwal_hook uintptr
Fblob_reopen uintptr
Fvtab_config uintptr
Fvtab_on_conflict uintptr
Fclose_v2 uintptr
Fdb_filename uintptr
Fdb_readonly uintptr
Fdb_release_memory uintptr
Ferrstr uintptr
Fstmt_busy uintptr
Fstmt_readonly uintptr
Fstricmp uintptr
Furi_boolean uintptr
Furi_int64 uintptr
Furi_parameter uintptr
Fxvsnprintf uintptr
Fwal_checkpoint_v2 uintptr
Fauto_extension uintptr
Fbind_blob64 uintptr
Fbind_text64 uintptr
Fcancel_auto_extension uintptr
Fload_extension uintptr
Fmalloc64 uintptr
Fmsize uintptr
Frealloc64 uintptr
Freset_auto_extension uintptr
Fresult_blob64 uintptr
Fresult_text64 uintptr
Fstrglob uintptr
Fvalue_dup uintptr
Fvalue_free uintptr
Fresult_zeroblob64 uintptr
Fbind_zeroblob64 uintptr
Fvalue_subtype uintptr
Fresult_subtype uintptr
Fstatus64 uintptr
Fstrlike uintptr
Fdb_cacheflush uintptr
Fsystem_errno uintptr
Ftrace_v2 uintptr
Fexpanded_sql uintptr
Fset_last_insert_rowid uintptr
Fprepare_v3 uintptr
Fprepare16_v3 uintptr
Fbind_pointer uintptr
Fresult_pointer uintptr
Fvalue_pointer uintptr
Fvtab_nochange uintptr
Fvalue_nochange uintptr
Fvtab_collation uintptr
Fkeyword_count uintptr
Fkeyword_name uintptr
Fkeyword_check uintptr
Fstr_new uintptr
Fstr_finish uintptr
Fstr_appendf uintptr
Fstr_vappendf uintptr
Fstr_append uintptr
Fstr_appendall uintptr
Fstr_appendchar uintptr
Fstr_reset uintptr
Fstr_errcode uintptr
Fstr_length uintptr
Fstr_value uintptr
Fcreate_window_function uintptr
Fnormalized_sql uintptr
Fstmt_isexplain uintptr
Fvalue_frombind uintptr
Fdrop_modules uintptr
Fhard_heap_limit64 uintptr
Furi_key uintptr
Ffilename_database uintptr
Ffilename_journal uintptr
Ffilename_wal uintptr
Fcreate_filename uintptr
Ffree_filename uintptr
Fdatabase_file_object uintptr
Ftxn_state uintptr
Fchanges64 uintptr
Ftotal_changes64 uintptr
Fautovacuum_pages uintptr
Ferror_offset uintptr
Fvtab_rhs_value uintptr
Fvtab_distinct uintptr
Fvtab_in uintptr
Fvtab_in_first uintptr
Fvtab_in_next uintptr
Fdeserialize uintptr
Fserialize uintptr
Fdb_name uintptr
Fvalue_encoding uintptr
Fis_interrupted uintptr
}
// CAPI3REF: Loadable Extension Thunk
//
// A pointer to the opaque sqlite3_api_routines structure is passed as
// the third parameter to entry points of [loadable extensions]. This
// structure must be typedefed in order to work around compiler warnings
// on some platforms.
type Sqlite3_api_routines = sqlite3_api_routines
// CAPI3REF: File Name
//
// Type [sqlite3_filename] is used by SQLite to pass filenames to the
// xOpen method of a [VFS]. It may be cast to (const char*) and treated
// as a normal, nul-terminated, UTF-8 buffer containing the filename, but
// may also be passed to special APIs such as:
//
// <ul>
// <li> sqlite3_filename_database()
// <li> sqlite3_filename_journal()
// <li> sqlite3_filename_wal()
// <li> sqlite3_uri_parameter()
// <li> sqlite3_uri_boolean()
// <li> sqlite3_uri_int64()
// <li> sqlite3_uri_key()
// </ul>
type Sqlite3_filename = uintptr
type sqlite3_vfs = struct {
FiVersion int32
FszOsFile int32
FmxPathname int32
F__ccgo_pad1 [4]byte
FpNext uintptr
FzName uintptr
FpAppData uintptr
FxOpen uintptr
FxDelete uintptr
FxAccess uintptr
FxFullPathname uintptr
FxDlOpen uintptr
FxDlError uintptr
FxDlSym uintptr
FxDlClose uintptr
FxRandomness uintptr
FxSleep uintptr
FxCurrentTime uintptr
FxGetLastError uintptr
FxCurrentTimeInt64 uintptr
FxSetSystemCall uintptr
FxGetSystemCall uintptr
FxNextSystemCall uintptr
}
// CAPI3REF: OS Interface Object
//
// An instance of the sqlite3_vfs object defines the interface between
// the SQLite core and the underlying operating system. The "vfs"
// in the name of the object stands for "virtual file system". See
// the [VFS | VFS documentation] for further information.
//
// The VFS interface is sometimes extended by adding new methods onto
// the end. Each time such an extension occurs, the iVersion field
// is incremented. The iVersion value started out as 1 in
// SQLite [version 3.5.0] on [dateof:3.5.0], then increased to 2
// with SQLite [version 3.7.0] on [dateof:3.7.0], and then increased
// to 3 with SQLite [version 3.7.6] on [dateof:3.7.6]. Additional fields
// may be appended to the sqlite3_vfs object and the iVersion value
// may increase again in future versions of SQLite.
// Note that due to an oversight, the structure
// of the sqlite3_vfs object changed in the transition from
// SQLite [version 3.5.9] to [version 3.6.0] on [dateof:3.6.0]
// and yet the iVersion field was not increased.
//
// The szOsFile field is the size of the subclassed [sqlite3_file]
// structure used by this VFS. mxPathname is the maximum length of
// a pathname in this VFS.
//
// Registered sqlite3_vfs objects are kept on a linked list formed by
// the pNext pointer. The [sqlite3_vfs_register()]
// and [sqlite3_vfs_unregister()] interfaces manage this list
// in a thread-safe way. The [sqlite3_vfs_find()] interface
// searches the list. Neither the application code nor the VFS
// implementation should use the pNext pointer.
//
// The pNext field is the only field in the sqlite3_vfs
// structure that SQLite will ever modify. SQLite will only access
// or modify this field while holding a particular static mutex.
// The application should never modify anything within the sqlite3_vfs
// object once the object has been registered.
//
// The zName field holds the name of the VFS module. The name must
// be unique across all VFS modules.
//
// [[sqlite3_vfs.xOpen]]
// ^SQLite guarantees that the zFilename parameter to xOpen
// is either a NULL pointer or string obtained
// from xFullPathname() with an optional suffix added.
// ^If a suffix is added to the zFilename parameter, it will
// consist of a single "-" character followed by no more than
// 11 alphanumeric and/or "-" characters.
// ^SQLite further guarantees that
// the string will be valid and unchanged until xClose() is
// called. Because of the previous sentence,
// the [sqlite3_file] can safely store a pointer to the
// filename if it needs to remember the filename for some reason.
// If the zFilename parameter to xOpen is a NULL pointer then xOpen
// must invent its own temporary name for the file. ^Whenever the
// xFilename parameter is NULL it will also be the case that the
// flags parameter will include [SQLITE_OPEN_DELETEONCLOSE].
//
// The flags argument to xOpen() includes all bits set in
// the flags argument to [sqlite3_open_v2()]. Or if [sqlite3_open()]
// or [sqlite3_open16()] is used, then flags includes at least
// [SQLITE_OPEN_READWRITE] | [SQLITE_OPEN_CREATE].
// If xOpen() opens a file read-only then it sets *pOutFlags to
// include [SQLITE_OPEN_READONLY]. Other bits in *pOutFlags may be set.
//
// ^(SQLite will also add one of the following flags to the xOpen()
// call, depending on the object being opened:
//
// <ul>
// <li> [SQLITE_OPEN_MAIN_DB]
// <li> [SQLITE_OPEN_MAIN_JOURNAL]
// <li> [SQLITE_OPEN_TEMP_DB]
// <li> [SQLITE_OPEN_TEMP_JOURNAL]
// <li> [SQLITE_OPEN_TRANSIENT_DB]
// <li> [SQLITE_OPEN_SUBJOURNAL]
// <li> [SQLITE_OPEN_SUPER_JOURNAL]
// <li> [SQLITE_OPEN_WAL]
// </ul>)^
//
// The file I/O implementation can use the object type flags to
// change the way it deals with files. For example, an application
// that does not care about crash recovery or rollback might make
// the open of a journal file a no-op. Writes to this journal would
// also be no-ops, and any attempt to read the journal would return
// SQLITE_IOERR. Or the implementation might recognize that a database
// file will be doing page-aligned sector reads and writes in a random
// order and set up its I/O subsystem accordingly.
//
// SQLite might also add one of the following flags to the xOpen method:
//
// <ul>
// <li> [SQLITE_OPEN_DELETEONCLOSE]
// <li> [SQLITE_OPEN_EXCLUSIVE]
// </ul>
//
// The [SQLITE_OPEN_DELETEONCLOSE] flag means the file should be
// deleted when it is closed. ^The [SQLITE_OPEN_DELETEONCLOSE]
// will be set for TEMP databases and their journals, transient
// databases, and subjournals.
//
// ^The [SQLITE_OPEN_EXCLUSIVE] flag is always used in conjunction
// with the [SQLITE_OPEN_CREATE] flag, which are both directly
// analogous to the O_EXCL and O_CREAT flags of the POSIX open()
// API. The SQLITE_OPEN_EXCLUSIVE flag, when paired with the
// SQLITE_OPEN_CREATE, is used to indicate that file should always
// be created, and that it is an error if it already exists.
// It is <i>not</i> used to indicate the file should be opened
// for exclusive access.
//
// ^At least szOsFile bytes of memory are allocated by SQLite
// to hold the [sqlite3_file] structure passed as the third
// argument to xOpen. The xOpen method does not have to
// allocate the structure; it should just fill it in. Note that
// the xOpen method must set the sqlite3_file.pMethods to either
// a valid [sqlite3_io_methods] object or to NULL. xOpen must do
// this even if the open fails. SQLite expects that the sqlite3_file.pMethods
// element will be valid after xOpen returns regardless of the success
// or failure of the xOpen call.
//
// [[sqlite3_vfs.xAccess]]
// ^The flags argument to xAccess() may be [SQLITE_ACCESS_EXISTS]
// to test for the existence of a file, or [SQLITE_ACCESS_READWRITE] to
// test whether a file is readable and writable, or [SQLITE_ACCESS_READ]
// to test whether a file is at least readable. The SQLITE_ACCESS_READ
// flag is never actually used and is not implemented in the built-in
// VFSes of SQLite. The file is named by the second argument and can be a
// directory. The xAccess method returns [SQLITE_OK] on success or some
// non-zero error code if there is an I/O error or if the name of
// the file given in the second argument is illegal. If SQLITE_OK
// is returned, then non-zero or zero is written into *pResOut to indicate
// whether or not the file is accessible.
//
// ^SQLite will always allocate at least mxPathname+1 bytes for the
// output buffer xFullPathname. The exact size of the output buffer
// is also passed as a parameter to both methods. If the output buffer
// is not large enough, [SQLITE_CANTOPEN] should be returned. Since this is
// handled as a fatal error by SQLite, vfs implementations should endeavor
// to prevent this by setting mxPathname to a sufficiently large value.
//
// The xRandomness(), xSleep(), xCurrentTime(), and xCurrentTimeInt64()
// interfaces are not strictly a part of the filesystem, but they are
// included in the VFS structure for completeness.
// The xRandomness() function attempts to return nBytes bytes
// of good-quality randomness into zOut. The return value is
// the actual number of bytes of randomness obtained.
// The xSleep() method causes the calling thread to sleep for at
// least the number of microseconds given. ^The xCurrentTime()
// method returns a Julian Day Number for the current date and time as
// a floating point value.
// ^The xCurrentTimeInt64() method returns, as an integer, the Julian
// Day Number multiplied by 86400000 (the number of milliseconds in
// a 24-hour day).
// ^SQLite will use the xCurrentTimeInt64() method to get the current
// date and time if that method is available (if iVersion is 2 or
// greater and the function pointer is not NULL) and will fall back
// to xCurrentTime() if xCurrentTimeInt64() is unavailable.
//
// ^The xSetSystemCall(), xGetSystemCall(), and xNestSystemCall() interfaces
// are not used by the SQLite core. These optional interfaces are provided
// by some VFSes to facilitate testing of the VFS code. By overriding
// system calls with functions under its control, a test program can
// simulate faults and error conditions that would otherwise be difficult
// or impossible to induce. The set of system calls that can be overridden
// varies from one VFS to another, and from one version of the same VFS to the
// next. Applications that use these interfaces must be prepared for any
// or all of these interfaces to be NULL or for their behavior to change
// from one release to the next. Applications must not attempt to access
// any of these methods if the iVersion of the VFS is less than 3.
type Sqlite3_vfs = sqlite3_vfs
type Sqlite3_syscall_ptr = uintptr
type sqlite3_mem_methods = struct {
FxMalloc uintptr
FxFree uintptr
FxRealloc uintptr
FxSize uintptr
FxRoundup uintptr
FxInit uintptr
FxShutdown uintptr
FpAppData uintptr
}
// CAPI3REF: Memory Allocation Routines
//
// An instance of this object defines the interface between SQLite
// and low-level memory allocation routines.
//
// This object is used in only one place in the SQLite interface.
// A pointer to an instance of this object is the argument to
// [sqlite3_config()] when the configuration option is
// [SQLITE_CONFIG_MALLOC] or [SQLITE_CONFIG_GETMALLOC].
// By creating an instance of this object
// and passing it to [sqlite3_config]([SQLITE_CONFIG_MALLOC])
// during configuration, an application can specify an alternative
// memory allocation subsystem for SQLite to use for all of its
// dynamic memory needs.
//
// Note that SQLite comes with several [built-in memory allocators]
// that are perfectly adequate for the overwhelming majority of applications
// and that this object is only useful to a tiny minority of applications
// with specialized memory allocation requirements. This object is
// also used during testing of SQLite in order to specify an alternative
// memory allocator that simulates memory out-of-memory conditions in
// order to verify that SQLite recovers gracefully from such
// conditions.
//
// The xMalloc, xRealloc, and xFree methods must work like the
// malloc(), realloc() and free() functions from the standard C library.
// ^SQLite guarantees that the second argument to
// xRealloc is always a value returned by a prior call to xRoundup.
//
// xSize should return the allocated size of a memory allocation
// previously obtained from xMalloc or xRealloc. The allocated size
// is always at least as big as the requested size but may be larger.
//
// The xRoundup method returns what would be the allocated size of
// a memory allocation given a particular requested size. Most memory
// allocators round up memory allocations at least to the next multiple
// of 8. Some allocators round up to a larger multiple or to a power of 2.
// Every memory allocation request coming in through [sqlite3_malloc()]
// or [sqlite3_realloc()] first calls xRoundup. If xRoundup returns 0,
// that causes the corresponding memory allocation to fail.
//
// The xInit method initializes the memory allocator. For example,
// it might allocate any required mutexes or initialize internal data
// structures. The xShutdown method is invoked (indirectly) by
// [sqlite3_shutdown()] and should deallocate any resources acquired
// by xInit. The pAppData pointer is used as the only parameter to
// xInit and xShutdown.
//
// SQLite holds the [SQLITE_MUTEX_STATIC_MAIN] mutex when it invokes
// the xInit method, so the xInit method need not be threadsafe. The
// xShutdown method is only called from [sqlite3_shutdown()] so it does
// not need to be threadsafe either. For all other methods, SQLite
// holds the [SQLITE_MUTEX_STATIC_MEM] mutex as long as the
// [SQLITE_CONFIG_MEMSTATUS] configuration option is turned on (which
// it is by default) and so the methods are automatically serialized.
// However, if [SQLITE_CONFIG_MEMSTATUS] is disabled, then the other
// methods must be threadsafe or else make their own arrangements for
// serialization.
//
// SQLite will never invoke xInit() more than once without an intervening
// call to xShutdown().
type Sqlite3_mem_methods = sqlite3_mem_methods
type sqlite3_value = struct {
Fu struct{ Fr float64 }
Fz uintptr
Fn int32
Fflags U16
Fenc U8
FeSubtype U8
Fdb uintptr
FszMalloc int32
FuTemp U32
FzMalloc uintptr
FxDel uintptr
}
// CAPI3REF: Dynamically Typed Value Object
// KEYWORDS: {protected sqlite3_value} {unprotected sqlite3_value}
//
// SQLite uses the sqlite3_value object to represent all values
// that can be stored in a database table. SQLite uses dynamic typing
// for the values it stores. ^Values stored in sqlite3_value objects
// can be integers, floating point values, strings, BLOBs, or NULL.
//
// An sqlite3_value object may be either "protected" or "unprotected".
// Some interfaces require a protected sqlite3_value. Other interfaces
// will accept either a protected or an unprotected sqlite3_value.
// Every interface that accepts sqlite3_value arguments specifies
// whether or not it requires a protected sqlite3_value. The
// [sqlite3_value_dup()] interface can be used to construct a new
// protected sqlite3_value from an unprotected sqlite3_value.
//
// The terms "protected" and "unprotected" refer to whether or not
// a mutex is held. An internal mutex is held for a protected
// sqlite3_value object but no mutex is held for an unprotected
// sqlite3_value object. If SQLite is compiled to be single-threaded
// (with [SQLITE_THREADSAFE=0] and with [sqlite3_threadsafe()] returning 0)
// or if SQLite is run in one of reduced mutex modes
// [SQLITE_CONFIG_SINGLETHREAD] or [SQLITE_CONFIG_MULTITHREAD]
// then there is no distinction between protected and unprotected
// sqlite3_value objects and they can be used interchangeably. However,
// for maximum code portability it is recommended that applications
// still make the distinction between protected and unprotected
// sqlite3_value objects even when not strictly required.
//
// ^The sqlite3_value objects that are passed as parameters into the
// implementation of [application-defined SQL functions] are protected.
// ^The sqlite3_value objects returned by [sqlite3_vtab_rhs_value()]
// are protected.
// ^The sqlite3_value object returned by
// [sqlite3_column_value()] is unprotected.
// Unprotected sqlite3_value objects may only be used as arguments
// to [sqlite3_result_value()], [sqlite3_bind_value()], and
// [sqlite3_value_dup()].
// The [sqlite3_value_blob | sqlite3_value_type()] family of
// interfaces require protected sqlite3_value objects.
type Sqlite3_value = sqlite3_value
type sqlite3_context = struct {
FpOut uintptr
FpFunc uintptr
FpMem uintptr
FpVdbe uintptr
FiOp int32
FisError int32
Fenc U8
FskipFlag U8
Fargc U8
F__ccgo_pad1 [5]byte
Fargv [1]uintptr
}
// CAPI3REF: SQL Function Context Object
//
// The context in which an SQL function executes is stored in an
// sqlite3_context object. ^A pointer to an sqlite3_context object
// is always first parameter to [application-defined SQL functions].
// The application-defined SQL function implementation will pass this
// pointer through into calls to [sqlite3_result_int | sqlite3_result()],
// [sqlite3_aggregate_context()], [sqlite3_user_data()],
// [sqlite3_context_db_handle()], [sqlite3_get_auxdata()],
// and/or [sqlite3_set_auxdata()].
type Sqlite3_context = sqlite3_context
// CAPI3REF: Constants Defining Special Destructor Behavior
//
// These are special values for the destructor that is passed in as the
// final argument to routines like [sqlite3_result_blob()]. ^If the destructor
// argument is SQLITE_STATIC, it means that the content pointer is constant
// and will never change. It does not need to be destroyed. ^The
// SQLITE_TRANSIENT value means that the content will likely change in
// the near future and that SQLite should make its own private copy of
// the content before returning.
//
// The typedef is necessary to work around problems in certain
// C++ compilers.
type Sqlite3_destructor_type = uintptr
type sqlite3_vtab = struct {
FpModule uintptr
FnRef int32
F__ccgo_pad1 [4]byte
FzErrMsg uintptr
}
// Structures used by the virtual table interface
type Sqlite3_vtab = sqlite3_vtab
type sqlite3_index_info = struct {
FnConstraint int32
F__ccgo_pad1 [4]byte
FaConstraint uintptr
FnOrderBy int32
F__ccgo_pad2 [4]byte
FaOrderBy uintptr
FaConstraintUsage uintptr
FidxNum int32
F__ccgo_pad3 [4]byte
FidxStr uintptr
FneedToFreeIdxStr int32
ForderByConsumed int32
FestimatedCost float64
FestimatedRows Sqlite3_int64
FidxFlags int32
F__ccgo_pad4 [4]byte
FcolUsed Sqlite3_uint64
}
type Sqlite3_index_info = sqlite3_index_info
type sqlite3_vtab_cursor = struct{ FpVtab uintptr }
type Sqlite3_vtab_cursor = sqlite3_vtab_cursor
type sqlite3_module = struct {
FiVersion int32
F__ccgo_pad1 [4]byte
FxCreate uintptr
FxConnect uintptr
FxBestIndex uintptr
FxDisconnect uintptr
FxDestroy uintptr
FxOpen uintptr
FxClose uintptr
FxFilter uintptr
FxNext uintptr
FxEof uintptr
FxColumn uintptr
FxRowid uintptr
FxUpdate uintptr
FxBegin uintptr
FxSync uintptr
FxCommit uintptr
FxRollback uintptr
FxFindFunction uintptr
FxRename uintptr
FxSavepoint uintptr
FxRelease uintptr
FxRollbackTo uintptr
FxShadowName uintptr
}
type Sqlite3_module = sqlite3_module
type sqlite3_index_constraint = struct {
FiColumn int32
Fop uint8
Fusable uint8
F__ccgo_pad1 [2]byte
FiTermOffset int32
}
type sqlite3_index_orderby = struct {
FiColumn int32
Fdesc uint8
F__ccgo_pad1 [3]byte
}
type sqlite3_index_constraint_usage = struct {
FargvIndex int32
Fomit uint8
F__ccgo_pad1 [3]byte
}
type sqlite3_mutex_methods = struct {
FxMutexInit uintptr
FxMutexEnd uintptr
FxMutexAlloc uintptr
FxMutexFree uintptr
FxMutexEnter uintptr
FxMutexTry uintptr
FxMutexLeave uintptr
FxMutexHeld uintptr
FxMutexNotheld uintptr
}
// CAPI3REF: Mutex Methods Object
//
// An instance of this structure defines the low-level routines
// used to allocate and use mutexes.
//
// Usually, the default mutex implementations provided by SQLite are
// sufficient, however the application has the option of substituting a custom
// implementation for specialized deployments or systems for which SQLite
// does not provide a suitable implementation. In this case, the application
// creates and populates an instance of this structure to pass
// to sqlite3_config() along with the [SQLITE_CONFIG_MUTEX] option.
// Additionally, an instance of this structure can be used as an
// output variable when querying the system for the current mutex
// implementation, using the [SQLITE_CONFIG_GETMUTEX] option.
//
// ^The xMutexInit method defined by this structure is invoked as
// part of system initialization by the sqlite3_initialize() function.
// ^The xMutexInit routine is called by SQLite exactly once for each
// effective call to [sqlite3_initialize()].
//
// ^The xMutexEnd method defined by this structure is invoked as
// part of system shutdown by the sqlite3_shutdown() function. The
// implementation of this method is expected to release all outstanding
// resources obtained by the mutex methods implementation, especially
// those obtained by the xMutexInit method. ^The xMutexEnd()
// interface is invoked exactly once for each call to [sqlite3_shutdown()].
//
// ^(The remaining seven methods defined by this structure (xMutexAlloc,
// xMutexFree, xMutexEnter, xMutexTry, xMutexLeave, xMutexHeld and
// xMutexNotheld) implement the following interfaces (respectively):
//
// <ul>
//
// <li> [sqlite3_mutex_alloc()] </li>
// <li> [sqlite3_mutex_free()] </li>
// <li> [sqlite3_mutex_enter()] </li>
// <li> [sqlite3_mutex_try()] </li>
// <li> [sqlite3_mutex_leave()] </li>
// <li> [sqlite3_mutex_held()] </li>
// <li> [sqlite3_mutex_notheld()] </li>
//
// </ul>)^
//
// The only difference is that the public sqlite3_XXX functions enumerated
// above silently ignore any invocations that pass a NULL pointer instead
// of a valid mutex handle. The implementations of the methods defined
// by this structure are not required to handle this case. The results
// of passing a NULL pointer instead of a valid mutex handle are undefined
// (i.e. it is acceptable to provide an implementation that segfaults if
// it is passed a NULL pointer).
//
// The xMutexInit() method must be threadsafe. It must be harmless to
// invoke xMutexInit() multiple times within the same process and without
// intervening calls to xMutexEnd(). Second and subsequent calls to
// xMutexInit() must be no-ops.
//
// xMutexInit() must not use SQLite memory allocation ([sqlite3_malloc()]
// and its associates). Similarly, xMutexAlloc() must not use SQLite memory
// allocation for a static mutex. ^However xMutexAlloc() may use SQLite
// memory allocation for a fast or recursive mutex.
//
// ^SQLite will invoke the xMutexEnd() method when [sqlite3_shutdown()] is
// called, but only if the prior call to xMutexInit returned SQLITE_OK.
// If xMutexInit fails in any way, it is expected to clean up after itself
// prior to returning.
type Sqlite3_mutex_methods = sqlite3_mutex_methods
type sqlite3_str = struct {
Fdb uintptr
FzText uintptr
FnAlloc U32
FmxAlloc U32
FnChar U32
FaccError U8
FprintfFlags U8
F__ccgo_pad1 [2]byte
}
// CAPI3REF: Dynamic String Object
// KEYWORDS: {dynamic string}
//
// An instance of the sqlite3_str object contains a dynamically-sized
// string under construction.
//
// The lifecycle of an sqlite3_str object is as follows:
// <ol>
// <li> ^The sqlite3_str object is created using [sqlite3_str_new()].
// <li> ^Text is appended to the sqlite3_str object using various
// methods, such as [sqlite3_str_appendf()].
// <li> ^The sqlite3_str object is destroyed and the string it created
// is returned using the [sqlite3_str_finish()] interface.
// </ol>
type Sqlite3_str = sqlite3_str
type sqlite3_pcache_page = struct {
FpBuf uintptr
FpExtra uintptr
}
// CAPI3REF: Custom Page Cache Object
//
// The sqlite3_pcache_page object represents a single page in the
// page cache. The page cache will allocate instances of this
// object. Various methods of the page cache use pointers to instances
// of this object as parameters or as their return value.
//
// See [sqlite3_pcache_methods2] for additional information.
type Sqlite3_pcache_page = sqlite3_pcache_page
type sqlite3_pcache_methods2 = struct {
FiVersion int32
F__ccgo_pad1 [4]byte
FpArg uintptr
FxInit uintptr
FxShutdown uintptr
FxCreate uintptr
FxCachesize uintptr
FxPagecount uintptr
FxFetch uintptr
FxUnpin uintptr
FxRekey uintptr
FxTruncate uintptr
FxDestroy uintptr
FxShrink uintptr
}
// CAPI3REF: Application Defined Page Cache.
// KEYWORDS: {page cache}
//
// ^(The [sqlite3_config]([SQLITE_CONFIG_PCACHE2], ...) interface can
// register an alternative page cache implementation by passing in an
// instance of the sqlite3_pcache_methods2 structure.)^
// In many applications, most of the heap memory allocated by
// SQLite is used for the page cache.
// By implementing a
// custom page cache using this API, an application can better control
// the amount of memory consumed by SQLite, the way in which
// that memory is allocated and released, and the policies used to
// determine exactly which parts of a database file are cached and for
// how long.
//
// The alternative page cache mechanism is an
// extreme measure that is only needed by the most demanding applications.
// The built-in page cache is recommended for most uses.
//
// ^(The contents of the sqlite3_pcache_methods2 structure are copied to an
// internal buffer by SQLite within the call to [sqlite3_config]. Hence
// the application may discard the parameter after the call to
// [sqlite3_config()] returns.)^
//
// [[the xInit() page cache method]]
// ^(The xInit() method is called once for each effective
// call to [sqlite3_initialize()])^
// (usually only once during the lifetime of the process). ^(The xInit()
// method is passed a copy of the sqlite3_pcache_methods2.pArg value.)^
// The intent of the xInit() method is to set up global data structures
// required by the custom page cache implementation.
// ^(If the xInit() method is NULL, then the
// built-in default page cache is used instead of the application defined
// page cache.)^
//
// [[the xShutdown() page cache method]]
// ^The xShutdown() method is called by [sqlite3_shutdown()].
// It can be used to clean up
// any outstanding resources before process shutdown, if required.
// ^The xShutdown() method may be NULL.
//
// ^SQLite automatically serializes calls to the xInit method,
// so the xInit method need not be threadsafe. ^The
// xShutdown method is only called from [sqlite3_shutdown()] so it does
// not need to be threadsafe either. All other methods must be threadsafe
// in multithreaded applications.
//
// ^SQLite will never invoke xInit() more than once without an intervening
// call to xShutdown().
//
// [[the xCreate() page cache methods]]
// ^SQLite invokes the xCreate() method to construct a new cache instance.
// SQLite will typically create one cache instance for each open database file,
// though this is not guaranteed. ^The
// first parameter, szPage, is the size in bytes of the pages that must
// be allocated by the cache. ^szPage will always a power of two. ^The
// second parameter szExtra is a number of bytes of extra storage
// associated with each page cache entry. ^The szExtra parameter will
// a number less than 250. SQLite will use the
// extra szExtra bytes on each page to store metadata about the underlying
// database page on disk. The value passed into szExtra depends
// on the SQLite version, the target platform, and how SQLite was compiled.
// ^The third argument to xCreate(), bPurgeable, is true if the cache being
// created will be used to cache database pages of a file stored on disk, or
// false if it is used for an in-memory database. The cache implementation
// does not have to do anything special based with the value of bPurgeable;
// it is purely advisory. ^On a cache where bPurgeable is false, SQLite will
// never invoke xUnpin() except to deliberately delete a page.
// ^In other words, calls to xUnpin() on a cache with bPurgeable set to
// false will always have the "discard" flag set to true.
// ^Hence, a cache created with bPurgeable false will
// never contain any unpinned pages.
//
// [[the xCachesize() page cache method]]
// ^(The xCachesize() method may be called at any time by SQLite to set the
// suggested maximum cache-size (number of pages stored by) the cache
// instance passed as the first argument. This is the value configured using
// the SQLite "[PRAGMA cache_size]" command.)^ As with the bPurgeable
// parameter, the implementation is not required to do anything with this
// value; it is advisory only.
//
// [[the xPagecount() page cache methods]]
// The xPagecount() method must return the number of pages currently
// stored in the cache, both pinned and unpinned.
//
// [[the xFetch() page cache methods]]
// The xFetch() method locates a page in the cache and returns a pointer to
// an sqlite3_pcache_page object associated with that page, or a NULL pointer.
// The pBuf element of the returned sqlite3_pcache_page object will be a
// pointer to a buffer of szPage bytes used to store the content of a
// single database page. The pExtra element of sqlite3_pcache_page will be
// a pointer to the szExtra bytes of extra storage that SQLite has requested
// for each entry in the page cache.
//
// The page to be fetched is determined by the key. ^The minimum key value
// is 1. After it has been retrieved using xFetch, the page is considered
// to be "pinned".
//
// If the requested page is already in the page cache, then the page cache
// implementation must return a pointer to the page buffer with its content
// intact. If the requested page is not already in the cache, then the
// cache implementation should use the value of the createFlag
// parameter to help it determined what action to take:
//
// <table border=1 width=85% align=center>
// <tr><th> createFlag <th> Behavior when page is not already in cache
// <tr><td> 0 <td> Do not allocate a new page. Return NULL.
// <tr><td> 1 <td> Allocate a new page if it easy and convenient to do so.
//
// Otherwise return NULL.
//
// <tr><td> 2 <td> Make every effort to allocate a new page. Only return
//
// NULL if allocating a new page is effectively impossible.
//
// </table>
//
// ^(SQLite will normally invoke xFetch() with a createFlag of 0 or 1. SQLite
// will only use a createFlag of 2 after a prior call with a createFlag of 1
// failed.)^ In between the xFetch() calls, SQLite may
// attempt to unpin one or more cache pages by spilling the content of
// pinned pages to disk and synching the operating system disk cache.
//
// [[the xUnpin() page cache method]]
// ^xUnpin() is called by SQLite with a pointer to a currently pinned page
// as its second argument. If the third parameter, discard, is non-zero,
// then the page must be evicted from the cache.
// ^If the discard parameter is
// zero, then the page may be discarded or retained at the discretion of
// page cache implementation. ^The page cache implementation
// may choose to evict unpinned pages at any time.
//
// The cache must not perform any reference counting. A single
// call to xUnpin() unpins the page regardless of the number of prior calls
// to xFetch().
//
// [[the xRekey() page cache methods]]
// The xRekey() method is used to change the key value associated with the
// page passed as the second argument. If the cache
// previously contains an entry associated with newKey, it must be
// discarded. ^Any prior cache entry associated with newKey is guaranteed not
// to be pinned.
//
// When SQLite calls the xTruncate() method, the cache must discard all
// existing cache entries with page numbers (keys) greater than or equal
// to the value of the iLimit parameter passed to xTruncate(). If any
// of these pages are pinned, they are implicitly unpinned, meaning that
// they can be safely discarded.
//
// [[the xDestroy() page cache method]]
// ^The xDestroy() method is used to delete a cache allocated by xCreate().
// All resources associated with the specified cache should be freed. ^After
// calling the xDestroy() method, SQLite considers the [sqlite3_pcache*]
// handle invalid, and will not use it with any other sqlite3_pcache_methods2
// functions.
//
// [[the xShrink() page cache method]]
// ^SQLite invokes the xShrink() method when it wants the page cache to
// free up as much of heap memory as possible. The page cache implementation
// is not obligated to free any memory, but well-behaved implementations should
// do their best.
type Sqlite3_pcache_methods2 = sqlite3_pcache_methods2
type sqlite3_pcache_methods = struct {
FpArg uintptr
FxInit uintptr
FxShutdown uintptr
FxCreate uintptr
FxCachesize uintptr
FxPagecount uintptr
FxFetch uintptr
FxUnpin uintptr
FxRekey uintptr
FxTruncate uintptr
FxDestroy uintptr
}
// This is the obsolete pcache_methods object that has now been replaced
// by sqlite3_pcache_methods2. This object is not used by SQLite. It is
// retained in the header file for backwards compatibility only.
type Sqlite3_pcache_methods = sqlite3_pcache_methods
type sqlite3_backup = struct {
FpDestDb uintptr
FpDest uintptr
FiDestSchema U32
FbDestLocked int32
FiNext Pgno
F__ccgo_pad1 [4]byte
FpSrcDb uintptr
FpSrc uintptr
Frc int32
FnRemaining Pgno
FnPagecount Pgno
FisAttached int32
FpNext uintptr
}
// CAPI3REF: Online Backup Object
//
// The sqlite3_backup object records state information about an ongoing
// online backup operation. ^The sqlite3_backup object is created by
// a call to [sqlite3_backup_init()] and is destroyed by a call to
// [sqlite3_backup_finish()].
//
// See Also: [Using the SQLite Online Backup API]
type Sqlite3_backup = sqlite3_backup
type sqlite3_snapshot = struct{ Fhidden [48]uint8 }
// CAPI3REF: Database Snapshot
// KEYWORDS: {snapshot} {sqlite3_snapshot}
//
// An instance of the snapshot object records the state of a [WAL mode]
// database for some specific point in history.
//
// In [WAL mode], multiple [database connections] that are open on the
// same database file can each be reading a different historical version
// of the database file. When a [database connection] begins a read
// transaction, that connection sees an unchanging copy of the database
// as it existed for the point in time when the transaction first started.
// Subsequent changes to the database from other connections are not seen
// by the reader until a new read transaction is started.
//
// The sqlite3_snapshot object records state information about an historical
// version of the database file so that it is possible to later open a new read
// transaction that sees that historical version of the database rather than
// the most recent version.
type Sqlite3_snapshot = sqlite3_snapshot
type sqlite3_rtree_geometry = struct {
FpContext uintptr
FnParam int32
F__ccgo_pad1 [4]byte
FaParam uintptr
FpUser uintptr
FxDelUser uintptr
}
type Sqlite3_rtree_geometry = sqlite3_rtree_geometry
type sqlite3_rtree_query_info = struct {
FpContext uintptr
FnParam int32
F__ccgo_pad1 [4]byte
FaParam uintptr
FpUser uintptr
FxDelUser uintptr
FaCoord uintptr
FanQueue uintptr
FnCoord int32
FiLevel int32
FmxLevel int32
F__ccgo_pad2 [4]byte
FiRowid Sqlite3_int64
FrParentScore Sqlite3_rtree_dbl
FeParentWithin int32
FeWithin int32
FrScore Sqlite3_rtree_dbl
FapSqlParam uintptr
}
type Sqlite3_rtree_query_info = sqlite3_rtree_query_info
// The double-precision datatype used by RTree depends on the
// SQLITE_RTREE_INT_ONLY compile-time option.
type Sqlite3_rtree_dbl = float64
type sqlite3_session = struct {
Fdb uintptr
FzDb uintptr
FbEnableSize int32
FbEnable int32
FbIndirect int32
FbAutoAttach int32
Frc int32
F__ccgo_pad1 [4]byte
FpFilterCtx uintptr
FxTableFilter uintptr
FnMalloc I64
FnMaxChangesetSize I64
FpZeroBlob uintptr
FpNext uintptr
FpTable uintptr
Fhook SessionHook
}
// CAPI3REF: Session Object Handle
//
// An instance of this object is a [session] that can be used to
// record changes to a database.
type Sqlite3_session = sqlite3_session
type sqlite3_changeset_iter = struct {
Fin SessionInput
Ftblhdr SessionBuffer
FbPatchset int32
FbInvert int32
FbSkipEmpty int32
Frc int32
FpConflict uintptr
FzTab uintptr
FnCol int32
Fop int32
FbIndirect int32
F__ccgo_pad1 [4]byte
FabPK uintptr
FapValue uintptr
}
// CAPI3REF: Changeset Iterator Handle
//
// An instance of this object acts as a cursor for iterating
// over the elements of a [changeset] or [patchset].
type Sqlite3_changeset_iter = sqlite3_changeset_iter
type sqlite3_changegroup = struct {
Frc int32
FbPatch int32
FpList uintptr
}
// CAPI3REF: Changegroup Handle
//
// A changegroup is an object used to combine two or more
// [changesets] or [patchsets]
type Sqlite3_changegroup = sqlite3_changegroup
type sqlite3_rebaser = struct{ Fgrp Sqlite3_changegroup }
// CAPI3REF: Rebasing changesets
// EXPERIMENTAL
//
// Suppose there is a site hosting a database in state S0. And that
// modifications are made that move that database to state S1 and a
// changeset recorded (the "local" changeset). Then, a changeset based
// on S0 is received from another site (the "remote" changeset) and
// applied to the database. The database is then in state
// (S1+"remote"), where the exact state depends on any conflict
// resolution decisions (OMIT or REPLACE) made while applying "remote".
// Rebasing a changeset is to update it to take those conflict
// resolution decisions into account, so that the same conflicts
// do not have to be resolved elsewhere in the network.
//
// For example, if both the local and remote changesets contain an
// INSERT of the same key on "CREATE TABLE t1(a PRIMARY KEY, b)":
//
// local: INSERT INTO t1 VALUES(1, 'v1');
// remote: INSERT INTO t1 VALUES(1, 'v2');
//
// and the conflict resolution is REPLACE, then the INSERT change is
// removed from the local changeset (it was overridden). Or, if the
// conflict resolution was "OMIT", then the local changeset is modified
// to instead contain:
//
// UPDATE t1 SET b = 'v2' WHERE a=1;
//
// Changes within the local changeset are rebased as follows:
//
// <dl>
// <dt>Local INSERT<dd>
//
// This may only conflict with a remote INSERT. If the conflict
// resolution was OMIT, then add an UPDATE change to the rebased
// changeset. Or, if the conflict resolution was REPLACE, add
// nothing to the rebased changeset.
//
// <dt>Local DELETE<dd>
//
// This may conflict with a remote UPDATE or DELETE. In both cases the
// only possible resolution is OMIT. If the remote operation was a
// DELETE, then add no change to the rebased changeset. If the remote
// operation was an UPDATE, then the old.* fields of change are updated
// to reflect the new.* values in the UPDATE.
//
// <dt>Local UPDATE<dd>
//
// This may conflict with a remote UPDATE or DELETE. If it conflicts
// with a DELETE, and the conflict resolution was OMIT, then the update
// is changed into an INSERT. Any undefined values in the new.* record
// from the update change are filled in using the old.* values from
// the conflicting DELETE. Or, if the conflict resolution was REPLACE,
// the UPDATE change is simply omitted from the rebased changeset.
//
// If conflict is with a remote UPDATE and the resolution is OMIT, then
// the old.* values are rebased using the new.* values in the remote
// change. Or, if the resolution is REPLACE, then the change is copied
// into the rebased changeset with updates to columns also updated by
// the conflicting remote UPDATE removed. If this means no columns would
// be updated, the change is omitted.
//
// </dl>
//
// A local change may be rebased against multiple remote changes
// simultaneously. If a single key is modified by multiple remote
// changesets, they are combined as follows before the local changeset
// is rebased:
//
// <ul>
//
// <li> If there has been one or more REPLACE resolutions on a
// key, it is rebased according to a REPLACE.
//
// <li> If there have been no REPLACE resolutions on a key, then
// the local changeset is rebased according to the most recent
// of the OMIT resolutions.
//
// </ul>
//
// Note that conflict resolutions from multiple remote changesets are
// combined on a per-field basis, not per-row. This means that in the
// case of multiple remote UPDATE operations, some fields of a single
// local change may be rebased for REPLACE while others are rebased for
// OMIT.
//
// In order to rebase a local changeset, the remote changeset must first
// be applied to the local database using sqlite3changeset_apply_v2() and
// the buffer of rebase information captured. Then:
//
// <ol>
//
// <li> An sqlite3_rebaser object is created by calling
// sqlite3rebaser_create().
// <li> The new object is configured with the rebase buffer obtained from
// sqlite3changeset_apply_v2() by calling sqlite3rebaser_configure().
// If the local changeset is to be rebased against multiple remote
// changesets, then sqlite3rebaser_configure() should be called
// multiple times, in the same order that the multiple
// sqlite3changeset_apply_v2() calls were made.
// <li> Each local changeset is rebased by calling sqlite3rebaser_rebase().
// <li> The sqlite3_rebaser object is deleted by calling
// sqlite3rebaser_delete().
//
// </ol>
type Sqlite3_rebaser = sqlite3_rebaser
type Fts5ExtensionApi1 = struct {
FiVersion int32
F__ccgo_pad1 [4]byte
FxUserData uintptr
FxColumnCount uintptr
FxRowCount uintptr
FxColumnTotalSize uintptr
FxTokenize uintptr
FxPhraseCount uintptr
FxPhraseSize uintptr
FxInstCount uintptr
FxInst uintptr
FxRowid uintptr
FxColumnText uintptr
FxColumnSize uintptr
FxQueryPhrase uintptr
FxSetAuxdata uintptr
FxGetAuxdata uintptr
FxPhraseFirst uintptr
FxPhraseNext uintptr
FxPhraseFirstColumn uintptr
FxPhraseNextColumn uintptr
}
type Fts5ExtensionApi = Fts5ExtensionApi1
type Fts5PhraseIter1 = struct {
Fa uintptr
Fb uintptr
}
type Fts5PhraseIter = Fts5PhraseIter1
type Fts5_extension_function = uintptr
type fts5_tokenizer = struct {
FxCreate uintptr
FxDelete uintptr
FxTokenize uintptr
}
type Fts5_tokenizer = fts5_tokenizer
type fts5_api = struct {
FiVersion int32
F__ccgo_pad1 [4]byte
FxCreateTokenizer uintptr
FxFindTokenizer uintptr
FxCreateFunction uintptr
}
// ************************************************************************
//
// FTS5 EXTENSION REGISTRATION API
type Fts5_api = fts5_api
// Forward declarations of structures.
type Hash1 = struct {
Fhtsize uint32
Fcount uint32
Ffirst uintptr
Fht uintptr
}
// Forward declarations of structures.
type Hash = Hash1
type HashElem1 = struct {
Fnext uintptr
Fprev uintptr
Fdata uintptr
FpKey uintptr
}
type HashElem = HashElem1
type _ht = struct {
Fcount uint32
F__ccgo_pad1 [4]byte
Fchain uintptr
}
type X__int8_t = int8
type X__uint8_t = uint8
type X__int16_t = int16
type X__uint16_t = uint16
type X__int32_t = int32
type X__uint32_t = uint32
type X__int64_t = int64
type X__uint64_t = uint64
type X__darwin_intptr_t = int64
type X__darwin_natural_t = uint32
type X__darwin_ct_rune_t = int32
// mbstate_t is an opaque object to keep conversion state, during multibyte
// stream conversions. The content must not be referenced by user programs.
type X__mbstate_t = struct {
F__ccgo_pad1 [0]uint64
F__mbstate8 [128]int8
}
type X__darwin_mbstate_t = X__mbstate_t
type X__darwin_ptrdiff_t = int64
type X__darwin_size_t = uint64
type X__darwin_va_list = X__builtin_va_list
type X__darwin_wchar_t = int32
type X__darwin_rune_t = X__darwin_wchar_t
type X__darwin_wint_t = int32
type X__darwin_clock_t = uint64
type X__darwin_socklen_t = X__uint32_t
type X__darwin_ssize_t = int64
type X__darwin_time_t = int64
type X__darwin_blkcnt_t = X__int64_t
type X__darwin_blksize_t = X__int32_t
type X__darwin_dev_t = X__int32_t
type X__darwin_fsblkcnt_t = uint32
type X__darwin_fsfilcnt_t = uint32
type X__darwin_gid_t = X__uint32_t
type X__darwin_id_t = X__uint32_t
type X__darwin_ino64_t = X__uint64_t
type X__darwin_ino_t = X__darwin_ino64_t
type X__darwin_mach_port_name_t = X__darwin_natural_t
type X__darwin_mach_port_t = X__darwin_mach_port_name_t
type X__darwin_mode_t = X__uint16_t
type X__darwin_off_t = X__int64_t
type X__darwin_pid_t = X__int32_t
type X__darwin_sigset_t = X__uint32_t
type X__darwin_suseconds_t = X__int32_t
type X__darwin_uid_t = X__uint32_t
type X__darwin_useconds_t = X__uint32_t
type X__darwin_uuid_t = [16]uint8
type X__darwin_uuid_string_t = [37]int8
type __darwin_pthread_handler_rec = struct {
F__routine uintptr
F__arg uintptr
F__next uintptr
}
type _opaque_pthread_attr_t = struct {
F__sig int64
F__opaque [56]int8
}
type _opaque_pthread_cond_t = struct {
F__sig int64
F__opaque [40]int8
}
type _opaque_pthread_condattr_t = struct {
F__sig int64
F__opaque [8]int8
}
type _opaque_pthread_mutex_t = struct {
F__sig int64
F__opaque [56]int8
}
type _opaque_pthread_mutexattr_t = struct {
F__sig int64
F__opaque [8]int8
}
type _opaque_pthread_once_t = struct {
F__sig int64
F__opaque [8]int8
}
type _opaque_pthread_rwlock_t = struct {
F__sig int64
F__opaque [192]int8
}
type _opaque_pthread_rwlockattr_t = struct {
F__sig int64
F__opaque [16]int8
}
type _opaque_pthread_t = struct {
F__sig int64
F__cleanup_stack uintptr
F__opaque [8176]int8
}
type X__darwin_pthread_attr_t = _opaque_pthread_attr_t
type X__darwin_pthread_cond_t = _opaque_pthread_cond_t
type X__darwin_pthread_condattr_t = _opaque_pthread_condattr_t
type X__darwin_pthread_key_t = uint64
type X__darwin_pthread_mutex_t = _opaque_pthread_mutex_t
type X__darwin_pthread_mutexattr_t = _opaque_pthread_mutexattr_t
type X__darwin_pthread_once_t = _opaque_pthread_once_t
type X__darwin_pthread_rwlock_t = _opaque_pthread_rwlock_t
type X__darwin_pthread_rwlockattr_t = _opaque_pthread_rwlockattr_t
type X__darwin_pthread_t = uintptr
type X__darwin_nl_item = int32
type X__darwin_wctrans_t = int32
type X__darwin_wctype_t = X__uint32_t
// Basic integral types. Omit the typedef if
// not possible for a machine/compiler combination.
// Copyright (c) 2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type Int8_t = int8
// Copyright (c) 2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type Int16_t = int16
// Copyright (c) 2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type Int32_t = int32
// Copyright (c) 2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type Int64_t = int64
// Copyright (c) 2016 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type U_int8_t = uint8
// Copyright (c) 2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type U_int16_t = uint16
// Copyright (c) 2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type U_int32_t = uint32
// Copyright (c) 2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type U_int64_t = uint64
type Register_t = Int64_t
type Intptr_t = X__darwin_intptr_t
// Copyright (c) 2003-2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type Uintptr_t = uint64
// These types are used for reserving the largest possible size.
type User_addr_t = U_int64_t
type User_size_t = U_int64_t
type User_ssize_t = Int64_t
type User_long_t = Int64_t
type User_ulong_t = U_int64_t
type User_time_t = Int64_t
type User_off_t = Int64_t
// This defines the size of syscall arguments after copying into the kernel:
type Syscall_arg_t = U_int64_t
type Fpos_t = X__darwin_off_t
type __sbuf = struct {
F_base uintptr
F_size int32
F__ccgo_pad1 [4]byte
}
type __sFILE = struct {
F_p uintptr
F_r int32
F_w int32
F_flags int16
F_file int16
F__ccgo_pad1 [4]byte
F_bf struct {
F_base uintptr
F_size int32
F__ccgo_pad1 [4]byte
}
F_lbfsize int32
F__ccgo_pad2 [4]byte
F_cookie uintptr
F_close uintptr
F_read uintptr
F_seek uintptr
F_write uintptr
F_ub struct {
F_base uintptr
F_size int32
F__ccgo_pad1 [4]byte
}
F_extra uintptr
F_ur int32
F_ubuf [3]uint8
F_nbuf [1]uint8
F_lb struct {
F_base uintptr
F_size int32
F__ccgo_pad1 [4]byte
}
F_blksize int32
F__ccgo_pad3 [4]byte
F_offset Fpos_t
}
// stdio state variables.
//
// The following always hold:
//
// if (_flags&(__SLBF|__SWR)) == (__SLBF|__SWR),
// _lbfsize is -_bf._size, else _lbfsize is 0
// if _flags&__SRD, _w is 0
// if _flags&__SWR, _r is 0
//
// This ensures that the getc and putc macros (or inline functions) never
// try to write or read from a file that is in `read' or `write' mode.
// (Moreover, they can, and do, automatically switch from read mode to
// write mode, and back, on "r+" and "w+" files.)
//
// _lbfsize is used only to make the inline line-buffered output stream
// code as compact as possible.
//
// _ub, _up, and _ur are used when ungetc() pushes back more characters
// than fit in the current _bf, or when ungetc() pushes back a character
// that does not match the previous one in _bf. When this happens,
// _ub._base becomes non-nil (i.e., a stream has ungetc() data iff
// _ub._base!=NULL) and _up and _ur save the current values of _p and _r.
//
// NB: see WARNING above before changing the layout of this structure!
type FILE = __sFILE
type Off_t = X__darwin_off_t
// Copyright (c) 2003-2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright (c) 2000-2007 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright 1995 NeXT Computer, Inc. All rights reserved.
type Ssize_t = X__darwin_ssize_t
// [XSI] The type idtype_t shall be defined as an enumeration type whose
// possible values shall include at least P_ALL, P_PID, and P_PGID.
type Idtype_t = uint32
type Pid_t = X__darwin_pid_t
type Id_t = X__darwin_id_t
type Sig_atomic_t = int32
type __darwin_i386_thread_state = struct {
F__eax uint32
F__ebx uint32
F__ecx uint32
F__edx uint32
F__edi uint32
F__esi uint32
F__ebp uint32
F__esp uint32
F__ss uint32
F__eflags uint32
F__eip uint32
F__cs uint32
F__ds uint32
F__es uint32
F__fs uint32
F__gs uint32
}
type __darwin_fp_control = struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
type X__darwin_fp_control_t = __darwin_fp_control
type __darwin_fp_status = struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
type X__darwin_fp_status_t = __darwin_fp_status
type __darwin_mmst_reg = struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
type __darwin_xmm_reg = struct{ F__xmm_reg [16]int8 }
type __darwin_ymm_reg = struct{ F__ymm_reg [32]int8 }
type __darwin_zmm_reg = struct{ F__zmm_reg [64]int8 }
type __darwin_opmask_reg = struct{ F__opmask_reg [8]int8 }
type __darwin_i386_float_state = struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [224]int8
F__fpu_reserved1 int32
}
type __darwin_i386_avx_state = struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [224]int8
F__fpu_reserved1 int32
F__avx_reserved1 [64]int8
F__fpu_ymmh0 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh1 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh2 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh3 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh4 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh5 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh6 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh7 struct{ F__xmm_reg [16]int8 }
}
type __darwin_i386_avx512_state = struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [224]int8
F__fpu_reserved1 int32
F__avx_reserved1 [64]int8
F__fpu_ymmh0 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh1 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh2 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh3 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh4 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh5 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh6 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh7 struct{ F__xmm_reg [16]int8 }
F__fpu_k0 struct{ F__opmask_reg [8]int8 }
F__fpu_k1 struct{ F__opmask_reg [8]int8 }
F__fpu_k2 struct{ F__opmask_reg [8]int8 }
F__fpu_k3 struct{ F__opmask_reg [8]int8 }
F__fpu_k4 struct{ F__opmask_reg [8]int8 }
F__fpu_k5 struct{ F__opmask_reg [8]int8 }
F__fpu_k6 struct{ F__opmask_reg [8]int8 }
F__fpu_k7 struct{ F__opmask_reg [8]int8 }
F__fpu_zmmh0 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh1 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh2 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh3 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh4 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh5 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh6 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh7 struct{ F__ymm_reg [32]int8 }
}
type __darwin_i386_exception_state = struct {
F__trapno X__uint16_t
F__cpu X__uint16_t
F__err X__uint32_t
F__faultvaddr X__uint32_t
}
type __darwin_x86_debug_state32 = struct {
F__dr0 uint32
F__dr1 uint32
F__dr2 uint32
F__dr3 uint32
F__dr4 uint32
F__dr5 uint32
F__dr6 uint32
F__dr7 uint32
}
type __x86_pagein_state = struct{ F__pagein_error int32 }
type __darwin_x86_thread_state64 = struct {
F__rax X__uint64_t
F__rbx X__uint64_t
F__rcx X__uint64_t
F__rdx X__uint64_t
F__rdi X__uint64_t
F__rsi X__uint64_t
F__rbp X__uint64_t
F__rsp X__uint64_t
F__r8 X__uint64_t
F__r9 X__uint64_t
F__r10 X__uint64_t
F__r11 X__uint64_t
F__r12 X__uint64_t
F__r13 X__uint64_t
F__r14 X__uint64_t
F__r15 X__uint64_t
F__rip X__uint64_t
F__rflags X__uint64_t
F__cs X__uint64_t
F__fs X__uint64_t
F__gs X__uint64_t
}
type __darwin_x86_thread_full_state64 = struct {
F__ss64 struct {
F__rax X__uint64_t
F__rbx X__uint64_t
F__rcx X__uint64_t
F__rdx X__uint64_t
F__rdi X__uint64_t
F__rsi X__uint64_t
F__rbp X__uint64_t
F__rsp X__uint64_t
F__r8 X__uint64_t
F__r9 X__uint64_t
F__r10 X__uint64_t
F__r11 X__uint64_t
F__r12 X__uint64_t
F__r13 X__uint64_t
F__r14 X__uint64_t
F__r15 X__uint64_t
F__rip X__uint64_t
F__rflags X__uint64_t
F__cs X__uint64_t
F__fs X__uint64_t
F__gs X__uint64_t
}
F__ds X__uint64_t
F__es X__uint64_t
F__ss X__uint64_t
F__gsbase X__uint64_t
}
type __darwin_x86_float_state64 = struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm8 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm9 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm10 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm11 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm12 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm13 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm14 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm15 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [96]int8
F__fpu_reserved1 int32
}
type __darwin_x86_avx_state64 = struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm8 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm9 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm10 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm11 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm12 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm13 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm14 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm15 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [96]int8
F__fpu_reserved1 int32
F__avx_reserved1 [64]int8
F__fpu_ymmh0 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh1 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh2 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh3 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh4 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh5 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh6 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh7 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh8 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh9 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh10 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh11 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh12 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh13 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh14 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh15 struct{ F__xmm_reg [16]int8 }
}
type __darwin_x86_avx512_state64 = struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm8 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm9 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm10 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm11 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm12 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm13 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm14 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm15 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [96]int8
F__fpu_reserved1 int32
F__avx_reserved1 [64]int8
F__fpu_ymmh0 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh1 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh2 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh3 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh4 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh5 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh6 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh7 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh8 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh9 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh10 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh11 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh12 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh13 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh14 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh15 struct{ F__xmm_reg [16]int8 }
F__fpu_k0 struct{ F__opmask_reg [8]int8 }
F__fpu_k1 struct{ F__opmask_reg [8]int8 }
F__fpu_k2 struct{ F__opmask_reg [8]int8 }
F__fpu_k3 struct{ F__opmask_reg [8]int8 }
F__fpu_k4 struct{ F__opmask_reg [8]int8 }
F__fpu_k5 struct{ F__opmask_reg [8]int8 }
F__fpu_k6 struct{ F__opmask_reg [8]int8 }
F__fpu_k7 struct{ F__opmask_reg [8]int8 }
F__fpu_zmmh0 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh1 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh2 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh3 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh4 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh5 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh6 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh7 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh8 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh9 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh10 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh11 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh12 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh13 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh14 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh15 struct{ F__ymm_reg [32]int8 }
F__fpu_zmm16 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm17 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm18 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm19 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm20 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm21 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm22 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm23 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm24 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm25 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm26 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm27 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm28 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm29 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm30 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm31 struct{ F__zmm_reg [64]int8 }
}
type __darwin_x86_exception_state64 = struct {
F__trapno X__uint16_t
F__cpu X__uint16_t
F__err X__uint32_t
F__faultvaddr X__uint64_t
}
type __darwin_x86_debug_state64 = struct {
F__dr0 X__uint64_t
F__dr1 X__uint64_t
F__dr2 X__uint64_t
F__dr3 X__uint64_t
F__dr4 X__uint64_t
F__dr5 X__uint64_t
F__dr6 X__uint64_t
F__dr7 X__uint64_t
}
type __darwin_x86_cpmu_state64 = struct{ F__ctrs [16]X__uint64_t }
type __darwin_mcontext32 = struct {
F__es struct {
F__trapno X__uint16_t
F__cpu X__uint16_t
F__err X__uint32_t
F__faultvaddr X__uint32_t
}
F__ss struct {
F__eax uint32
F__ebx uint32
F__ecx uint32
F__edx uint32
F__edi uint32
F__esi uint32
F__ebp uint32
F__esp uint32
F__ss uint32
F__eflags uint32
F__eip uint32
F__cs uint32
F__ds uint32
F__es uint32
F__fs uint32
F__gs uint32
}
F__fs struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [224]int8
F__fpu_reserved1 int32
}
}
type __darwin_mcontext_avx32 = struct {
F__es struct {
F__trapno X__uint16_t
F__cpu X__uint16_t
F__err X__uint32_t
F__faultvaddr X__uint32_t
}
F__ss struct {
F__eax uint32
F__ebx uint32
F__ecx uint32
F__edx uint32
F__edi uint32
F__esi uint32
F__ebp uint32
F__esp uint32
F__ss uint32
F__eflags uint32
F__eip uint32
F__cs uint32
F__ds uint32
F__es uint32
F__fs uint32
F__gs uint32
}
F__fs struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [224]int8
F__fpu_reserved1 int32
F__avx_reserved1 [64]int8
F__fpu_ymmh0 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh1 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh2 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh3 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh4 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh5 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh6 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh7 struct{ F__xmm_reg [16]int8 }
}
}
type __darwin_mcontext_avx512_32 = struct {
F__es struct {
F__trapno X__uint16_t
F__cpu X__uint16_t
F__err X__uint32_t
F__faultvaddr X__uint32_t
}
F__ss struct {
F__eax uint32
F__ebx uint32
F__ecx uint32
F__edx uint32
F__edi uint32
F__esi uint32
F__ebp uint32
F__esp uint32
F__ss uint32
F__eflags uint32
F__eip uint32
F__cs uint32
F__ds uint32
F__es uint32
F__fs uint32
F__gs uint32
}
F__fs struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [224]int8
F__fpu_reserved1 int32
F__avx_reserved1 [64]int8
F__fpu_ymmh0 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh1 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh2 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh3 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh4 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh5 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh6 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh7 struct{ F__xmm_reg [16]int8 }
F__fpu_k0 struct{ F__opmask_reg [8]int8 }
F__fpu_k1 struct{ F__opmask_reg [8]int8 }
F__fpu_k2 struct{ F__opmask_reg [8]int8 }
F__fpu_k3 struct{ F__opmask_reg [8]int8 }
F__fpu_k4 struct{ F__opmask_reg [8]int8 }
F__fpu_k5 struct{ F__opmask_reg [8]int8 }
F__fpu_k6 struct{ F__opmask_reg [8]int8 }
F__fpu_k7 struct{ F__opmask_reg [8]int8 }
F__fpu_zmmh0 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh1 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh2 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh3 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh4 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh5 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh6 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh7 struct{ F__ymm_reg [32]int8 }
}
}
type __darwin_mcontext64 = struct {
F__es struct {
F__trapno X__uint16_t
F__cpu X__uint16_t
F__err X__uint32_t
F__faultvaddr X__uint64_t
}
F__ss struct {
F__rax X__uint64_t
F__rbx X__uint64_t
F__rcx X__uint64_t
F__rdx X__uint64_t
F__rdi X__uint64_t
F__rsi X__uint64_t
F__rbp X__uint64_t
F__rsp X__uint64_t
F__r8 X__uint64_t
F__r9 X__uint64_t
F__r10 X__uint64_t
F__r11 X__uint64_t
F__r12 X__uint64_t
F__r13 X__uint64_t
F__r14 X__uint64_t
F__r15 X__uint64_t
F__rip X__uint64_t
F__rflags X__uint64_t
F__cs X__uint64_t
F__fs X__uint64_t
F__gs X__uint64_t
}
F__fs struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm8 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm9 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm10 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm11 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm12 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm13 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm14 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm15 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [96]int8
F__fpu_reserved1 int32
}
F__ccgo_pad1 [4]byte
}
type __darwin_mcontext64_full = struct {
F__es struct {
F__trapno X__uint16_t
F__cpu X__uint16_t
F__err X__uint32_t
F__faultvaddr X__uint64_t
}
F__ss struct {
F__ss64 struct {
F__rax X__uint64_t
F__rbx X__uint64_t
F__rcx X__uint64_t
F__rdx X__uint64_t
F__rdi X__uint64_t
F__rsi X__uint64_t
F__rbp X__uint64_t
F__rsp X__uint64_t
F__r8 X__uint64_t
F__r9 X__uint64_t
F__r10 X__uint64_t
F__r11 X__uint64_t
F__r12 X__uint64_t
F__r13 X__uint64_t
F__r14 X__uint64_t
F__r15 X__uint64_t
F__rip X__uint64_t
F__rflags X__uint64_t
F__cs X__uint64_t
F__fs X__uint64_t
F__gs X__uint64_t
}
F__ds X__uint64_t
F__es X__uint64_t
F__ss X__uint64_t
F__gsbase X__uint64_t
}
F__fs struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm8 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm9 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm10 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm11 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm12 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm13 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm14 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm15 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [96]int8
F__fpu_reserved1 int32
}
F__ccgo_pad1 [4]byte
}
type __darwin_mcontext_avx64 = struct {
F__es struct {
F__trapno X__uint16_t
F__cpu X__uint16_t
F__err X__uint32_t
F__faultvaddr X__uint64_t
}
F__ss struct {
F__rax X__uint64_t
F__rbx X__uint64_t
F__rcx X__uint64_t
F__rdx X__uint64_t
F__rdi X__uint64_t
F__rsi X__uint64_t
F__rbp X__uint64_t
F__rsp X__uint64_t
F__r8 X__uint64_t
F__r9 X__uint64_t
F__r10 X__uint64_t
F__r11 X__uint64_t
F__r12 X__uint64_t
F__r13 X__uint64_t
F__r14 X__uint64_t
F__r15 X__uint64_t
F__rip X__uint64_t
F__rflags X__uint64_t
F__cs X__uint64_t
F__fs X__uint64_t
F__gs X__uint64_t
}
F__fs struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm8 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm9 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm10 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm11 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm12 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm13 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm14 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm15 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [96]int8
F__fpu_reserved1 int32
F__avx_reserved1 [64]int8
F__fpu_ymmh0 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh1 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh2 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh3 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh4 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh5 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh6 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh7 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh8 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh9 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh10 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh11 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh12 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh13 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh14 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh15 struct{ F__xmm_reg [16]int8 }
}
F__ccgo_pad1 [4]byte
}
type __darwin_mcontext_avx64_full = struct {
F__es struct {
F__trapno X__uint16_t
F__cpu X__uint16_t
F__err X__uint32_t
F__faultvaddr X__uint64_t
}
F__ss struct {
F__ss64 struct {
F__rax X__uint64_t
F__rbx X__uint64_t
F__rcx X__uint64_t
F__rdx X__uint64_t
F__rdi X__uint64_t
F__rsi X__uint64_t
F__rbp X__uint64_t
F__rsp X__uint64_t
F__r8 X__uint64_t
F__r9 X__uint64_t
F__r10 X__uint64_t
F__r11 X__uint64_t
F__r12 X__uint64_t
F__r13 X__uint64_t
F__r14 X__uint64_t
F__r15 X__uint64_t
F__rip X__uint64_t
F__rflags X__uint64_t
F__cs X__uint64_t
F__fs X__uint64_t
F__gs X__uint64_t
}
F__ds X__uint64_t
F__es X__uint64_t
F__ss X__uint64_t
F__gsbase X__uint64_t
}
F__fs struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm8 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm9 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm10 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm11 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm12 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm13 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm14 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm15 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [96]int8
F__fpu_reserved1 int32
F__avx_reserved1 [64]int8
F__fpu_ymmh0 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh1 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh2 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh3 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh4 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh5 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh6 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh7 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh8 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh9 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh10 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh11 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh12 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh13 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh14 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh15 struct{ F__xmm_reg [16]int8 }
}
F__ccgo_pad1 [4]byte
}
type __darwin_mcontext_avx512_64 = struct {
F__es struct {
F__trapno X__uint16_t
F__cpu X__uint16_t
F__err X__uint32_t
F__faultvaddr X__uint64_t
}
F__ss struct {
F__rax X__uint64_t
F__rbx X__uint64_t
F__rcx X__uint64_t
F__rdx X__uint64_t
F__rdi X__uint64_t
F__rsi X__uint64_t
F__rbp X__uint64_t
F__rsp X__uint64_t
F__r8 X__uint64_t
F__r9 X__uint64_t
F__r10 X__uint64_t
F__r11 X__uint64_t
F__r12 X__uint64_t
F__r13 X__uint64_t
F__r14 X__uint64_t
F__r15 X__uint64_t
F__rip X__uint64_t
F__rflags X__uint64_t
F__cs X__uint64_t
F__fs X__uint64_t
F__gs X__uint64_t
}
F__fs struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm8 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm9 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm10 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm11 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm12 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm13 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm14 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm15 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [96]int8
F__fpu_reserved1 int32
F__avx_reserved1 [64]int8
F__fpu_ymmh0 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh1 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh2 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh3 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh4 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh5 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh6 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh7 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh8 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh9 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh10 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh11 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh12 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh13 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh14 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh15 struct{ F__xmm_reg [16]int8 }
F__fpu_k0 struct{ F__opmask_reg [8]int8 }
F__fpu_k1 struct{ F__opmask_reg [8]int8 }
F__fpu_k2 struct{ F__opmask_reg [8]int8 }
F__fpu_k3 struct{ F__opmask_reg [8]int8 }
F__fpu_k4 struct{ F__opmask_reg [8]int8 }
F__fpu_k5 struct{ F__opmask_reg [8]int8 }
F__fpu_k6 struct{ F__opmask_reg [8]int8 }
F__fpu_k7 struct{ F__opmask_reg [8]int8 }
F__fpu_zmmh0 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh1 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh2 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh3 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh4 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh5 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh6 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh7 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh8 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh9 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh10 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh11 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh12 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh13 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh14 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh15 struct{ F__ymm_reg [32]int8 }
F__fpu_zmm16 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm17 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm18 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm19 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm20 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm21 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm22 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm23 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm24 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm25 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm26 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm27 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm28 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm29 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm30 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm31 struct{ F__zmm_reg [64]int8 }
}
F__ccgo_pad1 [4]byte
}
type __darwin_mcontext_avx512_64_full = struct {
F__es struct {
F__trapno X__uint16_t
F__cpu X__uint16_t
F__err X__uint32_t
F__faultvaddr X__uint64_t
}
F__ss struct {
F__ss64 struct {
F__rax X__uint64_t
F__rbx X__uint64_t
F__rcx X__uint64_t
F__rdx X__uint64_t
F__rdi X__uint64_t
F__rsi X__uint64_t
F__rbp X__uint64_t
F__rsp X__uint64_t
F__r8 X__uint64_t
F__r9 X__uint64_t
F__r10 X__uint64_t
F__r11 X__uint64_t
F__r12 X__uint64_t
F__r13 X__uint64_t
F__r14 X__uint64_t
F__r15 X__uint64_t
F__rip X__uint64_t
F__rflags X__uint64_t
F__cs X__uint64_t
F__fs X__uint64_t
F__gs X__uint64_t
}
F__ds X__uint64_t
F__es X__uint64_t
F__ss X__uint64_t
F__gsbase X__uint64_t
}
F__fs struct {
F__fpu_reserved [2]int32
F__fpu_fcw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_fsw struct {
F__ccgo_pad1 [0]uint16
F__invalid uint16
}
F__fpu_ftw X__uint8_t
F__fpu_rsrv1 X__uint8_t
F__fpu_fop X__uint16_t
F__fpu_ip X__uint32_t
F__fpu_cs X__uint16_t
F__fpu_rsrv2 X__uint16_t
F__fpu_dp X__uint32_t
F__fpu_ds X__uint16_t
F__fpu_rsrv3 X__uint16_t
F__fpu_mxcsr X__uint32_t
F__fpu_mxcsrmask X__uint32_t
F__fpu_stmm0 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm1 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm2 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm3 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm4 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm5 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm6 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_stmm7 struct {
F__mmst_reg [10]int8
F__mmst_rsrv [6]int8
}
F__fpu_xmm0 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm1 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm2 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm3 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm4 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm5 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm6 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm7 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm8 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm9 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm10 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm11 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm12 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm13 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm14 struct{ F__xmm_reg [16]int8 }
F__fpu_xmm15 struct{ F__xmm_reg [16]int8 }
F__fpu_rsrv4 [96]int8
F__fpu_reserved1 int32
F__avx_reserved1 [64]int8
F__fpu_ymmh0 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh1 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh2 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh3 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh4 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh5 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh6 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh7 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh8 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh9 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh10 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh11 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh12 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh13 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh14 struct{ F__xmm_reg [16]int8 }
F__fpu_ymmh15 struct{ F__xmm_reg [16]int8 }
F__fpu_k0 struct{ F__opmask_reg [8]int8 }
F__fpu_k1 struct{ F__opmask_reg [8]int8 }
F__fpu_k2 struct{ F__opmask_reg [8]int8 }
F__fpu_k3 struct{ F__opmask_reg [8]int8 }
F__fpu_k4 struct{ F__opmask_reg [8]int8 }
F__fpu_k5 struct{ F__opmask_reg [8]int8 }
F__fpu_k6 struct{ F__opmask_reg [8]int8 }
F__fpu_k7 struct{ F__opmask_reg [8]int8 }
F__fpu_zmmh0 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh1 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh2 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh3 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh4 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh5 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh6 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh7 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh8 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh9 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh10 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh11 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh12 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh13 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh14 struct{ F__ymm_reg [32]int8 }
F__fpu_zmmh15 struct{ F__ymm_reg [32]int8 }
F__fpu_zmm16 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm17 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm18 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm19 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm20 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm21 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm22 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm23 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm24 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm25 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm26 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm27 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm28 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm29 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm30 struct{ F__zmm_reg [64]int8 }
F__fpu_zmm31 struct{ F__zmm_reg [64]int8 }
}
F__ccgo_pad1 [4]byte
}
type Mcontext_t = uintptr
type Pthread_attr_t = X__darwin_pthread_attr_t
type __darwin_sigaltstack = struct {
Fss_sp uintptr
Fss_size X__darwin_size_t
Fss_flags int32
F__ccgo_pad1 [4]byte
}
type Stack_t = __darwin_sigaltstack
type __darwin_ucontext = struct {
Fuc_onstack int32
Fuc_sigmask X__darwin_sigset_t
Fuc_stack struct {
Fss_sp uintptr
Fss_size X__darwin_size_t
Fss_flags int32
F__ccgo_pad1 [4]byte
}
Fuc_link uintptr
Fuc_mcsize X__darwin_size_t
Fuc_mcontext uintptr
}
// user context
type Ucontext_t = __darwin_ucontext
type Sigset_t = X__darwin_sigset_t
type Uid_t = X__darwin_uid_t
type sigval = struct {
F__ccgo_pad1 [0]uint64
Fsival_int int32
F__ccgo_pad2 [4]byte
}
type sigevent = struct {
Fsigev_notify int32
Fsigev_signo int32
Fsigev_value struct {
F__ccgo_pad1 [0]uint64
Fsival_int int32
F__ccgo_pad2 [4]byte
}
Fsigev_notify_function uintptr
Fsigev_notify_attributes uintptr
}
type __siginfo = struct {
Fsi_signo int32
Fsi_errno int32
Fsi_code int32
Fsi_pid Pid_t
Fsi_uid Uid_t
Fsi_status int32
Fsi_addr uintptr
Fsi_value struct {
F__ccgo_pad1 [0]uint64
Fsival_int int32
F__ccgo_pad2 [4]byte
}
Fsi_band int64
F__pad [7]uint64
}
type Siginfo_t = __siginfo
type __sigaction_u = struct{ F__sa_handler uintptr }
type __sigaction = struct {
F__sigaction_u struct{ F__sa_handler uintptr }
Fsa_tramp uintptr
Fsa_mask Sigset_t
Fsa_flags int32
}
type sigaction = struct {
F__sigaction_u struct{ F__sa_handler uintptr }
Fsa_mask Sigset_t
Fsa_flags int32
}
type Sig_t = uintptr
type sigvec = struct {
Fsv_handler uintptr
Fsv_mask int32
Fsv_flags int32
}
type sigstack = struct {
Fss_sp uintptr
Fss_onstack int32
F__ccgo_pad1 [4]byte
}
type Uint64_t = uint64
type Int_least64_t = Int64_t
type Uint_least64_t = Uint64_t
type Int_fast64_t = Int64_t
type Uint_fast64_t = Uint64_t
type Uint32_t = uint32
type Int_least32_t = Int32_t
type Uint_least32_t = Uint32_t
type Int_fast32_t = Int32_t
type Uint_fast32_t = Uint32_t
type Uint16_t = uint16
type Int_least16_t = Int16_t
type Uint_least16_t = Uint16_t
type Int_fast16_t = Int16_t
type Uint_fast16_t = Uint16_t
type Uint8_t = uint8
type Int_least8_t = Int8_t
type Uint_least8_t = Uint8_t
type Int_fast8_t = Int8_t
type Uint_fast8_t = Uint8_t
// C99 7.18.1.5 Greatest-width integer types.
type Intmax_t = int64
type Uintmax_t = uint64
type timeval = struct {
Ftv_sec X__darwin_time_t
Ftv_usec X__darwin_suseconds_t
F__ccgo_pad1 [4]byte
}
// Resource limit type (low 63 bits, excluding the sign bit)
type Rlim_t = X__uint64_t
type rusage = struct {
Fru_utime struct {
Ftv_sec X__darwin_time_t
Ftv_usec X__darwin_suseconds_t
F__ccgo_pad1 [4]byte
}
Fru_stime struct {
Ftv_sec X__darwin_time_t
Ftv_usec X__darwin_suseconds_t
F__ccgo_pad1 [4]byte
}
Fru_maxrss int64
Fru_ixrss int64
Fru_idrss int64
Fru_isrss int64
Fru_minflt int64
Fru_majflt int64
Fru_nswap int64
Fru_inblock int64
Fru_oublock int64
Fru_msgsnd int64
Fru_msgrcv int64
Fru_nsignals int64
Fru_nvcsw int64
Fru_nivcsw int64
}
type Rusage_info_t = uintptr
type rusage_info_v0 = struct {
Fri_uuid [16]Uint8_t
Fri_user_time Uint64_t
Fri_system_time Uint64_t
Fri_pkg_idle_wkups Uint64_t
Fri_interrupt_wkups Uint64_t
Fri_pageins Uint64_t
Fri_wired_size Uint64_t
Fri_resident_size Uint64_t
Fri_phys_footprint Uint64_t
Fri_proc_start_abstime Uint64_t
Fri_proc_exit_abstime Uint64_t
}
type rusage_info_v1 = struct {
Fri_uuid [16]Uint8_t
Fri_user_time Uint64_t
Fri_system_time Uint64_t
Fri_pkg_idle_wkups Uint64_t
Fri_interrupt_wkups Uint64_t
Fri_pageins Uint64_t
Fri_wired_size Uint64_t
Fri_resident_size Uint64_t
Fri_phys_footprint Uint64_t
Fri_proc_start_abstime Uint64_t
Fri_proc_exit_abstime Uint64_t
Fri_child_user_time Uint64_t
Fri_child_system_time Uint64_t
Fri_child_pkg_idle_wkups Uint64_t
Fri_child_interrupt_wkups Uint64_t
Fri_child_pageins Uint64_t
Fri_child_elapsed_abstime Uint64_t
}
type rusage_info_v2 = struct {
Fri_uuid [16]Uint8_t
Fri_user_time Uint64_t
Fri_system_time Uint64_t
Fri_pkg_idle_wkups Uint64_t
Fri_interrupt_wkups Uint64_t
Fri_pageins Uint64_t
Fri_wired_size Uint64_t
Fri_resident_size Uint64_t
Fri_phys_footprint Uint64_t
Fri_proc_start_abstime Uint64_t
Fri_proc_exit_abstime Uint64_t
Fri_child_user_time Uint64_t
Fri_child_system_time Uint64_t
Fri_child_pkg_idle_wkups Uint64_t
Fri_child_interrupt_wkups Uint64_t
Fri_child_pageins Uint64_t
Fri_child_elapsed_abstime Uint64_t
Fri_diskio_bytesread Uint64_t
Fri_diskio_byteswritten Uint64_t
}
type rusage_info_v3 = struct {
Fri_uuid [16]Uint8_t
Fri_user_time Uint64_t
Fri_system_time Uint64_t
Fri_pkg_idle_wkups Uint64_t
Fri_interrupt_wkups Uint64_t
Fri_pageins Uint64_t
Fri_wired_size Uint64_t
Fri_resident_size Uint64_t
Fri_phys_footprint Uint64_t
Fri_proc_start_abstime Uint64_t
Fri_proc_exit_abstime Uint64_t
Fri_child_user_time Uint64_t
Fri_child_system_time Uint64_t
Fri_child_pkg_idle_wkups Uint64_t
Fri_child_interrupt_wkups Uint64_t
Fri_child_pageins Uint64_t
Fri_child_elapsed_abstime Uint64_t
Fri_diskio_bytesread Uint64_t
Fri_diskio_byteswritten Uint64_t
Fri_cpu_time_qos_default Uint64_t
Fri_cpu_time_qos_maintenance Uint64_t
Fri_cpu_time_qos_background Uint64_t
Fri_cpu_time_qos_utility Uint64_t
Fri_cpu_time_qos_legacy Uint64_t
Fri_cpu_time_qos_user_initiated Uint64_t
Fri_cpu_time_qos_user_interactive Uint64_t
Fri_billed_system_time Uint64_t
Fri_serviced_system_time Uint64_t
}
type rusage_info_v4 = struct {
Fri_uuid [16]Uint8_t
Fri_user_time Uint64_t
Fri_system_time Uint64_t
Fri_pkg_idle_wkups Uint64_t
Fri_interrupt_wkups Uint64_t
Fri_pageins Uint64_t
Fri_wired_size Uint64_t
Fri_resident_size Uint64_t
Fri_phys_footprint Uint64_t
Fri_proc_start_abstime Uint64_t
Fri_proc_exit_abstime Uint64_t
Fri_child_user_time Uint64_t
Fri_child_system_time Uint64_t
Fri_child_pkg_idle_wkups Uint64_t
Fri_child_interrupt_wkups Uint64_t
Fri_child_pageins Uint64_t
Fri_child_elapsed_abstime Uint64_t
Fri_diskio_bytesread Uint64_t
Fri_diskio_byteswritten Uint64_t
Fri_cpu_time_qos_default Uint64_t
Fri_cpu_time_qos_maintenance Uint64_t
Fri_cpu_time_qos_background Uint64_t
Fri_cpu_time_qos_utility Uint64_t
Fri_cpu_time_qos_legacy Uint64_t
Fri_cpu_time_qos_user_initiated Uint64_t
Fri_cpu_time_qos_user_interactive Uint64_t
Fri_billed_system_time Uint64_t
Fri_serviced_system_time Uint64_t
Fri_logical_writes Uint64_t
Fri_lifetime_max_phys_footprint Uint64_t
Fri_instructions Uint64_t
Fri_cycles Uint64_t
Fri_billed_energy Uint64_t
Fri_serviced_energy Uint64_t
Fri_interval_max_phys_footprint Uint64_t
Fri_runnable_time Uint64_t
}
type Rusage_info_current = rusage_info_v4
type rlimit = struct {
Frlim_cur Rlim_t
Frlim_max Rlim_t
}
type proc_rlimit_control_wakeupmon = struct {
Fwm_flags Uint32_t
Fwm_rate Int32_t
}
type wait = struct{ Fw_status int32 }
// Copyright (c) 2003-2007 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type Ct_rune_t = X__darwin_ct_rune_t
// Copyright (c) 2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright (c) 2003-2007 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type Rune_t = X__darwin_rune_t
type Div_t = struct {
Fquot int32
Frem int32
}
type Ldiv_t = struct {
Fquot int64
Frem int64
}
type Lldiv_t = struct {
Fquot int64
Frem int64
}
type Dev_t = X__darwin_dev_t
type Mode_t = X__darwin_mode_t
// Copyright (c) 2003-2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright (c) 2000-2007 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright 1995 NeXT Computer, Inc. All rights reserved.
type Rsize_t = X__darwin_size_t
// Copyright (c) 2003-2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type Errno_t = int32
type Max_align_t = float64
// Integers of known sizes. These typedefs might change for architectures
// where the sizes very. Preprocessor macros are available so that the
// types can be conveniently redefined at compile-type. Like this:
//
// cc '-DUINTPTR_TYPE=long long int' ...
type I64 = Sqlite_int64
type U64 = Sqlite_uint64
type U32 = uint32
type U16 = uint16
type I16 = int16
type U8 = uint8
type I8 = int8
// The datatype used to store estimates of the number of rows in a
// table or index.
type TRowcnt = U64
// Estimated quantities used for query planning are stored as 16-bit
// logarithms. For quantity X, the value stored is 10*log2(X). This
// gives a possible range of values of approximately 1.0e986 to 1e-986.
// But the allowed values are "grainy". Not every value is representable.
// For example, quantities 16 and 17 are both represented by a LogEst
// of 40. However, since LogEst quantities are suppose to be estimates,
// not exact values, this imprecision is not a problem.
//
// "LogEst" is short for "Logarithmic Estimate".
//
// Examples:
//
// 1 -> 0 20 -> 43 10000 -> 132
// 2 -> 10 25 -> 46 25000 -> 146
// 3 -> 16 100 -> 66 1000000 -> 199
// 4 -> 20 1000 -> 99 1048576 -> 200
// 10 -> 33 1024 -> 100 4294967296 -> 320
//
// The LogEst can be negative to indicate fractional values.
// Examples:
//
// 0.5 -> -10 0.1 -> -33 0.0625 -> -40
type LogEst = int16
// The uptr type is an unsigned integer large enough to hold a pointer
type Uptr = U64
// An instance of the following structure is used to store the busy-handler
// callback for a given sqlite handle.
//
// The sqlite.busyHandler member of the sqlite struct contains the busy
// callback for the database handle. Each pager opened via the sqlite
// handle is passed a pointer to sqlite.busyHandler. The busy-handler
// callback is currently invoked only from within pager.c.
type BusyHandler1 = struct {
FxBusyHandler uintptr
FpBusyArg uintptr
FnBusy int32
F__ccgo_pad1 [4]byte
}
// An instance of the following structure is used to store the busy-handler
// callback for a given sqlite handle.
//
// The sqlite.busyHandler member of the sqlite struct contains the busy
// callback for the database handle. Each pager opened via the sqlite
// handle is passed a pointer to sqlite.busyHandler. The busy-handler
// callback is currently invoked only from within pager.c.
type BusyHandler = BusyHandler1
// Forward references to structures
type AggInfo1 = struct {
FdirectMode U8
FuseSortingIdx U8
FnSortingColumn U16
FsortingIdx int32
FsortingIdxPTab int32
FiFirstReg int32
FpGroupBy uintptr
FaCol uintptr
FnColumn int32
FnAccumulator int32
FaFunc uintptr
FnFunc int32
FselId U32
}
// Forward references to structures
type AggInfo = AggInfo1
type AuthContext1 = struct {
FzAuthContext uintptr
FpParse uintptr
}
type AuthContext = AuthContext1
type AutoincInfo1 = struct {
FpNext uintptr
FpTab uintptr
FiDb int32
FregCtr int32
}
type AutoincInfo = AutoincInfo1
type Bitvec1 = struct {
FiSize U32
FnSet U32
FiDivisor U32
F__ccgo_pad1 [4]byte
Fu struct {
F__ccgo_pad1 [0]uint64
FaBitmap [496]U8
}
}
type Bitvec = Bitvec1
type CollSeq1 = struct {
FzName uintptr
Fenc U8
F__ccgo_pad1 [7]byte
FpUser uintptr
FxCmp uintptr
FxDel uintptr
}
type CollSeq = CollSeq1
type Column1 = struct {
FzCnName uintptr
FnotNull uint8
F__ccgo_pad1 [1]byte
Faffinity int8
FszEst U8
FhName U8
F__ccgo_pad2 [1]byte
FiDflt U16
FcolFlags U16
F__ccgo_pad3 [6]byte
}
type Column = Column1
type Cte1 = struct {
FzName uintptr
FpCols uintptr
FpSelect uintptr
FzCteErr uintptr
FpUse uintptr
FeM10d U8
F__ccgo_pad1 [7]byte
}
type Cte = Cte1
type CteUse1 = struct {
FnUse int32
FaddrM9e int32
FregRtn int32
FiCur int32
FnRowEst LogEst
FeM10d U8
F__ccgo_pad1 [1]byte
}
type CteUse = CteUse1
type Db1 = struct {
FzDbSName uintptr
FpBt uintptr
Fsafety_level U8
FbSyncSet U8
F__ccgo_pad1 [6]byte
FpSchema uintptr
}
type Db = Db1
type DbFixer1 = struct {
FpParse uintptr
Fw Walker
FpSchema uintptr
FbTemp U8
F__ccgo_pad1 [7]byte
FzDb uintptr
FzType uintptr
FpName uintptr
}
type DbFixer = DbFixer1
type Schema1 = struct {
Fschema_cookie int32
FiGeneration int32
FtblHash Hash
FidxHash Hash
FtrigHash Hash
FfkeyHash Hash
FpSeqTab uintptr
Ffile_format U8
Fenc U8
FschemaFlags U16
Fcache_size int32
}
type Schema = Schema1
type Expr1 = struct {
Fop U8
FaffExpr int8
Fop2 U8
F__ccgo_pad1 [1]byte
Fflags U32
Fu struct{ FzToken uintptr }
FpLeft uintptr
FpRight uintptr
Fx struct{ FpList uintptr }
FnHeight int32
FiTable int32
FiColumn YnVar
FiAgg I16
Fw struct{ FiJoin int32 }
FpAggInfo uintptr
Fy struct{ FpTab uintptr }
}
type Expr = Expr1
type ExprList1 = struct {
FnExpr int32
FnAlloc int32
Fa [1]struct {
FpExpr uintptr
FzEName uintptr
Ffg struct {
F__ccgo_pad1 [0]uint32
FsortFlags U8
F__ccgo_pad2 [3]byte
FeEName uint16
F__ccgo_pad3 [2]byte
}
Fu struct {
F__ccgo_pad1 [0]uint32
Fx struct {
FiOrderByCol U16
FiAlias U16
}
}
F__ccgo_pad1 [4]byte
}
}
type ExprList = ExprList1
type FKey1 = struct {
FpFrom uintptr
FpNextFrom uintptr
FzTo uintptr
FpNextTo uintptr
FpPrevTo uintptr
FnCol int32
FisDeferred U8
FaAction [2]U8
F__ccgo_pad1 [1]byte
FapTrigger [2]uintptr
FaCol [1]struct {
FiFrom int32
F__ccgo_pad1 [4]byte
FzCol uintptr
}
}
type FKey = FKey1
type FuncDestructor1 = struct {
FnRef int32
F__ccgo_pad1 [4]byte
FxDestroy uintptr
FpUserData uintptr
}
type FuncDestructor = FuncDestructor1
type FuncDef1 = struct {
FnArg I8
F__ccgo_pad1 [3]byte
FfuncFlags U32
FpUserData uintptr
FpNext uintptr
FxSFunc uintptr
FxFinalize uintptr
FxValue uintptr
FxInverse uintptr
FzName uintptr
Fu struct{ FpHash uintptr }
}
type FuncDef = FuncDef1
type FuncDefHash1 = struct{ Fa [23]uintptr }
type FuncDefHash = FuncDefHash1
type IdList1 = struct {
FnId int32
FeU4 U8
F__ccgo_pad1 [3]byte
Fa [1]struct {
FzName uintptr
Fu4 struct {
F__ccgo_pad1 [0]uint64
Fidx int32
F__ccgo_pad2 [4]byte
}
}
}
type IdList = IdList1
type Index1 = struct {
FzName uintptr
FaiColumn uintptr
FaiRowLogEst uintptr
FpTable uintptr
FzColAff uintptr
FpNext uintptr
FpSchema uintptr
FaSortOrder uintptr
FazColl uintptr
FpPartIdxWhere uintptr
FaColExpr uintptr
Ftnum Pgno
FszIdxRow LogEst
FnKeyCol U16
FnColumn U16
FonError U8
F__ccgo_pad1 [1]byte
FidxType uint16
F__ccgo_pad2 [2]byte
FnSample int32
FnSampleCol int32
FaAvgEq uintptr
FaSample uintptr
FaiRowEst uintptr
FnRowEst0 TRowcnt
FcolNotIdxed Bitmask
}
type Index = Index1
type IndexedExpr1 = struct {
FpExpr uintptr
FiDataCur int32
FiIdxCur int32
FiIdxCol int32
FbMaybeNullRow U8
F__ccgo_pad1 [3]byte
FpIENext uintptr
}
type IndexedExpr = IndexedExpr1
type IndexSample1 = struct {
Fp uintptr
Fn int32
F__ccgo_pad1 [4]byte
FanEq uintptr
FanLt uintptr
FanDLt uintptr
}
type IndexSample = IndexSample1
type KeyInfo1 = struct {
FnRef U32
Fenc U8
F__ccgo_pad1 [1]byte
FnKeyField U16
FnAllField U16
F__ccgo_pad2 [6]byte
Fdb uintptr
FaSortFlags uintptr
FaColl [1]uintptr
}
type KeyInfo = KeyInfo1
type Lookaside1 = struct {
FbDisable U32
Fsz U16
FszTrue U16
FbMalloced U8
F__ccgo_pad1 [3]byte
FnSlot U32
FanStat [3]U32
F__ccgo_pad2 [4]byte
FpInit uintptr
FpFree uintptr
FpSmallInit uintptr
FpSmallFree uintptr
FpMiddle uintptr
FpStart uintptr
FpEnd uintptr
FpTrueEnd uintptr
}
type Lookaside = Lookaside1
type LookasideSlot1 = struct{ FpNext uintptr }
type LookasideSlot = LookasideSlot1
type Module1 = struct {
FpModule uintptr
FzName uintptr
FnRefModule int32
F__ccgo_pad1 [4]byte
FpAux uintptr
FxDestroy uintptr
FpEpoTab uintptr
}
type Module = Module1
type NameContext1 = struct {
FpParse uintptr
FpSrcList uintptr
FuNC struct{ FpEList uintptr }
FpNext uintptr
FnRef int32
FnNcErr int32
FncFlags int32
F__ccgo_pad1 [4]byte
FpWinSelect uintptr
}
type NameContext = NameContext1
type OnOrUsing1 = struct {
FpOn uintptr
FpUsing uintptr
}
type OnOrUsing = OnOrUsing1
type Parse1 = struct {
Fdb uintptr
FzErrMsg uintptr
FpVdbe uintptr
Frc int32
FcolNamesSet U8
FcheckSchema U8
Fnested U8
FnTempReg U8
FisMultiWrite U8
FmayAbort U8
FhasCompound U8
FokConstFactor U8
FdisableLookaside U8
FprepFlags U8
FwithinRJSubrtn U8
F__ccgo_pad1 [1]byte
FnRangeReg int32
FiRangeReg int32
FnErr int32
FnTab int32
FnMem int32
FszOpAlloc int32
FiSelfTab int32
FnLabel int32
FnLabelAlloc int32
F__ccgo_pad2 [4]byte
FaLabel uintptr
FpConstExpr uintptr
FpIdxEpr uintptr
FconstraintName Token
FwriteMask YDbMask
FcookieMask YDbMask
FregRowid int32
FregRoot int32
FnMaxArg int32
FnSelect int32
FnTableLock int32
F__ccgo_pad3 [4]byte
FaTableLock uintptr
FpAinc uintptr
FpToplevel uintptr
FpTriggerTab uintptr
FpTriggerPrg uintptr
FpCleanup uintptr
Fu1 struct {
F__ccgo_pad1 [0]uint64
FaddrCrTab int32
F__ccgo_pad2 [4]byte
}
FnQueryLoop U32
Foldmask U32
Fnewmask U32
FnProgressSteps U32
FeTriggerOp U8
FbReturning U8
FeOrconf U8
FdisableTriggers U8
FaTempReg [8]int32
F__ccgo_pad4 [4]byte
FpOuterParse uintptr
FsNameToken Token
FsLastToken Token
FnVar YnVar
FiPkSortOrder U8
Fexplain U8
FeParseMode U8
F__ccgo_pad5 [3]byte
FnVtabLock int32
FnHeight int32
FaddrExplain int32
F__ccgo_pad6 [4]byte
FpVList uintptr
FpReprepare uintptr
FzTail uintptr
FpNewTable uintptr
FpNewIndex uintptr
FpNewTrigger uintptr
FzAuthContext uintptr
FsArg Token
FapVtabLock uintptr
FpWith uintptr
FpRename uintptr
}
type Parse = Parse1
type ParseCleanup1 = struct {
FpNext uintptr
FpPtr uintptr
FxCleanup uintptr
}
type ParseCleanup = ParseCleanup1
type PreUpdate1 = struct {
Fv uintptr
FpCsr uintptr
Fop int32
F__ccgo_pad1 [4]byte
FaRecord uintptr
Fkeyinfo KeyInfo
FpUnpacked uintptr
FpNewUnpacked uintptr
FiNewReg int32
FiBlobWrite int32
FiKey1 I64
FiKey2 I64
FaNew uintptr
FpTab uintptr
FpPk uintptr
}
type PreUpdate = PreUpdate1
type PrintfArguments1 = struct {
FnArg int32
FnUsed int32
FapArg uintptr
}
type PrintfArguments = PrintfArguments1
type RenameToken1 = struct {
Fp uintptr
Ft Token
FpNext uintptr
}
type RenameToken = RenameToken1
type Returning1 = struct {
FpParse uintptr
FpReturnEL uintptr
FretTrig Trigger
FretTStep TriggerStep
FiRetCur int32
FnRetCol int32
FiRetReg int32
F__ccgo_pad1 [4]byte
}
type Returning = Returning1
type RowSet1 = struct {
FpChunk uintptr
Fdb uintptr
FpEntry uintptr
FpLast uintptr
FpFresh uintptr
FpForest uintptr
FnFresh U16
FrsFlags U16
FiBatch int32
}
type RowSet = RowSet1
type Savepoint1 = struct {
FzName uintptr
FnDeferredCons I64
FnDeferredImmCons I64
FpNext uintptr
}
type Savepoint = Savepoint1
type Select1 = struct {
Fop U8
F__ccgo_pad1 [1]byte
FnSelectRow LogEst
FselFlags U32
FiLimit int32
FiOffset int32
FselId U32
FaddrOpenEphm [2]int32
F__ccgo_pad2 [4]byte
FpEList uintptr
FpSrc uintptr
FpWhere uintptr
FpGroupBy uintptr
FpHaving uintptr
FpOrderBy uintptr
FpPrior uintptr
FpNext uintptr
FpLimit uintptr
FpWith uintptr
FpWin uintptr
FpWinDefn uintptr
}
type Select = Select1
type SQLiteThread1 = struct {
FxTask uintptr
FpIn uintptr
FpResult uintptr
}
type SQLiteThread = SQLiteThread1
type SelectDest1 = struct {
FeDest U8
F__ccgo_pad1 [3]byte
FiSDParm int32
FiSDParm2 int32
FiSdst int32
FnSdst int32
F__ccgo_pad2 [4]byte
FzAffSdst uintptr
FpOrderBy uintptr
}
type SelectDest = SelectDest1
type SrcItem1 = struct {
FpSchema uintptr
FzDatabase uintptr
FzName uintptr
FzAlias uintptr
FpTab uintptr
FpSelect uintptr
FaddrFillSub int32
FregReturn int32
FregResult int32
Ffg struct {
F__ccgo_pad1 [0]uint32
Fjointype U8
F__ccgo_pad2 [3]byte
FnotIndexed uint16
F__ccgo_pad3 [2]byte
}
FiCursor int32
Fu3 struct{ FpOn uintptr }
FcolUsed Bitmask
Fu1 struct{ FzIndexedBy uintptr }
Fu2 struct{ FpIBIndex uintptr }
}
type SrcItem = SrcItem1
type SrcList1 = struct {
FnSrc int32
FnAlloc U32
Fa [1]SrcItem
}
type SrcList = SrcList1
type StrAccum = sqlite3_str
type Table1 = struct {
FzName uintptr
FaCol uintptr
FpIndex uintptr
FzColAff uintptr
FpCheck uintptr
Ftnum Pgno
FnTabRef U32
FtabFlags U32
FiPKey I16
FnCol I16
FnNVCol I16
FnRowLogEst LogEst
FszTabRow LogEst
FkeyConf U8
FeTabType U8
Fu struct {
Ftab struct {
FaddColOffset int32
F__ccgo_pad1 [4]byte
FpFKey uintptr
FpDfltList uintptr
}
}
FpTrigger uintptr
FpSchema uintptr
}
// Internal alias for sqlite3_str
type Table = Table1
type TableLock1 = struct {
FiDb int32
FiTab Pgno
FisWriteLock U8
F__ccgo_pad1 [7]byte
FzLockName uintptr
}
type TableLock = TableLock1
type Token1 = struct {
Fz uintptr
Fn uint32
F__ccgo_pad1 [4]byte
}
type Token = Token1
type Trigger1 = struct {
FzName uintptr
Ftable uintptr
Fop U8
Ftr_tm U8
FbReturning U8
F__ccgo_pad1 [5]byte
FpWhen uintptr
FpColumns uintptr
FpSchema uintptr
FpTabSchema uintptr
Fstep_list uintptr
FpNext uintptr
}
type Trigger = Trigger1
type TriggerPrg1 = struct {
FpTrigger uintptr
FpNext uintptr
FpProgram uintptr
Forconf int32
FaColmask [2]U32
F__ccgo_pad1 [4]byte
}
type TriggerPrg = TriggerPrg1
type TriggerStep1 = struct {
Fop U8
Forconf U8
F__ccgo_pad1 [6]byte
FpTrig uintptr
FpSelect uintptr
FzTarget uintptr
FpFrom uintptr
FpWhere uintptr
FpExprList uintptr
FpIdList uintptr
FpUpsert uintptr
FzSpan uintptr
FpNext uintptr
FpLast uintptr
}
type TriggerStep = TriggerStep1
type UnpackedRecord1 = struct {
FpKeyInfo uintptr
FaMem uintptr
Fu struct{ Fz uintptr }
Fn int32
FnField U16
Fdefault_rc I8
FerrCode U8
Fr1 I8
Fr2 I8
FeqSeen U8
F__ccgo_pad1 [5]byte
}
type UnpackedRecord = UnpackedRecord1
type Upsert1 = struct {
FpUpsertTarget uintptr
FpUpsertTargetWhere uintptr
FpUpsertSet uintptr
FpUpsertWhere uintptr
FpNextUpsert uintptr
FisDoUpdate U8
F__ccgo_pad1 [7]byte
FpToFree uintptr
FpUpsertIdx uintptr
FpUpsertSrc uintptr
FregData int32
FiDataCur int32
FiIdxCur int32
F__ccgo_pad2 [4]byte
}
type Upsert = Upsert1
type VTable1 = struct {
Fdb uintptr
FpMod uintptr
FpVtab uintptr
FnRef int32
FbConstraint U8
FeVtabRisk U8
F__ccgo_pad1 [2]byte
FiSavepoint int32
F__ccgo_pad2 [4]byte
FpNext uintptr
}
type VTable = VTable1
type VtabCtx1 = struct {
FpVTable uintptr
FpTab uintptr
FpPrior uintptr
FbDeclared int32
F__ccgo_pad1 [4]byte
}
type VtabCtx = VtabCtx1
type Walker1 = struct {
FpParse uintptr
FxExprCallback uintptr
FxSelectCallback uintptr
FxSelectCallback2 uintptr
FwalkerDepth int32
FeCode U16
F__ccgo_pad1 [2]byte
Fu struct{ FpNC uintptr }
}
type Walker = Walker1
type WhereInfo1 = struct {
FpParse uintptr
FpTabList uintptr
FpOrderBy uintptr
FpResultSet uintptr
FpSelect uintptr
FaiCurOnePass [2]int32
FiContinue int32
FiBreak int32
FsavedNQueryLoop int32
FwctrlFlags U16
FiLimit LogEst
FnLevel U8
FnOBSat I8
FeOnePass U8
FeDistinct U8
FbDeferredSeek uint8
F__ccgo_pad1 [1]byte
FnRowOut LogEst
FiTop int32
FiEndWhere int32
FpLoops uintptr
FpMemToFree uintptr
FrevMask Bitmask
FsWC WhereClause
FsMaskSet WhereMaskSet
Fa [1]WhereLevel
}
type WhereInfo = WhereInfo1
type Window1 = struct {
FzName uintptr
FzBase uintptr
FpPartition uintptr
FpOrderBy uintptr
FeFrmType U8
FeStart U8
FeEnd U8
FbImplicitFrame U8
FeExclude U8
F__ccgo_pad1 [3]byte
FpStart uintptr
FpEnd uintptr
FppThis uintptr
FpNextWin uintptr
FpFilter uintptr
FpWFunc uintptr
FiEphCsr int32
FregAccum int32
FregResult int32
FcsrApp int32
FregApp int32
FregPart int32
FpOwner uintptr
FnBufferCol int32
FiArgCol int32
FregOne int32
FregStartRowid int32
FregEndRowid int32
FbExprArgs U8
F__ccgo_pad2 [3]byte
}
type Window = Window1
type With1 = struct {
FnCte int32
FbView int32
FpOuter uintptr
Fa [1]Cte
}
type With = With1
// The bitmask datatype defined below is used for various optimizations.
//
// Changing this from a 64-bit to a 32-bit type limits the number of
// tables in a join to 32 instead of 64. But it also reduces the size
// of the library by 738 bytes on ix86.
type Bitmask = U64
// A VList object records a mapping between parameters/variables/wildcards
// in the SQL statement (such as $abc, @pqr, or :xyz) and the integer
// variable number associated with that parameter. See the format description
// on the sqlite3VListAdd() routine for more information. A VList is really
// just an array of integers.
type VList = int32
// The type used to represent a page number. The first page in a file
// is called page 1. 0 is used to represent "not a page".
type Pgno = U32
// Each open file is managed by a separate instance of the "Pager" structure.
type Pager1 = struct {
FpVfs uintptr
FexclusiveMode U8
FjournalMode U8
FuseJournal U8
FnoSync U8
FfullSync U8
FextraSync U8
FsyncFlags U8
FwalSyncFlags U8
FtempFile U8
FnoLock U8
FreadOnly U8
FmemDb U8
FmemVfs U8
FeState U8
FeLock U8
FchangeCountDone U8
FsetSuper U8
FdoNotSpill U8
FsubjInMemory U8
FbUseFetch U8
FhasHeldSharedLock U8
F__ccgo_pad1 [3]byte
FdbSize Pgno
FdbOrigSize Pgno
FdbFileSize Pgno
FdbHintSize Pgno
FerrCode int32
FnRec int32
FcksumInit U32
FnSubRec U32
FpInJournal uintptr
Ffd uintptr
Fjfd uintptr
Fsjfd uintptr
FjournalOff I64
FjournalHdr I64
FpBackup uintptr
FaSavepoint uintptr
FnSavepoint int32
FiDataVersion U32
FdbFileVers [16]int8
FnMmapOut int32
F__ccgo_pad2 [4]byte
FszMmap Sqlite3_int64
FpMmapFreelist uintptr
FnExtra U16
FnReserve I16
FvfsFlags U32
FsectorSize U32
FmxPgno Pgno
FlckPgno Pgno
F__ccgo_pad3 [4]byte
FpageSize I64
FjournalSizeLimit I64
FzFilename uintptr
FzJournal uintptr
FxBusyHandler uintptr
FpBusyHandlerArg uintptr
FaStat [4]int32
FxReiniter uintptr
FxGet uintptr
FpTmpSpace uintptr
FpPCache uintptr
FpWal uintptr
FzWal uintptr
}
// Each open file is managed by a separate instance of the "Pager" structure.
type Pager = Pager1
// Handle type for pages.
type PgHdr2 = struct {
FpPage uintptr
FpData uintptr
FpExtra uintptr
FpCache uintptr
FpDirty uintptr
FpPager uintptr
Fpgno Pgno
Fflags U16
FnRef I16
FpDirtyNext uintptr
FpDirtyPrev uintptr
}
// Handle type for pages.
type DbPage = PgHdr2
// Forward declarations of structure
type Btree1 = struct {
Fdb uintptr
FpBt uintptr
FinTrans U8
Fsharable U8
Flocked U8
FhasIncrblobCur U8
FwantToLock int32
FnBackup int32
FiBDataVersion U32
FpNext uintptr
FpPrev uintptr
Flock BtLock
}
// Forward declarations of structure
type Btree = Btree1
type BtCursor1 = struct {
FeState U8
FcurFlags U8
FcurPagerFlags U8
Fhints U8
FskipNext int32
FpBtree uintptr
FaOverflow uintptr
FpKey uintptr
FpBt uintptr
FpNext uintptr
Finfo CellInfo
FnKey I64
FpgnoRoot Pgno
FiPage I8
FcurIntKey U8
Fix U16
FaiIdx [19]U16
F__ccgo_pad1 [2]byte
FpKeyInfo uintptr
FpPage uintptr
FapPage [19]uintptr
}
type BtCursor = BtCursor1
type BtShared1 = struct {
FpPager uintptr
Fdb uintptr
FpCursor uintptr
FpPage1 uintptr
FopenFlags U8
FautoVacuum U8
FincrVacuum U8
FbDoTruncate U8
FinTransaction U8
Fmax1bytePayload U8
FnReserveWanted U8
F__ccgo_pad1 [1]byte
FbtsFlags U16
FmaxLocal U16
FminLocal U16
FmaxLeaf U16
FminLeaf U16
F__ccgo_pad2 [2]byte
FpageSize U32
FusableSize U32
FnTransaction int32
FnPage U32
F__ccgo_pad3 [4]byte
FpSchema uintptr
FxFreeSchema uintptr
Fmutex uintptr
FpHasContent uintptr
FnRef int32
F__ccgo_pad4 [4]byte
FpNext uintptr
FpLock uintptr
FpWriter uintptr
FpTmpSpace uintptr
FnPreformatSize int32
F__ccgo_pad5 [4]byte
}
type BtShared = BtShared1
type BtreePayload1 = struct {
FpKey uintptr
FnKey Sqlite3_int64
FpData uintptr
FaMem uintptr
FnMem U16
F__ccgo_pad1 [2]byte
FnData int32
FnZero int32
F__ccgo_pad2 [4]byte
}
type BtreePayload = BtreePayload1
// A single VDBE is an opaque structure named "Vdbe". Only routines
// in the source file sqliteVdbe.c are allowed to see the insides
// of this structure.
type Vdbe1 = struct {
Fdb uintptr
FppVPrev uintptr
FpVNext uintptr
FpParse uintptr
FnVar YnVar
F__ccgo_pad1 [2]byte
FnMem int32
FnCursor int32
FcacheCtr U32
Fpc int32
Frc int32
FnChange I64
FiStatement int32
F__ccgo_pad2 [4]byte
FiCurrentTime I64
FnFkConstraint I64
FnStmtDefCons I64
FnStmtDefImmCons I64
FaMem uintptr
FapArg uintptr
FapCsr uintptr
FaVar uintptr
FaOp uintptr
FnOp int32
FnOpAlloc int32
FaColName uintptr
FpResultRow uintptr
FzErrMsg uintptr
FpVList uintptr
FstartTime I64
FnResColumn U16
FerrorAction U8
FminWriteFileFormat U8
FprepFlags U8
FeVdbeState U8
F__ccgo_pad3 [2]byte
Fexpired uint8
F__ccgo_pad4 [3]byte
FbtreeMask YDbMask
FlockMask YDbMask
FaCounter [9]U32
FzSql uintptr
FpFree uintptr
FpFrame uintptr
FpDelFrame uintptr
FnFrame int32
Fexpmask U32
FpProgram uintptr
FpAuxData uintptr
}
// A single VDBE is an opaque structure named "Vdbe". Only routines
// in the source file sqliteVdbe.c are allowed to see the insides
// of this structure.
type Vdbe = Vdbe1
// The names of the following types declared in vdbeInt.h are required
// for the VdbeOp definition.
type Mem = sqlite3_value
type SubProgram1 = struct {
FaOp uintptr
FnOp int32
FnMem int32
FnCsr int32
F__ccgo_pad1 [4]byte
FaOnce uintptr
Ftoken uintptr
FpNext uintptr
}
type SubProgram = SubProgram1
// A single instruction of the virtual machine has an opcode
// and as many as three operands. The instruction is recorded
// as an instance of the following structure:
type VdbeOp1 = struct {
Fopcode U8
Fp4type int8
Fp5 U16
Fp1 int32
Fp2 int32
Fp3 int32
Fp4 struct {
F__ccgo_pad1 [0]uint64
Fi int32
F__ccgo_pad2 [4]byte
}
}
type p4union = struct {
F__ccgo_pad1 [0]uint64
Fi int32
F__ccgo_pad2 [4]byte
}
type VdbeOp = VdbeOp1
// A smaller version of VdbeOp used for the VdbeAddOpList() function because
// it takes up less space.
type VdbeOpList1 = struct {
Fopcode U8
Fp1 int8
Fp2 int8
Fp3 int8
}
type VdbeOpList = VdbeOpList1
type RecordCompare = uintptr
type PgHdr = PgHdr2
type PCache2 = struct {
FpDirty uintptr
FpDirtyTail uintptr
FpSynced uintptr
FnRefSum int32
FszCache int32
FszSpill int32
FszPage int32
FszExtra int32
FbPurgeable U8
FeCreate U8
F__ccgo_pad1 [2]byte
FxStress uintptr
FpStress uintptr
FpCache uintptr
}
type PCache = PCache2
// typedef for the authorization callback function.
type Sqlite3_xauth = uintptr
type sqlite3InitInfo = struct {
FnewTnum Pgno
FiDb U8
Fbusy U8
F__ccgo_pad1 [2]byte
ForphanTrigger uint8
F__ccgo_pad2 [7]byte
FazInit uintptr
}
type sColMap = struct {
FiFrom int32
F__ccgo_pad1 [4]byte
FzCol uintptr
}
// An instance of this structure contains information needed to generate
// code for a SELECT that contains aggregate functions.
//
// If Expr.op==TK_AGG_COLUMN or TK_AGG_FUNCTION then Expr.pAggInfo is a
// pointer to this structure. The Expr.iAgg field is the index in
// AggInfo.aCol[] or AggInfo.aFunc[] of information needed to generate
// code for that node.
//
// AggInfo.pGroupBy and AggInfo.aFunc.pExpr point to fields within the
// original Select structure that describes the SELECT statement. These
// fields do not need to be freed when deallocating the AggInfo structure.
type AggInfo_col = struct {
FpTab uintptr
FpCExpr uintptr
FiTable int32
FiColumn I16
FiSorterColumn I16
}
// An instance of this structure contains information needed to generate
// code for a SELECT that contains aggregate functions.
//
// If Expr.op==TK_AGG_COLUMN or TK_AGG_FUNCTION then Expr.pAggInfo is a
// pointer to this structure. The Expr.iAgg field is the index in
// AggInfo.aCol[] or AggInfo.aFunc[] of information needed to generate
// code for that node.
//
// AggInfo.pGroupBy and AggInfo.aFunc.pExpr point to fields within the
// original Select structure that describes the SELECT statement. These
// fields do not need to be freed when deallocating the AggInfo structure.
type AggInfo_func = struct {
FpFExpr uintptr
FpFunc uintptr
FiDistinct int32
FiDistAddr int32
}
// The datatype ynVar is a signed integer, either 16-bit or 32-bit.
// Usually it is 16-bits. But if SQLITE_MAX_VARIABLE_NUMBER is greater
// than 32767 we have to make it 32-bit. 16-bit is preferred because
// it uses less memory in the Expr object, which is a big memory user
// in systems with lots of prepared statements. And few applications
// need more than about 10 or 20 variables. But some extreme users want
// to have prepared statements with over 32766 variables, and for them
// the option is available (at compile-time).
type YnVar = I16
// A list of expressions. Each expression may optionally have a
// name. An expr/name combination can be used in several ways, such
// as the list of "expr AS ID" fields following a "SELECT" or in the
// list of "ID = expr" items in an UPDATE. A list of expressions can
// also be used as the argument to a function, in which case the a.zName
// field is not used.
//
// In order to try to keep memory usage down, the Expr.a.zEName field
// is used for multiple purposes:
//
// eEName Usage
// ---------- -------------------------
// ENAME_NAME (1) the AS of result set column
// (2) COLUMN= of an UPDATE
//
// ENAME_TAB DB.TABLE.NAME used to resolve names
// of subqueries
//
// ENAME_SPAN Text of the original result set
// expression.
type ExprList_item = struct {
FpExpr uintptr
FzEName uintptr
Ffg struct {
F__ccgo_pad1 [0]uint32
FsortFlags U8
F__ccgo_pad2 [3]byte
FeEName uint16
F__ccgo_pad3 [2]byte
}
Fu struct {
F__ccgo_pad1 [0]uint32
Fx struct {
FiOrderByCol U16
FiAlias U16
}
}
F__ccgo_pad1 [4]byte
}
// An instance of this structure can hold a simple list of identifiers,
// such as the list "a,b,c" in the following statements:
//
// INSERT INTO t(a,b,c) VALUES ...;
// CREATE INDEX idx ON t(a,b,c);
// CREATE TRIGGER trig BEFORE UPDATE ON t(a,b,c) ...;
//
// The IdList.a.idx field is used when the IdList represents the list of
// column names after a table name in an INSERT statement. In the statement
//
// INSERT INTO t(a,b,c) ...
//
// If "a" is the k-th column of table "t", then IdList.a[0].idx==k.
type IdList_item = struct {
FzName uintptr
Fu4 struct {
F__ccgo_pad1 [0]uint64
Fidx int32
F__ccgo_pad2 [4]byte
}
}
// The yDbMask datatype for the bitmask of all attached databases.
type YDbMask = uint32
// A pointer to this structure is used to communicate information
// from sqlite3Init and OP_ParseSchema into the sqlite3InitCallback.
type InitData = struct {
Fdb uintptr
FpzErrMsg uintptr
FiDb int32
Frc int32
FmInitFlags U32
FnInitRow U32
FmxPage Pgno
F__ccgo_pad1 [4]byte
}
// Structure containing global configuration data for the SQLite library.
//
// This structure also contains some state information.
type Sqlite3Config = struct {
FbMemstat int32
FbCoreMutex U8
FbFullMutex U8
FbOpenUri U8
FbUseCis U8
FbSmallMalloc U8
FbExtraSchemaChecks U8
F__ccgo_pad1 [2]byte
FmxStrlen int32
FneverCorrupt int32
FszLookaside int32
FnLookaside int32
FnStmtSpill int32
Fm Sqlite3_mem_methods
Fmutex Sqlite3_mutex_methods
Fpcache2 Sqlite3_pcache_methods2
FpHeap uintptr
FnHeap int32
FmnReq int32
FmxReq int32
F__ccgo_pad2 [4]byte
FszMmap Sqlite3_int64
FmxMmap Sqlite3_int64
FpPage uintptr
FszPage int32
FnPage int32
FmxParserStack int32
FsharedCacheEnabled int32
FszPma U32
FisInit int32
FinProgress int32
FisMutexInit int32
FisMallocInit int32
FisPCacheInit int32
FnRefInitMutex int32
F__ccgo_pad3 [4]byte
FpInitMutex uintptr
FxLog uintptr
FpLogArg uintptr
FmxMemdbSize Sqlite3_int64
FxTestCallback uintptr
FbLocaltimeFault int32
F__ccgo_pad4 [4]byte
FxAltLocaltime uintptr
FiOnceResetThreshold int32
FszSorterRef U32
FiPrngSeed uint32
F__ccgo_pad5 [4]byte
}
// Context pointer passed down through the tree-walk.
type RefSrcList = struct {
Fdb uintptr
FpRef uintptr
FnExclude I64
FaiExclude uintptr
}
// Context pointer passed down through the tree-walk.
type IdxCover = struct {
FpIdx uintptr
FiCur int32
F__ccgo_pad1 [4]byte
}
// Context pointer passed down through the tree-walk.
type WindowRewrite1 = struct {
FpWin uintptr
FpSrc uintptr
FpSub uintptr
FpTab uintptr
FpSubSelect uintptr
}
// Context pointer passed down through the tree-walk.
type WhereConst1 = struct {
FpParse uintptr
FpOomFault uintptr
FnConst int32
FnChng int32
FbHasAffBlob int32
FmExcludeOn U32
FapExpr uintptr
}
// Context pointer passed down through the tree-walk.
type RenameCtx1 = struct {
FpList uintptr
FnList int32
FiCol int32
FpTab uintptr
FzOld uintptr
}
// Context pointer passed down through the tree-walk.
type CoveringIndexCheck1 = struct {
FpIdx uintptr
FiTabCur int32
FbExpr U8
FbUnidx U8
F__ccgo_pad1 [2]byte
}
var sqlite3azCompileOpt = [52]uintptr{
ts + 7,
ts + 27,
ts + 49,
ts + 68,
ts + 93,
ts + 115,
ts + 145,
ts + 165,
ts + 185,
ts + 208,
ts + 233,
ts + 260,
ts + 285,
ts + 307,
ts + 339,
ts + 365,
ts + 390,
ts + 413,
ts + 425,
ts + 440,
ts + 462,
ts + 487,
ts + 510,
ts + 532,
ts + 543,
ts + 556,
ts + 571,
ts + 587,
ts + 600,
ts + 621,
ts + 645,
ts + 668,
ts + 684,
ts + 700,
ts + 724,
ts + 751,
ts + 771,
ts + 792,
ts + 814,
ts + 844,
ts + 869,
ts + 895,
ts + 915,
ts + 941,
ts + 964,
ts + 990,
ts + 1012,
ts + 1033,
ts + 1044,
ts + 1052,
ts + 1066,
ts + 1079,
}
func Xsqlite3CompileOptions(tls *libc.TLS, pnOpt uintptr) uintptr {
*(*int32)(unsafe.Pointer(pnOpt)) = int32(uint64(unsafe.Sizeof(sqlite3azCompileOpt)) / uint64(unsafe.Sizeof(uintptr(0))))
return uintptr(unsafe.Pointer(&sqlite3azCompileOpt))
}
// An array to map all upper-case characters into their corresponding
// lower-case character.
//
// SQLite only considers US-ASCII (or EBCDIC) characters. We do not
// handle case conversions for the UTF character set since the tables
// involved are nearly as big or bigger than SQLite itself.
var Xsqlite3UpperToLower = [274]uint8{
uint8(0), uint8(1), uint8(2), uint8(3), uint8(4), uint8(5), uint8(6), uint8(7), uint8(8), uint8(9), uint8(10), uint8(11), uint8(12), uint8(13), uint8(14), uint8(15), uint8(16), uint8(17),
uint8(18), uint8(19), uint8(20), uint8(21), uint8(22), uint8(23), uint8(24), uint8(25), uint8(26), uint8(27), uint8(28), uint8(29), uint8(30), uint8(31), uint8(32), uint8(33), uint8(34), uint8(35),
uint8(36), uint8(37), uint8(38), uint8(39), uint8(40), uint8(41), uint8(42), uint8(43), uint8(44), uint8(45), uint8(46), uint8(47), uint8(48), uint8(49), uint8(50), uint8(51), uint8(52), uint8(53),
uint8(54), uint8(55), uint8(56), uint8(57), uint8(58), uint8(59), uint8(60), uint8(61), uint8(62), uint8(63), uint8(64), uint8(97), uint8(98), uint8(99), uint8(100), uint8(101), uint8(102), uint8(103),
uint8(104), uint8(105), uint8(106), uint8(107), uint8(108), uint8(109), uint8(110), uint8(111), uint8(112), uint8(113), uint8(114), uint8(115), uint8(116), uint8(117), uint8(118), uint8(119), uint8(120), uint8(121),
uint8(122), uint8(91), uint8(92), uint8(93), uint8(94), uint8(95), uint8(96), uint8(97), uint8(98), uint8(99), uint8(100), uint8(101), uint8(102), uint8(103), uint8(104), uint8(105), uint8(106), uint8(107),
uint8(108), uint8(109), uint8(110), uint8(111), uint8(112), uint8(113), uint8(114), uint8(115), uint8(116), uint8(117), uint8(118), uint8(119), uint8(120), uint8(121), uint8(122), uint8(123), uint8(124), uint8(125),
uint8(126), uint8(127), uint8(128), uint8(129), uint8(130), uint8(131), uint8(132), uint8(133), uint8(134), uint8(135), uint8(136), uint8(137), uint8(138), uint8(139), uint8(140), uint8(141), uint8(142), uint8(143),
uint8(144), uint8(145), uint8(146), uint8(147), uint8(148), uint8(149), uint8(150), uint8(151), uint8(152), uint8(153), uint8(154), uint8(155), uint8(156), uint8(157), uint8(158), uint8(159), uint8(160), uint8(161),
uint8(162), uint8(163), uint8(164), uint8(165), uint8(166), uint8(167), uint8(168), uint8(169), uint8(170), uint8(171), uint8(172), uint8(173), uint8(174), uint8(175), uint8(176), uint8(177), uint8(178), uint8(179),
uint8(180), uint8(181), uint8(182), uint8(183), uint8(184), uint8(185), uint8(186), uint8(187), uint8(188), uint8(189), uint8(190), uint8(191), uint8(192), uint8(193), uint8(194), uint8(195), uint8(196), uint8(197),
uint8(198), uint8(199), uint8(200), uint8(201), uint8(202), uint8(203), uint8(204), uint8(205), uint8(206), uint8(207), uint8(208), uint8(209), uint8(210), uint8(211), uint8(212), uint8(213), uint8(214), uint8(215),
uint8(216), uint8(217), uint8(218), uint8(219), uint8(220), uint8(221), uint8(222), uint8(223), uint8(224), uint8(225), uint8(226), uint8(227), uint8(228), uint8(229), uint8(230), uint8(231), uint8(232), uint8(233),
uint8(234), uint8(235), uint8(236), uint8(237), uint8(238), uint8(239), uint8(240), uint8(241), uint8(242), uint8(243), uint8(244), uint8(245), uint8(246), uint8(247), uint8(248), uint8(249), uint8(250), uint8(251),
uint8(252), uint8(253), uint8(254), uint8(255),
uint8(1), uint8(0), uint8(0), uint8(1), uint8(1), uint8(0),
uint8(0), uint8(1), uint8(0), uint8(1), uint8(0), uint8(1),
uint8(1), uint8(0), uint8(1), uint8(0), uint8(0), uint8(1),
}
var Xsqlite3aLTb uintptr = 0
var Xsqlite3aEQb uintptr = 0
var Xsqlite3aGTb uintptr = 0
// The following 256 byte lookup table is used to support SQLites built-in
// equivalents to the following standard library functions:
//
// isspace() 0x01
// isalpha() 0x02
// isdigit() 0x04
// isalnum() 0x06
// isxdigit() 0x08
// toupper() 0x20
// SQLite identifier character 0x40
// Quote character 0x80
//
// Bit 0x20 is set if the mapped character requires translation to upper
// case. i.e. if the character is a lower-case ASCII character.
// If x is a lower-case ASCII character, then its upper-case equivalent
// is (x - 0x20). Therefore toupper() can be implemented as:
//
// (x & ~(map[x]&0x20))
//
// The equivalent of tolower() is implemented using the sqlite3UpperToLower[]
// array. tolower() is used more often than toupper() by SQLite.
//
// Bit 0x40 is set if the character is non-alphanumeric and can be used in an
// SQLite identifier. Identifiers are alphanumerics, "_", "$", and any
// non-ASCII UTF character. Hence the test for whether or not a character is
// part of an identifier is 0x46.
var Xsqlite3CtypeMap = [256]uint8{
uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00),
uint8(0x00), uint8(0x01), uint8(0x01), uint8(0x01), uint8(0x01), uint8(0x01), uint8(0x00), uint8(0x00),
uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00),
uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00),
uint8(0x01), uint8(0x00), uint8(0x80), uint8(0x00), uint8(0x40), uint8(0x00), uint8(0x00), uint8(0x80),
uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00),
uint8(0x0c), uint8(0x0c), uint8(0x0c), uint8(0x0c), uint8(0x0c), uint8(0x0c), uint8(0x0c), uint8(0x0c),
uint8(0x0c), uint8(0x0c), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00),
uint8(0x00), uint8(0x0a), uint8(0x0a), uint8(0x0a), uint8(0x0a), uint8(0x0a), uint8(0x0a), uint8(0x02),
uint8(0x02), uint8(0x02), uint8(0x02), uint8(0x02), uint8(0x02), uint8(0x02), uint8(0x02), uint8(0x02),
uint8(0x02), uint8(0x02), uint8(0x02), uint8(0x02), uint8(0x02), uint8(0x02), uint8(0x02), uint8(0x02),
uint8(0x02), uint8(0x02), uint8(0x02), uint8(0x80), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x40),
uint8(0x80), uint8(0x2a), uint8(0x2a), uint8(0x2a), uint8(0x2a), uint8(0x2a), uint8(0x2a), uint8(0x22),
uint8(0x22), uint8(0x22), uint8(0x22), uint8(0x22), uint8(0x22), uint8(0x22), uint8(0x22), uint8(0x22),
uint8(0x22), uint8(0x22), uint8(0x22), uint8(0x22), uint8(0x22), uint8(0x22), uint8(0x22), uint8(0x22),
uint8(0x22), uint8(0x22), uint8(0x22), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40), uint8(0x40),
}
// The following singleton contains the global configuration for
// the SQLite library.
var Xsqlite3Config = Sqlite3Config{
FbCoreMutex: U8(1),
FbFullMutex: U8(libc.Bool32(SQLITE_THREADSAFE == 1)),
FbUseCis: U8(SQLITE_ALLOW_COVERING_INDEX_SCAN),
FbExtraSchemaChecks: U8(1),
FmxStrlen: 0x7ffffffe,
FszLookaside: 1200, FnLookaside: 40,
FnStmtSpill: 64 * 1024,
FmxMmap: int64(SQLITE_MAX_MMAP_SIZE),
FnPage: SQLITE_DEFAULT_PCACHE_INITSZ,
FszPma: U32(SQLITE_SORTER_PMASZ),
FmxMemdbSize: int64(SQLITE_MEMDB_DEFAULT_MAXSIZE),
FiOnceResetThreshold: 0x7ffffffe,
FszSorterRef: U32(SQLITE_DEFAULT_SORTERREF_SIZE),
}
// Hash table for global functions - functions common to all
// database connections. After initialization, this table is
// read-only.
var Xsqlite3BuiltinFunctions FuncDefHash
// The value of the "pending" byte must be 0x40000000 (1 byte past the
// 1-gibabyte boundary) in a compatible database. SQLite never uses
// the database page that contains the pending byte. It never attempts
// to read or write that page. The pending byte page is set aside
// for use by the VFS layers as space for managing file locks.
//
// During testing, it is often desirable to move the pending byte to
// a different position in the file. This allows code that has to
// deal with the pending byte to run on files that are much smaller
// than 1 GiB. The sqlite3_test_control() interface can be used to
// move the pending byte.
//
// IMPORTANT: Changing the pending byte to any value other than
// 0x40000000 results in an incompatible database file format!
// Changing the pending byte during operation will result in undefined
// and incorrect behavior.
var Xsqlite3PendingByte int32 = 0x40000000
// Tracing flags set by SQLITE_TESTCTRL_TRACEFLAGS.
var Xsqlite3TreeTrace U32 = U32(0)
var Xsqlite3WhereTrace U32 = U32(0)
// #include "opcodes.h"
// Properties of opcodes. The OPFLG_INITIALIZER macro is
// created by mkopcodeh.awk during compilation. Data is obtained
// from the comments following the "case OP_xxxx:" statements in
// the vdbe.c file.
var Xsqlite3OpcodeProperty = [187]uint8{uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x10), uint8(0x00), uint8(0x41), uint8(0x00), uint8(0x01), uint8(0x01), uint8(0x01), uint8(0x01), uint8(0x03), uint8(0x03), uint8(0x01), uint8(0x01), uint8(0x03), uint8(0x03), uint8(0x01), uint8(0x12), uint8(0x01), uint8(0x49), uint8(0x49), uint8(0x49), uint8(0x49), uint8(0x01), uint8(0x49), uint8(0x49), uint8(0x49), uint8(0x49), uint8(0x49), uint8(0x49), uint8(0x41), uint8(0x01), uint8(0x01), uint8(0x01), uint8(0x41), uint8(0x01), uint8(0x41), uint8(0x41), uint8(0x41), uint8(0x41), uint8(0x41), uint8(0x26), uint8(0x26), uint8(0x41), uint8(0x23), uint8(0x0b), uint8(0x01), uint8(0x01), uint8(0x03), uint8(0x03), uint8(0x0b), uint8(0x0b), uint8(0x0b), uint8(0x0b), uint8(0x0b), uint8(0x0b), uint8(0x01), uint8(0x03), uint8(0x03), uint8(0x03), uint8(0x01), uint8(0x41), uint8(0x01), uint8(0x00), uint8(0x00), uint8(0x02), uint8(0x02), uint8(0x08), uint8(0x00), uint8(0x10), uint8(0x10), uint8(0x10), uint8(0x00), uint8(0x10), uint8(0x00), uint8(0x10), uint8(0x10), uint8(0x00), uint8(0x00), uint8(0x10), uint8(0x10), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x02), uint8(0x02), uint8(0x02), uint8(0x00), uint8(0x00), uint8(0x12), uint8(0x1e), uint8(0x20), uint8(0x40), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x10), uint8(0x10), uint8(0x00), uint8(0x40), uint8(0x26), uint8(0x26), uint8(0x26), uint8(0x26), uint8(0x26), uint8(0x26), uint8(0x26), uint8(0x26), uint8(0x26), uint8(0x26), uint8(0x40), uint8(0x00), uint8(0x12), uint8(0x40), uint8(0x40), uint8(0x10), uint8(0x40), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x40), uint8(0x00), uint8(0x40), uint8(0x40), uint8(0x10), uint8(0x10), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x50), uint8(0x00), uint8(0x40), uint8(0x04), uint8(0x04), uint8(0x00), uint8(0x40), uint8(0x50), uint8(0x40), uint8(0x10), uint8(0x00), uint8(0x00), uint8(0x10), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x10), uint8(0x00), uint8(0x00), uint8(0x06), uint8(0x10), uint8(0x00), uint8(0x04), uint8(0x1a), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x40), uint8(0x50), uint8(0x40), uint8(0x00), uint8(0x10), uint8(0x10), uint8(0x02), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00), uint8(0x00)}
// Name of the default collating sequence
var Xsqlite3StrBINARY = *(*[7]int8)(unsafe.Pointer(ts + 1092))
// Standard typenames. These names must match the COLTYPE_* definitions.
// Adjust the SQLITE_N_STDTYPE value if adding or removing entries.
//
// sqlite3StdType[] The actual names of the datatypes.
//
// sqlite3StdTypeLen[] The length (in bytes) of each entry
// in sqlite3StdType[].
//
// sqlite3StdTypeAffinity[] The affinity associated with each entry
// in sqlite3StdType[].
var Xsqlite3StdTypeLen = [6]uint8{uint8(3), uint8(4), uint8(3), uint8(7), uint8(4), uint8(4)}
var Xsqlite3StdTypeAffinity = [6]int8{
int8(SQLITE_AFF_NUMERIC),
int8(SQLITE_AFF_BLOB),
int8(SQLITE_AFF_INTEGER),
int8(SQLITE_AFF_INTEGER),
int8(SQLITE_AFF_REAL),
int8(SQLITE_AFF_TEXT),
}
var Xsqlite3StdType = [6]uintptr{
ts + 1099,
ts + 1103,
ts + 1108,
ts + 1112,
ts + 1120,
ts + 1125,
}
// SQL is translated into a sequence of instructions to be
// executed by a virtual machine. Each instruction is an instance
// of the following structure.
type Op = VdbeOp1
// Boolean values
type Bool = uint32
// Opaque type used by code in vdbesort.c
type VdbeSorter1 = struct {
FmnPmaSize int32
FmxPmaSize int32
FmxKeysize int32
Fpgsz int32
FpReader uintptr
FpMerger uintptr
Fdb uintptr
FpKeyInfo uintptr
FpUnpacked uintptr
Flist SorterList
FiMemory int32
FnMemory int32
FbUsePMA U8
FbUseThreads U8
FiPrev U8
FnTask U8
FtypeMask U8
F__ccgo_pad1 [3]byte
FaTask [1]SortSubtask
}
// Opaque type used by code in vdbesort.c
type VdbeSorter = VdbeSorter1
// Elements of the linked list at Vdbe.pAuxData
type AuxData1 = struct {
FiAuxOp int32
FiAuxArg int32
FpAux uintptr
FxDeleteAux uintptr
FpNextAux uintptr
}
// Elements of the linked list at Vdbe.pAuxData
type AuxData = AuxData1
// A VdbeCursor is an superclass (a wrapper) for various cursor objects:
//
// - A b-tree cursor
// - In the main database or in an ephemeral database
// - On either an index or a table
// - A sorter
// - A virtual table
// - A one-row "pseudotable" stored in a single register
type VdbeCursor1 = struct {
FeCurType U8
FiDb I8
FnullRow U8
FdeferredMoveto U8
FisTable U8
F__ccgo_pad1 [3]byte
FisEphemeral uint8
F__ccgo_pad2 [1]byte
FseekHit U16
F__ccgo_pad3 [4]byte
Fub struct{ FpBtx uintptr }
FseqCount I64
FcacheStatus U32
FseekResult int32
FpAltCursor uintptr
Fuc struct{ FpCursor uintptr }
FpKeyInfo uintptr
FiHdrOffset U32
FpgnoRoot Pgno
FnField I16
FnHdrParsed U16
F__ccgo_pad4 [4]byte
FmovetoTarget I64
FaOffset uintptr
FaRow uintptr
FpayloadSize U32
FszRow U32
FaType [1]U32
F__ccgo_pad5 [4]byte
}
// A VdbeCursor is an superclass (a wrapper) for various cursor objects:
//
// - A b-tree cursor
// - In the main database or in an ephemeral database
// - On either an index or a table
// - A sorter
// - A virtual table
// - A one-row "pseudotable" stored in a single register
type VdbeCursor = VdbeCursor1
// When a sub-program is executed (OP_Program), a structure of this type
// is allocated to store the current value of the program counter, as
// well as the current memory cell array and various other frame specific
// values stored in the Vdbe struct. When the sub-program is finished,
// these values are copied back to the Vdbe from the VdbeFrame structure,
// restoring the state of the VM to as it was before the sub-program
// began executing.
//
// The memory for a VdbeFrame object is allocated and managed by a memory
// cell in the parent (calling) frame. When the memory cell is deleted or
// overwritten, the VdbeFrame object is not freed immediately. Instead, it
// is linked into the Vdbe.pDelFrame list. The contents of the Vdbe.pDelFrame
// list is deleted when the VM is reset in VdbeHalt(). The reason for doing
// this instead of deleting the VdbeFrame immediately is to avoid recursive
// calls to sqlite3VdbeMemRelease() when the memory cells belonging to the
// child frame are released.
//
// The currently executing frame is stored in Vdbe.pFrame. Vdbe.pFrame is
// set to NULL if the currently executing frame is the main program.
type VdbeFrame1 = struct {
Fv uintptr
FpParent uintptr
FaOp uintptr
FaMem uintptr
FapCsr uintptr
FaOnce uintptr
Ftoken uintptr
FlastRowid I64
FpAuxData uintptr
FnCursor int32
Fpc int32
FnOp int32
FnMem int32
FnChildMem int32
FnChildCsr int32
FnChange I64
FnDbChange I64
}
// When a sub-program is executed (OP_Program), a structure of this type
// is allocated to store the current value of the program counter, as
// well as the current memory cell array and various other frame specific
// values stored in the Vdbe struct. When the sub-program is finished,
// these values are copied back to the Vdbe from the VdbeFrame structure,
// restoring the state of the VM to as it was before the sub-program
// began executing.
//
// The memory for a VdbeFrame object is allocated and managed by a memory
// cell in the parent (calling) frame. When the memory cell is deleted or
// overwritten, the VdbeFrame object is not freed immediately. Instead, it
// is linked into the Vdbe.pDelFrame list. The contents of the Vdbe.pDelFrame
// list is deleted when the VM is reset in VdbeHalt(). The reason for doing
// this instead of deleting the VdbeFrame immediately is to avoid recursive
// calls to sqlite3VdbeMemRelease() when the memory cells belonging to the
// child frame are released.
//
// The currently executing frame is stored in Vdbe.pFrame. Vdbe.pFrame is
// set to NULL if the currently executing frame is the main program.
type VdbeFrame = VdbeFrame1
// Internally, the vdbe manipulates nearly all SQL values as Mem
// structures. Each Mem struct may cache multiple representations (string,
// integer etc.) of the same value.
type MemValue = struct{ Fr float64 }
// A bitfield type for use inside of structures. Always follow with :N where
// N is the number of bits.
type Bft = uint32
// The ScanStatus object holds a single value for the
// sqlite3_stmt_scanstatus() interface.
//
// aAddrRange[]:
//
// This array is used by ScanStatus elements associated with EQP
// notes that make an SQLITE_SCANSTAT_NCYCLE value available. It is
// an array of up to 3 ranges of VM addresses for which the Vdbe.anCycle[]
// values should be summed to calculate the NCYCLE value. Each pair of
// integer addresses is a start and end address (both inclusive) for a range
// instructions. A start value of 0 indicates an empty range.
type ScanStatus1 = struct {
FaddrExplain int32
FaAddrRange [6]int32
FaddrLoop int32
FaddrVisit int32
FiSelectID int32
FnEst LogEst
F__ccgo_pad1 [6]byte
FzName uintptr
}
// The ScanStatus object holds a single value for the
// sqlite3_stmt_scanstatus() interface.
//
// aAddrRange[]:
//
// This array is used by ScanStatus elements associated with EQP
// notes that make an SQLITE_SCANSTAT_NCYCLE value available. It is
// an array of up to 3 ranges of VM addresses for which the Vdbe.anCycle[]
// values should be summed to calculate the NCYCLE value. Each pair of
// integer addresses is a start and end address (both inclusive) for a range
// instructions. A start value of 0 indicates an empty range.
type ScanStatus = ScanStatus1
// The DblquoteStr object holds the text of a double-quoted
// string for a prepared statement. A linked list of these objects
// is constructed during statement parsing and is held on Vdbe.pDblStr.
// When computing a normalized SQL statement for an SQL statement, that
// list is consulted for each double-quoted identifier to see if the
// identifier should really be a string literal.
type DblquoteStr1 = struct {
FpNextStr uintptr
Fz [8]int8
}
// The DblquoteStr object holds the text of a double-quoted
// string for a prepared statement. A linked list of these objects
// is constructed during statement parsing and is held on Vdbe.pDblStr.
// When computing a normalized SQL statement for an SQL statement, that
// list is consulted for each double-quoted identifier to see if the
// identifier should really be a string literal.
type DblquoteStr = DblquoteStr1
// An instance of this object is used to pass an vector of values into
// OP_VFilter, the xFilter method of a virtual table. The vector is the
// set of values on the right-hand side of an IN constraint.
//
// The value as passed into xFilter is an sqlite3_value with a "pointer"
// type, such as is generated by sqlite3_result_pointer() and read by
// sqlite3_value_pointer. Such values have MEM_Term|MEM_Subtype|MEM_Null
// and a subtype of 'p'. The sqlite3_vtab_in_first() and _next() interfaces
// know how to use this object to step through all the values in the
// right operand of the IN constraint.
type ValueList1 = struct {
FpCsr uintptr
FpOut uintptr
}
// An instance of this object is used to pass an vector of values into
// OP_VFilter, the xFilter method of a virtual table. The vector is the
// set of values on the right-hand side of an IN constraint.
//
// The value as passed into xFilter is an sqlite3_value with a "pointer"
// type, such as is generated by sqlite3_result_pointer() and read by
// sqlite3_value_pointer. Such values have MEM_Term|MEM_Subtype|MEM_Null
// and a subtype of 'p'. The sqlite3_vtab_in_first() and _next() interfaces
// know how to use this object to step through all the values in the
// right operand of the IN constraint.
type ValueList = ValueList1
// Variables in which to record status information.
type Sqlite3StatValueType = Sqlite3_int64
type sqlite3StatType = struct {
FnowValue [10]Sqlite3StatValueType
FmxValue [10]Sqlite3StatValueType
}
type Sqlite3StatType = sqlite3StatType
var sqlite3Stat = sqlite3StatType{}
var statMutex = [10]int8{
int8(0),
int8(1),
int8(1),
int8(0),
int8(0),
int8(0),
int8(0),
int8(1),
int8(0),
int8(0),
}
// Return the current value of a status parameter. The caller must
// be holding the appropriate mutex.
func Xsqlite3StatusValue(tls *libc.TLS, op int32) Sqlite3_int64 {
return *(*Sqlite3StatValueType)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Stat)) + uintptr(op)*8))
}
// Add N to the value of a status record. The caller must hold the
// appropriate mutex. (Locking is checked by assert()).
//
// The StatusUp() routine can accept positive or negative values for N.
// The value of N is added to the current status value and the high-water
// mark is adjusted if necessary.
//
// The StatusDown() routine lowers the current value by N. The highwater
// mark is unchanged. N must be non-negative for StatusDown().
func Xsqlite3StatusUp(tls *libc.TLS, op int32, N int32) {
*(*Sqlite3StatValueType)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Stat)) + uintptr(op)*8)) += Sqlite3StatValueType(N)
if *(*Sqlite3StatValueType)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Stat)) + uintptr(op)*8)) > *(*Sqlite3StatValueType)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Stat)) + 80 + uintptr(op)*8)) {
*(*Sqlite3StatValueType)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Stat)) + 80 + uintptr(op)*8)) = *(*Sqlite3StatValueType)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Stat)) + uintptr(op)*8))
}
}
func Xsqlite3StatusDown(tls *libc.TLS, op int32, N int32) {
*(*Sqlite3StatValueType)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Stat)) + uintptr(op)*8)) -= Sqlite3StatValueType(N)
}
// Adjust the highwater mark if necessary.
// The caller must hold the appropriate mutex.
func Xsqlite3StatusHighwater(tls *libc.TLS, op int32, X int32) {
var newValue Sqlite3StatValueType
newValue = Sqlite3StatValueType(X)
if newValue > *(*Sqlite3StatValueType)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Stat)) + 80 + uintptr(op)*8)) {
*(*Sqlite3StatValueType)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Stat)) + 80 + uintptr(op)*8)) = newValue
}
}
// Query status information.
func Xsqlite3_status64(tls *libc.TLS, op int32, pCurrent uintptr, pHighwater uintptr, resetFlag int32) int32 {
var pMutex uintptr
_ = pMutex
if op < 0 || op >= int32(uint64(unsafe.Sizeof([10]Sqlite3StatValueType{}))/uint64(unsafe.Sizeof(Sqlite3StatValueType(0)))) {
return Xsqlite3MisuseError(tls, 23229)
}
if statMutex[op] != 0 {
pMutex = Xsqlite3Pcache1Mutex(tls)
} else {
pMutex = Xsqlite3MallocMutex(tls)
}
Xsqlite3_mutex_enter(tls, pMutex)
*(*Sqlite3_int64)(unsafe.Pointer(pCurrent)) = *(*Sqlite3StatValueType)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Stat)) + uintptr(op)*8))
*(*Sqlite3_int64)(unsafe.Pointer(pHighwater)) = *(*Sqlite3StatValueType)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Stat)) + 80 + uintptr(op)*8))
if resetFlag != 0 {
*(*Sqlite3StatValueType)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Stat)) + 80 + uintptr(op)*8)) = *(*Sqlite3StatValueType)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Stat)) + uintptr(op)*8))
}
Xsqlite3_mutex_leave(tls, pMutex)
_ = pMutex
return SQLITE_OK
}
func Xsqlite3_status(tls *libc.TLS, op int32, pCurrent uintptr, pHighwater uintptr, resetFlag int32) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
*(*Sqlite3_int64)(unsafe.Pointer(bp)) = int64(0)
*(*Sqlite3_int64)(unsafe.Pointer(bp + 8)) = int64(0)
var rc int32
rc = Xsqlite3_status64(tls, op, bp, bp+8, resetFlag)
if rc == 0 {
*(*int32)(unsafe.Pointer(pCurrent)) = int32(*(*Sqlite3_int64)(unsafe.Pointer(bp)))
*(*int32)(unsafe.Pointer(pHighwater)) = int32(*(*Sqlite3_int64)(unsafe.Pointer(bp + 8)))
}
return rc
}
func countLookasideSlots(tls *libc.TLS, p uintptr) U32 {
var cnt U32 = U32(0)
for p != 0 {
p = (*LookasideSlot)(unsafe.Pointer(p)).FpNext
cnt++
}
return cnt
}
// Count the number of slots of lookaside memory that are outstanding
func Xsqlite3LookasideUsed(tls *libc.TLS, db uintptr, pHighwater uintptr) int32 {
var nInit U32 = countLookasideSlots(tls, (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpInit)
var nFree U32 = countLookasideSlots(tls, (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpFree)
nInit = nInit + countLookasideSlots(tls, (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallInit)
nFree = nFree + countLookasideSlots(tls, (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallFree)
if pHighwater != 0 {
*(*int32)(unsafe.Pointer(pHighwater)) = int32((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FnSlot - nInit)
}
return int32((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FnSlot - (nInit + nFree))
}
// Query status information for a single database connection
func Xsqlite3_db_status(tls *libc.TLS, db uintptr, op int32, pCurrent uintptr, pHighwater uintptr, resetFlag int32) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
var rc int32 = SQLITE_OK
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
switch op {
case SQLITE_DBSTATUS_LOOKASIDE_USED:
{
*(*int32)(unsafe.Pointer(pCurrent)) = Xsqlite3LookasideUsed(tls, db, pHighwater)
if resetFlag != 0 {
var p uintptr = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpFree
if p != 0 {
for (*LookasideSlot)(unsafe.Pointer(p)).FpNext != 0 {
p = (*LookasideSlot)(unsafe.Pointer(p)).FpNext
}
(*LookasideSlot)(unsafe.Pointer(p)).FpNext = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpInit
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpInit = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpFree
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpFree = uintptr(0)
}
p = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallFree
if p != 0 {
for (*LookasideSlot)(unsafe.Pointer(p)).FpNext != 0 {
p = (*LookasideSlot)(unsafe.Pointer(p)).FpNext
}
(*LookasideSlot)(unsafe.Pointer(p)).FpNext = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallInit
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallInit = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallFree
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallFree = uintptr(0)
}
}
break
}
case SQLITE_DBSTATUS_LOOKASIDE_HIT:
fallthrough
case SQLITE_DBSTATUS_LOOKASIDE_MISS_SIZE:
fallthrough
case SQLITE_DBSTATUS_LOOKASIDE_MISS_FULL:
{
*(*int32)(unsafe.Pointer(pCurrent)) = 0
*(*int32)(unsafe.Pointer(pHighwater)) = int32(*(*U32)(unsafe.Pointer(db + 440 + 16 + uintptr(op-SQLITE_DBSTATUS_LOOKASIDE_HIT)*4)))
if resetFlag != 0 {
*(*U32)(unsafe.Pointer(db + 440 + 16 + uintptr(op-SQLITE_DBSTATUS_LOOKASIDE_HIT)*4)) = U32(0)
}
break
}
case SQLITE_DBSTATUS_CACHE_USED_SHARED:
fallthrough
case SQLITE_DBSTATUS_CACHE_USED:
{
var totalUsed int32 = 0
var i int32
Xsqlite3BtreeEnterAll(tls, db)
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if pBt != 0 {
var pPager uintptr = Xsqlite3BtreePager(tls, pBt)
var nByte int32 = Xsqlite3PagerMemUsed(tls, pPager)
if op == SQLITE_DBSTATUS_CACHE_USED_SHARED {
nByte = nByte / Xsqlite3BtreeConnectionCount(tls, pBt)
}
totalUsed = totalUsed + nByte
}
}
Xsqlite3BtreeLeaveAll(tls, db)
*(*int32)(unsafe.Pointer(pCurrent)) = totalUsed
*(*int32)(unsafe.Pointer(pHighwater)) = 0
break
}
case SQLITE_DBSTATUS_SCHEMA_USED:
{
var i int32
*(*int32)(unsafe.Pointer(bp)) = 0
Xsqlite3BtreeEnterAll(tls, db)
(*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed = bp
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpEnd = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpStart
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pSchema uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpSchema
if pSchema != uintptr(0) {
var p uintptr
*(*int32)(unsafe.Pointer(bp)) += int32(uint32((*struct{ f func(*libc.TLS, int32) int32 })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxRoundup})).f(tls, int32(unsafe.Sizeof(HashElem{})))) * ((*Schema)(unsafe.Pointer(pSchema)).FtblHash.Fcount +
(*Schema)(unsafe.Pointer(pSchema)).FtrigHash.Fcount +
(*Schema)(unsafe.Pointer(pSchema)).FidxHash.Fcount +
(*Schema)(unsafe.Pointer(pSchema)).FfkeyHash.Fcount))
*(*int32)(unsafe.Pointer(bp)) += int32(Xsqlite3_msize(tls, (*Schema)(unsafe.Pointer(pSchema)).FtblHash.Fht))
*(*int32)(unsafe.Pointer(bp)) += int32(Xsqlite3_msize(tls, (*Schema)(unsafe.Pointer(pSchema)).FtrigHash.Fht))
*(*int32)(unsafe.Pointer(bp)) += int32(Xsqlite3_msize(tls, (*Schema)(unsafe.Pointer(pSchema)).FidxHash.Fht))
*(*int32)(unsafe.Pointer(bp)) += int32(Xsqlite3_msize(tls, (*Schema)(unsafe.Pointer(pSchema)).FfkeyHash.Fht))
for p = (*Hash)(unsafe.Pointer(pSchema + 56)).Ffirst; p != 0; p = (*HashElem)(unsafe.Pointer(p)).Fnext {
Xsqlite3DeleteTrigger(tls, db, (*HashElem)(unsafe.Pointer(p)).Fdata)
}
for p = (*Hash)(unsafe.Pointer(pSchema + 8)).Ffirst; p != 0; p = (*HashElem)(unsafe.Pointer(p)).Fnext {
Xsqlite3DeleteTable(tls, db, (*HashElem)(unsafe.Pointer(p)).Fdata)
}
}
}
(*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpEnd = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpTrueEnd
Xsqlite3BtreeLeaveAll(tls, db)
*(*int32)(unsafe.Pointer(pHighwater)) = 0
*(*int32)(unsafe.Pointer(pCurrent)) = *(*int32)(unsafe.Pointer(bp))
break
}
case SQLITE_DBSTATUS_STMT_USED:
{
var pVdbe uintptr
*(*int32)(unsafe.Pointer(bp + 4)) = 0
(*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed = bp + 4
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpEnd = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpStart
for pVdbe = (*Sqlite3)(unsafe.Pointer(db)).FpVdbe; pVdbe != 0; pVdbe = (*Vdbe1)(unsafe.Pointer(pVdbe)).FpVNext {
Xsqlite3VdbeDelete(tls, pVdbe)
}
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpEnd = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpTrueEnd
(*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed = uintptr(0)
*(*int32)(unsafe.Pointer(pHighwater)) = 0
*(*int32)(unsafe.Pointer(pCurrent)) = *(*int32)(unsafe.Pointer(bp + 4))
break
}
case SQLITE_DBSTATUS_CACHE_SPILL:
op = SQLITE_DBSTATUS_CACHE_WRITE + 1
fallthrough
case SQLITE_DBSTATUS_CACHE_HIT:
fallthrough
case SQLITE_DBSTATUS_CACHE_MISS:
fallthrough
case SQLITE_DBSTATUS_CACHE_WRITE:
{
var i int32
*(*int32)(unsafe.Pointer(bp + 8)) = 0
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
if (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FpBt != 0 {
var pPager uintptr = Xsqlite3BtreePager(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FpBt)
Xsqlite3PagerCacheStat(tls, pPager, op, resetFlag, bp+8)
}
}
*(*int32)(unsafe.Pointer(pHighwater)) = 0
*(*int32)(unsafe.Pointer(pCurrent)) = *(*int32)(unsafe.Pointer(bp + 8))
break
}
case SQLITE_DBSTATUS_DEFERRED_FKS:
{
*(*int32)(unsafe.Pointer(pHighwater)) = 0
*(*int32)(unsafe.Pointer(pCurrent)) = libc.Bool32((*Sqlite3)(unsafe.Pointer(db)).FnDeferredImmCons > int64(0) || (*Sqlite3)(unsafe.Pointer(db)).FnDeferredCons > int64(0))
break
}
default:
{
rc = SQLITE_ERROR
}
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Copyright (c) 2003-2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright (c) 2000-2007 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright 1995 NeXT Computer, Inc. All rights reserved.
type Clock_t = X__darwin_clock_t
// Copyright (c) 2003-2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright (c) 2003-2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright (c) 2003-2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright (c) 2000-2007 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright 1995 NeXT Computer, Inc. All rights reserved.
type Time_t = X__darwin_time_t
type timespec = struct {
Ftv_sec X__darwin_time_t
Ftv_nsec int64
}
type tm = struct {
Ftm_sec int32
Ftm_min int32
Ftm_hour int32
Ftm_mday int32
Ftm_mon int32
Ftm_year int32
Ftm_wday int32
Ftm_yday int32
Ftm_isdst int32
F__ccgo_pad1 [4]byte
Ftm_gmtoff int64
Ftm_zone uintptr
}
type Clockid_t = uint32
// A structure for holding a single date and time.
type DateTime1 = struct {
FiJD Sqlite3_int64
FY int32
FM int32
FD int32
Fh int32
Fm int32
Ftz int32
Fs float64
FvalidJD int8
FrawS int8
FvalidYMD int8
FvalidHMS int8
FvalidTZ int8
FtzSet int8
FisError int8
F__ccgo_pad1 [1]byte
}
// A structure for holding a single date and time.
type DateTime = DateTime1
func getDigits(tls *libc.TLS, zDate uintptr, zFormat uintptr, va uintptr) int32 {
var ap Va_list
_ = ap
var cnt int32
var nextC int8
var N int8
var min int8
var val int32
var max U16
cnt = 0
ap = va
__1:
N = int8(int32(*(*int8)(unsafe.Pointer(zFormat))) - '0')
min = int8(int32(*(*int8)(unsafe.Pointer(zFormat + 1))) - '0')
val = 0
max = aMx[int32(*(*int8)(unsafe.Pointer(zFormat + 2)))-'a']
nextC = *(*int8)(unsafe.Pointer(zFormat + 3))
val = 0
__4:
if !(libc.PostDecInt8(&N, 1) != 0) {
goto __5
}
if !!(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zDate)))])&0x04 != 0) {
goto __6
}
goto end_getDigits
__6:
;
val = val*10 + int32(*(*int8)(unsafe.Pointer(zDate))) - '0'
zDate++
goto __4
__5:
;
if !(val < int32(min) || val > int32(max) || int32(nextC) != 0 && int32(nextC) != int32(*(*int8)(unsafe.Pointer(zDate)))) {
goto __7
}
goto end_getDigits
__7:
;
*(*int32)(unsafe.Pointer(libc.VaUintptr(&ap))) = val
zDate++
cnt++
zFormat += uintptr(4)
goto __2
__2:
if nextC != 0 {
goto __1
}
goto __3
__3:
;
end_getDigits:
_ = ap
return cnt
}
var aMx = [6]U16{U16(12), U16(14), U16(24), U16(31), U16(59), U16(9999)}
func parseTimezone(tls *libc.TLS, zDate uintptr, p uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var sgn int32
var c int32
sgn = 0
__1:
if !(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zDate)))])&0x01 != 0) {
goto __2
}
zDate++
goto __1
__2:
;
(*DateTime)(unsafe.Pointer(p)).Ftz = 0
c = int32(*(*int8)(unsafe.Pointer(zDate)))
if !(c == '-') {
goto __3
}
sgn = -1
goto __4
__3:
if !(c == '+') {
goto __5
}
sgn = +1
goto __6
__5:
if !(c == 'Z' || c == 'z') {
goto __7
}
zDate++
goto zulu_time
goto __8
__7:
return libc.Bool32(c != 0)
__8:
;
__6:
;
__4:
;
zDate++
if !(getDigits(tls, zDate, ts+1130, libc.VaList(bp, bp+16, bp+20)) != 2) {
goto __9
}
return 1
__9:
;
zDate += uintptr(5)
(*DateTime)(unsafe.Pointer(p)).Ftz = sgn * (*(*int32)(unsafe.Pointer(bp + 20)) + *(*int32)(unsafe.Pointer(bp + 16))*60)
zulu_time:
__10:
if !(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zDate)))])&0x01 != 0) {
goto __11
}
zDate++
goto __10
__11:
;
(*DateTime)(unsafe.Pointer(p)).FtzSet = int8(1)
return libc.Bool32(int32(*(*int8)(unsafe.Pointer(zDate))) != 0)
}
func parseHhMmSs(tls *libc.TLS, zDate uintptr, p uintptr) int32 {
bp := tls.Alloc(36)
defer tls.Free(36)
var ms float64 = 0.0
if getDigits(tls, zDate, ts+1138, libc.VaList(bp, bp+24, bp+28)) != 2 {
return 1
}
zDate += uintptr(5)
if int32(*(*int8)(unsafe.Pointer(zDate))) == ':' {
zDate++
if getDigits(tls, zDate, ts+1146, libc.VaList(bp+16, bp+32)) != 1 {
return 1
}
zDate += uintptr(2)
if int32(*(*int8)(unsafe.Pointer(zDate))) == '.' && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zDate + 1)))])&0x04 != 0 {
var rScale float64 = 1.0
zDate++
for int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zDate)))])&0x04 != 0 {
ms = ms*10.0 + float64(*(*int8)(unsafe.Pointer(zDate))) - float64('0')
rScale = rScale * 10.0
zDate++
}
ms = ms / rScale
}
} else {
*(*int32)(unsafe.Pointer(bp + 32)) = 0
}
(*DateTime)(unsafe.Pointer(p)).FvalidJD = int8(0)
(*DateTime)(unsafe.Pointer(p)).FrawS = int8(0)
(*DateTime)(unsafe.Pointer(p)).FvalidHMS = int8(1)
(*DateTime)(unsafe.Pointer(p)).Fh = *(*int32)(unsafe.Pointer(bp + 24))
(*DateTime)(unsafe.Pointer(p)).Fm = *(*int32)(unsafe.Pointer(bp + 28))
(*DateTime)(unsafe.Pointer(p)).Fs = float64(*(*int32)(unsafe.Pointer(bp + 32))) + ms
if parseTimezone(tls, zDate, p) != 0 {
return 1
}
(*DateTime)(unsafe.Pointer(p)).FvalidTZ = func() int8 {
if (*DateTime)(unsafe.Pointer(p)).Ftz != 0 {
return int8(1)
}
return int8(0)
}()
return 0
}
func datetimeError(tls *libc.TLS, p uintptr) {
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(DateTime{})), libc.X__builtin_object_size(tls, p, 0))
(*DateTime)(unsafe.Pointer(p)).FisError = int8(1)
}
func computeJD(tls *libc.TLS, p uintptr) {
var Y int32
var M int32
var D int32
var A int32
var B int32
var X1 int32
var X2 int32
if (*DateTime)(unsafe.Pointer(p)).FvalidJD != 0 {
return
}
if (*DateTime)(unsafe.Pointer(p)).FvalidYMD != 0 {
Y = (*DateTime)(unsafe.Pointer(p)).FY
M = (*DateTime)(unsafe.Pointer(p)).FM
D = (*DateTime)(unsafe.Pointer(p)).FD
} else {
Y = 2000
M = 1
D = 1
}
if Y < -4713 || Y > 9999 || (*DateTime)(unsafe.Pointer(p)).FrawS != 0 {
datetimeError(tls, p)
return
}
if M <= 2 {
Y--
M = M + 12
}
A = Y / 100
B = 2 - A + A/4
X1 = 36525 * (Y + 4716) / 100
X2 = 306001 * (M + 1) / 10000
(*DateTime)(unsafe.Pointer(p)).FiJD = libc.Int64FromFloat64((float64(X1+X2+D+B) - 1524.5) * float64(86400000))
(*DateTime)(unsafe.Pointer(p)).FvalidJD = int8(1)
if (*DateTime)(unsafe.Pointer(p)).FvalidHMS != 0 {
*(*Sqlite3_int64)(unsafe.Pointer(p)) += Sqlite3_int64((*DateTime)(unsafe.Pointer(p)).Fh*3600000+(*DateTime)(unsafe.Pointer(p)).Fm*60000) + libc.Int64FromFloat64((*DateTime)(unsafe.Pointer(p)).Fs*float64(1000)+0.5)
if (*DateTime)(unsafe.Pointer(p)).FvalidTZ != 0 {
*(*Sqlite3_int64)(unsafe.Pointer(p)) -= Sqlite3_int64((*DateTime)(unsafe.Pointer(p)).Ftz * 60000)
(*DateTime)(unsafe.Pointer(p)).FvalidYMD = int8(0)
(*DateTime)(unsafe.Pointer(p)).FvalidHMS = int8(0)
(*DateTime)(unsafe.Pointer(p)).FvalidTZ = int8(0)
}
}
}
func parseYyyyMmDd(tls *libc.TLS, zDate uintptr, p uintptr) int32 {
bp := tls.Alloc(36)
defer tls.Free(36)
var neg int32
if int32(*(*int8)(unsafe.Pointer(zDate))) == '-' {
zDate++
neg = 1
} else {
neg = 0
}
if getDigits(tls, zDate, ts+1150, libc.VaList(bp, bp+24, bp+28, bp+32)) != 3 {
return 1
}
zDate += uintptr(10)
for int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zDate)))])&0x01 != 0 || 'T' == int32(*(*U8)(unsafe.Pointer(zDate))) {
zDate++
}
if parseHhMmSs(tls, zDate, p) == 0 {
} else if int32(*(*int8)(unsafe.Pointer(zDate))) == 0 {
(*DateTime)(unsafe.Pointer(p)).FvalidHMS = int8(0)
} else {
return 1
}
(*DateTime)(unsafe.Pointer(p)).FvalidJD = int8(0)
(*DateTime)(unsafe.Pointer(p)).FvalidYMD = int8(1)
(*DateTime)(unsafe.Pointer(p)).FY = func() int32 {
if neg != 0 {
return -*(*int32)(unsafe.Pointer(bp + 24))
}
return *(*int32)(unsafe.Pointer(bp + 24))
}()
(*DateTime)(unsafe.Pointer(p)).FM = *(*int32)(unsafe.Pointer(bp + 28))
(*DateTime)(unsafe.Pointer(p)).FD = *(*int32)(unsafe.Pointer(bp + 32))
if (*DateTime)(unsafe.Pointer(p)).FvalidTZ != 0 {
computeJD(tls, p)
}
return 0
}
func setDateTimeToCurrent(tls *libc.TLS, context uintptr, p uintptr) int32 {
(*DateTime)(unsafe.Pointer(p)).FiJD = Xsqlite3StmtCurrentTime(tls, context)
if (*DateTime)(unsafe.Pointer(p)).FiJD > int64(0) {
(*DateTime)(unsafe.Pointer(p)).FvalidJD = int8(1)
return 0
} else {
return 1
}
return int32(0)
}
func setRawDateNumber(tls *libc.TLS, p uintptr, r float64) {
(*DateTime)(unsafe.Pointer(p)).Fs = r
(*DateTime)(unsafe.Pointer(p)).FrawS = int8(1)
if r >= 0.0 && r < 5373484.5 {
(*DateTime)(unsafe.Pointer(p)).FiJD = libc.Int64FromFloat64(r*86400000.0 + 0.5)
(*DateTime)(unsafe.Pointer(p)).FvalidJD = int8(1)
}
}
func parseDateOrTime(tls *libc.TLS, context uintptr, zDate uintptr, p uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
if parseYyyyMmDd(tls, zDate, p) == 0 {
return 0
} else if parseHhMmSs(tls, zDate, p) == 0 {
return 0
} else if Xsqlite3StrICmp(tls, zDate, ts+1162) == 0 && Xsqlite3NotPureFunc(tls, context) != 0 {
return setDateTimeToCurrent(tls, context, p)
} else if Xsqlite3AtoF(tls, zDate, bp, Xsqlite3Strlen30(tls, zDate), uint8(SQLITE_UTF8)) > 0 {
setRawDateNumber(tls, p, *(*float64)(unsafe.Pointer(bp)))
return 0
}
return 1
}
func validJulianDay(tls *libc.TLS, iJD Sqlite3_int64) int32 {
return libc.Bool32(iJD >= int64(0) && iJD <= int64(0x1a640)<<32|int64(0x1072fdff))
}
func computeYMD(tls *libc.TLS, p uintptr) {
var Z int32
var A int32
var B int32
var C int32
var D int32
var E int32
var X1 int32
if (*DateTime)(unsafe.Pointer(p)).FvalidYMD != 0 {
return
}
if !(int32((*DateTime)(unsafe.Pointer(p)).FvalidJD) != 0) {
(*DateTime)(unsafe.Pointer(p)).FY = 2000
(*DateTime)(unsafe.Pointer(p)).FM = 1
(*DateTime)(unsafe.Pointer(p)).FD = 1
} else if !(validJulianDay(tls, (*DateTime)(unsafe.Pointer(p)).FiJD) != 0) {
datetimeError(tls, p)
return
} else {
Z = int32(((*DateTime)(unsafe.Pointer(p)).FiJD + int64(43200000)) / int64(86400000))
A = libc.Int32FromFloat64((float64(Z) - 1867216.25) / 36524.25)
A = Z + 1 + A - A/4
B = A + 1524
C = libc.Int32FromFloat64((float64(B) - 122.1) / 365.25)
D = 36525 * (C & 32767) / 100
E = libc.Int32FromFloat64(float64(B-D) / 30.6001)
X1 = libc.Int32FromFloat64(30.6001 * float64(E))
(*DateTime)(unsafe.Pointer(p)).FD = B - D - X1
(*DateTime)(unsafe.Pointer(p)).FM = func() int32 {
if E < 14 {
return E - 1
}
return E - 13
}()
(*DateTime)(unsafe.Pointer(p)).FY = func() int32 {
if (*DateTime)(unsafe.Pointer(p)).FM > 2 {
return C - 4716
}
return C - 4715
}()
}
(*DateTime)(unsafe.Pointer(p)).FvalidYMD = int8(1)
}
func computeHMS(tls *libc.TLS, p uintptr) {
var s int32
if (*DateTime)(unsafe.Pointer(p)).FvalidHMS != 0 {
return
}
computeJD(tls, p)
s = int32(((*DateTime)(unsafe.Pointer(p)).FiJD + int64(43200000)) % int64(86400000))
(*DateTime)(unsafe.Pointer(p)).Fs = float64(s) / 1000.0
s = libc.Int32FromFloat64((*DateTime)(unsafe.Pointer(p)).Fs)
*(*float64)(unsafe.Pointer(p + 32)) -= float64(s)
(*DateTime)(unsafe.Pointer(p)).Fh = s / 3600
s = s - (*DateTime)(unsafe.Pointer(p)).Fh*3600
(*DateTime)(unsafe.Pointer(p)).Fm = s / 60
*(*float64)(unsafe.Pointer(p + 32)) += float64(s - (*DateTime)(unsafe.Pointer(p)).Fm*60)
(*DateTime)(unsafe.Pointer(p)).FrawS = int8(0)
(*DateTime)(unsafe.Pointer(p)).FvalidHMS = int8(1)
}
func computeYMD_HMS(tls *libc.TLS, p uintptr) {
computeYMD(tls, p)
computeHMS(tls, p)
}
func clearYMD_HMS_TZ(tls *libc.TLS, p uintptr) {
(*DateTime)(unsafe.Pointer(p)).FvalidYMD = int8(0)
(*DateTime)(unsafe.Pointer(p)).FvalidHMS = int8(0)
(*DateTime)(unsafe.Pointer(p)).FvalidTZ = int8(0)
}
func osLocaltime(tls *libc.TLS, t uintptr, pTm uintptr) int32 {
var rc int32
var pX uintptr
var mutex uintptr = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MAIN)
Xsqlite3_mutex_enter(tls, mutex)
pX = libc.Xlocaltime(tls, t)
if Xsqlite3Config.FbLocaltimeFault != 0 {
if Xsqlite3Config.FxAltLocaltime != uintptr(0) &&
0 == (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.FxAltLocaltime})).f(tls, t, pTm) {
pX = pTm
} else {
pX = uintptr(0)
}
}
if pX != 0 {
*(*tm)(unsafe.Pointer(pTm)) = *(*tm)(unsafe.Pointer(pX))
}
Xsqlite3_mutex_leave(tls, mutex)
rc = libc.Bool32(pX == uintptr(0))
return rc
}
func toLocaltime(tls *libc.TLS, p uintptr, pCtx uintptr) int32 {
bp := tls.Alloc(112)
defer tls.Free(112)
var iYearDiff int32
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(tm{})), libc.X__builtin_object_size(tls, bp, 0))
computeJD(tls, p)
if (*DateTime)(unsafe.Pointer(p)).FiJD < int64(2108667600)*int64(100000) ||
(*DateTime)(unsafe.Pointer(p)).FiJD > int64(2130141456)*int64(100000) {
*(*DateTime)(unsafe.Pointer(bp + 56)) = *(*DateTime)(unsafe.Pointer(p))
computeYMD_HMS(tls, bp+56)
iYearDiff = 2000 + (*DateTime)(unsafe.Pointer(bp+56)).FY%4 - (*DateTime)(unsafe.Pointer(bp+56)).FY
*(*int32)(unsafe.Pointer(bp + 56 + 8)) += iYearDiff
(*DateTime)(unsafe.Pointer(bp + 56)).FvalidJD = int8(0)
computeJD(tls, bp+56)
*(*Time_t)(unsafe.Pointer(bp + 104)) = (*DateTime)(unsafe.Pointer(bp+56)).FiJD/int64(1000) - int64(21086676)*int64(10000)
} else {
iYearDiff = 0
*(*Time_t)(unsafe.Pointer(bp + 104)) = (*DateTime)(unsafe.Pointer(p)).FiJD/int64(1000) - int64(21086676)*int64(10000)
}
if osLocaltime(tls, bp+104, bp) != 0 {
Xsqlite3_result_error(tls, pCtx, ts+1166, -1)
return SQLITE_ERROR
}
(*DateTime)(unsafe.Pointer(p)).FY = (*tm)(unsafe.Pointer(bp)).Ftm_year + 1900 - iYearDiff
(*DateTime)(unsafe.Pointer(p)).FM = (*tm)(unsafe.Pointer(bp)).Ftm_mon + 1
(*DateTime)(unsafe.Pointer(p)).FD = (*tm)(unsafe.Pointer(bp)).Ftm_mday
(*DateTime)(unsafe.Pointer(p)).Fh = (*tm)(unsafe.Pointer(bp)).Ftm_hour
(*DateTime)(unsafe.Pointer(p)).Fm = (*tm)(unsafe.Pointer(bp)).Ftm_min
(*DateTime)(unsafe.Pointer(p)).Fs = float64((*tm)(unsafe.Pointer(bp)).Ftm_sec) + float64((*DateTime)(unsafe.Pointer(p)).FiJD%int64(1000))*0.001
(*DateTime)(unsafe.Pointer(p)).FvalidYMD = int8(1)
(*DateTime)(unsafe.Pointer(p)).FvalidHMS = int8(1)
(*DateTime)(unsafe.Pointer(p)).FvalidJD = int8(0)
(*DateTime)(unsafe.Pointer(p)).FrawS = int8(0)
(*DateTime)(unsafe.Pointer(p)).FvalidTZ = int8(0)
(*DateTime)(unsafe.Pointer(p)).FisError = int8(0)
return SQLITE_OK
}
var aXformType = [6]struct {
FnName U8
FzName [7]int8
FrLimit float32
FrXform float32
}{
{FnName: U8(6), FzName: *(*[7]int8)(unsafe.Pointer(ts + 1189)), FrLimit: 4.6427e+14, FrXform: 1.0},
{FnName: U8(6), FzName: *(*[7]int8)(unsafe.Pointer(ts + 1196)), FrLimit: 7.7379e+12, FrXform: 60.0},
{FnName: U8(4), FzName: *(*[7]int8)(unsafe.Pointer(ts + 1203)), FrLimit: 1.2897e+11, FrXform: 3600.0},
{FnName: U8(3), FzName: *(*[7]int8)(unsafe.Pointer(ts + 1210)), FrLimit: 5373485.0, FrXform: 86400.0},
{FnName: U8(5), FzName: *(*[7]int8)(unsafe.Pointer(ts + 1217)), FrLimit: 176546.0, FrXform: 2592000.0},
{FnName: U8(4), FzName: *(*[7]int8)(unsafe.Pointer(ts + 1224)), FrLimit: 14713.0, FrXform: 31536000.0},
}
func parseModifier(tls *libc.TLS, pCtx uintptr, z uintptr, n int32, p uintptr, idx int32) int32 {
bp := tls.Alloc(104)
defer tls.Free(104)
var rc int32 = 1
switch int32(Xsqlite3UpperToLower[U8(*(*int8)(unsafe.Pointer(z)))]) {
case 'a':
{
if Xsqlite3_stricmp(tls, z, ts+1231) == 0 {
if idx > 1 {
return 1
}
if !(int32((*DateTime)(unsafe.Pointer(p)).FrawS) != 0) || (*DateTime)(unsafe.Pointer(p)).FvalidJD != 0 {
rc = 0
(*DateTime)(unsafe.Pointer(p)).FrawS = int8(0)
} else if (*DateTime)(unsafe.Pointer(p)).Fs >= float64(int64(-21086676)*int64(10000)) &&
(*DateTime)(unsafe.Pointer(p)).Fs <= float64(int64(25340230)*int64(10000)+int64(799)) {
*(*float64)(unsafe.Pointer(bp + 48)) = (*DateTime)(unsafe.Pointer(p)).Fs*1000.0 + 210866760000000.0
clearYMD_HMS_TZ(tls, p)
(*DateTime)(unsafe.Pointer(p)).FiJD = libc.Int64FromFloat64(*(*float64)(unsafe.Pointer(bp + 48)) + 0.5)
(*DateTime)(unsafe.Pointer(p)).FvalidJD = int8(1)
(*DateTime)(unsafe.Pointer(p)).FrawS = int8(0)
rc = 0
}
}
break
}
case 'j':
{
if Xsqlite3_stricmp(tls, z, ts+1236) == 0 {
if idx > 1 {
return 1
}
if (*DateTime)(unsafe.Pointer(p)).FvalidJD != 0 && (*DateTime)(unsafe.Pointer(p)).FrawS != 0 {
rc = 0
(*DateTime)(unsafe.Pointer(p)).FrawS = int8(0)
}
}
break
}
case 'l':
{
if Xsqlite3_stricmp(tls, z, ts+1246) == 0 && Xsqlite3NotPureFunc(tls, pCtx) != 0 {
rc = toLocaltime(tls, p, pCtx)
}
break
}
case 'u':
{
if Xsqlite3_stricmp(tls, z, ts+1256) == 0 && (*DateTime)(unsafe.Pointer(p)).FrawS != 0 {
if idx > 1 {
return 1
}
*(*float64)(unsafe.Pointer(bp + 48)) = (*DateTime)(unsafe.Pointer(p)).Fs*1000.0 + 210866760000000.0
if *(*float64)(unsafe.Pointer(bp + 48)) >= 0.0 && *(*float64)(unsafe.Pointer(bp + 48)) < 464269060800000.0 {
clearYMD_HMS_TZ(tls, p)
(*DateTime)(unsafe.Pointer(p)).FiJD = libc.Int64FromFloat64(*(*float64)(unsafe.Pointer(bp + 48)) + 0.5)
(*DateTime)(unsafe.Pointer(p)).FvalidJD = int8(1)
(*DateTime)(unsafe.Pointer(p)).FrawS = int8(0)
rc = 0
}
} else if Xsqlite3_stricmp(tls, z, ts+1266) == 0 && Xsqlite3NotPureFunc(tls, pCtx) != 0 {
if int32((*DateTime)(unsafe.Pointer(p)).FtzSet) == 0 {
var iOrigJD I64
var iGuess I64
var cnt int32 = 0
var iErr I64
computeJD(tls, p)
iGuess = libc.AssignInt64(&iOrigJD, (*DateTime)(unsafe.Pointer(p)).FiJD)
iErr = int64(0)
for __ccgo := true; __ccgo; __ccgo = iErr != 0 && libc.PostIncInt32(&cnt, 1) < 3 {
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(DateTime{})), libc.X__builtin_object_size(tls, bp, 0))
iGuess = iGuess - iErr
(*DateTime)(unsafe.Pointer(bp)).FiJD = iGuess
(*DateTime)(unsafe.Pointer(bp)).FvalidJD = int8(1)
rc = toLocaltime(tls, bp, pCtx)
if rc != 0 {
return rc
}
computeJD(tls, bp)
iErr = (*DateTime)(unsafe.Pointer(bp)).FiJD - iOrigJD
}
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(DateTime{})), libc.X__builtin_object_size(tls, p, 0))
(*DateTime)(unsafe.Pointer(p)).FiJD = iGuess
(*DateTime)(unsafe.Pointer(p)).FvalidJD = int8(1)
(*DateTime)(unsafe.Pointer(p)).FtzSet = int8(1)
}
rc = SQLITE_OK
}
break
}
case 'w':
{
if Xsqlite3_strnicmp(tls, z, ts+1270, 8) == 0 &&
Xsqlite3AtoF(tls, z+8, bp+48, Xsqlite3Strlen30(tls, z+8), uint8(SQLITE_UTF8)) > 0 &&
*(*float64)(unsafe.Pointer(bp + 48)) >= 0.0 && *(*float64)(unsafe.Pointer(bp + 48)) < 7.0 && float64(libc.AssignInt32(&n, int32(*(*float64)(unsafe.Pointer(bp + 48))))) == *(*float64)(unsafe.Pointer(bp + 48)) {
var Z Sqlite3_int64
computeYMD_HMS(tls, p)
(*DateTime)(unsafe.Pointer(p)).FvalidTZ = int8(0)
(*DateTime)(unsafe.Pointer(p)).FvalidJD = int8(0)
computeJD(tls, p)
Z = ((*DateTime)(unsafe.Pointer(p)).FiJD + int64(129600000)) / int64(86400000) % int64(7)
if Z > Sqlite3_int64(n) {
Z = Z - int64(7)
}
*(*Sqlite3_int64)(unsafe.Pointer(p)) += (Sqlite3_int64(n) - Z) * int64(86400000)
clearYMD_HMS_TZ(tls, p)
rc = 0
}
break
}
case 's':
{
if Xsqlite3_strnicmp(tls, z, ts+1279, 9) != 0 {
break
}
if !(int32((*DateTime)(unsafe.Pointer(p)).FvalidJD) != 0) && !(int32((*DateTime)(unsafe.Pointer(p)).FvalidYMD) != 0) && !(int32((*DateTime)(unsafe.Pointer(p)).FvalidHMS) != 0) {
break
}
z += uintptr(9)
computeYMD(tls, p)
(*DateTime)(unsafe.Pointer(p)).FvalidHMS = int8(1)
(*DateTime)(unsafe.Pointer(p)).Fh = libc.AssignPtrInt32(p+24, 0)
(*DateTime)(unsafe.Pointer(p)).Fs = 0.0
(*DateTime)(unsafe.Pointer(p)).FrawS = int8(0)
(*DateTime)(unsafe.Pointer(p)).FvalidTZ = int8(0)
(*DateTime)(unsafe.Pointer(p)).FvalidJD = int8(0)
if Xsqlite3_stricmp(tls, z, ts+1289) == 0 {
(*DateTime)(unsafe.Pointer(p)).FD = 1
rc = 0
} else if Xsqlite3_stricmp(tls, z, ts+1295) == 0 {
(*DateTime)(unsafe.Pointer(p)).FM = 1
(*DateTime)(unsafe.Pointer(p)).FD = 1
rc = 0
} else if Xsqlite3_stricmp(tls, z, ts+1300) == 0 {
rc = 0
}
break
}
case '+':
fallthrough
case '-':
fallthrough
case '0':
fallthrough
case '1':
fallthrough
case '2':
fallthrough
case '3':
fallthrough
case '4':
fallthrough
case '5':
fallthrough
case '6':
fallthrough
case '7':
fallthrough
case '8':
fallthrough
case '9':
{
var rRounder float64
var i int32
for n = 1; *(*int8)(unsafe.Pointer(z + uintptr(n))) != 0 && int32(*(*int8)(unsafe.Pointer(z + uintptr(n)))) != ':' && !(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z + uintptr(n))))])&0x01 != 0); n++ {
}
if Xsqlite3AtoF(tls, z, bp+48, n, uint8(SQLITE_UTF8)) <= 0 {
rc = 1
break
}
if int32(*(*int8)(unsafe.Pointer(z + uintptr(n)))) == ':' {
var z2 uintptr = z
var day Sqlite3_int64
if !(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z2)))])&0x04 != 0) {
z2++
}
libc.X__builtin___memset_chk(tls, bp+56, 0, uint64(unsafe.Sizeof(DateTime{})), libc.X__builtin_object_size(tls, bp+56, 0))
if parseHhMmSs(tls, z2, bp+56) != 0 {
break
}
computeJD(tls, bp+56)
*(*Sqlite3_int64)(unsafe.Pointer(bp + 56)) -= int64(43200000)
day = (*DateTime)(unsafe.Pointer(bp+56)).FiJD / int64(86400000)
*(*Sqlite3_int64)(unsafe.Pointer(bp + 56)) -= day * int64(86400000)
if int32(*(*int8)(unsafe.Pointer(z))) == '-' {
(*DateTime)(unsafe.Pointer(bp + 56)).FiJD = -(*DateTime)(unsafe.Pointer(bp + 56)).FiJD
}
computeJD(tls, p)
clearYMD_HMS_TZ(tls, p)
*(*Sqlite3_int64)(unsafe.Pointer(p)) += (*DateTime)(unsafe.Pointer(bp + 56)).FiJD
rc = 0
break
}
z += uintptr(n)
for int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z)))])&0x01 != 0 {
z++
}
n = Xsqlite3Strlen30(tls, z)
if n > 10 || n < 3 {
break
}
if int32(Xsqlite3UpperToLower[U8(*(*int8)(unsafe.Pointer(z + uintptr(n-1))))]) == 's' {
n--
}
computeJD(tls, p)
rc = 1
if *(*float64)(unsafe.Pointer(bp + 48)) < float64(0) {
rRounder = -0.5
} else {
rRounder = +0.5
}
for i = 0; i < int32(uint64(unsafe.Sizeof(aXformType))/uint64(unsafe.Sizeof(struct {
FnName U8
FzName [7]int8
FrLimit float32
FrXform float32
}{}))); i++ {
if int32(aXformType[i].FnName) == n &&
Xsqlite3_strnicmp(tls, uintptr(unsafe.Pointer(&aXformType))+uintptr(i)*16+1, z, n) == 0 &&
*(*float64)(unsafe.Pointer(bp + 48)) > float64(-aXformType[i].FrLimit) && *(*float64)(unsafe.Pointer(bp + 48)) < float64(aXformType[i].FrLimit) {
switch i {
case 4:
{
var x int32
computeYMD_HMS(tls, p)
*(*int32)(unsafe.Pointer(p + 12)) += int32(*(*float64)(unsafe.Pointer(bp + 48)))
if (*DateTime)(unsafe.Pointer(p)).FM > 0 {
x = ((*DateTime)(unsafe.Pointer(p)).FM - 1) / 12
} else {
x = ((*DateTime)(unsafe.Pointer(p)).FM - 12) / 12
}
*(*int32)(unsafe.Pointer(p + 8)) += x
*(*int32)(unsafe.Pointer(p + 12)) -= x * 12
(*DateTime)(unsafe.Pointer(p)).FvalidJD = int8(0)
*(*float64)(unsafe.Pointer(bp + 48)) -= float64(int32(*(*float64)(unsafe.Pointer(bp + 48))))
break
}
fallthrough
case 5:
{
var y int32 = int32(*(*float64)(unsafe.Pointer(bp + 48)))
computeYMD_HMS(tls, p)
*(*int32)(unsafe.Pointer(p + 8)) += y
(*DateTime)(unsafe.Pointer(p)).FvalidJD = int8(0)
*(*float64)(unsafe.Pointer(bp + 48)) -= float64(int32(*(*float64)(unsafe.Pointer(bp + 48))))
break
}
}
computeJD(tls, p)
*(*Sqlite3_int64)(unsafe.Pointer(p)) += libc.Int64FromFloat64(*(*float64)(unsafe.Pointer(bp + 48))*1000.0*float64(aXformType[i].FrXform) + rRounder)
rc = 0
break
}
}
clearYMD_HMS_TZ(tls, p)
break
}
default:
{
break
}
}
return rc
}
func isDate(tls *libc.TLS, context uintptr, argc int32, argv uintptr, p uintptr) int32 {
var i int32
var n int32
var z uintptr
var eType int32
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(DateTime{})), libc.X__builtin_object_size(tls, p, 0))
if argc == 0 {
if !(Xsqlite3NotPureFunc(tls, context) != 0) {
return 1
}
return setDateTimeToCurrent(tls, context, p)
}
if libc.AssignInt32(&eType, Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv)))) == SQLITE_FLOAT ||
eType == SQLITE_INTEGER {
setRawDateNumber(tls, p, Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv))))
} else {
z = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
if !(z != 0) || parseDateOrTime(tls, context, z, p) != 0 {
return 1
}
}
for i = 1; i < argc; i++ {
z = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8)))
n = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8)))
if z == uintptr(0) || parseModifier(tls, context, z, n, p, i) != 0 {
return 1
}
}
computeJD(tls, p)
if (*DateTime)(unsafe.Pointer(p)).FisError != 0 || !(validJulianDay(tls, (*DateTime)(unsafe.Pointer(p)).FiJD) != 0) {
return 1
}
return 0
}
func juliandayFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
if isDate(tls, context, argc, argv, bp) == 0 {
computeJD(tls, bp)
Xsqlite3_result_double(tls, context, float64((*DateTime)(unsafe.Pointer(bp)).FiJD)/86400000.0)
}
}
func unixepochFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
if isDate(tls, context, argc, argv, bp) == 0 {
computeJD(tls, bp)
Xsqlite3_result_int64(tls, context, (*DateTime)(unsafe.Pointer(bp)).FiJD/int64(1000)-int64(21086676)*int64(10000))
}
}
func datetimeFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(72)
defer tls.Free(72)
if isDate(tls, context, argc, argv, bp) == 0 {
var Y int32
var s int32
computeYMD_HMS(tls, bp)
Y = (*DateTime)(unsafe.Pointer(bp)).FY
if Y < 0 {
Y = -Y
}
*(*int8)(unsafe.Pointer(bp + 48 + 1)) = int8('0' + Y/1000%10)
*(*int8)(unsafe.Pointer(bp + 48 + 2)) = int8('0' + Y/100%10)
*(*int8)(unsafe.Pointer(bp + 48 + 3)) = int8('0' + Y/10%10)
*(*int8)(unsafe.Pointer(bp + 48 + 4)) = int8('0' + Y%10)
*(*int8)(unsafe.Pointer(bp + 48 + 5)) = int8('-')
*(*int8)(unsafe.Pointer(bp + 48 + 6)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).FM/10%10)
*(*int8)(unsafe.Pointer(bp + 48 + 7)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).FM%10)
*(*int8)(unsafe.Pointer(bp + 48 + 8)) = int8('-')
*(*int8)(unsafe.Pointer(bp + 48 + 9)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).FD/10%10)
*(*int8)(unsafe.Pointer(bp + 48 + 10)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).FD%10)
*(*int8)(unsafe.Pointer(bp + 48 + 11)) = int8(' ')
*(*int8)(unsafe.Pointer(bp + 48 + 12)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).Fh/10%10)
*(*int8)(unsafe.Pointer(bp + 48 + 13)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).Fh%10)
*(*int8)(unsafe.Pointer(bp + 48 + 14)) = int8(':')
*(*int8)(unsafe.Pointer(bp + 48 + 15)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).Fm/10%10)
*(*int8)(unsafe.Pointer(bp + 48 + 16)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).Fm%10)
*(*int8)(unsafe.Pointer(bp + 48 + 17)) = int8(':')
s = libc.Int32FromFloat64((*DateTime)(unsafe.Pointer(bp)).Fs)
*(*int8)(unsafe.Pointer(bp + 48 + 18)) = int8('0' + s/10%10)
*(*int8)(unsafe.Pointer(bp + 48 + 19)) = int8('0' + s%10)
*(*int8)(unsafe.Pointer(bp + 48 + 20)) = int8(0)
if (*DateTime)(unsafe.Pointer(bp)).FY < 0 {
*(*int8)(unsafe.Pointer(bp + 48)) = int8('-')
Xsqlite3_result_text(tls, context, bp+48, 20, libc.UintptrFromInt32(-1))
} else {
Xsqlite3_result_text(tls, context, bp+48+1, 19, libc.UintptrFromInt32(-1))
}
}
}
func timeFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(64)
defer tls.Free(64)
if isDate(tls, context, argc, argv, bp) == 0 {
var s int32
computeHMS(tls, bp)
*(*int8)(unsafe.Pointer(bp + 48)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).Fh/10%10)
*(*int8)(unsafe.Pointer(bp + 48 + 1)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).Fh%10)
*(*int8)(unsafe.Pointer(bp + 48 + 2)) = int8(':')
*(*int8)(unsafe.Pointer(bp + 48 + 3)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).Fm/10%10)
*(*int8)(unsafe.Pointer(bp + 48 + 4)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).Fm%10)
*(*int8)(unsafe.Pointer(bp + 48 + 5)) = int8(':')
s = libc.Int32FromFloat64((*DateTime)(unsafe.Pointer(bp)).Fs)
*(*int8)(unsafe.Pointer(bp + 48 + 6)) = int8('0' + s/10%10)
*(*int8)(unsafe.Pointer(bp + 48 + 7)) = int8('0' + s%10)
*(*int8)(unsafe.Pointer(bp + 48 + 8)) = int8(0)
Xsqlite3_result_text(tls, context, bp+48, 8, libc.UintptrFromInt32(-1))
}
}
func dateFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(64)
defer tls.Free(64)
if isDate(tls, context, argc, argv, bp) == 0 {
var Y int32
computeYMD(tls, bp)
Y = (*DateTime)(unsafe.Pointer(bp)).FY
if Y < 0 {
Y = -Y
}
*(*int8)(unsafe.Pointer(bp + 48 + 1)) = int8('0' + Y/1000%10)
*(*int8)(unsafe.Pointer(bp + 48 + 2)) = int8('0' + Y/100%10)
*(*int8)(unsafe.Pointer(bp + 48 + 3)) = int8('0' + Y/10%10)
*(*int8)(unsafe.Pointer(bp + 48 + 4)) = int8('0' + Y%10)
*(*int8)(unsafe.Pointer(bp + 48 + 5)) = int8('-')
*(*int8)(unsafe.Pointer(bp + 48 + 6)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).FM/10%10)
*(*int8)(unsafe.Pointer(bp + 48 + 7)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).FM%10)
*(*int8)(unsafe.Pointer(bp + 48 + 8)) = int8('-')
*(*int8)(unsafe.Pointer(bp + 48 + 9)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).FD/10%10)
*(*int8)(unsafe.Pointer(bp + 48 + 10)) = int8('0' + (*DateTime)(unsafe.Pointer(bp)).FD%10)
*(*int8)(unsafe.Pointer(bp + 48 + 11)) = int8(0)
if (*DateTime)(unsafe.Pointer(bp)).FY < 0 {
*(*int8)(unsafe.Pointer(bp + 48)) = int8('-')
Xsqlite3_result_text(tls, context, bp+48, 11, libc.UintptrFromInt32(-1))
} else {
Xsqlite3_result_text(tls, context, bp+48+1, 10, libc.UintptrFromInt32(-1))
}
}
}
func strftimeFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(216)
defer tls.Free(216)
var i Size_t
var j Size_t
var db uintptr
var zFmt uintptr
if argc == 0 {
return
}
zFmt = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
if zFmt == uintptr(0) || isDate(tls, context, argc-1, argv+uintptr(1)*8, bp+88) != 0 {
return
}
db = Xsqlite3_context_db_handle(tls, context)
Xsqlite3StrAccumInit(tls, bp+136, uintptr(0), uintptr(0), 0, *(*int32)(unsafe.Pointer(db + 136)))
computeJD(tls, bp+88)
computeYMD_HMS(tls, bp+88)
for i = libc.AssignUint64(&j, uint64(0)); *(*int8)(unsafe.Pointer(zFmt + uintptr(i))) != 0; i++ {
if int32(*(*int8)(unsafe.Pointer(zFmt + uintptr(i)))) != '%' {
continue
}
if j < i {
Xsqlite3_str_append(tls, bp+136, zFmt+uintptr(j), int32(i-j))
}
i++
j = i + uint64(1)
switch int32(*(*int8)(unsafe.Pointer(zFmt + uintptr(i)))) {
case 'd':
{
Xsqlite3_str_appendf(tls, bp+136, ts+1304, libc.VaList(bp, (*DateTime)(unsafe.Pointer(bp+88)).FD))
break
}
case 'f':
{
var s float64 = (*DateTime)(unsafe.Pointer(bp + 88)).Fs
if s > 59.999 {
s = 59.999
}
Xsqlite3_str_appendf(tls, bp+136, ts+1309, libc.VaList(bp+8, s))
break
}
case 'H':
{
Xsqlite3_str_appendf(tls, bp+136, ts+1304, libc.VaList(bp+16, (*DateTime)(unsafe.Pointer(bp+88)).Fh))
break
}
case 'W':
fallthrough
case 'j':
{
var nDay int32
*(*DateTime)(unsafe.Pointer(bp + 168)) = *(*DateTime)(unsafe.Pointer(bp + 88))
(*DateTime)(unsafe.Pointer(bp + 168)).FvalidJD = int8(0)
(*DateTime)(unsafe.Pointer(bp + 168)).FM = 1
(*DateTime)(unsafe.Pointer(bp + 168)).FD = 1
computeJD(tls, bp+168)
nDay = int32(((*DateTime)(unsafe.Pointer(bp+88)).FiJD - (*DateTime)(unsafe.Pointer(bp+168)).FiJD + int64(43200000)) / int64(86400000))
if int32(*(*int8)(unsafe.Pointer(zFmt + uintptr(i)))) == 'W' {
var wd int32
wd = int32(((*DateTime)(unsafe.Pointer(bp+88)).FiJD + int64(43200000)) / int64(86400000) % int64(7))
Xsqlite3_str_appendf(tls, bp+136, ts+1304, libc.VaList(bp+24, (nDay+7-wd)/7))
} else {
Xsqlite3_str_appendf(tls, bp+136, ts+1316, libc.VaList(bp+32, nDay+1))
}
break
}
case 'J':
{
Xsqlite3_str_appendf(tls, bp+136, ts+1321, libc.VaList(bp+40, float64((*DateTime)(unsafe.Pointer(bp+88)).FiJD)/86400000.0))
break
}
case 'm':
{
Xsqlite3_str_appendf(tls, bp+136, ts+1304, libc.VaList(bp+48, (*DateTime)(unsafe.Pointer(bp+88)).FM))
break
}
case 'M':
{
Xsqlite3_str_appendf(tls, bp+136, ts+1304, libc.VaList(bp+56, (*DateTime)(unsafe.Pointer(bp+88)).Fm))
break
}
case 's':
{
var iS I64 = (*DateTime)(unsafe.Pointer(bp+88)).FiJD/int64(1000) - int64(21086676)*int64(10000)
Xsqlite3_str_appendf(tls, bp+136, ts+1327, libc.VaList(bp+64, iS))
break
}
case 'S':
{
Xsqlite3_str_appendf(tls, bp+136, ts+1304, libc.VaList(bp+72, libc.Int32FromFloat64((*DateTime)(unsafe.Pointer(bp+88)).Fs)))
break
}
case 'w':
{
Xsqlite3_str_appendchar(tls, bp+136, 1,
int8(int32(int8(((*DateTime)(unsafe.Pointer(bp+88)).FiJD+int64(129600000))/int64(86400000)%int64(7)))+'0'))
break
}
case 'Y':
{
Xsqlite3_str_appendf(tls, bp+136, ts+1332, libc.VaList(bp+80, (*DateTime)(unsafe.Pointer(bp+88)).FY))
break
}
case '%':
{
Xsqlite3_str_appendchar(tls, bp+136, 1, int8('%'))
break
}
default:
{
Xsqlite3_str_reset(tls, bp+136)
return
}
}
}
if j < i {
Xsqlite3_str_append(tls, bp+136, zFmt+uintptr(j), int32(i-j))
}
Xsqlite3ResultStrAccum(tls, context, bp+136)
}
func ctimeFunc(tls *libc.TLS, context uintptr, NotUsed int32, NotUsed2 uintptr) {
_ = NotUsed
_ = NotUsed2
timeFunc(tls, context, 0, uintptr(0))
}
func cdateFunc(tls *libc.TLS, context uintptr, NotUsed int32, NotUsed2 uintptr) {
_ = NotUsed
_ = NotUsed2
dateFunc(tls, context, 0, uintptr(0))
}
func ctimestampFunc(tls *libc.TLS, context uintptr, NotUsed int32, NotUsed2 uintptr) {
_ = NotUsed
_ = NotUsed2
datetimeFunc(tls, context, 0, uintptr(0))
}
// This function registered all of the above C functions as SQL
// functions. This should be the only routine in this file with
// external linkage.
func Xsqlite3RegisterDateTimeFunctions(tls *libc.TLS) {
Xsqlite3InsertBuiltinFuncs(tls, uintptr(unsafe.Pointer(&aDateTimeFuncs)), int32(uint64(unsafe.Sizeof(aDateTimeFuncs))/uint64(unsafe.Sizeof(FuncDef{}))))
}
var aDateTimeFuncs = [9]FuncDef{
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_SLOCHNG | SQLITE_UTF8 | SQLITE_FUNC_CONSTANT), FpUserData: 0, FxSFunc: 0, FzName: ts + 1236},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_SLOCHNG | SQLITE_UTF8 | SQLITE_FUNC_CONSTANT), FpUserData: 0, FxSFunc: 0, FzName: ts + 1256},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_SLOCHNG | SQLITE_UTF8 | SQLITE_FUNC_CONSTANT), FpUserData: 0, FxSFunc: 0, FzName: ts + 1337},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_SLOCHNG | SQLITE_UTF8 | SQLITE_FUNC_CONSTANT), FpUserData: 0, FxSFunc: 0, FzName: ts + 1342},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_SLOCHNG | SQLITE_UTF8 | SQLITE_FUNC_CONSTANT), FpUserData: 0, FxSFunc: 0, FzName: ts + 1347},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_SLOCHNG | SQLITE_UTF8 | SQLITE_FUNC_CONSTANT), FpUserData: 0, FxSFunc: 0, FzName: ts + 1356},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_SLOCHNG | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 1365},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_SLOCHNG | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 1378},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_SLOCHNG | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 1396}}
// The following routines are convenience wrappers around methods
// of the sqlite3_file object. This is mostly just syntactic sugar. All
// of this would be completely automatic if SQLite were coded using
// C++ instead of plain old C.
func Xsqlite3OsClose(tls *libc.TLS, pId uintptr) {
if (*Sqlite3_file)(unsafe.Pointer(pId)).FpMethods != 0 {
(*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(pId)).FpMethods)).FxClose})).f(tls, pId)
(*Sqlite3_file)(unsafe.Pointer(pId)).FpMethods = uintptr(0)
}
}
func Xsqlite3OsRead(tls *libc.TLS, id uintptr, pBuf uintptr, amt int32, offset I64) int32 {
return (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxRead})).f(tls, id, pBuf, amt, offset)
}
func Xsqlite3OsWrite(tls *libc.TLS, id uintptr, pBuf uintptr, amt int32, offset I64) int32 {
return (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxWrite})).f(tls, id, pBuf, amt, offset)
}
func Xsqlite3OsTruncate(tls *libc.TLS, id uintptr, size I64) int32 {
return (*struct {
f func(*libc.TLS, uintptr, Sqlite3_int64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxTruncate})).f(tls, id, size)
}
func Xsqlite3OsSync(tls *libc.TLS, id uintptr, flags int32) int32 {
if flags != 0 {
return (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxSync})).f(tls, id, flags)
}
return SQLITE_OK
}
func Xsqlite3OsFileSize(tls *libc.TLS, id uintptr, pSize uintptr) int32 {
return (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxFileSize})).f(tls, id, pSize)
}
func Xsqlite3OsLock(tls *libc.TLS, id uintptr, lockType int32) int32 {
return (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxLock})).f(tls, id, lockType)
}
func Xsqlite3OsUnlock(tls *libc.TLS, id uintptr, lockType int32) int32 {
return (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxUnlock})).f(tls, id, lockType)
}
func Xsqlite3OsCheckReservedLock(tls *libc.TLS, id uintptr, pResOut uintptr) int32 {
return (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxCheckReservedLock})).f(tls, id, pResOut)
}
// Use sqlite3OsFileControl() when we are doing something that might fail
// and we need to know about the failures. Use sqlite3OsFileControlHint()
// when simply tossing information over the wall to the VFS and we do not
// really care if the VFS receives and understands the information since it
// is only a hint and can be safely ignored. The sqlite3OsFileControlHint()
// routine has no return value since the return value would be meaningless.
func Xsqlite3OsFileControl(tls *libc.TLS, id uintptr, op int32, pArg uintptr) int32 {
if (*Sqlite3_file)(unsafe.Pointer(id)).FpMethods == uintptr(0) {
return SQLITE_NOTFOUND
}
return (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxFileControl})).f(tls, id, op, pArg)
}
func Xsqlite3OsFileControlHint(tls *libc.TLS, id uintptr, op int32, pArg uintptr) {
if (*Sqlite3_file)(unsafe.Pointer(id)).FpMethods != 0 {
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxFileControl})).f(tls, id, op, pArg)
}
}
func Xsqlite3OsSectorSize(tls *libc.TLS, id uintptr) int32 {
var xSectorSize uintptr = (*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxSectorSize
return func() int32 {
if xSectorSize != 0 {
return (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xSectorSize})).f(tls, id)
}
return SQLITE_DEFAULT_SECTOR_SIZE
}()
}
func Xsqlite3OsDeviceCharacteristics(tls *libc.TLS, id uintptr) int32 {
if (*Sqlite3_file)(unsafe.Pointer(id)).FpMethods == uintptr(0) {
return 0
}
return (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxDeviceCharacteristics})).f(tls, id)
}
func Xsqlite3OsShmLock(tls *libc.TLS, id uintptr, offset int32, n int32, flags int32) int32 {
return (*struct {
f func(*libc.TLS, uintptr, int32, int32, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxShmLock})).f(tls, id, offset, n, flags)
}
func Xsqlite3OsShmBarrier(tls *libc.TLS, id uintptr) {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxShmBarrier})).f(tls, id)
}
func Xsqlite3OsShmUnmap(tls *libc.TLS, id uintptr, deleteFlag int32) int32 {
return (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxShmUnmap})).f(tls, id, deleteFlag)
}
func Xsqlite3OsShmMap(tls *libc.TLS, id uintptr, iPage int32, pgsz int32, bExtend int32, pp uintptr) int32 {
return (*struct {
f func(*libc.TLS, uintptr, int32, int32, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxShmMap})).f(tls, id, iPage, pgsz, bExtend, pp)
}
// The real implementation of xFetch and xUnfetch
func Xsqlite3OsFetch(tls *libc.TLS, id uintptr, iOff I64, iAmt int32, pp uintptr) int32 {
return (*struct {
f func(*libc.TLS, uintptr, Sqlite3_int64, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxFetch})).f(tls, id, iOff, iAmt, pp)
}
func Xsqlite3OsUnfetch(tls *libc.TLS, id uintptr, iOff I64, p uintptr) int32 {
return (*struct {
f func(*libc.TLS, uintptr, Sqlite3_int64, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods)).FxUnfetch})).f(tls, id, iOff, p)
}
// The next group of routines are convenience wrappers around the
// VFS methods.
func Xsqlite3OsOpen(tls *libc.TLS, pVfs uintptr, zPath uintptr, pFile uintptr, flags int32, pFlagsOut uintptr) int32 {
var rc int32
rc = (*struct {
f func(*libc.TLS, uintptr, Sqlite3_filename, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxOpen})).f(tls, pVfs, zPath, pFile, flags&0x1087f7f, pFlagsOut)
return rc
}
func Xsqlite3OsDelete(tls *libc.TLS, pVfs uintptr, zPath uintptr, dirSync int32) int32 {
if (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxDelete != uintptr(0) {
return (*struct {
f func(*libc.TLS, uintptr, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxDelete})).f(tls, pVfs, zPath, dirSync)
}
return SQLITE_OK
}
func Xsqlite3OsAccess(tls *libc.TLS, pVfs uintptr, zPath uintptr, flags int32, pResOut uintptr) int32 {
return (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxAccess})).f(tls, pVfs, zPath, flags, pResOut)
}
func Xsqlite3OsFullPathname(tls *libc.TLS, pVfs uintptr, zPath uintptr, nPathOut int32, zPathOut uintptr) int32 {
*(*int8)(unsafe.Pointer(zPathOut)) = int8(0)
return (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxFullPathname})).f(tls, pVfs, zPath, nPathOut, zPathOut)
}
func Xsqlite3OsDlOpen(tls *libc.TLS, pVfs uintptr, zPath uintptr) uintptr {
return (*struct {
f func(*libc.TLS, uintptr, uintptr) uintptr
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxDlOpen})).f(tls, pVfs, zPath)
}
func Xsqlite3OsDlError(tls *libc.TLS, pVfs uintptr, nByte int32, zBufOut uintptr) {
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxDlError})).f(tls, pVfs, nByte, zBufOut)
}
func Xsqlite3OsDlSym(tls *libc.TLS, pVfs uintptr, pHdle uintptr, zSym uintptr) uintptr {
return (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr) uintptr
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxDlSym})).f(tls, pVfs, pHdle, zSym)
}
func Xsqlite3OsDlClose(tls *libc.TLS, pVfs uintptr, pHandle uintptr) {
(*struct {
f func(*libc.TLS, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxDlClose})).f(tls, pVfs, pHandle)
}
func Xsqlite3OsRandomness(tls *libc.TLS, pVfs uintptr, nByte int32, zBufOut uintptr) int32 {
if Xsqlite3Config.FiPrngSeed != 0 {
libc.X__builtin___memset_chk(tls, zBufOut, 0, uint64(nByte), libc.X__builtin_object_size(tls, zBufOut, 0))
if nByte > int32(unsafe.Sizeof(uint32(0))) {
nByte = int32(unsafe.Sizeof(uint32(0)))
}
libc.X__builtin___memcpy_chk(tls, zBufOut, uintptr(unsafe.Pointer(&Xsqlite3Config))+432, uint64(nByte), libc.X__builtin_object_size(tls, zBufOut, 0))
return SQLITE_OK
} else {
return (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxRandomness})).f(tls, pVfs, nByte, zBufOut)
}
return int32(0)
}
func Xsqlite3OsSleep(tls *libc.TLS, pVfs uintptr, nMicro int32) int32 {
return (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxSleep})).f(tls, pVfs, nMicro)
}
func Xsqlite3OsGetLastError(tls *libc.TLS, pVfs uintptr) int32 {
if (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxGetLastError != 0 {
return (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxGetLastError})).f(tls, pVfs, 0, uintptr(0))
}
return 0
}
func Xsqlite3OsCurrentTimeInt64(tls *libc.TLS, pVfs uintptr, pTimeOut uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
if (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FiVersion >= 2 && (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxCurrentTimeInt64 != 0 {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxCurrentTimeInt64})).f(tls, pVfs, pTimeOut)
} else {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxCurrentTime})).f(tls, pVfs, bp)
*(*Sqlite3_int64)(unsafe.Pointer(pTimeOut)) = libc.Int64FromFloat64(*(*float64)(unsafe.Pointer(bp)) * 86400000.0)
}
return rc
}
func Xsqlite3OsOpenMalloc(tls *libc.TLS, pVfs uintptr, zFile uintptr, ppFile uintptr, flags int32, pOutFlags uintptr) int32 {
var rc int32
var pFile uintptr
pFile = Xsqlite3MallocZero(tls, uint64((*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FszOsFile))
if pFile != 0 {
rc = Xsqlite3OsOpen(tls, pVfs, zFile, pFile, flags, pOutFlags)
if rc != SQLITE_OK {
Xsqlite3_free(tls, pFile)
*(*uintptr)(unsafe.Pointer(ppFile)) = uintptr(0)
} else {
*(*uintptr)(unsafe.Pointer(ppFile)) = pFile
}
} else {
*(*uintptr)(unsafe.Pointer(ppFile)) = uintptr(0)
rc = SQLITE_NOMEM
}
return rc
}
func Xsqlite3OsCloseFree(tls *libc.TLS, pFile uintptr) {
Xsqlite3OsClose(tls, pFile)
Xsqlite3_free(tls, pFile)
}
// This function is a wrapper around the OS specific implementation of
// sqlite3_os_init(). The purpose of the wrapper is to provide the
// ability to simulate a malloc failure, so that the handling of an
// error in sqlite3_os_init() by the upper layers can be tested.
func Xsqlite3OsInit(tls *libc.TLS) int32 {
var p uintptr = Xsqlite3_malloc(tls, 10)
if p == uintptr(0) {
return SQLITE_NOMEM
}
Xsqlite3_free(tls, p)
return Xsqlite3_os_init(tls)
}
var vfsList uintptr = uintptr(0)
// Locate a VFS by name. If no name is given, simply return the
// first VFS on the list.
func Xsqlite3_vfs_find(tls *libc.TLS, zVfs uintptr) uintptr {
var pVfs uintptr = uintptr(0)
var mutex uintptr
var rc int32 = Xsqlite3_initialize(tls)
if rc != 0 {
return uintptr(0)
}
mutex = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MAIN)
Xsqlite3_mutex_enter(tls, mutex)
for pVfs = vfsList; pVfs != 0; pVfs = (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpNext {
if zVfs == uintptr(0) {
break
}
if libc.Xstrcmp(tls, zVfs, (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FzName) == 0 {
break
}
}
Xsqlite3_mutex_leave(tls, mutex)
return pVfs
}
func vfsUnlink(tls *libc.TLS, pVfs uintptr) {
if pVfs == uintptr(0) {
} else if vfsList == pVfs {
vfsList = (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpNext
} else if vfsList != 0 {
var p uintptr = vfsList
for (*Sqlite3_vfs)(unsafe.Pointer(p)).FpNext != 0 && (*Sqlite3_vfs)(unsafe.Pointer(p)).FpNext != pVfs {
p = (*Sqlite3_vfs)(unsafe.Pointer(p)).FpNext
}
if (*Sqlite3_vfs)(unsafe.Pointer(p)).FpNext == pVfs {
(*Sqlite3_vfs)(unsafe.Pointer(p)).FpNext = (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpNext
}
}
}
// Register a VFS with the system. It is harmless to register the same
// VFS multiple times. The new VFS becomes the default if makeDflt is
// true.
func Xsqlite3_vfs_register(tls *libc.TLS, pVfs uintptr, makeDflt int32) int32 {
var mutex uintptr
var rc int32 = Xsqlite3_initialize(tls)
if rc != 0 {
return rc
}
mutex = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MAIN)
Xsqlite3_mutex_enter(tls, mutex)
vfsUnlink(tls, pVfs)
if makeDflt != 0 || vfsList == uintptr(0) {
(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpNext = vfsList
vfsList = pVfs
} else {
(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpNext = (*Sqlite3_vfs)(unsafe.Pointer(vfsList)).FpNext
(*Sqlite3_vfs)(unsafe.Pointer(vfsList)).FpNext = pVfs
}
Xsqlite3_mutex_leave(tls, mutex)
return SQLITE_OK
}
// Unregister a VFS so that it is no longer accessible.
func Xsqlite3_vfs_unregister(tls *libc.TLS, pVfs uintptr) int32 {
var mutex uintptr
var rc int32 = Xsqlite3_initialize(tls)
if rc != 0 {
return rc
}
mutex = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MAIN)
Xsqlite3_mutex_enter(tls, mutex)
vfsUnlink(tls, pVfs)
Xsqlite3_mutex_leave(tls, mutex)
return SQLITE_OK
}
// Global variables.
type BenignMallocHooks1 = struct {
FxBenignBegin uintptr
FxBenignEnd uintptr
}
// Global variables.
type BenignMallocHooks = BenignMallocHooks1
var sqlite3Hooks = BenignMallocHooks1{}
// Register hooks to call when sqlite3BeginBenignMalloc() and
// sqlite3EndBenignMalloc() are called, respectively.
func Xsqlite3BenignMallocHooks(tls *libc.TLS, xBenignBegin uintptr, xBenignEnd uintptr) {
sqlite3Hooks.FxBenignBegin = xBenignBegin
sqlite3Hooks.FxBenignEnd = xBenignEnd
}
// This (sqlite3EndBenignMalloc()) is called by SQLite code to indicate that
// subsequent malloc failures are benign. A call to sqlite3EndBenignMalloc()
// indicates that subsequent malloc failures are non-benign.
func Xsqlite3BeginBenignMalloc(tls *libc.TLS) {
if sqlite3Hooks.FxBenignBegin != 0 {
(*struct{ f func(*libc.TLS) })(unsafe.Pointer(&struct{ uintptr }{sqlite3Hooks.FxBenignBegin})).f(tls)
}
}
func Xsqlite3EndBenignMalloc(tls *libc.TLS) {
if sqlite3Hooks.FxBenignEnd != 0 {
(*struct{ f func(*libc.TLS) })(unsafe.Pointer(&struct{ uintptr }{sqlite3Hooks.FxBenignEnd})).f(tls)
}
}
func sqlite3MemMalloc(tls *libc.TLS, nByte int32) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var p uintptr
p = libc.Xmalloc(tls, uint64(nByte+8))
if p != 0 {
*(*Sqlite3_int64)(unsafe.Pointer(p)) = Sqlite3_int64(nByte)
p += 8
} else {
Xsqlite3_log(tls, SQLITE_NOMEM, ts+1409, libc.VaList(bp, nByte))
}
return p
}
func sqlite3MemFree(tls *libc.TLS, pPrior uintptr) {
var p uintptr = pPrior
p -= 8
libc.Xfree(tls, p)
}
func sqlite3MemSize(tls *libc.TLS, pPrior uintptr) int32 {
var p uintptr
p = pPrior
p -= 8
return int32(*(*Sqlite3_int64)(unsafe.Pointer(p)))
}
func sqlite3MemRealloc(tls *libc.TLS, pPrior uintptr, nByte int32) uintptr {
bp := tls.Alloc(16)
defer tls.Free(16)
var p uintptr = pPrior
p -= 8
p = libc.Xrealloc(tls, p, uint64(nByte+8))
if p != 0 {
*(*Sqlite3_int64)(unsafe.Pointer(p)) = Sqlite3_int64(nByte)
p += 8
} else {
Xsqlite3_log(tls, SQLITE_NOMEM,
ts+1447,
libc.VaList(bp, sqlite3MemSize(tls, pPrior), nByte))
}
return p
}
func sqlite3MemRoundup(tls *libc.TLS, n int32) int32 {
return (n + 7) & libc.CplInt32(7)
}
func sqlite3MemInit(tls *libc.TLS, NotUsed uintptr) int32 {
_ = NotUsed
return SQLITE_OK
}
func sqlite3MemShutdown(tls *libc.TLS, NotUsed uintptr) {
_ = NotUsed
return
}
// This routine is the only routine in this file with external linkage.
//
// Populate the low-level memory allocation function pointers in
// sqlite3GlobalConfig.m with pointers to the routines in this file.
func Xsqlite3MemSetDefault(tls *libc.TLS) {
bp := tls.Alloc(8)
defer tls.Free(8)
Xsqlite3_config(tls, SQLITE_CONFIG_MALLOC, libc.VaList(bp, uintptr(unsafe.Pointer(&defaultMethods))))
}
var defaultMethods = Sqlite3_mem_methods{
FxMalloc: 0,
FxFree: 0,
FxRealloc: 0,
FxSize: 0,
FxRoundup: 0,
FxInit: 0,
FxShutdown: 0,
}
// Initialize the mutex system.
func Xsqlite3MutexInit(tls *libc.TLS) int32 {
var rc int32 = SQLITE_OK
if !(int32(Xsqlite3Config.Fmutex.FxMutexAlloc) != 0) {
var pFrom uintptr
var pTo uintptr = uintptr(unsafe.Pointer(&Xsqlite3Config)) + 96
if Xsqlite3Config.FbCoreMutex != 0 {
pFrom = Xsqlite3DefaultMutex(tls)
} else {
pFrom = Xsqlite3NoopMutex(tls)
}
(*Sqlite3_mutex_methods)(unsafe.Pointer(pTo)).FxMutexInit = (*Sqlite3_mutex_methods)(unsafe.Pointer(pFrom)).FxMutexInit
(*Sqlite3_mutex_methods)(unsafe.Pointer(pTo)).FxMutexEnd = (*Sqlite3_mutex_methods)(unsafe.Pointer(pFrom)).FxMutexEnd
(*Sqlite3_mutex_methods)(unsafe.Pointer(pTo)).FxMutexFree = (*Sqlite3_mutex_methods)(unsafe.Pointer(pFrom)).FxMutexFree
(*Sqlite3_mutex_methods)(unsafe.Pointer(pTo)).FxMutexEnter = (*Sqlite3_mutex_methods)(unsafe.Pointer(pFrom)).FxMutexEnter
(*Sqlite3_mutex_methods)(unsafe.Pointer(pTo)).FxMutexTry = (*Sqlite3_mutex_methods)(unsafe.Pointer(pFrom)).FxMutexTry
(*Sqlite3_mutex_methods)(unsafe.Pointer(pTo)).FxMutexLeave = (*Sqlite3_mutex_methods)(unsafe.Pointer(pFrom)).FxMutexLeave
(*Sqlite3_mutex_methods)(unsafe.Pointer(pTo)).FxMutexHeld = (*Sqlite3_mutex_methods)(unsafe.Pointer(pFrom)).FxMutexHeld
(*Sqlite3_mutex_methods)(unsafe.Pointer(pTo)).FxMutexNotheld = (*Sqlite3_mutex_methods)(unsafe.Pointer(pFrom)).FxMutexNotheld
(*Sqlite3_mutex_methods)(unsafe.Pointer(pTo)).FxMutexAlloc = (*Sqlite3_mutex_methods)(unsafe.Pointer(pFrom)).FxMutexAlloc
}
rc = (*struct{ f func(*libc.TLS) int32 })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fmutex.FxMutexInit})).f(tls)
return rc
}
// Shutdown the mutex system. This call frees resources allocated by
// sqlite3MutexInit().
func Xsqlite3MutexEnd(tls *libc.TLS) int32 {
var rc int32 = SQLITE_OK
if Xsqlite3Config.Fmutex.FxMutexEnd != 0 {
rc = (*struct{ f func(*libc.TLS) int32 })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fmutex.FxMutexEnd})).f(tls)
}
return rc
}
// Retrieve a pointer to a static mutex or allocate a new dynamic one.
func Xsqlite3_mutex_alloc(tls *libc.TLS, id int32) uintptr {
if id <= SQLITE_MUTEX_RECURSIVE && Xsqlite3_initialize(tls) != 0 {
return uintptr(0)
}
if id > SQLITE_MUTEX_RECURSIVE && Xsqlite3MutexInit(tls) != 0 {
return uintptr(0)
}
return (*struct {
f func(*libc.TLS, int32) uintptr
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fmutex.FxMutexAlloc})).f(tls, id)
}
func Xsqlite3MutexAlloc(tls *libc.TLS, id int32) uintptr {
if !(int32(Xsqlite3Config.FbCoreMutex) != 0) {
return uintptr(0)
}
return (*struct {
f func(*libc.TLS, int32) uintptr
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fmutex.FxMutexAlloc})).f(tls, id)
}
// Free a dynamic mutex.
func Xsqlite3_mutex_free(tls *libc.TLS, p uintptr) {
if p != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fmutex.FxMutexFree})).f(tls, p)
}
}
// Obtain the mutex p. If some other thread already has the mutex, block
// until it can be obtained.
func Xsqlite3_mutex_enter(tls *libc.TLS, p uintptr) {
if p != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fmutex.FxMutexEnter})).f(tls, p)
}
}
// Obtain the mutex p. If successful, return SQLITE_OK. Otherwise, if another
// thread holds the mutex and it cannot be obtained, return SQLITE_BUSY.
func Xsqlite3_mutex_try(tls *libc.TLS, p uintptr) int32 {
var rc int32 = SQLITE_OK
if p != 0 {
return (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fmutex.FxMutexTry})).f(tls, p)
}
return rc
}
// The sqlite3_mutex_leave() routine exits a mutex that was previously
// entered by the same thread. The behavior is undefined if the mutex
// is not currently entered. If a NULL pointer is passed as an argument
// this function is a no-op.
func Xsqlite3_mutex_leave(tls *libc.TLS, p uintptr) {
if p != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fmutex.FxMutexLeave})).f(tls, p)
}
}
func noopMutexInit(tls *libc.TLS) int32 {
return SQLITE_OK
}
func noopMutexEnd(tls *libc.TLS) int32 {
return SQLITE_OK
}
func noopMutexAlloc(tls *libc.TLS, id int32) uintptr {
_ = id
return uintptr(8)
}
func noopMutexFree(tls *libc.TLS, p uintptr) {
_ = p
return
}
func noopMutexEnter(tls *libc.TLS, p uintptr) {
_ = p
return
}
func noopMutexTry(tls *libc.TLS, p uintptr) int32 {
_ = p
return SQLITE_OK
}
func noopMutexLeave(tls *libc.TLS, p uintptr) {
_ = p
return
}
func Xsqlite3NoopMutex(tls *libc.TLS) uintptr {
return uintptr(unsafe.Pointer(&sMutex))
}
var sMutex = Sqlite3_mutex_methods{
FxMutexInit: 0,
FxMutexEnd: 0,
FxMutexAlloc: 0,
FxMutexFree: 0,
FxMutexEnter: 0,
FxMutexTry: 0,
FxMutexLeave: 0,
}
// If compiled with SQLITE_MUTEX_NOOP, then the no-op mutex implementation
// is used regardless of the run-time threadsafety setting.
func Xsqlite3DefaultMutex(tls *libc.TLS) uintptr {
return Xsqlite3NoopMutex(tls)
}
// Attempt to release up to n bytes of non-essential memory currently
// held by SQLite. An example of non-essential memory is memory used to
// cache database pages that are not currently in use.
func Xsqlite3_release_memory(tls *libc.TLS, n int32) int32 {
return Xsqlite3PcacheReleaseMemory(tls, n)
}
// State information local to the memory allocation subsystem.
type Mem0Global = struct {
Fmutex uintptr
FalarmThreshold Sqlite3_int64
FhardLimit Sqlite3_int64
FnearlyFull int32
F__ccgo_pad1 [4]byte
}
var mem0 = Mem0Global{}
// Return the memory allocator mutex. sqlite3_status() needs it.
func Xsqlite3MallocMutex(tls *libc.TLS) uintptr {
return mem0.Fmutex
}
// Deprecated external interface. It used to set an alarm callback
// that was invoked when memory usage grew too large. Now it is a
// no-op.
func Xsqlite3_memory_alarm(tls *libc.TLS, xCallback uintptr, pArg uintptr, iThreshold Sqlite3_int64) int32 {
_ = xCallback
_ = pArg
_ = iThreshold
return SQLITE_OK
}
// Set the soft heap-size limit for the library. An argument of
// zero disables the limit. A negative argument is a no-op used to
// obtain the return value.
//
// The return value is the value of the heap limit just before this
// interface was called.
//
// If the hard heap limit is enabled, then the soft heap limit cannot
// be disabled nor raised above the hard heap limit.
func Xsqlite3_soft_heap_limit64(tls *libc.TLS, n Sqlite3_int64) Sqlite3_int64 {
var priorLimit Sqlite3_int64
var excess Sqlite3_int64
var nUsed Sqlite3_int64
var rc int32 = Xsqlite3_initialize(tls)
if rc != 0 {
return int64(-1)
}
Xsqlite3_mutex_enter(tls, mem0.Fmutex)
priorLimit = mem0.FalarmThreshold
if n < int64(0) {
Xsqlite3_mutex_leave(tls, mem0.Fmutex)
return priorLimit
}
if mem0.FhardLimit > int64(0) && (n > mem0.FhardLimit || n == int64(0)) {
n = mem0.FhardLimit
}
mem0.FalarmThreshold = n
nUsed = Xsqlite3StatusValue(tls, SQLITE_STATUS_MEMORY_USED)
*(*int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&mem0)) + 24)) = libc.Bool32(n > int64(0) && n <= nUsed)
Xsqlite3_mutex_leave(tls, mem0.Fmutex)
excess = Xsqlite3_memory_used(tls) - n
if excess > int64(0) {
Xsqlite3_release_memory(tls, int32(excess&int64(0x7fffffff)))
}
return priorLimit
}
func Xsqlite3_soft_heap_limit(tls *libc.TLS, n int32) {
if n < 0 {
n = 0
}
Xsqlite3_soft_heap_limit64(tls, int64(n))
}
// Set the hard heap-size limit for the library. An argument of zero
// disables the hard heap limit. A negative argument is a no-op used
// to obtain the return value without affecting the hard heap limit.
//
// The return value is the value of the hard heap limit just prior to
// calling this interface.
//
// Setting the hard heap limit will also activate the soft heap limit
// and constrain the soft heap limit to be no more than the hard heap
// limit.
func Xsqlite3_hard_heap_limit64(tls *libc.TLS, n Sqlite3_int64) Sqlite3_int64 {
var priorLimit Sqlite3_int64
var rc int32 = Xsqlite3_initialize(tls)
if rc != 0 {
return int64(-1)
}
Xsqlite3_mutex_enter(tls, mem0.Fmutex)
priorLimit = mem0.FhardLimit
if n >= int64(0) {
mem0.FhardLimit = n
if n < mem0.FalarmThreshold || mem0.FalarmThreshold == int64(0) {
mem0.FalarmThreshold = n
}
}
Xsqlite3_mutex_leave(tls, mem0.Fmutex)
return priorLimit
}
// Initialize the memory allocation subsystem.
func Xsqlite3MallocInit(tls *libc.TLS) int32 {
var rc int32
if Xsqlite3Config.Fm.FxMalloc == uintptr(0) {
Xsqlite3MemSetDefault(tls)
}
mem0.Fmutex = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MEM)
if Xsqlite3Config.FpPage == uintptr(0) || Xsqlite3Config.FszPage < 512 ||
Xsqlite3Config.FnPage <= 0 {
Xsqlite3Config.FpPage = uintptr(0)
Xsqlite3Config.FszPage = 0
}
rc = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxInit})).f(tls, Xsqlite3Config.Fm.FpAppData)
if rc != SQLITE_OK {
libc.X__builtin___memset_chk(tls, uintptr(unsafe.Pointer(&mem0)), 0, uint64(unsafe.Sizeof(mem0)), libc.X__builtin_object_size(tls, uintptr(unsafe.Pointer(&mem0)), 0))
}
return rc
}
// Return true if the heap is currently under memory pressure - in other
// words if the amount of heap used is close to the limit set by
// sqlite3_soft_heap_limit().
func Xsqlite3HeapNearlyFull(tls *libc.TLS) int32 {
return *(*int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&mem0)) + 24))
}
// Deinitialize the memory allocation subsystem.
func Xsqlite3MallocEnd(tls *libc.TLS) {
if Xsqlite3Config.Fm.FxShutdown != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxShutdown})).f(tls, Xsqlite3Config.Fm.FpAppData)
}
libc.X__builtin___memset_chk(tls, uintptr(unsafe.Pointer(&mem0)), 0, uint64(unsafe.Sizeof(mem0)), libc.X__builtin_object_size(tls, uintptr(unsafe.Pointer(&mem0)), 0))
}
// Return the amount of memory currently checked out.
func Xsqlite3_memory_used(tls *libc.TLS) Sqlite3_int64 {
bp := tls.Alloc(16)
defer tls.Free(16)
Xsqlite3_status64(tls, SQLITE_STATUS_MEMORY_USED, bp, bp+8, 0)
return *(*Sqlite3_int64)(unsafe.Pointer(bp))
}
// Return the maximum amount of memory that has ever been
// checked out since either the beginning of this process
// or since the most recent reset.
func Xsqlite3_memory_highwater(tls *libc.TLS, resetFlag int32) Sqlite3_int64 {
bp := tls.Alloc(16)
defer tls.Free(16)
Xsqlite3_status64(tls, SQLITE_STATUS_MEMORY_USED, bp, bp+8, resetFlag)
return *(*Sqlite3_int64)(unsafe.Pointer(bp + 8))
}
func sqlite3MallocAlarm(tls *libc.TLS, nByte int32) {
if mem0.FalarmThreshold <= int64(0) {
return
}
Xsqlite3_mutex_leave(tls, mem0.Fmutex)
Xsqlite3_release_memory(tls, nByte)
Xsqlite3_mutex_enter(tls, mem0.Fmutex)
}
func mallocWithAlarm(tls *libc.TLS, n int32, pp uintptr) {
var p uintptr
var nFull int32
nFull = (*struct{ f func(*libc.TLS, int32) int32 })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxRoundup})).f(tls, n)
Xsqlite3StatusHighwater(tls, SQLITE_STATUS_MALLOC_SIZE, n)
if mem0.FalarmThreshold > int64(0) {
var nUsed Sqlite3_int64 = Xsqlite3StatusValue(tls, SQLITE_STATUS_MEMORY_USED)
if nUsed >= mem0.FalarmThreshold-Sqlite3_int64(nFull) {
*(*int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&mem0)) + 24)) = 1
sqlite3MallocAlarm(tls, nFull)
if mem0.FhardLimit != 0 {
nUsed = Xsqlite3StatusValue(tls, SQLITE_STATUS_MEMORY_USED)
if nUsed >= mem0.FhardLimit-Sqlite3_int64(nFull) {
*(*uintptr)(unsafe.Pointer(pp)) = uintptr(0)
return
}
}
} else {
*(*int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&mem0)) + 24)) = 0
}
}
p = (*struct {
f func(*libc.TLS, int32) uintptr
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxMalloc})).f(tls, nFull)
if p == uintptr(0) && mem0.FalarmThreshold > int64(0) {
sqlite3MallocAlarm(tls, nFull)
p = (*struct {
f func(*libc.TLS, int32) uintptr
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxMalloc})).f(tls, nFull)
}
if p != 0 {
nFull = Xsqlite3MallocSize(tls, p)
Xsqlite3StatusUp(tls, SQLITE_STATUS_MEMORY_USED, nFull)
Xsqlite3StatusUp(tls, SQLITE_STATUS_MALLOC_COUNT, 1)
}
*(*uintptr)(unsafe.Pointer(pp)) = p
}
// Allocate memory. This routine is like sqlite3_malloc() except that it
// assumes the memory subsystem has already been initialized.
func Xsqlite3Malloc(tls *libc.TLS, n U64) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
if n == uint64(0) || n > uint64(SQLITE_MAX_ALLOCATION_SIZE) {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
} else if Xsqlite3Config.FbMemstat != 0 {
Xsqlite3_mutex_enter(tls, mem0.Fmutex)
mallocWithAlarm(tls, int32(n), bp)
Xsqlite3_mutex_leave(tls, mem0.Fmutex)
} else {
*(*uintptr)(unsafe.Pointer(bp)) = (*struct {
f func(*libc.TLS, int32) uintptr
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxMalloc})).f(tls, int32(n))
}
return *(*uintptr)(unsafe.Pointer(bp))
}
// This version of the memory allocation is for use by the application.
// First make sure the memory subsystem is initialized, then do the
// allocation.
func Xsqlite3_malloc(tls *libc.TLS, n int32) uintptr {
if Xsqlite3_initialize(tls) != 0 {
return uintptr(0)
}
if n <= 0 {
return uintptr(0)
}
return Xsqlite3Malloc(tls, uint64(n))
}
func Xsqlite3_malloc64(tls *libc.TLS, n Sqlite3_uint64) uintptr {
if Xsqlite3_initialize(tls) != 0 {
return uintptr(0)
}
return Xsqlite3Malloc(tls, n)
}
func isLookaside(tls *libc.TLS, db uintptr, p uintptr) int32 {
return libc.Bool32(Uptr(p) >= Uptr((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpStart) && Uptr(p) < Uptr((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpTrueEnd))
}
// Return the size of a memory allocation previously obtained from
// sqlite3Malloc() or sqlite3_malloc().
func Xsqlite3MallocSize(tls *libc.TLS, p uintptr) int32 {
return (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxSize})).f(tls, p)
}
func lookasideMallocSize(tls *libc.TLS, db uintptr, p uintptr) int32 {
if p < (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpMiddle {
return int32((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FszTrue)
}
return LOOKASIDE_SMALL
}
func Xsqlite3DbMallocSize(tls *libc.TLS, db uintptr, p uintptr) int32 {
if db != 0 {
if Uptr(p) < Uptr((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpTrueEnd) {
if Uptr(p) >= Uptr((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpMiddle) {
return LOOKASIDE_SMALL
}
if Uptr(p) >= Uptr((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpStart) {
return int32((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FszTrue)
}
}
}
return (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxSize})).f(tls, p)
}
func Xsqlite3_msize(tls *libc.TLS, p uintptr) Sqlite3_uint64 {
if p != 0 {
return uint64((*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxSize})).f(tls, p))
}
return uint64(0)
}
// Free memory previously obtained from sqlite3Malloc().
func Xsqlite3_free(tls *libc.TLS, p uintptr) {
if p == uintptr(0) {
return
}
if Xsqlite3Config.FbMemstat != 0 {
Xsqlite3_mutex_enter(tls, mem0.Fmutex)
Xsqlite3StatusDown(tls, SQLITE_STATUS_MEMORY_USED, Xsqlite3MallocSize(tls, p))
Xsqlite3StatusDown(tls, SQLITE_STATUS_MALLOC_COUNT, 1)
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxFree})).f(tls, p)
Xsqlite3_mutex_leave(tls, mem0.Fmutex)
} else {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxFree})).f(tls, p)
}
}
func measureAllocationSize(tls *libc.TLS, db uintptr, p uintptr) {
*(*int32)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed)) += Xsqlite3DbMallocSize(tls, db, p)
}
// Free memory that might be associated with a particular database
// connection. Calling sqlite3DbFree(D,X) for X==0 is a harmless no-op.
// The sqlite3DbFreeNN(D,X) version requires that X be non-NULL.
func Xsqlite3DbFreeNN(tls *libc.TLS, db uintptr, p uintptr) {
if db != 0 {
if Uptr(p) < Uptr((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpEnd) {
if Uptr(p) >= Uptr((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpMiddle) {
var pBuf uintptr = p
(*LookasideSlot)(unsafe.Pointer(pBuf)).FpNext = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallFree
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallFree = pBuf
return
}
if Uptr(p) >= Uptr((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpStart) {
var pBuf uintptr = p
(*LookasideSlot)(unsafe.Pointer(pBuf)).FpNext = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpFree
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpFree = pBuf
return
}
}
if (*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed != 0 {
measureAllocationSize(tls, db, p)
return
}
}
Xsqlite3_free(tls, p)
}
func Xsqlite3DbNNFreeNN(tls *libc.TLS, db uintptr, p uintptr) {
if Uptr(p) < Uptr((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpEnd) {
if Uptr(p) >= Uptr((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpMiddle) {
var pBuf uintptr = p
(*LookasideSlot)(unsafe.Pointer(pBuf)).FpNext = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallFree
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallFree = pBuf
return
}
if Uptr(p) >= Uptr((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpStart) {
var pBuf uintptr = p
(*LookasideSlot)(unsafe.Pointer(pBuf)).FpNext = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpFree
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpFree = pBuf
return
}
}
if (*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed != 0 {
measureAllocationSize(tls, db, p)
return
}
Xsqlite3_free(tls, p)
}
func Xsqlite3DbFree(tls *libc.TLS, db uintptr, p uintptr) {
if p != 0 {
Xsqlite3DbFreeNN(tls, db, p)
}
}
// Change the size of an existing memory allocation
func Xsqlite3Realloc(tls *libc.TLS, pOld uintptr, nBytes U64) uintptr {
var nOld int32
var nNew int32
var nDiff int32
var pNew uintptr
if pOld == uintptr(0) {
return Xsqlite3Malloc(tls, nBytes)
}
if nBytes == uint64(0) {
Xsqlite3_free(tls, pOld)
return uintptr(0)
}
if nBytes >= uint64(0x7fffff00) {
return uintptr(0)
}
nOld = Xsqlite3MallocSize(tls, pOld)
nNew = (*struct{ f func(*libc.TLS, int32) int32 })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxRoundup})).f(tls, int32(nBytes))
if nOld == nNew {
pNew = pOld
} else if Xsqlite3Config.FbMemstat != 0 {
var nUsed Sqlite3_int64
Xsqlite3_mutex_enter(tls, mem0.Fmutex)
Xsqlite3StatusHighwater(tls, SQLITE_STATUS_MALLOC_SIZE, int32(nBytes))
nDiff = nNew - nOld
if nDiff > 0 && libc.AssignInt64(&nUsed, Xsqlite3StatusValue(tls, SQLITE_STATUS_MEMORY_USED)) >= mem0.FalarmThreshold-Sqlite3_int64(nDiff) {
sqlite3MallocAlarm(tls, nDiff)
if mem0.FhardLimit > int64(0) && nUsed >= mem0.FhardLimit-Sqlite3_int64(nDiff) {
Xsqlite3_mutex_leave(tls, mem0.Fmutex)
return uintptr(0)
}
}
pNew = (*struct {
f func(*libc.TLS, uintptr, int32) uintptr
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxRealloc})).f(tls, pOld, nNew)
if pNew == uintptr(0) && mem0.FalarmThreshold > int64(0) {
sqlite3MallocAlarm(tls, int32(nBytes))
pNew = (*struct {
f func(*libc.TLS, uintptr, int32) uintptr
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxRealloc})).f(tls, pOld, nNew)
}
if pNew != 0 {
nNew = Xsqlite3MallocSize(tls, pNew)
Xsqlite3StatusUp(tls, SQLITE_STATUS_MEMORY_USED, nNew-nOld)
}
Xsqlite3_mutex_leave(tls, mem0.Fmutex)
} else {
pNew = (*struct {
f func(*libc.TLS, uintptr, int32) uintptr
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fm.FxRealloc})).f(tls, pOld, nNew)
}
return pNew
}
// The public interface to sqlite3Realloc. Make sure that the memory
// subsystem is initialized prior to invoking sqliteRealloc.
func Xsqlite3_realloc(tls *libc.TLS, pOld uintptr, n int32) uintptr {
if Xsqlite3_initialize(tls) != 0 {
return uintptr(0)
}
if n < 0 {
n = 0
}
return Xsqlite3Realloc(tls, pOld, uint64(n))
}
func Xsqlite3_realloc64(tls *libc.TLS, pOld uintptr, n Sqlite3_uint64) uintptr {
if Xsqlite3_initialize(tls) != 0 {
return uintptr(0)
}
return Xsqlite3Realloc(tls, pOld, n)
}
// Allocate and zero memory.
func Xsqlite3MallocZero(tls *libc.TLS, n U64) uintptr {
var p uintptr = Xsqlite3Malloc(tls, n)
if p != 0 {
libc.X__builtin___memset_chk(tls, p, 0, n, libc.X__builtin_object_size(tls, p, 0))
}
return p
}
// Allocate and zero memory. If the allocation fails, make
// the mallocFailed flag in the connection pointer.
func Xsqlite3DbMallocZero(tls *libc.TLS, db uintptr, n U64) uintptr {
var p uintptr
p = Xsqlite3DbMallocRaw(tls, db, n)
if p != 0 {
libc.X__builtin___memset_chk(tls, p, 0, n, libc.X__builtin_object_size(tls, p, 0))
}
return p
}
func dbMallocRawFinish(tls *libc.TLS, db uintptr, n U64) uintptr {
var p uintptr
p = Xsqlite3Malloc(tls, n)
if !(p != 0) {
Xsqlite3OomFault(tls, db)
}
return p
}
// Allocate memory, either lookaside (if possible) or heap.
// If the allocation fails, set the mallocFailed flag in
// the connection pointer.
//
// If db!=0 and db->mallocFailed is true (indicating a prior malloc
// failure on the same database connection) then always return 0.
// Hence for a particular database connection, once malloc starts
// failing, it fails consistently until mallocFailed is reset.
// This is an important assumption. There are many places in the
// code that do things like this:
//
// int *a = (int*)sqlite3DbMallocRaw(db, 100);
// int *b = (int*)sqlite3DbMallocRaw(db, 200);
// if( b ) a[10] = 9;
//
// In other words, if a subsequent malloc (ex: "b") worked, it is assumed
// that all prior mallocs (ex: "a") worked too.
//
// The sqlite3MallocRawNN() variant guarantees that the "db" parameter is
// not a NULL pointer.
func Xsqlite3DbMallocRaw(tls *libc.TLS, db uintptr, n U64) uintptr {
var p uintptr
if db != 0 {
return Xsqlite3DbMallocRawNN(tls, db, n)
}
p = Xsqlite3Malloc(tls, n)
return p
}
func Xsqlite3DbMallocRawNN(tls *libc.TLS, db uintptr, n U64) uintptr {
var pBuf uintptr
if n > U64((*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz) {
if !(int32((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable) != 0) {
*(*U32)(unsafe.Pointer(db + 440 + 16 + 1*4))++
} else if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return uintptr(0)
}
return dbMallocRawFinish(tls, db, n)
}
if n <= uint64(LOOKASIDE_SMALL) {
if libc.AssignUintptr(&pBuf, (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallFree) != uintptr(0) {
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallFree = (*LookasideSlot)(unsafe.Pointer(pBuf)).FpNext
*(*U32)(unsafe.Pointer(db + 440 + 16))++
return pBuf
} else if libc.AssignUintptr(&pBuf, (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallInit) != uintptr(0) {
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallInit = (*LookasideSlot)(unsafe.Pointer(pBuf)).FpNext
*(*U32)(unsafe.Pointer(db + 440 + 16))++
return pBuf
}
}
if libc.AssignUintptr(&pBuf, (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpFree) != uintptr(0) {
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpFree = (*LookasideSlot)(unsafe.Pointer(pBuf)).FpNext
*(*U32)(unsafe.Pointer(db + 440 + 16))++
return pBuf
} else if libc.AssignUintptr(&pBuf, (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpInit) != uintptr(0) {
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpInit = (*LookasideSlot)(unsafe.Pointer(pBuf)).FpNext
*(*U32)(unsafe.Pointer(db + 440 + 16))++
return pBuf
} else {
*(*U32)(unsafe.Pointer(db + 440 + 16 + 2*4))++
}
return dbMallocRawFinish(tls, db, n)
}
// Resize the block of memory pointed to by p to n bytes. If the
// resize fails, set the mallocFailed flag in the connection object.
func Xsqlite3DbRealloc(tls *libc.TLS, db uintptr, p uintptr, n U64) uintptr {
if p == uintptr(0) {
return Xsqlite3DbMallocRawNN(tls, db, n)
}
if Uptr(p) < Uptr((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpEnd) {
if Uptr(p) >= Uptr((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpMiddle) {
if n <= uint64(LOOKASIDE_SMALL) {
return p
}
} else if Uptr(p) >= Uptr((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpStart) {
if n <= U64((*Sqlite3)(unsafe.Pointer(db)).Flookaside.FszTrue) {
return p
}
}
}
return dbReallocFinish(tls, db, p, n)
}
func dbReallocFinish(tls *libc.TLS, db uintptr, p uintptr, n U64) uintptr {
var pNew uintptr = uintptr(0)
if int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0 {
if isLookaside(tls, db, p) != 0 {
pNew = Xsqlite3DbMallocRawNN(tls, db, n)
if pNew != 0 {
libc.X__builtin___memcpy_chk(tls, pNew, p, uint64(lookasideMallocSize(tls, db, p)), libc.X__builtin_object_size(tls, pNew, 0))
Xsqlite3DbFree(tls, db, p)
}
} else {
pNew = Xsqlite3Realloc(tls, p, n)
if !(pNew != 0) {
Xsqlite3OomFault(tls, db)
}
}
}
return pNew
}
// Attempt to reallocate p. If the reallocation fails, then free p
// and set the mallocFailed flag in the database connection.
func Xsqlite3DbReallocOrFree(tls *libc.TLS, db uintptr, p uintptr, n U64) uintptr {
var pNew uintptr
pNew = Xsqlite3DbRealloc(tls, db, p, n)
if !(pNew != 0) {
Xsqlite3DbFree(tls, db, p)
}
return pNew
}
// Make a copy of a string in memory obtained from sqliteMalloc(). These
// functions call sqlite3MallocRaw() directly instead of sqliteMalloc(). This
// is because when memory debugging is turned on, these two functions are
// called via macros that record the current file and line number in the
// ThreadData structure.
func Xsqlite3DbStrDup(tls *libc.TLS, db uintptr, z uintptr) uintptr {
var zNew uintptr
var n Size_t
if z == uintptr(0) {
return uintptr(0)
}
n = libc.Xstrlen(tls, z) + uint64(1)
zNew = Xsqlite3DbMallocRaw(tls, db, n)
if zNew != 0 {
libc.X__builtin___memcpy_chk(tls, zNew, z, n, libc.X__builtin_object_size(tls, zNew, 0))
}
return zNew
}
func Xsqlite3DbStrNDup(tls *libc.TLS, db uintptr, z uintptr, n U64) uintptr {
var zNew uintptr
if z != 0 {
zNew = Xsqlite3DbMallocRawNN(tls, db, n+uint64(1))
} else {
zNew = uintptr(0)
}
if zNew != 0 {
libc.X__builtin___memcpy_chk(tls, zNew, z, n, libc.X__builtin_object_size(tls, zNew, 0))
*(*int8)(unsafe.Pointer(zNew + uintptr(n))) = int8(0)
}
return zNew
}
// The text between zStart and zEnd represents a phrase within a larger
// SQL statement. Make a copy of this phrase in space obtained form
// sqlite3DbMalloc(). Omit leading and trailing whitespace.
func Xsqlite3DbSpanDup(tls *libc.TLS, db uintptr, zStart uintptr, zEnd uintptr) uintptr {
var n int32
for int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zStart)))])&0x01 != 0 {
zStart++
}
n = int32((int64(zEnd) - int64(zStart)) / 1)
for int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zStart + uintptr(n-1))))])&0x01 != 0 {
n--
}
return Xsqlite3DbStrNDup(tls, db, zStart, uint64(n))
}
// Free any prior content in *pz and replace it with a copy of zNew.
func Xsqlite3SetString(tls *libc.TLS, pz uintptr, db uintptr, zNew uintptr) {
var z uintptr = Xsqlite3DbStrDup(tls, db, zNew)
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(pz)))
*(*uintptr)(unsafe.Pointer(pz)) = z
}
// Call this routine to record the fact that an OOM (out-of-memory) error
// has happened. This routine will set db->mallocFailed, and also
// temporarily disable the lookaside memory allocator and interrupt
// any running VDBEs.
//
// Always return a NULL pointer so that this routine can be invoked using
//
// return sqlite3OomFault(db);
//
// and thereby avoid unnecessary stack frame allocations for the overwhelmingly
// common case where no OOM occurs.
func Xsqlite3OomFault(tls *libc.TLS, db uintptr) uintptr {
if int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0 && int32((*Sqlite3)(unsafe.Pointer(db)).FbBenignMalloc) == 0 {
(*Sqlite3)(unsafe.Pointer(db)).FmallocFailed = U8(1)
if (*Sqlite3)(unsafe.Pointer(db)).FnVdbeExec > 0 {
*(*int32)(unsafe.Pointer(db + 432)) = 1
}
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable++
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz = U16(0)
if (*Sqlite3)(unsafe.Pointer(db)).FpParse != 0 {
var pParse uintptr
Xsqlite3ErrorMsg(tls, (*Sqlite3)(unsafe.Pointer(db)).FpParse, ts+1483, 0)
(*Parse)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FpParse)).Frc = SQLITE_NOMEM
for pParse = (*Parse)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FpParse)).FpOuterParse; pParse != 0; pParse = (*Parse)(unsafe.Pointer(pParse)).FpOuterParse {
(*Parse)(unsafe.Pointer(pParse)).FnErr++
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_NOMEM
}
}
}
return uintptr(0)
}
// This routine reactivates the memory allocator and clears the
// db->mallocFailed flag as necessary.
//
// The memory allocator is not restarted if there are running
// VDBEs.
func Xsqlite3OomClear(tls *libc.TLS, db uintptr) {
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 && (*Sqlite3)(unsafe.Pointer(db)).FnVdbeExec == 0 {
(*Sqlite3)(unsafe.Pointer(db)).FmallocFailed = U8(0)
*(*int32)(unsafe.Pointer(db + 432)) = 0
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable--
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz = func() uint16 {
if (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable != 0 {
return uint16(0)
}
return (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FszTrue
}()
}
}
func apiHandleError(tls *libc.TLS, db uintptr, rc int32) int32 {
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 || rc == SQLITE_IOERR|int32(12)<<8 {
Xsqlite3OomClear(tls, db)
Xsqlite3Error(tls, db, SQLITE_NOMEM)
return SQLITE_NOMEM
}
return rc & (*Sqlite3)(unsafe.Pointer(db)).FerrMask
}
// This function must be called before exiting any API function (i.e.
// returning control to the user) that has called sqlite3_malloc or
// sqlite3_realloc.
//
// The returned value is normally a copy of the second argument to this
// function. However, if a malloc() failure has occurred since the previous
// invocation SQLITE_NOMEM is returned instead.
//
// If an OOM as occurred, then the connection error-code (the value
// returned by sqlite3_errcode()) is set to SQLITE_NOMEM.
func Xsqlite3ApiExit(tls *libc.TLS, db uintptr, rc int32) int32 {
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 || rc != 0 {
return apiHandleError(tls, db, rc)
}
return rc & (*Sqlite3)(unsafe.Pointer(db)).FerrMask
}
// An "etByte" is an 8-bit unsigned value.
type EtByte = uint8
type et_info = struct {
Ffmttype int8
Fbase EtByte
Fflags EtByte
Ftype EtByte
Fcharset EtByte
Fprefix EtByte
}
// Each builtin conversion character (ex: the 'd' in "%d") is described
// by an instance of the following structure
type Et_info = et_info
var aDigits = *(*[33]int8)(unsafe.Pointer(ts + 1497))
var aPrefix = *(*[7]int8)(unsafe.Pointer(ts + 1530))
var fmtinfo = [23]Et_info{
{Ffmttype: int8('d'), Fbase: EtByte(10), Fflags: EtByte(1), Ftype: EtByte(EtDECIMAL)},
{Ffmttype: int8('s'), Fflags: EtByte(4), Ftype: EtByte(EtSTRING)},
{Ffmttype: int8('g'), Fflags: EtByte(1), Ftype: EtByte(EtGENERIC), Fcharset: EtByte(30)},
{Ffmttype: int8('z'), Fflags: EtByte(4), Ftype: EtByte(EtDYNSTRING)},
{Ffmttype: int8('q'), Fflags: EtByte(4), Ftype: EtByte(EtSQLESCAPE)},
{Ffmttype: int8('Q'), Fflags: EtByte(4), Ftype: EtByte(EtSQLESCAPE2)},
{Ffmttype: int8('w'), Fflags: EtByte(4), Ftype: EtByte(EtSQLESCAPE3)},
{Ffmttype: int8('c'), Ftype: EtByte(EtCHARX)},
{Ffmttype: int8('o'), Fbase: EtByte(8), Fprefix: EtByte(2)},
{Ffmttype: int8('u'), Fbase: EtByte(10), Ftype: EtByte(EtDECIMAL)},
{Ffmttype: int8('x'), Fbase: EtByte(16), Fcharset: EtByte(16), Fprefix: EtByte(1)},
{Ffmttype: int8('X'), Fbase: EtByte(16), Fprefix: EtByte(4)},
{Ffmttype: int8('f'), Fflags: EtByte(1), Ftype: EtByte(EtFLOAT)},
{Ffmttype: int8('e'), Fflags: EtByte(1), Ftype: EtByte(EtEXP), Fcharset: EtByte(30)},
{Ffmttype: int8('E'), Fflags: EtByte(1), Ftype: EtByte(EtEXP), Fcharset: EtByte(14)},
{Ffmttype: int8('G'), Fflags: EtByte(1), Ftype: EtByte(EtGENERIC), Fcharset: EtByte(14)},
{Ffmttype: int8('i'), Fbase: EtByte(10), Fflags: EtByte(1), Ftype: EtByte(EtDECIMAL)},
{Ffmttype: int8('n'), Ftype: EtByte(EtSIZE)},
{Ffmttype: int8('%'), Ftype: EtByte(EtPERCENT)},
{Ffmttype: int8('p'), Fbase: EtByte(16), Ftype: EtByte(EtPOINTER), Fprefix: EtByte(1)},
{Ffmttype: int8('T'), Ftype: EtByte(EtTOKEN)},
{Ffmttype: int8('S'), Ftype: EtByte(EtSRCITEM)},
{Ffmttype: int8('r'), Fbase: EtByte(10), Fflags: EtByte(1), Ftype: EtByte(EtORDINAL)},
}
var arRound = [10]float64{
5.0e-01, 5.0e-02, 5.0e-03, 5.0e-04, 5.0e-05,
5.0e-06, 5.0e-07, 5.0e-08, 5.0e-09, 5.0e-10,
}
func et_getdigit(tls *libc.TLS, val uintptr, cnt uintptr) int8 {
var digit int32
var d float64
if *(*int32)(unsafe.Pointer(cnt)) <= 0 {
return int8('0')
}
*(*int32)(unsafe.Pointer(cnt))--
digit = int32(*(*float64)(unsafe.Pointer(val)))
d = float64(digit)
digit = digit + '0'
*(*float64)(unsafe.Pointer(val)) = (*(*float64)(unsafe.Pointer(val)) - d) * 10.0
return int8(digit)
}
// Set the StrAccum object to an error mode.
func Xsqlite3StrAccumSetError(tls *libc.TLS, p uintptr, eError U8) {
(*StrAccum)(unsafe.Pointer(p)).FaccError = eError
if (*StrAccum)(unsafe.Pointer(p)).FmxAlloc != 0 {
Xsqlite3_str_reset(tls, p)
}
if int32(eError) == SQLITE_TOOBIG {
Xsqlite3ErrorToParser(tls, (*StrAccum)(unsafe.Pointer(p)).Fdb, int32(eError))
}
}
func getIntArg(tls *libc.TLS, p uintptr) Sqlite3_int64 {
if (*PrintfArguments)(unsafe.Pointer(p)).FnArg <= (*PrintfArguments)(unsafe.Pointer(p)).FnUsed {
return int64(0)
}
return Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer((*PrintfArguments)(unsafe.Pointer(p)).FapArg + uintptr(libc.PostIncInt32(&(*PrintfArguments)(unsafe.Pointer(p)).FnUsed, 1))*8)))
}
func getDoubleArg(tls *libc.TLS, p uintptr) float64 {
if (*PrintfArguments)(unsafe.Pointer(p)).FnArg <= (*PrintfArguments)(unsafe.Pointer(p)).FnUsed {
return 0.0
}
return Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer((*PrintfArguments)(unsafe.Pointer(p)).FapArg + uintptr(libc.PostIncInt32(&(*PrintfArguments)(unsafe.Pointer(p)).FnUsed, 1))*8)))
}
func getTextArg(tls *libc.TLS, p uintptr) uintptr {
if (*PrintfArguments)(unsafe.Pointer(p)).FnArg <= (*PrintfArguments)(unsafe.Pointer(p)).FnUsed {
return uintptr(0)
}
return Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer((*PrintfArguments)(unsafe.Pointer(p)).FapArg + uintptr(libc.PostIncInt32(&(*PrintfArguments)(unsafe.Pointer(p)).FnUsed, 1))*8)))
}
func printfTempBuf(tls *libc.TLS, pAccum uintptr, n Sqlite3_int64) uintptr {
var z uintptr
if (*Sqlite3_str)(unsafe.Pointer(pAccum)).FaccError != 0 {
return uintptr(0)
}
if n > Sqlite3_int64((*Sqlite3_str)(unsafe.Pointer(pAccum)).FnAlloc) && n > Sqlite3_int64((*Sqlite3_str)(unsafe.Pointer(pAccum)).FmxAlloc) {
Xsqlite3StrAccumSetError(tls, pAccum, uint8(SQLITE_TOOBIG))
return uintptr(0)
}
z = Xsqlite3DbMallocRaw(tls, (*Sqlite3_str)(unsafe.Pointer(pAccum)).Fdb, uint64(n))
if z == uintptr(0) {
Xsqlite3StrAccumSetError(tls, pAccum, uint8(SQLITE_NOMEM))
}
return z
}
// Render a string given by "fmt" into the StrAccum object.
func Xsqlite3_str_vappendf(tls *libc.TLS, pAccum uintptr, fmt uintptr, ap Va_list) {
bp := tls.Alloc(116)
defer tls.Free(116)
var c int32
var bufpt uintptr
var precision int32
var length int32
var idx int32
var width int32
var flag_leftjustify EtByte
var flag_prefix EtByte
var flag_alternateform EtByte
var flag_altform2 EtByte
var flag_zeropad EtByte
var flag_long EtByte
var done EtByte
var cThousand EtByte
var xtype EtByte
var bArgList U8
var prefix int8
var longvalue Sqlite_uint64
var infop uintptr
var zOut uintptr
var nOut int32
var zExtra uintptr
var exp int32
var e2 int32
var rounder float64
var flag_dp EtByte
var flag_rtz EtByte
var pArgList uintptr
var wx uint32
var px uint32
var v I64
var n U64
var x int32
var cset uintptr
var base U8
var nn int32
var ix int32
var pre uintptr
var x1 int8
var ex int32
var scale float64
var szBufNeeded I64
var i int32
var nPad int32
var ch uint32
var nCopyBytes I64
var nPrior I64
var z uintptr
var ii int32
var i1 I64
var j I64
var k I64
var n1 I64
var needQuote int32
var isnull int32
var ch1 int8
var q int8
var escarg uintptr
var pExpr uintptr
var pToken uintptr
var pSel uintptr
var pItem uintptr
xtype = EtByte(EtINVALID)
zExtra = uintptr(0)
pArgList = uintptr(0)
bufpt = uintptr(0)
if !(int32((*Sqlite3_str)(unsafe.Pointer(pAccum)).FprintfFlags)&SQLITE_PRINTF_SQLFUNC != 0) {
goto __1
}
pArgList = libc.VaUintptr(&ap)
bArgList = U8(1)
goto __2
__1:
bArgList = U8(0)
__2:
;
__3:
if !(libc.AssignInt32(&c, int32(*(*int8)(unsafe.Pointer(fmt)))) != 0) {
goto __5
}
if !(c != '%') {
goto __6
}
bufpt = fmt
__7:
fmt++
goto __8
__8:
if *(*int8)(unsafe.Pointer(fmt)) != 0 && int32(*(*int8)(unsafe.Pointer(fmt))) != '%' {
goto __7
}
goto __9
__9:
;
Xsqlite3_str_append(tls, pAccum, bufpt, int32((int64(fmt)-int64(bufpt))/1))
if !(int32(*(*int8)(unsafe.Pointer(fmt))) == 0) {
goto __10
}
goto __5
__10:
;
__6:
;
if !(libc.AssignInt32(&c, int32(*(*int8)(unsafe.Pointer(libc.PreIncUintptr(&fmt, 1))))) == 0) {
goto __11
}
Xsqlite3_str_append(tls, pAccum, ts+1537, 1)
goto __5
__11:
;
flag_leftjustify = libc.AssignUint8(&flag_prefix, libc.AssignUint8(&cThousand, libc.AssignUint8(&flag_alternateform, libc.AssignUint8(&flag_altform2, libc.AssignUint8(&flag_zeropad, EtByte(0))))))
done = EtByte(0)
width = 0
flag_long = EtByte(0)
precision = -1
__12:
switch c {
case '-':
goto __16
case '+':
goto __17
case ' ':
goto __18
case '#':
goto __19
case '!':
goto __20
case '0':
goto __21
case ',':
goto __22
default:
goto __23
case 'l':
goto __24
case '1':
goto __25
case '2':
goto __26
case '3':
goto __27
case '4':
goto __28
case '5':
goto __29
case '6':
goto __30
case '7':
goto __31
case '8':
goto __32
case '9':
goto __33
case '*':
goto __34
case '.':
goto __35
}
goto __15
__16:
flag_leftjustify = EtByte(1)
goto __15
__17:
flag_prefix = EtByte('+')
goto __15
__18:
flag_prefix = EtByte(' ')
goto __15
__19:
flag_alternateform = EtByte(1)
goto __15
__20:
flag_altform2 = EtByte(1)
goto __15
__21:
flag_zeropad = EtByte(1)
goto __15
__22:
cThousand = EtByte(',')
goto __15
__23:
done = EtByte(1)
goto __15
__24:
flag_long = EtByte(1)
c = int32(*(*int8)(unsafe.Pointer(libc.PreIncUintptr(&fmt, 1))))
if !(c == 'l') {
goto __36
}
c = int32(*(*int8)(unsafe.Pointer(libc.PreIncUintptr(&fmt, 1))))
flag_long = EtByte(2)
__36:
;
done = EtByte(1)
goto __15
__25:
__26:
__27:
__28:
__29:
__30:
__31:
__32:
__33:
wx = uint32(c - '0')
__37:
if !(libc.AssignInt32(&c, int32(*(*int8)(unsafe.Pointer(libc.PreIncUintptr(&fmt, 1))))) >= '0' && c <= '9') {
goto __38
}
wx = wx*uint32(10) + uint32(c) - uint32('0')
goto __37
__38:
;
width = int32(wx & uint32(0x7fffffff))
if !(c != '.' && c != 'l') {
goto __39
}
done = EtByte(1)
goto __40
__39:
fmt--
__40:
;
goto __15
__34:
if !(bArgList != 0) {
goto __41
}
width = int32(getIntArg(tls, pArgList))
goto __42
__41:
width = libc.VaInt32(&ap)
__42:
;
if !(width < 0) {
goto __43
}
flag_leftjustify = EtByte(1)
if width >= -2147483647 {
width = -width
} else {
width = 0
}
__43:
;
if !(libc.AssignInt32(&c, int32(*(*int8)(unsafe.Pointer(fmt + 1)))) != '.' && c != 'l') {
goto __44
}
c = int32(*(*int8)(unsafe.Pointer(libc.PreIncUintptr(&fmt, 1))))
done = EtByte(1)
__44:
;
goto __15
__35:
c = int32(*(*int8)(unsafe.Pointer(libc.PreIncUintptr(&fmt, 1))))
if !(c == '*') {
goto __45
}
if !(bArgList != 0) {
goto __47
}
precision = int32(getIntArg(tls, pArgList))
goto __48
__47:
precision = libc.VaInt32(&ap)
__48:
;
if !(precision < 0) {
goto __49
}
if precision >= -2147483647 {
precision = -precision
} else {
precision = -1
}
__49:
;
c = int32(*(*int8)(unsafe.Pointer(libc.PreIncUintptr(&fmt, 1))))
goto __46
__45:
px = uint32(0)
__50:
if !(c >= '0' && c <= '9') {
goto __51
}
px = px*uint32(10) + uint32(c) - uint32('0')
c = int32(*(*int8)(unsafe.Pointer(libc.PreIncUintptr(&fmt, 1))))
goto __50
__51:
;
precision = int32(px & uint32(0x7fffffff))
__46:
;
if !(c == 'l') {
goto __52
}
fmt--
goto __53
__52:
done = EtByte(1)
__53:
;
goto __15
__15:
;
goto __13
__13:
if !(done != 0) && libc.AssignInt32(&c, int32(*(*int8)(unsafe.Pointer(libc.PreIncUintptr(&fmt, 1))))) != 0 {
goto __12
}
goto __14
__14:
;
infop = uintptr(unsafe.Pointer(&fmtinfo))
xtype = EtByte(EtINVALID)
idx = 0
__54:
if !(idx < int32(uint64(unsafe.Sizeof(fmtinfo))/uint64(unsafe.Sizeof(Et_info{})))) {
goto __56
}
if !(c == int32(fmtinfo[idx].Ffmttype)) {
goto __57
}
infop = uintptr(unsafe.Pointer(&fmtinfo)) + uintptr(idx)*6
xtype = (*Et_info)(unsafe.Pointer(infop)).Ftype
goto __56
__57:
;
goto __55
__55:
idx++
goto __54
goto __56
__56:
;
switch int32(xtype) {
case EtPOINTER:
goto __59
case EtORDINAL:
goto __60
case EtRADIX:
goto __61
case EtDECIMAL:
goto __62
case EtFLOAT:
goto __63
case EtEXP:
goto __64
case EtGENERIC:
goto __65
case EtSIZE:
goto __66
case EtPERCENT:
goto __67
case EtCHARX:
goto __68
case EtSTRING:
goto __69
case EtDYNSTRING:
goto __70
case EtSQLESCAPE:
goto __71
case EtSQLESCAPE2:
goto __72
case EtSQLESCAPE3:
goto __73
case EtTOKEN:
goto __74
case EtSRCITEM:
goto __75
default:
goto __76
}
goto __58
__59:
if uint64(unsafe.Sizeof(uintptr(0))) == uint64(unsafe.Sizeof(I64(0))) {
flag_long = uint8(2)
} else {
if uint64(unsafe.Sizeof(uintptr(0))) == uint64(unsafe.Sizeof(int64(0))) {
flag_long = uint8(1)
} else {
flag_long = uint8(0)
}
}
__60:
__61:
cThousand = EtByte(0)
__62:
if !(int32((*Et_info)(unsafe.Pointer(infop)).Fflags)&FLAG_SIGNED != 0) {
goto __77
}
if !(bArgList != 0) {
goto __79
}
v = getIntArg(tls, pArgList)
goto __80
__79:
if !(flag_long != 0) {
goto __81
}
if !(int32(flag_long) == 2) {
goto __83
}
v = libc.VaInt64(&ap)
goto __84
__83:
v = libc.VaInt64(&ap)
__84:
;
goto __82
__81:
v = I64(libc.VaInt32(&ap))
__82:
;
__80:
;
if !(v < int64(0)) {
goto __85
}
longvalue = Sqlite_uint64(^v)
longvalue++
prefix = int8('-')
goto __86
__85:
longvalue = Sqlite_uint64(v)
prefix = int8(flag_prefix)
__86:
;
goto __78
__77:
if !(bArgList != 0) {
goto __87
}
longvalue = U64(getIntArg(tls, pArgList))
goto __88
__87:
if !(flag_long != 0) {
goto __89
}
if !(int32(flag_long) == 2) {
goto __91
}
longvalue = libc.VaUint64(&ap)
goto __92
__91:
longvalue = libc.VaUint64(&ap)
__92:
;
goto __90
__89:
longvalue = Sqlite_uint64(libc.VaUint32(&ap))
__90:
;
__88:
;
prefix = int8(0)
__78:
;
if !(longvalue == uint64(0)) {
goto __93
}
flag_alternateform = EtByte(0)
__93:
;
if !(flag_zeropad != 0 && precision < width-libc.Bool32(int32(prefix) != 0)) {
goto __94
}
precision = width - libc.Bool32(int32(prefix) != 0)
__94:
;
if !(precision < SQLITE_PRINT_BUF_SIZE-10-SQLITE_PRINT_BUF_SIZE/3) {
goto __95
}
nOut = SQLITE_PRINT_BUF_SIZE
zOut = bp + 16
goto __96
__95:
n = U64(precision) + uint64(10)
if !(cThousand != 0) {
goto __97
}
n = n + U64(precision/3)
__97:
;
zOut = libc.AssignUintptr(&zExtra, printfTempBuf(tls, pAccum, int64(n)))
if !(zOut == uintptr(0)) {
goto __98
}
return
__98:
;
nOut = int32(n)
__96:
;
bufpt = zOut + uintptr(nOut-1)
if !(int32(xtype) == EtORDINAL) {
goto __99
}
x = int32(longvalue % uint64(10))
if !(x >= 4 || longvalue/uint64(10)%uint64(10) == uint64(1)) {
goto __100
}
x = 0
__100:
;
*(*int8)(unsafe.Pointer(libc.PreDecUintptr(&bufpt, 1))) = zOrd[x*2+1]
*(*int8)(unsafe.Pointer(libc.PreDecUintptr(&bufpt, 1))) = zOrd[x*2]
__99:
;
cset = uintptr(unsafe.Pointer(&aDigits)) + uintptr((*Et_info)(unsafe.Pointer(infop)).Fcharset)
base = (*Et_info)(unsafe.Pointer(infop)).Fbase
__101:
*(*int8)(unsafe.Pointer(libc.PreDecUintptr(&bufpt, 1))) = *(*int8)(unsafe.Pointer(cset + uintptr(longvalue%Sqlite_uint64(base))))
longvalue = longvalue / Sqlite_uint64(base)
goto __102
__102:
if longvalue > uint64(0) {
goto __101
}
goto __103
__103:
;
length = int32((int64(zOut+uintptr(nOut-1)) - int64(bufpt)) / 1)
__104:
if !(precision > length) {
goto __105
}
*(*int8)(unsafe.Pointer(libc.PreDecUintptr(&bufpt, 1))) = int8('0')
length++
goto __104
__105:
;
if !(cThousand != 0) {
goto __106
}
nn = (length - 1) / 3
ix = (length-1)%3 + 1
bufpt -= uintptr(nn)
idx = 0
__107:
if !(nn > 0) {
goto __109
}
*(*int8)(unsafe.Pointer(bufpt + uintptr(idx))) = *(*int8)(unsafe.Pointer(bufpt + uintptr(idx+nn)))
ix--
if !(ix == 0) {
goto __110
}
*(*int8)(unsafe.Pointer(bufpt + uintptr(libc.PreIncInt32(&idx, 1)))) = int8(cThousand)
nn--
ix = 3
__110:
;
goto __108
__108:
idx++
goto __107
goto __109
__109:
;
__106:
;
if !(prefix != 0) {
goto __111
}
*(*int8)(unsafe.Pointer(libc.PreDecUintptr(&bufpt, 1))) = prefix
__111:
;
if !(flag_alternateform != 0 && (*Et_info)(unsafe.Pointer(infop)).Fprefix != 0) {
goto __112
}
pre = uintptr(unsafe.Pointer(&aPrefix)) + uintptr((*Et_info)(unsafe.Pointer(infop)).Fprefix)
__113:
if !(int32(libc.AssignInt8(&x1, *(*int8)(unsafe.Pointer(pre)))) != 0) {
goto __115
}
*(*int8)(unsafe.Pointer(libc.PreDecUintptr(&bufpt, 1))) = x1
goto __114
__114:
pre++
goto __113
goto __115
__115:
;
__112:
;
length = int32((int64(zOut+uintptr(nOut-1)) - int64(bufpt)) / 1)
goto __58
__63:
__64:
__65:
if !(bArgList != 0) {
goto __116
}
*(*float64)(unsafe.Pointer(bp + 104)) = getDoubleArg(tls, pArgList)
goto __117
__116:
*(*float64)(unsafe.Pointer(bp + 104)) = libc.VaFloat64(&ap)
__117:
;
if !(precision < 0) {
goto __118
}
precision = 6
__118:
;
if !(precision > SQLITE_FP_PRECISION_LIMIT) {
goto __119
}
precision = SQLITE_FP_PRECISION_LIMIT
__119:
;
if !(*(*float64)(unsafe.Pointer(bp + 104)) < 0.0) {
goto __120
}
*(*float64)(unsafe.Pointer(bp + 104)) = -*(*float64)(unsafe.Pointer(bp + 104))
prefix = int8('-')
goto __121
__120:
prefix = int8(flag_prefix)
__121:
;
if !(int32(xtype) == EtGENERIC && precision > 0) {
goto __122
}
precision--
__122:
;
idx = precision & 0xfff
rounder = arRound[idx%10]
__123:
if !(idx >= 10) {
goto __124
}
rounder = rounder * 1.0e-10
idx = idx - 10
goto __123
__124:
;
if !(int32(xtype) == EtFLOAT) {
goto __125
}
*(*float64)(unsafe.Pointer(bp + 96)) = *(*float64)(unsafe.Pointer(bp + 104))
libc.X__builtin___memcpy_chk(tls, bp+88, bp+96, uint64(unsafe.Sizeof(Sqlite3_uint64(0))), libc.X__builtin_object_size(tls, bp+88, 0))
ex = -1023 + int32(*(*Sqlite3_uint64)(unsafe.Pointer(bp + 88))>>52&uint64(0x7ff))
if !(precision+ex/3 < 15) {
goto __126
}
rounder = rounder + *(*float64)(unsafe.Pointer(bp + 104))*3e-16
__126:
;
*(*float64)(unsafe.Pointer(bp + 104)) += rounder
__125:
;
exp = 0
if !(Xsqlite3IsNaN(tls, *(*float64)(unsafe.Pointer(bp + 104))) != 0) {
goto __127
}
bufpt = ts + 1539
length = 3
goto __58
__127:
;
if !(*(*float64)(unsafe.Pointer(bp + 104)) > 0.0) {
goto __128
}
scale = 1.0
__129:
if !(*(*float64)(unsafe.Pointer(bp + 104)) >= 1e100*scale && exp <= 350) {
goto __130
}
scale = scale * 1e100
exp = exp + 100
goto __129
__130:
;
__131:
if !(*(*float64)(unsafe.Pointer(bp + 104)) >= 1e10*scale && exp <= 350) {
goto __132
}
scale = scale * 1e10
exp = exp + 10
goto __131
__132:
;
__133:
if !(*(*float64)(unsafe.Pointer(bp + 104)) >= 10.0*scale && exp <= 350) {
goto __134
}
scale = scale * 10.0
exp++
goto __133
__134:
;
*(*float64)(unsafe.Pointer(bp + 104)) /= scale
__135:
if !(*(*float64)(unsafe.Pointer(bp + 104)) < 1e-8) {
goto __136
}
*(*float64)(unsafe.Pointer(bp + 104)) *= 1e8
exp = exp - 8
goto __135
__136:
;
__137:
if !(*(*float64)(unsafe.Pointer(bp + 104)) < 1.0) {
goto __138
}
*(*float64)(unsafe.Pointer(bp + 104)) *= 10.0
exp--
goto __137
__138:
;
if !(exp > 350) {
goto __139
}
bufpt = bp + 16
*(*int8)(unsafe.Pointer(bp + 16)) = prefix
libc.X__builtin___memcpy_chk(tls, bp+16+uintptr(libc.Bool32(int32(prefix) != 0)), ts+1543, uint64(4), libc.X__builtin_object_size(tls, bp+16+uintptr(libc.Bool32(int32(prefix) != 0)), 0))
length = 3 + libc.Bool32(int32(prefix) != 0)
goto __58
__139:
;
__128:
;
bufpt = bp + 16
if !(int32(xtype) != EtFLOAT) {
goto __140
}
*(*float64)(unsafe.Pointer(bp + 104)) += rounder
if !(*(*float64)(unsafe.Pointer(bp + 104)) >= 10.0) {
goto __141
}
*(*float64)(unsafe.Pointer(bp + 104)) *= 0.1
exp++
__141:
;
__140:
;
if !(int32(xtype) == EtGENERIC) {
goto __142
}
flag_rtz = libc.BoolUint8(!(flag_alternateform != 0))
if !(exp < -4 || exp > precision) {
goto __144
}
xtype = EtByte(EtEXP)
goto __145
__144:
precision = precision - exp
xtype = EtByte(EtFLOAT)
__145:
;
goto __143
__142:
flag_rtz = flag_altform2
__143:
;
if !(int32(xtype) == EtEXP) {
goto __146
}
e2 = 0
goto __147
__146:
e2 = exp
__147:
;
szBufNeeded = func() int64 {
if e2 > 0 {
return int64(e2)
}
return int64(0)
}() + I64(precision) + I64(width) + int64(15)
if !(szBufNeeded > int64(SQLITE_PRINT_BUF_SIZE)) {
goto __148
}
bufpt = libc.AssignUintptr(&zExtra, printfTempBuf(tls, pAccum, szBufNeeded))
if !(bufpt == uintptr(0)) {
goto __149
}
return
__149:
;
__148:
;
zOut = bufpt
*(*int32)(unsafe.Pointer(bp + 112)) = 16 + int32(flag_altform2)*10
flag_dp = EtByte(func() int32 {
if precision > 0 {
return 1
}
return 0
}() | int32(flag_alternateform) | int32(flag_altform2))
if !(prefix != 0) {
goto __150
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1))) = prefix
__150:
;
if !(e2 < 0) {
goto __151
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1))) = int8('0')
goto __152
__151:
;
__153:
if !(e2 >= 0) {
goto __155
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1))) = et_getdigit(tls, bp+104, bp+112)
goto __154
__154:
e2--
goto __153
goto __155
__155:
;
__152:
;
if !(flag_dp != 0) {
goto __156
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1))) = int8('.')
__156:
;
e2++
__157:
if !(e2 < 0) {
goto __159
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1))) = int8('0')
goto __158
__158:
precision--
e2++
goto __157
goto __159
__159:
;
__160:
if !(libc.PostDecInt32(&precision, 1) > 0) {
goto __161
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1))) = et_getdigit(tls, bp+104, bp+112)
goto __160
__161:
;
if !(flag_rtz != 0 && flag_dp != 0) {
goto __162
}
__163:
if !(int32(*(*int8)(unsafe.Pointer(bufpt + libc.UintptrFromInt32(-1)))) == '0') {
goto __164
}
*(*int8)(unsafe.Pointer(libc.PreDecUintptr(&bufpt, 1))) = int8(0)
goto __163
__164:
;
if !(int32(*(*int8)(unsafe.Pointer(bufpt + libc.UintptrFromInt32(-1)))) == '.') {
goto __165
}
if !(flag_altform2 != 0) {
goto __166
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1))) = int8('0')
goto __167
__166:
*(*int8)(unsafe.Pointer(libc.PreDecUintptr(&bufpt, 1))) = int8(0)
__167:
;
__165:
;
__162:
;
if !(int32(xtype) == EtEXP) {
goto __168
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1))) = aDigits[(*Et_info)(unsafe.Pointer(infop)).Fcharset]
if !(exp < 0) {
goto __169
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1))) = int8('-')
exp = -exp
goto __170
__169:
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1))) = int8('+')
__170:
;
if !(exp >= 100) {
goto __171
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1))) = int8(exp/100 + '0')
exp = exp % 100
__171:
;
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1))) = int8(exp/10 + '0')
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1))) = int8(exp%10 + '0')
__168:
;
*(*int8)(unsafe.Pointer(bufpt)) = int8(0)
length = int32((int64(bufpt) - int64(zOut)) / 1)
bufpt = zOut
if !(flag_zeropad != 0 && !(flag_leftjustify != 0) && length < width) {
goto __172
}
nPad = width - length
i = width
__173:
if !(i >= nPad) {
goto __175
}
*(*int8)(unsafe.Pointer(bufpt + uintptr(i))) = *(*int8)(unsafe.Pointer(bufpt + uintptr(i-nPad)))
goto __174
__174:
i--
goto __173
goto __175
__175:
;
i = libc.Bool32(int32(prefix) != 0)
__176:
if !(libc.PostDecInt32(&nPad, 1) != 0) {
goto __177
}
*(*int8)(unsafe.Pointer(bufpt + uintptr(libc.PostIncInt32(&i, 1)))) = int8('0')
goto __176
__177:
;
length = width
__172:
;
goto __58
__66:
if !!(bArgList != 0) {
goto __178
}
*(*int32)(unsafe.Pointer(libc.VaUintptr(&ap))) = int32((*Sqlite3_str)(unsafe.Pointer(pAccum)).FnChar)
__178:
;
length = libc.AssignInt32(&width, 0)
goto __58
__67:
*(*int8)(unsafe.Pointer(bp + 16)) = int8('%')
bufpt = bp + 16
length = 1
goto __58
__68:
if !(bArgList != 0) {
goto __179
}
bufpt = getTextArg(tls, pArgList)
length = 1
if !(bufpt != 0) {
goto __181
}
*(*int8)(unsafe.Pointer(bp + 16)) = int8(libc.AssignInt32(&c, int32(*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1))))))
if !(c&0xc0 == 0xc0) {
goto __183
}
__184:
if !(length < 4 && int32(*(*int8)(unsafe.Pointer(bufpt)))&0xc0 == 0x80) {
goto __185
}
*(*int8)(unsafe.Pointer(bp + 16 + uintptr(libc.PostIncInt32(&length, 1)))) = *(*int8)(unsafe.Pointer(libc.PostIncUintptr(&bufpt, 1)))
goto __184
__185:
;
__183:
;
goto __182
__181:
*(*int8)(unsafe.Pointer(bp + 16)) = int8(0)
__182:
;
goto __180
__179:
ch = libc.VaUint32(&ap)
if !(ch < uint32(0x00080)) {
goto __186
}
*(*int8)(unsafe.Pointer(bp + 16)) = int8(ch & uint32(0xff))
length = 1
goto __187
__186:
if !(ch < uint32(0x00800)) {
goto __188
}
*(*int8)(unsafe.Pointer(bp + 16)) = int8(0xc0 + int32(U8(ch>>6&uint32(0x1f))))
*(*int8)(unsafe.Pointer(bp + 16 + 1)) = int8(0x80 + int32(U8(ch&uint32(0x3f))))
length = 2
goto __189
__188:
if !(ch < uint32(0x10000)) {
goto __190
}
*(*int8)(unsafe.Pointer(bp + 16)) = int8(0xe0 + int32(U8(ch>>12&uint32(0x0f))))
*(*int8)(unsafe.Pointer(bp + 16 + 1)) = int8(0x80 + int32(U8(ch>>6&uint32(0x3f))))
*(*int8)(unsafe.Pointer(bp + 16 + 2)) = int8(0x80 + int32(U8(ch&uint32(0x3f))))
length = 3
goto __191
__190:
*(*int8)(unsafe.Pointer(bp + 16)) = int8(0xf0 + int32(U8(ch>>18&uint32(0x07))))
*(*int8)(unsafe.Pointer(bp + 16 + 1)) = int8(0x80 + int32(U8(ch>>12&uint32(0x3f))))
*(*int8)(unsafe.Pointer(bp + 16 + 2)) = int8(0x80 + int32(U8(ch>>6&uint32(0x3f))))
*(*int8)(unsafe.Pointer(bp + 16 + 3)) = int8(0x80 + int32(U8(ch&uint32(0x3f))))
length = 4
__191:
;
__189:
;
__187:
;
__180:
;
if !(precision > 1) {
goto __192
}
nPrior = int64(1)
width = width - (precision - 1)
if !(width > 1 && !(flag_leftjustify != 0)) {
goto __193
}
Xsqlite3_str_appendchar(tls, pAccum, width-1, int8(' '))
width = 0
__193:
;
Xsqlite3_str_append(tls, pAccum, bp+16, length)
precision--
__194:
if !(precision > 1) {
goto __195
}
if !(nPrior > I64(precision-1)) {
goto __196
}
nPrior = I64(precision - 1)
__196:
;
nCopyBytes = I64(length) * nPrior
if !(nCopyBytes+I64((*Sqlite3_str)(unsafe.Pointer(pAccum)).FnChar) >= I64((*Sqlite3_str)(unsafe.Pointer(pAccum)).FnAlloc)) {
goto __197
}
Xsqlite3StrAccumEnlarge(tls, pAccum, nCopyBytes)
__197:
;
if !((*Sqlite3_str)(unsafe.Pointer(pAccum)).FaccError != 0) {
goto __198
}
goto __195
__198:
;
Xsqlite3_str_append(tls, pAccum,
(*Sqlite3_str)(unsafe.Pointer(pAccum)).FzText+uintptr(I64((*Sqlite3_str)(unsafe.Pointer(pAccum)).FnChar)-nCopyBytes), int32(nCopyBytes))
precision = int32(I64(precision) - nPrior)
nPrior = nPrior * int64(2)
goto __194
__195:
;
__192:
;
bufpt = bp + 16
flag_altform2 = EtByte(1)
goto adjust_width_for_utf8
__69:
__70:
if !(bArgList != 0) {
goto __199
}
bufpt = getTextArg(tls, pArgList)
xtype = EtByte(EtSTRING)
goto __200
__199:
bufpt = libc.VaUintptr(&ap)
__200:
;
if !(bufpt == uintptr(0)) {
goto __201
}
bufpt = ts + 1547
goto __202
__201:
if !(int32(xtype) == EtDYNSTRING) {
goto __203
}
if !((*Sqlite3_str)(unsafe.Pointer(pAccum)).FnChar == U32(0) &&
(*Sqlite3_str)(unsafe.Pointer(pAccum)).FmxAlloc != 0 &&
width == 0 &&
precision < 0 &&
int32((*Sqlite3_str)(unsafe.Pointer(pAccum)).FaccError) == 0) {
goto __204
}
(*Sqlite3_str)(unsafe.Pointer(pAccum)).FzText = bufpt
(*Sqlite3_str)(unsafe.Pointer(pAccum)).FnAlloc = U32(Xsqlite3DbMallocSize(tls, (*Sqlite3_str)(unsafe.Pointer(pAccum)).Fdb, bufpt))
(*Sqlite3_str)(unsafe.Pointer(pAccum)).FnChar = U32(0x7fffffff & int32(libc.Xstrlen(tls, bufpt)))
*(*U8)(unsafe.Pointer(pAccum + 29)) |= U8(SQLITE_PRINTF_MALLOCED)
length = 0
goto __58
__204:
;
zExtra = bufpt
__203:
;
__202:
;
if !(precision >= 0) {
goto __205
}
if !(flag_altform2 != 0) {
goto __207
}
z = bufpt
__209:
if !(libc.PostDecInt32(&precision, 1) > 0 && *(*uint8)(unsafe.Pointer(z)) != 0) {
goto __210
}
if !(int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1)))) >= 0xc0) {
goto __211
}
__212:
if !(int32(*(*uint8)(unsafe.Pointer(z)))&0xc0 == 0x80) {
goto __213
}
z++
goto __212
__213:
;
__211:
;
goto __209
__210:
;
length = int32((int64(z) - int64(bufpt)) / 1)
goto __208
__207:
length = 0
__214:
if !(length < precision && *(*int8)(unsafe.Pointer(bufpt + uintptr(length))) != 0) {
goto __216
}
goto __215
__215:
length++
goto __214
goto __216
__216:
;
__208:
;
goto __206
__205:
length = 0x7fffffff & int32(libc.Xstrlen(tls, bufpt))
__206:
;
adjust_width_for_utf8:
if !(flag_altform2 != 0 && width > 0) {
goto __217
}
ii = length - 1
__218:
if !(ii >= 0) {
goto __219
}
if !(int32(*(*int8)(unsafe.Pointer(bufpt + uintptr(libc.PostDecInt32(&ii, 1)))))&0xc0 == 0x80) {
goto __220
}
width++
__220:
;
goto __218
__219:
;
__217:
;
goto __58
__71:
__72:
__73:
q = func() int8 {
if int32(xtype) == EtSQLESCAPE3 {
return int8('"')
}
return int8('\'')
}()
if !(bArgList != 0) {
goto __221
}
escarg = getTextArg(tls, pArgList)
goto __222
__221:
escarg = libc.VaUintptr(&ap)
__222:
;
isnull = libc.Bool32(escarg == uintptr(0))
if !(isnull != 0) {
goto __223
}
escarg = func() uintptr {
if int32(xtype) == EtSQLESCAPE2 {
return ts + 1548
}
return ts + 1553
}()
__223:
;
k = I64(precision)
i1 = libc.AssignInt64(&n1, int64(0))
__224:
if !(k != int64(0) && int32(libc.AssignInt8(&ch1, *(*int8)(unsafe.Pointer(escarg + uintptr(i1))))) != 0) {
goto __226
}
if !(int32(ch1) == int32(q)) {
goto __227
}
n1++
__227:
;
if !(flag_altform2 != 0 && int32(ch1)&0xc0 == 0xc0) {
goto __228
}
__229:
if !(int32(*(*int8)(unsafe.Pointer(escarg + uintptr(i1+int64(1)))))&0xc0 == 0x80) {
goto __230
}
i1++
goto __229
__230:
;
__228:
;
goto __225
__225:
i1++
k--
goto __224
goto __226
__226:
;
needQuote = libc.Bool32(!(isnull != 0) && int32(xtype) == EtSQLESCAPE2)
n1 = n1 + (i1 + int64(3))
if !(n1 > int64(SQLITE_PRINT_BUF_SIZE)) {
goto __231
}
bufpt = libc.AssignUintptr(&zExtra, printfTempBuf(tls, pAccum, n1))
if !(bufpt == uintptr(0)) {
goto __233
}
return
__233:
;
goto __232
__231:
bufpt = bp + 16
__232:
;
j = int64(0)
if !(needQuote != 0) {
goto __234
}
*(*int8)(unsafe.Pointer(bufpt + uintptr(libc.PostIncInt64(&j, 1)))) = q
__234:
;
k = i1
i1 = int64(0)
__235:
if !(i1 < k) {
goto __237
}
*(*int8)(unsafe.Pointer(bufpt + uintptr(libc.PostIncInt64(&j, 1)))) = libc.AssignInt8(&ch1, *(*int8)(unsafe.Pointer(escarg + uintptr(i1))))
if !(int32(ch1) == int32(q)) {
goto __238
}
*(*int8)(unsafe.Pointer(bufpt + uintptr(libc.PostIncInt64(&j, 1)))) = ch1
__238:
;
goto __236
__236:
i1++
goto __235
goto __237
__237:
;
if !(needQuote != 0) {
goto __239
}
*(*int8)(unsafe.Pointer(bufpt + uintptr(libc.PostIncInt64(&j, 1)))) = q
__239:
;
*(*int8)(unsafe.Pointer(bufpt + uintptr(j))) = int8(0)
length = int32(j)
goto adjust_width_for_utf8
__74:
if !(int32((*Sqlite3_str)(unsafe.Pointer(pAccum)).FprintfFlags)&SQLITE_PRINTF_INTERNAL == 0) {
goto __240
}
return
__240:
;
if !(flag_alternateform != 0) {
goto __241
}
pExpr = libc.VaUintptr(&ap)
if !(pExpr != 0 && !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_IntValue) != U32(0))) {
goto __243
}
Xsqlite3_str_appendall(tls, pAccum, *(*uintptr)(unsafe.Pointer(pExpr + 8)))
Xsqlite3RecordErrorOffsetOfExpr(tls, (*Sqlite3_str)(unsafe.Pointer(pAccum)).Fdb, pExpr)
__243:
;
goto __242
__241:
pToken = libc.VaUintptr(&ap)
if !(pToken != 0 && (*Token)(unsafe.Pointer(pToken)).Fn != 0) {
goto __244
}
Xsqlite3_str_append(tls, pAccum, (*Token)(unsafe.Pointer(pToken)).Fz, int32((*Token)(unsafe.Pointer(pToken)).Fn))
Xsqlite3RecordErrorByteOffset(tls, (*Sqlite3_str)(unsafe.Pointer(pAccum)).Fdb, (*Token)(unsafe.Pointer(pToken)).Fz)
__244:
;
__242:
;
length = libc.AssignInt32(&width, 0)
goto __58
__75:
if !(int32((*Sqlite3_str)(unsafe.Pointer(pAccum)).FprintfFlags)&SQLITE_PRINTF_INTERNAL == 0) {
goto __245
}
return
__245:
;
pItem = libc.VaUintptr(&ap)
if !((*SrcItem)(unsafe.Pointer(pItem)).FzAlias != 0 && !(flag_altform2 != 0)) {
goto __246
}
Xsqlite3_str_appendall(tls, pAccum, (*SrcItem)(unsafe.Pointer(pItem)).FzAlias)
goto __247
__246:
if !((*SrcItem)(unsafe.Pointer(pItem)).FzName != 0) {
goto __248
}
if !((*SrcItem)(unsafe.Pointer(pItem)).FzDatabase != 0) {
goto __250
}
Xsqlite3_str_appendall(tls, pAccum, (*SrcItem)(unsafe.Pointer(pItem)).FzDatabase)
Xsqlite3_str_append(tls, pAccum, ts+1560, 1)
__250:
;
Xsqlite3_str_appendall(tls, pAccum, (*SrcItem)(unsafe.Pointer(pItem)).FzName)
goto __249
__248:
if !((*SrcItem)(unsafe.Pointer(pItem)).FzAlias != 0) {
goto __251
}
Xsqlite3_str_appendall(tls, pAccum, (*SrcItem)(unsafe.Pointer(pItem)).FzAlias)
goto __252
__251:
pSel = (*SrcItem)(unsafe.Pointer(pItem)).FpSelect
if !((*Select)(unsafe.Pointer(pSel)).FselFlags&U32(SF_NestedFrom) != 0) {
goto __253
}
Xsqlite3_str_appendf(tls, pAccum, ts+1562, libc.VaList(bp, (*Select)(unsafe.Pointer(pSel)).FselId))
goto __254
__253:
Xsqlite3_str_appendf(tls, pAccum, ts+1572, libc.VaList(bp+8, (*Select)(unsafe.Pointer(pSel)).FselId))
__254:
;
__252:
;
__249:
;
__247:
;
length = libc.AssignInt32(&width, 0)
goto __58
__76:
;
return
__58:
;
width = width - length
if !(width > 0) {
goto __255
}
if !!(flag_leftjustify != 0) {
goto __257
}
Xsqlite3_str_appendchar(tls, pAccum, width, int8(' '))
__257:
;
Xsqlite3_str_append(tls, pAccum, bufpt, length)
if !(flag_leftjustify != 0) {
goto __258
}
Xsqlite3_str_appendchar(tls, pAccum, width, int8(' '))
__258:
;
goto __256
__255:
Xsqlite3_str_append(tls, pAccum, bufpt, length)
__256:
;
if !(zExtra != 0) {
goto __259
}
Xsqlite3DbFree(tls, (*Sqlite3_str)(unsafe.Pointer(pAccum)).Fdb, zExtra)
zExtra = uintptr(0)
__259:
;
goto __4
__4:
fmt++
goto __3
goto __5
__5:
}
var zOrd = *(*[9]int8)(unsafe.Pointer(ts + 1586))
// The z string points to the first character of a token that is
// associated with an error. If db does not already have an error
// byte offset recorded, try to compute the error byte offset for
// z and set the error byte offset in db.
func Xsqlite3RecordErrorByteOffset(tls *libc.TLS, db uintptr, z uintptr) {
var pParse uintptr
var zText uintptr
var zEnd uintptr
if db == uintptr(0) {
return
}
if (*Sqlite3)(unsafe.Pointer(db)).FerrByteOffset != -2 {
return
}
pParse = (*Sqlite3)(unsafe.Pointer(db)).FpParse
if pParse == uintptr(0) {
return
}
zText = (*Parse)(unsafe.Pointer(pParse)).FzTail
if zText == uintptr(0) {
return
}
zEnd = zText + uintptr(libc.Xstrlen(tls, zText))
if Uptr(z) >= Uptr(zText) && Uptr(z) < Uptr(zEnd) {
(*Sqlite3)(unsafe.Pointer(db)).FerrByteOffset = int32((int64(z) - int64(zText)) / 1)
}
}
// If pExpr has a byte offset for the start of a token, record that as
// as the error offset.
func Xsqlite3RecordErrorOffsetOfExpr(tls *libc.TLS, db uintptr, pExpr uintptr) {
for pExpr != 0 &&
((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON|EP_InnerON) != U32(0) || *(*int32)(unsafe.Pointer(pExpr + 52)) <= 0) {
pExpr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
}
if pExpr == uintptr(0) {
return
}
(*Sqlite3)(unsafe.Pointer(db)).FerrByteOffset = *(*int32)(unsafe.Pointer(pExpr + 52))
}
// Enlarge the memory allocation on a StrAccum object so that it is
// able to accept at least N more bytes of text.
//
// Return the number of bytes of text that StrAccum is able to accept
// after the attempted enlargement. The value returned might be zero.
func Xsqlite3StrAccumEnlarge(tls *libc.TLS, p uintptr, N I64) int32 {
var zNew uintptr
if (*StrAccum)(unsafe.Pointer(p)).FaccError != 0 {
return 0
}
if (*StrAccum)(unsafe.Pointer(p)).FmxAlloc == U32(0) {
Xsqlite3StrAccumSetError(tls, p, uint8(SQLITE_TOOBIG))
return int32((*StrAccum)(unsafe.Pointer(p)).FnAlloc - (*StrAccum)(unsafe.Pointer(p)).FnChar - U32(1))
} else {
var zOld uintptr
if int32((*StrAccum)(unsafe.Pointer(p)).FprintfFlags)&SQLITE_PRINTF_MALLOCED != 0 {
zOld = (*StrAccum)(unsafe.Pointer(p)).FzText
} else {
zOld = uintptr(0)
}
var szNew I64 = I64((*StrAccum)(unsafe.Pointer(p)).FnChar) + N + int64(1)
if szNew+I64((*StrAccum)(unsafe.Pointer(p)).FnChar) <= I64((*StrAccum)(unsafe.Pointer(p)).FmxAlloc) {
szNew = szNew + I64((*StrAccum)(unsafe.Pointer(p)).FnChar)
}
if szNew > I64((*StrAccum)(unsafe.Pointer(p)).FmxAlloc) {
Xsqlite3_str_reset(tls, p)
Xsqlite3StrAccumSetError(tls, p, uint8(SQLITE_TOOBIG))
return 0
} else {
(*StrAccum)(unsafe.Pointer(p)).FnAlloc = U32(int32(szNew))
}
if (*StrAccum)(unsafe.Pointer(p)).Fdb != 0 {
zNew = Xsqlite3DbRealloc(tls, (*StrAccum)(unsafe.Pointer(p)).Fdb, zOld, uint64((*StrAccum)(unsafe.Pointer(p)).FnAlloc))
} else {
zNew = Xsqlite3Realloc(tls, zOld, uint64((*StrAccum)(unsafe.Pointer(p)).FnAlloc))
}
if zNew != 0 {
if !(int32((*StrAccum)(unsafe.Pointer(p)).FprintfFlags)&SQLITE_PRINTF_MALLOCED != 0) && (*StrAccum)(unsafe.Pointer(p)).FnChar > U32(0) {
libc.X__builtin___memcpy_chk(tls, zNew, (*StrAccum)(unsafe.Pointer(p)).FzText, uint64((*StrAccum)(unsafe.Pointer(p)).FnChar), libc.X__builtin_object_size(tls, zNew, 0))
}
(*StrAccum)(unsafe.Pointer(p)).FzText = zNew
(*StrAccum)(unsafe.Pointer(p)).FnAlloc = U32(Xsqlite3DbMallocSize(tls, (*StrAccum)(unsafe.Pointer(p)).Fdb, zNew))
*(*U8)(unsafe.Pointer(p + 29)) |= U8(SQLITE_PRINTF_MALLOCED)
} else {
Xsqlite3_str_reset(tls, p)
Xsqlite3StrAccumSetError(tls, p, uint8(SQLITE_NOMEM))
return 0
}
}
return int32(N)
}
// Append N copies of character c to the given string buffer.
func Xsqlite3_str_appendchar(tls *libc.TLS, p uintptr, N int32, c int8) {
if I64((*Sqlite3_str)(unsafe.Pointer(p)).FnChar)+I64(N) >= I64((*Sqlite3_str)(unsafe.Pointer(p)).FnAlloc) && libc.AssignInt32(&N, Xsqlite3StrAccumEnlarge(tls, p, int64(N))) <= 0 {
return
}
for libc.PostDecInt32(&N, 1) > 0 {
*(*int8)(unsafe.Pointer((*Sqlite3_str)(unsafe.Pointer(p)).FzText + uintptr(libc.PostIncUint32(&(*Sqlite3_str)(unsafe.Pointer(p)).FnChar, 1)))) = c
}
}
func enlargeAndAppend(tls *libc.TLS, p uintptr, z uintptr, N int32) {
N = Xsqlite3StrAccumEnlarge(tls, p, int64(N))
if N > 0 {
libc.X__builtin___memcpy_chk(tls, (*StrAccum)(unsafe.Pointer(p)).FzText+uintptr((*StrAccum)(unsafe.Pointer(p)).FnChar), z, uint64(N), libc.X__builtin_object_size(tls, (*StrAccum)(unsafe.Pointer(p)).FzText+uintptr((*StrAccum)(unsafe.Pointer(p)).FnChar), 0))
*(*U32)(unsafe.Pointer(p + 24)) += U32(N)
}
}
// Append N bytes of text from z to the StrAccum object. Increase the
// size of the memory allocation for StrAccum if necessary.
func Xsqlite3_str_append(tls *libc.TLS, p uintptr, z uintptr, N int32) {
if (*Sqlite3_str)(unsafe.Pointer(p)).FnChar+U32(N) >= (*Sqlite3_str)(unsafe.Pointer(p)).FnAlloc {
enlargeAndAppend(tls, p, z, N)
} else if N != 0 {
*(*U32)(unsafe.Pointer(p + 24)) += U32(N)
libc.X__builtin___memcpy_chk(tls, (*Sqlite3_str)(unsafe.Pointer(p)).FzText+uintptr((*Sqlite3_str)(unsafe.Pointer(p)).FnChar-U32(N)), z, uint64(N), libc.X__builtin_object_size(tls, (*Sqlite3_str)(unsafe.Pointer(p)).FzText+uintptr((*Sqlite3_str)(unsafe.Pointer(p)).FnChar-U32(N)), 0))
}
}
// Append the complete text of zero-terminated string z[] to the p string.
func Xsqlite3_str_appendall(tls *libc.TLS, p uintptr, z uintptr) {
Xsqlite3_str_append(tls, p, z, Xsqlite3Strlen30(tls, z))
}
func strAccumFinishRealloc(tls *libc.TLS, p uintptr) uintptr {
var zText uintptr
zText = Xsqlite3DbMallocRaw(tls, (*StrAccum)(unsafe.Pointer(p)).Fdb, uint64((*StrAccum)(unsafe.Pointer(p)).FnChar+U32(1)))
if zText != 0 {
libc.X__builtin___memcpy_chk(tls, zText, (*StrAccum)(unsafe.Pointer(p)).FzText, uint64((*StrAccum)(unsafe.Pointer(p)).FnChar+U32(1)), libc.X__builtin_object_size(tls, zText, 0))
*(*U8)(unsafe.Pointer(p + 29)) |= U8(SQLITE_PRINTF_MALLOCED)
} else {
Xsqlite3StrAccumSetError(tls, p, uint8(SQLITE_NOMEM))
}
(*StrAccum)(unsafe.Pointer(p)).FzText = zText
return zText
}
func Xsqlite3StrAccumFinish(tls *libc.TLS, p uintptr) uintptr {
if (*StrAccum)(unsafe.Pointer(p)).FzText != 0 {
*(*int8)(unsafe.Pointer((*StrAccum)(unsafe.Pointer(p)).FzText + uintptr((*StrAccum)(unsafe.Pointer(p)).FnChar))) = int8(0)
if (*StrAccum)(unsafe.Pointer(p)).FmxAlloc > U32(0) && !(int32((*StrAccum)(unsafe.Pointer(p)).FprintfFlags)&SQLITE_PRINTF_MALLOCED != 0) {
return strAccumFinishRealloc(tls, p)
}
}
return (*StrAccum)(unsafe.Pointer(p)).FzText
}
// Use the content of the StrAccum passed as the second argument
// as the result of an SQL function.
func Xsqlite3ResultStrAccum(tls *libc.TLS, pCtx uintptr, p uintptr) {
if (*StrAccum)(unsafe.Pointer(p)).FaccError != 0 {
Xsqlite3_result_error_code(tls, pCtx, int32((*StrAccum)(unsafe.Pointer(p)).FaccError))
Xsqlite3_str_reset(tls, p)
} else if int32((*StrAccum)(unsafe.Pointer(p)).FprintfFlags)&SQLITE_PRINTF_MALLOCED != 0 {
Xsqlite3_result_text(tls, pCtx, (*StrAccum)(unsafe.Pointer(p)).FzText, int32((*StrAccum)(unsafe.Pointer(p)).FnChar), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3OomClear})))
} else {
Xsqlite3_result_text(tls, pCtx, ts+1547, 0, uintptr(0))
Xsqlite3_str_reset(tls, p)
}
}
var sqlite3OomStr = Sqlite3_str{FaccError: U8(SQLITE_NOMEM)}
// Finalize a string created using sqlite3_str_new().
func Xsqlite3_str_finish(tls *libc.TLS, p uintptr) uintptr {
var z uintptr
if p != uintptr(0) && p != uintptr(unsafe.Pointer(&sqlite3OomStr)) {
z = Xsqlite3StrAccumFinish(tls, p)
Xsqlite3_free(tls, p)
} else {
z = uintptr(0)
}
return z
}
// Return any error code associated with p
func Xsqlite3_str_errcode(tls *libc.TLS, p uintptr) int32 {
if p != 0 {
return int32((*Sqlite3_str)(unsafe.Pointer(p)).FaccError)
}
return SQLITE_NOMEM
}
// Return the current length of p in bytes
func Xsqlite3_str_length(tls *libc.TLS, p uintptr) int32 {
if p != 0 {
return int32((*Sqlite3_str)(unsafe.Pointer(p)).FnChar)
}
return 0
}
// Return the current value for p
func Xsqlite3_str_value(tls *libc.TLS, p uintptr) uintptr {
if p == uintptr(0) || (*Sqlite3_str)(unsafe.Pointer(p)).FnChar == U32(0) {
return uintptr(0)
}
*(*int8)(unsafe.Pointer((*Sqlite3_str)(unsafe.Pointer(p)).FzText + uintptr((*Sqlite3_str)(unsafe.Pointer(p)).FnChar))) = int8(0)
return (*Sqlite3_str)(unsafe.Pointer(p)).FzText
}
// Reset an StrAccum string. Reclaim all malloced memory.
func Xsqlite3_str_reset(tls *libc.TLS, p uintptr) {
if int32((*StrAccum)(unsafe.Pointer(p)).FprintfFlags)&SQLITE_PRINTF_MALLOCED != 0 {
Xsqlite3DbFree(tls, (*StrAccum)(unsafe.Pointer(p)).Fdb, (*StrAccum)(unsafe.Pointer(p)).FzText)
*(*U8)(unsafe.Pointer(p + 29)) &= libc.Uint8FromInt32(libc.CplInt32(SQLITE_PRINTF_MALLOCED))
}
(*StrAccum)(unsafe.Pointer(p)).FnAlloc = U32(0)
(*StrAccum)(unsafe.Pointer(p)).FnChar = U32(0)
(*StrAccum)(unsafe.Pointer(p)).FzText = uintptr(0)
}
// Initialize a string accumulator.
//
// p: The accumulator to be initialized.
// db: Pointer to a database connection. May be NULL. Lookaside
//
// memory is used if not NULL. db->mallocFailed is set appropriately
// when not NULL.
//
// zBase: An initial buffer. May be NULL in which case the initial buffer
//
// is malloced.
//
// n: Size of zBase in bytes. If total space requirements never exceed
//
// n then no memory allocations ever occur.
//
// mx: Maximum number of bytes to accumulate. If mx==0 then no memory
//
// allocations will ever occur.
func Xsqlite3StrAccumInit(tls *libc.TLS, p uintptr, db uintptr, zBase uintptr, n int32, mx int32) {
(*StrAccum)(unsafe.Pointer(p)).FzText = zBase
(*StrAccum)(unsafe.Pointer(p)).Fdb = db
(*StrAccum)(unsafe.Pointer(p)).FnAlloc = U32(n)
(*StrAccum)(unsafe.Pointer(p)).FmxAlloc = U32(mx)
(*StrAccum)(unsafe.Pointer(p)).FnChar = U32(0)
(*StrAccum)(unsafe.Pointer(p)).FaccError = U8(0)
(*StrAccum)(unsafe.Pointer(p)).FprintfFlags = U8(0)
}
// Allocate and initialize a new dynamic string object
func Xsqlite3_str_new(tls *libc.TLS, db uintptr) uintptr {
var p uintptr = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(Sqlite3_str{})))
if p != 0 {
Xsqlite3StrAccumInit(tls, p, uintptr(0), uintptr(0), 0,
func() int32 {
if db != 0 {
return *(*int32)(unsafe.Pointer(db + 136))
}
return SQLITE_MAX_LENGTH
}())
} else {
p = uintptr(unsafe.Pointer(&sqlite3OomStr))
}
return p
}
// Print into memory obtained from sqliteMalloc(). Use the internal
// %-conversion extensions.
func Xsqlite3VMPrintf(tls *libc.TLS, db uintptr, zFormat uintptr, ap Va_list) uintptr {
bp := tls.Alloc(102)
defer tls.Free(102)
var z uintptr
Xsqlite3StrAccumInit(tls, bp, db, bp+32, int32(unsafe.Sizeof([70]int8{})),
*(*int32)(unsafe.Pointer(db + 136)))
(*StrAccum)(unsafe.Pointer(bp)).FprintfFlags = U8(SQLITE_PRINTF_INTERNAL)
Xsqlite3_str_vappendf(tls, bp, zFormat, ap)
z = Xsqlite3StrAccumFinish(tls, bp)
if int32((*StrAccum)(unsafe.Pointer(bp)).FaccError) == SQLITE_NOMEM {
Xsqlite3OomFault(tls, db)
}
return z
}
// Print into memory obtained from sqliteMalloc(). Use the internal
// %-conversion extensions.
func Xsqlite3MPrintf(tls *libc.TLS, db uintptr, zFormat uintptr, va uintptr) uintptr {
var ap Va_list
_ = ap
var z uintptr
ap = va
z = Xsqlite3VMPrintf(tls, db, zFormat, ap)
_ = ap
return z
}
// Print into memory obtained from sqlite3_malloc(). Omit the internal
// %-conversion extensions.
func Xsqlite3_vmprintf(tls *libc.TLS, zFormat uintptr, ap Va_list) uintptr {
bp := tls.Alloc(102)
defer tls.Free(102)
var z uintptr
if Xsqlite3_initialize(tls) != 0 {
return uintptr(0)
}
Xsqlite3StrAccumInit(tls, bp, uintptr(0), bp+32, int32(unsafe.Sizeof([70]int8{})), SQLITE_MAX_LENGTH)
Xsqlite3_str_vappendf(tls, bp, zFormat, ap)
z = Xsqlite3StrAccumFinish(tls, bp)
return z
}
// Print into memory obtained from sqlite3_malloc()(). Omit the internal
// %-conversion extensions.
func Xsqlite3_mprintf(tls *libc.TLS, zFormat uintptr, va uintptr) uintptr {
var ap Va_list
_ = ap
var z uintptr
if Xsqlite3_initialize(tls) != 0 {
return uintptr(0)
}
ap = va
z = Xsqlite3_vmprintf(tls, zFormat, ap)
_ = ap
return z
}
// sqlite3_snprintf() works like snprintf() except that it ignores the
// current locale settings. This is important for SQLite because we
// are not able to use a "," as the decimal point in place of "." as
// specified by some locales.
//
// Oops: The first two arguments of sqlite3_snprintf() are backwards
// from the snprintf() standard. Unfortunately, it is too late to change
// this without breaking compatibility, so we just have to live with the
// mistake.
//
// sqlite3_vsnprintf() is the varargs version.
func Xsqlite3_vsnprintf(tls *libc.TLS, n int32, zBuf uintptr, zFormat uintptr, ap Va_list) uintptr {
bp := tls.Alloc(32)
defer tls.Free(32)
if n <= 0 {
return zBuf
}
Xsqlite3StrAccumInit(tls, bp, uintptr(0), zBuf, n, 0)
Xsqlite3_str_vappendf(tls, bp, zFormat, ap)
*(*int8)(unsafe.Pointer(zBuf + uintptr((*StrAccum)(unsafe.Pointer(bp)).FnChar))) = int8(0)
return zBuf
}
func Xsqlite3_snprintf(tls *libc.TLS, n int32, zBuf uintptr, zFormat uintptr, va uintptr) uintptr {
var z uintptr
var ap Va_list
_ = ap
ap = va
z = Xsqlite3_vsnprintf(tls, n, zBuf, zFormat, ap)
_ = ap
return z
}
func renderLogMsg(tls *libc.TLS, iErrCode int32, zFormat uintptr, ap Va_list) {
bp := tls.Alloc(242)
defer tls.Free(242)
Xsqlite3StrAccumInit(tls, bp, uintptr(0), bp+32, int32(unsafe.Sizeof([210]int8{})), 0)
Xsqlite3_str_vappendf(tls, bp, zFormat, ap)
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.FxLog})).f(tls, Xsqlite3Config.FpLogArg, iErrCode,
Xsqlite3StrAccumFinish(tls, bp))
}
// Format and write a message to the log if logging is enabled.
func Xsqlite3_log(tls *libc.TLS, iErrCode int32, zFormat uintptr, va uintptr) {
var ap Va_list
_ = ap
if Xsqlite3Config.FxLog != 0 {
ap = va
renderLogMsg(tls, iErrCode, zFormat, ap)
_ = ap
}
}
// variable-argument wrapper around sqlite3_str_vappendf(). The bFlags argument
// can contain the bit SQLITE_PRINTF_INTERNAL enable internal formats.
func Xsqlite3_str_appendf(tls *libc.TLS, p uintptr, zFormat uintptr, va uintptr) {
var ap Va_list
_ = ap
ap = va
Xsqlite3_str_vappendf(tls, p, zFormat, ap)
_ = ap
}
type sqlite3PrngType = struct {
Fs [16]U32
Fout [64]U8
Fn U8
F__ccgo_pad1 [3]byte
}
var sqlite3Prng sqlite3PrngType
func chacha_block(tls *libc.TLS, out uintptr, in uintptr) {
bp := tls.Alloc(64)
defer tls.Free(64)
var i int32
libc.X__builtin___memcpy_chk(tls, bp, in, uint64(64), libc.X__builtin_object_size(tls, bp, 0))
for i = 0; i < 10; i++ {
*(*U32)(unsafe.Pointer(bp)) += *(*U32)(unsafe.Pointer(bp + 4*4))
*(*U32)(unsafe.Pointer(bp + 12*4)) ^= *(*U32)(unsafe.Pointer(bp))
*(*U32)(unsafe.Pointer(bp + 12*4)) = *(*U32)(unsafe.Pointer(bp + 12*4))<<16 | *(*U32)(unsafe.Pointer(bp + 12*4))>>(32-16)
*(*U32)(unsafe.Pointer(bp + 8*4)) += *(*U32)(unsafe.Pointer(bp + 12*4))
*(*U32)(unsafe.Pointer(bp + 4*4)) ^= *(*U32)(unsafe.Pointer(bp + 8*4))
*(*U32)(unsafe.Pointer(bp + 4*4)) = *(*U32)(unsafe.Pointer(bp + 4*4))<<12 | *(*U32)(unsafe.Pointer(bp + 4*4))>>(32-12)
*(*U32)(unsafe.Pointer(bp)) += *(*U32)(unsafe.Pointer(bp + 4*4))
*(*U32)(unsafe.Pointer(bp + 12*4)) ^= *(*U32)(unsafe.Pointer(bp))
*(*U32)(unsafe.Pointer(bp + 12*4)) = *(*U32)(unsafe.Pointer(bp + 12*4))<<8 | *(*U32)(unsafe.Pointer(bp + 12*4))>>(32-8)
*(*U32)(unsafe.Pointer(bp + 8*4)) += *(*U32)(unsafe.Pointer(bp + 12*4))
*(*U32)(unsafe.Pointer(bp + 4*4)) ^= *(*U32)(unsafe.Pointer(bp + 8*4))
*(*U32)(unsafe.Pointer(bp + 4*4)) = *(*U32)(unsafe.Pointer(bp + 4*4))<<7 | *(*U32)(unsafe.Pointer(bp + 4*4))>>(32-7)
*(*U32)(unsafe.Pointer(bp + 1*4)) += *(*U32)(unsafe.Pointer(bp + 5*4))
*(*U32)(unsafe.Pointer(bp + 13*4)) ^= *(*U32)(unsafe.Pointer(bp + 1*4))
*(*U32)(unsafe.Pointer(bp + 13*4)) = *(*U32)(unsafe.Pointer(bp + 13*4))<<16 | *(*U32)(unsafe.Pointer(bp + 13*4))>>(32-16)
*(*U32)(unsafe.Pointer(bp + 9*4)) += *(*U32)(unsafe.Pointer(bp + 13*4))
*(*U32)(unsafe.Pointer(bp + 5*4)) ^= *(*U32)(unsafe.Pointer(bp + 9*4))
*(*U32)(unsafe.Pointer(bp + 5*4)) = *(*U32)(unsafe.Pointer(bp + 5*4))<<12 | *(*U32)(unsafe.Pointer(bp + 5*4))>>(32-12)
*(*U32)(unsafe.Pointer(bp + 1*4)) += *(*U32)(unsafe.Pointer(bp + 5*4))
*(*U32)(unsafe.Pointer(bp + 13*4)) ^= *(*U32)(unsafe.Pointer(bp + 1*4))
*(*U32)(unsafe.Pointer(bp + 13*4)) = *(*U32)(unsafe.Pointer(bp + 13*4))<<8 | *(*U32)(unsafe.Pointer(bp + 13*4))>>(32-8)
*(*U32)(unsafe.Pointer(bp + 9*4)) += *(*U32)(unsafe.Pointer(bp + 13*4))
*(*U32)(unsafe.Pointer(bp + 5*4)) ^= *(*U32)(unsafe.Pointer(bp + 9*4))
*(*U32)(unsafe.Pointer(bp + 5*4)) = *(*U32)(unsafe.Pointer(bp + 5*4))<<7 | *(*U32)(unsafe.Pointer(bp + 5*4))>>(32-7)
*(*U32)(unsafe.Pointer(bp + 2*4)) += *(*U32)(unsafe.Pointer(bp + 6*4))
*(*U32)(unsafe.Pointer(bp + 14*4)) ^= *(*U32)(unsafe.Pointer(bp + 2*4))
*(*U32)(unsafe.Pointer(bp + 14*4)) = *(*U32)(unsafe.Pointer(bp + 14*4))<<16 | *(*U32)(unsafe.Pointer(bp + 14*4))>>(32-16)
*(*U32)(unsafe.Pointer(bp + 10*4)) += *(*U32)(unsafe.Pointer(bp + 14*4))
*(*U32)(unsafe.Pointer(bp + 6*4)) ^= *(*U32)(unsafe.Pointer(bp + 10*4))
*(*U32)(unsafe.Pointer(bp + 6*4)) = *(*U32)(unsafe.Pointer(bp + 6*4))<<12 | *(*U32)(unsafe.Pointer(bp + 6*4))>>(32-12)
*(*U32)(unsafe.Pointer(bp + 2*4)) += *(*U32)(unsafe.Pointer(bp + 6*4))
*(*U32)(unsafe.Pointer(bp + 14*4)) ^= *(*U32)(unsafe.Pointer(bp + 2*4))
*(*U32)(unsafe.Pointer(bp + 14*4)) = *(*U32)(unsafe.Pointer(bp + 14*4))<<8 | *(*U32)(unsafe.Pointer(bp + 14*4))>>(32-8)
*(*U32)(unsafe.Pointer(bp + 10*4)) += *(*U32)(unsafe.Pointer(bp + 14*4))
*(*U32)(unsafe.Pointer(bp + 6*4)) ^= *(*U32)(unsafe.Pointer(bp + 10*4))
*(*U32)(unsafe.Pointer(bp + 6*4)) = *(*U32)(unsafe.Pointer(bp + 6*4))<<7 | *(*U32)(unsafe.Pointer(bp + 6*4))>>(32-7)
*(*U32)(unsafe.Pointer(bp + 3*4)) += *(*U32)(unsafe.Pointer(bp + 7*4))
*(*U32)(unsafe.Pointer(bp + 15*4)) ^= *(*U32)(unsafe.Pointer(bp + 3*4))
*(*U32)(unsafe.Pointer(bp + 15*4)) = *(*U32)(unsafe.Pointer(bp + 15*4))<<16 | *(*U32)(unsafe.Pointer(bp + 15*4))>>(32-16)
*(*U32)(unsafe.Pointer(bp + 11*4)) += *(*U32)(unsafe.Pointer(bp + 15*4))
*(*U32)(unsafe.Pointer(bp + 7*4)) ^= *(*U32)(unsafe.Pointer(bp + 11*4))
*(*U32)(unsafe.Pointer(bp + 7*4)) = *(*U32)(unsafe.Pointer(bp + 7*4))<<12 | *(*U32)(unsafe.Pointer(bp + 7*4))>>(32-12)
*(*U32)(unsafe.Pointer(bp + 3*4)) += *(*U32)(unsafe.Pointer(bp + 7*4))
*(*U32)(unsafe.Pointer(bp + 15*4)) ^= *(*U32)(unsafe.Pointer(bp + 3*4))
*(*U32)(unsafe.Pointer(bp + 15*4)) = *(*U32)(unsafe.Pointer(bp + 15*4))<<8 | *(*U32)(unsafe.Pointer(bp + 15*4))>>(32-8)
*(*U32)(unsafe.Pointer(bp + 11*4)) += *(*U32)(unsafe.Pointer(bp + 15*4))
*(*U32)(unsafe.Pointer(bp + 7*4)) ^= *(*U32)(unsafe.Pointer(bp + 11*4))
*(*U32)(unsafe.Pointer(bp + 7*4)) = *(*U32)(unsafe.Pointer(bp + 7*4))<<7 | *(*U32)(unsafe.Pointer(bp + 7*4))>>(32-7)
*(*U32)(unsafe.Pointer(bp)) += *(*U32)(unsafe.Pointer(bp + 5*4))
*(*U32)(unsafe.Pointer(bp + 15*4)) ^= *(*U32)(unsafe.Pointer(bp))
*(*U32)(unsafe.Pointer(bp + 15*4)) = *(*U32)(unsafe.Pointer(bp + 15*4))<<16 | *(*U32)(unsafe.Pointer(bp + 15*4))>>(32-16)
*(*U32)(unsafe.Pointer(bp + 10*4)) += *(*U32)(unsafe.Pointer(bp + 15*4))
*(*U32)(unsafe.Pointer(bp + 5*4)) ^= *(*U32)(unsafe.Pointer(bp + 10*4))
*(*U32)(unsafe.Pointer(bp + 5*4)) = *(*U32)(unsafe.Pointer(bp + 5*4))<<12 | *(*U32)(unsafe.Pointer(bp + 5*4))>>(32-12)
*(*U32)(unsafe.Pointer(bp)) += *(*U32)(unsafe.Pointer(bp + 5*4))
*(*U32)(unsafe.Pointer(bp + 15*4)) ^= *(*U32)(unsafe.Pointer(bp))
*(*U32)(unsafe.Pointer(bp + 15*4)) = *(*U32)(unsafe.Pointer(bp + 15*4))<<8 | *(*U32)(unsafe.Pointer(bp + 15*4))>>(32-8)
*(*U32)(unsafe.Pointer(bp + 10*4)) += *(*U32)(unsafe.Pointer(bp + 15*4))
*(*U32)(unsafe.Pointer(bp + 5*4)) ^= *(*U32)(unsafe.Pointer(bp + 10*4))
*(*U32)(unsafe.Pointer(bp + 5*4)) = *(*U32)(unsafe.Pointer(bp + 5*4))<<7 | *(*U32)(unsafe.Pointer(bp + 5*4))>>(32-7)
*(*U32)(unsafe.Pointer(bp + 1*4)) += *(*U32)(unsafe.Pointer(bp + 6*4))
*(*U32)(unsafe.Pointer(bp + 12*4)) ^= *(*U32)(unsafe.Pointer(bp + 1*4))
*(*U32)(unsafe.Pointer(bp + 12*4)) = *(*U32)(unsafe.Pointer(bp + 12*4))<<16 | *(*U32)(unsafe.Pointer(bp + 12*4))>>(32-16)
*(*U32)(unsafe.Pointer(bp + 11*4)) += *(*U32)(unsafe.Pointer(bp + 12*4))
*(*U32)(unsafe.Pointer(bp + 6*4)) ^= *(*U32)(unsafe.Pointer(bp + 11*4))
*(*U32)(unsafe.Pointer(bp + 6*4)) = *(*U32)(unsafe.Pointer(bp + 6*4))<<12 | *(*U32)(unsafe.Pointer(bp + 6*4))>>(32-12)
*(*U32)(unsafe.Pointer(bp + 1*4)) += *(*U32)(unsafe.Pointer(bp + 6*4))
*(*U32)(unsafe.Pointer(bp + 12*4)) ^= *(*U32)(unsafe.Pointer(bp + 1*4))
*(*U32)(unsafe.Pointer(bp + 12*4)) = *(*U32)(unsafe.Pointer(bp + 12*4))<<8 | *(*U32)(unsafe.Pointer(bp + 12*4))>>(32-8)
*(*U32)(unsafe.Pointer(bp + 11*4)) += *(*U32)(unsafe.Pointer(bp + 12*4))
*(*U32)(unsafe.Pointer(bp + 6*4)) ^= *(*U32)(unsafe.Pointer(bp + 11*4))
*(*U32)(unsafe.Pointer(bp + 6*4)) = *(*U32)(unsafe.Pointer(bp + 6*4))<<7 | *(*U32)(unsafe.Pointer(bp + 6*4))>>(32-7)
*(*U32)(unsafe.Pointer(bp + 2*4)) += *(*U32)(unsafe.Pointer(bp + 7*4))
*(*U32)(unsafe.Pointer(bp + 13*4)) ^= *(*U32)(unsafe.Pointer(bp + 2*4))
*(*U32)(unsafe.Pointer(bp + 13*4)) = *(*U32)(unsafe.Pointer(bp + 13*4))<<16 | *(*U32)(unsafe.Pointer(bp + 13*4))>>(32-16)
*(*U32)(unsafe.Pointer(bp + 8*4)) += *(*U32)(unsafe.Pointer(bp + 13*4))
*(*U32)(unsafe.Pointer(bp + 7*4)) ^= *(*U32)(unsafe.Pointer(bp + 8*4))
*(*U32)(unsafe.Pointer(bp + 7*4)) = *(*U32)(unsafe.Pointer(bp + 7*4))<<12 | *(*U32)(unsafe.Pointer(bp + 7*4))>>(32-12)
*(*U32)(unsafe.Pointer(bp + 2*4)) += *(*U32)(unsafe.Pointer(bp + 7*4))
*(*U32)(unsafe.Pointer(bp + 13*4)) ^= *(*U32)(unsafe.Pointer(bp + 2*4))
*(*U32)(unsafe.Pointer(bp + 13*4)) = *(*U32)(unsafe.Pointer(bp + 13*4))<<8 | *(*U32)(unsafe.Pointer(bp + 13*4))>>(32-8)
*(*U32)(unsafe.Pointer(bp + 8*4)) += *(*U32)(unsafe.Pointer(bp + 13*4))
*(*U32)(unsafe.Pointer(bp + 7*4)) ^= *(*U32)(unsafe.Pointer(bp + 8*4))
*(*U32)(unsafe.Pointer(bp + 7*4)) = *(*U32)(unsafe.Pointer(bp + 7*4))<<7 | *(*U32)(unsafe.Pointer(bp + 7*4))>>(32-7)
*(*U32)(unsafe.Pointer(bp + 3*4)) += *(*U32)(unsafe.Pointer(bp + 4*4))
*(*U32)(unsafe.Pointer(bp + 14*4)) ^= *(*U32)(unsafe.Pointer(bp + 3*4))
*(*U32)(unsafe.Pointer(bp + 14*4)) = *(*U32)(unsafe.Pointer(bp + 14*4))<<16 | *(*U32)(unsafe.Pointer(bp + 14*4))>>(32-16)
*(*U32)(unsafe.Pointer(bp + 9*4)) += *(*U32)(unsafe.Pointer(bp + 14*4))
*(*U32)(unsafe.Pointer(bp + 4*4)) ^= *(*U32)(unsafe.Pointer(bp + 9*4))
*(*U32)(unsafe.Pointer(bp + 4*4)) = *(*U32)(unsafe.Pointer(bp + 4*4))<<12 | *(*U32)(unsafe.Pointer(bp + 4*4))>>(32-12)
*(*U32)(unsafe.Pointer(bp + 3*4)) += *(*U32)(unsafe.Pointer(bp + 4*4))
*(*U32)(unsafe.Pointer(bp + 14*4)) ^= *(*U32)(unsafe.Pointer(bp + 3*4))
*(*U32)(unsafe.Pointer(bp + 14*4)) = *(*U32)(unsafe.Pointer(bp + 14*4))<<8 | *(*U32)(unsafe.Pointer(bp + 14*4))>>(32-8)
*(*U32)(unsafe.Pointer(bp + 9*4)) += *(*U32)(unsafe.Pointer(bp + 14*4))
*(*U32)(unsafe.Pointer(bp + 4*4)) ^= *(*U32)(unsafe.Pointer(bp + 9*4))
*(*U32)(unsafe.Pointer(bp + 4*4)) = *(*U32)(unsafe.Pointer(bp + 4*4))<<7 | *(*U32)(unsafe.Pointer(bp + 4*4))>>(32-7)
}
for i = 0; i < 16; i++ {
*(*U32)(unsafe.Pointer(out + uintptr(i)*4)) = *(*U32)(unsafe.Pointer(bp + uintptr(i)*4)) + *(*U32)(unsafe.Pointer(in + uintptr(i)*4))
}
}
// Return N random bytes.
func Xsqlite3_randomness(tls *libc.TLS, N int32, pBuf uintptr) {
var zBuf uintptr = pBuf
var mutex uintptr
if Xsqlite3_initialize(tls) != 0 {
return
}
mutex = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_PRNG)
Xsqlite3_mutex_enter(tls, mutex)
if N <= 0 || pBuf == uintptr(0) {
*(*U32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Prng)))) = U32(0)
Xsqlite3_mutex_leave(tls, mutex)
return
}
if *(*U32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Prng)))) == U32(0) {
var pVfs uintptr = Xsqlite3_vfs_find(tls, uintptr(0))
libc.X__builtin___memcpy_chk(tls, uintptr(unsafe.Pointer(&sqlite3Prng)), uintptr(unsafe.Pointer(&chacha20_init)), uint64(16), libc.X__builtin_object_size(tls, uintptr(unsafe.Pointer(&sqlite3Prng)), 0))
if pVfs == uintptr(0) {
libc.X__builtin___memset_chk(tls, uintptr(unsafe.Pointer(&sqlite3Prng))+4*4, 0, uint64(44), libc.X__builtin_object_size(tls, uintptr(unsafe.Pointer(&sqlite3Prng))+4*4, 0))
} else {
Xsqlite3OsRandomness(tls, pVfs, 44, uintptr(unsafe.Pointer(&sqlite3Prng))+4*4)
}
*(*U32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Prng)) + 15*4)) = *(*U32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Prng)) + 12*4))
*(*U32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Prng)) + 12*4)) = U32(0)
sqlite3Prng.Fn = U8(0)
}
for 1 != 0 {
if N <= int32(sqlite3Prng.Fn) {
libc.X__builtin___memcpy_chk(tls, zBuf, uintptr(unsafe.Pointer(&sqlite3Prng))+64+uintptr(int32(sqlite3Prng.Fn)-N), uint64(N), libc.X__builtin_object_size(tls, zBuf, 0))
*(*U8)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Prng)) + 128)) -= U8(N)
break
}
if int32(sqlite3Prng.Fn) > 0 {
libc.X__builtin___memcpy_chk(tls, zBuf, uintptr(unsafe.Pointer(&sqlite3Prng))+64, uint64(sqlite3Prng.Fn), libc.X__builtin_object_size(tls, zBuf, 0))
N = N - int32(sqlite3Prng.Fn)
zBuf += uintptr(sqlite3Prng.Fn)
}
*(*U32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Prng)) + 12*4))++
chacha_block(tls, uintptr(unsafe.Pointer(&sqlite3Prng))+64, uintptr(unsafe.Pointer(&sqlite3Prng)))
sqlite3Prng.Fn = U8(64)
}
Xsqlite3_mutex_leave(tls, mutex)
}
var chacha20_init = [4]U32{
U32(0x61707865), U32(0x3320646e), U32(0x79622d32), U32(0x6b206574),
}
var sqlite3SavedPrng sqlite3PrngType
func Xsqlite3PrngSaveState(tls *libc.TLS) {
libc.X__builtin___memcpy_chk(tls, uintptr(unsafe.Pointer(&sqlite3SavedPrng)), uintptr(unsafe.Pointer(&sqlite3Prng)), uint64(unsafe.Sizeof(sqlite3Prng)), libc.X__builtin_object_size(tls, uintptr(unsafe.Pointer(&sqlite3SavedPrng)), 0))
}
func Xsqlite3PrngRestoreState(tls *libc.TLS) {
libc.X__builtin___memcpy_chk(tls, uintptr(unsafe.Pointer(&sqlite3Prng)), uintptr(unsafe.Pointer(&sqlite3SavedPrng)), uint64(unsafe.Sizeof(sqlite3Prng)), libc.X__builtin_object_size(tls, uintptr(unsafe.Pointer(&sqlite3Prng)), 0))
}
// Create a new thread
func Xsqlite3ThreadCreate(tls *libc.TLS, ppThread uintptr, xTask uintptr, pIn uintptr) int32 {
var p uintptr
*(*uintptr)(unsafe.Pointer(ppThread)) = uintptr(0)
p = Xsqlite3Malloc(tls, uint64(unsafe.Sizeof(SQLiteThread{})))
if p == uintptr(0) {
return SQLITE_NOMEM
}
if int32(p)/17&1 != 0 {
(*SQLiteThread)(unsafe.Pointer(p)).FxTask = xTask
(*SQLiteThread)(unsafe.Pointer(p)).FpIn = pIn
} else {
(*SQLiteThread)(unsafe.Pointer(p)).FxTask = uintptr(0)
(*SQLiteThread)(unsafe.Pointer(p)).FpResult = (*struct {
f func(*libc.TLS, uintptr) uintptr
})(unsafe.Pointer(&struct{ uintptr }{xTask})).f(tls, pIn)
}
*(*uintptr)(unsafe.Pointer(ppThread)) = p
return SQLITE_OK
}
// Get the results of the thread
func Xsqlite3ThreadJoin(tls *libc.TLS, p uintptr, ppOut uintptr) int32 {
if p == uintptr(0) {
return SQLITE_NOMEM
}
if (*SQLiteThread)(unsafe.Pointer(p)).FxTask != 0 {
*(*uintptr)(unsafe.Pointer(ppOut)) = (*struct {
f func(*libc.TLS, uintptr) uintptr
})(unsafe.Pointer(&struct{ uintptr }{(*SQLiteThread)(unsafe.Pointer(p)).FxTask})).f(tls, (*SQLiteThread)(unsafe.Pointer(p)).FpIn)
} else {
*(*uintptr)(unsafe.Pointer(ppOut)) = (*SQLiteThread)(unsafe.Pointer(p)).FpResult
}
Xsqlite3_free(tls, p)
return SQLITE_OK
}
var sqlite3Utf8Trans1 = [64]uint8{
uint8(0x00), uint8(0x01), uint8(0x02), uint8(0x03), uint8(0x04), uint8(0x05), uint8(0x06), uint8(0x07),
uint8(0x08), uint8(0x09), uint8(0x0a), uint8(0x0b), uint8(0x0c), uint8(0x0d), uint8(0x0e), uint8(0x0f),
uint8(0x10), uint8(0x11), uint8(0x12), uint8(0x13), uint8(0x14), uint8(0x15), uint8(0x16), uint8(0x17),
uint8(0x18), uint8(0x19), uint8(0x1a), uint8(0x1b), uint8(0x1c), uint8(0x1d), uint8(0x1e), uint8(0x1f),
uint8(0x00), uint8(0x01), uint8(0x02), uint8(0x03), uint8(0x04), uint8(0x05), uint8(0x06), uint8(0x07),
uint8(0x08), uint8(0x09), uint8(0x0a), uint8(0x0b), uint8(0x0c), uint8(0x0d), uint8(0x0e), uint8(0x0f),
uint8(0x00), uint8(0x01), uint8(0x02), uint8(0x03), uint8(0x04), uint8(0x05), uint8(0x06), uint8(0x07),
uint8(0x00), uint8(0x01), uint8(0x02), uint8(0x03), uint8(0x00), uint8(0x01), uint8(0x00), uint8(0x00),
}
// Translate a single UTF-8 character. Return the unicode value.
//
// During translation, assume that the byte that zTerm points
// is a 0x00.
//
// Write a pointer to the next unread byte back into *pzNext.
//
// Notes On Invalid UTF-8:
//
// - This routine never allows a 7-bit character (0x00 through 0x7f) to
// be encoded as a multi-byte character. Any multi-byte character that
// attempts to encode a value between 0x00 and 0x7f is rendered as 0xfffd.
//
// - This routine never allows a UTF16 surrogate value to be encoded.
// If a multi-byte character attempts to encode a value between
// 0xd800 and 0xe000 then it is rendered as 0xfffd.
//
// - Bytes in the range of 0x80 through 0xbf which occur as the first
// byte of a character are interpreted as single-byte characters
// and rendered as themselves even though they are technically
// invalid characters.
//
// - This routine accepts over-length UTF8 encodings
// for unicode values 0x80 and greater. It does not change over-length
// encodings to 0xfffd as some systems recommend.
func Xsqlite3Utf8Read(tls *libc.TLS, pz uintptr) U32 {
var c uint32
c = uint32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&*(*uintptr)(unsafe.Pointer(pz)), 1))))
if c >= uint32(0xc0) {
c = uint32(sqlite3Utf8Trans1[c-uint32(0xc0)])
for int32(*(*uint8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pz)))))&0xc0 == 0x80 {
c = c<<6 + uint32(0x3f&int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&*(*uintptr)(unsafe.Pointer(pz)), 1)))))
}
if c < uint32(0x80) ||
c&0xFFFFF800 == uint32(0xD800) ||
c&0xFFFFFFFE == uint32(0xFFFE) {
c = uint32(0xFFFD)
}
}
return c
}
// This routine transforms the internal text encoding used by pMem to
// desiredEnc. It is an error if the string is already of the desired
// encoding, or if *pMem does not contain a string value.
func Xsqlite3VdbeMemTranslate(tls *libc.TLS, pMem uintptr, desiredEnc U8) int32 {
var len Sqlite3_int64
var zOut uintptr
var zIn uintptr
var zTerm uintptr
var z uintptr
var c uint32
var temp U8
var rc int32
var c2 int32
var c21 int32
if !(int32((*Mem)(unsafe.Pointer(pMem)).Fenc) != SQLITE_UTF8 && int32(desiredEnc) != SQLITE_UTF8) {
goto __1
}
rc = Xsqlite3VdbeMemMakeWriteable(tls, pMem)
if !(rc != SQLITE_OK) {
goto __2
}
return SQLITE_NOMEM
__2:
;
zIn = (*Mem)(unsafe.Pointer(pMem)).Fz
zTerm = zIn + uintptr((*Mem)(unsafe.Pointer(pMem)).Fn&libc.CplInt32(1))
__3:
if !(zIn < zTerm) {
goto __4
}
temp = *(*uint8)(unsafe.Pointer(zIn))
*(*uint8)(unsafe.Pointer(zIn)) = *(*uint8)(unsafe.Pointer(zIn + uintptr(1)))
zIn++
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1))) = temp
goto __3
__4:
;
(*Mem)(unsafe.Pointer(pMem)).Fenc = desiredEnc
goto translate_out
__1:
;
if !(int32(desiredEnc) == SQLITE_UTF8) {
goto __5
}
*(*int32)(unsafe.Pointer(pMem + 16)) &= libc.CplInt32(1)
len = int64(2)*Sqlite3_int64((*Mem)(unsafe.Pointer(pMem)).Fn) + int64(1)
goto __6
__5:
len = int64(2)*Sqlite3_int64((*Mem)(unsafe.Pointer(pMem)).Fn) + int64(2)
__6:
;
zIn = (*Mem)(unsafe.Pointer(pMem)).Fz
zTerm = zIn + uintptr((*Mem)(unsafe.Pointer(pMem)).Fn)
zOut = Xsqlite3DbMallocRaw(tls, (*Mem)(unsafe.Pointer(pMem)).Fdb, uint64(len))
if !!(zOut != 0) {
goto __7
}
return SQLITE_NOMEM
__7:
;
z = zOut
if !(int32((*Mem)(unsafe.Pointer(pMem)).Fenc) == SQLITE_UTF8) {
goto __8
}
if !(int32(desiredEnc) == SQLITE_UTF16LE) {
goto __10
}
__12:
if !(zIn < zTerm) {
goto __13
}
c = uint32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1))))
if !(c >= uint32(0xc0)) {
goto __14
}
c = uint32(sqlite3Utf8Trans1[c-uint32(0xc0)])
__15:
if !(zIn != zTerm && int32(*(*uint8)(unsafe.Pointer(zIn)))&0xc0 == 0x80) {
goto __16
}
c = c<<6 + uint32(0x3f&int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1)))))
goto __15
__16:
;
if !(c < uint32(0x80) || c&0xFFFFF800 == uint32(0xD800) || c&0xFFFFFFFE == uint32(0xFFFE)) {
goto __17
}
c = uint32(0xFFFD)
__17:
;
__14:
;
if !(c <= uint32(0xFFFF)) {
goto __18
}
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = U8(c & uint32(0x00FF))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = U8(c >> 8 & uint32(0x00FF))
goto __19
__18:
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = U8(c>>10&uint32(0x003F) + (c-uint32(0x10000))>>10&uint32(0x00C0))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = U8(uint32(0x00D8) + (c-uint32(0x10000))>>18&uint32(0x03))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = U8(c & uint32(0x00FF))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = U8(uint32(0x00DC) + c>>8&uint32(0x03))
__19:
;
goto __12
__13:
;
goto __11
__10:
;
__20:
if !(zIn < zTerm) {
goto __21
}
c = uint32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1))))
if !(c >= uint32(0xc0)) {
goto __22
}
c = uint32(sqlite3Utf8Trans1[c-uint32(0xc0)])
__23:
if !(zIn != zTerm && int32(*(*uint8)(unsafe.Pointer(zIn)))&0xc0 == 0x80) {
goto __24
}
c = c<<6 + uint32(0x3f&int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1)))))
goto __23
__24:
;
if !(c < uint32(0x80) || c&0xFFFFF800 == uint32(0xD800) || c&0xFFFFFFFE == uint32(0xFFFE)) {
goto __25
}
c = uint32(0xFFFD)
__25:
;
__22:
;
if !(c <= uint32(0xFFFF)) {
goto __26
}
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = U8(c >> 8 & uint32(0x00FF))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = U8(c & uint32(0x00FF))
goto __27
__26:
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = U8(uint32(0x00D8) + (c-uint32(0x10000))>>18&uint32(0x03))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = U8(c>>10&uint32(0x003F) + (c-uint32(0x10000))>>10&uint32(0x00C0))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = U8(uint32(0x00DC) + c>>8&uint32(0x03))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = U8(c & uint32(0x00FF))
__27:
;
goto __20
__21:
;
__11:
;
(*Mem)(unsafe.Pointer(pMem)).Fn = int32((int64(z) - int64(zOut)) / 1)
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0)
goto __9
__8:
;
if !(int32((*Mem)(unsafe.Pointer(pMem)).Fenc) == SQLITE_UTF16LE) {
goto __28
}
__30:
if !(zIn < zTerm) {
goto __31
}
c = uint32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1))))
c = c + uint32(int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1))))<<8)
if !(c >= uint32(0xd800) && c < uint32(0xe000)) {
goto __32
}
if !(zIn < zTerm) {
goto __33
}
c2 = int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1))))
c2 = c2 + int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1))))<<8
c = uint32(c2&0x03FF) + c&uint32(0x003F)<<10 + (c&uint32(0x03C0)+uint32(0x0040))<<10
__33:
;
__32:
;
if !(c < uint32(0x00080)) {
goto __34
}
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = U8(c & uint32(0xFF))
goto __35
__34:
if !(c < uint32(0x00800)) {
goto __36
}
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0xC0 + int32(U8(c>>6&uint32(0x1F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0x80 + int32(U8(c&uint32(0x3F))))
goto __37
__36:
if !(c < uint32(0x10000)) {
goto __38
}
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0xE0 + int32(U8(c>>12&uint32(0x0F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0x80 + int32(U8(c>>6&uint32(0x3F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0x80 + int32(U8(c&uint32(0x3F))))
goto __39
__38:
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0xF0 + int32(U8(c>>18&uint32(0x07))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0x80 + int32(U8(c>>12&uint32(0x3F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0x80 + int32(U8(c>>6&uint32(0x3F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0x80 + int32(U8(c&uint32(0x3F))))
__39:
;
__37:
;
__35:
;
goto __30
__31:
;
goto __29
__28:
__40:
if !(zIn < zTerm) {
goto __41
}
c = uint32(int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1)))) << 8)
c = c + uint32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1))))
if !(c >= uint32(0xd800) && c < uint32(0xe000)) {
goto __42
}
if !(zIn < zTerm) {
goto __43
}
c21 = int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1)))) << 8
c21 = c21 + int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1))))
c = uint32(c21&0x03FF) + c&uint32(0x003F)<<10 + (c&uint32(0x03C0)+uint32(0x0040))<<10
__43:
;
__42:
;
if !(c < uint32(0x00080)) {
goto __44
}
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = U8(c & uint32(0xFF))
goto __45
__44:
if !(c < uint32(0x00800)) {
goto __46
}
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0xC0 + int32(U8(c>>6&uint32(0x1F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0x80 + int32(U8(c&uint32(0x3F))))
goto __47
__46:
if !(c < uint32(0x10000)) {
goto __48
}
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0xE0 + int32(U8(c>>12&uint32(0x0F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0x80 + int32(U8(c>>6&uint32(0x3F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0x80 + int32(U8(c&uint32(0x3F))))
goto __49
__48:
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0xF0 + int32(U8(c>>18&uint32(0x07))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0x80 + int32(U8(c>>12&uint32(0x3F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0x80 + int32(U8(c>>6&uint32(0x3F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = uint8(0x80 + int32(U8(c&uint32(0x3F))))
__49:
;
__47:
;
__45:
;
goto __40
__41:
;
__29:
;
(*Mem)(unsafe.Pointer(pMem)).Fn = int32((int64(z) - int64(zOut)) / 1)
__9:
;
*(*uint8)(unsafe.Pointer(z)) = uint8(0)
c = uint32(MEM_Str | MEM_Term | int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&(MEM_AffMask|MEM_Subtype))
Xsqlite3VdbeMemRelease(tls, pMem)
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(c)
(*Mem)(unsafe.Pointer(pMem)).Fenc = desiredEnc
(*Mem)(unsafe.Pointer(pMem)).Fz = zOut
(*Mem)(unsafe.Pointer(pMem)).FzMalloc = (*Mem)(unsafe.Pointer(pMem)).Fz
(*Mem)(unsafe.Pointer(pMem)).FszMalloc = Xsqlite3DbMallocSize(tls, (*Mem)(unsafe.Pointer(pMem)).Fdb, (*Mem)(unsafe.Pointer(pMem)).Fz)
translate_out:
return SQLITE_OK
}
// This routine checks for a byte-order mark at the beginning of the
// UTF-16 string stored in *pMem. If one is present, it is removed and
// the encoding of the Mem adjusted. This routine does not do any
// byte-swapping, it just sets Mem.enc appropriately.
//
// The allocation (static, dynamic etc.) and encoding of the Mem may be
// changed by this function.
func Xsqlite3VdbeMemHandleBom(tls *libc.TLS, pMem uintptr) int32 {
var rc int32 = SQLITE_OK
var bom U8 = U8(0)
if (*Mem)(unsafe.Pointer(pMem)).Fn > 1 {
var b1 U8 = *(*U8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pMem)).Fz))
var b2 U8 = *(*U8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pMem)).Fz + uintptr(1)))
if int32(b1) == 0xFE && int32(b2) == 0xFF {
bom = U8(SQLITE_UTF16BE)
}
if int32(b1) == 0xFF && int32(b2) == 0xFE {
bom = U8(SQLITE_UTF16LE)
}
}
if bom != 0 {
rc = Xsqlite3VdbeMemMakeWriteable(tls, pMem)
if rc == SQLITE_OK {
*(*int32)(unsafe.Pointer(pMem + 16)) -= 2
libc.X__builtin___memmove_chk(tls, (*Mem)(unsafe.Pointer(pMem)).Fz, (*Mem)(unsafe.Pointer(pMem)).Fz+2, uint64((*Mem)(unsafe.Pointer(pMem)).Fn), libc.X__builtin_object_size(tls, (*Mem)(unsafe.Pointer(pMem)).Fz, 0))
*(*int8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pMem)).Fz + uintptr((*Mem)(unsafe.Pointer(pMem)).Fn))) = int8(0)
*(*int8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pMem)).Fz + uintptr((*Mem)(unsafe.Pointer(pMem)).Fn+1))) = int8(0)
*(*U16)(unsafe.Pointer(pMem + 20)) |= U16(MEM_Term)
(*Mem)(unsafe.Pointer(pMem)).Fenc = bom
}
}
return rc
}
// pZ is a UTF-8 encoded unicode string. If nByte is less than zero,
// return the number of unicode characters in pZ up to (but not including)
// the first 0x00 byte. If nByte is not less than zero, return the
// number of unicode characters in the first nByte of pZ (or up to
// the first 0x00, whichever comes first).
func Xsqlite3Utf8CharLen(tls *libc.TLS, zIn uintptr, nByte int32) int32 {
var r int32 = 0
var z uintptr = zIn
var zTerm uintptr
if nByte >= 0 {
zTerm = z + uintptr(nByte)
} else {
zTerm = libc.UintptrFromInt32(-1)
}
for int32(*(*U8)(unsafe.Pointer(z))) != 0 && z < zTerm {
{
if int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1)))) >= 0xc0 {
for int32(*(*U8)(unsafe.Pointer(z)))&0xc0 == 0x80 {
z++
}
}
}
r++
}
return r
}
// Convert a UTF-16 string in the native encoding into a UTF-8 string.
// Memory to hold the UTF-8 string is obtained from sqlite3_malloc and must
// be freed by the calling function.
//
// NULL is returned if there is an allocation error.
func Xsqlite3Utf16to8(tls *libc.TLS, db uintptr, z uintptr, nByte int32, enc U8) uintptr {
bp := tls.Alloc(56)
defer tls.Free(56)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Mem{})), libc.X__builtin_object_size(tls, bp, 0))
(*Mem)(unsafe.Pointer(bp)).Fdb = db
Xsqlite3VdbeMemSetStr(tls, bp, z, int64(nByte), enc, uintptr(0))
Xsqlite3VdbeChangeEncoding(tls, bp, SQLITE_UTF8)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
Xsqlite3VdbeMemRelease(tls, bp)
(*Mem)(unsafe.Pointer(bp)).Fz = uintptr(0)
}
return (*Mem)(unsafe.Pointer(bp)).Fz
}
// zIn is a UTF-16 encoded unicode string at least nChar characters long.
// Return the number of bytes in the first nChar unicode characters
// in pZ. nChar must be non-negative.
func Xsqlite3Utf16ByteLen(tls *libc.TLS, zIn uintptr, nChar int32) int32 {
var c int32
var z uintptr = zIn
var n int32 = 0
if SQLITE_UTF16LE == SQLITE_UTF16LE {
z++
}
for n < nChar {
c = int32(*(*uint8)(unsafe.Pointer(z)))
z += uintptr(2)
if c >= 0xd8 && c < 0xdc && int32(*(*uint8)(unsafe.Pointer(z))) >= 0xdc && int32(*(*uint8)(unsafe.Pointer(z))) < 0xe0 {
z += uintptr(2)
}
n++
}
return int32((int64(z)-int64(zIn))/1) -
libc.Bool32(SQLITE_UTF16LE == SQLITE_UTF16LE)
}
// Define float_t and double_t per C standard, ISO/IEC 9899:2011 7.12 2,
//
// taking advantage of GCC's __FLT_EVAL_METHOD__ (which a compiler may
// define anytime and GCC does) that shadows FLT_EVAL_METHOD (which a
// compiler must define only in float.h).
type Float_t = float32
type Double_t = float64
func X__inline_isfinitef(tls *libc.TLS, __x float32) int32 {
return libc.Bool32(__x == __x && libc.X__builtin_fabsf(tls, __x) != libc.X__builtin_inff(tls))
}
func X__inline_isfinited(tls *libc.TLS, __x float64) int32 {
return libc.Bool32(__x == __x && libc.X__builtin_fabs(tls, __x) != libc.X__builtin_inf(tls))
}
func X__inline_isfinitel(tls *libc.TLS, __x float64) int32 {
return libc.Bool32(__x == __x && libc.X__builtin_fabsl(tls, __x) != libc.X__builtin_infl(tls))
}
func X__inline_isinff(tls *libc.TLS, __x float32) int32 {
return libc.Bool32(libc.X__builtin_fabsf(tls, __x) == libc.X__builtin_inff(tls))
}
func X__inline_isinfd(tls *libc.TLS, __x float64) int32 {
return libc.Bool32(libc.X__builtin_fabs(tls, __x) == libc.X__builtin_inf(tls))
}
func X__inline_isinfl(tls *libc.TLS, __x float64) int32 {
return libc.Bool32(libc.X__builtin_fabsl(tls, __x) == libc.X__builtin_infl(tls))
}
func X__inline_isnanf(tls *libc.TLS, __x float32) int32 {
return libc.Bool32(__x != __x)
}
func X__inline_isnand(tls *libc.TLS, __x float64) int32 {
return libc.Bool32(__x != __x)
}
func X__inline_isnanl(tls *libc.TLS, __x float64) int32 {
return libc.Bool32(__x != __x)
}
func X__inline_signbitf(tls *libc.TLS, __x float32) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
*(*float32)(unsafe.Pointer(bp)) = __x
return int32(*(*uint32)(unsafe.Pointer(bp)) >> 31)
}
func X__inline_signbitd(tls *libc.TLS, __x float64) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*float64)(unsafe.Pointer(bp)) = __x
return int32(*(*uint64)(unsafe.Pointer(bp)) >> 63)
}
func X__inline_signbitl(tls *libc.TLS, __x float64) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
*(*float64)(unsafe.Pointer(bp)) = __x
return int32(*(*uint16)(unsafe.Pointer(bp + 8))) >> 15
}
func X__inline_isnormalf(tls *libc.TLS, __x float32) int32 {
return libc.Bool32(X__inline_isfinitef(tls, __x) != 0 && libc.X__builtin_fabsf(tls, __x) >= 1.17549435e-38)
}
func X__inline_isnormald(tls *libc.TLS, __x float64) int32 {
return libc.Bool32(X__inline_isfinited(tls, __x) != 0 && libc.X__builtin_fabs(tls, __x) >= 2.2250738585072014e-308)
}
func X__inline_isnormall(tls *libc.TLS, __x float64) int32 {
return libc.Bool32(X__inline_isfinitel(tls, __x) != 0 && libc.X__builtin_fabsl(tls, __x) >= 3.36210314311209350626e-4932)
}
type __float2 = struct {
F__sinval float32
F__cosval float32
}
type __double2 = struct {
F__sinval float64
F__cosval float64
}
func X__sincosf(tls *libc.TLS, __x float32, __sinp uintptr, __cosp uintptr) {
var __stret = libc.X__sincosf_stret(tls, __x)
*(*float32)(unsafe.Pointer(__sinp)) = __stret.F__sinval
*(*float32)(unsafe.Pointer(__cosp)) = __stret.F__cosval
}
func X__sincos(tls *libc.TLS, __x float64, __sinp uintptr, __cosp uintptr) {
var __stret = libc.X__sincos_stret(tls, __x)
*(*float64)(unsafe.Pointer(__sinp)) = __stret.F__sinval
*(*float64)(unsafe.Pointer(__cosp)) = __stret.F__cosval
}
func X__sincospif(tls *libc.TLS, __x float32, __sinp uintptr, __cosp uintptr) {
var __stret = libc.X__sincospif_stret(tls, __x)
*(*float32)(unsafe.Pointer(__sinp)) = __stret.F__sinval
*(*float32)(unsafe.Pointer(__cosp)) = __stret.F__cosval
}
func X__sincospi(tls *libc.TLS, __x float64, __sinp uintptr, __cosp uintptr) {
var __stret = libc.X__sincospi_stret(tls, __x)
*(*float64)(unsafe.Pointer(__sinp)) = __stret.F__sinval
*(*float64)(unsafe.Pointer(__cosp)) = __stret.F__cosval
}
type exception = struct {
Ftype int32
F__ccgo_pad1 [4]byte
Fname uintptr
Farg1 float64
Farg2 float64
Fretval float64
}
// Calls to sqlite3FaultSim() are used to simulate a failure during testing,
// or to bypass normal error detection during testing in order to let
// execute proceed futher downstream.
//
// In deployment, sqlite3FaultSim() *always* return SQLITE_OK (0). The
// sqlite3FaultSim() function only returns non-zero during testing.
//
// During testing, if the test harness has set a fault-sim callback using
// a call to sqlite3_test_control(SQLITE_TESTCTRL_FAULT_INSTALL), then
// each call to sqlite3FaultSim() is relayed to that application-supplied
// callback and the integer return value form the application-supplied
// callback is returned by sqlite3FaultSim().
//
// The integer argument to sqlite3FaultSim() is a code to identify which
// sqlite3FaultSim() instance is being invoked. Each call to sqlite3FaultSim()
// should have a unique code. To prevent legacy testing applications from
// breaking, the codes should not be changed or reused.
func Xsqlite3FaultSim(tls *libc.TLS, iTest int32) int32 {
var xCallback uintptr = Xsqlite3Config.FxTestCallback
if xCallback != 0 {
return (*struct{ f func(*libc.TLS, int32) int32 })(unsafe.Pointer(&struct{ uintptr }{xCallback})).f(tls, iTest)
}
return SQLITE_OK
}
// Return true if the floating point value is Not a Number (NaN).
//
// Use the math library isnan() function if compiled with SQLITE_HAVE_ISNAN.
// Otherwise, we have our own implementation that works on most systems.
func Xsqlite3IsNaN(tls *libc.TLS, x float64) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
*(*float64)(unsafe.Pointer(bp + 8)) = x
var rc int32
libc.X__builtin___memcpy_chk(tls, bp, bp+8, uint64(unsafe.Sizeof(U64(0))), libc.X__builtin_object_size(tls, bp, 0))
rc = libc.Bool32(*(*U64)(unsafe.Pointer(bp))&(uint64(0x7ff)<<52) == uint64(0x7ff)<<52 && *(*U64)(unsafe.Pointer(bp))&(uint64(1)<<52-uint64(1)) != uint64(0))
return rc
}
// Compute a string length that is limited to what can be stored in
// lower 30 bits of a 32-bit signed integer.
//
// The value returned will never be negative. Nor will it ever be greater
// than the actual length of the string. For very long strings (greater
// than 1GiB) the value returned might be less than the true string length.
func Xsqlite3Strlen30(tls *libc.TLS, z uintptr) int32 {
if z == uintptr(0) {
return 0
}
return 0x3fffffff & int32(libc.Xstrlen(tls, z))
}
// Return the declared type of a column. Or return zDflt if the column
// has no declared type.
//
// The column type is an extra string stored after the zero-terminator on
// the column name if and only if the COLFLAG_HASTYPE flag is set.
func Xsqlite3ColumnType(tls *libc.TLS, pCol uintptr, zDflt uintptr) uintptr {
if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_HASTYPE != 0 {
return (*Column)(unsafe.Pointer(pCol)).FzCnName + uintptr(libc.Xstrlen(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName)) + uintptr(1)
} else if uint32(int32(*(*uint8)(unsafe.Pointer(pCol + 8))&0xf0>>4)) != 0 {
return Xsqlite3StdType[(int32(*(*uint8)(unsafe.Pointer(pCol + 8))&0xf0>>4)-1)&0xf<<28>>28]
} else {
return zDflt
}
return uintptr(0)
}
func sqlite3ErrorFinish(tls *libc.TLS, db uintptr, err_code int32) {
if (*Sqlite3)(unsafe.Pointer(db)).FpErr != 0 {
Xsqlite3ValueSetNull(tls, (*Sqlite3)(unsafe.Pointer(db)).FpErr)
}
Xsqlite3SystemError(tls, db, err_code)
}
// Set the current error code to err_code and clear any prior error message.
// Also set iSysErrno (by calling sqlite3System) if the err_code indicates
// that would be appropriate.
func Xsqlite3Error(tls *libc.TLS, db uintptr, err_code int32) {
(*Sqlite3)(unsafe.Pointer(db)).FerrCode = err_code
if err_code != 0 || (*Sqlite3)(unsafe.Pointer(db)).FpErr != 0 {
sqlite3ErrorFinish(tls, db, err_code)
} else {
(*Sqlite3)(unsafe.Pointer(db)).FerrByteOffset = -1
}
}
// The equivalent of sqlite3Error(db, SQLITE_OK). Clear the error state
// and error message.
func Xsqlite3ErrorClear(tls *libc.TLS, db uintptr) {
(*Sqlite3)(unsafe.Pointer(db)).FerrCode = SQLITE_OK
(*Sqlite3)(unsafe.Pointer(db)).FerrByteOffset = -1
if (*Sqlite3)(unsafe.Pointer(db)).FpErr != 0 {
Xsqlite3ValueSetNull(tls, (*Sqlite3)(unsafe.Pointer(db)).FpErr)
}
}
// Load the sqlite3.iSysErrno field if that is an appropriate thing
// to do based on the SQLite error code in rc.
func Xsqlite3SystemError(tls *libc.TLS, db uintptr, rc int32) {
if rc == SQLITE_IOERR|int32(12)<<8 {
return
}
rc = rc & 0xff
if rc == SQLITE_CANTOPEN || rc == SQLITE_IOERR {
(*Sqlite3)(unsafe.Pointer(db)).FiSysErrno = Xsqlite3OsGetLastError(tls, (*Sqlite3)(unsafe.Pointer(db)).FpVfs)
}
}
// Set the most recent error code and error string for the sqlite
// handle "db". The error code is set to "err_code".
//
// If it is not NULL, string zFormat specifies the format of the
// error string. zFormat and any string tokens that follow it are
// assumed to be encoded in UTF-8.
//
// To clear the most recent error for sqlite handle "db", sqlite3Error
// should be called with err_code set to SQLITE_OK and zFormat set
// to NULL.
func Xsqlite3ErrorWithMsg(tls *libc.TLS, db uintptr, err_code int32, zFormat uintptr, va uintptr) {
(*Sqlite3)(unsafe.Pointer(db)).FerrCode = err_code
Xsqlite3SystemError(tls, db, err_code)
if zFormat == uintptr(0) {
Xsqlite3Error(tls, db, err_code)
} else if (*Sqlite3)(unsafe.Pointer(db)).FpErr != 0 || libc.AssignPtrUintptr(db+424, Xsqlite3ValueNew(tls, db)) != uintptr(0) {
var z uintptr
var ap Va_list
_ = ap
ap = va
z = Xsqlite3VMPrintf(tls, db, zFormat, ap)
_ = ap
Xsqlite3ValueSetStr(tls, (*Sqlite3)(unsafe.Pointer(db)).FpErr, -1, z, uint8(SQLITE_UTF8), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3OomClear})))
}
}
// Check for interrupts and invoke progress callback.
func Xsqlite3ProgressCheck(tls *libc.TLS, p uintptr) {
var db uintptr = (*Parse)(unsafe.Pointer(p)).Fdb
if *(*int32)(unsafe.Pointer(db + 432)) != 0 {
(*Parse)(unsafe.Pointer(p)).FnErr++
(*Parse)(unsafe.Pointer(p)).Frc = SQLITE_INTERRUPT
}
if (*Sqlite3)(unsafe.Pointer(db)).FxProgress != 0 && libc.PreIncUint32(&(*Parse)(unsafe.Pointer(p)).FnProgressSteps, 1) >= (*Sqlite3)(unsafe.Pointer(db)).FnProgressOps {
if (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxProgress})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpProgressArg) != 0 {
(*Parse)(unsafe.Pointer(p)).FnErr++
(*Parse)(unsafe.Pointer(p)).Frc = SQLITE_INTERRUPT
}
(*Parse)(unsafe.Pointer(p)).FnProgressSteps = U32(0)
}
}
// Add an error message to pParse->zErrMsg and increment pParse->nErr.
//
// This function should be used to report any error that occurs while
// compiling an SQL statement (i.e. within sqlite3_prepare()). The
// last thing the sqlite3_prepare() function does is copy the error
// stored by this function into the database handle using sqlite3Error().
// Functions sqlite3Error() or sqlite3ErrorWithMsg() should be used
// during statement execution (sqlite3_step() etc.).
func Xsqlite3ErrorMsg(tls *libc.TLS, pParse uintptr, zFormat uintptr, va uintptr) {
var zMsg uintptr
var ap Va_list
_ = ap
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
(*Sqlite3)(unsafe.Pointer(db)).FerrByteOffset = -2
ap = va
zMsg = Xsqlite3VMPrintf(tls, db, zFormat, ap)
_ = ap
if (*Sqlite3)(unsafe.Pointer(db)).FerrByteOffset < -1 {
(*Sqlite3)(unsafe.Pointer(db)).FerrByteOffset = -1
}
if (*Sqlite3)(unsafe.Pointer(db)).FsuppressErr != 0 {
Xsqlite3DbFree(tls, db, zMsg)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
(*Parse)(unsafe.Pointer(pParse)).FnErr++
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_NOMEM
}
} else {
(*Parse)(unsafe.Pointer(pParse)).FnErr++
Xsqlite3DbFree(tls, db, (*Parse)(unsafe.Pointer(pParse)).FzErrMsg)
(*Parse)(unsafe.Pointer(pParse)).FzErrMsg = zMsg
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_ERROR
(*Parse)(unsafe.Pointer(pParse)).FpWith = uintptr(0)
}
}
// If database connection db is currently parsing SQL, then transfer
// error code errCode to that parser if the parser has not already
// encountered some other kind of error.
func Xsqlite3ErrorToParser(tls *libc.TLS, db uintptr, errCode int32) int32 {
var pParse uintptr
if db == uintptr(0) || libc.AssignUintptr(&pParse, (*Sqlite3)(unsafe.Pointer(db)).FpParse) == uintptr(0) {
return errCode
}
(*Parse)(unsafe.Pointer(pParse)).Frc = errCode
(*Parse)(unsafe.Pointer(pParse)).FnErr++
return errCode
}
// Convert an SQL-style quoted string into a normal string by removing
// the quote characters. The conversion is done in-place. If the
// input does not begin with a quote character, then this routine
// is a no-op.
//
// The input string must be zero-terminated. A new zero-terminator
// is added to the dequoted string.
//
// The return value is -1 if no dequoting occurs or the length of the
// dequoted string, exclusive of the zero terminator, if dequoting does
// occur.
//
// 2002-02-14: This routine is extended to remove MS-Access style
// brackets from around identifiers. For example: "[a-b-c]" becomes
// "a-b-c".
func Xsqlite3Dequote(tls *libc.TLS, z uintptr) {
var quote int8
var i int32
var j int32
if z == uintptr(0) {
return
}
quote = *(*int8)(unsafe.Pointer(z))
if !(int32(Xsqlite3CtypeMap[uint8(quote)])&0x80 != 0) {
return
}
if int32(quote) == '[' {
quote = int8(']')
}
i = 1
j = 0
for ; ; i++ {
if int32(*(*int8)(unsafe.Pointer(z + uintptr(i)))) == int32(quote) {
if int32(*(*int8)(unsafe.Pointer(z + uintptr(i+1)))) == int32(quote) {
*(*int8)(unsafe.Pointer(z + uintptr(libc.PostIncInt32(&j, 1)))) = quote
i++
} else {
break
}
} else {
*(*int8)(unsafe.Pointer(z + uintptr(libc.PostIncInt32(&j, 1)))) = *(*int8)(unsafe.Pointer(z + uintptr(i)))
}
}
*(*int8)(unsafe.Pointer(z + uintptr(j))) = int8(0)
}
func Xsqlite3DequoteExpr(tls *libc.TLS, p uintptr) {
*(*U32)(unsafe.Pointer(p + 4)) |= func() uint32 {
if int32(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 8))))) == '"' {
return uint32(EP_Quoted | EP_DblQuoted)
}
return uint32(EP_Quoted)
}()
Xsqlite3Dequote(tls, *(*uintptr)(unsafe.Pointer(p + 8)))
}
// If the input token p is quoted, try to adjust the token to remove
// the quotes. This is not always possible:
//
// "abc" -> abc
// "ab""cd" -> (not possible because of the interior "")
//
// Remove the quotes if possible. This is a optimization. The overall
// system should still return the correct answer even if this routine
// is always a no-op.
func Xsqlite3DequoteToken(tls *libc.TLS, p uintptr) {
var i uint32
if (*Token)(unsafe.Pointer(p)).Fn < uint32(2) {
return
}
if !(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer((*Token)(unsafe.Pointer(p)).Fz)))])&0x80 != 0) {
return
}
for i = uint32(1); i < (*Token)(unsafe.Pointer(p)).Fn-uint32(1); i++ {
if int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer((*Token)(unsafe.Pointer(p)).Fz + uintptr(i))))])&0x80 != 0 {
return
}
}
*(*uint32)(unsafe.Pointer(p + 8)) -= uint32(2)
(*Token)(unsafe.Pointer(p)).Fz++
}
// Generate a Token object from a string
func Xsqlite3TokenInit(tls *libc.TLS, p uintptr, z uintptr) {
(*Token)(unsafe.Pointer(p)).Fz = z
(*Token)(unsafe.Pointer(p)).Fn = uint32(Xsqlite3Strlen30(tls, z))
}
// Some systems have stricmp(). Others have strcasecmp(). Because
// there is no consistency, we will define our own.
//
// IMPLEMENTATION-OF: R-30243-02494 The sqlite3_stricmp() and
// sqlite3_strnicmp() APIs allow applications and extensions to compare
// the contents of two buffers containing UTF-8 strings in a
// case-independent fashion, using the same definition of "case
// independence" that SQLite uses internally when comparing identifiers.
func Xsqlite3_stricmp(tls *libc.TLS, zLeft uintptr, zRight uintptr) int32 {
if zLeft == uintptr(0) {
if zRight != 0 {
return -1
}
return 0
} else if zRight == uintptr(0) {
return 1
}
return Xsqlite3StrICmp(tls, zLeft, zRight)
}
func Xsqlite3StrICmp(tls *libc.TLS, zLeft uintptr, zRight uintptr) int32 {
var a uintptr
var b uintptr
var c int32
var x int32
a = zLeft
b = zRight
for {
c = int32(*(*uint8)(unsafe.Pointer(a)))
x = int32(*(*uint8)(unsafe.Pointer(b)))
if c == x {
if c == 0 {
break
}
} else {
c = int32(Xsqlite3UpperToLower[c]) - int32(Xsqlite3UpperToLower[x])
if c != 0 {
break
}
}
a++
b++
}
return c
}
func Xsqlite3_strnicmp(tls *libc.TLS, zLeft uintptr, zRight uintptr, N int32) int32 {
var a uintptr
var b uintptr
if zLeft == uintptr(0) {
if zRight != 0 {
return -1
}
return 0
} else if zRight == uintptr(0) {
return 1
}
a = zLeft
b = zRight
for libc.PostDecInt32(&N, 1) > 0 && int32(*(*uint8)(unsafe.Pointer(a))) != 0 && int32(Xsqlite3UpperToLower[*(*uint8)(unsafe.Pointer(a))]) == int32(Xsqlite3UpperToLower[*(*uint8)(unsafe.Pointer(b))]) {
a++
b++
}
if N < 0 {
return 0
}
return int32(Xsqlite3UpperToLower[*(*uint8)(unsafe.Pointer(a))]) - int32(Xsqlite3UpperToLower[*(*uint8)(unsafe.Pointer(b))])
}
// Compute an 8-bit hash on a string that is insensitive to case differences
func Xsqlite3StrIHash(tls *libc.TLS, z uintptr) U8 {
var h U8 = U8(0)
if z == uintptr(0) {
return U8(0)
}
for *(*int8)(unsafe.Pointer(z)) != 0 {
h = U8(int32(h) + int32(Xsqlite3UpperToLower[uint8(*(*int8)(unsafe.Pointer(z)))]))
z++
}
return h
}
func sqlite3Pow10(tls *libc.TLS, E int32) float64 {
var x float64 = 10.0
var r float64 = 1.0
for 1 != 0 {
if E&1 != 0 {
r = r * x
}
E >>= 1
if E == 0 {
break
}
x = x * x
}
return r
}
// The string z[] is an text representation of a real number.
// Convert this string to a double and write it into *pResult.
//
// The string z[] is length bytes in length (bytes, not characters) and
// uses the encoding enc. The string is not necessarily zero-terminated.
//
// Return TRUE if the result is a valid real number (or integer) and FALSE
// if the string is empty or contains extraneous text. More specifically
// return
//
// 1 => The input string is a pure integer
// 2 or more => The input has a decimal point or eNNN clause
// 0 or less => The input string is not a valid number
// -1 => Not a valid number, but has a valid prefix which
// includes a decimal point and/or an eNNN clause
//
// Valid numbers are in one of these formats:
//
// [+-]digits[E[+-]digits]
// [+-]digits.[digits][E[+-]digits]
// [+-].digits[E[+-]digits]
//
// Leading and trailing whitespace is ignored for the purpose of determining
// validity.
//
// If some prefix of the input string is a valid number, this routine
// returns FALSE but it still converts the prefix and writes the result
// into *pResult.
func Xsqlite3AtoF(tls *libc.TLS, z uintptr, pResult uintptr, length int32, enc U8) int32 {
var incr int32
var zEnd uintptr
var sign int32
var s I64
var d int32
var esign int32
var e int32
var eValid int32
var result float64
var nDigit int32
var eType int32
var i int32
var scale float64
var scale1 float64
sign = 1
s = int64(0)
d = 0
esign = 1
e = 0
eValid = 1
nDigit = 0
eType = 1
*(*float64)(unsafe.Pointer(pResult)) = 0.0
if !(length == 0) {
goto __1
}
return 0
__1:
;
if !(int32(enc) == SQLITE_UTF8) {
goto __2
}
incr = 1
zEnd = z + uintptr(length)
goto __3
__2:
incr = 2
length = length & libc.CplInt32(1)
i = 3 - int32(enc)
__4:
if !(i < length && int32(*(*int8)(unsafe.Pointer(z + uintptr(i)))) == 0) {
goto __6
}
goto __5
__5:
i = i + 2
goto __4
goto __6
__6:
;
if !(i < length) {
goto __7
}
eType = -100
__7:
;
zEnd = z + uintptr(i^1)
z += uintptr(int32(enc) & 1)
__3:
;
__8:
if !(z < zEnd && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z)))])&0x01 != 0) {
goto __9
}
z += uintptr(incr)
goto __8
__9:
;
if !(z >= zEnd) {
goto __10
}
return 0
__10:
;
if !(int32(*(*int8)(unsafe.Pointer(z))) == '-') {
goto __11
}
sign = -1
z += uintptr(incr)
goto __12
__11:
if !(int32(*(*int8)(unsafe.Pointer(z))) == '+') {
goto __13
}
z += uintptr(incr)
__13:
;
__12:
;
__14:
if !(z < zEnd && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z)))])&0x04 != 0) {
goto __15
}
s = s*int64(10) + I64(int32(*(*int8)(unsafe.Pointer(z)))-'0')
z += uintptr(incr)
nDigit++
if !(s >= (int64(0xffffffff)|int64(0x7fffffff)<<32-int64(9))/int64(10)) {
goto __16
}
__17:
if !(z < zEnd && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z)))])&0x04 != 0) {
goto __18
}
z += uintptr(incr)
d++
goto __17
__18:
;
__16:
;
goto __14
__15:
;
if !(z >= zEnd) {
goto __19
}
goto do_atof_calc
__19:
;
if !(int32(*(*int8)(unsafe.Pointer(z))) == '.') {
goto __20
}
z += uintptr(incr)
eType++
__21:
if !(z < zEnd && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z)))])&0x04 != 0) {
goto __22
}
if !(s < (int64(0xffffffff)|int64(0x7fffffff)<<32-int64(9))/int64(10)) {
goto __23
}
s = s*int64(10) + I64(int32(*(*int8)(unsafe.Pointer(z)))-'0')
d--
nDigit++
__23:
;
z += uintptr(incr)
goto __21
__22:
;
__20:
;
if !(z >= zEnd) {
goto __24
}
goto do_atof_calc
__24:
;
if !(int32(*(*int8)(unsafe.Pointer(z))) == 'e' || int32(*(*int8)(unsafe.Pointer(z))) == 'E') {
goto __25
}
z += uintptr(incr)
eValid = 0
eType++
if !(z >= zEnd) {
goto __26
}
goto do_atof_calc
__26:
;
if !(int32(*(*int8)(unsafe.Pointer(z))) == '-') {
goto __27
}
esign = -1
z += uintptr(incr)
goto __28
__27:
if !(int32(*(*int8)(unsafe.Pointer(z))) == '+') {
goto __29
}
z += uintptr(incr)
__29:
;
__28:
;
__30:
if !(z < zEnd && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z)))])&0x04 != 0) {
goto __31
}
if e < 10000 {
e = e*10 + (int32(*(*int8)(unsafe.Pointer(z))) - '0')
} else {
e = 10000
}
z += uintptr(incr)
eValid = 1
goto __30
__31:
;
__25:
;
__32:
if !(z < zEnd && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z)))])&0x01 != 0) {
goto __33
}
z += uintptr(incr)
goto __32
__33:
;
do_atof_calc:
e = e*esign + d
if !(e < 0) {
goto __34
}
esign = -1
e = e * -1
goto __35
__34:
esign = 1
__35:
;
if !(s == int64(0)) {
goto __36
}
if sign < 0 {
result = -libc.Float64FromFloat64(float64(0))
} else {
result = float64(0)
}
goto __37
__36:
__38:
if !(e > 0) {
goto __39
}
if !(esign > 0) {
goto __40
}
if !(s >= (int64(0xffffffff)|int64(0x7fffffff)<<32)/int64(10)) {
goto __42
}
goto __39
__42:
;
s = s * int64(10)
goto __41
__40:
if !(s%int64(10) != int64(0)) {
goto __43
}
goto __39
__43:
;
s = s / int64(10)
__41:
;
e--
goto __38
__39:
;
if sign < 0 {
s = -s
} else {
s = s
}
if !(e == 0) {
goto __44
}
result = float64(s)
goto __45
__44:
if !(e > 307) {
goto __46
}
if !(e < 342) {
goto __48
}
scale = sqlite3Pow10(tls, e-308)
if !(esign < 0) {
goto __50
}
result = float64(s) / scale
result = result / 1.0e+308
goto __51
__50:
result = float64(s) * scale
result = result * 1.0e+308
__51:
;
goto __49
__48:
;
if !(esign < 0) {
goto __52
}
result = 0.0 * float64(s)
goto __53
__52:
result = float64(libc.X__builtin_huge_valf(tls) * float32(s))
__53:
;
__49:
;
goto __47
__46:
scale1 = sqlite3Pow10(tls, e)
if !(esign < 0) {
goto __54
}
result = float64(s) / scale1
goto __55
__54:
result = float64(s) * scale1
__55:
;
__47:
;
__45:
;
__37:
;
*(*float64)(unsafe.Pointer(pResult)) = result
if !(z == zEnd && nDigit > 0 && eValid != 0 && eType > 0) {
goto __56
}
return eType
goto __57
__56:
if !(eType >= 2 && (eType == 3 || eValid != 0) && nDigit > 0) {
goto __58
}
return -1
goto __59
__58:
return 0
__59:
;
__57:
;
return int32(0)
}
// Render an signed 64-bit integer as text. Store the result in zOut[] and
// return the length of the string that was stored, in bytes. The value
// returned does not include the zero terminator at the end of the output
// string.
//
// The caller must ensure that zOut[] is at least 21 bytes in size.
func Xsqlite3Int64ToText(tls *libc.TLS, v I64, zOut uintptr) int32 {
bp := tls.Alloc(22)
defer tls.Free(22)
var i int32
var x U64
if v < int64(0) {
if v == int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32) {
x = uint64(1) << 63
} else {
x = U64(-v)
}
} else {
x = U64(v)
}
i = int32(uint64(unsafe.Sizeof([22]int8{})) - uint64(2))
*(*int8)(unsafe.Pointer(bp + 21)) = int8(0)
for __ccgo := true; __ccgo; __ccgo = x != 0 {
*(*int8)(unsafe.Pointer(bp + uintptr(libc.PostDecInt32(&i, 1)))) = int8(x%uint64(10) + uint64('0'))
x = x / uint64(10)
}
if v < int64(0) {
*(*int8)(unsafe.Pointer(bp + uintptr(libc.PostDecInt32(&i, 1)))) = int8('-')
}
libc.X__builtin___memcpy_chk(tls, zOut, bp+uintptr(i+1), uint64(unsafe.Sizeof([22]int8{}))-uint64(1)-uint64(i), libc.X__builtin_object_size(tls, zOut, 0))
return int32(uint64(unsafe.Sizeof([22]int8{})) - uint64(2) - uint64(i))
}
func compare2pow63(tls *libc.TLS, zNum uintptr, incr int32) int32 {
var c int32 = 0
var i int32
var pow63 uintptr = ts + 1595
for i = 0; c == 0 && i < 18; i++ {
c = (int32(*(*int8)(unsafe.Pointer(zNum + uintptr(i*incr)))) - int32(*(*int8)(unsafe.Pointer(pow63 + uintptr(i))))) * 10
}
if c == 0 {
c = int32(*(*int8)(unsafe.Pointer(zNum + uintptr(18*incr)))) - '8'
}
return c
}
// Convert zNum to a 64-bit signed integer. zNum must be decimal. This
// routine does *not* accept hexadecimal notation.
//
// Returns:
//
// -1 Not even a prefix of the input text looks like an integer
// 0 Successful transformation. Fits in a 64-bit signed integer.
// 1 Excess non-space text after the integer value
// 2 Integer too large for a 64-bit signed integer or is malformed
// 3 Special case of 9223372036854775808
//
// length is the number of bytes in the string (bytes, not characters).
// The string is not necessarily zero-terminated. The encoding is
// given by enc.
func Xsqlite3Atoi64(tls *libc.TLS, zNum uintptr, pNum uintptr, length int32, enc U8) int32 {
var incr int32
var u U64 = uint64(0)
var neg int32 = 0
var i int32
var c int32 = 0
var nonNum int32 = 0
var rc int32
var zStart uintptr
var zEnd uintptr = zNum + uintptr(length)
if int32(enc) == SQLITE_UTF8 {
incr = 1
} else {
incr = 2
length = length & libc.CplInt32(1)
for i = 3 - int32(enc); i < length && int32(*(*int8)(unsafe.Pointer(zNum + uintptr(i)))) == 0; i = i + 2 {
}
nonNum = libc.Bool32(i < length)
zEnd = zNum + uintptr(i^1)
zNum += uintptr(int32(enc) & 1)
}
for zNum < zEnd && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zNum)))])&0x01 != 0 {
zNum += uintptr(incr)
}
if zNum < zEnd {
if int32(*(*int8)(unsafe.Pointer(zNum))) == '-' {
neg = 1
zNum += uintptr(incr)
} else if int32(*(*int8)(unsafe.Pointer(zNum))) == '+' {
zNum += uintptr(incr)
}
}
zStart = zNum
for zNum < zEnd && int32(*(*int8)(unsafe.Pointer(zNum))) == '0' {
zNum += uintptr(incr)
}
for i = 0; zNum+uintptr(i) < zEnd && libc.AssignInt32(&c, int32(*(*int8)(unsafe.Pointer(zNum + uintptr(i))))) >= '0' && c <= '9'; i = i + incr {
u = u*uint64(10) + U64(c) - uint64('0')
}
if u > uint64(int64(0xffffffff)|int64(0x7fffffff)<<32) {
*(*I64)(unsafe.Pointer(pNum)) = func() int64 {
if neg != 0 {
return int64(-1) - (int64(0xffffffff) | int64(0x7fffffff)<<32)
}
return int64(0xffffffff) | int64(0x7fffffff)<<32
}()
} else if neg != 0 {
*(*I64)(unsafe.Pointer(pNum)) = -I64(u)
} else {
*(*I64)(unsafe.Pointer(pNum)) = I64(u)
}
rc = 0
if i == 0 && zStart == zNum {
rc = -1
} else if nonNum != 0 {
rc = 1
} else if zNum+uintptr(i) < zEnd {
var jj int32 = i
for __ccgo := true; __ccgo; __ccgo = zNum+uintptr(jj) < zEnd {
if !(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zNum + uintptr(jj))))])&0x01 != 0) {
rc = 1
break
}
jj = jj + incr
}
}
if i < 19*incr {
return rc
} else {
if i > 19*incr {
c = 1
} else {
c = compare2pow63(tls, zNum, incr)
}
if c < 0 {
return rc
} else {
*(*I64)(unsafe.Pointer(pNum)) = func() int64 {
if neg != 0 {
return int64(-1) - (int64(0xffffffff) | int64(0x7fffffff)<<32)
}
return int64(0xffffffff) | int64(0x7fffffff)<<32
}()
if c > 0 {
return 2
} else {
if neg != 0 {
return rc
}
return 3
}
}
}
return int32(0)
}
// Transform a UTF-8 integer literal, in either decimal or hexadecimal,
// into a 64-bit signed integer. This routine accepts hexadecimal literals,
// whereas sqlite3Atoi64() does not.
//
// Returns:
//
// 0 Successful transformation. Fits in a 64-bit signed integer.
// 1 Excess text after the integer value
// 2 Integer too large for a 64-bit signed integer or is malformed
// 3 Special case of 9223372036854775808
func Xsqlite3DecOrHexToI64(tls *libc.TLS, z uintptr, pOut uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
if int32(*(*int8)(unsafe.Pointer(z))) == '0' &&
(int32(*(*int8)(unsafe.Pointer(z + 1))) == 'x' || int32(*(*int8)(unsafe.Pointer(z + 1))) == 'X') {
*(*U64)(unsafe.Pointer(bp)) = uint64(0)
var i int32
var k int32
for i = 2; int32(*(*int8)(unsafe.Pointer(z + uintptr(i)))) == '0'; i++ {
}
for k = i; int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z + uintptr(k))))])&0x08 != 0; k++ {
*(*U64)(unsafe.Pointer(bp)) = *(*U64)(unsafe.Pointer(bp))*uint64(16) + U64(Xsqlite3HexToInt(tls, int32(*(*int8)(unsafe.Pointer(z + uintptr(k))))))
}
libc.X__builtin___memcpy_chk(tls, pOut, bp, uint64(8), libc.X__builtin_object_size(tls, pOut, 0))
if int32(*(*int8)(unsafe.Pointer(z + uintptr(k)))) == 0 && k-i <= 16 {
return 0
}
return 2
} else {
return Xsqlite3Atoi64(tls, z, pOut, Xsqlite3Strlen30(tls, z), uint8(SQLITE_UTF8))
}
return int32(0)
}
// If zNum represents an integer that will fit in 32-bits, then set
// *pValue to that integer and return true. Otherwise return false.
//
// This routine accepts both decimal and hexadecimal notation for integers.
//
// Any non-numeric characters that following zNum are ignored.
// This is different from sqlite3Atoi64() which requires the
// input number to be zero-terminated.
func Xsqlite3GetInt32(tls *libc.TLS, zNum uintptr, pValue uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var v Sqlite_int64 = int64(0)
var i int32
var c int32
var neg int32 = 0
if int32(*(*int8)(unsafe.Pointer(zNum))) == '-' {
neg = 1
zNum++
} else if int32(*(*int8)(unsafe.Pointer(zNum))) == '+' {
zNum++
} else if int32(*(*int8)(unsafe.Pointer(zNum))) == '0' &&
(int32(*(*int8)(unsafe.Pointer(zNum + 1))) == 'x' || int32(*(*int8)(unsafe.Pointer(zNum + 1))) == 'X') &&
int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zNum + 2)))])&0x08 != 0 {
*(*U32)(unsafe.Pointer(bp)) = U32(0)
zNum += uintptr(2)
for int32(*(*int8)(unsafe.Pointer(zNum))) == '0' {
zNum++
}
for i = 0; int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zNum + uintptr(i))))])&0x08 != 0 && i < 8; i++ {
*(*U32)(unsafe.Pointer(bp)) = *(*U32)(unsafe.Pointer(bp))*U32(16) + U32(Xsqlite3HexToInt(tls, int32(*(*int8)(unsafe.Pointer(zNum + uintptr(i))))))
}
if *(*U32)(unsafe.Pointer(bp))&0x80000000 == U32(0) && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zNum + uintptr(i))))])&0x08 == 0 {
libc.X__builtin___memcpy_chk(tls, pValue, bp, uint64(4), libc.X__builtin_object_size(tls, pValue, 0))
return 1
} else {
return 0
}
}
if !(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zNum)))])&0x04 != 0) {
return 0
}
for int32(*(*int8)(unsafe.Pointer(zNum))) == '0' {
zNum++
}
for i = 0; i < 11 && libc.AssignInt32(&c, int32(*(*int8)(unsafe.Pointer(zNum + uintptr(i))))-'0') >= 0 && c <= 9; i++ {
v = v*int64(10) + Sqlite_int64(c)
}
if i > 10 {
return 0
}
if v-Sqlite_int64(neg) > int64(2147483647) {
return 0
}
if neg != 0 {
v = -v
}
*(*int32)(unsafe.Pointer(pValue)) = int32(v)
return 1
}
// Return a 32-bit integer value extracted from a string. If the
// string is not an integer, just return 0.
func Xsqlite3Atoi(tls *libc.TLS, z uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
*(*int32)(unsafe.Pointer(bp)) = 0
Xsqlite3GetInt32(tls, z, bp)
return *(*int32)(unsafe.Pointer(bp))
}
// Try to convert z into an unsigned 32-bit integer. Return true on
// success and false if there is an error.
//
// Only decimal notation is accepted.
func Xsqlite3GetUInt32(tls *libc.TLS, z uintptr, pI uintptr) int32 {
var v U64 = uint64(0)
var i int32
for i = 0; int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z + uintptr(i))))])&0x04 != 0; i++ {
v = v*uint64(10) + U64(*(*int8)(unsafe.Pointer(z + uintptr(i)))) - uint64('0')
if v > uint64(4294967296) {
*(*U32)(unsafe.Pointer(pI)) = U32(0)
return 0
}
}
if i == 0 || int32(*(*int8)(unsafe.Pointer(z + uintptr(i)))) != 0 {
*(*U32)(unsafe.Pointer(pI)) = U32(0)
return 0
}
*(*U32)(unsafe.Pointer(pI)) = U32(v)
return 1
}
func putVarint64(tls *libc.TLS, p uintptr, v U64) int32 {
bp := tls.Alloc(10)
defer tls.Free(10)
var i int32
var j int32
var n int32
if v&(uint64(0xff000000)<<32) != 0 {
*(*uint8)(unsafe.Pointer(p + 8)) = U8(v)
v >>= 8
for i = 7; i >= 0; i-- {
*(*uint8)(unsafe.Pointer(p + uintptr(i))) = U8(v&uint64(0x7f) | uint64(0x80))
v >>= 7
}
return 9
}
n = 0
for __ccgo := true; __ccgo; __ccgo = v != uint64(0) {
*(*U8)(unsafe.Pointer(bp + uintptr(libc.PostIncInt32(&n, 1)))) = U8(v&uint64(0x7f) | uint64(0x80))
v >>= 7
}
*(*U8)(unsafe.Pointer(bp)) &= U8(0x7f)
i = 0
j = n - 1
__1:
if !(j >= 0) {
goto __3
}
{
*(*uint8)(unsafe.Pointer(p + uintptr(i))) = *(*U8)(unsafe.Pointer(bp + uintptr(j)))
}
goto __2
__2:
j--
i++
goto __1
goto __3
__3:
;
return n
}
func Xsqlite3PutVarint(tls *libc.TLS, p uintptr, v U64) int32 {
if v <= uint64(0x7f) {
*(*uint8)(unsafe.Pointer(p)) = uint8(v & uint64(0x7f))
return 1
}
if v <= uint64(0x3fff) {
*(*uint8)(unsafe.Pointer(p)) = uint8(v>>7&uint64(0x7f) | uint64(0x80))
*(*uint8)(unsafe.Pointer(p + 1)) = uint8(v & uint64(0x7f))
return 2
}
return putVarint64(tls, p, v)
}
// Read a 64-bit variable-length integer from memory starting at p[0].
// Return the number of bytes read. The value is stored in *v.
func Xsqlite3GetVarint(tls *libc.TLS, p uintptr, v uintptr) U8 {
var a U32
var b U32
var s U32
if int32(*(*int8)(unsafe.Pointer(p))) >= 0 {
*(*U64)(unsafe.Pointer(v)) = U64(*(*uint8)(unsafe.Pointer(p)))
return U8(1)
}
if int32(*(*int8)(unsafe.Pointer(p + 1))) >= 0 {
*(*U64)(unsafe.Pointer(v)) = U64(U32(int32(*(*uint8)(unsafe.Pointer(p)))&0x7f)<<7 | U32(*(*uint8)(unsafe.Pointer(p + 1))))
return U8(2)
}
a = U32(*(*uint8)(unsafe.Pointer(p))) << 14
b = U32(*(*uint8)(unsafe.Pointer(p + 1)))
p += uintptr(2)
a = a | U32(*(*uint8)(unsafe.Pointer(p)))
if !(a&U32(0x80) != 0) {
a = a & U32(SLOT_2_0)
b = b & U32(0x7f)
b = b << 7
a = a | b
*(*U64)(unsafe.Pointer(v)) = U64(a)
return U8(3)
}
a = a & U32(SLOT_2_0)
p++
b = b << 14
b = b | U32(*(*uint8)(unsafe.Pointer(p)))
if !(b&U32(0x80) != 0) {
b = b & U32(SLOT_2_0)
a = a << 7
a = a | b
*(*U64)(unsafe.Pointer(v)) = U64(a)
return U8(4)
}
b = b & U32(SLOT_2_0)
s = a
p++
a = a << 14
a = a | U32(*(*uint8)(unsafe.Pointer(p)))
if !(a&U32(0x80) != 0) {
b = b << 7
a = a | b
s = s >> 18
*(*U64)(unsafe.Pointer(v)) = U64(s)<<32 | U64(a)
return U8(5)
}
s = s << 7
s = s | b
p++
b = b << 14
b = b | U32(*(*uint8)(unsafe.Pointer(p)))
if !(b&U32(0x80) != 0) {
a = a & U32(SLOT_2_0)
a = a << 7
a = a | b
s = s >> 18
*(*U64)(unsafe.Pointer(v)) = U64(s)<<32 | U64(a)
return U8(6)
}
p++
a = a << 14
a = a | U32(*(*uint8)(unsafe.Pointer(p)))
if !(a&U32(0x80) != 0) {
a = a & SLOT_4_2_0
b = b & U32(SLOT_2_0)
b = b << 7
a = a | b
s = s >> 11
*(*U64)(unsafe.Pointer(v)) = U64(s)<<32 | U64(a)
return U8(7)
}
a = a & U32(SLOT_2_0)
p++
b = b << 14
b = b | U32(*(*uint8)(unsafe.Pointer(p)))
if !(b&U32(0x80) != 0) {
b = b & SLOT_4_2_0
a = a << 7
a = a | b
s = s >> 4
*(*U64)(unsafe.Pointer(v)) = U64(s)<<32 | U64(a)
return U8(8)
}
p++
a = a << 15
a = a | U32(*(*uint8)(unsafe.Pointer(p)))
b = b & U32(SLOT_2_0)
b = b << 8
a = a | b
s = s << 4
b = U32(*(*uint8)(unsafe.Pointer(p + libc.UintptrFromInt32(-4))))
b = b & U32(0x7f)
b = b >> 3
s = s | b
*(*U64)(unsafe.Pointer(v)) = U64(s)<<32 | U64(a)
return U8(9)
}
// Read a 32-bit variable-length integer from memory starting at p[0].
// Return the number of bytes read. The value is stored in *v.
//
// If the varint stored in p[0] is larger than can fit in a 32-bit unsigned
// integer, then set *v to 0xffffffff.
//
// A MACRO version, getVarint32, is provided which inlines the
// single-byte case. All code should use the MACRO version as
// this function assumes the single-byte case has already been handled.
func Xsqlite3GetVarint32(tls *libc.TLS, p uintptr, v uintptr) U8 {
bp := tls.Alloc(8)
defer tls.Free(8)
var a U32
var b U32
a = U32(*(*uint8)(unsafe.Pointer(p)))
p++
b = U32(*(*uint8)(unsafe.Pointer(p)))
if !(b&U32(0x80) != 0) {
a = a & U32(0x7f)
a = a << 7
*(*U32)(unsafe.Pointer(v)) = a | b
return U8(2)
}
p++
a = a << 14
a = a | U32(*(*uint8)(unsafe.Pointer(p)))
if !(a&U32(0x80) != 0) {
a = a & U32(int32(0x7f)<<14|0x7f)
b = b & U32(0x7f)
b = b << 7
*(*U32)(unsafe.Pointer(v)) = a | b
return U8(3)
}
{
var n U8
n = Xsqlite3GetVarint(tls, p-uintptr(2), bp)
if *(*U64)(unsafe.Pointer(bp))&(uint64(1)<<32-uint64(1)) != *(*U64)(unsafe.Pointer(bp)) {
*(*U32)(unsafe.Pointer(v)) = 0xffffffff
} else {
*(*U32)(unsafe.Pointer(v)) = U32(*(*U64)(unsafe.Pointer(bp)))
}
return n
}
return U8(0)
}
// Return the number of bytes that will be needed to store the given
// 64-bit integer.
func Xsqlite3VarintLen(tls *libc.TLS, v U64) int32 {
var i int32
for i = 1; libc.AssignShrUint64(&v, int(uint64(7))) != uint64(0); i++ {
}
return i
}
// Read or write a four-byte big-endian integer value.
func Xsqlite3Get4byte(tls *libc.TLS, p uintptr) U32 {
return uint32(*(*U8)(unsafe.Pointer(p)))<<24 | uint32(int32(*(*U8)(unsafe.Pointer(p + 1)))<<16) | uint32(int32(*(*U8)(unsafe.Pointer(p + 2)))<<8) | uint32(*(*U8)(unsafe.Pointer(p + 3)))
}
func Xsqlite3Put4byte(tls *libc.TLS, p uintptr, v U32) {
*(*uint8)(unsafe.Pointer(p)) = U8(v >> 24)
*(*uint8)(unsafe.Pointer(p + 1)) = U8(v >> 16)
*(*uint8)(unsafe.Pointer(p + 2)) = U8(v >> 8)
*(*uint8)(unsafe.Pointer(p + 3)) = U8(v)
}
// Translate a single byte of Hex into an integer.
// This routine only works if h really is a valid hexadecimal
// character: 0..9a..fA..F
func Xsqlite3HexToInt(tls *libc.TLS, h int32) U8 {
h = h + 9*(1&(h>>6))
return U8(h & 0xf)
}
// Convert a BLOB literal of the form "x'hhhhhh'" into its binary
// value. Return a pointer to its binary value. Space to hold the
// binary value has been obtained from malloc and must be freed by
// the calling routine.
func Xsqlite3HexToBlob(tls *libc.TLS, db uintptr, z uintptr, n int32) uintptr {
var zBlob uintptr
var i int32
zBlob = Xsqlite3DbMallocRawNN(tls, db, uint64(n/2+1))
n--
if zBlob != 0 {
for i = 0; i < n; i = i + 2 {
*(*int8)(unsafe.Pointer(zBlob + uintptr(i/2))) = int8(int32(Xsqlite3HexToInt(tls, int32(*(*int8)(unsafe.Pointer(z + uintptr(i))))))<<4 | int32(Xsqlite3HexToInt(tls, int32(*(*int8)(unsafe.Pointer(z + uintptr(i+1)))))))
}
*(*int8)(unsafe.Pointer(zBlob + uintptr(i/2))) = int8(0)
}
return zBlob
}
func logBadConnection(tls *libc.TLS, zType uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
Xsqlite3_log(tls, SQLITE_MISUSE,
ts+1614,
libc.VaList(bp, zType))
}
// Check to make sure we have a valid db pointer. This test is not
// foolproof but it does provide some measure of protection against
// misuse of the interface such as passing in db pointers that are
// NULL or which have been previously closed. If this routine returns
// 1 it means that the db pointer is valid and 0 if it should not be
// dereferenced for any reason. The calling function should invoke
// SQLITE_MISUSE immediately.
//
// sqlite3SafetyCheckOk() requires that the db pointer be valid for
// use. sqlite3SafetyCheckSickOrOk() allows a db pointer that failed to
// open properly and is not fit for general use but which can be
// used as an argument to sqlite3_errmsg() or sqlite3_close().
func Xsqlite3SafetyCheckOk(tls *libc.TLS, db uintptr) int32 {
var eOpenState U8
if db == uintptr(0) {
logBadConnection(tls, ts+1548)
return 0
}
eOpenState = (*Sqlite3)(unsafe.Pointer(db)).FeOpenState
if int32(eOpenState) != SQLITE_STATE_OPEN {
if Xsqlite3SafetyCheckSickOrOk(tls, db) != 0 {
logBadConnection(tls, ts+1659)
}
return 0
} else {
return 1
}
return int32(0)
}
func Xsqlite3SafetyCheckSickOrOk(tls *libc.TLS, db uintptr) int32 {
var eOpenState U8
eOpenState = (*Sqlite3)(unsafe.Pointer(db)).FeOpenState
if int32(eOpenState) != SQLITE_STATE_SICK && int32(eOpenState) != SQLITE_STATE_OPEN && int32(eOpenState) != SQLITE_STATE_BUSY {
logBadConnection(tls, ts+1668)
return 0
} else {
return 1
}
return int32(0)
}
// Attempt to add, substract, or multiply the 64-bit signed value iB against
// the other 64-bit signed integer at *pA and store the result in *pA.
// Return 0 on success. Or if the operation would have resulted in an
// overflow, leave *pA unchanged and return 1.
func Xsqlite3AddInt64(tls *libc.TLS, pA uintptr, iB I64) int32 {
var iA I64 = *(*I64)(unsafe.Pointer(pA))
if iB >= int64(0) {
if iA > int64(0) && int64(0xffffffff)|int64(0x7fffffff)<<32-iA < iB {
return 1
}
} else {
if iA < int64(0) && -(iA+(int64(0xffffffff)|int64(0x7fffffff)<<32)) > iB+int64(1) {
return 1
}
}
*(*I64)(unsafe.Pointer(pA)) += iB
return 0
}
func Xsqlite3SubInt64(tls *libc.TLS, pA uintptr, iB I64) int32 {
if iB == int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32) {
if *(*I64)(unsafe.Pointer(pA)) >= int64(0) {
return 1
}
*(*I64)(unsafe.Pointer(pA)) -= iB
return 0
} else {
return Xsqlite3AddInt64(tls, pA, -iB)
}
return int32(0)
}
func Xsqlite3MulInt64(tls *libc.TLS, pA uintptr, iB I64) int32 {
var iA I64 = *(*I64)(unsafe.Pointer(pA))
if iB > int64(0) {
if iA > (int64(0xffffffff)|int64(0x7fffffff)<<32)/iB {
return 1
}
if iA < (int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32))/iB {
return 1
}
} else if iB < int64(0) {
if iA > int64(0) {
if iB < (int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32))/iA {
return 1
}
} else if iA < int64(0) {
if iB == int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32) {
return 1
}
if iA == int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32) {
return 1
}
if -iA > (int64(0xffffffff)|int64(0x7fffffff)<<32)/-iB {
return 1
}
}
}
*(*I64)(unsafe.Pointer(pA)) = iA * iB
return 0
}
// Compute the absolute value of a 32-bit signed integer, of possible. Or
// if the integer has a value of -2147483648, return +2147483647
func Xsqlite3AbsInt32(tls *libc.TLS, x int32) int32 {
if x >= 0 {
return x
}
if x == libc.Int32FromUint32(0x80000000) {
return 0x7fffffff
}
return -x
}
// Find (an approximate) sum of two LogEst values. This computation is
// not a simple "+" operator because LogEst is stored as a logarithmic
// value.
func Xsqlite3LogEstAdd(tls *libc.TLS, a LogEst, b LogEst) LogEst {
if int32(a) >= int32(b) {
if int32(a) > int32(b)+49 {
return a
}
if int32(a) > int32(b)+31 {
return LogEst(int32(a) + 1)
}
return LogEst(int32(a) + int32(x[int32(a)-int32(b)]))
} else {
if int32(b) > int32(a)+49 {
return b
}
if int32(b) > int32(a)+31 {
return LogEst(int32(b) + 1)
}
return LogEst(int32(b) + int32(x[int32(b)-int32(a)]))
}
return LogEst(0)
}
var x = [32]uint8{
uint8(10), uint8(10),
uint8(9), uint8(9),
uint8(8), uint8(8),
uint8(7), uint8(7), uint8(7),
uint8(6), uint8(6), uint8(6),
uint8(5), uint8(5), uint8(5),
uint8(4), uint8(4), uint8(4), uint8(4),
uint8(3), uint8(3), uint8(3), uint8(3), uint8(3), uint8(3),
uint8(2), uint8(2), uint8(2), uint8(2), uint8(2), uint8(2), uint8(2),
}
// Convert an integer into a LogEst. In other words, compute an
// approximation for 10*log2(x).
func Xsqlite3LogEst(tls *libc.TLS, x U64) LogEst {
var y LogEst = int16(40)
if x < uint64(8) {
if x < uint64(2) {
return int16(0)
}
for x < uint64(8) {
y = int16(int32(y) - 10)
x <<= 1
}
} else {
for x > uint64(255) {
y = int16(int32(y) + 40)
x >>= 4
}
for x > uint64(15) {
y = int16(int32(y) + 10)
x >>= 1
}
}
return LogEst(int32(a[x&uint64(7)]) + int32(y) - 10)
}
var a = [8]LogEst{int16(0), int16(2), int16(3), int16(5), int16(6), int16(7), int16(8), int16(9)}
// Convert a double into a LogEst
// In other words, compute an approximation for 10*log2(x).
func Xsqlite3LogEstFromDouble(tls *libc.TLS, x float64) LogEst {
bp := tls.Alloc(16)
defer tls.Free(16)
*(*float64)(unsafe.Pointer(bp + 8)) = x
var e LogEst
if *(*float64)(unsafe.Pointer(bp + 8)) <= float64(1) {
return int16(0)
}
if *(*float64)(unsafe.Pointer(bp + 8)) <= float64(2000000000) {
return Xsqlite3LogEst(tls, U64(*(*float64)(unsafe.Pointer(bp + 8))))
}
libc.X__builtin___memcpy_chk(tls, bp, bp+8, uint64(8), libc.X__builtin_object_size(tls, bp, 0))
e = LogEst(*(*U64)(unsafe.Pointer(bp))>>52 - uint64(1022))
return LogEst(int32(e) * 10)
}
// Convert a LogEst into an integer.
func Xsqlite3LogEstToInt(tls *libc.TLS, x LogEst) U64 {
var n U64
n = U64(int32(x) % 10)
x = int16(int32(x) / 10)
if n >= uint64(5) {
n = n - uint64(2)
} else if n >= uint64(1) {
n = n - uint64(1)
}
if int32(x) > 60 {
return uint64(int64(0xffffffff) | int64(0x7fffffff)<<32)
}
if int32(x) >= 3 {
return (n + uint64(8)) << (int32(x) - 3)
}
return (n + uint64(8)) >> (3 - int32(x))
}
// Add a new name/number pair to a VList. This might require that the
// VList object be reallocated, so return the new VList. If an OOM
// error occurs, the original VList returned and the
// db->mallocFailed flag is set.
//
// A VList is really just an array of integers. To destroy a VList,
// simply pass it to sqlite3DbFree().
//
// The first integer is the number of integers allocated for the whole
// VList. The second integer is the number of integers actually used.
// Each name/number pair is encoded by subsequent groups of 3 or more
// integers.
//
// Each name/number pair starts with two integers which are the numeric
// value for the pair and the size of the name/number pair, respectively.
// The text name overlays one or more following integers. The text name
// is always zero-terminated.
//
// Conceptually:
//
// struct VList {
// int nAlloc; // Number of allocated slots
// int nUsed; // Number of used slots
// struct VListEntry {
// int iValue; // Value for this entry
// int nSlot; // Slots used by this entry
// // ... variable name goes here
// } a[0];
// }
//
// During code generation, pointers to the variable names within the
// VList are taken. When that happens, nAlloc is set to zero as an
// indication that the VList may never again be enlarged, since the
// accompanying realloc() would invalidate the pointers.
func Xsqlite3VListAdd(tls *libc.TLS, db uintptr, pIn uintptr, zName uintptr, nName int32, iVal int32) uintptr {
var nInt int32
var z uintptr
var i int32
nInt = nName/4 + 3
if pIn == uintptr(0) || *(*VList)(unsafe.Pointer(pIn + 1*4))+nInt > *(*VList)(unsafe.Pointer(pIn)) {
var nAlloc Sqlite3_int64 = func() int64 {
if pIn != 0 {
return int64(2) * Sqlite3_int64(*(*VList)(unsafe.Pointer(pIn)))
}
return int64(10)
}() + Sqlite3_int64(nInt)
var pOut uintptr = Xsqlite3DbRealloc(tls, db, pIn, uint64(nAlloc)*uint64(unsafe.Sizeof(int32(0))))
if pOut == uintptr(0) {
return pIn
}
if pIn == uintptr(0) {
*(*VList)(unsafe.Pointer(pOut + 1*4)) = 2
}
pIn = pOut
*(*VList)(unsafe.Pointer(pIn)) = VList(nAlloc)
}
i = *(*VList)(unsafe.Pointer(pIn + 1*4))
*(*VList)(unsafe.Pointer(pIn + uintptr(i)*4)) = iVal
*(*VList)(unsafe.Pointer(pIn + uintptr(i+1)*4)) = nInt
z = pIn + uintptr(i+2)*4
*(*VList)(unsafe.Pointer(pIn + 1*4)) = i + nInt
libc.X__builtin___memcpy_chk(tls, z, zName, uint64(nName), libc.X__builtin_object_size(tls, z, 0))
*(*int8)(unsafe.Pointer(z + uintptr(nName))) = int8(0)
return pIn
}
// Return a pointer to the name of a variable in the given VList that
// has the value iVal. Or return a NULL if there is no such variable in
// the list
func Xsqlite3VListNumToName(tls *libc.TLS, pIn uintptr, iVal int32) uintptr {
var i int32
var mx int32
if pIn == uintptr(0) {
return uintptr(0)
}
mx = *(*VList)(unsafe.Pointer(pIn + 1*4))
i = 2
for __ccgo := true; __ccgo; __ccgo = i < mx {
if *(*VList)(unsafe.Pointer(pIn + uintptr(i)*4)) == iVal {
return pIn + uintptr(i+2)*4
}
i = i + *(*VList)(unsafe.Pointer(pIn + uintptr(i+1)*4))
}
return uintptr(0)
}
// Return the number of the variable named zName, if it is in VList.
// or return 0 if there is no such variable.
func Xsqlite3VListNameToNum(tls *libc.TLS, pIn uintptr, zName uintptr, nName int32) int32 {
var i int32
var mx int32
if pIn == uintptr(0) {
return 0
}
mx = *(*VList)(unsafe.Pointer(pIn + 1*4))
i = 2
for __ccgo := true; __ccgo; __ccgo = i < mx {
var z uintptr = pIn + uintptr(i+2)*4
if libc.Xstrncmp(tls, z, zName, uint64(nName)) == 0 && int32(*(*int8)(unsafe.Pointer(z + uintptr(nName)))) == 0 {
return *(*VList)(unsafe.Pointer(pIn + uintptr(i)*4))
}
i = i + *(*VList)(unsafe.Pointer(pIn + uintptr(i+1)*4))
}
return 0
}
// Turn bulk memory into a hash table object by initializing the
// fields of the Hash structure.
//
// "pNew" is a pointer to the hash table that is to be initialized.
func Xsqlite3HashInit(tls *libc.TLS, pNew uintptr) {
(*Hash)(unsafe.Pointer(pNew)).Ffirst = uintptr(0)
(*Hash)(unsafe.Pointer(pNew)).Fcount = uint32(0)
(*Hash)(unsafe.Pointer(pNew)).Fhtsize = uint32(0)
(*Hash)(unsafe.Pointer(pNew)).Fht = uintptr(0)
}
// Remove all entries from a hash table. Reclaim all memory.
// Call this routine to delete a hash table or to reset a hash table
// to the empty state.
func Xsqlite3HashClear(tls *libc.TLS, pH uintptr) {
var elem uintptr
elem = (*Hash)(unsafe.Pointer(pH)).Ffirst
(*Hash)(unsafe.Pointer(pH)).Ffirst = uintptr(0)
Xsqlite3_free(tls, (*Hash)(unsafe.Pointer(pH)).Fht)
(*Hash)(unsafe.Pointer(pH)).Fht = uintptr(0)
(*Hash)(unsafe.Pointer(pH)).Fhtsize = uint32(0)
for elem != 0 {
var next_elem uintptr = (*HashElem)(unsafe.Pointer(elem)).Fnext
Xsqlite3_free(tls, elem)
elem = next_elem
}
(*Hash)(unsafe.Pointer(pH)).Fcount = uint32(0)
}
func strHash(tls *libc.TLS, z uintptr) uint32 {
var h uint32 = uint32(0)
var c uint8
for int32(libc.AssignUint8(&c, uint8(*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1)))))) != 0 {
h = h + uint32(Xsqlite3UpperToLower[c])
h = h * 0x9e3779b1
}
return h
}
func insertElement(tls *libc.TLS, pH uintptr, pEntry uintptr, pNew uintptr) {
var pHead uintptr
if pEntry != 0 {
if (*_ht)(unsafe.Pointer(pEntry)).Fcount != 0 {
pHead = (*_ht)(unsafe.Pointer(pEntry)).Fchain
} else {
pHead = uintptr(0)
}
(*_ht)(unsafe.Pointer(pEntry)).Fcount++
(*_ht)(unsafe.Pointer(pEntry)).Fchain = pNew
} else {
pHead = uintptr(0)
}
if pHead != 0 {
(*HashElem)(unsafe.Pointer(pNew)).Fnext = pHead
(*HashElem)(unsafe.Pointer(pNew)).Fprev = (*HashElem)(unsafe.Pointer(pHead)).Fprev
if (*HashElem)(unsafe.Pointer(pHead)).Fprev != 0 {
(*HashElem)(unsafe.Pointer((*HashElem)(unsafe.Pointer(pHead)).Fprev)).Fnext = pNew
} else {
(*Hash)(unsafe.Pointer(pH)).Ffirst = pNew
}
(*HashElem)(unsafe.Pointer(pHead)).Fprev = pNew
} else {
(*HashElem)(unsafe.Pointer(pNew)).Fnext = (*Hash)(unsafe.Pointer(pH)).Ffirst
if (*Hash)(unsafe.Pointer(pH)).Ffirst != 0 {
(*HashElem)(unsafe.Pointer((*Hash)(unsafe.Pointer(pH)).Ffirst)).Fprev = pNew
}
(*HashElem)(unsafe.Pointer(pNew)).Fprev = uintptr(0)
(*Hash)(unsafe.Pointer(pH)).Ffirst = pNew
}
}
func rehash(tls *libc.TLS, pH uintptr, new_size uint32) int32 {
var new_ht uintptr
var elem uintptr
var next_elem uintptr
if uint64(new_size)*uint64(unsafe.Sizeof(_ht{})) > uint64(SQLITE_MALLOC_SOFT_LIMIT) {
new_size = uint32(uint64(SQLITE_MALLOC_SOFT_LIMIT) / uint64(unsafe.Sizeof(_ht{})))
}
if new_size == (*Hash)(unsafe.Pointer(pH)).Fhtsize {
return 0
}
Xsqlite3BeginBenignMalloc(tls)
new_ht = Xsqlite3Malloc(tls, uint64(new_size)*uint64(unsafe.Sizeof(_ht{})))
Xsqlite3EndBenignMalloc(tls)
if new_ht == uintptr(0) {
return 0
}
Xsqlite3_free(tls, (*Hash)(unsafe.Pointer(pH)).Fht)
(*Hash)(unsafe.Pointer(pH)).Fht = new_ht
(*Hash)(unsafe.Pointer(pH)).Fhtsize = libc.AssignUint32(&new_size, uint32(uint64(Xsqlite3MallocSize(tls, new_ht))/uint64(unsafe.Sizeof(_ht{}))))
libc.X__builtin___memset_chk(tls, new_ht, 0, uint64(new_size)*uint64(unsafe.Sizeof(_ht{})), libc.X__builtin_object_size(tls, new_ht, 0))
elem = (*Hash)(unsafe.Pointer(pH)).Ffirst
(*Hash)(unsafe.Pointer(pH)).Ffirst = uintptr(0)
for ; elem != 0; elem = next_elem {
var h uint32 = strHash(tls, (*HashElem)(unsafe.Pointer(elem)).FpKey) % new_size
next_elem = (*HashElem)(unsafe.Pointer(elem)).Fnext
insertElement(tls, pH, new_ht+uintptr(h)*16, elem)
}
return 1
}
func findElementWithHash(tls *libc.TLS, pH uintptr, pKey uintptr, pHash uintptr) uintptr {
var elem uintptr
var count uint32
var h uint32
if (*Hash)(unsafe.Pointer(pH)).Fht != 0 {
var pEntry uintptr
h = strHash(tls, pKey) % (*Hash)(unsafe.Pointer(pH)).Fhtsize
pEntry = (*Hash)(unsafe.Pointer(pH)).Fht + uintptr(h)*16
elem = (*_ht)(unsafe.Pointer(pEntry)).Fchain
count = (*_ht)(unsafe.Pointer(pEntry)).Fcount
} else {
h = uint32(0)
elem = (*Hash)(unsafe.Pointer(pH)).Ffirst
count = (*Hash)(unsafe.Pointer(pH)).Fcount
}
if pHash != 0 {
*(*uint32)(unsafe.Pointer(pHash)) = h
}
for count != 0 {
if Xsqlite3StrICmp(tls, (*HashElem)(unsafe.Pointer(elem)).FpKey, pKey) == 0 {
return elem
}
elem = (*HashElem)(unsafe.Pointer(elem)).Fnext
count--
}
return uintptr(unsafe.Pointer(&nullElement))
}
var nullElement = HashElem{}
func removeElementGivenHash(tls *libc.TLS, pH uintptr, elem uintptr, h uint32) {
var pEntry uintptr
if (*HashElem)(unsafe.Pointer(elem)).Fprev != 0 {
(*HashElem)(unsafe.Pointer((*HashElem)(unsafe.Pointer(elem)).Fprev)).Fnext = (*HashElem)(unsafe.Pointer(elem)).Fnext
} else {
(*Hash)(unsafe.Pointer(pH)).Ffirst = (*HashElem)(unsafe.Pointer(elem)).Fnext
}
if (*HashElem)(unsafe.Pointer(elem)).Fnext != 0 {
(*HashElem)(unsafe.Pointer((*HashElem)(unsafe.Pointer(elem)).Fnext)).Fprev = (*HashElem)(unsafe.Pointer(elem)).Fprev
}
if (*Hash)(unsafe.Pointer(pH)).Fht != 0 {
pEntry = (*Hash)(unsafe.Pointer(pH)).Fht + uintptr(h)*16
if (*_ht)(unsafe.Pointer(pEntry)).Fchain == elem {
(*_ht)(unsafe.Pointer(pEntry)).Fchain = (*HashElem)(unsafe.Pointer(elem)).Fnext
}
(*_ht)(unsafe.Pointer(pEntry)).Fcount--
}
Xsqlite3_free(tls, elem)
(*Hash)(unsafe.Pointer(pH)).Fcount--
if (*Hash)(unsafe.Pointer(pH)).Fcount == uint32(0) {
Xsqlite3HashClear(tls, pH)
}
}
// Attempt to locate an element of the hash table pH with a key
// that matches pKey. Return the data for this element if it is
// found, or NULL if there is no match.
func Xsqlite3HashFind(tls *libc.TLS, pH uintptr, pKey uintptr) uintptr {
return (*HashElem)(unsafe.Pointer(findElementWithHash(tls, pH, pKey, uintptr(0)))).Fdata
}
// Insert an element into the hash table pH. The key is pKey
// and the data is "data".
//
// If no element exists with a matching key, then a new
// element is created and NULL is returned.
//
// If another element already exists with the same key, then the
// new data replaces the old data and the old data is returned.
// The key is not copied in this instance. If a malloc fails, then
// the new data is returned and the hash table is unchanged.
//
// If the "data" parameter to this function is NULL, then the
// element corresponding to "key" is removed from the hash table.
func Xsqlite3HashInsert(tls *libc.TLS, pH uintptr, pKey uintptr, data uintptr) uintptr {
bp := tls.Alloc(4)
defer tls.Free(4)
var elem uintptr
var new_elem uintptr
elem = findElementWithHash(tls, pH, pKey, bp)
if (*HashElem)(unsafe.Pointer(elem)).Fdata != 0 {
var old_data uintptr = (*HashElem)(unsafe.Pointer(elem)).Fdata
if data == uintptr(0) {
removeElementGivenHash(tls, pH, elem, *(*uint32)(unsafe.Pointer(bp)))
} else {
(*HashElem)(unsafe.Pointer(elem)).Fdata = data
(*HashElem)(unsafe.Pointer(elem)).FpKey = pKey
}
return old_data
}
if data == uintptr(0) {
return uintptr(0)
}
new_elem = Xsqlite3Malloc(tls, uint64(unsafe.Sizeof(HashElem{})))
if new_elem == uintptr(0) {
return data
}
(*HashElem)(unsafe.Pointer(new_elem)).FpKey = pKey
(*HashElem)(unsafe.Pointer(new_elem)).Fdata = data
(*Hash)(unsafe.Pointer(pH)).Fcount++
if (*Hash)(unsafe.Pointer(pH)).Fcount >= uint32(10) && (*Hash)(unsafe.Pointer(pH)).Fcount > uint32(2)*(*Hash)(unsafe.Pointer(pH)).Fhtsize {
if rehash(tls, pH, (*Hash)(unsafe.Pointer(pH)).Fcount*uint32(2)) != 0 {
*(*uint32)(unsafe.Pointer(bp)) = strHash(tls, pKey) % (*Hash)(unsafe.Pointer(pH)).Fhtsize
}
}
insertElement(tls, pH, func() uintptr {
if (*Hash)(unsafe.Pointer(pH)).Fht != 0 {
return (*Hash)(unsafe.Pointer(pH)).Fht + uintptr(*(*uint32)(unsafe.Pointer(bp)))*16
}
return uintptr(0)
}(), new_elem)
return uintptr(0)
}
// ************* End of hash.c ***********************************************
// ************* Begin file opcodes.c ****************************************
// Automatically generated. Do not edit
// See the tool/mkopcodec.tcl script for details.
func Xsqlite3OpcodeName(tls *libc.TLS, i int32) uintptr {
return azName[i]
}
var azName = [187]uintptr{
ts + 1676,
ts + 1686,
ts + 1697,
ts + 1709,
ts + 1720,
ts + 1732,
ts + 1739,
ts + 1747,
ts + 1755,
ts + 1760,
ts + 1765,
ts + 1771,
ts + 1785,
ts + 1791,
ts + 1801,
ts + 1806,
ts + 1811,
ts + 1814,
ts + 1820,
ts + 1827,
ts + 1831,
ts + 1841,
ts + 1848,
ts + 1855,
ts + 1862,
ts + 1869,
ts + 1879,
ts + 1888,
ts + 1899,
ts + 1908,
ts + 1914,
ts + 1924,
ts + 1934,
ts + 1939,
ts + 1949,
ts + 1960,
ts + 1965,
ts + 1972,
ts + 1983,
ts + 1988,
ts + 1993,
ts + 1999,
ts + 2005,
ts + 2011,
ts + 2014,
ts + 2018,
ts + 2024,
ts + 2035,
ts + 2046,
ts + 2054,
ts + 2063,
ts + 2070,
ts + 2078,
ts + 2081,
ts + 2084,
ts + 2087,
ts + 2090,
ts + 2093,
ts + 2096,
ts + 2103,
ts + 2109,
ts + 2119,
ts + 2132,
ts + 2143,
ts + 2149,
ts + 2156,
ts + 2165,
ts + 2174,
ts + 2181,
ts + 2194,
ts + 2205,
ts + 2210,
ts + 2218,
ts + 2224,
ts + 2231,
ts + 2243,
ts + 2248,
ts + 2257,
ts + 2262,
ts + 2271,
ts + 2276,
ts + 2281,
ts + 2287,
ts + 2295,
ts + 2303,
ts + 2313,
ts + 2321,
ts + 2328,
ts + 2341,
ts + 2346,
ts + 2358,
ts + 2366,
ts + 2373,
ts + 2384,
ts + 2391,
ts + 2398,
ts + 2408,
ts + 2417,
ts + 2428,
ts + 2434,
ts + 2445,
ts + 2455,
ts + 2465,
ts + 2472,
ts + 2478,
ts + 2488,
ts + 2499,
ts + 2503,
ts + 2512,
ts + 2521,
ts + 2528,
ts + 2538,
ts + 2545,
ts + 2554,
ts + 2564,
ts + 2571,
ts + 2579,
ts + 2593,
ts + 2601,
ts + 2615,
ts + 2626,
ts + 2639,
ts + 2650,
ts + 2656,
ts + 2668,
ts + 2677,
ts + 2685,
ts + 2694,
ts + 2703,
ts + 2710,
ts + 2718,
ts + 2725,
ts + 2736,
ts + 2750,
ts + 2761,
ts + 2769,
ts + 2775,
ts + 2783,
ts + 2791,
ts + 2801,
ts + 2814,
ts + 2824,
ts + 2837,
ts + 2846,
ts + 2857,
ts + 2865,
ts + 2871,
ts + 2883,
ts + 2895,
ts + 2903,
ts + 2915,
ts + 2928,
ts + 2938,
ts + 2948,
ts + 2953,
ts + 2965,
ts + 2977,
ts + 2987,
ts + 2993,
ts + 3003,
ts + 3010,
ts + 3022,
ts + 3033,
ts + 3041,
ts + 3050,
ts + 3059,
ts + 3068,
ts + 3075,
ts + 3086,
ts + 3099,
ts + 3109,
ts + 3116,
ts + 3124,
ts + 3133,
ts + 3139,
ts + 3147,
ts + 3155,
ts + 3163,
ts + 3173,
ts + 3182,
ts + 3193,
ts + 3203,
ts + 3209,
ts + 3220,
ts + 3231,
ts + 3236,
ts + 3244,
}
// Copyright (c) 2017 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type U_char = uint8
// Copyright (c) 2017 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type U_short = uint16
// Copyright (c) 2017 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type U_int = uint32
type U_long = uint64
type Ushort = uint16
type Uint = uint32
type U_quad_t = U_int64_t
type Quad_t = Int64_t
type Qaddr_t = uintptr
// Copyright (c) 2017 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type Caddr_t = uintptr
type Daddr_t = Int32_t
type Fixpt_t = U_int32_t
type Blkcnt_t = X__darwin_blkcnt_t
type Blksize_t = X__darwin_blksize_t
type Gid_t = X__darwin_gid_t
// Copyright (c) 2003-2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright (c) 2000-2007 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright 1995 NeXT Computer, Inc. All rights reserved.
type In_addr_t = X__uint32_t
// Copyright (c) 2003-2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright (c) 2000-2007 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright 1995 NeXT Computer, Inc. All rights reserved.
type In_port_t = X__uint16_t
type Ino_t = X__darwin_ino_t
type Ino64_t = X__darwin_ino64_t
// Copyright (c) 2003-2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright (c) 2000-2007 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright 1995 NeXT Computer, Inc. All rights reserved.
type Key_t = X__int32_t
// Copyright (c) 2003-2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright (c) 2003-2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright (c) 2000-2007 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright 1995 NeXT Computer, Inc. All rights reserved.
type Nlink_t = X__uint16_t
type Segsz_t = Int32_t
type Swblk_t = Int32_t
type Useconds_t = X__darwin_useconds_t
type Suseconds_t = X__darwin_suseconds_t
type fd_set = struct{ Ffds_bits [32]X__int32_t }
type Fd_set = fd_set
func X__darwin_check_fd_set(tls *libc.TLS, _a int32, _b uintptr) int32 {
if Uintptr_t(uintptr(unsafe.Pointer(&X__darwin_check_fd_set_overflow))) != uint64(0) {
return (*struct {
f func(*libc.TLS, int32, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{X__darwin_check_fd_set_overflow})).f(tls, _a, _b, 0)
} else {
return 1
}
return int32(0)
}
// This inline avoids argument side-effect issues with FD_ISSET()
func X__darwin_fd_isset(tls *libc.TLS, _fd int32, _p uintptr) int32 {
if X__darwin_check_fd_set(tls, _fd, _p) != 0 {
return *(*X__int32_t)(unsafe.Pointer(_p + uintptr(uint64(_fd)/(uint64(unsafe.Sizeof(X__int32_t(0)))*uint64(8)))*4)) & X__int32_t(uint64(1)<<(uint64(_fd)%(uint64(unsafe.Sizeof(X__int32_t(0)))*uint64(8))))
}
return 0
}
func X__darwin_fd_set(tls *libc.TLS, _fd int32, _p uintptr) {
if X__darwin_check_fd_set(tls, _fd, _p) != 0 {
*(*X__int32_t)(unsafe.Pointer(_p + uintptr(uint64(_fd)/(uint64(unsafe.Sizeof(X__int32_t(0)))*uint64(8)))*4)) |= X__int32_t(uint64(1) << (uint64(_fd) % (uint64(unsafe.Sizeof(X__int32_t(0))) * uint64(8))))
}
}
func X__darwin_fd_clr(tls *libc.TLS, _fd int32, _p uintptr) {
if X__darwin_check_fd_set(tls, _fd, _p) != 0 {
*(*X__int32_t)(unsafe.Pointer(_p + uintptr(uint64(_fd)/(uint64(unsafe.Sizeof(X__int32_t(0)))*uint64(8)))*4)) &= ^X__int32_t(uint64(1) << (uint64(_fd) % (uint64(unsafe.Sizeof(X__int32_t(0))) * uint64(8))))
}
}
type Fd_mask = X__int32_t
type Pthread_cond_t = X__darwin_pthread_cond_t
type Pthread_condattr_t = X__darwin_pthread_condattr_t
type Pthread_mutex_t = X__darwin_pthread_mutex_t
type Pthread_mutexattr_t = X__darwin_pthread_mutexattr_t
type Pthread_once_t = X__darwin_pthread_once_t
type Pthread_rwlock_t = X__darwin_pthread_rwlock_t
type Pthread_rwlockattr_t = X__darwin_pthread_rwlockattr_t
type Pthread_t = X__darwin_pthread_t
type Pthread_key_t = X__darwin_pthread_key_t
type Fsblkcnt_t = X__darwin_fsblkcnt_t
type Fsfilcnt_t = X__darwin_fsfilcnt_t
type ostat = struct {
Fst_dev X__uint16_t
F__ccgo_pad1 [6]byte
Fst_ino Ino_t
Fst_mode Mode_t
Fst_nlink Nlink_t
Fst_uid X__uint16_t
Fst_gid X__uint16_t
Fst_rdev X__uint16_t
F__ccgo_pad2 [2]byte
Fst_size X__int32_t
Fst_atimespec struct {
Ftv_sec X__darwin_time_t
Ftv_nsec int64
}
Fst_mtimespec struct {
Ftv_sec X__darwin_time_t
Ftv_nsec int64
}
Fst_ctimespec struct {
Ftv_sec X__darwin_time_t
Ftv_nsec int64
}
Fst_blksize X__int32_t
Fst_blocks X__int32_t
Fst_flags X__uint32_t
Fst_gen X__uint32_t
}
type stat = struct {
Fst_dev Dev_t
Fst_mode Mode_t
Fst_nlink Nlink_t
Fst_ino X__darwin_ino64_t
Fst_uid Uid_t
Fst_gid Gid_t
Fst_rdev Dev_t
F__ccgo_pad1 [4]byte
Fst_atimespec struct {
Ftv_sec X__darwin_time_t
Ftv_nsec int64
}
Fst_mtimespec struct {
Ftv_sec X__darwin_time_t
Ftv_nsec int64
}
Fst_ctimespec struct {
Ftv_sec X__darwin_time_t
Ftv_nsec int64
}
Fst_birthtimespec struct {
Ftv_sec X__darwin_time_t
Ftv_nsec int64
}
Fst_size Off_t
Fst_blocks Blkcnt_t
Fst_blksize Blksize_t
Fst_flags X__uint32_t
Fst_gen X__uint32_t
Fst_lspare X__int32_t
Fst_qspare [2]X__int64_t
}
type stat64 = struct {
Fst_dev Dev_t
Fst_mode Mode_t
Fst_nlink Nlink_t
Fst_ino X__darwin_ino64_t
Fst_uid Uid_t
Fst_gid Gid_t
Fst_rdev Dev_t
F__ccgo_pad1 [4]byte
Fst_atimespec struct {
Ftv_sec X__darwin_time_t
Ftv_nsec int64
}
Fst_mtimespec struct {
Ftv_sec X__darwin_time_t
Ftv_nsec int64
}
Fst_ctimespec struct {
Ftv_sec X__darwin_time_t
Ftv_nsec int64
}
Fst_birthtimespec struct {
Ftv_sec X__darwin_time_t
Ftv_nsec int64
}
Fst_size Off_t
Fst_blocks Blkcnt_t
Fst_blksize Blksize_t
Fst_flags X__uint32_t
Fst_gen X__uint32_t
Fst_lspare X__int32_t
Fst_qspare [2]X__int64_t
}
type Filesec_t = uintptr
type flock = struct {
Fl_start Off_t
Fl_len Off_t
Fl_pid Pid_t
Fl_type int16
Fl_whence int16
}
type flocktimeout = struct {
Ffl struct {
Fl_start Off_t
Fl_len Off_t
Fl_pid Pid_t
Fl_type int16
Fl_whence int16
}
Ftimeout struct {
Ftv_sec X__darwin_time_t
Ftv_nsec int64
}
}
type radvisory = struct {
Fra_offset Off_t
Fra_count int32
F__ccgo_pad1 [4]byte
}
type fcodeblobs = struct {
Ff_cd_hash uintptr
Ff_hash_size Size_t
Ff_cd_buffer uintptr
Ff_cd_size Size_t
Ff_out_size uintptr
Ff_arch int32
F__padding int32
}
// * Information the user passes in to get the codeblobs out of the kernel
type Fcodeblobs_t = fcodeblobs
type fsignatures = struct {
Ffs_file_start Off_t
Ffs_blob_start uintptr
Ffs_blob_size Size_t
}
// detached code signatures data type -
// information passed by user to system used by F_ADDSIGS and F_ADDFILESIGS.
// F_ADDFILESIGS is a shortcut for files that contain their own signature and
// doesn't require mapping of the file in order to load the signature.
type Fsignatures_t = fsignatures
type fchecklv = struct {
Flv_file_start Off_t
Flv_error_message_size Size_t
Flv_error_message uintptr
}
// DYLD needs to check if the object is allowed to be combined
// into the main binary. This is done between the code signature
// is loaded and dyld is doing all the work to process the LOAD commands.
//
// While this could be done in F_ADDFILESIGS.* family the hook into
// the MAC module doesn't say no when LV isn't enabled and then that
// is cached on the vnode, and the MAC module never gets change once
// a process that library validation enabled.
type Fchecklv_t = fchecklv
type fstore = struct {
Ffst_flags uint32
Ffst_posmode int32
Ffst_offset Off_t
Ffst_length Off_t
Ffst_bytesalloc Off_t
}
type Fstore_t = fstore
type fpunchhole = struct {
Ffp_flags uint32
Freserved uint32
Ffp_offset Off_t
Ffp_length Off_t
}
// fpunchhole_t used by F_PUNCHHOLE
type Fpunchhole_t = fpunchhole
type ftrimactivefile = struct {
Ffta_offset Off_t
Ffta_length Off_t
}
// factive_file_trim_t used by F_TRIM_ACTIVE_FILE
type Ftrimactivefile_t = ftrimactivefile
type fspecread = struct {
Ffsr_flags uint32
Freserved uint32
Ffsr_offset Off_t
Ffsr_length Off_t
}
// fspecread_t used by F_SPECULATIVE_READ
type Fspecread_t = fspecread
type fbootstraptransfer = struct {
Ffbt_offset Off_t
Ffbt_length Size_t
Ffbt_buffer uintptr
}
type Fbootstraptransfer_t = fbootstraptransfer
type log2phys = struct {
Fl2p_flags uint32
F__ccgo_pad1 [4]byte
Fl2p_contigbytes Off_t
Fl2p_devoffset Off_t
}
type Filesec_property_t = uint32
type winsize = struct {
Fws_row uint16
Fws_col uint16
Fws_xpixel uint16
Fws_ypixel uint16
}
type ttysize = struct {
Fts_lines uint16
Fts_cols uint16
Fts_xxx uint16
Fts_yyy uint16
}
type accessx_descriptor = struct {
Fad_name_offset uint32
Fad_flags int32
Fad_pad [2]int32
}
type Uuid_t = X__darwin_uuid_t
type fssearchblock = struct {
Freturnattrs uintptr
Freturnbuffer uintptr
Freturnbuffersize Size_t
Fmaxmatches U_long
Ftimelimit struct {
Ftv_sec X__darwin_time_t
Ftv_usec X__darwin_suseconds_t
F__ccgo_pad1 [4]byte
}
Fsearchparams1 uintptr
Fsizeofsearchparams1 Size_t
Fsearchparams2 uintptr
Fsizeofsearchparams2 Size_t
Fsearchattrs struct {
Fbitmapcount U_short
Freserved U_int16_t
Fcommonattr Attrgroup_t
Fvolattr Attrgroup_t
Fdirattr Attrgroup_t
Ffileattr Attrgroup_t
Fforkattr Attrgroup_t
}
}
type searchstate = struct {
Fss_union_flags Uint32_t
Fss_union_layer Uint32_t
Fss_fsstate [548]U_char
}
type timeval64 = struct {
Ftv_sec X__int64_t
Ftv_usec X__int64_t
}
type itimerval = struct {
Fit_interval struct {
Ftv_sec X__darwin_time_t
Ftv_usec X__darwin_suseconds_t
F__ccgo_pad1 [4]byte
}
Fit_value struct {
Ftv_sec X__darwin_time_t
Ftv_usec X__darwin_suseconds_t
F__ccgo_pad1 [4]byte
}
}
type timezone = struct {
Ftz_minuteswest int32
Ftz_dsttime int32
}
type clockinfo = struct {
Fhz int32
Ftick int32
Ftickadj int32
Fstathz int32
Fprofhz int32
}
type Kauth_cred_t = uintptr
type Posix_cred_t = uintptr
type Au_id_t = Uid_t
type Au_asid_t = Pid_t
type Au_event_t = U_int16_t
type Au_emod_t = U_int16_t
type Au_class_t = U_int32_t
type Au_asflgs_t = U_int64_t
type Au_ctlmode_t = uint8
type au_tid = struct {
Fport Dev_t
Fmachine U_int32_t
}
type Au_tid_t = au_tid
type au_tid_addr = struct {
Fat_port Dev_t
Fat_type U_int32_t
Fat_addr [4]U_int32_t
}
type Au_tid_addr_t = au_tid_addr
type au_mask = struct {
Fam_success uint32
Fam_failure uint32
}
type Au_mask_t = au_mask
type auditinfo = struct {
Fai_auid Au_id_t
Fai_mask Au_mask_t
Fai_termid Au_tid_t
Fai_asid Au_asid_t
}
type Auditinfo_t = auditinfo
type auditinfo_addr = struct {
Fai_auid Au_id_t
Fai_mask Au_mask_t
Fai_termid Au_tid_addr_t
Fai_asid Au_asid_t
Fai_flags Au_asflgs_t
}
type Auditinfo_addr_t = auditinfo_addr
type auditpinfo = struct {
Fap_pid Pid_t
Fap_auid Au_id_t
Fap_mask Au_mask_t
Fap_termid Au_tid_t
Fap_asid Au_asid_t
}
type Auditpinfo_t = auditpinfo
type auditpinfo_addr = struct {
Fap_pid Pid_t
Fap_auid Au_id_t
Fap_mask Au_mask_t
Fap_termid Au_tid_addr_t
Fap_asid Au_asid_t
F__ccgo_pad1 [4]byte
Fap_flags Au_asflgs_t
}
type Auditpinfo_addr_t = auditpinfo_addr
type au_session = struct {
Fas_aia_p uintptr
Fas_mask Au_mask_t
}
type Au_session_t = au_session
type au_expire_after = struct {
Fage Time_t
Fsize Size_t
Fop_type uint8
F__ccgo_pad1 [7]byte
}
type Au_expire_after_t = au_expire_after
type au_qctrl = struct {
Faq_hiwater int32
Faq_lowater int32
Faq_bufsz int32
Faq_delay int32
Faq_minfree int32
}
type Au_qctrl_t = au_qctrl
type audit_stat = struct {
Fas_version uint32
Fas_numevent uint32
Fas_generated int32
Fas_nonattrib int32
Fas_kernel int32
Fas_audit int32
Fas_auditctl int32
Fas_enqueue int32
Fas_written int32
Fas_wblocked int32
Fas_rblocked int32
Fas_dropped int32
Fas_totalsize int32
Fas_memused uint32
}
type Au_stat_t = audit_stat
type audit_fstat = struct {
Faf_filesz U_int64_t
Faf_currsz U_int64_t
}
type Au_fstat_t = audit_fstat
type au_evclass_map = struct {
Fec_number Au_event_t
F__ccgo_pad1 [2]byte
Fec_class Au_class_t
}
type Au_evclass_map_t = au_evclass_map
type Boolean_t = uint32
// natural_t and integer_t are Mach's legacy types for machine-
// independent integer types (unsigned, and signed, respectively).
// Their original purpose was to define other types in a machine/
// compiler independent way.
//
// They also had an implicit "same size as pointer" characteristic
// to them (i.e. Mach's traditional types are very ILP32 or ILP64
// centric). We support x86 ABIs that do not follow either of
// these models (specifically LP64). Therefore, we had to make a
// choice between making these types scale with pointers or stay
// tied to integers. Because their use is predominantly tied to
// to the size of an integer, we are keeping that association and
// breaking free from pointer size guarantees.
//
// New use of these types is discouraged.
type Natural_t = X__darwin_natural_t
type Integer_t = int32
// A vm_offset_t is a type-neutral pointer,
// e.g. an offset into a virtual memory space.
type Vm_offset_t = Uintptr_t
// A vm_size_t is the proper type for e.g.
// expressing the difference between two
// vm_offset_t entities.
type Vm_size_t = Uintptr_t
// This new type is independent of a particular vm map's
// implementation size - and represents appropriate types
// for all possible maps. This is used for interfaces
// where the size of the map is not known - or we don't
// want to have to distinguish.
type Mach_vm_address_t = Uint64_t
type Mach_vm_offset_t = Uint64_t
type Mach_vm_size_t = Uint64_t
type Vm_map_offset_t = Uint64_t
type Vm_map_address_t = Uint64_t
type Vm_map_size_t = Uint64_t
type Mach_port_context_t = Mach_vm_address_t
type Mach_port_name_t = Natural_t
type Mach_port_name_array_t = uintptr
type Mach_port_t = X__darwin_mach_port_t
type Mach_port_array_t = uintptr
type Mach_port_right_t = Natural_t
type Mach_port_type_t = Natural_t
type Mach_port_type_array_t = uintptr
type Mach_port_urefs_t = Natural_t
type Mach_port_delta_t = Integer_t
type Mach_port_seqno_t = Natural_t
type Mach_port_mscount_t = Natural_t
type Mach_port_msgcount_t = Natural_t
type Mach_port_rights_t = Natural_t
// Are there outstanding send rights for a given port?
type Mach_port_srights_t = uint32
type mach_port_status = struct {
Fmps_pset Mach_port_rights_t
Fmps_seqno Mach_port_seqno_t
Fmps_mscount Mach_port_mscount_t
Fmps_qlimit Mach_port_msgcount_t
Fmps_msgcount Mach_port_msgcount_t
Fmps_sorights Mach_port_rights_t
Fmps_srights Boolean_t
Fmps_pdrequest Boolean_t
Fmps_nsrequest Boolean_t
Fmps_flags Natural_t
}
type Mach_port_status_t = mach_port_status
type mach_port_limits = struct{ Fmpl_qlimit Mach_port_msgcount_t }
type Mach_port_limits_t = mach_port_limits
type mach_port_info_ext = struct {
Fmpie_status Mach_port_status_t
Fmpie_boost_cnt Mach_port_msgcount_t
Freserved [6]Uint32_t
}
type Mach_port_info_ext_t = mach_port_info_ext
type Mach_port_info_t = uintptr
// Flavors for mach_port_get/set_attributes()
type Mach_port_flavor_t = int32
type mach_port_qos = struct {
Fname uint32
F__ccgo_pad1 [4]byte
Flen Natural_t
}
// Structure used to pass information about port allocation requests.
// Must be padded to 64-bits total length.
type Mach_port_qos_t = mach_port_qos
type mach_port_options = struct {
Fflags Uint32_t
Fmpl Mach_port_limits_t
Freserved [2]Uint64_t
}
// Flags for mach_port_options (used for
// invocation of mach_port_construct).
// Indicates attributes to be set for the newly
// allocated port.
// Structure to define optional attributes for a newly
// constructed port.
type Mach_port_options_t = mach_port_options
type Mach_port_options_ptr_t = uintptr
type xucred = struct {
Fcr_version U_int
Fcr_uid Uid_t
Fcr_ngroups int16
F__ccgo_pad1 [2]byte
Fcr_groups [16]Gid_t
}
type Text_encoding_t = U_int32_t
type Fsobj_type_t = U_int32_t
type Fsobj_tag_t = U_int32_t
type Fsfile_type_t = U_int32_t
type Fsvolid_t = U_int32_t
type fsobj_id = struct {
Ffid_objno U_int32_t
Ffid_generation U_int32_t
}
type Fsobj_id_t = fsobj_id
type Attrgroup_t = U_int32_t
type attrlist = struct {
Fbitmapcount U_short
Freserved U_int16_t
Fcommonattr Attrgroup_t
Fvolattr Attrgroup_t
Fdirattr Attrgroup_t
Ffileattr Attrgroup_t
Fforkattr Attrgroup_t
}
type attribute_set = struct {
Fcommonattr Attrgroup_t
Fvolattr Attrgroup_t
Fdirattr Attrgroup_t
Ffileattr Attrgroup_t
Fforkattr Attrgroup_t
}
type Attribute_set_t = attribute_set
type attrreference = struct {
Fattr_dataoffset Int32_t
Fattr_length U_int32_t
}
type Attrreference_t = attrreference
type diskextent = struct {
Fstartblock U_int32_t
Fblockcount U_int32_t
}
type Extentrecord = [8]diskextent
type Vol_capabilities_set_t = [4]U_int32_t
type vol_capabilities_attr = struct {
Fcapabilities Vol_capabilities_set_t
Fvalid Vol_capabilities_set_t
}
type Vol_capabilities_attr_t = vol_capabilities_attr
type vol_attributes_attr = struct {
Fvalidattr Attribute_set_t
Fnativeattr Attribute_set_t
}
type Vol_attributes_attr_t = vol_attributes_attr
type Os_function_t = uintptr
// !
// @typedef os_block_t
//
// @abstract
// Generic type for a block taking no arguments and returning no value.
//
// @discussion
// When not building with Objective-C ARC, a block object allocated on or
// copied to the heap must be released with a -[release] message or the
// Block_release() function.
//
// The declaration of a block literal allocates storage on the stack.
// Therefore, this is an invalid construct:
// <code>
// os_block_t block;
//
// if (x) {
// block = ^{ printf("true\n"); };
// } else {
//
// block = ^{ printf("false\n"); };
// }
//
// block(); // unsafe!!!
// </code>
//
// What is happening behind the scenes:
// <code>
//
// if (x) {
// struct Block __tmp_1 = ...; // setup details
// block = &__tmp_1;
// } else {
//
// struct Block __tmp_2 = ...; // setup details
// block = &__tmp_2;
// }
//
// </code>
//
// As the example demonstrates, the address of a stack variable is escaping the
// scope in which it is allocated. That is a classic C bug.
//
// Instead, the block literal must be copied to the heap with the Block_copy()
// function or by sending it a -[copy] message.
type Os_block_t = uintptr
type fsid = struct{ Fval [2]Int32_t }
// Copyright (c) 2014 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
// Copyright (c) 2012 Apple Inc. All rights reserved.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_START@
//
// This file contains Original Code and/or Modifications of Original Code
// as defined in and that are subject to the Apple Public Source License
// Version 2.0 (the 'License'). You may not use this file except in
// compliance with the License. The rights granted to you under the License
// may not be used to create, or enable the creation or redistribution of,
// unlawful or unlicensed copies of an Apple operating system, or to
// circumvent, violate, or enable the circumvention or violation of, any
// terms of an Apple operating system software license agreement.
//
// Please obtain a copy of the License at
// http://www.opensource.apple.com/apsl/ and read it before using this file.
//
// The Original Code and all software distributed under the License are
// distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
// EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
// INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
// Please see the License for the specific language governing rights and
// limitations under the License.
//
// @APPLE_OSREFERENCE_LICENSE_HEADER_END@
type Fsid_t = fsid
type statfs64 = struct {
Ff_bsize Uint32_t
Ff_iosize Int32_t
Ff_blocks Uint64_t
Ff_bfree Uint64_t
Ff_bavail Uint64_t
Ff_files Uint64_t
Ff_ffree Uint64_t
Ff_fsid Fsid_t
Ff_owner Uid_t
Ff_type Uint32_t
Ff_flags Uint32_t
Ff_fssubtype Uint32_t
Ff_fstypename [16]int8
Ff_mntonname [1024]int8
Ff_mntfromname [1024]int8
Ff_flags_ext Uint32_t
Ff_reserved [7]Uint32_t
}
type statfs = struct {
Ff_bsize Uint32_t
Ff_iosize Int32_t
Ff_blocks Uint64_t
Ff_bfree Uint64_t
Ff_bavail Uint64_t
Ff_files Uint64_t
Ff_ffree Uint64_t
Ff_fsid Fsid_t
Ff_owner Uid_t
Ff_type Uint32_t
Ff_flags Uint32_t
Ff_fssubtype Uint32_t
Ff_fstypename [16]int8
Ff_mntonname [1024]int8
Ff_mntfromname [1024]int8
Ff_flags_ext Uint32_t
Ff_reserved [7]Uint32_t
}
type vfsstatfs = struct {
Ff_bsize Uint32_t
F__ccgo_pad1 [4]byte
Ff_iosize Size_t
Ff_blocks Uint64_t
Ff_bfree Uint64_t
Ff_bavail Uint64_t
Ff_bused Uint64_t
Ff_files Uint64_t
Ff_ffree Uint64_t
Ff_fsid Fsid_t
Ff_owner Uid_t
F__ccgo_pad2 [4]byte
Ff_flags Uint64_t
Ff_fstypename [16]int8
Ff_mntonname [1024]int8
Ff_mntfromname [1024]int8
Ff_fssubtype Uint32_t
F__ccgo_pad3 [4]byte
Ff_reserved [2]uintptr
}
type Mount_t = uintptr
type Vnode_t = uintptr
type vfsconf = struct {
Fvfc_reserved1 Uint32_t
Fvfc_name [15]int8
F__ccgo_pad1 [1]byte
Fvfc_typenum int32
Fvfc_refcount int32
Fvfc_flags int32
Fvfc_reserved2 Uint32_t
Fvfc_reserved3 Uint32_t
}
type vfsidctl = struct {
Fvc_vers int32
Fvc_fsid Fsid_t
F__ccgo_pad1 [4]byte
Fvc_ptr uintptr
Fvc_len Size_t
Fvc_spare [12]U_int32_t
}
type vfsquery = struct {
Fvq_flags U_int32_t
Fvq_spare [31]U_int32_t
}
type vfs_server = struct {
Fvs_minutes Int32_t
Fvs_server_name [768]U_int8_t
}
type netfs_status = struct {
F__ccgo_pad1 [0]uint64
Fns_status U_int32_t
Fns_mountopts [512]int8
Fns_waittime Uint32_t
Fns_threadcount Uint32_t
F__ccgo_pad2 [4]byte
}
type fhandle = struct {
Ffh_len uint32
Ffh_data [128]uint8
}
type Fhandle_t = fhandle
type unixShm = struct {
FpShmNode uintptr
FpNext uintptr
FhasMutex U8
Fid U8
FsharedMask U16
FexclMask U16
F__ccgo_pad1 [2]byte
}
// Forward references
type UnixShm = unixShm
type unixShmNode = struct {
FpInode uintptr
FpShmMutex uintptr
FzFilename uintptr
FhShm int32
FszRegion int32
FnRegion U16
FisReadonly U8
FisUnlocked U8
F__ccgo_pad1 [4]byte
FapRegion uintptr
FnRef int32
F__ccgo_pad2 [4]byte
FpFirst uintptr
FaLock [8]int32
}
// Connection shared memory
type UnixShmNode = unixShmNode
type unixInodeInfo = struct {
FfileId struct {
Fdev Dev_t
F__ccgo_pad1 [4]byte
Fino U64
}
FpLockMutex uintptr
FnShared int32
FnLock int32
FeFileLock uint8
FbProcessLock uint8
F__ccgo_pad1 [6]byte
FpUnused uintptr
FnRef int32
F__ccgo_pad2 [4]byte
FpShmNode uintptr
FpNext uintptr
FpPrev uintptr
FsharedByte uint64
}
// Shared memory instance
type UnixInodeInfo = unixInodeInfo
type UnixUnusedFd1 = struct {
Ffd int32
Fflags int32
FpNext uintptr
}
// An i-node
type UnixUnusedFd = UnixUnusedFd1
type unixFile = struct {
FpMethod uintptr
FpVfs uintptr
FpInode uintptr
Fh int32
FeFileLock uint8
F__ccgo_pad1 [1]byte
FctrlFlags uint16
FlastErrno int32
F__ccgo_pad2 [4]byte
FlockingContext uintptr
FpPreallocatedUnused uintptr
FzPath uintptr
FpShm uintptr
FszChunk int32
FnFetchOut int32
FmmapSize Sqlite3_int64
FmmapSizeActual Sqlite3_int64
FmmapSizeMax Sqlite3_int64
FpMapRegion uintptr
FsectorSize int32
FdeviceCharacteristics int32
FopenFlags int32
FfsFlags uint32
}
// The unixFile structure is subclass of sqlite3_file specific to the unix
// VFS implementations.
type UnixFile = unixFile
var randomnessPid Pid_t = 0
func posixOpen(tls *libc.TLS, zFile uintptr, flags int32, mode int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
return libc.Xopen(tls, zFile, flags, libc.VaList(bp, mode))
}
type unix_syscall = struct {
FzName uintptr
FpCurrent Sqlite3_syscall_ptr
FpDefault Sqlite3_syscall_ptr
}
var aSyscall = [29]unix_syscall{
{FzName: ts + 3254, FpCurrent: 0},
{FzName: ts + 3259, FpCurrent: 0},
{FzName: ts + 3265, FpCurrent: 0},
{FzName: ts + 3272, FpCurrent: 0},
{FzName: ts + 3279, FpCurrent: 0},
{FzName: ts + 3284, FpCurrent: 0},
{FzName: ts + 3290, FpCurrent: 0},
{FzName: ts + 3300, FpCurrent: 0},
{FzName: ts + 3306, FpCurrent: 0},
{FzName: ts + 3311, FpCurrent: 0},
{FzName: ts + 3317},
{FzName: ts + 3325, FpCurrent: 0},
{FzName: ts + 3331, FpCurrent: 0},
{FzName: ts + 3338},
{FzName: ts + 3347, FpCurrent: 0},
{FzName: ts + 3354},
{FzName: ts + 3364, FpCurrent: 0},
{FzName: ts + 3371, FpCurrent: 0},
{FzName: ts + 3385, FpCurrent: 0},
{FzName: ts + 3391, FpCurrent: 0},
{FzName: ts + 3397, FpCurrent: 0},
{FzName: ts + 3404, FpCurrent: 0},
{FzName: ts + 3412, FpCurrent: 0},
{FzName: ts + 3417, FpCurrent: 0},
{FzName: ts + 3424},
{FzName: ts + 3431, FpCurrent: 0},
{FzName: ts + 3443, FpCurrent: 0},
{FzName: ts + 3452, FpCurrent: 0},
{FzName: ts + 3458},
}
func robustFchown(tls *libc.TLS, fd int32, uid Uid_t, gid Gid_t) int32 {
if (*(*func(*libc.TLS) Uid_t)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 21*24 + 8)))(tls) != 0 {
return 0
}
return (*(*func(*libc.TLS, int32, Uid_t, Gid_t) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 20*24 + 8)))(tls, fd, uid, gid)
}
func unixSetSystemCall(tls *libc.TLS, pNotUsed uintptr, zName uintptr, pNewFunc Sqlite3_syscall_ptr) int32 {
var i uint32
var rc int32 = SQLITE_NOTFOUND
_ = pNotUsed
if zName == uintptr(0) {
rc = SQLITE_OK
for i = uint32(0); uint64(i) < uint64(unsafe.Sizeof(aSyscall))/uint64(unsafe.Sizeof(unix_syscall{})); i++ {
if aSyscall[i].FpDefault != 0 {
aSyscall[i].FpCurrent = aSyscall[i].FpDefault
}
}
} else {
for i = uint32(0); uint64(i) < uint64(unsafe.Sizeof(aSyscall))/uint64(unsafe.Sizeof(unix_syscall{})); i++ {
if libc.Xstrcmp(tls, zName, aSyscall[i].FzName) == 0 {
if aSyscall[i].FpDefault == uintptr(0) {
aSyscall[i].FpDefault = aSyscall[i].FpCurrent
}
rc = SQLITE_OK
if pNewFunc == uintptr(0) {
pNewFunc = aSyscall[i].FpDefault
}
aSyscall[i].FpCurrent = pNewFunc
break
}
}
}
return rc
}
func unixGetSystemCall(tls *libc.TLS, pNotUsed uintptr, zName uintptr) Sqlite3_syscall_ptr {
var i uint32
_ = pNotUsed
for i = uint32(0); uint64(i) < uint64(unsafe.Sizeof(aSyscall))/uint64(unsafe.Sizeof(unix_syscall{})); i++ {
if libc.Xstrcmp(tls, zName, aSyscall[i].FzName) == 0 {
return aSyscall[i].FpCurrent
}
}
return uintptr(0)
}
func unixNextSystemCall(tls *libc.TLS, p uintptr, zName uintptr) uintptr {
var i int32 = -1
_ = p
if zName != 0 {
for i = 0; i < int32(uint64(unsafe.Sizeof(aSyscall))/uint64(unsafe.Sizeof(unix_syscall{})))-1; i++ {
if libc.Xstrcmp(tls, zName, aSyscall[i].FzName) == 0 {
break
}
}
}
for i++; i < int32(uint64(unsafe.Sizeof(aSyscall))/uint64(unsafe.Sizeof(unix_syscall{}))); i++ {
if aSyscall[i].FpCurrent != uintptr(0) {
return aSyscall[i].FzName
}
}
return uintptr(0)
}
func robust_open(tls *libc.TLS, z uintptr, f int32, m Mode_t) int32 {
bp := tls.Alloc(160)
defer tls.Free(160)
var fd int32
var m2 Mode_t
if m != 0 {
m2 = m
} else {
m2 = uint16(SQLITE_DEFAULT_FILE_PERMISSIONS)
}
for 1 != 0 {
fd = (*(*func(*libc.TLS, uintptr, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 8)))(tls, z, f|O_CLOEXEC, int32(m2))
if fd < 0 {
if *(*int32)(unsafe.Pointer(libc.X__error(tls))) == EINTR {
continue
}
break
}
if fd >= SQLITE_MINIMUM_FILE_DESCRIPTOR {
break
}
if f&(O_EXCL|O_CREAT) == O_EXCL|O_CREAT {
(*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 16*24 + 8)))(tls, z)
}
(*(*func(*libc.TLS, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 1*24 + 8)))(tls, fd)
Xsqlite3_log(tls, SQLITE_WARNING,
ts+3464, libc.VaList(bp, z, fd))
fd = -1
if (*(*func(*libc.TLS, uintptr, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 8)))(tls, ts+3507, O_RDONLY, int32(m)) < 0 {
break
}
}
if fd >= 0 {
if int32(m) != 0 {
if (*(*func(*libc.TLS, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 5*24 + 8)))(tls, fd, bp+16) == 0 &&
(*stat)(unsafe.Pointer(bp+16)).Fst_size == int64(0) &&
int32((*stat)(unsafe.Pointer(bp+16)).Fst_mode)&0777 != int32(m) {
(*(*func(*libc.TLS, int32, Mode_t) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 14*24 + 8)))(tls, fd, m)
}
}
}
return fd
}
var unixBigLock uintptr = uintptr(0)
func unixEnterMutex(tls *libc.TLS) {
Xsqlite3_mutex_enter(tls, unixBigLock)
}
func unixLeaveMutex(tls *libc.TLS) {
Xsqlite3_mutex_leave(tls, unixBigLock)
}
func robust_ftruncate(tls *libc.TLS, h int32, sz Sqlite3_int64) int32 {
var rc int32
for __ccgo := true; __ccgo; __ccgo = rc < 0 && *(*int32)(unsafe.Pointer(libc.X__error(tls))) == EINTR {
rc = (*(*func(*libc.TLS, int32, Off_t) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 6*24 + 8)))(tls, h, sz)
}
return rc
}
func sqliteErrorFromPosixError(tls *libc.TLS, posixError int32, sqliteIOErr int32) int32 {
switch posixError {
case EACCES:
fallthrough
case EAGAIN:
fallthrough
case ETIMEDOUT:
fallthrough
case EBUSY:
fallthrough
case EINTR:
fallthrough
case ENOLCK:
return SQLITE_BUSY
case EPERM:
return SQLITE_PERM
default:
return sqliteIOErr
}
return int32(0)
}
type vxworksFileId = struct {
FpNext uintptr
FnRef int32
FnName int32
FzCanonicalName uintptr
}
type unixFileId = struct {
Fdev Dev_t
F__ccgo_pad1 [4]byte
Fino U64
}
var inodeList uintptr = uintptr(0)
func unixLogErrorAtLine(tls *libc.TLS, errcode int32, zFunc uintptr, zPath uintptr, iLine int32) int32 {
bp := tls.Alloc(40)
defer tls.Free(40)
var zErr uintptr
var iErrno int32 = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
zErr = ts + 1547
if zPath == uintptr(0) {
zPath = ts + 1547
}
Xsqlite3_log(tls, errcode,
ts+3517,
libc.VaList(bp, iLine, iErrno, zFunc, zPath, zErr))
return errcode
}
func robust_close(tls *libc.TLS, pFile uintptr, h int32, lineno int32) {
if (*(*func(*libc.TLS, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 1*24 + 8)))(tls, h) != 0 {
unixLogErrorAtLine(tls, SQLITE_IOERR|int32(16)<<8, ts+3259,
func() uintptr {
if pFile != 0 {
return (*UnixFile)(unsafe.Pointer(pFile)).FzPath
}
return uintptr(0)
}(), lineno)
}
}
func storeLastErrno(tls *libc.TLS, pFile uintptr, error int32) {
(*UnixFile)(unsafe.Pointer(pFile)).FlastErrno = error
}
func closePendingFds(tls *libc.TLS, pFile uintptr) {
var pInode uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FpInode
var p uintptr
var pNext uintptr
for p = (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpUnused; p != 0; p = pNext {
pNext = (*UnixUnusedFd)(unsafe.Pointer(p)).FpNext
robust_close(tls, pFile, (*UnixUnusedFd)(unsafe.Pointer(p)).Ffd, 38271)
Xsqlite3_free(tls, p)
}
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FpUnused = uintptr(0)
}
func releaseInodeInfo(tls *libc.TLS, pFile uintptr) {
var pInode uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FpInode
if pInode != 0 {
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnRef--
if (*UnixInodeInfo)(unsafe.Pointer(pInode)).FnRef == 0 {
Xsqlite3_mutex_enter(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
closePendingFds(tls, pFile)
Xsqlite3_mutex_leave(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
if (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpPrev != 0 {
(*UnixInodeInfo)(unsafe.Pointer((*UnixInodeInfo)(unsafe.Pointer(pInode)).FpPrev)).FpNext = (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpNext
} else {
inodeList = (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpNext
}
if (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpNext != 0 {
(*UnixInodeInfo)(unsafe.Pointer((*UnixInodeInfo)(unsafe.Pointer(pInode)).FpNext)).FpPrev = (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpPrev
}
Xsqlite3_mutex_free(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
Xsqlite3_free(tls, pInode)
}
}
}
func findInodeInfo(tls *libc.TLS, pFile uintptr, ppInode uintptr) int32 {
bp := tls.Alloc(160)
defer tls.Free(160)
var rc int32
var fd int32
var pInode uintptr = uintptr(0)
fd = (*UnixFile)(unsafe.Pointer(pFile)).Fh
rc = (*(*func(*libc.TLS, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 5*24 + 8)))(tls, fd, bp)
if rc != 0 {
storeLastErrno(tls, pFile, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
return SQLITE_IOERR
}
if (*stat)(unsafe.Pointer(bp)).Fst_size == int64(0) && (*UnixFile)(unsafe.Pointer(pFile)).FfsFlags&uint32(SQLITE_FSFLAGS_IS_MSDOS) != uint32(0) {
for __ccgo := true; __ccgo; __ccgo = rc < 0 && *(*int32)(unsafe.Pointer(libc.X__error(tls))) == EINTR {
rc = int32((*(*func(*libc.TLS, int32, uintptr, Size_t) Ssize_t)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 11*24 + 8)))(tls, fd, ts+3548, uint64(1)))
}
if rc != 1 {
storeLastErrno(tls, pFile, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
return SQLITE_IOERR
}
rc = (*(*func(*libc.TLS, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 5*24 + 8)))(tls, fd, bp)
if rc != 0 {
storeLastErrno(tls, pFile, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
return SQLITE_IOERR
}
}
libc.X__builtin___memset_chk(tls, bp+144, 0, uint64(unsafe.Sizeof(unixFileId{})), libc.X__builtin_object_size(tls, bp+144, 0))
(*unixFileId)(unsafe.Pointer(bp + 144)).Fdev = (*stat)(unsafe.Pointer(bp)).Fst_dev
(*unixFileId)(unsafe.Pointer(bp + 144)).Fino = (*stat)(unsafe.Pointer(bp)).Fst_ino
pInode = inodeList
for pInode != 0 && libc.Xmemcmp(tls, bp+144, pInode, uint64(unsafe.Sizeof(unixFileId{}))) != 0 {
pInode = (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpNext
}
if pInode == uintptr(0) {
pInode = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(UnixInodeInfo{})))
if pInode == uintptr(0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, pInode, 0, uint64(unsafe.Sizeof(UnixInodeInfo{})), libc.X__builtin_object_size(tls, pInode, 0))
libc.X__builtin___memcpy_chk(tls, pInode, bp+144, uint64(unsafe.Sizeof(unixFileId{})), libc.X__builtin_object_size(tls, pInode, 0))
if Xsqlite3Config.FbCoreMutex != 0 {
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex = Xsqlite3_mutex_alloc(tls, SQLITE_MUTEX_FAST)
if (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex == uintptr(0) {
Xsqlite3_free(tls, pInode)
return SQLITE_NOMEM
}
}
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnRef = 1
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FpNext = inodeList
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FpPrev = uintptr(0)
if inodeList != 0 {
(*UnixInodeInfo)(unsafe.Pointer(inodeList)).FpPrev = pInode
}
inodeList = pInode
} else {
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnRef++
}
*(*uintptr)(unsafe.Pointer(ppInode)) = pInode
return SQLITE_OK
}
func fileHasMoved(tls *libc.TLS, pFile uintptr) int32 {
bp := tls.Alloc(144)
defer tls.Free(144)
return libc.Bool32((*UnixFile)(unsafe.Pointer(pFile)).FpInode != uintptr(0) && ((*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 4*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(pFile)).FzPath, bp) != 0 ||
(*stat)(unsafe.Pointer(bp)).Fst_ino != (*UnixInodeInfo)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FpInode)).FfileId.Fino))
}
func verifyDbFile(tls *libc.TLS, pFile uintptr) {
bp := tls.Alloc(176)
defer tls.Free(176)
var rc int32
if int32((*UnixFile)(unsafe.Pointer(pFile)).FctrlFlags)&UNIXFILE_NOLOCK != 0 {
return
}
rc = (*(*func(*libc.TLS, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 5*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(pFile)).Fh, bp+32)
if rc != 0 {
Xsqlite3_log(tls, SQLITE_WARNING, ts+3550, libc.VaList(bp, (*UnixFile)(unsafe.Pointer(pFile)).FzPath))
return
}
if int32((*stat)(unsafe.Pointer(bp+32)).Fst_nlink) == 0 {
Xsqlite3_log(tls, SQLITE_WARNING, ts+3574, libc.VaList(bp+8, (*UnixFile)(unsafe.Pointer(pFile)).FzPath))
return
}
if int32((*stat)(unsafe.Pointer(bp+32)).Fst_nlink) > 1 {
Xsqlite3_log(tls, SQLITE_WARNING, ts+3603, libc.VaList(bp+16, (*UnixFile)(unsafe.Pointer(pFile)).FzPath))
return
}
if fileHasMoved(tls, pFile) != 0 {
Xsqlite3_log(tls, SQLITE_WARNING, ts+3630, libc.VaList(bp+24, (*UnixFile)(unsafe.Pointer(pFile)).FzPath))
return
}
}
func unixCheckReservedLock(tls *libc.TLS, id uintptr, pResOut uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var rc int32 = SQLITE_OK
var reserved int32 = 0
var pFile uintptr = id
Xsqlite3_mutex_enter(tls, (*UnixInodeInfo)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FpInode)).FpLockMutex)
if int32((*UnixInodeInfo)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FpInode)).FeFileLock) > SHARED_LOCK {
reserved = 1
}
if !(reserved != 0) && !(int32((*UnixInodeInfo)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FpInode)).FbProcessLock) != 0) {
(*flock)(unsafe.Pointer(bp + 8)).Fl_whence = int16(SEEK_SET)
(*flock)(unsafe.Pointer(bp + 8)).Fl_start = Off_t(Xsqlite3PendingByte + 1)
(*flock)(unsafe.Pointer(bp + 8)).Fl_len = int64(1)
(*flock)(unsafe.Pointer(bp + 8)).Fl_type = int16(F_WRLCK)
if (*(*func(*libc.TLS, int32, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 7*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(pFile)).Fh, F_GETLK, libc.VaList(bp, bp+8)) != 0 {
rc = SQLITE_IOERR | int32(14)<<8
storeLastErrno(tls, pFile, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
} else if int32((*flock)(unsafe.Pointer(bp+8)).Fl_type) != F_UNLCK {
reserved = 1
}
}
Xsqlite3_mutex_leave(tls, (*UnixInodeInfo)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FpInode)).FpLockMutex)
*(*int32)(unsafe.Pointer(pResOut)) = reserved
return rc
}
func unixFileLock(tls *libc.TLS, pFile uintptr, pLock uintptr) int32 {
bp := tls.Alloc(40)
defer tls.Free(40)
var rc int32
var pInode uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FpInode
if int32((*UnixFile)(unsafe.Pointer(pFile)).FctrlFlags)&(UNIXFILE_EXCL|UNIXFILE_RDONLY) == UNIXFILE_EXCL {
if int32((*UnixInodeInfo)(unsafe.Pointer(pInode)).FbProcessLock) == 0 {
(*flock)(unsafe.Pointer(bp + 16)).Fl_whence = int16(SEEK_SET)
(*flock)(unsafe.Pointer(bp + 16)).Fl_start = Off_t(Xsqlite3PendingByte + 2)
(*flock)(unsafe.Pointer(bp + 16)).Fl_len = int64(SHARED_SIZE)
(*flock)(unsafe.Pointer(bp + 16)).Fl_type = int16(F_WRLCK)
rc = (*(*func(*libc.TLS, int32, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 7*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(pFile)).Fh, F_SETLK, libc.VaList(bp, bp+16))
if rc < 0 {
return rc
}
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FbProcessLock = uint8(1)
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnLock++
} else {
rc = 0
}
} else {
rc = (*(*func(*libc.TLS, int32, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 7*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(pFile)).Fh, F_SETLK, libc.VaList(bp+8, pLock))
}
return rc
}
func unixLock(tls *libc.TLS, id uintptr, eFileLock int32) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var rc int32
var pFile uintptr
var pInode uintptr
var tErrno int32
rc = SQLITE_OK
pFile = id
tErrno = 0
if !(int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) >= eFileLock) {
goto __1
}
return SQLITE_OK
__1:
;
pInode = (*UnixFile)(unsafe.Pointer(pFile)).FpInode
Xsqlite3_mutex_enter(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
if !(int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) != int32((*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock) && (int32((*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock) >= PENDING_LOCK || eFileLock > SHARED_LOCK)) {
goto __2
}
rc = SQLITE_BUSY
goto end_lock
__2:
;
if !(eFileLock == SHARED_LOCK && (int32((*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock) == SHARED_LOCK || int32((*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock) == RESERVED_LOCK)) {
goto __3
}
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(SHARED_LOCK)
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnShared++
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnLock++
goto end_lock
__3:
;
(*flock)(unsafe.Pointer(bp)).Fl_len = 1
(*flock)(unsafe.Pointer(bp)).Fl_whence = int16(SEEK_SET)
if !(eFileLock == SHARED_LOCK ||
eFileLock == EXCLUSIVE_LOCK && int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) == RESERVED_LOCK) {
goto __4
}
(*flock)(unsafe.Pointer(bp)).Fl_type = func() int16 {
if eFileLock == SHARED_LOCK {
return int16(F_RDLCK)
}
return int16(F_WRLCK)
}()
(*flock)(unsafe.Pointer(bp)).Fl_start = Off_t(Xsqlite3PendingByte)
if !(unixFileLock(tls, pFile, bp) != 0) {
goto __5
}
tErrno = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
rc = sqliteErrorFromPosixError(tls, tErrno, SQLITE_IOERR|int32(15)<<8)
if !(rc != SQLITE_BUSY) {
goto __7
}
storeLastErrno(tls, pFile, tErrno)
__7:
;
goto end_lock
goto __6
__5:
if !(eFileLock == EXCLUSIVE_LOCK) {
goto __8
}
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(PENDING_LOCK)
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock = uint8(PENDING_LOCK)
__8:
;
__6:
;
__4:
;
if !(eFileLock == SHARED_LOCK) {
goto __9
}
(*flock)(unsafe.Pointer(bp)).Fl_start = Off_t(Xsqlite3PendingByte + 2)
(*flock)(unsafe.Pointer(bp)).Fl_len = int64(SHARED_SIZE)
if !(unixFileLock(tls, pFile, bp) != 0) {
goto __11
}
tErrno = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
rc = sqliteErrorFromPosixError(tls, tErrno, SQLITE_IOERR|int32(15)<<8)
__11:
;
(*flock)(unsafe.Pointer(bp)).Fl_start = Off_t(Xsqlite3PendingByte)
(*flock)(unsafe.Pointer(bp)).Fl_len = 1
(*flock)(unsafe.Pointer(bp)).Fl_type = int16(F_UNLCK)
if !(unixFileLock(tls, pFile, bp) != 0 && rc == SQLITE_OK) {
goto __12
}
tErrno = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
rc = SQLITE_IOERR | int32(8)<<8
__12:
;
if !(rc != 0) {
goto __13
}
if !(rc != SQLITE_BUSY) {
goto __15
}
storeLastErrno(tls, pFile, tErrno)
__15:
;
goto end_lock
goto __14
__13:
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(SHARED_LOCK)
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnLock++
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnShared = 1
__14:
;
goto __10
__9:
if !(eFileLock == EXCLUSIVE_LOCK && (*UnixInodeInfo)(unsafe.Pointer(pInode)).FnShared > 1) {
goto __16
}
rc = SQLITE_BUSY
goto __17
__16:
;
(*flock)(unsafe.Pointer(bp)).Fl_type = int16(F_WRLCK)
if !(eFileLock == RESERVED_LOCK) {
goto __18
}
(*flock)(unsafe.Pointer(bp)).Fl_start = Off_t(Xsqlite3PendingByte + 1)
(*flock)(unsafe.Pointer(bp)).Fl_len = 1
goto __19
__18:
(*flock)(unsafe.Pointer(bp)).Fl_start = Off_t(Xsqlite3PendingByte + 2)
(*flock)(unsafe.Pointer(bp)).Fl_len = int64(SHARED_SIZE)
__19:
;
if !(unixFileLock(tls, pFile, bp) != 0) {
goto __20
}
tErrno = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
rc = sqliteErrorFromPosixError(tls, tErrno, SQLITE_IOERR|int32(15)<<8)
if !(rc != SQLITE_BUSY) {
goto __21
}
storeLastErrno(tls, pFile, tErrno)
__21:
;
__20:
;
__17:
;
__10:
;
if !(rc == SQLITE_OK) {
goto __22
}
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(eFileLock)
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock = uint8(eFileLock)
__22:
;
end_lock:
Xsqlite3_mutex_leave(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
return rc
}
func setPendingFd(tls *libc.TLS, pFile uintptr) {
var pInode uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FpInode
var p uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FpPreallocatedUnused
(*UnixUnusedFd)(unsafe.Pointer(p)).FpNext = (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpUnused
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FpUnused = p
(*UnixFile)(unsafe.Pointer(pFile)).Fh = -1
(*UnixFile)(unsafe.Pointer(pFile)).FpPreallocatedUnused = uintptr(0)
}
func posixUnlock(tls *libc.TLS, id uintptr, eFileLock int32, handleNFSUnlock int32) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var pFile uintptr
var pInode uintptr
var rc int32
var tErrno int32
var divSize Off_t
pFile = id
rc = SQLITE_OK
if !(int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) <= eFileLock) {
goto __1
}
return SQLITE_OK
__1:
;
pInode = (*UnixFile)(unsafe.Pointer(pFile)).FpInode
Xsqlite3_mutex_enter(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
if !(int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) > SHARED_LOCK) {
goto __2
}
if !(eFileLock == SHARED_LOCK) {
goto __3
}
if !(handleNFSUnlock != 0) {
goto __4
}
divSize = int64(SHARED_SIZE - 1)
(*flock)(unsafe.Pointer(bp)).Fl_type = int16(F_UNLCK)
(*flock)(unsafe.Pointer(bp)).Fl_whence = int16(SEEK_SET)
(*flock)(unsafe.Pointer(bp)).Fl_start = Off_t(Xsqlite3PendingByte + 2)
(*flock)(unsafe.Pointer(bp)).Fl_len = divSize
if !(unixFileLock(tls, pFile, bp) == -1) {
goto __6
}
tErrno = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
rc = SQLITE_IOERR | int32(8)<<8
storeLastErrno(tls, pFile, tErrno)
goto end_unlock
__6:
;
(*flock)(unsafe.Pointer(bp)).Fl_type = int16(F_RDLCK)
(*flock)(unsafe.Pointer(bp)).Fl_whence = int16(SEEK_SET)
(*flock)(unsafe.Pointer(bp)).Fl_start = Off_t(Xsqlite3PendingByte + 2)
(*flock)(unsafe.Pointer(bp)).Fl_len = divSize
if !(unixFileLock(tls, pFile, bp) == -1) {
goto __7
}
tErrno = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
rc = sqliteErrorFromPosixError(tls, tErrno, SQLITE_IOERR|int32(9)<<8)
if !(rc != SQLITE_OK && rc != SQLITE_BUSY) {
goto __8
}
storeLastErrno(tls, pFile, tErrno)
__8:
;
goto end_unlock
__7:
;
(*flock)(unsafe.Pointer(bp)).Fl_type = int16(F_UNLCK)
(*flock)(unsafe.Pointer(bp)).Fl_whence = int16(SEEK_SET)
(*flock)(unsafe.Pointer(bp)).Fl_start = Off_t(Xsqlite3PendingByte+2) + divSize
(*flock)(unsafe.Pointer(bp)).Fl_len = int64(SHARED_SIZE) - divSize
if !(unixFileLock(tls, pFile, bp) == -1) {
goto __9
}
tErrno = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
rc = SQLITE_IOERR | int32(8)<<8
storeLastErrno(tls, pFile, tErrno)
goto end_unlock
__9:
;
goto __5
__4:
(*flock)(unsafe.Pointer(bp)).Fl_type = int16(F_RDLCK)
(*flock)(unsafe.Pointer(bp)).Fl_whence = int16(SEEK_SET)
(*flock)(unsafe.Pointer(bp)).Fl_start = Off_t(Xsqlite3PendingByte + 2)
(*flock)(unsafe.Pointer(bp)).Fl_len = int64(SHARED_SIZE)
if !(unixFileLock(tls, pFile, bp) != 0) {
goto __10
}
rc = SQLITE_IOERR | int32(9)<<8
storeLastErrno(tls, pFile, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
goto end_unlock
__10:
;
__5:
;
__3:
;
(*flock)(unsafe.Pointer(bp)).Fl_type = int16(F_UNLCK)
(*flock)(unsafe.Pointer(bp)).Fl_whence = int16(SEEK_SET)
(*flock)(unsafe.Pointer(bp)).Fl_start = Off_t(Xsqlite3PendingByte)
(*flock)(unsafe.Pointer(bp)).Fl_len = 2
if !(unixFileLock(tls, pFile, bp) == 0) {
goto __11
}
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock = uint8(SHARED_LOCK)
goto __12
__11:
rc = SQLITE_IOERR | int32(8)<<8
storeLastErrno(tls, pFile, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
goto end_unlock
__12:
;
__2:
;
if !(eFileLock == NO_LOCK) {
goto __13
}
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnShared--
if !((*UnixInodeInfo)(unsafe.Pointer(pInode)).FnShared == 0) {
goto __14
}
(*flock)(unsafe.Pointer(bp)).Fl_type = int16(F_UNLCK)
(*flock)(unsafe.Pointer(bp)).Fl_whence = int16(SEEK_SET)
(*flock)(unsafe.Pointer(bp)).Fl_start = libc.AssignPtrInt64(bp+8, 0)
if !(unixFileLock(tls, pFile, bp) == 0) {
goto __15
}
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock = uint8(NO_LOCK)
goto __16
__15:
rc = SQLITE_IOERR | int32(8)<<8
storeLastErrno(tls, pFile, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock = uint8(NO_LOCK)
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(NO_LOCK)
__16:
;
__14:
;
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnLock--
if !((*UnixInodeInfo)(unsafe.Pointer(pInode)).FnLock == 0) {
goto __17
}
closePendingFds(tls, pFile)
__17:
;
__13:
;
end_unlock:
Xsqlite3_mutex_leave(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
if !(rc == SQLITE_OK) {
goto __18
}
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(eFileLock)
__18:
;
return rc
}
func unixUnlock(tls *libc.TLS, id uintptr, eFileLock int32) int32 {
return posixUnlock(tls, id, eFileLock, 0)
}
func closeUnixFile(tls *libc.TLS, id uintptr) int32 {
var pFile uintptr = id
unixUnmapfile(tls, pFile)
if (*UnixFile)(unsafe.Pointer(pFile)).Fh >= 0 {
robust_close(tls, pFile, (*UnixFile)(unsafe.Pointer(pFile)).Fh, 39055)
(*UnixFile)(unsafe.Pointer(pFile)).Fh = -1
}
Xsqlite3_free(tls, (*UnixFile)(unsafe.Pointer(pFile)).FpPreallocatedUnused)
libc.X__builtin___memset_chk(tls, pFile, 0, uint64(unsafe.Sizeof(UnixFile{})), libc.X__builtin_object_size(tls, pFile, 0))
return SQLITE_OK
}
func unixClose(tls *libc.TLS, id uintptr) int32 {
var rc int32 = SQLITE_OK
var pFile uintptr = id
var pInode uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FpInode
verifyDbFile(tls, pFile)
unixUnlock(tls, id, NO_LOCK)
unixEnterMutex(tls)
Xsqlite3_mutex_enter(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
if (*UnixInodeInfo)(unsafe.Pointer(pInode)).FnLock != 0 {
setPendingFd(tls, pFile)
}
Xsqlite3_mutex_leave(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
releaseInodeInfo(tls, pFile)
rc = closeUnixFile(tls, id)
unixLeaveMutex(tls)
return rc
}
func nolockCheckReservedLock(tls *libc.TLS, NotUsed uintptr, pResOut uintptr) int32 {
_ = NotUsed
*(*int32)(unsafe.Pointer(pResOut)) = 0
return SQLITE_OK
}
func nolockLock(tls *libc.TLS, NotUsed uintptr, NotUsed2 int32) int32 {
_ = NotUsed
_ = NotUsed2
return SQLITE_OK
}
func nolockUnlock(tls *libc.TLS, NotUsed uintptr, NotUsed2 int32) int32 {
_ = NotUsed
_ = NotUsed2
return SQLITE_OK
}
func nolockClose(tls *libc.TLS, id uintptr) int32 {
return closeUnixFile(tls, id)
}
func dotlockCheckReservedLock(tls *libc.TLS, id uintptr, pResOut uintptr) int32 {
var rc int32 = SQLITE_OK
var reserved int32 = 0
var pFile uintptr = id
reserved = libc.Bool32((*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 2*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext, 0) == 0)
*(*int32)(unsafe.Pointer(pResOut)) = reserved
return rc
}
func dotlockLock(tls *libc.TLS, id uintptr, eFileLock int32) int32 {
var pFile uintptr = id
var zLockFile uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
var rc int32 = SQLITE_OK
if int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) > NO_LOCK {
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(eFileLock)
libc.Xutimes(tls, zLockFile, uintptr(0))
return SQLITE_OK
}
rc = (*(*func(*libc.TLS, uintptr, Mode_t) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 18*24 + 8)))(tls, zLockFile, uint16(0777))
if rc < 0 {
var tErrno int32 = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
if EEXIST == tErrno {
rc = SQLITE_BUSY
} else {
rc = sqliteErrorFromPosixError(tls, tErrno, SQLITE_IOERR|int32(15)<<8)
if rc != SQLITE_BUSY {
storeLastErrno(tls, pFile, tErrno)
}
}
return rc
}
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(eFileLock)
return rc
}
func dotlockUnlock(tls *libc.TLS, id uintptr, eFileLock int32) int32 {
var pFile uintptr = id
var zLockFile uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
var rc int32
if int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) == eFileLock {
return SQLITE_OK
}
if eFileLock == SHARED_LOCK {
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(SHARED_LOCK)
return SQLITE_OK
}
rc = (*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 19*24 + 8)))(tls, zLockFile)
if rc < 0 {
var tErrno int32 = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
if tErrno == ENOENT {
rc = SQLITE_OK
} else {
rc = SQLITE_IOERR | int32(8)<<8
storeLastErrno(tls, pFile, tErrno)
}
return rc
}
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(NO_LOCK)
return SQLITE_OK
}
func dotlockClose(tls *libc.TLS, id uintptr) int32 {
var pFile uintptr = id
dotlockUnlock(tls, id, NO_LOCK)
Xsqlite3_free(tls, (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext)
return closeUnixFile(tls, id)
}
func robust_flock(tls *libc.TLS, fd int32, op int32) int32 {
var rc int32
for __ccgo := true; __ccgo; __ccgo = rc < 0 && *(*int32)(unsafe.Pointer(libc.X__error(tls))) == EINTR {
rc = libc.Xflock(tls, fd, op)
}
return rc
}
func flockCheckReservedLock(tls *libc.TLS, id uintptr, pResOut uintptr) int32 {
var rc int32 = SQLITE_OK
var reserved int32 = 0
var pFile uintptr = id
if int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) > SHARED_LOCK {
reserved = 1
}
if !(reserved != 0) {
var lrc int32 = robust_flock(tls, (*UnixFile)(unsafe.Pointer(pFile)).Fh, LOCK_EX|LOCK_NB)
if !(lrc != 0) {
lrc = robust_flock(tls, (*UnixFile)(unsafe.Pointer(pFile)).Fh, LOCK_UN)
if lrc != 0 {
var tErrno int32 = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
lrc = SQLITE_IOERR | int32(8)<<8
storeLastErrno(tls, pFile, tErrno)
rc = lrc
}
} else {
var tErrno int32 = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
reserved = 1
lrc = sqliteErrorFromPosixError(tls, tErrno, SQLITE_IOERR|int32(15)<<8)
if lrc != SQLITE_OK && lrc != SQLITE_BUSY {
storeLastErrno(tls, pFile, tErrno)
rc = lrc
}
}
}
*(*int32)(unsafe.Pointer(pResOut)) = reserved
return rc
}
func flockLock(tls *libc.TLS, id uintptr, eFileLock int32) int32 {
var rc int32 = SQLITE_OK
var pFile uintptr = id
if int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) > NO_LOCK {
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(eFileLock)
return SQLITE_OK
}
if robust_flock(tls, (*UnixFile)(unsafe.Pointer(pFile)).Fh, LOCK_EX|LOCK_NB) != 0 {
var tErrno int32 = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
rc = sqliteErrorFromPosixError(tls, tErrno, SQLITE_IOERR|int32(15)<<8)
if rc != SQLITE_OK && rc != SQLITE_BUSY {
storeLastErrno(tls, pFile, tErrno)
}
} else {
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(eFileLock)
}
return rc
}
func flockUnlock(tls *libc.TLS, id uintptr, eFileLock int32) int32 {
var pFile uintptr = id
if int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) == eFileLock {
return SQLITE_OK
}
if eFileLock == SHARED_LOCK {
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(eFileLock)
return SQLITE_OK
}
if robust_flock(tls, (*UnixFile)(unsafe.Pointer(pFile)).Fh, LOCK_UN) != 0 {
return SQLITE_IOERR | int32(8)<<8
} else {
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(NO_LOCK)
return SQLITE_OK
}
return int32(0)
}
func flockClose(tls *libc.TLS, id uintptr) int32 {
flockUnlock(tls, id, NO_LOCK)
return closeUnixFile(tls, id)
}
type afpLockingContext = struct {
Freserved int32
F__ccgo_pad1 [4]byte
FdbPath uintptr
}
// The afpLockingContext structure contains all afp lock specific state
type AfpLockingContext = afpLockingContext
type ByteRangeLockPB2 = struct {
Foffset uint64
Flength uint64
FretRangeStart uint64
FunLockFlag uint8
FstartEndFlag uint8
F__ccgo_pad1 [2]byte
Ffd int32
}
func afpSetLock(tls *libc.TLS, path uintptr, pFile uintptr, offset uint64, length uint64, setLockFlag int32) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var err int32
(*ByteRangeLockPB2)(unsafe.Pointer(bp)).FunLockFlag = func() uint8 {
if setLockFlag != 0 {
return uint8(0)
}
return uint8(1)
}()
(*ByteRangeLockPB2)(unsafe.Pointer(bp)).FstartEndFlag = uint8(0)
(*ByteRangeLockPB2)(unsafe.Pointer(bp)).Foffset = offset
(*ByteRangeLockPB2)(unsafe.Pointer(bp)).Flength = length
(*ByteRangeLockPB2)(unsafe.Pointer(bp)).Ffd = (*UnixFile)(unsafe.Pointer(pFile)).Fh
err = libc.Xfsctl(tls, path, uint64(0x80000000|X__uint32_t(0x40000000))|uint64(unsafe.Sizeof(ByteRangeLockPB2{}))&uint64(IOCPARM_MASK)<<16|uint64(int32('z')<<8)|uint64(23), bp, uint32(0))
if err == -1 {
var rc int32
var tErrno int32 = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
rc = sqliteErrorFromPosixError(tls, tErrno,
func() int32 {
if setLockFlag != 0 {
return SQLITE_IOERR | int32(15)<<8
}
return SQLITE_IOERR | int32(8)<<8
}())
if rc != SQLITE_OK && rc != SQLITE_BUSY {
storeLastErrno(tls, pFile, tErrno)
}
return rc
} else {
return SQLITE_OK
}
return int32(0)
}
func afpCheckReservedLock(tls *libc.TLS, id uintptr, pResOut uintptr) int32 {
var rc int32 = SQLITE_OK
var reserved int32 = 0
var pFile uintptr = id
var context uintptr
context = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
if (*AfpLockingContext)(unsafe.Pointer(context)).Freserved != 0 {
*(*int32)(unsafe.Pointer(pResOut)) = 1
return SQLITE_OK
}
Xsqlite3_mutex_enter(tls, (*UnixInodeInfo)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FpInode)).FpLockMutex)
if int32((*UnixInodeInfo)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FpInode)).FeFileLock) > SHARED_LOCK {
reserved = 1
}
if !(reserved != 0) {
var lrc int32 = afpSetLock(tls, (*AfpLockingContext)(unsafe.Pointer(context)).FdbPath, pFile, uint64(Xsqlite3PendingByte+1), uint64(1), 1)
if SQLITE_OK == lrc {
lrc = afpSetLock(tls, (*AfpLockingContext)(unsafe.Pointer(context)).FdbPath, pFile, uint64(Xsqlite3PendingByte+1), uint64(1), 0)
} else {
reserved = 1
}
if lrc != SQLITE_OK && lrc != SQLITE_BUSY {
rc = lrc
}
}
Xsqlite3_mutex_leave(tls, (*UnixInodeInfo)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FpInode)).FpLockMutex)
*(*int32)(unsafe.Pointer(pResOut)) = reserved
return rc
}
func afpLock(tls *libc.TLS, id uintptr, eFileLock int32) int32 {
var rc int32
var pFile uintptr
var pInode uintptr
var context uintptr
var failed int32
var lrc1 int32
var lrc2 int32
var lrc1Errno int32
var lk int64
var mask int64
var failed2 int32
var failed1 int32
rc = SQLITE_OK
pFile = id
pInode = (*UnixFile)(unsafe.Pointer(pFile)).FpInode
context = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
if !(int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) >= eFileLock) {
goto __1
}
return SQLITE_OK
__1:
;
pInode = (*UnixFile)(unsafe.Pointer(pFile)).FpInode
Xsqlite3_mutex_enter(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
if !(int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) != int32((*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock) && (int32((*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock) >= PENDING_LOCK || eFileLock > SHARED_LOCK)) {
goto __2
}
rc = SQLITE_BUSY
goto afp_end_lock
__2:
;
if !(eFileLock == SHARED_LOCK && (int32((*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock) == SHARED_LOCK || int32((*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock) == RESERVED_LOCK)) {
goto __3
}
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(SHARED_LOCK)
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnShared++
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnLock++
goto afp_end_lock
__3:
;
if !(eFileLock == SHARED_LOCK ||
eFileLock == EXCLUSIVE_LOCK && int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) < PENDING_LOCK) {
goto __4
}
failed = afpSetLock(tls, (*AfpLockingContext)(unsafe.Pointer(context)).FdbPath, pFile, uint64(Xsqlite3PendingByte), uint64(1), 1)
if !(failed != 0) {
goto __5
}
rc = failed
goto afp_end_lock
__5:
;
__4:
;
if !(eFileLock == SHARED_LOCK) {
goto __6
}
lrc1Errno = 0
if uint64(unsafe.Sizeof(int64(0))) == uint64(8) {
mask = int64(0xffffffff) | int64(0x7fffffff)<<32
} else {
mask = int64(0x7fffffff)
}
lk = libc.Xrandom(tls)
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FsharedByte = uint64(lk & mask % int64(SHARED_SIZE-1))
lrc1 = afpSetLock(tls, (*AfpLockingContext)(unsafe.Pointer(context)).FdbPath, pFile,
uint64(Xsqlite3PendingByte+2)+(*UnixInodeInfo)(unsafe.Pointer(pInode)).FsharedByte, uint64(1), 1)
if !(lrc1 != SQLITE_OK && lrc1 != SQLITE_BUSY) {
goto __8
}
lrc1Errno = (*UnixFile)(unsafe.Pointer(pFile)).FlastErrno
__8:
;
lrc2 = afpSetLock(tls, (*AfpLockingContext)(unsafe.Pointer(context)).FdbPath, pFile, uint64(Xsqlite3PendingByte), uint64(1), 0)
if !(lrc1 != SQLITE_OK && lrc1 != SQLITE_BUSY) {
goto __9
}
storeLastErrno(tls, pFile, lrc1Errno)
rc = lrc1
goto afp_end_lock
goto __10
__9:
if !(lrc2 != SQLITE_OK && lrc2 != SQLITE_BUSY) {
goto __11
}
rc = lrc2
goto afp_end_lock
goto __12
__11:
if !(lrc1 != SQLITE_OK) {
goto __13
}
rc = lrc1
goto __14
__13:
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(SHARED_LOCK)
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnLock++
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnShared = 1
__14:
;
__12:
;
__10:
;
goto __7
__6:
if !(eFileLock == EXCLUSIVE_LOCK && (*UnixInodeInfo)(unsafe.Pointer(pInode)).FnShared > 1) {
goto __15
}
rc = SQLITE_BUSY
goto __16
__15:
failed1 = 0
if !(eFileLock >= RESERVED_LOCK && int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) < RESERVED_LOCK) {
goto __17
}
failed1 = afpSetLock(tls, (*AfpLockingContext)(unsafe.Pointer(context)).FdbPath, pFile, uint64(Xsqlite3PendingByte+1), uint64(1), 1)
if !!(failed1 != 0) {
goto __18
}
(*AfpLockingContext)(unsafe.Pointer(context)).Freserved = 1
__18:
;
__17:
;
if !(!(failed1 != 0) && eFileLock == EXCLUSIVE_LOCK) {
goto __19
}
if !!(libc.AssignInt32(&failed1, afpSetLock(tls, (*AfpLockingContext)(unsafe.Pointer(context)).FdbPath, pFile, uint64(Xsqlite3PendingByte+2)+(*UnixInodeInfo)(unsafe.Pointer(pInode)).FsharedByte, uint64(1), 0)) != 0) {
goto __20
}
failed2 = SQLITE_OK
failed1 = afpSetLock(tls, (*AfpLockingContext)(unsafe.Pointer(context)).FdbPath, pFile, uint64(Xsqlite3PendingByte+2),
uint64(SHARED_SIZE), 1)
if !(failed1 != 0 && libc.AssignInt32(&failed2, afpSetLock(tls, (*AfpLockingContext)(unsafe.Pointer(context)).FdbPath, pFile,
uint64(Xsqlite3PendingByte+2)+(*UnixInodeInfo)(unsafe.Pointer(pInode)).FsharedByte, uint64(1), 1)) != 0) {
goto __22
}
if failed1&0xff == SQLITE_IOERR {
rc = failed2
} else {
rc = SQLITE_IOERR | int32(15)<<8
}
goto afp_end_lock
__22:
;
goto __21
__20:
rc = failed1
__21:
;
__19:
;
if !(failed1 != 0) {
goto __23
}
rc = failed1
__23:
;
__16:
;
__7:
;
if !(rc == SQLITE_OK) {
goto __24
}
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(eFileLock)
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock = uint8(eFileLock)
goto __25
__24:
if !(eFileLock == EXCLUSIVE_LOCK) {
goto __26
}
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(PENDING_LOCK)
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock = uint8(PENDING_LOCK)
__26:
;
__25:
;
afp_end_lock:
Xsqlite3_mutex_leave(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
return rc
}
func afpUnlock(tls *libc.TLS, id uintptr, eFileLock int32) int32 {
var rc int32 = SQLITE_OK
var pFile uintptr = id
var pInode uintptr
var context uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
var skipShared int32 = 0
if int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) <= eFileLock {
return SQLITE_OK
}
pInode = (*UnixFile)(unsafe.Pointer(pFile)).FpInode
Xsqlite3_mutex_enter(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
if int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) > SHARED_LOCK {
if int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) == EXCLUSIVE_LOCK {
rc = afpSetLock(tls, (*AfpLockingContext)(unsafe.Pointer(context)).FdbPath, pFile, uint64(Xsqlite3PendingByte+2), uint64(SHARED_SIZE), 0)
if rc == SQLITE_OK && (eFileLock == SHARED_LOCK || (*UnixInodeInfo)(unsafe.Pointer(pInode)).FnShared > 1) {
var sharedLockByte int32 = int32(uint64(Xsqlite3PendingByte+2) + (*UnixInodeInfo)(unsafe.Pointer(pInode)).FsharedByte)
rc = afpSetLock(tls, (*AfpLockingContext)(unsafe.Pointer(context)).FdbPath, pFile, uint64(sharedLockByte), uint64(1), 1)
} else {
skipShared = 1
}
}
if rc == SQLITE_OK && int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) >= PENDING_LOCK {
rc = afpSetLock(tls, (*AfpLockingContext)(unsafe.Pointer(context)).FdbPath, pFile, uint64(Xsqlite3PendingByte), uint64(1), 0)
}
if rc == SQLITE_OK && int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) >= RESERVED_LOCK && (*AfpLockingContext)(unsafe.Pointer(context)).Freserved != 0 {
rc = afpSetLock(tls, (*AfpLockingContext)(unsafe.Pointer(context)).FdbPath, pFile, uint64(Xsqlite3PendingByte+1), uint64(1), 0)
if !(rc != 0) {
(*AfpLockingContext)(unsafe.Pointer(context)).Freserved = 0
}
}
if rc == SQLITE_OK && (eFileLock == SHARED_LOCK || (*UnixInodeInfo)(unsafe.Pointer(pInode)).FnShared > 1) {
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock = uint8(SHARED_LOCK)
}
}
if rc == SQLITE_OK && eFileLock == NO_LOCK {
var sharedLockByte uint64 = uint64(Xsqlite3PendingByte+2) + (*UnixInodeInfo)(unsafe.Pointer(pInode)).FsharedByte
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnShared--
if (*UnixInodeInfo)(unsafe.Pointer(pInode)).FnShared == 0 {
if !(skipShared != 0) {
rc = afpSetLock(tls, (*AfpLockingContext)(unsafe.Pointer(context)).FdbPath, pFile, sharedLockByte, uint64(1), 0)
}
if !(rc != 0) {
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FeFileLock = uint8(NO_LOCK)
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(NO_LOCK)
}
}
if rc == SQLITE_OK {
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FnLock--
if (*UnixInodeInfo)(unsafe.Pointer(pInode)).FnLock == 0 {
closePendingFds(tls, pFile)
}
}
}
Xsqlite3_mutex_leave(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
if rc == SQLITE_OK {
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = uint8(eFileLock)
}
return rc
}
func afpClose(tls *libc.TLS, id uintptr) int32 {
var rc int32 = SQLITE_OK
var pFile uintptr = id
afpUnlock(tls, id, NO_LOCK)
unixEnterMutex(tls)
if (*UnixFile)(unsafe.Pointer(pFile)).FpInode != 0 {
var pInode uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FpInode
Xsqlite3_mutex_enter(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
if (*UnixInodeInfo)(unsafe.Pointer(pInode)).FnLock != 0 {
setPendingFd(tls, pFile)
}
Xsqlite3_mutex_leave(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
}
releaseInodeInfo(tls, pFile)
Xsqlite3_free(tls, (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext)
rc = closeUnixFile(tls, id)
unixLeaveMutex(tls)
return rc
}
func nfsUnlock(tls *libc.TLS, id uintptr, eFileLock int32) int32 {
return posixUnlock(tls, id, eFileLock, 1)
}
func seekAndRead(tls *libc.TLS, id uintptr, offset Sqlite3_int64, pBuf uintptr, cnt int32) int32 {
var got int32
var prior int32 = 0
for __ccgo := true; __ccgo; __ccgo = got > 0 {
got = int32((*(*func(*libc.TLS, int32, uintptr, Size_t, Off_t) Ssize_t)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 9*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(id)).Fh, pBuf, uint64(cnt), offset))
if got == cnt {
break
}
if got < 0 {
if *(*int32)(unsafe.Pointer(libc.X__error(tls))) == EINTR {
got = 1
continue
}
prior = 0
storeLastErrno(tls, id, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
break
} else if got > 0 {
cnt = cnt - got
offset = offset + Sqlite3_int64(got)
prior = prior + got
pBuf = uintptr(got) + pBuf
}
}
return got + prior
}
func unixRead(tls *libc.TLS, id uintptr, pBuf uintptr, amt int32, offset Sqlite3_int64) int32 {
var pFile uintptr = id
var got int32
if offset < (*UnixFile)(unsafe.Pointer(pFile)).FmmapSize {
if offset+Sqlite3_int64(amt) <= (*UnixFile)(unsafe.Pointer(pFile)).FmmapSize {
libc.X__builtin___memcpy_chk(tls, pBuf, (*UnixFile)(unsafe.Pointer(pFile)).FpMapRegion+uintptr(offset), uint64(amt), libc.X__builtin_object_size(tls, pBuf, 0))
return SQLITE_OK
} else {
var nCopy int32 = int32((*UnixFile)(unsafe.Pointer(pFile)).FmmapSize - offset)
libc.X__builtin___memcpy_chk(tls, pBuf, (*UnixFile)(unsafe.Pointer(pFile)).FpMapRegion+uintptr(offset), uint64(nCopy), libc.X__builtin_object_size(tls, pBuf, 0))
pBuf = pBuf + uintptr(nCopy)
amt = amt - nCopy
offset = offset + Sqlite3_int64(nCopy)
}
}
got = seekAndRead(tls, pFile, offset, pBuf, amt)
if got == amt {
return SQLITE_OK
} else if got < 0 {
switch (*UnixFile)(unsafe.Pointer(pFile)).FlastErrno {
case ERANGE:
fallthrough
case EIO:
fallthrough
case ENXIO:
fallthrough
case EDEVERR:
return SQLITE_IOERR | int32(33)<<8
}
return SQLITE_IOERR | int32(1)<<8
} else {
storeLastErrno(tls, pFile, 0)
libc.X__builtin___memset_chk(tls, pBuf+uintptr(got), 0, uint64(amt-got), libc.X__builtin_object_size(tls, pBuf+uintptr(got), 0))
return SQLITE_IOERR | int32(2)<<8
}
return int32(0)
}
func seekAndWriteFd(tls *libc.TLS, fd int32, iOff I64, pBuf uintptr, nBuf int32, piErrno uintptr) int32 {
var rc int32 = 0
nBuf = nBuf & 0x1ffff
for __ccgo := true; __ccgo; __ccgo = rc < 0 && *(*int32)(unsafe.Pointer(libc.X__error(tls))) == EINTR {
rc = int32((*(*func(*libc.TLS, int32, uintptr, Size_t, Off_t) Ssize_t)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 12*24 + 8)))(tls, fd, pBuf, uint64(nBuf), iOff))
}
if rc < 0 {
*(*int32)(unsafe.Pointer(piErrno)) = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
}
return rc
}
func seekAndWrite(tls *libc.TLS, id uintptr, offset I64, pBuf uintptr, cnt int32) int32 {
return seekAndWriteFd(tls, (*UnixFile)(unsafe.Pointer(id)).Fh, offset, pBuf, cnt, id+32)
}
func unixWrite(tls *libc.TLS, id uintptr, pBuf uintptr, amt int32, offset Sqlite3_int64) int32 {
var pFile uintptr = id
var wrote int32 = 0
for libc.AssignInt32(&wrote, seekAndWrite(tls, pFile, offset, pBuf, amt)) < amt && wrote > 0 {
amt = amt - wrote
offset = offset + Sqlite3_int64(wrote)
pBuf = pBuf + uintptr(wrote)
}
if amt > wrote {
if wrote < 0 && (*UnixFile)(unsafe.Pointer(pFile)).FlastErrno != ENOSPC {
return SQLITE_IOERR | int32(3)<<8
} else {
storeLastErrno(tls, pFile, 0)
return SQLITE_FULL
}
}
return SQLITE_OK
}
func full_fsync(tls *libc.TLS, fd int32, fullSync int32, dataOnly int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
_ = dataOnly
if fullSync != 0 {
rc = (*(*func(*libc.TLS, int32, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 7*24 + 8)))(tls, fd, F_FULLFSYNC, libc.VaList(bp, 0))
} else {
rc = 1
}
if rc != 0 {
rc = libc.Xfsync(tls, fd)
}
if 0 != 0 && rc != -1 {
rc = 0
}
return rc
}
func openDirectory(tls *libc.TLS, zFilename uintptr, pFd uintptr) int32 {
bp := tls.Alloc(521)
defer tls.Free(521)
var ii int32
var fd int32 = -1
Xsqlite3_snprintf(tls, MAX_PATHNAME, bp+8, ts+3658, libc.VaList(bp, zFilename))
for ii = int32(libc.Xstrlen(tls, bp+8)); ii > 0 && int32(*(*int8)(unsafe.Pointer(bp + 8 + uintptr(ii)))) != '/'; ii-- {
}
if ii > 0 {
*(*int8)(unsafe.Pointer(bp + 8 + uintptr(ii))) = int8(0)
} else {
if int32(*(*int8)(unsafe.Pointer(bp + 8))) != '/' {
*(*int8)(unsafe.Pointer(bp + 8)) = int8('.')
}
*(*int8)(unsafe.Pointer(bp + 8 + 1)) = int8(0)
}
fd = robust_open(tls, bp+8, O_RDONLY|O_BINARY, uint16(0))
if fd >= 0 {
}
*(*int32)(unsafe.Pointer(pFd)) = fd
if fd >= 0 {
return SQLITE_OK
}
return unixLogErrorAtLine(tls, Xsqlite3CantopenError(tls, 40676), ts+3371, bp+8, 40676)
}
func unixSync(tls *libc.TLS, id uintptr, flags int32) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32
var pFile uintptr = id
var isDataOnly int32 = flags & SQLITE_SYNC_DATAONLY
var isFullsync int32 = libc.Bool32(flags&0x0F == SQLITE_SYNC_FULL)
rc = full_fsync(tls, (*UnixFile)(unsafe.Pointer(pFile)).Fh, isFullsync, isDataOnly)
if rc != 0 {
storeLastErrno(tls, pFile, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
return unixLogErrorAtLine(tls, SQLITE_IOERR|int32(4)<<8, ts+3661, (*UnixFile)(unsafe.Pointer(pFile)).FzPath, 40717)
}
if int32((*UnixFile)(unsafe.Pointer(pFile)).FctrlFlags)&UNIXFILE_DIRSYNC != 0 {
rc = (*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 17*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(pFile)).FzPath, bp)
if rc == SQLITE_OK {
full_fsync(tls, *(*int32)(unsafe.Pointer(bp)), 0, 0)
robust_close(tls, pFile, *(*int32)(unsafe.Pointer(bp)), 40731)
} else {
rc = SQLITE_OK
}
*(*uint16)(unsafe.Pointer(pFile + 30)) &= libc.Uint16FromInt32(libc.CplInt32(UNIXFILE_DIRSYNC))
}
return rc
}
func unixTruncate(tls *libc.TLS, id uintptr, nByte I64) int32 {
var pFile uintptr = id
var rc int32
if (*UnixFile)(unsafe.Pointer(pFile)).FszChunk > 0 {
nByte = (nByte + I64((*UnixFile)(unsafe.Pointer(pFile)).FszChunk) - int64(1)) / I64((*UnixFile)(unsafe.Pointer(pFile)).FszChunk) * I64((*UnixFile)(unsafe.Pointer(pFile)).FszChunk)
}
rc = robust_ftruncate(tls, (*UnixFile)(unsafe.Pointer(pFile)).Fh, nByte)
if rc != 0 {
storeLastErrno(tls, pFile, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
return unixLogErrorAtLine(tls, SQLITE_IOERR|int32(6)<<8, ts+3290, (*UnixFile)(unsafe.Pointer(pFile)).FzPath, 40762)
} else {
if nByte < (*UnixFile)(unsafe.Pointer(pFile)).FmmapSize {
(*UnixFile)(unsafe.Pointer(pFile)).FmmapSize = nByte
}
return SQLITE_OK
}
return int32(0)
}
func unixFileSize(tls *libc.TLS, id uintptr, pSize uintptr) int32 {
bp := tls.Alloc(144)
defer tls.Free(144)
var rc int32
rc = (*(*func(*libc.TLS, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 5*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(id)).Fh, bp)
if rc != 0 {
storeLastErrno(tls, id, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
return SQLITE_IOERR | int32(7)<<8
}
*(*I64)(unsafe.Pointer(pSize)) = (*stat)(unsafe.Pointer(bp)).Fst_size
if *(*I64)(unsafe.Pointer(pSize)) == int64(1) {
*(*I64)(unsafe.Pointer(pSize)) = int64(0)
}
return SQLITE_OK
}
func fcntlSizeHint(tls *libc.TLS, pFile uintptr, nByte I64) int32 {
bp := tls.Alloc(144)
defer tls.Free(144)
if (*UnixFile)(unsafe.Pointer(pFile)).FszChunk > 0 {
var nSize I64
if (*(*func(*libc.TLS, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 5*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(pFile)).Fh, bp) != 0 {
return SQLITE_IOERR | int32(7)<<8
}
nSize = (nByte + I64((*UnixFile)(unsafe.Pointer(pFile)).FszChunk) - int64(1)) / I64((*UnixFile)(unsafe.Pointer(pFile)).FszChunk) * I64((*UnixFile)(unsafe.Pointer(pFile)).FszChunk)
if nSize > (*stat)(unsafe.Pointer(bp)).Fst_size {
var nBlk int32 = (*stat)(unsafe.Pointer(bp)).Fst_blksize
var nWrite int32 = 0
var iWrite I64
iWrite = (*stat)(unsafe.Pointer(bp)).Fst_size/Off_t(nBlk)*Off_t(nBlk) + Off_t(nBlk) - int64(1)
for ; iWrite < nSize+I64(nBlk)-int64(1); iWrite = iWrite + I64(nBlk) {
if iWrite >= nSize {
iWrite = nSize - int64(1)
}
nWrite = seekAndWrite(tls, pFile, iWrite, ts+1547, 1)
if nWrite != 1 {
return SQLITE_IOERR | int32(3)<<8
}
}
}
}
if (*UnixFile)(unsafe.Pointer(pFile)).FmmapSizeMax > int64(0) && nByte > (*UnixFile)(unsafe.Pointer(pFile)).FmmapSize {
var rc int32
if (*UnixFile)(unsafe.Pointer(pFile)).FszChunk <= 0 {
if robust_ftruncate(tls, (*UnixFile)(unsafe.Pointer(pFile)).Fh, nByte) != 0 {
storeLastErrno(tls, pFile, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
return unixLogErrorAtLine(tls, SQLITE_IOERR|int32(6)<<8, ts+3290, (*UnixFile)(unsafe.Pointer(pFile)).FzPath, 40883)
}
}
rc = unixMapfile(tls, pFile, nByte)
return rc
}
return SQLITE_OK
}
func unixModeBit(tls *libc.TLS, pFile uintptr, mask uint8, pArg uintptr) {
if *(*int32)(unsafe.Pointer(pArg)) < 0 {
*(*int32)(unsafe.Pointer(pArg)) = libc.Bool32(int32((*UnixFile)(unsafe.Pointer(pFile)).FctrlFlags)&int32(mask) != 0)
} else if *(*int32)(unsafe.Pointer(pArg)) == 0 {
*(*uint16)(unsafe.Pointer(pFile + 30)) &= uint16(^int32(mask))
} else {
*(*uint16)(unsafe.Pointer(pFile + 30)) |= uint16(int32(mask))
}
}
func unixFileControl(tls *libc.TLS, id uintptr, op int32, pArg uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pFile uintptr = id
switch op {
case SQLITE_FCNTL_LOCKSTATE:
{
*(*int32)(unsafe.Pointer(pArg)) = int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock)
return SQLITE_OK
}
case SQLITE_FCNTL_LAST_ERRNO:
{
*(*int32)(unsafe.Pointer(pArg)) = (*UnixFile)(unsafe.Pointer(pFile)).FlastErrno
return SQLITE_OK
}
case SQLITE_FCNTL_CHUNK_SIZE:
{
(*UnixFile)(unsafe.Pointer(pFile)).FszChunk = *(*int32)(unsafe.Pointer(pArg))
return SQLITE_OK
}
case SQLITE_FCNTL_SIZE_HINT:
{
var rc int32
rc = fcntlSizeHint(tls, pFile, *(*I64)(unsafe.Pointer(pArg)))
return rc
}
case SQLITE_FCNTL_PERSIST_WAL:
{
unixModeBit(tls, pFile, uint8(UNIXFILE_PERSIST_WAL), pArg)
return SQLITE_OK
}
case SQLITE_FCNTL_POWERSAFE_OVERWRITE:
{
unixModeBit(tls, pFile, uint8(UNIXFILE_PSOW), pArg)
return SQLITE_OK
}
case SQLITE_FCNTL_VFSNAME:
{
*(*uintptr)(unsafe.Pointer(pArg)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp, (*Sqlite3_vfs)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FpVfs)).FzName))
return SQLITE_OK
}
case SQLITE_FCNTL_TEMPFILENAME:
{
var zTFile uintptr = Xsqlite3_malloc64(tls, uint64((*Sqlite3_vfs)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FpVfs)).FmxPathname))
if zTFile != 0 {
unixGetTempname(tls, (*Sqlite3_vfs)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FpVfs)).FmxPathname, zTFile)
*(*uintptr)(unsafe.Pointer(pArg)) = zTFile
}
return SQLITE_OK
}
case SQLITE_FCNTL_HAS_MOVED:
{
*(*int32)(unsafe.Pointer(pArg)) = fileHasMoved(tls, pFile)
return SQLITE_OK
}
case SQLITE_FCNTL_MMAP_SIZE:
{
var newLimit I64 = *(*I64)(unsafe.Pointer(pArg))
var rc int32 = SQLITE_OK
if newLimit > Xsqlite3Config.FmxMmap {
newLimit = Xsqlite3Config.FmxMmap
}
if newLimit > int64(0) && uint64(unsafe.Sizeof(Size_t(0))) < uint64(8) {
newLimit = newLimit & int64(0x7FFFFFFF)
}
*(*I64)(unsafe.Pointer(pArg)) = (*UnixFile)(unsafe.Pointer(pFile)).FmmapSizeMax
if newLimit >= int64(0) && newLimit != (*UnixFile)(unsafe.Pointer(pFile)).FmmapSizeMax && (*UnixFile)(unsafe.Pointer(pFile)).FnFetchOut == 0 {
(*UnixFile)(unsafe.Pointer(pFile)).FmmapSizeMax = newLimit
if (*UnixFile)(unsafe.Pointer(pFile)).FmmapSize > int64(0) {
unixUnmapfile(tls, pFile)
rc = unixMapfile(tls, pFile, int64(-1))
}
}
return rc
}
case SQLITE_FCNTL_SET_LOCKPROXYFILE:
fallthrough
case SQLITE_FCNTL_GET_LOCKPROXYFILE:
{
return proxyFileControl(tls, id, op, pArg)
}
case SQLITE_FCNTL_EXTERNAL_READER:
{
return unixFcntlExternalReader(tls, id, pArg)
}
}
return SQLITE_NOTFOUND
}
func setDeviceCharacteristics(tls *libc.TLS, pFd uintptr) {
if (*UnixFile)(unsafe.Pointer(pFd)).FsectorSize == 0 {
if int32((*UnixFile)(unsafe.Pointer(pFd)).FctrlFlags)&UNIXFILE_PSOW != 0 {
*(*int32)(unsafe.Pointer(pFd + 116)) |= SQLITE_IOCAP_POWERSAFE_OVERWRITE
}
(*UnixFile)(unsafe.Pointer(pFd)).FsectorSize = SQLITE_DEFAULT_SECTOR_SIZE
}
}
func unixSectorSize(tls *libc.TLS, id uintptr) int32 {
var pFd uintptr = id
setDeviceCharacteristics(tls, pFd)
return (*UnixFile)(unsafe.Pointer(pFd)).FsectorSize
}
func unixDeviceCharacteristics(tls *libc.TLS, id uintptr) int32 {
var pFd uintptr = id
setDeviceCharacteristics(tls, pFd)
return (*UnixFile)(unsafe.Pointer(pFd)).FdeviceCharacteristics
}
func unixGetpagesize(tls *libc.TLS) int32 {
return int32(libc.Xsysconf(tls, X_SC_PAGESIZE))
}
func unixFcntlExternalReader(tls *libc.TLS, pFile uintptr, piOut uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var rc int32 = SQLITE_OK
*(*int32)(unsafe.Pointer(piOut)) = 0
if (*UnixFile)(unsafe.Pointer(pFile)).FpShm != 0 {
var pShmNode uintptr = (*UnixShm)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FpShm)).FpShmNode
libc.X__builtin___memset_chk(tls, bp+8, 0, uint64(unsafe.Sizeof(flock{})), libc.X__builtin_object_size(tls, bp+8, 0))
(*flock)(unsafe.Pointer(bp + 8)).Fl_type = int16(F_WRLCK)
(*flock)(unsafe.Pointer(bp + 8)).Fl_whence = int16(SEEK_SET)
(*flock)(unsafe.Pointer(bp + 8)).Fl_start = int64((22+SQLITE_SHM_NLOCK)*4 + 3)
(*flock)(unsafe.Pointer(bp + 8)).Fl_len = int64(SQLITE_SHM_NLOCK - 3)
Xsqlite3_mutex_enter(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FpShmMutex)
if (*(*func(*libc.TLS, int32, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 7*24 + 8)))(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FhShm, F_GETLK, libc.VaList(bp, bp+8)) < 0 {
rc = SQLITE_IOERR | int32(15)<<8
} else {
*(*int32)(unsafe.Pointer(piOut)) = libc.Bool32(int32((*flock)(unsafe.Pointer(bp+8)).Fl_type) != F_UNLCK)
}
Xsqlite3_mutex_leave(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FpShmMutex)
}
return rc
}
func unixShmSystemLock(tls *libc.TLS, pFile uintptr, lockType int32, ofst int32, n int32) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var pShmNode uintptr
var rc int32 = SQLITE_OK
pShmNode = (*UnixInodeInfo)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FpInode)).FpShmNode
if (*UnixShmNode)(unsafe.Pointer(pShmNode)).FhShm >= 0 {
var res int32
(*flock)(unsafe.Pointer(bp + 8)).Fl_type = int16(lockType)
(*flock)(unsafe.Pointer(bp + 8)).Fl_whence = int16(SEEK_SET)
(*flock)(unsafe.Pointer(bp + 8)).Fl_start = Off_t(ofst)
(*flock)(unsafe.Pointer(bp + 8)).Fl_len = Off_t(n)
res = (*(*func(*libc.TLS, int32, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 7*24 + 8)))(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FhShm, F_SETLK, libc.VaList(bp, bp+8))
if res == -1 {
rc = SQLITE_BUSY
}
}
return rc
}
func unixShmRegionPerMap(tls *libc.TLS) int32 {
var shmsz int32 = 32 * 1024
var pgsz int32 = (*(*func(*libc.TLS) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 25*24 + 8)))(tls)
if pgsz < shmsz {
return 1
}
return pgsz / shmsz
}
func unixShmPurge(tls *libc.TLS, pFd uintptr) {
var p uintptr = (*UnixInodeInfo)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFd)).FpInode)).FpShmNode
if p != 0 && (*UnixShmNode)(unsafe.Pointer(p)).FnRef == 0 {
var nShmPerMap int32 = unixShmRegionPerMap(tls)
var i int32
Xsqlite3_mutex_free(tls, (*UnixShmNode)(unsafe.Pointer(p)).FpShmMutex)
for i = 0; i < int32((*UnixShmNode)(unsafe.Pointer(p)).FnRegion); i = i + nShmPerMap {
if (*UnixShmNode)(unsafe.Pointer(p)).FhShm >= 0 {
(*(*func(*libc.TLS, uintptr, Size_t) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 23*24 + 8)))(tls, *(*uintptr)(unsafe.Pointer((*UnixShmNode)(unsafe.Pointer(p)).FapRegion + uintptr(i)*8)), uint64((*UnixShmNode)(unsafe.Pointer(p)).FszRegion))
} else {
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer((*UnixShmNode)(unsafe.Pointer(p)).FapRegion + uintptr(i)*8)))
}
}
Xsqlite3_free(tls, (*UnixShmNode)(unsafe.Pointer(p)).FapRegion)
if (*UnixShmNode)(unsafe.Pointer(p)).FhShm >= 0 {
robust_close(tls, pFd, (*UnixShmNode)(unsafe.Pointer(p)).FhShm, 41442)
(*UnixShmNode)(unsafe.Pointer(p)).FhShm = -1
}
(*UnixInodeInfo)(unsafe.Pointer((*UnixShmNode)(unsafe.Pointer(p)).FpInode)).FpShmNode = uintptr(0)
Xsqlite3_free(tls, p)
}
}
func unixLockSharedMemory(tls *libc.TLS, pDbFd uintptr, pShmNode uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var rc int32 = SQLITE_OK
(*flock)(unsafe.Pointer(bp + 8)).Fl_whence = int16(SEEK_SET)
(*flock)(unsafe.Pointer(bp + 8)).Fl_start = int64((22+SQLITE_SHM_NLOCK)*4 + SQLITE_SHM_NLOCK)
(*flock)(unsafe.Pointer(bp + 8)).Fl_len = int64(1)
(*flock)(unsafe.Pointer(bp + 8)).Fl_type = int16(F_WRLCK)
if (*(*func(*libc.TLS, int32, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 7*24 + 8)))(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FhShm, F_GETLK, libc.VaList(bp, bp+8)) != 0 {
rc = SQLITE_IOERR | int32(15)<<8
} else if int32((*flock)(unsafe.Pointer(bp+8)).Fl_type) == F_UNLCK {
if (*UnixShmNode)(unsafe.Pointer(pShmNode)).FisReadonly != 0 {
(*UnixShmNode)(unsafe.Pointer(pShmNode)).FisUnlocked = U8(1)
rc = SQLITE_READONLY | int32(5)<<8
} else {
rc = unixShmSystemLock(tls, pDbFd, F_WRLCK, (22+SQLITE_SHM_NLOCK)*4+SQLITE_SHM_NLOCK, 1)
if rc == SQLITE_OK && robust_ftruncate(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FhShm, int64(3)) != 0 {
rc = unixLogErrorAtLine(tls, SQLITE_IOERR|int32(18)<<8, ts+3290, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FzFilename, 41499)
}
}
} else if int32((*flock)(unsafe.Pointer(bp+8)).Fl_type) == F_WRLCK {
rc = SQLITE_BUSY
}
if rc == SQLITE_OK {
rc = unixShmSystemLock(tls, pDbFd, F_RDLCK, (22+SQLITE_SHM_NLOCK)*4+SQLITE_SHM_NLOCK, 1)
}
return rc
}
func unixOpenSharedMemory(tls *libc.TLS, pDbFd uintptr) int32 {
bp := tls.Alloc(152)
defer tls.Free(152)
var p uintptr
var pShmNode uintptr
var rc int32
var pInode uintptr
var zShm uintptr
var nShmFilename int32
var zBasePath uintptr
p = uintptr(0)
rc = SQLITE_OK
p = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(unixShm{})))
if !(p == uintptr(0)) {
goto __1
}
return SQLITE_NOMEM
__1:
;
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(unixShm{})), libc.X__builtin_object_size(tls, p, 0))
unixEnterMutex(tls)
pInode = (*UnixFile)(unsafe.Pointer(pDbFd)).FpInode
pShmNode = (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpShmNode
if !(pShmNode == uintptr(0)) {
goto __2
}
zBasePath = (*UnixFile)(unsafe.Pointer(pDbFd)).FzPath
if !((*(*func(*libc.TLS, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 5*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(pDbFd)).Fh, bp+8) != 0) {
goto __3
}
rc = SQLITE_IOERR | int32(7)<<8
goto shm_open_err
__3:
;
nShmFilename = 6 + int32(libc.Xstrlen(tls, zBasePath))
pShmNode = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(unixShmNode{}))+uint64(nShmFilename))
if !(pShmNode == uintptr(0)) {
goto __4
}
rc = SQLITE_NOMEM
goto shm_open_err
__4:
;
libc.X__builtin___memset_chk(tls, pShmNode, 0, uint64(unsafe.Sizeof(unixShmNode{}))+uint64(nShmFilename), libc.X__builtin_object_size(tls, pShmNode, 0))
zShm = libc.AssignPtrUintptr(pShmNode+16, pShmNode+1*96)
Xsqlite3_snprintf(tls, nShmFilename, zShm, ts+3672, libc.VaList(bp, zBasePath))
(*unixShmNode)(unsafe.Pointer(pShmNode)).FhShm = -1
(*UnixInodeInfo)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pDbFd)).FpInode)).FpShmNode = pShmNode
(*unixShmNode)(unsafe.Pointer(pShmNode)).FpInode = (*UnixFile)(unsafe.Pointer(pDbFd)).FpInode
if !(Xsqlite3Config.FbCoreMutex != 0) {
goto __5
}
(*unixShmNode)(unsafe.Pointer(pShmNode)).FpShmMutex = Xsqlite3_mutex_alloc(tls, SQLITE_MUTEX_FAST)
if !((*unixShmNode)(unsafe.Pointer(pShmNode)).FpShmMutex == uintptr(0)) {
goto __6
}
rc = SQLITE_NOMEM
goto shm_open_err
__6:
;
__5:
;
if !(int32((*UnixInodeInfo)(unsafe.Pointer(pInode)).FbProcessLock) == 0) {
goto __7
}
if !(0 == Xsqlite3_uri_boolean(tls, (*UnixFile)(unsafe.Pointer(pDbFd)).FzPath, ts+3679, 0)) {
goto __8
}
(*unixShmNode)(unsafe.Pointer(pShmNode)).FhShm = robust_open(tls, zShm, O_RDWR|O_CREAT|O_NOFOLLOW,
uint16(int32((*stat)(unsafe.Pointer(bp+8)).Fst_mode)&0777))
__8:
;
if !((*unixShmNode)(unsafe.Pointer(pShmNode)).FhShm < 0) {
goto __9
}
(*unixShmNode)(unsafe.Pointer(pShmNode)).FhShm = robust_open(tls, zShm, O_RDONLY|O_NOFOLLOW,
uint16(int32((*stat)(unsafe.Pointer(bp+8)).Fst_mode)&0777))
if !((*unixShmNode)(unsafe.Pointer(pShmNode)).FhShm < 0) {
goto __10
}
rc = unixLogErrorAtLine(tls, Xsqlite3CantopenError(tls, 41624), ts+3254, zShm, 41624)
goto shm_open_err
__10:
;
(*unixShmNode)(unsafe.Pointer(pShmNode)).FisReadonly = U8(1)
__9:
;
robustFchown(tls, (*unixShmNode)(unsafe.Pointer(pShmNode)).FhShm, (*stat)(unsafe.Pointer(bp+8)).Fst_uid, (*stat)(unsafe.Pointer(bp+8)).Fst_gid)
rc = unixLockSharedMemory(tls, pDbFd, pShmNode)
if !(rc != SQLITE_OK && rc != SQLITE_READONLY|int32(5)<<8) {
goto __11
}
goto shm_open_err
__11:
;
__7:
;
__2:
;
(*unixShm)(unsafe.Pointer(p)).FpShmNode = pShmNode
(*unixShmNode)(unsafe.Pointer(pShmNode)).FnRef++
(*UnixFile)(unsafe.Pointer(pDbFd)).FpShm = p
unixLeaveMutex(tls)
Xsqlite3_mutex_enter(tls, (*unixShmNode)(unsafe.Pointer(pShmNode)).FpShmMutex)
(*unixShm)(unsafe.Pointer(p)).FpNext = (*unixShmNode)(unsafe.Pointer(pShmNode)).FpFirst
(*unixShmNode)(unsafe.Pointer(pShmNode)).FpFirst = p
Xsqlite3_mutex_leave(tls, (*unixShmNode)(unsafe.Pointer(pShmNode)).FpShmMutex)
return rc
shm_open_err:
unixShmPurge(tls, pDbFd)
Xsqlite3_free(tls, p)
unixLeaveMutex(tls)
return rc
}
func unixShmMap(tls *libc.TLS, fd uintptr, iRegion int32, szRegion int32, bExtend int32, pp uintptr) int32 {
bp := tls.Alloc(148)
defer tls.Free(148)
var pDbFd uintptr
var p uintptr
var pShmNode uintptr
var rc int32
var nShmPerMap int32
var nReqRegion int32
var zFile uintptr
var iPg int32
var nMap int32
var i int32
var pMem uintptr
var apNew uintptr
var nByte int32
pDbFd = fd
rc = SQLITE_OK
nShmPerMap = unixShmRegionPerMap(tls)
if !((*UnixFile)(unsafe.Pointer(pDbFd)).FpShm == uintptr(0)) {
goto __1
}
rc = unixOpenSharedMemory(tls, pDbFd)
if !(rc != SQLITE_OK) {
goto __2
}
return rc
__2:
;
__1:
;
p = (*UnixFile)(unsafe.Pointer(pDbFd)).FpShm
pShmNode = (*UnixShm)(unsafe.Pointer(p)).FpShmNode
Xsqlite3_mutex_enter(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FpShmMutex)
if !((*UnixShmNode)(unsafe.Pointer(pShmNode)).FisUnlocked != 0) {
goto __3
}
rc = unixLockSharedMemory(tls, pDbFd, pShmNode)
if !(rc != SQLITE_OK) {
goto __4
}
goto shmpage_out
__4:
;
(*UnixShmNode)(unsafe.Pointer(pShmNode)).FisUnlocked = U8(0)
__3:
;
nReqRegion = (iRegion + nShmPerMap) / nShmPerMap * nShmPerMap
if !(int32((*UnixShmNode)(unsafe.Pointer(pShmNode)).FnRegion) < nReqRegion) {
goto __5
}
nByte = nReqRegion * szRegion
(*UnixShmNode)(unsafe.Pointer(pShmNode)).FszRegion = szRegion
if !((*UnixShmNode)(unsafe.Pointer(pShmNode)).FhShm >= 0) {
goto __6
}
if !((*(*func(*libc.TLS, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 5*24 + 8)))(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FhShm, bp) != 0) {
goto __7
}
rc = SQLITE_IOERR | int32(19)<<8
goto shmpage_out
__7:
;
if !((*stat)(unsafe.Pointer(bp)).Fst_size < Off_t(nByte)) {
goto __8
}
if !!(bExtend != 0) {
goto __9
}
goto shmpage_out
goto __10
__9:
;
iPg = int32((*stat)(unsafe.Pointer(bp)).Fst_size / Off_t(pgsz))
__11:
if !(iPg < nByte/pgsz) {
goto __13
}
*(*int32)(unsafe.Pointer(bp + 144)) = 0
if !(seekAndWriteFd(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FhShm, int64(iPg*pgsz+pgsz-1), ts+1547, 1, bp+144) != 1) {
goto __14
}
zFile = (*UnixShmNode)(unsafe.Pointer(pShmNode)).FzFilename
rc = unixLogErrorAtLine(tls, SQLITE_IOERR|int32(19)<<8, ts+3325, zFile, 41768)
goto shmpage_out
__14:
;
goto __12
__12:
iPg++
goto __11
goto __13
__13:
;
__10:
;
__8:
;
__6:
;
apNew = Xsqlite3_realloc(tls,
(*UnixShmNode)(unsafe.Pointer(pShmNode)).FapRegion, int32(uint64(nReqRegion)*uint64(unsafe.Sizeof(uintptr(0)))))
if !!(apNew != 0) {
goto __15
}
rc = SQLITE_IOERR | int32(12)<<8
goto shmpage_out
__15:
;
(*UnixShmNode)(unsafe.Pointer(pShmNode)).FapRegion = apNew
__16:
if !(int32((*UnixShmNode)(unsafe.Pointer(pShmNode)).FnRegion) < nReqRegion) {
goto __17
}
nMap = szRegion * nShmPerMap
if !((*UnixShmNode)(unsafe.Pointer(pShmNode)).FhShm >= 0) {
goto __18
}
pMem = (*(*func(*libc.TLS, uintptr, Size_t, int32, int32, int32, Off_t) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 22*24 + 8)))(tls, uintptr(0), uint64(nMap),
func() int32 {
if (*UnixShmNode)(unsafe.Pointer(pShmNode)).FisReadonly != 0 {
return PROT_READ
}
return PROT_READ | PROT_WRITE
}(),
MAP_SHARED, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FhShm, I64(szRegion)*I64((*UnixShmNode)(unsafe.Pointer(pShmNode)).FnRegion))
if !(pMem == libc.UintptrFromInt32(-1)) {
goto __20
}
rc = unixLogErrorAtLine(tls, SQLITE_IOERR|int32(21)<<8, ts+3412, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FzFilename, 41795)
goto shmpage_out
__20:
;
goto __19
__18:
pMem = Xsqlite3_malloc64(tls, uint64(nMap))
if !(pMem == uintptr(0)) {
goto __21
}
rc = SQLITE_NOMEM
goto shmpage_out
__21:
;
libc.X__builtin___memset_chk(tls, pMem, 0, uint64(nMap), libc.X__builtin_object_size(tls, pMem, 0))
__19:
;
i = 0
__22:
if !(i < nShmPerMap) {
goto __24
}
*(*uintptr)(unsafe.Pointer((*UnixShmNode)(unsafe.Pointer(pShmNode)).FapRegion + uintptr(int32((*UnixShmNode)(unsafe.Pointer(pShmNode)).FnRegion)+i)*8)) = pMem + uintptr(szRegion*i)
goto __23
__23:
i++
goto __22
goto __24
__24:
;
*(*U16)(unsafe.Pointer(pShmNode + 32)) += U16(nShmPerMap)
goto __16
__17:
;
__5:
;
shmpage_out:
if !(int32((*UnixShmNode)(unsafe.Pointer(pShmNode)).FnRegion) > iRegion) {
goto __25
}
*(*uintptr)(unsafe.Pointer(pp)) = *(*uintptr)(unsafe.Pointer((*UnixShmNode)(unsafe.Pointer(pShmNode)).FapRegion + uintptr(iRegion)*8))
goto __26
__25:
*(*uintptr)(unsafe.Pointer(pp)) = uintptr(0)
__26:
;
if !((*UnixShmNode)(unsafe.Pointer(pShmNode)).FisReadonly != 0 && rc == SQLITE_OK) {
goto __27
}
rc = SQLITE_READONLY
__27:
;
Xsqlite3_mutex_leave(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FpShmMutex)
return rc
}
var pgsz int32 = 4096
func unixShmLock(tls *libc.TLS, fd uintptr, ofst int32, n int32, flags int32) int32 {
var pDbFd uintptr = fd
var p uintptr
var pShmNode uintptr
var rc int32 = SQLITE_OK
var mask U16
var aLock uintptr
p = (*UnixFile)(unsafe.Pointer(pDbFd)).FpShm
if p == uintptr(0) {
return SQLITE_IOERR | int32(20)<<8
}
pShmNode = (*UnixShm)(unsafe.Pointer(p)).FpShmNode
if pShmNode == uintptr(0) {
return SQLITE_IOERR | int32(20)<<8
}
aLock = pShmNode + 64
mask = U16(int32(1)<<(ofst+n) - int32(1)<<ofst)
Xsqlite3_mutex_enter(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FpShmMutex)
if flags&SQLITE_SHM_UNLOCK != 0 {
if (int32((*UnixShm)(unsafe.Pointer(p)).FexclMask)|int32((*UnixShm)(unsafe.Pointer(p)).FsharedMask))&int32(mask) != 0 {
var ii int32
var bUnlock int32 = 1
for ii = ofst; ii < ofst+n; ii++ {
if *(*int32)(unsafe.Pointer(aLock + uintptr(ii)*4)) > func() int32 {
if int32((*UnixShm)(unsafe.Pointer(p)).FsharedMask)&(int32(1)<<ii) != 0 {
return 1
}
return 0
}() {
bUnlock = 0
}
}
if bUnlock != 0 {
rc = unixShmSystemLock(tls, pDbFd, F_UNLCK, ofst+(22+SQLITE_SHM_NLOCK)*4, n)
if rc == SQLITE_OK {
libc.X__builtin___memset_chk(tls, aLock+uintptr(ofst)*4, 0, uint64(unsafe.Sizeof(int32(0)))*uint64(n), libc.X__builtin_object_size(tls, aLock+uintptr(ofst)*4, 0))
}
} else if int32((*UnixShm)(unsafe.Pointer(p)).FsharedMask)&(int32(1)<<ofst) != 0 {
*(*int32)(unsafe.Pointer(aLock + uintptr(ofst)*4))--
}
if rc == SQLITE_OK {
*(*U16)(unsafe.Pointer(p + 20)) &= U16(^int32(mask))
*(*U16)(unsafe.Pointer(p + 18)) &= U16(^int32(mask))
}
}
} else if flags&SQLITE_SHM_SHARED != 0 {
if int32((*UnixShm)(unsafe.Pointer(p)).FsharedMask)&int32(mask) == 0 {
if *(*int32)(unsafe.Pointer(aLock + uintptr(ofst)*4)) < 0 {
rc = SQLITE_BUSY
} else if *(*int32)(unsafe.Pointer(aLock + uintptr(ofst)*4)) == 0 {
rc = unixShmSystemLock(tls, pDbFd, F_RDLCK, ofst+(22+SQLITE_SHM_NLOCK)*4, n)
}
if rc == SQLITE_OK {
*(*U16)(unsafe.Pointer(p + 18)) |= U16(int32(mask))
*(*int32)(unsafe.Pointer(aLock + uintptr(ofst)*4))++
}
}
} else {
var ii int32
for ii = ofst; ii < ofst+n; ii++ {
if int32((*UnixShm)(unsafe.Pointer(p)).FexclMask)&(int32(1)<<ii) == 0 && *(*int32)(unsafe.Pointer(aLock + uintptr(ii)*4)) != 0 {
rc = SQLITE_BUSY
break
}
}
if rc == SQLITE_OK {
rc = unixShmSystemLock(tls, pDbFd, F_WRLCK, ofst+(22+SQLITE_SHM_NLOCK)*4, n)
if rc == SQLITE_OK {
*(*U16)(unsafe.Pointer(p + 20)) |= U16(int32(mask))
for ii = ofst; ii < ofst+n; ii++ {
*(*int32)(unsafe.Pointer(aLock + uintptr(ii)*4)) = -1
}
}
}
}
Xsqlite3_mutex_leave(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FpShmMutex)
return rc
}
func unixShmBarrier(tls *libc.TLS, fd uintptr) {
_ = fd
unixEnterMutex(tls)
unixLeaveMutex(tls)
}
func unixShmUnmap(tls *libc.TLS, fd uintptr, deleteFlag int32) int32 {
var p uintptr
var pShmNode uintptr
var pp uintptr
var pDbFd uintptr
pDbFd = fd
p = (*UnixFile)(unsafe.Pointer(pDbFd)).FpShm
if p == uintptr(0) {
return SQLITE_OK
}
pShmNode = (*UnixShm)(unsafe.Pointer(p)).FpShmNode
Xsqlite3_mutex_enter(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FpShmMutex)
for pp = pShmNode + 56; *(*uintptr)(unsafe.Pointer(pp)) != p; pp = *(*uintptr)(unsafe.Pointer(pp)) + 8 {
}
*(*uintptr)(unsafe.Pointer(pp)) = (*UnixShm)(unsafe.Pointer(p)).FpNext
Xsqlite3_free(tls, p)
(*UnixFile)(unsafe.Pointer(pDbFd)).FpShm = uintptr(0)
Xsqlite3_mutex_leave(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FpShmMutex)
unixEnterMutex(tls)
(*UnixShmNode)(unsafe.Pointer(pShmNode)).FnRef--
if (*UnixShmNode)(unsafe.Pointer(pShmNode)).FnRef == 0 {
if deleteFlag != 0 && (*UnixShmNode)(unsafe.Pointer(pShmNode)).FhShm >= 0 {
(*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 16*24 + 8)))(tls, (*UnixShmNode)(unsafe.Pointer(pShmNode)).FzFilename)
}
unixShmPurge(tls, pDbFd)
}
unixLeaveMutex(tls)
return SQLITE_OK
}
func unixUnmapfile(tls *libc.TLS, pFd uintptr) {
if (*UnixFile)(unsafe.Pointer(pFd)).FpMapRegion != 0 {
(*(*func(*libc.TLS, uintptr, Size_t) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 23*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(pFd)).FpMapRegion, uint64((*UnixFile)(unsafe.Pointer(pFd)).FmmapSizeActual))
(*UnixFile)(unsafe.Pointer(pFd)).FpMapRegion = uintptr(0)
(*UnixFile)(unsafe.Pointer(pFd)).FmmapSize = int64(0)
(*UnixFile)(unsafe.Pointer(pFd)).FmmapSizeActual = int64(0)
}
}
func unixRemapfile(tls *libc.TLS, pFd uintptr, nNew I64) {
var zErr uintptr = ts + 3412
var h int32 = (*UnixFile)(unsafe.Pointer(pFd)).Fh
var pOrig uintptr = (*UnixFile)(unsafe.Pointer(pFd)).FpMapRegion
var nOrig I64 = (*UnixFile)(unsafe.Pointer(pFd)).FmmapSizeActual
var pNew uintptr = uintptr(0)
var flags int32 = PROT_READ
if pOrig != 0 {
var szSyspage int32 = (*(*func(*libc.TLS) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 25*24 + 8)))(tls)
var nReuse I64 = (*UnixFile)(unsafe.Pointer(pFd)).FmmapSize & Sqlite3_int64(^(szSyspage - 1))
var pReq uintptr = pOrig + uintptr(nReuse)
if nReuse != nOrig {
(*(*func(*libc.TLS, uintptr, Size_t) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 23*24 + 8)))(tls, pReq, uint64(nOrig-nReuse))
}
pNew = (*(*func(*libc.TLS, uintptr, Size_t, int32, int32, int32, Off_t) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 22*24 + 8)))(tls, pReq, uint64(nNew-nReuse), flags, MAP_SHARED, h, nReuse)
if pNew != libc.UintptrFromInt32(-1) {
if pNew != pReq {
(*(*func(*libc.TLS, uintptr, Size_t) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 23*24 + 8)))(tls, pNew, uint64(nNew-nReuse))
pNew = uintptr(0)
} else {
pNew = pOrig
}
}
if pNew == libc.UintptrFromInt32(-1) || pNew == uintptr(0) {
(*(*func(*libc.TLS, uintptr, Size_t) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 23*24 + 8)))(tls, pOrig, uint64(nReuse))
}
}
if pNew == uintptr(0) {
pNew = (*(*func(*libc.TLS, uintptr, Size_t, int32, int32, int32, Off_t) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 22*24 + 8)))(tls, uintptr(0), uint64(nNew), flags, MAP_SHARED, h, int64(0))
}
if pNew == libc.UintptrFromInt32(-1) {
pNew = uintptr(0)
nNew = int64(0)
unixLogErrorAtLine(tls, SQLITE_OK, zErr, (*UnixFile)(unsafe.Pointer(pFd)).FzPath, 42169)
(*UnixFile)(unsafe.Pointer(pFd)).FmmapSizeMax = int64(0)
}
(*UnixFile)(unsafe.Pointer(pFd)).FpMapRegion = pNew
(*UnixFile)(unsafe.Pointer(pFd)).FmmapSize = libc.AssignPtrInt64(pFd+88, nNew)
}
func unixMapfile(tls *libc.TLS, pFd uintptr, nMap I64) int32 {
bp := tls.Alloc(144)
defer tls.Free(144)
if (*UnixFile)(unsafe.Pointer(pFd)).FnFetchOut > 0 {
return SQLITE_OK
}
if nMap < int64(0) {
if (*(*func(*libc.TLS, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 5*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(pFd)).Fh, bp) != 0 {
return SQLITE_IOERR | int32(7)<<8
}
nMap = (*stat)(unsafe.Pointer(bp)).Fst_size
}
if nMap > (*UnixFile)(unsafe.Pointer(pFd)).FmmapSizeMax {
nMap = (*UnixFile)(unsafe.Pointer(pFd)).FmmapSizeMax
}
if nMap != (*UnixFile)(unsafe.Pointer(pFd)).FmmapSize {
unixRemapfile(tls, pFd, nMap)
}
return SQLITE_OK
}
func unixFetch(tls *libc.TLS, fd uintptr, iOff I64, nAmt int32, pp uintptr) int32 {
var pFd uintptr = fd
*(*uintptr)(unsafe.Pointer(pp)) = uintptr(0)
if (*UnixFile)(unsafe.Pointer(pFd)).FmmapSizeMax > int64(0) {
if (*UnixFile)(unsafe.Pointer(pFd)).FpMapRegion == uintptr(0) {
var rc int32 = unixMapfile(tls, pFd, int64(-1))
if rc != SQLITE_OK {
return rc
}
}
if (*UnixFile)(unsafe.Pointer(pFd)).FmmapSize >= iOff+I64(nAmt) {
*(*uintptr)(unsafe.Pointer(pp)) = (*UnixFile)(unsafe.Pointer(pFd)).FpMapRegion + uintptr(iOff)
(*UnixFile)(unsafe.Pointer(pFd)).FnFetchOut++
}
}
return SQLITE_OK
}
func unixUnfetch(tls *libc.TLS, fd uintptr, iOff I64, p uintptr) int32 {
var pFd uintptr = fd
_ = iOff
if p != 0 {
(*UnixFile)(unsafe.Pointer(pFd)).FnFetchOut--
} else {
unixUnmapfile(tls, pFd)
}
return SQLITE_OK
}
var posixIoMethods = Sqlite3_io_methods{FiVersion: 3, FxClose: 0, FxRead: 0, FxWrite: 0, FxTruncate: 0, FxSync: 0, FxFileSize: 0, FxLock: 0, FxUnlock: 0, FxCheckReservedLock: 0, FxFileControl: 0, FxSectorSize: 0, FxDeviceCharacteristics: 0, FxShmMap: 0, FxShmLock: 0, FxShmBarrier: 0, FxShmUnmap: 0, FxFetch: 0, FxUnfetch: 0}
func posixIoFinderImpl(tls *libc.TLS, z uintptr, p uintptr) uintptr {
_ = z
_ = p
return uintptr(unsafe.Pointer(&posixIoMethods))
}
var posixIoFinder uintptr = 0
var nolockIoMethods = Sqlite3_io_methods{FiVersion: 3, FxClose: 0, FxRead: 0, FxWrite: 0, FxTruncate: 0, FxSync: 0, FxFileSize: 0, FxLock: 0, FxUnlock: 0, FxCheckReservedLock: 0, FxFileControl: 0, FxSectorSize: 0, FxDeviceCharacteristics: 0, FxShmLock: 0, FxShmBarrier: 0, FxShmUnmap: 0, FxFetch: 0, FxUnfetch: 0}
func nolockIoFinderImpl(tls *libc.TLS, z uintptr, p uintptr) uintptr {
_ = z
_ = p
return uintptr(unsafe.Pointer(&nolockIoMethods))
}
var nolockIoFinder uintptr = 0
var dotlockIoMethods = Sqlite3_io_methods{FiVersion: 1, FxClose: 0, FxRead: 0, FxWrite: 0, FxTruncate: 0, FxSync: 0, FxFileSize: 0, FxLock: 0, FxUnlock: 0, FxCheckReservedLock: 0, FxFileControl: 0, FxSectorSize: 0, FxDeviceCharacteristics: 0, FxShmLock: 0, FxShmBarrier: 0, FxShmUnmap: 0, FxFetch: 0, FxUnfetch: 0}
func dotlockIoFinderImpl(tls *libc.TLS, z uintptr, p uintptr) uintptr {
_ = z
_ = p
return uintptr(unsafe.Pointer(&dotlockIoMethods))
}
var dotlockIoFinder uintptr = 0
var flockIoMethods = Sqlite3_io_methods{FiVersion: 1, FxClose: 0, FxRead: 0, FxWrite: 0, FxTruncate: 0, FxSync: 0, FxFileSize: 0, FxLock: 0, FxUnlock: 0, FxCheckReservedLock: 0, FxFileControl: 0, FxSectorSize: 0, FxDeviceCharacteristics: 0, FxShmLock: 0, FxShmBarrier: 0, FxShmUnmap: 0, FxFetch: 0, FxUnfetch: 0}
func flockIoFinderImpl(tls *libc.TLS, z uintptr, p uintptr) uintptr {
_ = z
_ = p
return uintptr(unsafe.Pointer(&flockIoMethods))
}
var flockIoFinder uintptr = 0
var afpIoMethods = Sqlite3_io_methods{FiVersion: 1, FxClose: 0, FxRead: 0, FxWrite: 0, FxTruncate: 0, FxSync: 0, FxFileSize: 0, FxLock: 0, FxUnlock: 0, FxCheckReservedLock: 0, FxFileControl: 0, FxSectorSize: 0, FxDeviceCharacteristics: 0, FxShmLock: 0, FxShmBarrier: 0, FxShmUnmap: 0, FxFetch: 0, FxUnfetch: 0}
func afpIoFinderImpl(tls *libc.TLS, z uintptr, p uintptr) uintptr {
_ = z
_ = p
return uintptr(unsafe.Pointer(&afpIoMethods))
}
var afpIoFinder uintptr = 0
var proxyIoMethods = Sqlite3_io_methods{FiVersion: 1, FxClose: 0, FxRead: 0, FxWrite: 0, FxTruncate: 0, FxSync: 0, FxFileSize: 0, FxLock: 0, FxUnlock: 0, FxCheckReservedLock: 0, FxFileControl: 0, FxSectorSize: 0, FxDeviceCharacteristics: 0, FxShmLock: 0, FxShmBarrier: 0, FxShmUnmap: 0, FxFetch: 0, FxUnfetch: 0}
func proxyIoFinderImpl(tls *libc.TLS, z uintptr, p uintptr) uintptr {
_ = z
_ = p
return uintptr(unsafe.Pointer(&proxyIoMethods))
}
var proxyIoFinder uintptr = 0
var nfsIoMethods = Sqlite3_io_methods{FiVersion: 1, FxClose: 0, FxRead: 0, FxWrite: 0, FxTruncate: 0, FxSync: 0, FxFileSize: 0, FxLock: 0, FxUnlock: 0, FxCheckReservedLock: 0, FxFileControl: 0, FxSectorSize: 0, FxDeviceCharacteristics: 0, FxShmLock: 0, FxShmBarrier: 0, FxShmUnmap: 0, FxFetch: 0, FxUnfetch: 0}
func nfsIoFinderImpl(tls *libc.TLS, z uintptr, p uintptr) uintptr {
_ = z
_ = p
return uintptr(unsafe.Pointer(&nfsIoMethods))
}
var nfsIoFinder uintptr = 0
func autolockIoFinderImpl(tls *libc.TLS, filePath uintptr, pNew uintptr) uintptr {
bp := tls.Alloc(2200)
defer tls.Free(2200)
var i int32
if !(filePath != 0) {
return uintptr(unsafe.Pointer(&nolockIoMethods))
}
if libc.Xstatfs(tls, filePath, bp+8) != -1 {
if (*statfs)(unsafe.Pointer(bp+8)).Ff_flags&Uint32_t(MNT_RDONLY) != 0 {
return uintptr(unsafe.Pointer(&nolockIoMethods))
}
for i = 0; aMap[i].FzFilesystem != 0; i++ {
if libc.Xstrcmp(tls, bp+8+72, aMap[i].FzFilesystem) == 0 {
return aMap[i].FpMethods
}
}
}
(*flock)(unsafe.Pointer(bp + 2176)).Fl_len = int64(1)
(*flock)(unsafe.Pointer(bp + 2176)).Fl_start = int64(0)
(*flock)(unsafe.Pointer(bp + 2176)).Fl_whence = int16(SEEK_SET)
(*flock)(unsafe.Pointer(bp + 2176)).Fl_type = int16(F_RDLCK)
if (*(*func(*libc.TLS, int32, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 7*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(pNew)).Fh, F_GETLK, libc.VaList(bp, bp+2176)) != -1 {
if libc.Xstrcmp(tls, bp+8+72, ts+3692) == 0 {
return uintptr(unsafe.Pointer(&nfsIoMethods))
} else {
return uintptr(unsafe.Pointer(&posixIoMethods))
}
} else {
return uintptr(unsafe.Pointer(&dotlockIoMethods))
}
return uintptr(0)
}
type Mapping = struct {
FzFilesystem uintptr
FpMethods uintptr
}
var aMap = [6]Mapping{
{FzFilesystem: ts + 3696, FpMethods: 0},
{FzFilesystem: ts + 3700, FpMethods: 0},
{FzFilesystem: ts + 3704, FpMethods: 0},
{FzFilesystem: ts + 3710, FpMethods: 0},
{FzFilesystem: ts + 3716, FpMethods: 0},
{},
}
var autolockIoFinder uintptr = 0
// An abstract type for a pointer to an IO method finder function:
type Finder_type = uintptr
func fillInUnixFile(tls *libc.TLS, pVfs uintptr, h int32, pId uintptr, zFilename uintptr, ctrlFlags int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pLockingStyle uintptr
var pNew uintptr = pId
var rc int32 = SQLITE_OK
(*UnixFile)(unsafe.Pointer(pNew)).Fh = h
(*UnixFile)(unsafe.Pointer(pNew)).FpVfs = pVfs
(*UnixFile)(unsafe.Pointer(pNew)).FzPath = zFilename
(*UnixFile)(unsafe.Pointer(pNew)).FctrlFlags = uint16(U8(ctrlFlags))
(*UnixFile)(unsafe.Pointer(pNew)).FmmapSizeMax = Xsqlite3Config.FszMmap
if Xsqlite3_uri_boolean(tls, func() uintptr {
if ctrlFlags&UNIXFILE_URI != 0 {
return zFilename
}
return uintptr(0)
}(),
ts+3723, SQLITE_POWERSAFE_OVERWRITE) != 0 {
*(*uint16)(unsafe.Pointer(pNew + 30)) |= uint16(UNIXFILE_PSOW)
}
if libc.Xstrcmp(tls, (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FzName, ts+3728) == 0 {
*(*uint16)(unsafe.Pointer(pNew + 30)) |= uint16(UNIXFILE_EXCL)
}
if ctrlFlags&UNIXFILE_NOLOCK != 0 {
pLockingStyle = uintptr(unsafe.Pointer(&nolockIoMethods))
} else {
pLockingStyle = (*(**struct {
f func(*libc.TLS, uintptr, uintptr) uintptr
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData}))).f(tls, zFilename, pNew)
(*UnixFile)(unsafe.Pointer(pNew)).FlockingContext = zFilename
}
if pLockingStyle == uintptr(unsafe.Pointer(&posixIoMethods)) ||
pLockingStyle == uintptr(unsafe.Pointer(&nfsIoMethods)) {
unixEnterMutex(tls)
rc = findInodeInfo(tls, pNew, pNew+16)
if rc != SQLITE_OK {
robust_close(tls, pNew, h, 42672)
h = -1
}
unixLeaveMutex(tls)
} else if pLockingStyle == uintptr(unsafe.Pointer(&afpIoMethods)) {
var pCtx uintptr
(*UnixFile)(unsafe.Pointer(pNew)).FlockingContext = libc.AssignUintptr(&pCtx, Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(AfpLockingContext{}))))
if pCtx == uintptr(0) {
rc = SQLITE_NOMEM
} else {
(*AfpLockingContext)(unsafe.Pointer(pCtx)).FdbPath = zFilename
(*AfpLockingContext)(unsafe.Pointer(pCtx)).Freserved = 0
libc.Xsrandomdev(tls)
unixEnterMutex(tls)
rc = findInodeInfo(tls, pNew, pNew+16)
if rc != SQLITE_OK {
Xsqlite3_free(tls, (*UnixFile)(unsafe.Pointer(pNew)).FlockingContext)
robust_close(tls, pNew, h, 42698)
h = -1
}
unixLeaveMutex(tls)
}
} else if pLockingStyle == uintptr(unsafe.Pointer(&dotlockIoMethods)) {
var zLockFile uintptr
var nFilename int32
nFilename = int32(libc.Xstrlen(tls, zFilename)) + 6
zLockFile = Xsqlite3_malloc64(tls, uint64(nFilename))
if zLockFile == uintptr(0) {
rc = SQLITE_NOMEM
} else {
Xsqlite3_snprintf(tls, nFilename, zLockFile, ts+3738, libc.VaList(bp, zFilename))
}
(*UnixFile)(unsafe.Pointer(pNew)).FlockingContext = zLockFile
}
storeLastErrno(tls, pNew, 0)
if rc != SQLITE_OK {
if h >= 0 {
robust_close(tls, pNew, h, 42757)
}
} else {
(*Sqlite3_file)(unsafe.Pointer(pId)).FpMethods = pLockingStyle
verifyDbFile(tls, pNew)
}
return rc
}
var azTempDirs = [6]uintptr{
uintptr(0),
uintptr(0),
ts + 3746,
ts + 3755,
ts + 3764,
ts + 1560,
}
func unixTempFileInit(tls *libc.TLS) {
azTempDirs[0] = libc.Xgetenv(tls, ts+3769)
azTempDirs[1] = libc.Xgetenv(tls, ts+3783)
}
func unixTempFileDir(tls *libc.TLS) uintptr {
bp := tls.Alloc(144)
defer tls.Free(144)
var i uint32 = uint32(0)
var zDir uintptr = Xsqlite3_temp_directory
for 1 != 0 {
if zDir != uintptr(0) &&
(*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 4*24 + 8)))(tls, zDir, bp) == 0 &&
int32((*stat)(unsafe.Pointer(bp)).Fst_mode)&S_IFMT == S_IFDIR &&
(*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 2*24 + 8)))(tls, zDir, 03) == 0 {
return zDir
}
if uint64(i) >= uint64(unsafe.Sizeof(azTempDirs))/uint64(unsafe.Sizeof(uintptr(0))) {
break
}
zDir = azTempDirs[libc.PostIncUint32(&i, 1)]
}
return uintptr(0)
}
func unixGetTempname(tls *libc.TLS, nBuf int32, zBuf uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var zDir uintptr
var iLimit int32 = 0
var rc int32 = SQLITE_OK
*(*int8)(unsafe.Pointer(zBuf)) = int8(0)
Xsqlite3_mutex_enter(tls, Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_VFS1))
zDir = unixTempFileDir(tls)
if zDir == uintptr(0) {
rc = SQLITE_IOERR | int32(25)<<8
} else {
for __ccgo := true; __ccgo; __ccgo = (*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 2*24 + 8)))(tls, zBuf, 0) == 0 {
Xsqlite3_randomness(tls, int32(unsafe.Sizeof(U64(0))), bp+24)
*(*int8)(unsafe.Pointer(zBuf + uintptr(nBuf-2))) = int8(0)
Xsqlite3_snprintf(tls, nBuf, zBuf, ts+3790,
libc.VaList(bp, zDir, *(*U64)(unsafe.Pointer(bp + 24)), 0))
if int32(*(*int8)(unsafe.Pointer(zBuf + uintptr(nBuf-2)))) != 0 || libc.PostIncInt32(&iLimit, 1) > 10 {
rc = SQLITE_ERROR
break
}
}
}
Xsqlite3_mutex_leave(tls, Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_VFS1))
return rc
}
func findReusableFd(tls *libc.TLS, zPath uintptr, flags int32) uintptr {
bp := tls.Alloc(144)
defer tls.Free(144)
var pUnused uintptr = uintptr(0)
unixEnterMutex(tls)
if inodeList != uintptr(0) && 0 == (*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 4*24 + 8)))(tls, zPath, bp) {
var pInode uintptr
pInode = inodeList
for pInode != 0 && ((*UnixInodeInfo)(unsafe.Pointer(pInode)).FfileId.Fdev != (*stat)(unsafe.Pointer(bp)).Fst_dev ||
(*UnixInodeInfo)(unsafe.Pointer(pInode)).FfileId.Fino != (*stat)(unsafe.Pointer(bp)).Fst_ino) {
pInode = (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpNext
}
if pInode != 0 {
var pp uintptr
Xsqlite3_mutex_enter(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
flags = flags & (SQLITE_OPEN_READONLY | SQLITE_OPEN_READWRITE)
for pp = pInode + 40; *(*uintptr)(unsafe.Pointer(pp)) != 0 && (*UnixUnusedFd)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).Fflags != flags; pp = *(*uintptr)(unsafe.Pointer(pp)) + 8 {
}
pUnused = *(*uintptr)(unsafe.Pointer(pp))
if pUnused != 0 {
*(*uintptr)(unsafe.Pointer(pp)) = (*UnixUnusedFd)(unsafe.Pointer(pUnused)).FpNext
}
Xsqlite3_mutex_leave(tls, (*UnixInodeInfo)(unsafe.Pointer(pInode)).FpLockMutex)
}
}
unixLeaveMutex(tls)
return pUnused
}
func getFileMode(tls *libc.TLS, zFile uintptr, pMode uintptr, pUid uintptr, pGid uintptr) int32 {
bp := tls.Alloc(144)
defer tls.Free(144)
var rc int32 = SQLITE_OK
if 0 == (*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 4*24 + 8)))(tls, zFile, bp) {
*(*Mode_t)(unsafe.Pointer(pMode)) = Mode_t(int32((*stat)(unsafe.Pointer(bp)).Fst_mode) & 0777)
*(*Uid_t)(unsafe.Pointer(pUid)) = (*stat)(unsafe.Pointer(bp)).Fst_uid
*(*Gid_t)(unsafe.Pointer(pGid)) = (*stat)(unsafe.Pointer(bp)).Fst_gid
} else {
rc = SQLITE_IOERR | int32(7)<<8
}
return rc
}
func findCreateFileMode(tls *libc.TLS, zPath uintptr, flags int32, pMode uintptr, pUid uintptr, pGid uintptr) int32 {
bp := tls.Alloc(513)
defer tls.Free(513)
var rc int32 = SQLITE_OK
*(*Mode_t)(unsafe.Pointer(pMode)) = Mode_t(0)
*(*Uid_t)(unsafe.Pointer(pUid)) = Uid_t(0)
*(*Gid_t)(unsafe.Pointer(pGid)) = Gid_t(0)
if flags&(SQLITE_OPEN_WAL|SQLITE_OPEN_MAIN_JOURNAL) != 0 {
var nDb int32
nDb = Xsqlite3Strlen30(tls, zPath) - 1
for nDb > 0 && int32(*(*int8)(unsafe.Pointer(zPath + uintptr(nDb)))) != '.' {
if int32(*(*int8)(unsafe.Pointer(zPath + uintptr(nDb)))) == '-' {
libc.X__builtin___memcpy_chk(tls, bp, zPath, uint64(nDb), libc.X__builtin_object_size(tls, bp, 0))
*(*int8)(unsafe.Pointer(bp + uintptr(nDb))) = int8(0)
rc = getFileMode(tls, bp, pMode, pUid, pGid)
break
}
nDb--
}
} else if flags&SQLITE_OPEN_DELETEONCLOSE != 0 {
*(*Mode_t)(unsafe.Pointer(pMode)) = Mode_t(0600)
} else if flags&SQLITE_OPEN_URI != 0 {
var z uintptr = Xsqlite3_uri_parameter(tls, zPath, ts+3807)
if z != 0 {
rc = getFileMode(tls, z, pMode, pUid, pGid)
}
}
return rc
}
func unixOpen(tls *libc.TLS, pVfs uintptr, zPath uintptr, pFile uintptr, flags int32, pOutFlags uintptr) int32 {
bp := tls.Alloc(2696)
defer tls.Free(2696)
var p uintptr
var fd int32
var openFlags int32
var eType int32
var noLock int32
var rc int32
var ctrlFlags int32
var isExclusive int32
var isDelete int32
var isCreate int32
var isReadonly int32
var isReadWrite int32
var isAutoProxy int32
var isNewJrnl int32
var zName uintptr
var pUnused uintptr
var rc2 int32
var envforce uintptr
var useProxy int32
p = pFile
fd = -1
openFlags = 0
eType = flags & 0x0FFF00
rc = SQLITE_OK
ctrlFlags = 0
isExclusive = flags & SQLITE_OPEN_EXCLUSIVE
isDelete = flags & SQLITE_OPEN_DELETEONCLOSE
isCreate = flags & SQLITE_OPEN_CREATE
isReadonly = flags & SQLITE_OPEN_READONLY
isReadWrite = flags & SQLITE_OPEN_READWRITE
isAutoProxy = flags & SQLITE_OPEN_AUTOPROXY
isNewJrnl = libc.Bool32(isCreate != 0 && (eType == SQLITE_OPEN_SUPER_JOURNAL ||
eType == SQLITE_OPEN_MAIN_JOURNAL ||
eType == SQLITE_OPEN_WAL))
zName = zPath
if !(libc.AtomicLoadInt32(&randomnessPid) != libc.Xgetpid(tls)) {
goto __1
}
libc.AtomicStoreInt32(&randomnessPid, libc.Xgetpid(tls))
Xsqlite3_randomness(tls, 0, uintptr(0))
__1:
;
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(UnixFile{})), libc.X__builtin_object_size(tls, p, 0))
if !(eType == SQLITE_OPEN_MAIN_DB) {
goto __2
}
pUnused = findReusableFd(tls, zName, flags)
if !(pUnused != 0) {
goto __4
}
fd = (*UnixUnusedFd)(unsafe.Pointer(pUnused)).Ffd
goto __5
__4:
pUnused = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(UnixUnusedFd{})))
if !!(pUnused != 0) {
goto __6
}
return SQLITE_NOMEM
__6:
;
__5:
;
(*UnixFile)(unsafe.Pointer(p)).FpPreallocatedUnused = pUnused
goto __3
__2:
if !!(zName != 0) {
goto __7
}
rc = unixGetTempname(tls, (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FmxPathname, bp)
if !(rc != SQLITE_OK) {
goto __8
}
return rc
__8:
;
zName = bp
__7:
;
__3:
;
if !(isReadonly != 0) {
goto __9
}
openFlags = openFlags | O_RDONLY
__9:
;
if !(isReadWrite != 0) {
goto __10
}
openFlags = openFlags | O_RDWR
__10:
;
if !(isCreate != 0) {
goto __11
}
openFlags = openFlags | O_CREAT
__11:
;
if !(isExclusive != 0) {
goto __12
}
openFlags = openFlags | (O_EXCL | O_NOFOLLOW)
__12:
;
openFlags = openFlags | (O_LARGEFILE | O_BINARY | O_NOFOLLOW)
if !(fd < 0) {
goto __13
}
rc = findCreateFileMode(tls, zName, flags, bp+514, bp+516, bp+520)
if !(rc != SQLITE_OK) {
goto __14
}
return rc
__14:
;
fd = robust_open(tls, zName, openFlags, *(*Mode_t)(unsafe.Pointer(bp + 514)))
if !(fd < 0) {
goto __15
}
if !(isNewJrnl != 0 && *(*int32)(unsafe.Pointer(libc.X__error(tls))) == EACCES && (*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 2*24 + 8)))(tls, zName, F_OK) != 0) {
goto __16
}
rc = SQLITE_READONLY | int32(6)<<8
goto __17
__16:
if !(*(*int32)(unsafe.Pointer(libc.X__error(tls))) != EISDIR && isReadWrite != 0) {
goto __18
}
flags = flags & libc.CplInt32(SQLITE_OPEN_READWRITE|SQLITE_OPEN_CREATE)
openFlags = openFlags & libc.CplInt32(O_RDWR|O_CREAT)
flags = flags | SQLITE_OPEN_READONLY
openFlags = openFlags | O_RDONLY
isReadonly = 1
fd = robust_open(tls, zName, openFlags, *(*Mode_t)(unsafe.Pointer(bp + 514)))
__18:
;
__17:
;
__15:
;
if !(fd < 0) {
goto __19
}
rc2 = unixLogErrorAtLine(tls, Xsqlite3CantopenError(tls, 43198), ts+3254, zName, 43198)
if !(rc == SQLITE_OK) {
goto __20
}
rc = rc2
__20:
;
goto open_finished
__19:
;
if !(*(*Mode_t)(unsafe.Pointer(bp + 514)) != 0 && flags&(SQLITE_OPEN_WAL|SQLITE_OPEN_MAIN_JOURNAL) != 0) {
goto __21
}
robustFchown(tls, fd, *(*Uid_t)(unsafe.Pointer(bp + 516)), *(*Gid_t)(unsafe.Pointer(bp + 520)))
__21:
;
__13:
;
if !(pOutFlags != 0) {
goto __22
}
*(*int32)(unsafe.Pointer(pOutFlags)) = flags
__22:
;
if !((*UnixFile)(unsafe.Pointer(p)).FpPreallocatedUnused != 0) {
goto __23
}
(*UnixUnusedFd)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(p)).FpPreallocatedUnused)).Ffd = fd
(*UnixUnusedFd)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(p)).FpPreallocatedUnused)).Fflags = flags & (SQLITE_OPEN_READONLY | SQLITE_OPEN_READWRITE)
__23:
;
if !(isDelete != 0) {
goto __24
}
(*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 16*24 + 8)))(tls, zName)
goto __25
__24:
(*UnixFile)(unsafe.Pointer(p)).FopenFlags = openFlags
__25:
;
if !(libc.Xfstatfs(tls, fd, bp+528) == -1) {
goto __26
}
storeLastErrno(tls, p, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
robust_close(tls, p, fd, 43252)
return SQLITE_IOERR | int32(13)<<8
__26:
;
if !(0 == libc.Xstrncmp(tls, ts+3814, bp+528+72, uint64(5))) {
goto __27
}
*(*uint32)(unsafe.Pointer(pFile + 124)) |= uint32(SQLITE_FSFLAGS_IS_MSDOS)
__27:
;
if !(0 == libc.Xstrncmp(tls, ts+3820, bp+528+72, uint64(5))) {
goto __28
}
*(*uint32)(unsafe.Pointer(pFile + 124)) |= uint32(SQLITE_FSFLAGS_IS_MSDOS)
__28:
;
if !(isDelete != 0) {
goto __29
}
ctrlFlags = ctrlFlags | UNIXFILE_DELETE
__29:
;
if !(isReadonly != 0) {
goto __30
}
ctrlFlags = ctrlFlags | UNIXFILE_RDONLY
__30:
;
noLock = libc.Bool32(eType != SQLITE_OPEN_MAIN_DB)
if !(noLock != 0) {
goto __31
}
ctrlFlags = ctrlFlags | UNIXFILE_NOLOCK
__31:
;
if !(isNewJrnl != 0) {
goto __32
}
ctrlFlags = ctrlFlags | UNIXFILE_DIRSYNC
__32:
;
if !(flags&SQLITE_OPEN_URI != 0) {
goto __33
}
ctrlFlags = ctrlFlags | UNIXFILE_URI
__33:
;
if !(isAutoProxy != 0 && zPath != uintptr(0) && !(noLock != 0) && (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxOpen != 0) {
goto __34
}
envforce = libc.Xgetenv(tls, ts+3826)
useProxy = 0
if !(envforce != uintptr(0)) {
goto __35
}
useProxy = libc.Bool32(libc.Xatoi(tls, envforce) > 0)
goto __36
__35:
useProxy = libc.BoolInt32(!((*statfs)(unsafe.Pointer(bp+528)).Ff_flags&Uint32_t(MNT_LOCAL) != 0))
__36:
;
if !(useProxy != 0) {
goto __37
}
rc = fillInUnixFile(tls, pVfs, fd, pFile, zPath, ctrlFlags)
if !(rc == SQLITE_OK) {
goto __38
}
rc = proxyTransformUnixFile(tls, pFile, ts+3853)
if !(rc != SQLITE_OK) {
goto __39
}
unixClose(tls, pFile)
return rc
__39:
;
__38:
;
goto open_finished
__37:
;
__34:
;
rc = fillInUnixFile(tls, pVfs, fd, pFile, zPath, ctrlFlags)
open_finished:
if !(rc != SQLITE_OK) {
goto __40
}
Xsqlite3_free(tls, (*UnixFile)(unsafe.Pointer(p)).FpPreallocatedUnused)
__40:
;
return rc
}
func unixDelete(tls *libc.TLS, NotUsed uintptr, zPath uintptr, dirSync int32) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32 = SQLITE_OK
_ = NotUsed
if (*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 16*24 + 8)))(tls, zPath) == -1 {
if *(*int32)(unsafe.Pointer(libc.X__error(tls))) == ENOENT {
rc = SQLITE_IOERR | int32(23)<<8
} else {
rc = unixLogErrorAtLine(tls, SQLITE_IOERR|int32(10)<<8, ts+3364, zPath, 43337)
}
return rc
}
if dirSync&1 != 0 {
rc = (*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 17*24 + 8)))(tls, zPath, bp)
if rc == SQLITE_OK {
if full_fsync(tls, *(*int32)(unsafe.Pointer(bp)), 0, 0) != 0 {
rc = unixLogErrorAtLine(tls, SQLITE_IOERR|int32(5)<<8, ts+3860, zPath, 43347)
}
robust_close(tls, uintptr(0), *(*int32)(unsafe.Pointer(bp)), 43349)
} else {
rc = SQLITE_OK
}
}
return rc
}
func unixAccess(tls *libc.TLS, NotUsed uintptr, zPath uintptr, flags int32, pResOut uintptr) int32 {
bp := tls.Alloc(144)
defer tls.Free(144)
_ = NotUsed
if flags == SQLITE_ACCESS_EXISTS {
*(*int32)(unsafe.Pointer(pResOut)) = libc.Bool32(0 == (*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 4*24 + 8)))(tls, zPath, bp) && (!(int32((*stat)(unsafe.Pointer(bp)).Fst_mode)&S_IFMT == S_IFREG) || (*stat)(unsafe.Pointer(bp)).Fst_size > int64(0)))
} else {
*(*int32)(unsafe.Pointer(pResOut)) = libc.Bool32((*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 2*24 + 8)))(tls, zPath, int32(1)<<1|int32(1)<<2) == 0)
}
return SQLITE_OK
}
// A pathname under construction
type DbPath1 = struct {
Frc int32
FnSymlink int32
FzOut uintptr
FnOut int32
FnUsed int32
}
// A pathname under construction
type DbPath = DbPath1
func appendOnePathElement(tls *libc.TLS, pPath uintptr, zName uintptr, nName int32) {
bp := tls.Alloc(1170)
defer tls.Free(1170)
if int32(*(*int8)(unsafe.Pointer(zName))) == '.' {
if nName == 1 {
return
}
if int32(*(*int8)(unsafe.Pointer(zName + 1))) == '.' && nName == 2 {
if (*DbPath)(unsafe.Pointer(pPath)).FnUsed > 1 {
for int32(*(*int8)(unsafe.Pointer((*DbPath)(unsafe.Pointer(pPath)).FzOut + uintptr(libc.PreDecInt32(&(*DbPath)(unsafe.Pointer(pPath)).FnUsed, 1))))) != '/' {
}
}
return
}
}
if (*DbPath)(unsafe.Pointer(pPath)).FnUsed+nName+2 >= (*DbPath)(unsafe.Pointer(pPath)).FnOut {
(*DbPath)(unsafe.Pointer(pPath)).Frc = SQLITE_ERROR
return
}
*(*int8)(unsafe.Pointer((*DbPath)(unsafe.Pointer(pPath)).FzOut + uintptr(libc.PostIncInt32(&(*DbPath)(unsafe.Pointer(pPath)).FnUsed, 1)))) = int8('/')
libc.X__builtin___memcpy_chk(tls, (*DbPath)(unsafe.Pointer(pPath)).FzOut+uintptr((*DbPath)(unsafe.Pointer(pPath)).FnUsed), zName, uint64(nName), libc.X__builtin_object_size(tls, (*DbPath)(unsafe.Pointer(pPath)).FzOut+uintptr((*DbPath)(unsafe.Pointer(pPath)).FnUsed), 0))
*(*int32)(unsafe.Pointer(pPath + 20)) += nName
if (*DbPath)(unsafe.Pointer(pPath)).Frc == SQLITE_OK {
var zIn uintptr
*(*int8)(unsafe.Pointer((*DbPath)(unsafe.Pointer(pPath)).FzOut + uintptr((*DbPath)(unsafe.Pointer(pPath)).FnUsed))) = int8(0)
zIn = (*DbPath)(unsafe.Pointer(pPath)).FzOut
if (*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 27*24 + 8)))(tls, zIn, bp) != 0 {
if *(*int32)(unsafe.Pointer(libc.X__error(tls))) != ENOENT {
(*DbPath)(unsafe.Pointer(pPath)).Frc = unixLogErrorAtLine(tls, Xsqlite3CantopenError(tls, 43443), ts+3452, zIn, 43443)
}
} else if int32((*stat)(unsafe.Pointer(bp)).Fst_mode)&S_IFMT == S_IFLNK {
var got Ssize_t
if libc.PostIncInt32(&(*DbPath)(unsafe.Pointer(pPath)).FnSymlink, 1) > SQLITE_MAX_SYMLINK {
(*DbPath)(unsafe.Pointer(pPath)).Frc = Xsqlite3CantopenError(tls, 43449)
return
}
got = (*(*func(*libc.TLS, uintptr, uintptr, Size_t) Ssize_t)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 26*24 + 8)))(tls, zIn, bp+144, uint64(unsafe.Sizeof([1026]int8{}))-uint64(2))
if got <= int64(0) || got >= Ssize_t(unsafe.Sizeof([1026]int8{}))-int64(2) {
(*DbPath)(unsafe.Pointer(pPath)).Frc = unixLogErrorAtLine(tls, Xsqlite3CantopenError(tls, 43454), ts+3443, zIn, 43454)
return
}
*(*int8)(unsafe.Pointer(bp + 144 + uintptr(got))) = int8(0)
if int32(*(*int8)(unsafe.Pointer(bp + 144))) == '/' {
(*DbPath)(unsafe.Pointer(pPath)).FnUsed = 0
} else {
*(*int32)(unsafe.Pointer(pPath + 20)) -= nName + 1
}
appendAllPathElements(tls, pPath, bp+144)
}
}
}
func appendAllPathElements(tls *libc.TLS, pPath uintptr, zPath uintptr) {
var i int32 = 0
var j int32 = 0
for __ccgo := true; __ccgo; __ccgo = *(*int8)(unsafe.Pointer(zPath + uintptr(libc.PostIncInt32(&i, 1)))) != 0 {
for *(*int8)(unsafe.Pointer(zPath + uintptr(i))) != 0 && int32(*(*int8)(unsafe.Pointer(zPath + uintptr(i)))) != '/' {
i++
}
if i > j {
appendOnePathElement(tls, pPath, zPath+uintptr(j), i-j)
}
j = i + 1
}
}
func unixFullPathname(tls *libc.TLS, pVfs uintptr, zPath uintptr, nOut int32, zOut uintptr) int32 {
bp := tls.Alloc(1056)
defer tls.Free(1056)
_ = pVfs
(*DbPath)(unsafe.Pointer(bp + 1032)).Frc = 0
(*DbPath)(unsafe.Pointer(bp + 1032)).FnUsed = 0
(*DbPath)(unsafe.Pointer(bp + 1032)).FnSymlink = 0
(*DbPath)(unsafe.Pointer(bp + 1032)).FnOut = nOut
(*DbPath)(unsafe.Pointer(bp + 1032)).FzOut = zOut
if int32(*(*int8)(unsafe.Pointer(zPath))) != '/' {
if (*(*func(*libc.TLS, uintptr, Size_t) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 3*24 + 8)))(tls, bp, uint64(unsafe.Sizeof([1026]int8{}))-uint64(2)) == uintptr(0) {
return unixLogErrorAtLine(tls, Xsqlite3CantopenError(tls, 43512), ts+3272, zPath, 43512)
}
appendAllPathElements(tls, bp+1032, bp)
}
appendAllPathElements(tls, bp+1032, zPath)
*(*int8)(unsafe.Pointer(zOut + uintptr((*DbPath)(unsafe.Pointer(bp+1032)).FnUsed))) = int8(0)
if (*DbPath)(unsafe.Pointer(bp+1032)).Frc != 0 || (*DbPath)(unsafe.Pointer(bp+1032)).FnUsed < 2 {
return Xsqlite3CantopenError(tls, 43518)
}
if (*DbPath)(unsafe.Pointer(bp+1032)).FnSymlink != 0 {
return SQLITE_OK | int32(2)<<8
}
return SQLITE_OK
}
type dl_info = struct {
Fdli_fname uintptr
Fdli_fbase uintptr
Fdli_sname uintptr
Fdli_saddr uintptr
}
// Structure filled in by dladdr().
type Dl_info = dl_info
func unixDlOpen(tls *libc.TLS, NotUsed uintptr, zFilename uintptr) uintptr {
_ = NotUsed
return libc.Xdlopen(tls, zFilename, RTLD_NOW|RTLD_GLOBAL)
}
func unixDlError(tls *libc.TLS, NotUsed uintptr, nBuf int32, zBufOut uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var zErr uintptr
_ = NotUsed
unixEnterMutex(tls)
zErr = libc.Xdlerror(tls)
if zErr != 0 {
Xsqlite3_snprintf(tls, nBuf, zBufOut, ts+3658, libc.VaList(bp, zErr))
}
unixLeaveMutex(tls)
}
func unixDlSym(tls *libc.TLS, NotUsed uintptr, p uintptr, zSym uintptr) uintptr {
var x uintptr
_ = NotUsed
x = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) uintptr
}{libc.Xdlsym}))
return (*struct {
f func(*libc.TLS, uintptr, uintptr) uintptr
})(unsafe.Pointer(&struct{ uintptr }{x})).f(tls, p, zSym)
}
func unixDlClose(tls *libc.TLS, NotUsed uintptr, pHandle uintptr) {
_ = NotUsed
libc.Xdlclose(tls, pHandle)
}
func unixRandomness(tls *libc.TLS, NotUsed uintptr, nBuf int32, zBuf uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
_ = NotUsed
libc.X__builtin___memset_chk(tls, zBuf, 0, uint64(nBuf), libc.X__builtin_object_size(tls, zBuf, 0))
libc.AtomicStoreInt32(&randomnessPid, libc.Xgetpid(tls))
{
var fd int32
var got int32
fd = robust_open(tls, ts+3866, O_RDONLY, uint16(0))
if fd < 0 {
libc.Xtime(tls, bp)
libc.X__builtin___memcpy_chk(tls, zBuf, bp, uint64(unsafe.Sizeof(Time_t(0))), libc.X__builtin_object_size(tls, zBuf, 0))
libc.X__builtin___memcpy_chk(tls, zBuf+8, uintptr(unsafe.Pointer(&randomnessPid)), uint64(unsafe.Sizeof(randomnessPid)), libc.X__builtin_object_size(tls, zBuf+8, 0))
nBuf = int32(uint64(unsafe.Sizeof(Time_t(0))) + uint64(unsafe.Sizeof(randomnessPid)))
} else {
for __ccgo := true; __ccgo; __ccgo = got < 0 && *(*int32)(unsafe.Pointer(libc.X__error(tls))) == EINTR {
got = int32((*(*func(*libc.TLS, int32, uintptr, Size_t) Ssize_t)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 8*24 + 8)))(tls, fd, zBuf, uint64(nBuf)))
}
robust_close(tls, uintptr(0), fd, 43619)
}
}
return nBuf
}
func unixSleep(tls *libc.TLS, NotUsed uintptr, microseconds int32) int32 {
if microseconds >= 1000000 {
libc.Xsleep(tls, uint32(microseconds/1000000))
}
if microseconds%1000000 != 0 {
libc.Xusleep(tls, uint32(microseconds%1000000))
}
_ = NotUsed
return microseconds
}
func unixCurrentTimeInt64(tls *libc.TLS, NotUsed uintptr, piNow uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var rc int32 = SQLITE_OK
libc.Xgettimeofday(tls, bp, uintptr(0))
*(*Sqlite3_int64)(unsafe.Pointer(piNow)) = unixEpoch + int64(1000)*(*timeval)(unsafe.Pointer(bp)).Ftv_sec + Sqlite3_int64((*timeval)(unsafe.Pointer(bp)).Ftv_usec/1000)
_ = NotUsed
return rc
}
var unixEpoch Sqlite3_int64 = int64(24405875) * int64(8640000)
func unixCurrentTime(tls *libc.TLS, NotUsed uintptr, prNow uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*Sqlite3_int64)(unsafe.Pointer(bp)) = int64(0)
var rc int32
_ = NotUsed
rc = unixCurrentTimeInt64(tls, uintptr(0), bp)
*(*float64)(unsafe.Pointer(prNow)) = float64(*(*Sqlite3_int64)(unsafe.Pointer(bp))) / 86400000.0
return rc
}
func unixGetLastError(tls *libc.TLS, NotUsed uintptr, NotUsed2 int32, NotUsed3 uintptr) int32 {
_ = NotUsed
_ = NotUsed2
_ = NotUsed3
return *(*int32)(unsafe.Pointer(libc.X__error(tls)))
}
type proxyLockingContext = struct {
FconchFile uintptr
FconchFilePath uintptr
FlockProxy uintptr
FlockProxyPath uintptr
FdbPath uintptr
FconchHeld int32
FnFails int32
FoldLockingContext uintptr
FpOldMethod uintptr
}
// The proxyLockingContext has the path and file structures for the remote
// and local proxy files in it
type ProxyLockingContext = proxyLockingContext
func proxyGetLockPath(tls *libc.TLS, dbPath uintptr, lPath uintptr, maxLen Size_t) int32 {
var len int32
var dbLen int32
var i int32
{
if !(libc.Xconfstr(tls, X_CS_DARWIN_USER_TEMP_DIR, lPath, maxLen) != 0) {
return SQLITE_IOERR | int32(15)<<8
}
len = int32(libc.Xstrlcat(tls, lPath, ts+3879, maxLen))
}
if int32(*(*int8)(unsafe.Pointer(lPath + uintptr(len-1)))) != '/' {
len = int32(libc.Xstrlcat(tls, lPath, ts+3892, maxLen))
}
dbLen = int32(libc.Xstrlen(tls, dbPath))
for i = 0; i < dbLen && i+len+7 < int32(maxLen); i++ {
var c int8 = *(*int8)(unsafe.Pointer(dbPath + uintptr(i)))
*(*int8)(unsafe.Pointer(lPath + uintptr(i+len))) = func() int8 {
if int32(c) == '/' {
return int8('_')
}
return c
}()
}
*(*int8)(unsafe.Pointer(lPath + uintptr(i+len))) = int8(0)
libc.Xstrlcat(tls, lPath, ts+3853, maxLen)
return SQLITE_OK
}
func proxyCreateLockPath(tls *libc.TLS, lockPath uintptr) int32 {
bp := tls.Alloc(1024)
defer tls.Free(1024)
var i int32
var len int32
var start int32 = 0
len = int32(libc.Xstrlen(tls, lockPath))
*(*int8)(unsafe.Pointer(bp)) = *(*int8)(unsafe.Pointer(lockPath))
for i = 1; i < len; i++ {
if int32(*(*int8)(unsafe.Pointer(lockPath + uintptr(i)))) == '/' && i-start > 0 {
if i-start > 2 || i-start == 1 && int32(*(*int8)(unsafe.Pointer(bp + uintptr(start)))) != '.' && int32(*(*int8)(unsafe.Pointer(bp + uintptr(start)))) != '/' ||
i-start == 2 && int32(*(*int8)(unsafe.Pointer(bp + uintptr(start)))) != '.' && int32(*(*int8)(unsafe.Pointer(bp + uintptr(start+1)))) != '.' {
*(*int8)(unsafe.Pointer(bp + uintptr(i))) = int8(0)
if (*(*func(*libc.TLS, uintptr, Mode_t) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 18*24 + 8)))(tls, bp, uint16(SQLITE_DEFAULT_PROXYDIR_PERMISSIONS)) != 0 {
var err int32 = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
if err != EEXIST {
return err
}
}
}
start = i + 1
}
*(*int8)(unsafe.Pointer(bp + uintptr(i))) = *(*int8)(unsafe.Pointer(lockPath + uintptr(i)))
}
return 0
}
func proxyCreateUnixFile(tls *libc.TLS, path uintptr, ppFile uintptr, islockfile int32) int32 {
bp := tls.Alloc(168)
defer tls.Free(168)
var fd int32
var pNew uintptr
var rc int32
var openFlags int32
var terrno int32
var pUnused uintptr
fd = -1
rc = SQLITE_OK
openFlags = O_RDWR | O_CREAT | O_NOFOLLOW
terrno = 0
pUnused = uintptr(0)
pUnused = findReusableFd(tls, path, openFlags)
if !(pUnused != 0) {
goto __1
}
fd = (*UnixUnusedFd)(unsafe.Pointer(pUnused)).Ffd
goto __2
__1:
pUnused = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(UnixUnusedFd{})))
if !!(pUnused != 0) {
goto __3
}
return SQLITE_NOMEM
__3:
;
__2:
;
if !(fd < 0) {
goto __4
}
fd = robust_open(tls, path, openFlags, uint16(0))
terrno = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
if !(fd < 0 && *(*int32)(unsafe.Pointer(libc.X__error(tls))) == ENOENT && islockfile != 0) {
goto __5
}
if !(proxyCreateLockPath(tls, path) == SQLITE_OK) {
goto __6
}
fd = robust_open(tls, path, openFlags, uint16(0))
__6:
;
__5:
;
__4:
;
if !(fd < 0) {
goto __7
}
openFlags = O_RDONLY | O_NOFOLLOW
fd = robust_open(tls, path, openFlags, uint16(0))
terrno = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
__7:
;
if !(fd < 0) {
goto __8
}
if !(islockfile != 0) {
goto __9
}
return SQLITE_BUSY
__9:
;
switch terrno {
case EACCES:
goto __11
case EIO:
goto __12
default:
goto __13
}
goto __10
__11:
return SQLITE_PERM
__12:
return SQLITE_IOERR | int32(15)<<8
__13:
return Xsqlite3CantopenError(tls, 44048)
__10:
;
__8:
;
pNew = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(UnixFile{})))
if !(pNew == uintptr(0)) {
goto __14
}
rc = SQLITE_NOMEM
goto end_create_proxy
__14:
;
libc.X__builtin___memset_chk(tls, pNew, 0, uint64(unsafe.Sizeof(UnixFile{})), libc.X__builtin_object_size(tls, pNew, 0))
(*UnixFile)(unsafe.Pointer(pNew)).FopenFlags = openFlags
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Sqlite3_vfs{})), libc.X__builtin_object_size(tls, bp, 0))
(*Sqlite3_vfs)(unsafe.Pointer(bp)).FpAppData = uintptr(unsafe.Pointer(&autolockIoFinder))
(*Sqlite3_vfs)(unsafe.Pointer(bp)).FzName = ts + 3894
(*UnixUnusedFd)(unsafe.Pointer(pUnused)).Ffd = fd
(*UnixUnusedFd)(unsafe.Pointer(pUnused)).Fflags = openFlags
(*UnixFile)(unsafe.Pointer(pNew)).FpPreallocatedUnused = pUnused
rc = fillInUnixFile(tls, bp, fd, pNew, path, 0)
if !(rc == SQLITE_OK) {
goto __15
}
*(*uintptr)(unsafe.Pointer(ppFile)) = pNew
return SQLITE_OK
__15:
;
end_create_proxy:
robust_close(tls, pNew, fd, 44072)
Xsqlite3_free(tls, pNew)
Xsqlite3_free(tls, pUnused)
return rc
}
func proxyGetHostID(tls *libc.TLS, pHostID uintptr, pError uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
libc.X__builtin___memset_chk(tls, pHostID, 0, uint64(PROXY_HOSTIDLEN), libc.X__builtin_object_size(tls, pHostID, 0))
{
*(*timespec)(unsafe.Pointer(bp)) = timespec{Ftv_sec: int64(1)}
if libc.Xgethostuuid(tls, pHostID, bp) != 0 {
var err int32 = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
if pError != 0 {
*(*int32)(unsafe.Pointer(pError)) = err
}
return SQLITE_IOERR
}
}
return SQLITE_OK
}
func proxyBreakConchLock(tls *libc.TLS, pFile uintptr, myHostID uintptr) int32 {
bp := tls.Alloc(2193)
defer tls.Free(2193)
var pCtx uintptr
var conchFile uintptr
var cPath uintptr
var readLen Size_t
var pathLen Size_t
var fd int32
var rc int32
pCtx = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
conchFile = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchFile
cPath = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchFilePath
readLen = uint64(0)
pathLen = uint64(0)
*(*[64]int8)(unsafe.Pointer(bp + 1088)) = *(*[64]int8)(unsafe.Pointer(ts + 3900))
fd = -1
rc = -1
_ = myHostID
pathLen = libc.Xstrlcpy(tls, bp+64, cPath, uint64(PATH_MAX))
if !(pathLen > uint64(PATH_MAX) || pathLen < uint64(6) || libc.Xstrlcpy(tls, bp+64+uintptr(pathLen-uint64(5)), ts+3964, uint64(6)) != uint64(5)) {
goto __1
}
Xsqlite3_snprintf(tls, int32(unsafe.Sizeof([64]int8{})), bp+1088, ts+3970, libc.VaList(bp, int32(pathLen)))
goto end_breaklock
__1:
;
readLen = Size_t((*(*func(*libc.TLS, int32, uintptr, Size_t, Off_t) Ssize_t)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 9*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(conchFile)).Fh, bp+1152, uint64(PROXY_HEADERLEN+PROXY_HOSTIDLEN+PATH_MAX), int64(0)))
if !(readLen < uint64(PROXY_HEADERLEN+PROXY_HOSTIDLEN)) {
goto __2
}
Xsqlite3_snprintf(tls, int32(unsafe.Sizeof([64]int8{})), bp+1088, ts+3990, libc.VaList(bp+8, int32(readLen)))
goto end_breaklock
__2:
;
fd = robust_open(tls, bp+64, O_RDWR|O_CREAT|O_EXCL|O_NOFOLLOW, uint16(0))
if !(fd < 0) {
goto __3
}
Xsqlite3_snprintf(tls, int32(unsafe.Sizeof([64]int8{})), bp+1088, ts+4010, libc.VaList(bp+16, *(*int32)(unsafe.Pointer(libc.X__error(tls)))))
goto end_breaklock
__3:
;
if !((*(*func(*libc.TLS, int32, uintptr, Size_t, Off_t) Ssize_t)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 12*24 + 8)))(tls, fd, bp+1152, readLen, int64(0)) != Ssize_t(readLen)) {
goto __4
}
Xsqlite3_snprintf(tls, int32(unsafe.Sizeof([64]int8{})), bp+1088, ts+4029, libc.VaList(bp+24, *(*int32)(unsafe.Pointer(libc.X__error(tls)))))
goto end_breaklock
__4:
;
if !(libc.Xrename(tls, bp+64, cPath) != 0) {
goto __5
}
Xsqlite3_snprintf(tls, int32(unsafe.Sizeof([64]int8{})), bp+1088, ts+4047, libc.VaList(bp+32, *(*int32)(unsafe.Pointer(libc.X__error(tls)))))
goto end_breaklock
__5:
;
rc = 0
libc.Xfprintf(tls, libc.X__stderrp, ts+4066, libc.VaList(bp+40, cPath))
robust_close(tls, pFile, (*UnixFile)(unsafe.Pointer(conchFile)).Fh, 44175)
(*UnixFile)(unsafe.Pointer(conchFile)).Fh = fd
(*UnixFile)(unsafe.Pointer(conchFile)).FopenFlags = O_RDWR | O_CREAT
end_breaklock:
if !(rc != 0) {
goto __6
}
if !(fd >= 0) {
goto __7
}
(*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 16*24 + 8)))(tls, bp+64)
robust_close(tls, pFile, fd, 44183)
__7:
;
libc.Xfprintf(tls, libc.X__stderrp, ts+4090, libc.VaList(bp+48, cPath, bp+1088))
__6:
;
return rc
}
func proxyConchLock(tls *libc.TLS, pFile uintptr, myHostID uintptr, lockType int32) int32 {
bp := tls.Alloc(1201)
defer tls.Free(1201)
var pCtx uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
var conchFile uintptr = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchFile
var rc int32 = SQLITE_OK
var nTries int32 = 0
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(timespec{})), libc.X__builtin_object_size(tls, bp, 0))
for __ccgo := true; __ccgo; __ccgo = rc == SQLITE_BUSY && nTries < 3 {
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(conchFile)).FpMethod)).FxLock})).f(tls, conchFile, lockType)
nTries++
if rc == SQLITE_BUSY {
if (*(*func(*libc.TLS, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 5*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(conchFile)).Fh, bp+16) != 0 {
storeLastErrno(tls, pFile, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
return SQLITE_IOERR | int32(15)<<8
}
if nTries == 1 {
*(*timespec)(unsafe.Pointer(bp)) = (*stat)(unsafe.Pointer(bp + 16)).Fst_mtimespec
unixSleep(tls, uintptr(0), 500000)
continue
}
if (*timespec)(unsafe.Pointer(bp)).Ftv_sec != (*stat)(unsafe.Pointer(bp+16)).Fst_mtimespec.Ftv_sec || (*timespec)(unsafe.Pointer(bp)).Ftv_nsec != (*stat)(unsafe.Pointer(bp+16)).Fst_mtimespec.Ftv_nsec {
return SQLITE_BUSY
}
if nTries == 2 {
var len int32 = int32((*(*func(*libc.TLS, int32, uintptr, Size_t, Off_t) Ssize_t)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 9*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(conchFile)).Fh, bp+160, uint64(PROXY_HEADERLEN+PROXY_HOSTIDLEN+PATH_MAX), int64(0)))
if len < 0 {
storeLastErrno(tls, pFile, *(*int32)(unsafe.Pointer(libc.X__error(tls))))
return SQLITE_IOERR | int32(15)<<8
}
if len > PROXY_HEADERLEN+PROXY_HOSTIDLEN && int32(*(*int8)(unsafe.Pointer(bp + 160))) == int32(int8(PROXY_CONCHVERSION)) {
if 0 != libc.Xmemcmp(tls, bp+160+1, myHostID, uint64(PROXY_HOSTIDLEN)) {
return SQLITE_BUSY
}
} else {
return SQLITE_BUSY
}
unixSleep(tls, uintptr(0), 10000000)
continue
}
if 0 == proxyBreakConchLock(tls, pFile, myHostID) {
rc = SQLITE_OK
if lockType == EXCLUSIVE_LOCK {
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(conchFile)).FpMethod)).FxLock})).f(tls, conchFile, SHARED_LOCK)
}
if !(rc != 0) {
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(conchFile)).FpMethod)).FxLock})).f(tls, conchFile, lockType)
}
}
}
}
return rc
}
func proxyTakeConch(tls *libc.TLS, pFile uintptr) int32 {
bp := tls.Alloc(3272)
defer tls.Free(3272)
var pCtx uintptr
var pathLen Size_t
var cmode Mode_t
var err int32
var writeSize int32
var fd int32
var path uintptr
var afpCtx uintptr
var conchFile uintptr
var tempLockPath uintptr
var rc int32
var createConch int32
var hostIdMatch int32
var readLen int32
var tryOldLockPath int32
var forceNewLockPath int32
pCtx = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
if !((*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchHeld != 0) {
goto __1
}
return SQLITE_OK
goto __2
__1:
conchFile = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchFile
*(*int32)(unsafe.Pointer(bp + 16)) = 0
tempLockPath = uintptr(0)
rc = SQLITE_OK
createConch = 0
hostIdMatch = 0
readLen = 0
tryOldLockPath = 0
forceNewLockPath = 0
rc = proxyGetHostID(tls, bp, bp+16)
if !(rc&0xff == SQLITE_IOERR) {
goto __3
}
storeLastErrno(tls, pFile, *(*int32)(unsafe.Pointer(bp + 16)))
goto end_takeconch
__3:
;
rc = proxyConchLock(tls, pFile, bp, SHARED_LOCK)
if !(rc != SQLITE_OK) {
goto __4
}
goto end_takeconch
__4:
;
readLen = seekAndRead(tls, conchFile, int64(0), bp+20, PROXY_HEADERLEN+PROXY_HOSTIDLEN+PATH_MAX)
if !(readLen < 0) {
goto __5
}
storeLastErrno(tls, pFile, (*UnixFile)(unsafe.Pointer(conchFile)).FlastErrno)
rc = SQLITE_IOERR | int32(1)<<8
goto end_takeconch
goto __6
__5:
if !(readLen <= PROXY_HEADERLEN+PROXY_HOSTIDLEN || int32(*(*int8)(unsafe.Pointer(bp + 20))) != int32(int8(PROXY_CONCHVERSION))) {
goto __7
}
createConch = 1
__7:
;
__6:
;
__8:
if !(!(createConch != 0) && !(forceNewLockPath != 0)) {
goto __11
}
hostIdMatch = libc.BoolInt32(!(libc.Xmemcmp(tls, bp+20+1, bp,
uint64(PROXY_HOSTIDLEN)) != 0))
if !!(int32((*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath) != 0) {
goto __12
}
if !(hostIdMatch != 0) {
goto __14
}
pathLen = Size_t(readLen - (PROXY_HEADERLEN + PROXY_HOSTIDLEN))
if !(pathLen >= uint64(PATH_MAX)) {
goto __15
}
pathLen = uint64(PATH_MAX - 1)
__15:
;
libc.X__builtin___memcpy_chk(tls, bp+1061, bp+20+17, pathLen, libc.X__builtin_object_size(tls, bp+1061, 0))
*(*int8)(unsafe.Pointer(bp + 1061 + uintptr(pathLen))) = int8(0)
tempLockPath = bp + 1061
tryOldLockPath = 1
goto end_takeconch
__14:
;
goto __13
__12:
if !(hostIdMatch != 0 &&
!(libc.Xstrncmp(tls, (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath, bp+20+17,
uint64(readLen-(PROXY_HEADERLEN+PROXY_HOSTIDLEN))) != 0)) {
goto __16
}
goto end_takeconch
__16:
;
__13:
;
__11:
;
if !((*UnixFile)(unsafe.Pointer(conchFile)).FopenFlags&O_RDWR == 0) {
goto __17
}
rc = SQLITE_BUSY
goto end_takeconch
__17:
;
if !!(int32((*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath) != 0) {
goto __18
}
proxyGetLockPath(tls, (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FdbPath, bp+1061, uint64(PATH_MAX))
tempLockPath = bp + 1061
__18:
;
libc.Xfutimes(tls, (*UnixFile)(unsafe.Pointer(conchFile)).Fh, uintptr(0))
if !(hostIdMatch != 0 && !(createConch != 0)) {
goto __19
}
if !((*UnixFile)(unsafe.Pointer(conchFile)).FpInode != 0 && (*UnixInodeInfo)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(conchFile)).FpInode)).FnShared > 1) {
goto __21
}
rc = SQLITE_BUSY
goto __22
__21:
rc = proxyConchLock(tls, pFile, bp, EXCLUSIVE_LOCK)
__22:
;
goto __20
__19:
rc = proxyConchLock(tls, pFile, bp, EXCLUSIVE_LOCK)
__20:
;
if !(rc == SQLITE_OK) {
goto __23
}
writeSize = 0
*(*int8)(unsafe.Pointer(bp + 2085)) = int8(PROXY_CONCHVERSION)
libc.X__builtin___memcpy_chk(tls, bp+2085+1, bp, uint64(PROXY_HOSTIDLEN), libc.X__builtin_object_size(tls, bp+2085+1, 0))
if !((*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath != uintptr(0)) {
goto __24
}
libc.Xstrlcpy(tls, bp+2085+17, (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath,
uint64(PATH_MAX))
goto __25
__24:
libc.Xstrlcpy(tls, bp+2085+17, tempLockPath, uint64(PATH_MAX))
__25:
;
writeSize = int32(uint64(PROXY_HEADERLEN+PROXY_HOSTIDLEN) + libc.Xstrlen(tls, bp+2085+17))
robust_ftruncate(tls, (*UnixFile)(unsafe.Pointer(conchFile)).Fh, int64(writeSize))
rc = unixWrite(tls, conchFile, bp+2085, writeSize, int64(0))
full_fsync(tls, (*UnixFile)(unsafe.Pointer(conchFile)).Fh, 0, 0)
if !(rc == SQLITE_OK && createConch != 0) {
goto __26
}
err = (*(*func(*libc.TLS, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 5*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(pFile)).Fh, bp+3128)
if !(err == 0) {
goto __27
}
cmode = Mode_t(int32((*stat)(unsafe.Pointer(bp+3128)).Fst_mode) & (S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP | S_IROTH | S_IWOTH))
(*(*func(*libc.TLS, int32, Mode_t) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 14*24 + 8)))(tls, (*UnixFile)(unsafe.Pointer(conchFile)).Fh, cmode)
__27:
;
__26:
;
__23:
;
(*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(conchFile)).FpMethod)).FxUnlock})).f(tls, conchFile, SHARED_LOCK)
end_takeconch:
;
if !(rc == SQLITE_OK && (*UnixFile)(unsafe.Pointer(pFile)).FopenFlags != 0) {
goto __28
}
if !((*UnixFile)(unsafe.Pointer(pFile)).Fh >= 0) {
goto __29
}
robust_close(tls, pFile, (*UnixFile)(unsafe.Pointer(pFile)).Fh, 44436)
__29:
;
(*UnixFile)(unsafe.Pointer(pFile)).Fh = -1
fd = robust_open(tls, (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FdbPath, (*UnixFile)(unsafe.Pointer(pFile)).FopenFlags, uint16(0))
if !(fd >= 0) {
goto __30
}
(*UnixFile)(unsafe.Pointer(pFile)).Fh = fd
goto __31
__30:
rc = Xsqlite3CantopenError(tls, 44444)
__31:
;
__28:
;
if !(rc == SQLITE_OK && !(int32((*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxy) != 0)) {
goto __32
}
if tempLockPath != 0 {
path = tempLockPath
} else {
path = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath
}
rc = proxyCreateUnixFile(tls, path, pCtx+16, 1)
if !(rc != SQLITE_OK && rc != SQLITE_NOMEM && tryOldLockPath != 0) {
goto __33
}
forceNewLockPath = 1
tryOldLockPath = 0
goto __9
__33:
;
__32:
;
if !(rc == SQLITE_OK) {
goto __34
}
if !(tempLockPath != 0) {
goto __35
}
(*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath = Xsqlite3DbStrDup(tls, uintptr(0), tempLockPath)
if !!(int32((*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath) != 0) {
goto __36
}
rc = SQLITE_NOMEM
__36:
;
__35:
;
__34:
;
if !(rc == SQLITE_OK) {
goto __37
}
(*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchHeld = 1
if !((*UnixFile)(unsafe.Pointer((*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxy)).FpMethod == uintptr(unsafe.Pointer(&afpIoMethods))) {
goto __39
}
afpCtx = (*UnixFile)(unsafe.Pointer((*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxy)).FlockingContext
(*AfpLockingContext)(unsafe.Pointer(afpCtx)).FdbPath = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath
__39:
;
goto __38
__37:
(*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(conchFile)).FpMethod)).FxUnlock})).f(tls, conchFile, NO_LOCK)
__38:
;
return rc
goto __9
__9:
if 1 != 0 {
goto __8
}
goto __10
__10:
;
__2:
;
return int32(0)
}
func proxyReleaseConch(tls *libc.TLS, pFile uintptr) int32 {
var rc int32 = SQLITE_OK
var pCtx uintptr
var conchFile uintptr
pCtx = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
conchFile = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchFile
if (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchHeld > 0 {
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(conchFile)).FpMethod)).FxUnlock})).f(tls, conchFile, NO_LOCK)
}
(*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchHeld = 0
return rc
}
func proxyCreateConchPathname(tls *libc.TLS, dbPath uintptr, pConchPath uintptr) int32 {
var i int32
var len int32 = int32(libc.Xstrlen(tls, dbPath))
var conchPath uintptr
*(*uintptr)(unsafe.Pointer(pConchPath)) = libc.AssignUintptr(&conchPath, Xsqlite3_malloc64(tls, uint64(len+8)))
if conchPath == uintptr(0) {
return SQLITE_NOMEM
}
libc.X__builtin___memcpy_chk(tls, conchPath, dbPath, uint64(len+1), libc.X__builtin_object_size(tls, conchPath, 0))
for i = len - 1; i >= 0; i-- {
if int32(*(*int8)(unsafe.Pointer(conchPath + uintptr(i)))) == '/' {
i++
break
}
}
*(*int8)(unsafe.Pointer(conchPath + uintptr(i))) = int8('.')
for i < len {
*(*int8)(unsafe.Pointer(conchPath + uintptr(i+1))) = *(*int8)(unsafe.Pointer(dbPath + uintptr(i)))
i++
}
libc.X__builtin___memcpy_chk(tls, conchPath+uintptr(i+1), ts+4128, uint64(7), libc.X__builtin_object_size(tls, conchPath+uintptr(i+1), 0))
return SQLITE_OK
}
func switchLockProxyPath(tls *libc.TLS, pFile uintptr, path uintptr) int32 {
var pCtx uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
var oldPath uintptr = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath
var rc int32 = SQLITE_OK
if int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) != NO_LOCK {
return SQLITE_BUSY
}
if !(path != 0) || int32(*(*int8)(unsafe.Pointer(path))) == 0 || !(libc.Xstrcmp(tls, path, ts+3853) != 0) || oldPath != 0 && !(libc.Xstrncmp(tls, oldPath, path, uint64(PATH_MAX)) != 0) {
return SQLITE_OK
} else {
var lockProxy uintptr = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxy
(*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxy = uintptr(0)
(*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchHeld = 0
if lockProxy != uintptr(0) {
rc = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(lockProxy)).FpMethod)).FxClose})).f(tls, lockProxy)
if rc != 0 {
return rc
}
Xsqlite3_free(tls, lockProxy)
}
Xsqlite3_free(tls, oldPath)
(*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath = Xsqlite3DbStrDup(tls, uintptr(0), path)
}
return rc
}
func proxyGetDbPathForUnixFile(tls *libc.TLS, pFile uintptr, dbPath uintptr) int32 {
if (*UnixFile)(unsafe.Pointer(pFile)).FpMethod == uintptr(unsafe.Pointer(&afpIoMethods)) {
libc.Xstrlcpy(tls, dbPath, (*AfpLockingContext)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FlockingContext)).FdbPath,
uint64(PATH_MAX))
} else if (*UnixFile)(unsafe.Pointer(pFile)).FpMethod == uintptr(unsafe.Pointer(&dotlockIoMethods)) {
var len int32 = int32(libc.Xstrlen(tls, (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext) - libc.Xstrlen(tls, ts+4135))
libc.X__builtin___memcpy_chk(tls, dbPath, (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext, uint64(len+1), libc.X__builtin_object_size(tls, dbPath, 0))
} else {
libc.Xstrlcpy(tls, dbPath, (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext, uint64(PATH_MAX))
}
return SQLITE_OK
}
func proxyTransformUnixFile(tls *libc.TLS, pFile uintptr, path uintptr) int32 {
bp := tls.Alloc(3344)
defer tls.Free(3344)
var pCtx uintptr
var lockPath uintptr = uintptr(0)
var rc int32 = SQLITE_OK
if int32((*UnixFile)(unsafe.Pointer(pFile)).FeFileLock) != NO_LOCK {
return SQLITE_BUSY
}
proxyGetDbPathForUnixFile(tls, pFile, bp)
if !(path != 0) || int32(*(*int8)(unsafe.Pointer(path))) == 0 || !(libc.Xstrcmp(tls, path, ts+3853) != 0) {
lockPath = uintptr(0)
} else {
lockPath = path
}
pCtx = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(ProxyLockingContext{})))
if pCtx == uintptr(0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, pCtx, 0, uint64(unsafe.Sizeof(ProxyLockingContext{})), libc.X__builtin_object_size(tls, pCtx, 0))
rc = proxyCreateConchPathname(tls, bp, pCtx+8)
if rc == SQLITE_OK {
rc = proxyCreateUnixFile(tls, (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchFilePath, pCtx, 0)
if rc == SQLITE_CANTOPEN && (*UnixFile)(unsafe.Pointer(pFile)).FopenFlags&O_RDWR == 0 {
var goLockless int32 = 0
if (*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 4*24 + 8)))(tls, (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchFilePath, bp+1032) == -1 {
var err int32 = *(*int32)(unsafe.Pointer(libc.X__error(tls)))
if err == ENOENT && libc.Xstatfs(tls, bp, bp+1176) != -1 {
goLockless = libc.Bool32((*statfs)(unsafe.Pointer(bp+1176)).Ff_flags&Uint32_t(MNT_RDONLY) == Uint32_t(MNT_RDONLY))
}
}
if goLockless != 0 {
(*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchHeld = -1
rc = SQLITE_OK
}
}
}
if rc == SQLITE_OK && lockPath != 0 {
(*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath = Xsqlite3DbStrDup(tls, uintptr(0), lockPath)
}
if rc == SQLITE_OK {
(*ProxyLockingContext)(unsafe.Pointer(pCtx)).FdbPath = Xsqlite3DbStrDup(tls, uintptr(0), bp)
if (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FdbPath == uintptr(0) {
rc = SQLITE_NOMEM
}
}
if rc == SQLITE_OK {
(*ProxyLockingContext)(unsafe.Pointer(pCtx)).FoldLockingContext = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
(*UnixFile)(unsafe.Pointer(pFile)).FlockingContext = pCtx
(*ProxyLockingContext)(unsafe.Pointer(pCtx)).FpOldMethod = (*UnixFile)(unsafe.Pointer(pFile)).FpMethod
(*UnixFile)(unsafe.Pointer(pFile)).FpMethod = uintptr(unsafe.Pointer(&proxyIoMethods))
} else {
if (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchFile != 0 {
(*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer((*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchFile)).FpMethod)).FxClose})).f(tls, (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchFile)
Xsqlite3_free(tls, (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchFile)
}
Xsqlite3DbFree(tls, uintptr(0), (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath)
Xsqlite3_free(tls, (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchFilePath)
Xsqlite3_free(tls, pCtx)
}
return rc
}
func proxyFileControl(tls *libc.TLS, id uintptr, op int32, pArg uintptr) int32 {
switch op {
case SQLITE_FCNTL_GET_LOCKPROXYFILE:
{
var pFile uintptr = id
if (*UnixFile)(unsafe.Pointer(pFile)).FpMethod == uintptr(unsafe.Pointer(&proxyIoMethods)) {
var pCtx uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
proxyTakeConch(tls, pFile)
if (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath != 0 {
*(*uintptr)(unsafe.Pointer(pArg)) = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath
} else {
*(*uintptr)(unsafe.Pointer(pArg)) = ts + 4141
}
} else {
*(*uintptr)(unsafe.Pointer(pArg)) = uintptr(0)
}
return SQLITE_OK
}
case SQLITE_FCNTL_SET_LOCKPROXYFILE:
{
var pFile uintptr = id
var rc int32 = SQLITE_OK
var isProxyStyle int32 = libc.Bool32((*UnixFile)(unsafe.Pointer(pFile)).FpMethod == uintptr(unsafe.Pointer(&proxyIoMethods)))
if pArg == uintptr(0) || pArg == uintptr(0) {
if isProxyStyle != 0 {
rc = SQLITE_ERROR
} else {
rc = SQLITE_OK
}
} else {
var proxyPath uintptr = pArg
if isProxyStyle != 0 {
var pCtx uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
if !(libc.Xstrcmp(tls, pArg, ts+3853) != 0) ||
(*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath != 0 && !(libc.Xstrncmp(tls, (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath, proxyPath, uint64(PATH_MAX)) != 0) {
rc = SQLITE_OK
} else {
rc = switchLockProxyPath(tls, pFile, proxyPath)
}
} else {
rc = proxyTransformUnixFile(tls, pFile, proxyPath)
}
}
return rc
}
default:
{
}
}
return SQLITE_ERROR
}
func proxyCheckReservedLock(tls *libc.TLS, id uintptr, pResOut uintptr) int32 {
var pFile uintptr = id
var rc int32 = proxyTakeConch(tls, pFile)
if rc == SQLITE_OK {
var pCtx uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
if (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchHeld > 0 {
var proxy uintptr = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxy
return (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(proxy)).FpMethod)).FxCheckReservedLock})).f(tls, proxy, pResOut)
} else {
pResOut = uintptr(0)
}
}
return rc
}
func proxyLock(tls *libc.TLS, id uintptr, eFileLock int32) int32 {
var pFile uintptr = id
var rc int32 = proxyTakeConch(tls, pFile)
if rc == SQLITE_OK {
var pCtx uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
if (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchHeld > 0 {
var proxy uintptr = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxy
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(proxy)).FpMethod)).FxLock})).f(tls, proxy, eFileLock)
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = (*UnixFile)(unsafe.Pointer(proxy)).FeFileLock
} else {
}
}
return rc
}
func proxyUnlock(tls *libc.TLS, id uintptr, eFileLock int32) int32 {
var pFile uintptr = id
var rc int32 = proxyTakeConch(tls, pFile)
if rc == SQLITE_OK {
var pCtx uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
if (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchHeld > 0 {
var proxy uintptr = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxy
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(proxy)).FpMethod)).FxUnlock})).f(tls, proxy, eFileLock)
(*UnixFile)(unsafe.Pointer(pFile)).FeFileLock = (*UnixFile)(unsafe.Pointer(proxy)).FeFileLock
} else {
}
}
return rc
}
func proxyClose(tls *libc.TLS, id uintptr) int32 {
if id != 0 {
var pFile uintptr = id
var pCtx uintptr = (*UnixFile)(unsafe.Pointer(pFile)).FlockingContext
var lockProxy uintptr = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxy
var conchFile uintptr = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchFile
var rc int32 = SQLITE_OK
if lockProxy != 0 {
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(lockProxy)).FpMethod)).FxUnlock})).f(tls, lockProxy, NO_LOCK)
if rc != 0 {
return rc
}
rc = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(lockProxy)).FpMethod)).FxClose})).f(tls, lockProxy)
if rc != 0 {
return rc
}
Xsqlite3_free(tls, lockProxy)
(*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxy = uintptr(0)
}
if conchFile != 0 {
if (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchHeld != 0 {
rc = proxyReleaseConch(tls, pFile)
if rc != 0 {
return rc
}
}
rc = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(conchFile)).FpMethod)).FxClose})).f(tls, conchFile)
if rc != 0 {
return rc
}
Xsqlite3_free(tls, conchFile)
}
Xsqlite3DbFree(tls, uintptr(0), (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FlockProxyPath)
Xsqlite3_free(tls, (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FconchFilePath)
Xsqlite3DbFree(tls, uintptr(0), (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FdbPath)
(*UnixFile)(unsafe.Pointer(pFile)).FlockingContext = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FoldLockingContext
(*UnixFile)(unsafe.Pointer(pFile)).FpMethod = (*ProxyLockingContext)(unsafe.Pointer(pCtx)).FpOldMethod
Xsqlite3_free(tls, pCtx)
return (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer((*UnixFile)(unsafe.Pointer(pFile)).FpMethod)).FxClose})).f(tls, id)
}
return SQLITE_OK
}
// Initialize the operating system interface.
//
// This routine registers all VFS implementations for unix-like operating
// systems. This routine, and the sqlite3_os_end() routine that follows,
// should be the only routines in this file that are visible from other
// files.
//
// This routine is called once during SQLite initialization and by a
// single thread. The memory allocation and mutex subsystems have not
// necessarily been initialized when this routine is called, and so they
// should not be used.
func Xsqlite3_os_init(tls *libc.TLS) int32 {
var i uint32
for i = uint32(0); uint64(i) < uint64(unsafe.Sizeof(aVfs))/uint64(unsafe.Sizeof(Sqlite3_vfs{})); i++ {
Xsqlite3_vfs_register(tls, uintptr(unsafe.Pointer(&aVfs))+uintptr(i)*168, libc.Bool32(i == uint32(0)))
}
unixBigLock = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_VFS1)
unixTempFileInit(tls)
return SQLITE_OK
}
var aVfs = [9]Sqlite3_vfs{
{FiVersion: 3, FszOsFile: int32(unsafe.Sizeof(UnixFile{})), FmxPathname: MAX_PATHNAME, FzName: ts + 4159, FpAppData: 0, FxOpen: 0, FxDelete: 0, FxAccess: 0, FxFullPathname: 0, FxDlOpen: 0, FxDlError: 0, FxDlSym: 0, FxDlClose: 0, FxRandomness: 0, FxSleep: 0, FxCurrentTime: 0, FxGetLastError: 0, FxCurrentTimeInt64: 0, FxSetSystemCall: 0, FxGetSystemCall: 0, FxNextSystemCall: 0},
{FiVersion: 3, FszOsFile: int32(unsafe.Sizeof(UnixFile{})), FmxPathname: MAX_PATHNAME, FzName: ts + 4164, FpAppData: 0, FxOpen: 0, FxDelete: 0, FxAccess: 0, FxFullPathname: 0, FxDlOpen: 0, FxDlError: 0, FxDlSym: 0, FxDlClose: 0, FxRandomness: 0, FxSleep: 0, FxCurrentTime: 0, FxGetLastError: 0, FxCurrentTimeInt64: 0, FxSetSystemCall: 0, FxGetSystemCall: 0, FxNextSystemCall: 0},
{FiVersion: 3, FszOsFile: int32(unsafe.Sizeof(UnixFile{})), FmxPathname: MAX_PATHNAME, FzName: ts + 4174, FpAppData: 0, FxOpen: 0, FxDelete: 0, FxAccess: 0, FxFullPathname: 0, FxDlOpen: 0, FxDlError: 0, FxDlSym: 0, FxDlClose: 0, FxRandomness: 0, FxSleep: 0, FxCurrentTime: 0, FxGetLastError: 0, FxCurrentTimeInt64: 0, FxSetSystemCall: 0, FxGetSystemCall: 0, FxNextSystemCall: 0},
{FiVersion: 3, FszOsFile: int32(unsafe.Sizeof(UnixFile{})), FmxPathname: MAX_PATHNAME, FzName: ts + 3728, FpAppData: 0, FxOpen: 0, FxDelete: 0, FxAccess: 0, FxFullPathname: 0, FxDlOpen: 0, FxDlError: 0, FxDlSym: 0, FxDlClose: 0, FxRandomness: 0, FxSleep: 0, FxCurrentTime: 0, FxGetLastError: 0, FxCurrentTimeInt64: 0, FxSetSystemCall: 0, FxGetSystemCall: 0, FxNextSystemCall: 0},
{FiVersion: 3, FszOsFile: int32(unsafe.Sizeof(UnixFile{})), FmxPathname: MAX_PATHNAME, FzName: ts + 4187, FpAppData: 0, FxOpen: 0, FxDelete: 0, FxAccess: 0, FxFullPathname: 0, FxDlOpen: 0, FxDlError: 0, FxDlSym: 0, FxDlClose: 0, FxRandomness: 0, FxSleep: 0, FxCurrentTime: 0, FxGetLastError: 0, FxCurrentTimeInt64: 0, FxSetSystemCall: 0, FxGetSystemCall: 0, FxNextSystemCall: 0},
{FiVersion: 3, FszOsFile: int32(unsafe.Sizeof(UnixFile{})), FmxPathname: MAX_PATHNAME, FzName: ts + 4198, FpAppData: 0, FxOpen: 0, FxDelete: 0, FxAccess: 0, FxFullPathname: 0, FxDlOpen: 0, FxDlError: 0, FxDlSym: 0, FxDlClose: 0, FxRandomness: 0, FxSleep: 0, FxCurrentTime: 0, FxGetLastError: 0, FxCurrentTimeInt64: 0, FxSetSystemCall: 0, FxGetSystemCall: 0, FxNextSystemCall: 0},
{FiVersion: 3, FszOsFile: int32(unsafe.Sizeof(UnixFile{})), FmxPathname: MAX_PATHNAME, FzName: ts + 4209, FpAppData: 0, FxOpen: 0, FxDelete: 0, FxAccess: 0, FxFullPathname: 0, FxDlOpen: 0, FxDlError: 0, FxDlSym: 0, FxDlClose: 0, FxRandomness: 0, FxSleep: 0, FxCurrentTime: 0, FxGetLastError: 0, FxCurrentTimeInt64: 0, FxSetSystemCall: 0, FxGetSystemCall: 0, FxNextSystemCall: 0},
{FiVersion: 3, FszOsFile: int32(unsafe.Sizeof(UnixFile{})), FmxPathname: MAX_PATHNAME, FzName: ts + 4218, FpAppData: 0, FxOpen: 0, FxDelete: 0, FxAccess: 0, FxFullPathname: 0, FxDlOpen: 0, FxDlError: 0, FxDlSym: 0, FxDlClose: 0, FxRandomness: 0, FxSleep: 0, FxCurrentTime: 0, FxGetLastError: 0, FxCurrentTimeInt64: 0, FxSetSystemCall: 0, FxGetSystemCall: 0, FxNextSystemCall: 0},
{FiVersion: 3, FszOsFile: int32(unsafe.Sizeof(UnixFile{})), FmxPathname: MAX_PATHNAME, FzName: ts + 4227, FpAppData: 0, FxOpen: 0, FxDelete: 0, FxAccess: 0, FxFullPathname: 0, FxDlOpen: 0, FxDlError: 0, FxDlSym: 0, FxDlClose: 0, FxRandomness: 0, FxSleep: 0, FxCurrentTime: 0, FxGetLastError: 0, FxCurrentTimeInt64: 0, FxSetSystemCall: 0, FxGetSystemCall: 0, FxNextSystemCall: 0},
}
// Shutdown the operating system interface.
//
// Some operating systems might need to do some cleanup in this routine,
// to release dynamically allocated objects. But not on unix.
// This routine is a no-op for unix.
func Xsqlite3_os_end(tls *libc.TLS) int32 {
unixBigLock = uintptr(0)
return SQLITE_OK
}
// Forward declaration of objects used by this utility
type MemVfs = sqlite3_vfs
type MemFile1 = struct {
Fbase Sqlite3_file
FpStore uintptr
FeLock int32
F__ccgo_pad1 [4]byte
}
type MemFile = MemFile1
type MemStore1 = struct {
Fsz Sqlite3_int64
FszAlloc Sqlite3_int64
FszMax Sqlite3_int64
FaData uintptr
FpMutex uintptr
FnMmap int32
FmFlags uint32
FnRdLock int32
FnWrLock int32
FnRef int32
F__ccgo_pad1 [4]byte
FzFName uintptr
}
type MemStore = MemStore1
// File-scope variables for holding the memdb files that are accessible
// to multiple database connections in separate threads.
//
// Must hold SQLITE_MUTEX_STATIC_VFS1 to access any part of this object.
type MemFS = struct {
FnMemStore int32
F__ccgo_pad1 [4]byte
FapMemStore uintptr
}
var memdb_g MemFS
var memdb_vfs = Sqlite3_vfs{
FiVersion: 2,
FmxPathname: 1024,
FzName: ts + 4238,
FxOpen: 0,
FxAccess: 0,
FxFullPathname: 0,
FxDlOpen: 0,
FxDlError: 0,
FxDlSym: 0,
FxDlClose: 0,
FxRandomness: 0,
FxSleep: 0,
FxGetLastError: 0,
FxCurrentTimeInt64: 0,
}
var memdb_io_methods = Sqlite3_io_methods{
FiVersion: 3,
FxClose: 0,
FxRead: 0,
FxWrite: 0,
FxTruncate: 0,
FxSync: 0,
FxFileSize: 0,
FxLock: 0,
FxUnlock: 0,
FxFileControl: 0,
FxDeviceCharacteristics: 0,
FxFetch: 0,
FxUnfetch: 0,
}
func memdbEnter(tls *libc.TLS, p uintptr) {
Xsqlite3_mutex_enter(tls, (*MemStore)(unsafe.Pointer(p)).FpMutex)
}
func memdbLeave(tls *libc.TLS, p uintptr) {
Xsqlite3_mutex_leave(tls, (*MemStore)(unsafe.Pointer(p)).FpMutex)
}
func memdbClose(tls *libc.TLS, pFile uintptr) int32 {
var p uintptr = (*MemFile)(unsafe.Pointer(pFile)).FpStore
if (*MemStore)(unsafe.Pointer(p)).FzFName != 0 {
var i int32
var pVfsMutex uintptr = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_VFS1)
Xsqlite3_mutex_enter(tls, pVfsMutex)
for i = 0; i < memdb_g.FnMemStore; i++ {
if *(*uintptr)(unsafe.Pointer(memdb_g.FapMemStore + uintptr(i)*8)) == p {
memdbEnter(tls, p)
if (*MemStore)(unsafe.Pointer(p)).FnRef == 1 {
*(*uintptr)(unsafe.Pointer(memdb_g.FapMemStore + uintptr(i)*8)) = *(*uintptr)(unsafe.Pointer(memdb_g.FapMemStore + uintptr(libc.PreDecInt32(&memdb_g.FnMemStore, 1))*8))
if memdb_g.FnMemStore == 0 {
Xsqlite3_free(tls, memdb_g.FapMemStore)
memdb_g.FapMemStore = uintptr(0)
}
}
break
}
}
Xsqlite3_mutex_leave(tls, pVfsMutex)
} else {
memdbEnter(tls, p)
}
(*MemStore)(unsafe.Pointer(p)).FnRef--
if (*MemStore)(unsafe.Pointer(p)).FnRef <= 0 {
if (*MemStore)(unsafe.Pointer(p)).FmFlags&uint32(SQLITE_DESERIALIZE_FREEONCLOSE) != 0 {
Xsqlite3_free(tls, (*MemStore)(unsafe.Pointer(p)).FaData)
}
memdbLeave(tls, p)
Xsqlite3_mutex_free(tls, (*MemStore)(unsafe.Pointer(p)).FpMutex)
Xsqlite3_free(tls, p)
} else {
memdbLeave(tls, p)
}
return SQLITE_OK
}
func memdbRead(tls *libc.TLS, pFile uintptr, zBuf uintptr, iAmt int32, iOfst Sqlite_int64) int32 {
var p uintptr = (*MemFile)(unsafe.Pointer(pFile)).FpStore
memdbEnter(tls, p)
if iOfst+Sqlite_int64(iAmt) > (*MemStore)(unsafe.Pointer(p)).Fsz {
libc.X__builtin___memset_chk(tls, zBuf, 0, uint64(iAmt), libc.X__builtin_object_size(tls, zBuf, 0))
if iOfst < (*MemStore)(unsafe.Pointer(p)).Fsz {
libc.X__builtin___memcpy_chk(tls, zBuf, (*MemStore)(unsafe.Pointer(p)).FaData+uintptr(iOfst), uint64((*MemStore)(unsafe.Pointer(p)).Fsz-iOfst), libc.X__builtin_object_size(tls, zBuf, 0))
}
memdbLeave(tls, p)
return SQLITE_IOERR | int32(2)<<8
}
libc.X__builtin___memcpy_chk(tls, zBuf, (*MemStore)(unsafe.Pointer(p)).FaData+uintptr(iOfst), uint64(iAmt), libc.X__builtin_object_size(tls, zBuf, 0))
memdbLeave(tls, p)
return SQLITE_OK
}
func memdbEnlarge(tls *libc.TLS, p uintptr, newSz Sqlite3_int64) int32 {
var pNew uintptr
if (*MemStore)(unsafe.Pointer(p)).FmFlags&uint32(SQLITE_DESERIALIZE_RESIZEABLE) == uint32(0) || (*MemStore)(unsafe.Pointer(p)).FnMmap > 0 {
return SQLITE_FULL
}
if newSz > (*MemStore)(unsafe.Pointer(p)).FszMax {
return SQLITE_FULL
}
newSz = newSz * int64(2)
if newSz > (*MemStore)(unsafe.Pointer(p)).FszMax {
newSz = (*MemStore)(unsafe.Pointer(p)).FszMax
}
pNew = Xsqlite3Realloc(tls, (*MemStore)(unsafe.Pointer(p)).FaData, uint64(newSz))
if pNew == uintptr(0) {
return SQLITE_IOERR | int32(12)<<8
}
(*MemStore)(unsafe.Pointer(p)).FaData = pNew
(*MemStore)(unsafe.Pointer(p)).FszAlloc = newSz
return SQLITE_OK
}
func memdbWrite(tls *libc.TLS, pFile uintptr, z uintptr, iAmt int32, iOfst Sqlite_int64) int32 {
var p uintptr = (*MemFile)(unsafe.Pointer(pFile)).FpStore
memdbEnter(tls, p)
if (*MemStore)(unsafe.Pointer(p)).FmFlags&uint32(SQLITE_DESERIALIZE_READONLY) != 0 {
memdbLeave(tls, p)
return SQLITE_IOERR | int32(3)<<8
}
if iOfst+Sqlite_int64(iAmt) > (*MemStore)(unsafe.Pointer(p)).Fsz {
var rc int32
if iOfst+Sqlite_int64(iAmt) > (*MemStore)(unsafe.Pointer(p)).FszAlloc &&
libc.AssignInt32(&rc, memdbEnlarge(tls, p, iOfst+Sqlite_int64(iAmt))) != SQLITE_OK {
memdbLeave(tls, p)
return rc
}
if iOfst > (*MemStore)(unsafe.Pointer(p)).Fsz {
libc.X__builtin___memset_chk(tls, (*MemStore)(unsafe.Pointer(p)).FaData+uintptr((*MemStore)(unsafe.Pointer(p)).Fsz), 0, uint64(iOfst-(*MemStore)(unsafe.Pointer(p)).Fsz), libc.X__builtin_object_size(tls, (*MemStore)(unsafe.Pointer(p)).FaData+uintptr((*MemStore)(unsafe.Pointer(p)).Fsz), 0))
}
(*MemStore)(unsafe.Pointer(p)).Fsz = iOfst + Sqlite_int64(iAmt)
}
libc.X__builtin___memcpy_chk(tls, (*MemStore)(unsafe.Pointer(p)).FaData+uintptr(iOfst), z, uint64(iAmt), libc.X__builtin_object_size(tls, (*MemStore)(unsafe.Pointer(p)).FaData+uintptr(iOfst), 0))
memdbLeave(tls, p)
return SQLITE_OK
}
func memdbTruncate(tls *libc.TLS, pFile uintptr, size Sqlite_int64) int32 {
var p uintptr = (*MemFile)(unsafe.Pointer(pFile)).FpStore
var rc int32 = SQLITE_OK
memdbEnter(tls, p)
if size > (*MemStore)(unsafe.Pointer(p)).Fsz {
rc = SQLITE_CORRUPT
} else {
(*MemStore)(unsafe.Pointer(p)).Fsz = size
}
memdbLeave(tls, p)
return rc
}
func memdbSync(tls *libc.TLS, pFile uintptr, flags int32) int32 {
_ = pFile
_ = flags
return SQLITE_OK
}
func memdbFileSize(tls *libc.TLS, pFile uintptr, pSize uintptr) int32 {
var p uintptr = (*MemFile)(unsafe.Pointer(pFile)).FpStore
memdbEnter(tls, p)
*(*Sqlite_int64)(unsafe.Pointer(pSize)) = (*MemStore)(unsafe.Pointer(p)).Fsz
memdbLeave(tls, p)
return SQLITE_OK
}
func memdbLock(tls *libc.TLS, pFile uintptr, eLock int32) int32 {
var pThis uintptr = pFile
var p uintptr = (*MemFile)(unsafe.Pointer(pThis)).FpStore
var rc int32 = SQLITE_OK
if eLock <= (*MemFile)(unsafe.Pointer(pThis)).FeLock {
return SQLITE_OK
}
memdbEnter(tls, p)
if eLock > SQLITE_LOCK_SHARED && (*MemStore)(unsafe.Pointer(p)).FmFlags&uint32(SQLITE_DESERIALIZE_READONLY) != 0 {
rc = SQLITE_READONLY
} else {
switch eLock {
case SQLITE_LOCK_SHARED:
{
if (*MemStore)(unsafe.Pointer(p)).FnWrLock > 0 {
rc = SQLITE_BUSY
} else {
(*MemStore)(unsafe.Pointer(p)).FnRdLock++
}
break
}
fallthrough
case SQLITE_LOCK_RESERVED:
fallthrough
case SQLITE_LOCK_PENDING:
{
if (*MemFile)(unsafe.Pointer(pThis)).FeLock == SQLITE_LOCK_SHARED {
if (*MemStore)(unsafe.Pointer(p)).FnWrLock > 0 {
rc = SQLITE_BUSY
} else {
(*MemStore)(unsafe.Pointer(p)).FnWrLock = 1
}
}
break
}
fallthrough
default:
{
if (*MemStore)(unsafe.Pointer(p)).FnRdLock > 1 {
rc = SQLITE_BUSY
} else if (*MemFile)(unsafe.Pointer(pThis)).FeLock == SQLITE_LOCK_SHARED {
(*MemStore)(unsafe.Pointer(p)).FnWrLock = 1
}
break
}
}
}
if rc == SQLITE_OK {
(*MemFile)(unsafe.Pointer(pThis)).FeLock = eLock
}
memdbLeave(tls, p)
return rc
}
func memdbUnlock(tls *libc.TLS, pFile uintptr, eLock int32) int32 {
var pThis uintptr = pFile
var p uintptr = (*MemFile)(unsafe.Pointer(pThis)).FpStore
if eLock >= (*MemFile)(unsafe.Pointer(pThis)).FeLock {
return SQLITE_OK
}
memdbEnter(tls, p)
if eLock == SQLITE_LOCK_SHARED {
if (*MemFile)(unsafe.Pointer(pThis)).FeLock > SQLITE_LOCK_SHARED {
(*MemStore)(unsafe.Pointer(p)).FnWrLock--
}
} else {
if (*MemFile)(unsafe.Pointer(pThis)).FeLock > SQLITE_LOCK_SHARED {
(*MemStore)(unsafe.Pointer(p)).FnWrLock--
}
(*MemStore)(unsafe.Pointer(p)).FnRdLock--
}
(*MemFile)(unsafe.Pointer(pThis)).FeLock = eLock
memdbLeave(tls, p)
return SQLITE_OK
}
func memdbFileControl(tls *libc.TLS, pFile uintptr, op int32, pArg uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var p uintptr = (*MemFile)(unsafe.Pointer(pFile)).FpStore
var rc int32 = SQLITE_NOTFOUND
memdbEnter(tls, p)
if op == SQLITE_FCNTL_VFSNAME {
*(*uintptr)(unsafe.Pointer(pArg)) = Xsqlite3_mprintf(tls, ts+4244, libc.VaList(bp, (*MemStore)(unsafe.Pointer(p)).FaData, (*MemStore)(unsafe.Pointer(p)).Fsz))
rc = SQLITE_OK
}
if op == SQLITE_FCNTL_SIZE_LIMIT {
var iLimit Sqlite3_int64 = *(*Sqlite3_int64)(unsafe.Pointer(pArg))
if iLimit < (*MemStore)(unsafe.Pointer(p)).Fsz {
if iLimit < int64(0) {
iLimit = (*MemStore)(unsafe.Pointer(p)).FszMax
} else {
iLimit = (*MemStore)(unsafe.Pointer(p)).Fsz
}
}
(*MemStore)(unsafe.Pointer(p)).FszMax = iLimit
*(*Sqlite3_int64)(unsafe.Pointer(pArg)) = iLimit
rc = SQLITE_OK
}
memdbLeave(tls, p)
return rc
}
func memdbDeviceCharacteristics(tls *libc.TLS, pFile uintptr) int32 {
_ = pFile
return SQLITE_IOCAP_ATOMIC | SQLITE_IOCAP_POWERSAFE_OVERWRITE | SQLITE_IOCAP_SAFE_APPEND | SQLITE_IOCAP_SEQUENTIAL
}
func memdbFetch(tls *libc.TLS, pFile uintptr, iOfst Sqlite3_int64, iAmt int32, pp uintptr) int32 {
var p uintptr = (*MemFile)(unsafe.Pointer(pFile)).FpStore
memdbEnter(tls, p)
if iOfst+Sqlite3_int64(iAmt) > (*MemStore)(unsafe.Pointer(p)).Fsz || (*MemStore)(unsafe.Pointer(p)).FmFlags&uint32(SQLITE_DESERIALIZE_RESIZEABLE) != uint32(0) {
*(*uintptr)(unsafe.Pointer(pp)) = uintptr(0)
} else {
(*MemStore)(unsafe.Pointer(p)).FnMmap++
*(*uintptr)(unsafe.Pointer(pp)) = (*MemStore)(unsafe.Pointer(p)).FaData + uintptr(iOfst)
}
memdbLeave(tls, p)
return SQLITE_OK
}
func memdbUnfetch(tls *libc.TLS, pFile uintptr, iOfst Sqlite3_int64, pPage uintptr) int32 {
var p uintptr = (*MemFile)(unsafe.Pointer(pFile)).FpStore
_ = iOfst
_ = pPage
memdbEnter(tls, p)
(*MemStore)(unsafe.Pointer(p)).FnMmap--
memdbLeave(tls, p)
return SQLITE_OK
}
func memdbOpen(tls *libc.TLS, pVfs uintptr, zName uintptr, pFd uintptr, flags int32, pOutFlags uintptr) int32 {
var pFile uintptr = pFd
var p uintptr = uintptr(0)
var szName int32
_ = pVfs
libc.X__builtin___memset_chk(tls, pFile, 0, uint64(unsafe.Sizeof(MemFile{})), libc.X__builtin_object_size(tls, pFile, 0))
szName = Xsqlite3Strlen30(tls, zName)
if szName > 1 && (int32(*(*int8)(unsafe.Pointer(zName))) == '/' || int32(*(*int8)(unsafe.Pointer(zName))) == '\\') {
var i int32
var pVfsMutex uintptr = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_VFS1)
Xsqlite3_mutex_enter(tls, pVfsMutex)
for i = 0; i < memdb_g.FnMemStore; i++ {
if libc.Xstrcmp(tls, (*MemStore)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(memdb_g.FapMemStore + uintptr(i)*8)))).FzFName, zName) == 0 {
p = *(*uintptr)(unsafe.Pointer(memdb_g.FapMemStore + uintptr(i)*8))
break
}
}
if p == uintptr(0) {
var apNew uintptr
p = Xsqlite3Malloc(tls, uint64(unsafe.Sizeof(MemStore{}))+uint64(szName)+uint64(3))
if p == uintptr(0) {
Xsqlite3_mutex_leave(tls, pVfsMutex)
return SQLITE_NOMEM
}
apNew = Xsqlite3Realloc(tls, memdb_g.FapMemStore,
uint64(unsafe.Sizeof(uintptr(0)))*uint64(memdb_g.FnMemStore+1))
if apNew == uintptr(0) {
Xsqlite3_free(tls, p)
Xsqlite3_mutex_leave(tls, pVfsMutex)
return SQLITE_NOMEM
}
*(*uintptr)(unsafe.Pointer(apNew + uintptr(libc.PostIncInt32(&memdb_g.FnMemStore, 1))*8)) = p
memdb_g.FapMemStore = apNew
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(MemStore{})), libc.X__builtin_object_size(tls, p, 0))
(*MemStore)(unsafe.Pointer(p)).FmFlags = uint32(SQLITE_DESERIALIZE_RESIZEABLE | SQLITE_DESERIALIZE_FREEONCLOSE)
(*MemStore)(unsafe.Pointer(p)).FszMax = Xsqlite3Config.FmxMemdbSize
(*MemStore)(unsafe.Pointer(p)).FzFName = p + 1*72
libc.X__builtin___memcpy_chk(tls, (*MemStore)(unsafe.Pointer(p)).FzFName, zName, uint64(szName+1), libc.X__builtin_object_size(tls, (*MemStore)(unsafe.Pointer(p)).FzFName, 0))
(*MemStore)(unsafe.Pointer(p)).FpMutex = Xsqlite3_mutex_alloc(tls, SQLITE_MUTEX_FAST)
if (*MemStore)(unsafe.Pointer(p)).FpMutex == uintptr(0) {
memdb_g.FnMemStore--
Xsqlite3_free(tls, p)
Xsqlite3_mutex_leave(tls, pVfsMutex)
return SQLITE_NOMEM
}
(*MemStore)(unsafe.Pointer(p)).FnRef = 1
memdbEnter(tls, p)
} else {
memdbEnter(tls, p)
(*MemStore)(unsafe.Pointer(p)).FnRef++
}
Xsqlite3_mutex_leave(tls, pVfsMutex)
} else {
p = Xsqlite3Malloc(tls, uint64(unsafe.Sizeof(MemStore{})))
if p == uintptr(0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(MemStore{})), libc.X__builtin_object_size(tls, p, 0))
(*MemStore)(unsafe.Pointer(p)).FmFlags = uint32(SQLITE_DESERIALIZE_RESIZEABLE | SQLITE_DESERIALIZE_FREEONCLOSE)
(*MemStore)(unsafe.Pointer(p)).FszMax = Xsqlite3Config.FmxMemdbSize
}
(*MemFile)(unsafe.Pointer(pFile)).FpStore = p
if pOutFlags != uintptr(0) {
*(*int32)(unsafe.Pointer(pOutFlags)) = flags | SQLITE_OPEN_MEMORY
}
(*Sqlite3_file)(unsafe.Pointer(pFd)).FpMethods = uintptr(unsafe.Pointer(&memdb_io_methods))
memdbLeave(tls, p)
return SQLITE_OK
}
func memdbAccess(tls *libc.TLS, pVfs uintptr, zPath uintptr, flags int32, pResOut uintptr) int32 {
_ = pVfs
_ = zPath
_ = flags
*(*int32)(unsafe.Pointer(pResOut)) = 0
return SQLITE_OK
}
func memdbFullPathname(tls *libc.TLS, pVfs uintptr, zPath uintptr, nOut int32, zOut uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
_ = pVfs
Xsqlite3_snprintf(tls, nOut, zOut, ts+3658, libc.VaList(bp, zPath))
return SQLITE_OK
}
func memdbDlOpen(tls *libc.TLS, pVfs uintptr, zPath uintptr) uintptr {
return (*struct {
f func(*libc.TLS, uintptr, uintptr) uintptr
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer((*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData)).FxDlOpen})).f(tls, (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData, zPath)
}
func memdbDlError(tls *libc.TLS, pVfs uintptr, nByte int32, zErrMsg uintptr) {
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer((*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData)).FxDlError})).f(tls, (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData, nByte, zErrMsg)
}
func memdbDlSym(tls *libc.TLS, pVfs uintptr, p uintptr, zSym uintptr) uintptr {
return (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr) uintptr
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer((*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData)).FxDlSym})).f(tls, (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData, p, zSym)
}
func memdbDlClose(tls *libc.TLS, pVfs uintptr, pHandle uintptr) {
(*struct {
f func(*libc.TLS, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer((*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData)).FxDlClose})).f(tls, (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData, pHandle)
}
func memdbRandomness(tls *libc.TLS, pVfs uintptr, nByte int32, zBufOut uintptr) int32 {
return (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer((*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData)).FxRandomness})).f(tls, (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData, nByte, zBufOut)
}
func memdbSleep(tls *libc.TLS, pVfs uintptr, nMicro int32) int32 {
return (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer((*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData)).FxSleep})).f(tls, (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData, nMicro)
}
func memdbGetLastError(tls *libc.TLS, pVfs uintptr, a int32, b uintptr) int32 {
return (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer((*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData)).FxGetLastError})).f(tls, (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData, a, b)
}
func memdbCurrentTimeInt64(tls *libc.TLS, pVfs uintptr, p uintptr) int32 {
return (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer((*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData)).FxCurrentTimeInt64})).f(tls, (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FpAppData, p)
}
func memdbFromDbSchema(tls *libc.TLS, db uintptr, zSchema uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var pStore uintptr
var rc int32 = Xsqlite3_file_control(tls, db, zSchema, SQLITE_FCNTL_FILE_POINTER, bp)
if rc != 0 {
return uintptr(0)
}
if (*MemFile)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Fbase.FpMethods != uintptr(unsafe.Pointer(&memdb_io_methods)) {
return uintptr(0)
}
pStore = (*MemFile)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpStore
memdbEnter(tls, pStore)
if (*MemStore)(unsafe.Pointer(pStore)).FzFName != uintptr(0) {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
}
memdbLeave(tls, pStore)
return *(*uintptr)(unsafe.Pointer(bp))
}
// Return the serialization of a database
func Xsqlite3_serialize(tls *libc.TLS, db uintptr, zSchema uintptr, piSize uintptr, mFlags uint32) uintptr {
bp := tls.Alloc(24)
defer tls.Free(24)
var p uintptr
var iDb int32
var pBt uintptr
var sz Sqlite3_int64
var szPage int32 = 0
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
var pOut uintptr
var zSql uintptr
var rc int32
if zSchema == uintptr(0) {
zSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FzDbSName
}
p = memdbFromDbSchema(tls, db, zSchema)
iDb = Xsqlite3FindDbName(tls, db, zSchema)
if piSize != 0 {
*(*Sqlite3_int64)(unsafe.Pointer(piSize)) = int64(-1)
}
if iDb < 0 {
return uintptr(0)
}
if p != 0 {
var pStore uintptr = (*MemFile)(unsafe.Pointer(p)).FpStore
if piSize != 0 {
*(*Sqlite3_int64)(unsafe.Pointer(piSize)) = (*MemStore)(unsafe.Pointer(pStore)).Fsz
}
if mFlags&uint32(SQLITE_SERIALIZE_NOCOPY) != 0 {
pOut = (*MemStore)(unsafe.Pointer(pStore)).FaData
} else {
pOut = Xsqlite3_malloc64(tls, uint64((*MemStore)(unsafe.Pointer(pStore)).Fsz))
if pOut != 0 {
libc.X__builtin___memcpy_chk(tls, pOut, (*MemStore)(unsafe.Pointer(pStore)).FaData, uint64((*MemStore)(unsafe.Pointer(pStore)).Fsz), libc.X__builtin_object_size(tls, pOut, 0))
}
}
return pOut
}
pBt = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpBt
if pBt == uintptr(0) {
return uintptr(0)
}
szPage = Xsqlite3BtreeGetPageSize(tls, pBt)
zSql = Xsqlite3_mprintf(tls, ts+4259, libc.VaList(bp, zSchema))
if zSql != 0 {
rc = Xsqlite3_prepare_v2(tls, db, zSql, -1, bp+8, uintptr(0))
} else {
rc = SQLITE_NOMEM
}
Xsqlite3_free(tls, zSql)
if rc != 0 {
return uintptr(0)
}
rc = Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
if rc != SQLITE_ROW {
pOut = uintptr(0)
} else {
sz = Xsqlite3_column_int64(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 0) * Sqlite_int64(szPage)
if piSize != 0 {
*(*Sqlite3_int64)(unsafe.Pointer(piSize)) = sz
}
if mFlags&uint32(SQLITE_SERIALIZE_NOCOPY) != 0 {
pOut = uintptr(0)
} else {
pOut = Xsqlite3_malloc64(tls, uint64(sz))
if pOut != 0 {
var nPage int32 = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 0)
var pPager uintptr = Xsqlite3BtreePager(tls, pBt)
var pgno int32
for pgno = 1; pgno <= nPage; pgno++ {
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
var pTo uintptr = pOut + uintptr(Sqlite3_int64(szPage)*Sqlite3_int64(pgno-1))
rc = Xsqlite3PagerGet(tls, pPager, uint32(pgno), bp+16, 0)
if rc == SQLITE_OK {
libc.X__builtin___memcpy_chk(tls, pTo, Xsqlite3PagerGetData(tls, *(*uintptr)(unsafe.Pointer(bp + 16))), uint64(szPage), libc.X__builtin_object_size(tls, pTo, 0))
} else {
libc.X__builtin___memset_chk(tls, pTo, 0, uint64(szPage), libc.X__builtin_object_size(tls, pTo, 0))
}
Xsqlite3PagerUnref(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
}
}
}
}
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
return pOut
}
// Convert zSchema to a MemDB and initialize its content.
func Xsqlite3_deserialize(tls *libc.TLS, db uintptr, zSchema uintptr, pData uintptr, szDb Sqlite3_int64, szBuf Sqlite3_int64, mFlags uint32) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var p uintptr
var zSql uintptr
var rc int32
var iDb int32
var pStore uintptr
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if !(zSchema == uintptr(0)) {
goto __1
}
zSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FzDbSName
__1:
;
iDb = Xsqlite3FindDbName(tls, db, zSchema)
if !(iDb < 2 && iDb != 0) {
goto __2
}
rc = SQLITE_ERROR
goto end_deserialize
__2:
;
zSql = Xsqlite3_mprintf(tls, ts+4282, libc.VaList(bp, zSchema))
if !(zSql == uintptr(0)) {
goto __3
}
rc = SQLITE_NOMEM
goto __4
__3:
rc = Xsqlite3_prepare_v2(tls, db, zSql, -1, bp+8, uintptr(0))
Xsqlite3_free(tls, zSql)
__4:
;
if !(rc != 0) {
goto __5
}
goto end_deserialize
__5:
;
(*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb = U8(iDb)
libc.SetBitFieldPtr8Uint32(db+192+8, uint32(1), 2, 0x4)
rc = Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
libc.SetBitFieldPtr8Uint32(db+192+8, uint32(0), 2, 0x4)
if !(rc != SQLITE_DONE) {
goto __6
}
rc = SQLITE_ERROR
goto end_deserialize
__6:
;
p = memdbFromDbSchema(tls, db, zSchema)
if !(p == uintptr(0)) {
goto __7
}
rc = SQLITE_ERROR
goto __8
__7:
pStore = (*MemFile)(unsafe.Pointer(p)).FpStore
(*MemStore)(unsafe.Pointer(pStore)).FaData = pData
pData = uintptr(0)
(*MemStore)(unsafe.Pointer(pStore)).Fsz = szDb
(*MemStore)(unsafe.Pointer(pStore)).FszAlloc = szBuf
(*MemStore)(unsafe.Pointer(pStore)).FszMax = szBuf
if !((*MemStore)(unsafe.Pointer(pStore)).FszMax < Xsqlite3Config.FmxMemdbSize) {
goto __9
}
(*MemStore)(unsafe.Pointer(pStore)).FszMax = Xsqlite3Config.FmxMemdbSize
__9:
;
(*MemStore)(unsafe.Pointer(pStore)).FmFlags = mFlags
rc = SQLITE_OK
__8:
;
end_deserialize:
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
if !(pData != 0 && mFlags&uint32(SQLITE_DESERIALIZE_FREEONCLOSE) != uint32(0)) {
goto __10
}
Xsqlite3_free(tls, pData)
__10:
;
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Return true if the VFS is the memvfs.
func Xsqlite3IsMemdb(tls *libc.TLS, pVfs uintptr) int32 {
return libc.Bool32(pVfs == uintptr(unsafe.Pointer(&memdb_vfs)))
}
// This routine is called when the extension is loaded.
// Register the new VFS.
func Xsqlite3MemdbInit(tls *libc.TLS) int32 {
var pLower uintptr = Xsqlite3_vfs_find(tls, uintptr(0))
var sz uint32
if pLower == uintptr(0) {
return SQLITE_ERROR
}
sz = uint32((*Sqlite3_vfs)(unsafe.Pointer(pLower)).FszOsFile)
memdb_vfs.FpAppData = pLower
if uint64(sz) < uint64(unsafe.Sizeof(MemFile{})) {
sz = uint32(unsafe.Sizeof(MemFile{}))
}
memdb_vfs.FszOsFile = int32(sz)
return Xsqlite3_vfs_register(tls, uintptr(unsafe.Pointer(&memdb_vfs)), 0)
}
// Create a new bitmap object able to handle bits between 0 and iSize,
// inclusive. Return a pointer to the new object. Return NULL if
// malloc fails.
func Xsqlite3BitvecCreate(tls *libc.TLS, iSize U32) uintptr {
var p uintptr
p = Xsqlite3MallocZero(tls, uint64(unsafe.Sizeof(Bitvec{})))
if p != 0 {
(*Bitvec)(unsafe.Pointer(p)).FiSize = iSize
}
return p
}
// Check to see if the i-th bit is set. Return true or false.
// If p is NULL (if the bitmap has not been created) or if
// i is out of range, then return false.
func Xsqlite3BitvecTestNotNull(tls *libc.TLS, p uintptr, i U32) int32 {
i--
if i >= (*Bitvec)(unsafe.Pointer(p)).FiSize {
return 0
}
for (*Bitvec)(unsafe.Pointer(p)).FiDivisor != 0 {
var bin U32 = i / (*Bitvec)(unsafe.Pointer(p)).FiDivisor
i = i % (*Bitvec)(unsafe.Pointer(p)).FiDivisor
p = *(*uintptr)(unsafe.Pointer(p + 16 + uintptr(bin)*8))
if !(p != 0) {
return 0
}
}
if uint64((*Bitvec)(unsafe.Pointer(p)).FiSize) <= (uint64(BITVEC_SZ)-uint64(3)*uint64(unsafe.Sizeof(U32(0))))/uint64(unsafe.Sizeof(uintptr(0)))*uint64(unsafe.Sizeof(uintptr(0)))/uint64(unsafe.Sizeof(U8(0)))*uint64(BITVEC_SZELEM) {
return libc.Bool32(int32(*(*U8)(unsafe.Pointer(p + 16 + uintptr(i/U32(BITVEC_SZELEM)))))&(int32(1)<<(i&U32(BITVEC_SZELEM-1))) != 0)
} else {
var h U32 = U32(uint64(libc.PostIncUint32(&i, 1)*U32(1)) % ((uint64(BITVEC_SZ) - uint64(3)*uint64(unsafe.Sizeof(U32(0)))) / uint64(unsafe.Sizeof(uintptr(0))) * uint64(unsafe.Sizeof(uintptr(0))) / uint64(unsafe.Sizeof(U32(0)))))
for *(*U32)(unsafe.Pointer(p + 16 + uintptr(h)*4)) != 0 {
if *(*U32)(unsafe.Pointer(p + 16 + uintptr(h)*4)) == i {
return 1
}
h = U32(uint64(h+U32(1)) % ((uint64(BITVEC_SZ) - uint64(3)*uint64(unsafe.Sizeof(U32(0)))) / uint64(unsafe.Sizeof(uintptr(0))) * uint64(unsafe.Sizeof(uintptr(0))) / uint64(unsafe.Sizeof(U32(0)))))
}
return 0
}
return int32(0)
}
func Xsqlite3BitvecTest(tls *libc.TLS, p uintptr, i U32) int32 {
return libc.Bool32(p != uintptr(0) && Xsqlite3BitvecTestNotNull(tls, p, i) != 0)
}
// Set the i-th bit. Return 0 on success and an error code if
// anything goes wrong.
//
// This routine might cause sub-bitmaps to be allocated. Failing
// to get the memory needed to hold the sub-bitmap is the only
// that can go wrong with an insert, assuming p and i are valid.
//
// The calling function must ensure that p is a valid Bitvec object
// and that the value for "i" is within range of the Bitvec object.
// Otherwise the behavior is undefined.
func Xsqlite3BitvecSet(tls *libc.TLS, p uintptr, i U32) int32 {
var h U32
var bin U32
var j uint32
var rc int32
var aiValues uintptr
if !(p == uintptr(0)) {
goto __1
}
return SQLITE_OK
__1:
;
i--
__2:
if !(uint64((*Bitvec)(unsafe.Pointer(p)).FiSize) > (uint64(BITVEC_SZ)-uint64(3)*uint64(unsafe.Sizeof(U32(0))))/uint64(unsafe.Sizeof(uintptr(0)))*uint64(unsafe.Sizeof(uintptr(0)))/uint64(unsafe.Sizeof(U8(0)))*uint64(BITVEC_SZELEM) && (*Bitvec)(unsafe.Pointer(p)).FiDivisor != 0) {
goto __3
}
bin = i / (*Bitvec)(unsafe.Pointer(p)).FiDivisor
i = i % (*Bitvec)(unsafe.Pointer(p)).FiDivisor
if !(*(*uintptr)(unsafe.Pointer(p + 16 + uintptr(bin)*8)) == uintptr(0)) {
goto __4
}
*(*uintptr)(unsafe.Pointer(p + 16 + uintptr(bin)*8)) = Xsqlite3BitvecCreate(tls, (*Bitvec)(unsafe.Pointer(p)).FiDivisor)
if !(*(*uintptr)(unsafe.Pointer(p + 16 + uintptr(bin)*8)) == uintptr(0)) {
goto __5
}
return SQLITE_NOMEM
__5:
;
__4:
;
p = *(*uintptr)(unsafe.Pointer(p + 16 + uintptr(bin)*8))
goto __2
__3:
;
if !(uint64((*Bitvec)(unsafe.Pointer(p)).FiSize) <= (uint64(BITVEC_SZ)-uint64(3)*uint64(unsafe.Sizeof(U32(0))))/uint64(unsafe.Sizeof(uintptr(0)))*uint64(unsafe.Sizeof(uintptr(0)))/uint64(unsafe.Sizeof(U8(0)))*uint64(BITVEC_SZELEM)) {
goto __6
}
*(*U8)(unsafe.Pointer(p + 16 + uintptr(i/U32(BITVEC_SZELEM)))) |= U8(int32(1) << (i & U32(BITVEC_SZELEM-1)))
return SQLITE_OK
__6:
;
h = U32(uint64(libc.PostIncUint32(&i, 1)*U32(1)) % ((uint64(BITVEC_SZ) - uint64(3)*uint64(unsafe.Sizeof(U32(0)))) / uint64(unsafe.Sizeof(uintptr(0))) * uint64(unsafe.Sizeof(uintptr(0))) / uint64(unsafe.Sizeof(U32(0)))))
if !!(int32(*(*U32)(unsafe.Pointer(p + 16 + uintptr(h)*4))) != 0) {
goto __7
}
if !(uint64((*Bitvec)(unsafe.Pointer(p)).FnSet) < (uint64(BITVEC_SZ)-uint64(3)*uint64(unsafe.Sizeof(U32(0))))/uint64(unsafe.Sizeof(uintptr(0)))*uint64(unsafe.Sizeof(uintptr(0)))/uint64(unsafe.Sizeof(U32(0)))-uint64(1)) {
goto __8
}
goto bitvec_set_end
goto __9
__8:
goto bitvec_set_rehash
__9:
;
__7:
;
__10:
if !(*(*U32)(unsafe.Pointer(p + 16 + uintptr(h)*4)) == i) {
goto __13
}
return SQLITE_OK
__13:
;
h++
if !(uint64(h) >= (uint64(BITVEC_SZ)-uint64(3)*uint64(unsafe.Sizeof(U32(0))))/uint64(unsafe.Sizeof(uintptr(0)))*uint64(unsafe.Sizeof(uintptr(0)))/uint64(unsafe.Sizeof(U32(0)))) {
goto __14
}
h = U32(0)
__14:
;
goto __11
__11:
if *(*U32)(unsafe.Pointer(p + 16 + uintptr(h)*4)) != 0 {
goto __10
}
goto __12
__12:
;
bitvec_set_rehash:
if !(uint64((*Bitvec)(unsafe.Pointer(p)).FnSet) >= (uint64(BITVEC_SZ)-uint64(3)*uint64(unsafe.Sizeof(U32(0))))/uint64(unsafe.Sizeof(uintptr(0)))*uint64(unsafe.Sizeof(uintptr(0)))/uint64(unsafe.Sizeof(U32(0)))/uint64(2)) {
goto __15
}
aiValues = Xsqlite3DbMallocRaw(tls, uintptr(0), uint64(unsafe.Sizeof([124]U32{})))
if !(aiValues == uintptr(0)) {
goto __16
}
return SQLITE_NOMEM
goto __17
__16:
libc.X__builtin___memcpy_chk(tls, aiValues, p+16, uint64(unsafe.Sizeof([124]U32{})), libc.X__builtin_object_size(tls, aiValues, 0))
libc.X__builtin___memset_chk(tls, p+16, 0, uint64(unsafe.Sizeof([62]uintptr{})), libc.X__builtin_object_size(tls, p+16, 0))
(*Bitvec)(unsafe.Pointer(p)).FiDivisor = U32((uint64((*Bitvec)(unsafe.Pointer(p)).FiSize) + (uint64(BITVEC_SZ)-uint64(3)*uint64(unsafe.Sizeof(U32(0))))/uint64(unsafe.Sizeof(uintptr(0)))*uint64(unsafe.Sizeof(uintptr(0)))/uint64(unsafe.Sizeof(uintptr(0))) - uint64(1)) / ((uint64(BITVEC_SZ) - uint64(3)*uint64(unsafe.Sizeof(U32(0)))) / uint64(unsafe.Sizeof(uintptr(0))) * uint64(unsafe.Sizeof(uintptr(0))) / uint64(unsafe.Sizeof(uintptr(0)))))
rc = Xsqlite3BitvecSet(tls, p, i)
j = uint32(0)
__18:
if !(uint64(j) < (uint64(BITVEC_SZ)-uint64(3)*uint64(unsafe.Sizeof(U32(0))))/uint64(unsafe.Sizeof(uintptr(0)))*uint64(unsafe.Sizeof(uintptr(0)))/uint64(unsafe.Sizeof(U32(0)))) {
goto __20
}
if !(*(*U32)(unsafe.Pointer(aiValues + uintptr(j)*4)) != 0) {
goto __21
}
rc = rc | Xsqlite3BitvecSet(tls, p, *(*U32)(unsafe.Pointer(aiValues + uintptr(j)*4)))
__21:
;
goto __19
__19:
j++
goto __18
goto __20
__20:
;
Xsqlite3DbFree(tls, uintptr(0), aiValues)
return rc
__17:
;
__15:
;
bitvec_set_end:
(*Bitvec)(unsafe.Pointer(p)).FnSet++
*(*U32)(unsafe.Pointer(p + 16 + uintptr(h)*4)) = i
return SQLITE_OK
}
// Clear the i-th bit.
//
// pBuf must be a pointer to at least BITVEC_SZ bytes of temporary storage
// that BitvecClear can use to rebuilt its hash table.
func Xsqlite3BitvecClear(tls *libc.TLS, p uintptr, i U32, pBuf uintptr) {
if p == uintptr(0) {
return
}
i--
for (*Bitvec)(unsafe.Pointer(p)).FiDivisor != 0 {
var bin U32 = i / (*Bitvec)(unsafe.Pointer(p)).FiDivisor
i = i % (*Bitvec)(unsafe.Pointer(p)).FiDivisor
p = *(*uintptr)(unsafe.Pointer(p + 16 + uintptr(bin)*8))
if !(p != 0) {
return
}
}
if uint64((*Bitvec)(unsafe.Pointer(p)).FiSize) <= (uint64(BITVEC_SZ)-uint64(3)*uint64(unsafe.Sizeof(U32(0))))/uint64(unsafe.Sizeof(uintptr(0)))*uint64(unsafe.Sizeof(uintptr(0)))/uint64(unsafe.Sizeof(U8(0)))*uint64(BITVEC_SZELEM) {
*(*U8)(unsafe.Pointer(p + 16 + uintptr(i/U32(BITVEC_SZELEM)))) &= U8(^(int32(1) << (i & U32(BITVEC_SZELEM-1))))
} else {
var j uint32
var aiValues uintptr = pBuf
libc.X__builtin___memcpy_chk(tls, aiValues, p+16, uint64(unsafe.Sizeof([124]U32{})), libc.X__builtin_object_size(tls, aiValues, 0))
libc.X__builtin___memset_chk(tls, p+16, 0, uint64(unsafe.Sizeof([124]U32{})), libc.X__builtin_object_size(tls, p+16, 0))
(*Bitvec)(unsafe.Pointer(p)).FnSet = U32(0)
for j = uint32(0); uint64(j) < (uint64(BITVEC_SZ)-uint64(3)*uint64(unsafe.Sizeof(U32(0))))/uint64(unsafe.Sizeof(uintptr(0)))*uint64(unsafe.Sizeof(uintptr(0)))/uint64(unsafe.Sizeof(U32(0))); j++ {
if *(*U32)(unsafe.Pointer(aiValues + uintptr(j)*4)) != 0 && *(*U32)(unsafe.Pointer(aiValues + uintptr(j)*4)) != i+U32(1) {
var h U32 = U32(uint64((*(*U32)(unsafe.Pointer(aiValues + uintptr(j)*4))-U32(1))*U32(1)) % ((uint64(BITVEC_SZ) - uint64(3)*uint64(unsafe.Sizeof(U32(0)))) / uint64(unsafe.Sizeof(uintptr(0))) * uint64(unsafe.Sizeof(uintptr(0))) / uint64(unsafe.Sizeof(U32(0)))))
(*Bitvec)(unsafe.Pointer(p)).FnSet++
for *(*U32)(unsafe.Pointer(p + 16 + uintptr(h)*4)) != 0 {
h++
if uint64(h) >= (uint64(BITVEC_SZ)-uint64(3)*uint64(unsafe.Sizeof(U32(0))))/uint64(unsafe.Sizeof(uintptr(0)))*uint64(unsafe.Sizeof(uintptr(0)))/uint64(unsafe.Sizeof(U32(0))) {
h = U32(0)
}
}
*(*U32)(unsafe.Pointer(p + 16 + uintptr(h)*4)) = *(*U32)(unsafe.Pointer(aiValues + uintptr(j)*4))
}
}
}
}
// Destroy a bitmap object. Reclaim all memory used.
func Xsqlite3BitvecDestroy(tls *libc.TLS, p uintptr) {
if p == uintptr(0) {
return
}
if (*Bitvec)(unsafe.Pointer(p)).FiDivisor != 0 {
var i uint32
for i = uint32(0); uint64(i) < (uint64(BITVEC_SZ)-uint64(3)*uint64(unsafe.Sizeof(U32(0))))/uint64(unsafe.Sizeof(uintptr(0)))*uint64(unsafe.Sizeof(uintptr(0)))/uint64(unsafe.Sizeof(uintptr(0))); i++ {
Xsqlite3BitvecDestroy(tls, *(*uintptr)(unsafe.Pointer(p + 16 + uintptr(i)*8)))
}
}
Xsqlite3_free(tls, p)
}
// Return the value of the iSize parameter specified when Bitvec *p
// was created.
func Xsqlite3BitvecSize(tls *libc.TLS, p uintptr) U32 {
return (*Bitvec)(unsafe.Pointer(p)).FiSize
}
// This routine runs an extensive test of the Bitvec code.
//
// The input is an array of integers that acts as a program
// to test the Bitvec. The integers are opcodes followed
// by 0, 1, or 3 operands, depending on the opcode. Another
// opcode follows immediately after the last operand.
//
// There are 6 opcodes numbered from 0 through 5. 0 is the
// "halt" opcode and causes the test to end.
//
// 0 Halt and return the number of errors
// 1 N S X Set N bits beginning with S and incrementing by X
// 2 N S X Clear N bits beginning with S and incrementing by X
// 3 N Set N randomly chosen bits
// 4 N Clear N randomly chosen bits
// 5 N S X Set N bits from S increment X in array only, not in bitvec
//
// The opcodes 1 through 4 perform set and clear operations are performed
// on both a Bitvec object and on a linear array of bits obtained from malloc.
// Opcode 5 works on the linear array only, not on the Bitvec.
// Opcode 5 is used to deliberately induce a fault in order to
// confirm that error detection works.
//
// At the conclusion of the test the linear array is compared
// against the Bitvec object. If there are any differences,
// an error is returned. If they are the same, zero is returned.
//
// If a memory allocation error occurs, return -1.
func Xsqlite3BitvecBuiltinTest(tls *libc.TLS, sz int32, aOp uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pBitvec uintptr
var pV uintptr
var rc int32
var nx int32
var pc int32
var op int32
var pTmpSpace uintptr
pBitvec = uintptr(0)
pV = uintptr(0)
rc = -1
pBitvec = Xsqlite3BitvecCreate(tls, uint32(sz))
pV = Xsqlite3MallocZero(tls, uint64((sz+7)/8+1))
pTmpSpace = Xsqlite3_malloc64(tls, uint64(BITVEC_SZ))
if !(pBitvec == uintptr(0) || pV == uintptr(0) || pTmpSpace == uintptr(0)) {
goto __1
}
goto bitvec_end
__1:
;
Xsqlite3BitvecSet(tls, uintptr(0), uint32(1))
Xsqlite3BitvecClear(tls, uintptr(0), uint32(1), pTmpSpace)
pc = libc.AssignPtrInt32(bp, 0)
__2:
if !(libc.AssignInt32(&op, *(*int32)(unsafe.Pointer(aOp + uintptr(pc)*4))) != 0) {
goto __3
}
switch op {
case 1:
goto __5
case 2:
goto __6
case 5:
goto __7
case 3:
goto __8
case 4:
goto __9
default:
goto __10
}
goto __4
__5:
__6:
__7:
nx = 4
*(*int32)(unsafe.Pointer(bp)) = *(*int32)(unsafe.Pointer(aOp + uintptr(pc+2)*4)) - 1
*(*int32)(unsafe.Pointer(aOp + uintptr(pc+2)*4)) += *(*int32)(unsafe.Pointer(aOp + uintptr(pc+3)*4))
goto __4
__8:
__9:
__10:
nx = 2
Xsqlite3_randomness(tls, int32(unsafe.Sizeof(int32(0))), bp)
goto __4
__4:
;
if !(libc.PreDecInt32(&*(*int32)(unsafe.Pointer(aOp + uintptr(pc+1)*4)), 1) > 0) {
goto __11
}
nx = 0
__11:
;
pc = pc + nx
*(*int32)(unsafe.Pointer(bp)) = *(*int32)(unsafe.Pointer(bp)) & 0x7fffffff % sz
if !(op&1 != 0) {
goto __12
}
*(*uint8)(unsafe.Pointer(pV + uintptr((*(*int32)(unsafe.Pointer(bp))+1)>>3))) |= uint8(int32(1) << ((*(*int32)(unsafe.Pointer(bp)) + 1) & 7))
if !(op != 5) {
goto __14
}
if !(Xsqlite3BitvecSet(tls, pBitvec, uint32(*(*int32)(unsafe.Pointer(bp))+1)) != 0) {
goto __15
}
goto bitvec_end
__15:
;
__14:
;
goto __13
__12:
*(*uint8)(unsafe.Pointer(pV + uintptr((*(*int32)(unsafe.Pointer(bp))+1)>>3))) &= uint8(^(int32(1) << ((*(*int32)(unsafe.Pointer(bp)) + 1) & 7)))
Xsqlite3BitvecClear(tls, pBitvec, uint32(*(*int32)(unsafe.Pointer(bp))+1), pTmpSpace)
__13:
;
goto __2
__3:
;
rc = int32(U32(Xsqlite3BitvecTest(tls, uintptr(0), uint32(0))+Xsqlite3BitvecTest(tls, pBitvec, uint32(sz+1))+
Xsqlite3BitvecTest(tls, pBitvec, uint32(0))) +
(Xsqlite3BitvecSize(tls, pBitvec) - U32(sz)))
*(*int32)(unsafe.Pointer(bp)) = 1
__16:
if !(*(*int32)(unsafe.Pointer(bp)) <= sz) {
goto __18
}
if !(libc.Bool32(int32(*(*uint8)(unsafe.Pointer(pV + uintptr(*(*int32)(unsafe.Pointer(bp))>>3))))&(int32(1)<<(*(*int32)(unsafe.Pointer(bp))&7)) != 0) != Xsqlite3BitvecTest(tls, pBitvec, uint32(*(*int32)(unsafe.Pointer(bp))))) {
goto __19
}
rc = *(*int32)(unsafe.Pointer(bp))
goto __18
__19:
;
goto __17
__17:
*(*int32)(unsafe.Pointer(bp))++
goto __16
goto __18
__18:
;
bitvec_end:
Xsqlite3_free(tls, pTmpSpace)
Xsqlite3_free(tls, pV)
Xsqlite3BitvecDestroy(tls, pBitvec)
return rc
}
func pcacheManageDirtyList(tls *libc.TLS, pPage uintptr, addRemove U8) {
var p uintptr = (*PgHdr)(unsafe.Pointer(pPage)).FpCache
if int32(addRemove)&PCACHE_DIRTYLIST_REMOVE != 0 {
if (*PCache)(unsafe.Pointer(p)).FpSynced == pPage {
(*PCache)(unsafe.Pointer(p)).FpSynced = (*PgHdr)(unsafe.Pointer(pPage)).FpDirtyPrev
}
if (*PgHdr)(unsafe.Pointer(pPage)).FpDirtyNext != 0 {
(*PgHdr)(unsafe.Pointer((*PgHdr)(unsafe.Pointer(pPage)).FpDirtyNext)).FpDirtyPrev = (*PgHdr)(unsafe.Pointer(pPage)).FpDirtyPrev
} else {
(*PCache)(unsafe.Pointer(p)).FpDirtyTail = (*PgHdr)(unsafe.Pointer(pPage)).FpDirtyPrev
}
if (*PgHdr)(unsafe.Pointer(pPage)).FpDirtyPrev != 0 {
(*PgHdr)(unsafe.Pointer((*PgHdr)(unsafe.Pointer(pPage)).FpDirtyPrev)).FpDirtyNext = (*PgHdr)(unsafe.Pointer(pPage)).FpDirtyNext
} else {
(*PCache)(unsafe.Pointer(p)).FpDirty = (*PgHdr)(unsafe.Pointer(pPage)).FpDirtyNext
if (*PCache)(unsafe.Pointer(p)).FpDirty == uintptr(0) {
(*PCache)(unsafe.Pointer(p)).FeCreate = U8(2)
}
}
}
if int32(addRemove)&PCACHE_DIRTYLIST_ADD != 0 {
(*PgHdr)(unsafe.Pointer(pPage)).FpDirtyPrev = uintptr(0)
(*PgHdr)(unsafe.Pointer(pPage)).FpDirtyNext = (*PCache)(unsafe.Pointer(p)).FpDirty
if (*PgHdr)(unsafe.Pointer(pPage)).FpDirtyNext != 0 {
(*PgHdr)(unsafe.Pointer((*PgHdr)(unsafe.Pointer(pPage)).FpDirtyNext)).FpDirtyPrev = pPage
} else {
(*PCache)(unsafe.Pointer(p)).FpDirtyTail = pPage
if (*PCache)(unsafe.Pointer(p)).FbPurgeable != 0 {
(*PCache)(unsafe.Pointer(p)).FeCreate = U8(1)
}
}
(*PCache)(unsafe.Pointer(p)).FpDirty = pPage
if !(int32((*PCache)(unsafe.Pointer(p)).FpSynced) != 0) &&
0 == int32((*PgHdr)(unsafe.Pointer(pPage)).Fflags)&PGHDR_NEED_SYNC {
(*PCache)(unsafe.Pointer(p)).FpSynced = pPage
}
}
}
func pcacheUnpin(tls *libc.TLS, p uintptr) {
if (*PCache)(unsafe.Pointer((*PgHdr)(unsafe.Pointer(p)).FpCache)).FbPurgeable != 0 {
(*struct {
f func(*libc.TLS, uintptr, uintptr, int32)
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxUnpin})).f(tls, (*PCache)(unsafe.Pointer((*PgHdr)(unsafe.Pointer(p)).FpCache)).FpCache, (*PgHdr)(unsafe.Pointer(p)).FpPage, 0)
}
}
func numberOfCachePages(tls *libc.TLS, p uintptr) int32 {
if (*PCache)(unsafe.Pointer(p)).FszCache >= 0 {
return (*PCache)(unsafe.Pointer(p)).FszCache
} else {
var n I64
n = int64(-1024) * I64((*PCache)(unsafe.Pointer(p)).FszCache) / I64((*PCache)(unsafe.Pointer(p)).FszPage+(*PCache)(unsafe.Pointer(p)).FszExtra)
if n > int64(1000000000) {
n = int64(1000000000)
}
return int32(n)
}
return int32(0)
}
// ************************************************** General Interfaces ******
//
// Initialize and shutdown the page cache subsystem. Neither of these
// functions are threadsafe.
func Xsqlite3PcacheInitialize(tls *libc.TLS) int32 {
if Xsqlite3Config.Fpcache2.FxInit == uintptr(0) {
Xsqlite3PCacheSetDefault(tls)
}
return (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxInit})).f(tls, Xsqlite3Config.Fpcache2.FpArg)
}
func Xsqlite3PcacheShutdown(tls *libc.TLS) {
if Xsqlite3Config.Fpcache2.FxShutdown != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxShutdown})).f(tls, Xsqlite3Config.Fpcache2.FpArg)
}
}
// Return the size in bytes of a PCache object.
func Xsqlite3PcacheSize(tls *libc.TLS) int32 {
return int32(unsafe.Sizeof(PCache{}))
}
// Create a new PCache object. Storage space to hold the object
// has already been allocated and is passed in as the p pointer.
// The caller discovers how much space needs to be allocated by
// calling sqlite3PcacheSize().
//
// szExtra is some extra space allocated for each page. The first
// 8 bytes of the extra space will be zeroed as the page is allocated,
// but remaining content will be uninitialized. Though it is opaque
// to this module, the extra space really ends up being the MemPage
// structure in the pager.
func Xsqlite3PcacheOpen(tls *libc.TLS, szPage int32, szExtra int32, bPurgeable int32, xStress uintptr, pStress uintptr, p uintptr) int32 {
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(PCache{})), libc.X__builtin_object_size(tls, p, 0))
(*PCache)(unsafe.Pointer(p)).FszPage = 1
(*PCache)(unsafe.Pointer(p)).FszExtra = szExtra
(*PCache)(unsafe.Pointer(p)).FbPurgeable = U8(bPurgeable)
(*PCache)(unsafe.Pointer(p)).FeCreate = U8(2)
(*PCache)(unsafe.Pointer(p)).FxStress = xStress
(*PCache)(unsafe.Pointer(p)).FpStress = pStress
(*PCache)(unsafe.Pointer(p)).FszCache = 100
(*PCache)(unsafe.Pointer(p)).FszSpill = 1
return Xsqlite3PcacheSetPageSize(tls, p, szPage)
}
// Change the page size for PCache object. The caller must ensure that there
// are no outstanding page references when this function is called.
func Xsqlite3PcacheSetPageSize(tls *libc.TLS, pCache uintptr, szPage int32) int32 {
if (*PCache)(unsafe.Pointer(pCache)).FszPage != 0 {
var pNew uintptr
pNew = (*struct {
f func(*libc.TLS, int32, int32, int32) uintptr
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxCreate})).f(tls,
szPage, int32(uint64((*PCache)(unsafe.Pointer(pCache)).FszExtra)+(uint64(unsafe.Sizeof(PgHdr{}))+uint64(7))&libc.Uint64FromInt32(libc.CplInt32(7))),
int32((*PCache)(unsafe.Pointer(pCache)).FbPurgeable))
if pNew == uintptr(0) {
return SQLITE_NOMEM
}
(*struct {
f func(*libc.TLS, uintptr, int32)
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxCachesize})).f(tls, pNew, numberOfCachePages(tls, pCache))
if (*PCache)(unsafe.Pointer(pCache)).FpCache != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxDestroy})).f(tls, (*PCache)(unsafe.Pointer(pCache)).FpCache)
}
(*PCache)(unsafe.Pointer(pCache)).FpCache = pNew
(*PCache)(unsafe.Pointer(pCache)).FszPage = szPage
}
return SQLITE_OK
}
// Try to obtain a page from the cache.
//
// This routine returns a pointer to an sqlite3_pcache_page object if
// such an object is already in cache, or if a new one is created.
// This routine returns a NULL pointer if the object was not in cache
// and could not be created.
//
// The createFlags should be 0 to check for existing pages and should
// be 3 (not 1, but 3) to try to create a new page.
//
// If the createFlag is 0, then NULL is always returned if the page
// is not already in the cache. If createFlag is 1, then a new page
// is created only if that can be done without spilling dirty pages
// and without exceeding the cache size limit.
//
// The caller needs to invoke sqlite3PcacheFetchFinish() to properly
// initialize the sqlite3_pcache_page object and convert it into a
// PgHdr object. The sqlite3PcacheFetch() and sqlite3PcacheFetchFinish()
// routines are split this way for performance reasons. When separated
// they can both (usually) operate without having to push values to
// the stack on entry and pop them back off on exit, which saves a
// lot of pushing and popping.
func Xsqlite3PcacheFetch(tls *libc.TLS, pCache uintptr, pgno Pgno, createFlag int32) uintptr {
var eCreate int32
var pRes uintptr
eCreate = createFlag & int32((*PCache)(unsafe.Pointer(pCache)).FeCreate)
pRes = (*struct {
f func(*libc.TLS, uintptr, uint32, int32) uintptr
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxFetch})).f(tls, (*PCache)(unsafe.Pointer(pCache)).FpCache, pgno, eCreate)
return pRes
}
// If the sqlite3PcacheFetch() routine is unable to allocate a new
// page because no clean pages are available for reuse and the cache
// size limit has been reached, then this routine can be invoked to
// try harder to allocate a page. This routine might invoke the stress
// callback to spill dirty pages to the journal. It will then try to
// allocate the new page and will only fail to allocate a new page on
// an OOM error.
//
// This routine should be invoked only after sqlite3PcacheFetch() fails.
func Xsqlite3PcacheFetchStress(tls *libc.TLS, pCache uintptr, pgno Pgno, ppPage uintptr) int32 {
var pPg uintptr
if int32((*PCache)(unsafe.Pointer(pCache)).FeCreate) == 2 {
return 0
}
if Xsqlite3PcachePagecount(tls, pCache) > (*PCache)(unsafe.Pointer(pCache)).FszSpill {
for pPg = (*PCache)(unsafe.Pointer(pCache)).FpSynced; pPg != 0 && ((*PgHdr)(unsafe.Pointer(pPg)).FnRef != 0 || int32((*PgHdr)(unsafe.Pointer(pPg)).Fflags)&PGHDR_NEED_SYNC != 0); pPg = (*PgHdr)(unsafe.Pointer(pPg)).FpDirtyPrev {
}
(*PCache)(unsafe.Pointer(pCache)).FpSynced = pPg
if !(pPg != 0) {
for pPg = (*PCache)(unsafe.Pointer(pCache)).FpDirtyTail; pPg != 0 && (*PgHdr)(unsafe.Pointer(pPg)).FnRef != 0; pPg = (*PgHdr)(unsafe.Pointer(pPg)).FpDirtyPrev {
}
}
if pPg != 0 {
var rc int32
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*PCache)(unsafe.Pointer(pCache)).FxStress})).f(tls, (*PCache)(unsafe.Pointer(pCache)).FpStress, pPg)
if rc != SQLITE_OK && rc != SQLITE_BUSY {
return rc
}
}
}
*(*uintptr)(unsafe.Pointer(ppPage)) = (*struct {
f func(*libc.TLS, uintptr, uint32, int32) uintptr
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxFetch})).f(tls, (*PCache)(unsafe.Pointer(pCache)).FpCache, pgno, 2)
if *(*uintptr)(unsafe.Pointer(ppPage)) == uintptr(0) {
return SQLITE_NOMEM
}
return SQLITE_OK
}
func pcacheFetchFinishWithInit(tls *libc.TLS, pCache uintptr, pgno Pgno, pPage uintptr) uintptr {
var pPgHdr uintptr
pPgHdr = (*Sqlite3_pcache_page)(unsafe.Pointer(pPage)).FpExtra
libc.X__builtin___memset_chk(tls, pPgHdr+32, 0, uint64(unsafe.Sizeof(PgHdr{}))-uint64(uintptr(0)+32), libc.X__builtin_object_size(tls, pPgHdr+32, 0))
(*PgHdr)(unsafe.Pointer(pPgHdr)).FpPage = pPage
(*PgHdr)(unsafe.Pointer(pPgHdr)).FpData = (*Sqlite3_pcache_page)(unsafe.Pointer(pPage)).FpBuf
(*PgHdr)(unsafe.Pointer(pPgHdr)).FpExtra = pPgHdr + 1*72
libc.X__builtin___memset_chk(tls, (*PgHdr)(unsafe.Pointer(pPgHdr)).FpExtra, 0, uint64(8), libc.X__builtin_object_size(tls, (*PgHdr)(unsafe.Pointer(pPgHdr)).FpExtra, 0))
(*PgHdr)(unsafe.Pointer(pPgHdr)).FpCache = pCache
(*PgHdr)(unsafe.Pointer(pPgHdr)).Fpgno = pgno
(*PgHdr)(unsafe.Pointer(pPgHdr)).Fflags = U16(PGHDR_CLEAN)
return Xsqlite3PcacheFetchFinish(tls, pCache, pgno, pPage)
}
// This routine converts the sqlite3_pcache_page object returned by
// sqlite3PcacheFetch() into an initialized PgHdr object. This routine
// must be called after sqlite3PcacheFetch() in order to get a usable
// result.
func Xsqlite3PcacheFetchFinish(tls *libc.TLS, pCache uintptr, pgno Pgno, pPage uintptr) uintptr {
var pPgHdr uintptr
pPgHdr = (*Sqlite3_pcache_page)(unsafe.Pointer(pPage)).FpExtra
if !(int32((*PgHdr)(unsafe.Pointer(pPgHdr)).FpPage) != 0) {
return pcacheFetchFinishWithInit(tls, pCache, pgno, pPage)
}
(*PCache)(unsafe.Pointer(pCache)).FnRefSum++
(*PgHdr)(unsafe.Pointer(pPgHdr)).FnRef++
return pPgHdr
}
// Decrement the reference count on a page. If the page is clean and the
// reference count drops to 0, then it is made eligible for recycling.
func Xsqlite3PcacheRelease(tls *libc.TLS, p uintptr) {
(*PCache)(unsafe.Pointer((*PgHdr)(unsafe.Pointer(p)).FpCache)).FnRefSum--
if int32(libc.PreDecInt16(&(*PgHdr)(unsafe.Pointer(p)).FnRef, 1)) == 0 {
if int32((*PgHdr)(unsafe.Pointer(p)).Fflags)&PGHDR_CLEAN != 0 {
pcacheUnpin(tls, p)
} else {
pcacheManageDirtyList(tls, p, uint8(PCACHE_DIRTYLIST_FRONT))
}
}
}
// Increase the reference count of a supplied page by 1.
func Xsqlite3PcacheRef(tls *libc.TLS, p uintptr) {
(*PgHdr)(unsafe.Pointer(p)).FnRef++
(*PCache)(unsafe.Pointer((*PgHdr)(unsafe.Pointer(p)).FpCache)).FnRefSum++
}
// Drop a page from the cache. There must be exactly one reference to the
// page. This function deletes that reference, so after it returns the
// page pointed to by p is invalid.
func Xsqlite3PcacheDrop(tls *libc.TLS, p uintptr) {
if int32((*PgHdr)(unsafe.Pointer(p)).Fflags)&PGHDR_DIRTY != 0 {
pcacheManageDirtyList(tls, p, uint8(PCACHE_DIRTYLIST_REMOVE))
}
(*PCache)(unsafe.Pointer((*PgHdr)(unsafe.Pointer(p)).FpCache)).FnRefSum--
(*struct {
f func(*libc.TLS, uintptr, uintptr, int32)
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxUnpin})).f(tls, (*PCache)(unsafe.Pointer((*PgHdr)(unsafe.Pointer(p)).FpCache)).FpCache, (*PgHdr)(unsafe.Pointer(p)).FpPage, 1)
}
// Make sure the page is marked as dirty. If it isn't dirty already,
// make it so.
func Xsqlite3PcacheMakeDirty(tls *libc.TLS, p uintptr) {
if int32((*PgHdr)(unsafe.Pointer(p)).Fflags)&(PGHDR_CLEAN|PGHDR_DONT_WRITE) != 0 {
*(*U16)(unsafe.Pointer(p + 52)) &= libc.Uint16FromInt32(libc.CplInt32(PGHDR_DONT_WRITE))
if int32((*PgHdr)(unsafe.Pointer(p)).Fflags)&PGHDR_CLEAN != 0 {
*(*U16)(unsafe.Pointer(p + 52)) ^= U16(PGHDR_DIRTY | PGHDR_CLEAN)
pcacheManageDirtyList(tls, p, uint8(PCACHE_DIRTYLIST_ADD))
}
}
}
// Make sure the page is marked as clean. If it isn't clean already,
// make it so.
func Xsqlite3PcacheMakeClean(tls *libc.TLS, p uintptr) {
pcacheManageDirtyList(tls, p, uint8(PCACHE_DIRTYLIST_REMOVE))
*(*U16)(unsafe.Pointer(p + 52)) &= libc.Uint16FromInt32(libc.CplInt32(PGHDR_DIRTY | PGHDR_NEED_SYNC | PGHDR_WRITEABLE))
*(*U16)(unsafe.Pointer(p + 52)) |= U16(PGHDR_CLEAN)
if int32((*PgHdr)(unsafe.Pointer(p)).FnRef) == 0 {
pcacheUnpin(tls, p)
}
}
// Make every page in the cache clean.
func Xsqlite3PcacheCleanAll(tls *libc.TLS, pCache uintptr) {
var p uintptr
for libc.AssignUintptr(&p, (*PCache)(unsafe.Pointer(pCache)).FpDirty) != uintptr(0) {
Xsqlite3PcacheMakeClean(tls, p)
}
}
// Clear the PGHDR_NEED_SYNC and PGHDR_WRITEABLE flag from all dirty pages.
func Xsqlite3PcacheClearWritable(tls *libc.TLS, pCache uintptr) {
var p uintptr
for p = (*PCache)(unsafe.Pointer(pCache)).FpDirty; p != 0; p = (*PgHdr)(unsafe.Pointer(p)).FpDirtyNext {
*(*U16)(unsafe.Pointer(p + 52)) &= libc.Uint16FromInt32(libc.CplInt32(PGHDR_NEED_SYNC | PGHDR_WRITEABLE))
}
(*PCache)(unsafe.Pointer(pCache)).FpSynced = (*PCache)(unsafe.Pointer(pCache)).FpDirtyTail
}
// Clear the PGHDR_NEED_SYNC flag from all dirty pages.
func Xsqlite3PcacheClearSyncFlags(tls *libc.TLS, pCache uintptr) {
var p uintptr
for p = (*PCache)(unsafe.Pointer(pCache)).FpDirty; p != 0; p = (*PgHdr)(unsafe.Pointer(p)).FpDirtyNext {
*(*U16)(unsafe.Pointer(p + 52)) &= libc.Uint16FromInt32(libc.CplInt32(PGHDR_NEED_SYNC))
}
(*PCache)(unsafe.Pointer(pCache)).FpSynced = (*PCache)(unsafe.Pointer(pCache)).FpDirtyTail
}
// Change the page number of page p to newPgno.
func Xsqlite3PcacheMove(tls *libc.TLS, p uintptr, newPgno Pgno) {
var pCache uintptr = (*PgHdr)(unsafe.Pointer(p)).FpCache
var pOther uintptr
pOther = (*struct {
f func(*libc.TLS, uintptr, uint32, int32) uintptr
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxFetch})).f(tls, (*PCache)(unsafe.Pointer(pCache)).FpCache, newPgno, 0)
if pOther != 0 {
var pXPage uintptr = (*Sqlite3_pcache_page)(unsafe.Pointer(pOther)).FpExtra
(*PgHdr)(unsafe.Pointer(pXPage)).FnRef++
(*PCache)(unsafe.Pointer(pCache)).FnRefSum++
Xsqlite3PcacheDrop(tls, pXPage)
}
(*struct {
f func(*libc.TLS, uintptr, uintptr, uint32, uint32)
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxRekey})).f(tls, (*PCache)(unsafe.Pointer(pCache)).FpCache, (*PgHdr)(unsafe.Pointer(p)).FpPage, (*PgHdr)(unsafe.Pointer(p)).Fpgno, newPgno)
(*PgHdr)(unsafe.Pointer(p)).Fpgno = newPgno
if int32((*PgHdr)(unsafe.Pointer(p)).Fflags)&PGHDR_DIRTY != 0 && int32((*PgHdr)(unsafe.Pointer(p)).Fflags)&PGHDR_NEED_SYNC != 0 {
pcacheManageDirtyList(tls, p, uint8(PCACHE_DIRTYLIST_FRONT))
}
}
// Drop every cache entry whose page number is greater than "pgno". The
// caller must ensure that there are no outstanding references to any pages
// other than page 1 with a page number greater than pgno.
//
// If there is a reference to page 1 and the pgno parameter passed to this
// function is 0, then the data area associated with page 1 is zeroed, but
// the page object is not dropped.
func Xsqlite3PcacheTruncate(tls *libc.TLS, pCache uintptr, pgno Pgno) {
if (*PCache)(unsafe.Pointer(pCache)).FpCache != 0 {
var p uintptr
var pNext uintptr
for p = (*PCache)(unsafe.Pointer(pCache)).FpDirty; p != 0; p = pNext {
pNext = (*PgHdr)(unsafe.Pointer(p)).FpDirtyNext
if (*PgHdr)(unsafe.Pointer(p)).Fpgno > pgno {
Xsqlite3PcacheMakeClean(tls, p)
}
}
if pgno == Pgno(0) && (*PCache)(unsafe.Pointer(pCache)).FnRefSum != 0 {
var pPage1 uintptr
pPage1 = (*struct {
f func(*libc.TLS, uintptr, uint32, int32) uintptr
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxFetch})).f(tls, (*PCache)(unsafe.Pointer(pCache)).FpCache, uint32(1), 0)
if pPage1 != 0 {
libc.X__builtin___memset_chk(tls, (*Sqlite3_pcache_page)(unsafe.Pointer(pPage1)).FpBuf, 0, uint64((*PCache)(unsafe.Pointer(pCache)).FszPage), libc.X__builtin_object_size(tls, (*Sqlite3_pcache_page)(unsafe.Pointer(pPage1)).FpBuf, 0))
pgno = Pgno(1)
}
}
(*struct {
f func(*libc.TLS, uintptr, uint32)
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxTruncate})).f(tls, (*PCache)(unsafe.Pointer(pCache)).FpCache, pgno+Pgno(1))
}
}
// Close a cache.
func Xsqlite3PcacheClose(tls *libc.TLS, pCache uintptr) {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxDestroy})).f(tls, (*PCache)(unsafe.Pointer(pCache)).FpCache)
}
// Discard the contents of the cache.
func Xsqlite3PcacheClear(tls *libc.TLS, pCache uintptr) {
Xsqlite3PcacheTruncate(tls, pCache, uint32(0))
}
func pcacheMergeDirtyList(tls *libc.TLS, pA uintptr, pB uintptr) uintptr {
bp := tls.Alloc(72)
defer tls.Free(72)
var pTail uintptr
pTail = bp
for {
if (*PgHdr)(unsafe.Pointer(pA)).Fpgno < (*PgHdr)(unsafe.Pointer(pB)).Fpgno {
(*PgHdr)(unsafe.Pointer(pTail)).FpDirty = pA
pTail = pA
pA = (*PgHdr)(unsafe.Pointer(pA)).FpDirty
if pA == uintptr(0) {
(*PgHdr)(unsafe.Pointer(pTail)).FpDirty = pB
break
}
} else {
(*PgHdr)(unsafe.Pointer(pTail)).FpDirty = pB
pTail = pB
pB = (*PgHdr)(unsafe.Pointer(pB)).FpDirty
if pB == uintptr(0) {
(*PgHdr)(unsafe.Pointer(pTail)).FpDirty = pA
break
}
}
}
return (*PgHdr)(unsafe.Pointer(bp)).FpDirty
}
func pcacheSortDirtyList(tls *libc.TLS, pIn uintptr) uintptr {
bp := tls.Alloc(256)
defer tls.Free(256)
var p uintptr
var i int32
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof([32]uintptr{})), libc.X__builtin_object_size(tls, bp, 0))
for pIn != 0 {
p = pIn
pIn = (*PgHdr)(unsafe.Pointer(p)).FpDirty
(*PgHdr)(unsafe.Pointer(p)).FpDirty = uintptr(0)
for i = 0; i < N_SORT_BUCKET-1; i++ {
if *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) == uintptr(0) {
*(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) = p
break
} else {
p = pcacheMergeDirtyList(tls, *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)), p)
*(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) = uintptr(0)
}
}
if i == N_SORT_BUCKET-1 {
*(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) = pcacheMergeDirtyList(tls, *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)), p)
}
}
p = *(*uintptr)(unsafe.Pointer(bp))
for i = 1; i < N_SORT_BUCKET; i++ {
if *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) == uintptr(0) {
continue
}
if p != 0 {
p = pcacheMergeDirtyList(tls, p, *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)))
} else {
p = *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8))
}
}
return p
}
// Return a list of all dirty pages in the cache, sorted by page number.
func Xsqlite3PcacheDirtyList(tls *libc.TLS, pCache uintptr) uintptr {
var p uintptr
for p = (*PCache)(unsafe.Pointer(pCache)).FpDirty; p != 0; p = (*PgHdr)(unsafe.Pointer(p)).FpDirtyNext {
(*PgHdr)(unsafe.Pointer(p)).FpDirty = (*PgHdr)(unsafe.Pointer(p)).FpDirtyNext
}
return pcacheSortDirtyList(tls, (*PCache)(unsafe.Pointer(pCache)).FpDirty)
}
// Return the total number of references to all pages held by the cache.
//
// This is not the total number of pages referenced, but the sum of the
// reference count for all pages.
func Xsqlite3PcacheRefCount(tls *libc.TLS, pCache uintptr) int32 {
return (*PCache)(unsafe.Pointer(pCache)).FnRefSum
}
// Return the number of references to the page supplied as an argument.
func Xsqlite3PcachePageRefcount(tls *libc.TLS, p uintptr) int32 {
return int32((*PgHdr)(unsafe.Pointer(p)).FnRef)
}
// Return the total number of pages in the cache.
func Xsqlite3PcachePagecount(tls *libc.TLS, pCache uintptr) int32 {
return (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxPagecount})).f(tls, (*PCache)(unsafe.Pointer(pCache)).FpCache)
}
// Set the suggested cache-size value.
func Xsqlite3PcacheSetCachesize(tls *libc.TLS, pCache uintptr, mxPage int32) {
(*PCache)(unsafe.Pointer(pCache)).FszCache = mxPage
(*struct {
f func(*libc.TLS, uintptr, int32)
})(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxCachesize})).f(tls, (*PCache)(unsafe.Pointer(pCache)).FpCache,
numberOfCachePages(tls, pCache))
}
// Set the suggested cache-spill value. Make no changes if if the
// argument is zero. Return the effective cache-spill size, which will
// be the larger of the szSpill and szCache.
func Xsqlite3PcacheSetSpillsize(tls *libc.TLS, p uintptr, mxPage int32) int32 {
var res int32
if mxPage != 0 {
if mxPage < 0 {
mxPage = int32(int64(-1024) * I64(mxPage) / I64((*PCache)(unsafe.Pointer(p)).FszPage+(*PCache)(unsafe.Pointer(p)).FszExtra))
}
(*PCache)(unsafe.Pointer(p)).FszSpill = mxPage
}
res = numberOfCachePages(tls, p)
if res < (*PCache)(unsafe.Pointer(p)).FszSpill {
res = (*PCache)(unsafe.Pointer(p)).FszSpill
}
return res
}
// Free up as much memory as possible from the page cache.
func Xsqlite3PcacheShrink(tls *libc.TLS, pCache uintptr) {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{Xsqlite3Config.Fpcache2.FxShrink})).f(tls, (*PCache)(unsafe.Pointer(pCache)).FpCache)
}
// Return the size of the header added by this middleware layer
// in the page-cache hierarchy.
func Xsqlite3HeaderSizePcache(tls *libc.TLS) int32 {
return int32((uint64(unsafe.Sizeof(PgHdr{})) + uint64(7)) & libc.Uint64FromInt32(libc.CplInt32(7)))
}
// Return the number of dirty pages currently in the cache, as a percentage
// of the configured cache size.
func Xsqlite3PCachePercentDirty(tls *libc.TLS, pCache uintptr) int32 {
var pDirty uintptr
var nDirty int32 = 0
var nCache int32 = numberOfCachePages(tls, pCache)
for pDirty = (*PCache)(unsafe.Pointer(pCache)).FpDirty; pDirty != 0; pDirty = (*PgHdr)(unsafe.Pointer(pDirty)).FpDirtyNext {
nDirty++
}
if nCache != 0 {
return int32(I64(nDirty) * int64(100) / I64(nCache))
}
return 0
}
type PCache11 = struct {
FpGroup uintptr
FpnPurgeable uintptr
FszPage int32
FszExtra int32
FszAlloc int32
FbPurgeable int32
FnMin uint32
FnMax uint32
Fn90pct uint32
FiMaxKey uint32
FnPurgeableDummy uint32
FnRecyclable uint32
FnPage uint32
FnHash uint32
FapHash uintptr
FpFree uintptr
FpBulk uintptr
}
type PCache1 = PCache11
type PgHdr11 = struct {
Fpage Sqlite3_pcache_page
FiKey uint32
FisBulkLocal U16
FisAnchor U16
FpNext uintptr
FpCache uintptr
FpLruNext uintptr
FpLruPrev uintptr
}
type PgHdr1 = PgHdr11
type PgFreeslot1 = struct{ FpNext uintptr }
type PgFreeslot = PgFreeslot1
type PGroup1 = struct {
Fmutex uintptr
FnMaxPage uint32
FnMinPage uint32
FmxPinned uint32
FnPurgeable uint32
Flru PgHdr1
}
type PGroup = PGroup1
// Global data used by this cache.
type PCacheGlobal = struct {
Fgrp PGroup
FisInit int32
FseparateCache int32
FnInitPage int32
FszSlot int32
FnSlot int32
FnReserve int32
FpStart uintptr
FpEnd uintptr
Fmutex uintptr
FpFree uintptr
FnFreeSlot int32
FbUnderPressure int32
}
var pcache1_g PCacheGlobal
// This function is called during initialization if a static buffer is
// supplied to use for the page-cache by passing the SQLITE_CONFIG_PAGECACHE
// verb to sqlite3_config(). Parameter pBuf points to an allocation large
// enough to contain 'n' buffers of 'sz' bytes each.
//
// This routine is called from sqlite3_initialize() and so it is guaranteed
// to be serialized already. There is no need for further mutexing.
func Xsqlite3PCacheBufferSetup(tls *libc.TLS, pBuf uintptr, sz int32, n int32) {
if pcache1_g.FisInit != 0 {
var p uintptr
if pBuf == uintptr(0) {
sz = libc.AssignInt32(&n, 0)
}
if n == 0 {
sz = 0
}
sz = sz & libc.CplInt32(7)
pcache1_g.FszSlot = sz
pcache1_g.FnSlot = libc.AssignPtrInt32(uintptr(unsafe.Pointer(&pcache1_g))+136, n)
pcache1_g.FnReserve = func() int32 {
if n > 90 {
return 10
}
return n/10 + 1
}()
pcache1_g.FpStart = pBuf
pcache1_g.FpFree = uintptr(0)
pcache1_g.FbUnderPressure = 0
for libc.PostDecInt32(&n, 1) != 0 {
p = pBuf
(*PgFreeslot)(unsafe.Pointer(p)).FpNext = pcache1_g.FpFree
pcache1_g.FpFree = p
pBuf = pBuf + uintptr(sz)
}
pcache1_g.FpEnd = pBuf
}
}
func pcache1InitBulk(tls *libc.TLS, pCache uintptr) int32 {
var szBulk I64
var zBulk uintptr
if pcache1_g.FnInitPage == 0 {
return 0
}
if (*PCache1)(unsafe.Pointer(pCache)).FnMax < uint32(3) {
return 0
}
Xsqlite3BeginBenignMalloc(tls)
if pcache1_g.FnInitPage > 0 {
szBulk = I64((*PCache1)(unsafe.Pointer(pCache)).FszAlloc) * I64(pcache1_g.FnInitPage)
} else {
szBulk = int64(-1024) * I64(pcache1_g.FnInitPage)
}
if szBulk > I64((*PCache1)(unsafe.Pointer(pCache)).FszAlloc)*I64((*PCache1)(unsafe.Pointer(pCache)).FnMax) {
szBulk = I64((*PCache1)(unsafe.Pointer(pCache)).FszAlloc) * I64((*PCache1)(unsafe.Pointer(pCache)).FnMax)
}
zBulk = libc.AssignPtrUintptr(pCache+80, Xsqlite3Malloc(tls, uint64(szBulk)))
Xsqlite3EndBenignMalloc(tls)
if zBulk != 0 {
var nBulk int32 = Xsqlite3MallocSize(tls, zBulk) / (*PCache1)(unsafe.Pointer(pCache)).FszAlloc
for __ccgo := true; __ccgo; __ccgo = libc.PreDecInt32(&nBulk, 1) != 0 {
var pX uintptr = zBulk + uintptr((*PCache1)(unsafe.Pointer(pCache)).FszPage)
(*PgHdr1)(unsafe.Pointer(pX)).Fpage.FpBuf = zBulk
(*PgHdr1)(unsafe.Pointer(pX)).Fpage.FpExtra = pX + 1*56
(*PgHdr1)(unsafe.Pointer(pX)).FisBulkLocal = U16(1)
(*PgHdr1)(unsafe.Pointer(pX)).FisAnchor = U16(0)
(*PgHdr1)(unsafe.Pointer(pX)).FpNext = (*PCache1)(unsafe.Pointer(pCache)).FpFree
(*PgHdr1)(unsafe.Pointer(pX)).FpLruPrev = uintptr(0)
(*PCache1)(unsafe.Pointer(pCache)).FpFree = pX
zBulk += uintptr((*PCache1)(unsafe.Pointer(pCache)).FszAlloc)
}
}
return libc.Bool32((*PCache1)(unsafe.Pointer(pCache)).FpFree != uintptr(0))
}
func pcache1Alloc(tls *libc.TLS, nByte int32) uintptr {
var p uintptr = uintptr(0)
if nByte <= pcache1_g.FszSlot {
Xsqlite3_mutex_enter(tls, pcache1_g.Fmutex)
p = pcache1_g.FpFree
if p != 0 {
pcache1_g.FpFree = (*PgFreeslot)(unsafe.Pointer(pcache1_g.FpFree)).FpNext
pcache1_g.FnFreeSlot--
pcache1_g.FbUnderPressure = libc.Bool32(pcache1_g.FnFreeSlot < pcache1_g.FnReserve)
Xsqlite3StatusHighwater(tls, SQLITE_STATUS_PAGECACHE_SIZE, nByte)
Xsqlite3StatusUp(tls, SQLITE_STATUS_PAGECACHE_USED, 1)
}
Xsqlite3_mutex_leave(tls, pcache1_g.Fmutex)
}
if p == uintptr(0) {
p = Xsqlite3Malloc(tls, uint64(nByte))
if p != 0 {
var sz int32 = Xsqlite3MallocSize(tls, p)
Xsqlite3_mutex_enter(tls, pcache1_g.Fmutex)
Xsqlite3StatusHighwater(tls, SQLITE_STATUS_PAGECACHE_SIZE, nByte)
Xsqlite3StatusUp(tls, SQLITE_STATUS_PAGECACHE_OVERFLOW, sz)
Xsqlite3_mutex_leave(tls, pcache1_g.Fmutex)
}
}
return p
}
func pcache1Free(tls *libc.TLS, p uintptr) {
if p == uintptr(0) {
return
}
if Uptr(p) >= Uptr(pcache1_g.FpStart) && Uptr(p) < Uptr(pcache1_g.FpEnd) {
var pSlot uintptr
Xsqlite3_mutex_enter(tls, pcache1_g.Fmutex)
Xsqlite3StatusDown(tls, SQLITE_STATUS_PAGECACHE_USED, 1)
pSlot = p
(*PgFreeslot)(unsafe.Pointer(pSlot)).FpNext = pcache1_g.FpFree
pcache1_g.FpFree = pSlot
pcache1_g.FnFreeSlot++
pcache1_g.FbUnderPressure = libc.Bool32(pcache1_g.FnFreeSlot < pcache1_g.FnReserve)
Xsqlite3_mutex_leave(tls, pcache1_g.Fmutex)
} else {
{
var nFreed int32 = 0
nFreed = Xsqlite3MallocSize(tls, p)
Xsqlite3_mutex_enter(tls, pcache1_g.Fmutex)
Xsqlite3StatusDown(tls, SQLITE_STATUS_PAGECACHE_OVERFLOW, nFreed)
Xsqlite3_mutex_leave(tls, pcache1_g.Fmutex)
}
Xsqlite3_free(tls, p)
}
}
func pcache1MemSize(tls *libc.TLS, p uintptr) int32 {
if p >= pcache1_g.FpStart && p < pcache1_g.FpEnd {
return pcache1_g.FszSlot
} else {
var iSize int32
iSize = Xsqlite3MallocSize(tls, p)
return iSize
}
return int32(0)
}
func pcache1AllocPage(tls *libc.TLS, pCache uintptr, benignMalloc int32) uintptr {
var p uintptr = uintptr(0)
var pPg uintptr
if (*PCache1)(unsafe.Pointer(pCache)).FpFree != 0 || (*PCache1)(unsafe.Pointer(pCache)).FnPage == uint32(0) && pcache1InitBulk(tls, pCache) != 0 {
p = (*PCache1)(unsafe.Pointer(pCache)).FpFree
(*PCache1)(unsafe.Pointer(pCache)).FpFree = (*PgHdr1)(unsafe.Pointer(p)).FpNext
(*PgHdr1)(unsafe.Pointer(p)).FpNext = uintptr(0)
} else {
Xsqlite3_mutex_leave(tls, (*PGroup)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FpGroup)).Fmutex)
if benignMalloc != 0 {
Xsqlite3BeginBenignMalloc(tls)
}
pPg = pcache1Alloc(tls, (*PCache1)(unsafe.Pointer(pCache)).FszAlloc)
if benignMalloc != 0 {
Xsqlite3EndBenignMalloc(tls)
}
Xsqlite3_mutex_enter(tls, (*PGroup)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FpGroup)).Fmutex)
if pPg == uintptr(0) {
return uintptr(0)
}
p = pPg + uintptr((*PCache1)(unsafe.Pointer(pCache)).FszPage)
(*PgHdr1)(unsafe.Pointer(p)).Fpage.FpBuf = pPg
(*PgHdr1)(unsafe.Pointer(p)).Fpage.FpExtra = p + 1*56
(*PgHdr1)(unsafe.Pointer(p)).FisBulkLocal = U16(0)
(*PgHdr1)(unsafe.Pointer(p)).FisAnchor = U16(0)
(*PgHdr1)(unsafe.Pointer(p)).FpLruPrev = uintptr(0)
}
*(*uint32)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FpnPurgeable))++
return p
}
func pcache1FreePage(tls *libc.TLS, p uintptr) {
var pCache uintptr
pCache = (*PgHdr1)(unsafe.Pointer(p)).FpCache
if (*PgHdr1)(unsafe.Pointer(p)).FisBulkLocal != 0 {
(*PgHdr1)(unsafe.Pointer(p)).FpNext = (*PCache1)(unsafe.Pointer(pCache)).FpFree
(*PCache1)(unsafe.Pointer(pCache)).FpFree = p
} else {
pcache1Free(tls, (*PgHdr1)(unsafe.Pointer(p)).Fpage.FpBuf)
}
*(*uint32)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FpnPurgeable))--
}
// Malloc function used by SQLite to obtain space from the buffer configured
// using sqlite3_config(SQLITE_CONFIG_PAGECACHE) option. If no such buffer
// exists, this function falls back to sqlite3Malloc().
func Xsqlite3PageMalloc(tls *libc.TLS, sz int32) uintptr {
return pcache1Alloc(tls, sz)
}
// Free an allocated buffer obtained from sqlite3PageMalloc().
func Xsqlite3PageFree(tls *libc.TLS, p uintptr) {
pcache1Free(tls, p)
}
func pcache1UnderMemoryPressure(tls *libc.TLS, pCache uintptr) int32 {
if pcache1_g.FnSlot != 0 && (*PCache1)(unsafe.Pointer(pCache)).FszPage+(*PCache1)(unsafe.Pointer(pCache)).FszExtra <= pcache1_g.FszSlot {
return pcache1_g.FbUnderPressure
} else {
return Xsqlite3HeapNearlyFull(tls)
}
return int32(0)
}
func pcache1ResizeHash(tls *libc.TLS, p uintptr) {
var apNew uintptr
var nNew uint32
var i uint32
nNew = (*PCache1)(unsafe.Pointer(p)).FnHash * uint32(2)
if nNew < uint32(256) {
nNew = uint32(256)
}
Xsqlite3_mutex_leave(tls, (*PGroup)(unsafe.Pointer((*PCache1)(unsafe.Pointer(p)).FpGroup)).Fmutex)
if (*PCache1)(unsafe.Pointer(p)).FnHash != 0 {
Xsqlite3BeginBenignMalloc(tls)
}
apNew = Xsqlite3MallocZero(tls, uint64(unsafe.Sizeof(uintptr(0)))*uint64(nNew))
if (*PCache1)(unsafe.Pointer(p)).FnHash != 0 {
Xsqlite3EndBenignMalloc(tls)
}
Xsqlite3_mutex_enter(tls, (*PGroup)(unsafe.Pointer((*PCache1)(unsafe.Pointer(p)).FpGroup)).Fmutex)
if apNew != 0 {
for i = uint32(0); i < (*PCache1)(unsafe.Pointer(p)).FnHash; i++ {
var pPage uintptr
var pNext uintptr = *(*uintptr)(unsafe.Pointer((*PCache1)(unsafe.Pointer(p)).FapHash + uintptr(i)*8))
for libc.AssignUintptr(&pPage, pNext) != uintptr(0) {
var h uint32 = (*PgHdr1)(unsafe.Pointer(pPage)).FiKey % nNew
pNext = (*PgHdr1)(unsafe.Pointer(pPage)).FpNext
(*PgHdr1)(unsafe.Pointer(pPage)).FpNext = *(*uintptr)(unsafe.Pointer(apNew + uintptr(h)*8))
*(*uintptr)(unsafe.Pointer(apNew + uintptr(h)*8)) = pPage
}
}
Xsqlite3_free(tls, (*PCache1)(unsafe.Pointer(p)).FapHash)
(*PCache1)(unsafe.Pointer(p)).FapHash = apNew
(*PCache1)(unsafe.Pointer(p)).FnHash = nNew
}
}
func pcache1PinPage(tls *libc.TLS, pPage uintptr) uintptr {
(*PgHdr1)(unsafe.Pointer((*PgHdr1)(unsafe.Pointer(pPage)).FpLruPrev)).FpLruNext = (*PgHdr1)(unsafe.Pointer(pPage)).FpLruNext
(*PgHdr1)(unsafe.Pointer((*PgHdr1)(unsafe.Pointer(pPage)).FpLruNext)).FpLruPrev = (*PgHdr1)(unsafe.Pointer(pPage)).FpLruPrev
(*PgHdr1)(unsafe.Pointer(pPage)).FpLruNext = uintptr(0)
(*PCache1)(unsafe.Pointer((*PgHdr1)(unsafe.Pointer(pPage)).FpCache)).FnRecyclable--
return pPage
}
func pcache1RemoveFromHash(tls *libc.TLS, pPage uintptr, freeFlag int32) {
var h uint32
var pCache uintptr = (*PgHdr1)(unsafe.Pointer(pPage)).FpCache
var pp uintptr
h = (*PgHdr1)(unsafe.Pointer(pPage)).FiKey % (*PCache1)(unsafe.Pointer(pCache)).FnHash
for pp = (*PCache1)(unsafe.Pointer(pCache)).FapHash + uintptr(h)*8; *(*uintptr)(unsafe.Pointer(pp)) != pPage; pp = *(*uintptr)(unsafe.Pointer(pp)) + 24 {
}
*(*uintptr)(unsafe.Pointer(pp)) = (*PgHdr1)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).FpNext
(*PCache1)(unsafe.Pointer(pCache)).FnPage--
if freeFlag != 0 {
pcache1FreePage(tls, pPage)
}
}
func pcache1EnforceMaxPage(tls *libc.TLS, pCache uintptr) {
var pGroup uintptr = (*PCache1)(unsafe.Pointer(pCache)).FpGroup
var p uintptr
for (*PGroup)(unsafe.Pointer(pGroup)).FnPurgeable > (*PGroup)(unsafe.Pointer(pGroup)).FnMaxPage &&
int32((*PgHdr1)(unsafe.Pointer(libc.AssignUintptr(&p, (*PGroup)(unsafe.Pointer(pGroup)).Flru.FpLruPrev))).FisAnchor) == 0 {
pcache1PinPage(tls, p)
pcache1RemoveFromHash(tls, p, 1)
}
if (*PCache1)(unsafe.Pointer(pCache)).FnPage == uint32(0) && (*PCache1)(unsafe.Pointer(pCache)).FpBulk != 0 {
Xsqlite3_free(tls, (*PCache1)(unsafe.Pointer(pCache)).FpBulk)
(*PCache1)(unsafe.Pointer(pCache)).FpBulk = libc.AssignPtrUintptr(pCache+72, uintptr(0))
}
}
func pcache1TruncateUnsafe(tls *libc.TLS, pCache uintptr, iLimit uint32) {
var h uint32
var iStop uint32
if (*PCache1)(unsafe.Pointer(pCache)).FiMaxKey-iLimit < (*PCache1)(unsafe.Pointer(pCache)).FnHash {
h = iLimit % (*PCache1)(unsafe.Pointer(pCache)).FnHash
iStop = (*PCache1)(unsafe.Pointer(pCache)).FiMaxKey % (*PCache1)(unsafe.Pointer(pCache)).FnHash
} else {
h = (*PCache1)(unsafe.Pointer(pCache)).FnHash / uint32(2)
iStop = h - uint32(1)
}
for {
var pp uintptr
var pPage uintptr
pp = (*PCache1)(unsafe.Pointer(pCache)).FapHash + uintptr(h)*8
for libc.AssignUintptr(&pPage, *(*uintptr)(unsafe.Pointer(pp))) != uintptr(0) {
if (*PgHdr1)(unsafe.Pointer(pPage)).FiKey >= iLimit {
(*PCache1)(unsafe.Pointer(pCache)).FnPage--
*(*uintptr)(unsafe.Pointer(pp)) = (*PgHdr1)(unsafe.Pointer(pPage)).FpNext
if (*PgHdr1)(unsafe.Pointer(pPage)).FpLruNext != uintptr(0) {
pcache1PinPage(tls, pPage)
}
pcache1FreePage(tls, pPage)
} else {
pp = pPage + 24
}
}
if h == iStop {
break
}
h = (h + uint32(1)) % (*PCache1)(unsafe.Pointer(pCache)).FnHash
}
}
func pcache1Init(tls *libc.TLS, NotUsed uintptr) int32 {
_ = NotUsed
libc.X__builtin___memset_chk(tls, uintptr(unsafe.Pointer(&pcache1_g)), 0, uint64(unsafe.Sizeof(pcache1_g)), libc.X__builtin_object_size(tls, uintptr(unsafe.Pointer(&pcache1_g)), 0))
pcache1_g.FseparateCache = 0
if Xsqlite3Config.FbCoreMutex != 0 {
pcache1_g.Fgrp.Fmutex = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_LRU)
pcache1_g.Fmutex = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_PMEM)
}
if pcache1_g.FseparateCache != 0 &&
Xsqlite3Config.FnPage != 0 &&
Xsqlite3Config.FpPage == uintptr(0) {
pcache1_g.FnInitPage = Xsqlite3Config.FnPage
} else {
pcache1_g.FnInitPage = 0
}
pcache1_g.Fgrp.FmxPinned = uint32(10)
pcache1_g.FisInit = 1
return SQLITE_OK
}
func pcache1Shutdown(tls *libc.TLS, NotUsed uintptr) {
_ = NotUsed
libc.X__builtin___memset_chk(tls, uintptr(unsafe.Pointer(&pcache1_g)), 0, uint64(unsafe.Sizeof(pcache1_g)), libc.X__builtin_object_size(tls, uintptr(unsafe.Pointer(&pcache1_g)), 0))
}
func pcache1Create(tls *libc.TLS, szPage int32, szExtra int32, bPurgeable int32) uintptr {
var pCache uintptr
var pGroup uintptr
var sz int32
sz = int32(uint64(unsafe.Sizeof(PCache1{})) + uint64(unsafe.Sizeof(PGroup{}))*uint64(pcache1_g.FseparateCache))
pCache = Xsqlite3MallocZero(tls, uint64(sz))
if pCache != 0 {
if pcache1_g.FseparateCache != 0 {
pGroup = pCache + 1*88
(*PGroup)(unsafe.Pointer(pGroup)).FmxPinned = uint32(10)
} else {
pGroup = uintptr(unsafe.Pointer(&pcache1_g))
}
Xsqlite3_mutex_enter(tls, (*PGroup)(unsafe.Pointer(pGroup)).Fmutex)
if int32((*PGroup)(unsafe.Pointer(pGroup)).Flru.FisAnchor) == 0 {
(*PGroup)(unsafe.Pointer(pGroup)).Flru.FisAnchor = U16(1)
(*PGroup)(unsafe.Pointer(pGroup)).Flru.FpLruPrev = libc.AssignPtrUintptr(pGroup+24+40, pGroup+24)
}
(*PCache1)(unsafe.Pointer(pCache)).FpGroup = pGroup
(*PCache1)(unsafe.Pointer(pCache)).FszPage = szPage
(*PCache1)(unsafe.Pointer(pCache)).FszExtra = szExtra
(*PCache1)(unsafe.Pointer(pCache)).FszAlloc = int32(uint64(szPage+szExtra) + (uint64(unsafe.Sizeof(PgHdr1{}))+uint64(7))&libc.Uint64FromInt32(libc.CplInt32(7)))
(*PCache1)(unsafe.Pointer(pCache)).FbPurgeable = func() int32 {
if bPurgeable != 0 {
return 1
}
return 0
}()
pcache1ResizeHash(tls, pCache)
if bPurgeable != 0 {
(*PCache1)(unsafe.Pointer(pCache)).FnMin = uint32(10)
*(*uint32)(unsafe.Pointer(pGroup + 12)) += (*PCache1)(unsafe.Pointer(pCache)).FnMin
(*PGroup)(unsafe.Pointer(pGroup)).FmxPinned = (*PGroup)(unsafe.Pointer(pGroup)).FnMaxPage + uint32(10) - (*PGroup)(unsafe.Pointer(pGroup)).FnMinPage
(*PCache1)(unsafe.Pointer(pCache)).FpnPurgeable = pGroup + 20
} else {
(*PCache1)(unsafe.Pointer(pCache)).FpnPurgeable = pCache + 48
}
Xsqlite3_mutex_leave(tls, (*PGroup)(unsafe.Pointer(pGroup)).Fmutex)
if (*PCache1)(unsafe.Pointer(pCache)).FnHash == uint32(0) {
pcache1Destroy(tls, pCache)
pCache = uintptr(0)
}
}
return pCache
}
func pcache1Cachesize(tls *libc.TLS, p uintptr, nMax int32) {
var pCache uintptr = p
var n U32
if (*PCache1)(unsafe.Pointer(pCache)).FbPurgeable != 0 {
var pGroup uintptr = (*PCache1)(unsafe.Pointer(pCache)).FpGroup
Xsqlite3_mutex_enter(tls, (*PGroup)(unsafe.Pointer(pGroup)).Fmutex)
n = U32(nMax)
if n > uint32(0x7fff0000)-(*PGroup)(unsafe.Pointer(pGroup)).FnMaxPage+(*PCache1)(unsafe.Pointer(pCache)).FnMax {
n = uint32(0x7fff0000) - (*PGroup)(unsafe.Pointer(pGroup)).FnMaxPage + (*PCache1)(unsafe.Pointer(pCache)).FnMax
}
*(*uint32)(unsafe.Pointer(pGroup + 8)) += n - (*PCache1)(unsafe.Pointer(pCache)).FnMax
(*PGroup)(unsafe.Pointer(pGroup)).FmxPinned = (*PGroup)(unsafe.Pointer(pGroup)).FnMaxPage + uint32(10) - (*PGroup)(unsafe.Pointer(pGroup)).FnMinPage
(*PCache1)(unsafe.Pointer(pCache)).FnMax = n
(*PCache1)(unsafe.Pointer(pCache)).Fn90pct = (*PCache1)(unsafe.Pointer(pCache)).FnMax * uint32(9) / uint32(10)
pcache1EnforceMaxPage(tls, pCache)
Xsqlite3_mutex_leave(tls, (*PGroup)(unsafe.Pointer(pGroup)).Fmutex)
}
}
func pcache1Shrink(tls *libc.TLS, p uintptr) {
var pCache uintptr = p
if (*PCache1)(unsafe.Pointer(pCache)).FbPurgeable != 0 {
var pGroup uintptr = (*PCache1)(unsafe.Pointer(pCache)).FpGroup
var savedMaxPage uint32
Xsqlite3_mutex_enter(tls, (*PGroup)(unsafe.Pointer(pGroup)).Fmutex)
savedMaxPage = (*PGroup)(unsafe.Pointer(pGroup)).FnMaxPage
(*PGroup)(unsafe.Pointer(pGroup)).FnMaxPage = uint32(0)
pcache1EnforceMaxPage(tls, pCache)
(*PGroup)(unsafe.Pointer(pGroup)).FnMaxPage = savedMaxPage
Xsqlite3_mutex_leave(tls, (*PGroup)(unsafe.Pointer(pGroup)).Fmutex)
}
}
func pcache1Pagecount(tls *libc.TLS, p uintptr) int32 {
var n int32
var pCache uintptr = p
Xsqlite3_mutex_enter(tls, (*PGroup)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FpGroup)).Fmutex)
n = int32((*PCache1)(unsafe.Pointer(pCache)).FnPage)
Xsqlite3_mutex_leave(tls, (*PGroup)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FpGroup)).Fmutex)
return n
}
func pcache1FetchStage2(tls *libc.TLS, pCache uintptr, iKey uint32, createFlag int32) uintptr {
var nPinned uint32
var pGroup uintptr = (*PCache1)(unsafe.Pointer(pCache)).FpGroup
var pPage uintptr = uintptr(0)
nPinned = (*PCache1)(unsafe.Pointer(pCache)).FnPage - (*PCache1)(unsafe.Pointer(pCache)).FnRecyclable
if createFlag == 1 && (nPinned >= (*PGroup)(unsafe.Pointer(pGroup)).FmxPinned ||
nPinned >= (*PCache1)(unsafe.Pointer(pCache)).Fn90pct ||
pcache1UnderMemoryPressure(tls, pCache) != 0 && (*PCache1)(unsafe.Pointer(pCache)).FnRecyclable < nPinned) {
return uintptr(0)
}
if (*PCache1)(unsafe.Pointer(pCache)).FnPage >= (*PCache1)(unsafe.Pointer(pCache)).FnHash {
pcache1ResizeHash(tls, pCache)
}
if (*PCache1)(unsafe.Pointer(pCache)).FbPurgeable != 0 &&
!(int32((*PgHdr1)(unsafe.Pointer((*PGroup)(unsafe.Pointer(pGroup)).Flru.FpLruPrev)).FisAnchor) != 0) &&
((*PCache1)(unsafe.Pointer(pCache)).FnPage+uint32(1) >= (*PCache1)(unsafe.Pointer(pCache)).FnMax || pcache1UnderMemoryPressure(tls, pCache) != 0) {
var pOther uintptr
pPage = (*PGroup)(unsafe.Pointer(pGroup)).Flru.FpLruPrev
pcache1RemoveFromHash(tls, pPage, 0)
pcache1PinPage(tls, pPage)
pOther = (*PgHdr1)(unsafe.Pointer(pPage)).FpCache
if (*PCache1)(unsafe.Pointer(pOther)).FszAlloc != (*PCache1)(unsafe.Pointer(pCache)).FszAlloc {
pcache1FreePage(tls, pPage)
pPage = uintptr(0)
} else {
*(*uint32)(unsafe.Pointer(pGroup + 20)) -= uint32((*PCache1)(unsafe.Pointer(pOther)).FbPurgeable - (*PCache1)(unsafe.Pointer(pCache)).FbPurgeable)
}
}
if !(pPage != 0) {
pPage = pcache1AllocPage(tls, pCache, libc.Bool32(createFlag == 1))
}
if pPage != 0 {
var h uint32 = iKey % (*PCache1)(unsafe.Pointer(pCache)).FnHash
(*PCache1)(unsafe.Pointer(pCache)).FnPage++
(*PgHdr1)(unsafe.Pointer(pPage)).FiKey = iKey
(*PgHdr1)(unsafe.Pointer(pPage)).FpNext = *(*uintptr)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FapHash + uintptr(h)*8))
(*PgHdr1)(unsafe.Pointer(pPage)).FpCache = pCache
(*PgHdr1)(unsafe.Pointer(pPage)).FpLruNext = uintptr(0)
*(*uintptr)(unsafe.Pointer((*PgHdr1)(unsafe.Pointer(pPage)).Fpage.FpExtra)) = uintptr(0)
*(*uintptr)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FapHash + uintptr(h)*8)) = pPage
if iKey > (*PCache1)(unsafe.Pointer(pCache)).FiMaxKey {
(*PCache1)(unsafe.Pointer(pCache)).FiMaxKey = iKey
}
}
return pPage
}
func pcache1FetchNoMutex(tls *libc.TLS, p uintptr, iKey uint32, createFlag int32) uintptr {
var pCache uintptr = p
var pPage uintptr = uintptr(0)
pPage = *(*uintptr)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FapHash + uintptr(iKey%(*PCache1)(unsafe.Pointer(pCache)).FnHash)*8))
for pPage != 0 && (*PgHdr1)(unsafe.Pointer(pPage)).FiKey != iKey {
pPage = (*PgHdr1)(unsafe.Pointer(pPage)).FpNext
}
if pPage != 0 {
if (*PgHdr1)(unsafe.Pointer(pPage)).FpLruNext != uintptr(0) {
return pcache1PinPage(tls, pPage)
} else {
return pPage
}
} else if createFlag != 0 {
return pcache1FetchStage2(tls, pCache, iKey, createFlag)
} else {
return uintptr(0)
}
return uintptr(0)
}
func pcache1FetchWithMutex(tls *libc.TLS, p uintptr, iKey uint32, createFlag int32) uintptr {
var pCache uintptr = p
var pPage uintptr
Xsqlite3_mutex_enter(tls, (*PGroup)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FpGroup)).Fmutex)
pPage = pcache1FetchNoMutex(tls, p, iKey, createFlag)
Xsqlite3_mutex_leave(tls, (*PGroup)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FpGroup)).Fmutex)
return pPage
}
func pcache1Fetch(tls *libc.TLS, p uintptr, iKey uint32, createFlag int32) uintptr {
var pCache uintptr = p
if (*PGroup)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FpGroup)).Fmutex != 0 {
return pcache1FetchWithMutex(tls, p, iKey, createFlag)
} else {
return pcache1FetchNoMutex(tls, p, iKey, createFlag)
}
return uintptr(0)
}
func pcache1Unpin(tls *libc.TLS, p uintptr, pPg uintptr, reuseUnlikely int32) {
var pCache uintptr = p
var pPage uintptr = pPg
var pGroup uintptr = (*PCache1)(unsafe.Pointer(pCache)).FpGroup
Xsqlite3_mutex_enter(tls, (*PGroup)(unsafe.Pointer(pGroup)).Fmutex)
if reuseUnlikely != 0 || (*PGroup)(unsafe.Pointer(pGroup)).FnPurgeable > (*PGroup)(unsafe.Pointer(pGroup)).FnMaxPage {
pcache1RemoveFromHash(tls, pPage, 1)
} else {
var ppFirst uintptr = pGroup + 24 + 40
(*PgHdr1)(unsafe.Pointer(pPage)).FpLruPrev = pGroup + 24
(*PgHdr1)(unsafe.Pointer(libc.AssignPtrUintptr(pPage+40, *(*uintptr)(unsafe.Pointer(ppFirst))))).FpLruPrev = pPage
*(*uintptr)(unsafe.Pointer(ppFirst)) = pPage
(*PCache1)(unsafe.Pointer(pCache)).FnRecyclable++
}
Xsqlite3_mutex_leave(tls, (*PGroup)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FpGroup)).Fmutex)
}
func pcache1Rekey(tls *libc.TLS, p uintptr, pPg uintptr, iOld uint32, iNew uint32) {
var pCache uintptr = p
var pPage uintptr = pPg
var pp uintptr
var hOld uint32
var hNew uint32
Xsqlite3_mutex_enter(tls, (*PGroup)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FpGroup)).Fmutex)
hOld = iOld % (*PCache1)(unsafe.Pointer(pCache)).FnHash
pp = (*PCache1)(unsafe.Pointer(pCache)).FapHash + uintptr(hOld)*8
for *(*uintptr)(unsafe.Pointer(pp)) != pPage {
pp = *(*uintptr)(unsafe.Pointer(pp)) + 24
}
*(*uintptr)(unsafe.Pointer(pp)) = (*PgHdr1)(unsafe.Pointer(pPage)).FpNext
hNew = iNew % (*PCache1)(unsafe.Pointer(pCache)).FnHash
(*PgHdr1)(unsafe.Pointer(pPage)).FiKey = iNew
(*PgHdr1)(unsafe.Pointer(pPage)).FpNext = *(*uintptr)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FapHash + uintptr(hNew)*8))
*(*uintptr)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FapHash + uintptr(hNew)*8)) = pPage
if iNew > (*PCache1)(unsafe.Pointer(pCache)).FiMaxKey {
(*PCache1)(unsafe.Pointer(pCache)).FiMaxKey = iNew
}
Xsqlite3_mutex_leave(tls, (*PGroup)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FpGroup)).Fmutex)
}
func pcache1Truncate(tls *libc.TLS, p uintptr, iLimit uint32) {
var pCache uintptr = p
Xsqlite3_mutex_enter(tls, (*PGroup)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FpGroup)).Fmutex)
if iLimit <= (*PCache1)(unsafe.Pointer(pCache)).FiMaxKey {
pcache1TruncateUnsafe(tls, pCache, iLimit)
(*PCache1)(unsafe.Pointer(pCache)).FiMaxKey = iLimit - uint32(1)
}
Xsqlite3_mutex_leave(tls, (*PGroup)(unsafe.Pointer((*PCache1)(unsafe.Pointer(pCache)).FpGroup)).Fmutex)
}
func pcache1Destroy(tls *libc.TLS, p uintptr) {
var pCache uintptr = p
var pGroup uintptr = (*PCache1)(unsafe.Pointer(pCache)).FpGroup
Xsqlite3_mutex_enter(tls, (*PGroup)(unsafe.Pointer(pGroup)).Fmutex)
if (*PCache1)(unsafe.Pointer(pCache)).FnPage != 0 {
pcache1TruncateUnsafe(tls, pCache, uint32(0))
}
*(*uint32)(unsafe.Pointer(pGroup + 8)) -= (*PCache1)(unsafe.Pointer(pCache)).FnMax
*(*uint32)(unsafe.Pointer(pGroup + 12)) -= (*PCache1)(unsafe.Pointer(pCache)).FnMin
(*PGroup)(unsafe.Pointer(pGroup)).FmxPinned = (*PGroup)(unsafe.Pointer(pGroup)).FnMaxPage + uint32(10) - (*PGroup)(unsafe.Pointer(pGroup)).FnMinPage
pcache1EnforceMaxPage(tls, pCache)
Xsqlite3_mutex_leave(tls, (*PGroup)(unsafe.Pointer(pGroup)).Fmutex)
Xsqlite3_free(tls, (*PCache1)(unsafe.Pointer(pCache)).FpBulk)
Xsqlite3_free(tls, (*PCache1)(unsafe.Pointer(pCache)).FapHash)
Xsqlite3_free(tls, pCache)
}
// This function is called during initialization (sqlite3_initialize()) to
// install the default pluggable cache module, assuming the user has not
// already provided an alternative.
func Xsqlite3PCacheSetDefault(tls *libc.TLS) {
bp := tls.Alloc(8)
defer tls.Free(8)
Xsqlite3_config(tls, SQLITE_CONFIG_PCACHE2, libc.VaList(bp, uintptr(unsafe.Pointer(&defaultMethods1))))
}
var defaultMethods1 = Sqlite3_pcache_methods2{
FiVersion: 1,
FxInit: 0,
FxShutdown: 0,
FxCreate: 0,
FxCachesize: 0,
FxPagecount: 0,
FxFetch: 0,
FxUnpin: 0,
FxRekey: 0,
FxTruncate: 0,
FxDestroy: 0,
FxShrink: 0,
}
// Return the size of the header on each page of this PCACHE implementation.
func Xsqlite3HeaderSizePcache1(tls *libc.TLS) int32 {
return int32((uint64(unsafe.Sizeof(PgHdr1{})) + uint64(7)) & libc.Uint64FromInt32(libc.CplInt32(7)))
}
// Return the global mutex used by this PCACHE implementation. The
// sqlite3_status() routine needs access to this mutex.
func Xsqlite3Pcache1Mutex(tls *libc.TLS) uintptr {
return pcache1_g.Fmutex
}
// This function is called to free superfluous dynamically allocated memory
// held by the pager system. Memory in use by any SQLite pager allocated
// by the current thread may be sqlite3_free()ed.
//
// nReq is the number of bytes of memory required. Once this much has
// been released, the function returns. The return value is the total number
// of bytes of memory released.
func Xsqlite3PcacheReleaseMemory(tls *libc.TLS, nReq int32) int32 {
var nFree int32 = 0
if Xsqlite3Config.FpPage == uintptr(0) {
var p uintptr
Xsqlite3_mutex_enter(tls, (*PGroup)(unsafe.Pointer(uintptr(unsafe.Pointer(&pcache1_g)))).Fmutex)
for (nReq < 0 || nFree < nReq) &&
libc.AssignUintptr(&p, pcache1_g.Fgrp.Flru.FpLruPrev) != uintptr(0) &&
int32((*PgHdr1)(unsafe.Pointer(p)).FisAnchor) == 0 {
nFree = nFree + pcache1MemSize(tls, (*PgHdr1)(unsafe.Pointer(p)).Fpage.FpBuf)
pcache1PinPage(tls, p)
pcache1RemoveFromHash(tls, p, 1)
}
Xsqlite3_mutex_leave(tls, (*PGroup)(unsafe.Pointer(uintptr(unsafe.Pointer(&pcache1_g)))).Fmutex)
}
return nFree
}
// Each entry in a RowSet is an instance of the following object.
//
// This same object is reused to store a linked list of trees of RowSetEntry
// objects. In that alternative use, pRight points to the next entry
// in the list, pLeft points to the tree, and v is unused. The
// RowSet.pForest value points to the head of this forest list.
type RowSetEntry = struct {
Fv I64
FpRight uintptr
FpLeft uintptr
}
// RowSetEntry objects are allocated in large chunks (instances of the
// following structure) to reduce memory allocation overhead. The
// chunks are kept on a linked list so that they can be deallocated
// when the RowSet is destroyed.
type RowSetChunk = struct {
FpNextChunk uintptr
FaEntry [42]struct {
Fv I64
FpRight uintptr
FpLeft uintptr
}
}
// Allocate a RowSet object. Return NULL if a memory allocation
// error occurs.
func Xsqlite3RowSetInit(tls *libc.TLS, db uintptr) uintptr {
var p uintptr = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(RowSet{})))
if p != 0 {
var N int32 = Xsqlite3DbMallocSize(tls, db, p)
(*RowSet)(unsafe.Pointer(p)).FpChunk = uintptr(0)
(*RowSet)(unsafe.Pointer(p)).Fdb = db
(*RowSet)(unsafe.Pointer(p)).FpEntry = uintptr(0)
(*RowSet)(unsafe.Pointer(p)).FpLast = uintptr(0)
(*RowSet)(unsafe.Pointer(p)).FpForest = uintptr(0)
(*RowSet)(unsafe.Pointer(p)).FpFresh = uintptr((uint64(unsafe.Sizeof(RowSet{}))+uint64(7))&libc.Uint64FromInt32(libc.CplInt32(7))) + p
(*RowSet)(unsafe.Pointer(p)).FnFresh = U16((uint64(N) - (uint64(unsafe.Sizeof(RowSet{}))+uint64(7))&libc.Uint64FromInt32(libc.CplInt32(7))) / uint64(unsafe.Sizeof(RowSetEntry{})))
(*RowSet)(unsafe.Pointer(p)).FrsFlags = U16(ROWSET_SORTED)
(*RowSet)(unsafe.Pointer(p)).FiBatch = 0
}
return p
}
// Deallocate all chunks from a RowSet. This frees all memory that
// the RowSet has allocated over its lifetime. This routine is
// the destructor for the RowSet.
func Xsqlite3RowSetClear(tls *libc.TLS, pArg uintptr) {
var p uintptr = pArg
var pChunk uintptr
var pNextChunk uintptr
for pChunk = (*RowSet)(unsafe.Pointer(p)).FpChunk; pChunk != 0; pChunk = pNextChunk {
pNextChunk = (*RowSetChunk)(unsafe.Pointer(pChunk)).FpNextChunk
Xsqlite3DbFree(tls, (*RowSet)(unsafe.Pointer(p)).Fdb, pChunk)
}
(*RowSet)(unsafe.Pointer(p)).FpChunk = uintptr(0)
(*RowSet)(unsafe.Pointer(p)).FnFresh = U16(0)
(*RowSet)(unsafe.Pointer(p)).FpEntry = uintptr(0)
(*RowSet)(unsafe.Pointer(p)).FpLast = uintptr(0)
(*RowSet)(unsafe.Pointer(p)).FpForest = uintptr(0)
(*RowSet)(unsafe.Pointer(p)).FrsFlags = U16(ROWSET_SORTED)
}
// Deallocate all chunks from a RowSet. This frees all memory that
// the RowSet has allocated over its lifetime. This routine is
// the destructor for the RowSet.
func Xsqlite3RowSetDelete(tls *libc.TLS, pArg uintptr) {
Xsqlite3RowSetClear(tls, pArg)
Xsqlite3DbFree(tls, (*RowSet)(unsafe.Pointer(pArg)).Fdb, pArg)
}
func rowSetEntryAlloc(tls *libc.TLS, p uintptr) uintptr {
if int32((*RowSet)(unsafe.Pointer(p)).FnFresh) == 0 {
var pNew uintptr
pNew = Xsqlite3DbMallocRawNN(tls, (*RowSet)(unsafe.Pointer(p)).Fdb, uint64(unsafe.Sizeof(RowSetChunk{})))
if pNew == uintptr(0) {
return uintptr(0)
}
(*RowSetChunk)(unsafe.Pointer(pNew)).FpNextChunk = (*RowSet)(unsafe.Pointer(p)).FpChunk
(*RowSet)(unsafe.Pointer(p)).FpChunk = pNew
(*RowSet)(unsafe.Pointer(p)).FpFresh = pNew + 8
(*RowSet)(unsafe.Pointer(p)).FnFresh = uint16(uint64(ROWSET_ALLOCATION_SIZE-8) / uint64(unsafe.Sizeof(RowSetEntry{})))
}
(*RowSet)(unsafe.Pointer(p)).FnFresh--
return libc.PostIncUintptr(&(*RowSet)(unsafe.Pointer(p)).FpFresh, 24)
}
// Insert a new value into a RowSet.
//
// The mallocFailed flag of the database connection is set if a
// memory allocation fails.
func Xsqlite3RowSetInsert(tls *libc.TLS, p uintptr, rowid I64) {
var pEntry uintptr
var pLast uintptr
pEntry = rowSetEntryAlloc(tls, p)
if pEntry == uintptr(0) {
return
}
(*RowSetEntry)(unsafe.Pointer(pEntry)).Fv = rowid
(*RowSetEntry)(unsafe.Pointer(pEntry)).FpRight = uintptr(0)
pLast = (*RowSet)(unsafe.Pointer(p)).FpLast
if pLast != 0 {
if rowid <= (*RowSetEntry)(unsafe.Pointer(pLast)).Fv {
*(*U16)(unsafe.Pointer(p + 50)) &= libc.Uint16FromInt32(libc.CplInt32(ROWSET_SORTED))
}
(*RowSetEntry)(unsafe.Pointer(pLast)).FpRight = pEntry
} else {
(*RowSet)(unsafe.Pointer(p)).FpEntry = pEntry
}
(*RowSet)(unsafe.Pointer(p)).FpLast = pEntry
}
func rowSetEntryMerge(tls *libc.TLS, pA uintptr, pB uintptr) uintptr {
bp := tls.Alloc(24)
defer tls.Free(24)
var pTail uintptr
pTail = bp
for {
if (*RowSetEntry)(unsafe.Pointer(pA)).Fv <= (*RowSetEntry)(unsafe.Pointer(pB)).Fv {
if (*RowSetEntry)(unsafe.Pointer(pA)).Fv < (*RowSetEntry)(unsafe.Pointer(pB)).Fv {
pTail = libc.AssignPtrUintptr(pTail+8, pA)
}
pA = (*RowSetEntry)(unsafe.Pointer(pA)).FpRight
if pA == uintptr(0) {
(*RowSetEntry)(unsafe.Pointer(pTail)).FpRight = pB
break
}
} else {
pTail = libc.AssignPtrUintptr(pTail+8, pB)
pB = (*RowSetEntry)(unsafe.Pointer(pB)).FpRight
if pB == uintptr(0) {
(*RowSetEntry)(unsafe.Pointer(pTail)).FpRight = pA
break
}
}
}
return (*RowSetEntry)(unsafe.Pointer(bp)).FpRight
}
func rowSetEntrySort(tls *libc.TLS, pIn uintptr) uintptr {
bp := tls.Alloc(320)
defer tls.Free(320)
var i uint32
var pNext uintptr
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof([40]uintptr{})), libc.X__builtin_object_size(tls, bp, 0))
for pIn != 0 {
pNext = (*RowSetEntry)(unsafe.Pointer(pIn)).FpRight
(*RowSetEntry)(unsafe.Pointer(pIn)).FpRight = uintptr(0)
for i = uint32(0); *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) != 0; i++ {
pIn = rowSetEntryMerge(tls, *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)), pIn)
*(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) = uintptr(0)
}
*(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) = pIn
pIn = pNext
}
pIn = *(*uintptr)(unsafe.Pointer(bp))
for i = uint32(1); uint64(i) < uint64(unsafe.Sizeof([40]uintptr{}))/uint64(unsafe.Sizeof(uintptr(0))); i++ {
if *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) == uintptr(0) {
continue
}
if pIn != 0 {
pIn = rowSetEntryMerge(tls, pIn, *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)))
} else {
pIn = *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8))
}
}
return pIn
}
func rowSetTreeToList(tls *libc.TLS, pIn uintptr, ppFirst uintptr, ppLast uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
if (*RowSetEntry)(unsafe.Pointer(pIn)).FpLeft != 0 {
rowSetTreeToList(tls, (*RowSetEntry)(unsafe.Pointer(pIn)).FpLeft, ppFirst, bp)
(*RowSetEntry)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpRight = pIn
} else {
*(*uintptr)(unsafe.Pointer(ppFirst)) = pIn
}
if (*RowSetEntry)(unsafe.Pointer(pIn)).FpRight != 0 {
rowSetTreeToList(tls, (*RowSetEntry)(unsafe.Pointer(pIn)).FpRight, pIn+8, ppLast)
} else {
*(*uintptr)(unsafe.Pointer(ppLast)) = pIn
}
}
func rowSetNDeepTree(tls *libc.TLS, ppList uintptr, iDepth int32) uintptr {
var p uintptr
var pLeft uintptr
if *(*uintptr)(unsafe.Pointer(ppList)) == uintptr(0) {
return uintptr(0)
}
if iDepth > 1 {
pLeft = rowSetNDeepTree(tls, ppList, iDepth-1)
p = *(*uintptr)(unsafe.Pointer(ppList))
if p == uintptr(0) {
return pLeft
}
(*RowSetEntry)(unsafe.Pointer(p)).FpLeft = pLeft
*(*uintptr)(unsafe.Pointer(ppList)) = (*RowSetEntry)(unsafe.Pointer(p)).FpRight
(*RowSetEntry)(unsafe.Pointer(p)).FpRight = rowSetNDeepTree(tls, ppList, iDepth-1)
} else {
p = *(*uintptr)(unsafe.Pointer(ppList))
*(*uintptr)(unsafe.Pointer(ppList)) = (*RowSetEntry)(unsafe.Pointer(p)).FpRight
(*RowSetEntry)(unsafe.Pointer(p)).FpLeft = libc.AssignPtrUintptr(p+8, uintptr(0))
}
return p
}
func rowSetListToTree(tls *libc.TLS, pList uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = pList
var iDepth int32
var p uintptr
var pLeft uintptr
p = *(*uintptr)(unsafe.Pointer(bp))
*(*uintptr)(unsafe.Pointer(bp)) = (*RowSetEntry)(unsafe.Pointer(p)).FpRight
(*RowSetEntry)(unsafe.Pointer(p)).FpLeft = libc.AssignPtrUintptr(p+8, uintptr(0))
for iDepth = 1; *(*uintptr)(unsafe.Pointer(bp)) != 0; iDepth++ {
pLeft = p
p = *(*uintptr)(unsafe.Pointer(bp))
*(*uintptr)(unsafe.Pointer(bp)) = (*RowSetEntry)(unsafe.Pointer(p)).FpRight
(*RowSetEntry)(unsafe.Pointer(p)).FpLeft = pLeft
(*RowSetEntry)(unsafe.Pointer(p)).FpRight = rowSetNDeepTree(tls, bp, iDepth)
}
return p
}
// Extract the smallest element from the RowSet.
// Write the element into *pRowid. Return 1 on success. Return
// 0 if the RowSet is already empty.
//
// After this routine has been called, the sqlite3RowSetInsert()
// routine may not be called again.
//
// This routine may not be called after sqlite3RowSetTest() has
// been used. Older versions of RowSet allowed that, but as the
// capability was not used by the code generator, it was removed
// for code economy.
func Xsqlite3RowSetNext(tls *libc.TLS, p uintptr, pRowid uintptr) int32 {
if int32((*RowSet)(unsafe.Pointer(p)).FrsFlags)&ROWSET_NEXT == 0 {
if int32((*RowSet)(unsafe.Pointer(p)).FrsFlags)&ROWSET_SORTED == 0 {
(*RowSet)(unsafe.Pointer(p)).FpEntry = rowSetEntrySort(tls, (*RowSet)(unsafe.Pointer(p)).FpEntry)
}
*(*U16)(unsafe.Pointer(p + 50)) |= U16(ROWSET_SORTED | ROWSET_NEXT)
}
if (*RowSet)(unsafe.Pointer(p)).FpEntry != 0 {
*(*I64)(unsafe.Pointer(pRowid)) = (*RowSetEntry)(unsafe.Pointer((*RowSet)(unsafe.Pointer(p)).FpEntry)).Fv
(*RowSet)(unsafe.Pointer(p)).FpEntry = (*RowSetEntry)(unsafe.Pointer((*RowSet)(unsafe.Pointer(p)).FpEntry)).FpRight
if (*RowSet)(unsafe.Pointer(p)).FpEntry == uintptr(0) {
Xsqlite3RowSetClear(tls, p)
}
return 1
} else {
return 0
}
return int32(0)
}
// Check to see if element iRowid was inserted into the rowset as
// part of any insert batch prior to iBatch. Return 1 or 0.
//
// If this is the first test of a new batch and if there exist entries
// on pRowSet->pEntry, then sort those entries into the forest at
// pRowSet->pForest so that they can be tested.
func Xsqlite3RowSetTest(tls *libc.TLS, pRowSet uintptr, iBatch int32, iRowid Sqlite3_int64) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var p uintptr
var pTree uintptr
if iBatch != (*RowSet)(unsafe.Pointer(pRowSet)).FiBatch {
p = (*RowSet)(unsafe.Pointer(pRowSet)).FpEntry
if p != 0 {
var ppPrevTree uintptr = pRowSet + 40
if int32((*RowSet)(unsafe.Pointer(pRowSet)).FrsFlags)&ROWSET_SORTED == 0 {
p = rowSetEntrySort(tls, p)
}
for pTree = (*RowSet)(unsafe.Pointer(pRowSet)).FpForest; pTree != 0; pTree = (*RowSetEntry)(unsafe.Pointer(pTree)).FpRight {
ppPrevTree = pTree + 8
if (*RowSetEntry)(unsafe.Pointer(pTree)).FpLeft == uintptr(0) {
(*RowSetEntry)(unsafe.Pointer(pTree)).FpLeft = rowSetListToTree(tls, p)
break
} else {
rowSetTreeToList(tls, (*RowSetEntry)(unsafe.Pointer(pTree)).FpLeft, bp, bp+8)
(*RowSetEntry)(unsafe.Pointer(pTree)).FpLeft = uintptr(0)
p = rowSetEntryMerge(tls, *(*uintptr)(unsafe.Pointer(bp)), p)
}
}
if pTree == uintptr(0) {
*(*uintptr)(unsafe.Pointer(ppPrevTree)) = libc.AssignUintptr(&pTree, rowSetEntryAlloc(tls, pRowSet))
if pTree != 0 {
(*RowSetEntry)(unsafe.Pointer(pTree)).Fv = int64(0)
(*RowSetEntry)(unsafe.Pointer(pTree)).FpRight = uintptr(0)
(*RowSetEntry)(unsafe.Pointer(pTree)).FpLeft = rowSetListToTree(tls, p)
}
}
(*RowSet)(unsafe.Pointer(pRowSet)).FpEntry = uintptr(0)
(*RowSet)(unsafe.Pointer(pRowSet)).FpLast = uintptr(0)
*(*U16)(unsafe.Pointer(pRowSet + 50)) |= U16(ROWSET_SORTED)
}
(*RowSet)(unsafe.Pointer(pRowSet)).FiBatch = iBatch
}
for pTree = (*RowSet)(unsafe.Pointer(pRowSet)).FpForest; pTree != 0; pTree = (*RowSetEntry)(unsafe.Pointer(pTree)).FpRight {
p = (*RowSetEntry)(unsafe.Pointer(pTree)).FpLeft
for p != 0 {
if (*RowSetEntry)(unsafe.Pointer(p)).Fv < iRowid {
p = (*RowSetEntry)(unsafe.Pointer(p)).FpRight
} else if (*RowSetEntry)(unsafe.Pointer(p)).Fv > iRowid {
p = (*RowSetEntry)(unsafe.Pointer(p)).FpLeft
} else {
return 1
}
}
}
return 0
}
// Connection to a write-ahead log (WAL) file.
// There is one object of this type for each pager.
type Wal1 = struct {
FpVfs uintptr
FpDbFd uintptr
FpWalFd uintptr
FiCallback U32
F__ccgo_pad1 [4]byte
FmxWalSize I64
FnWiData int32
FszFirstBlock int32
FapWiData uintptr
FszPage U32
FreadLock I16
FsyncFlags U8
FexclusiveMode U8
FwriteLock U8
FckptLock U8
FreadOnly U8
FtruncateOnCommit U8
FsyncHeader U8
FpadToSectorBoundary U8
FbShmUnreliable U8
F__ccgo_pad2 [1]byte
Fhdr WalIndexHdr
FminFrame U32
FiReCksum U32
FzWalName uintptr
FnCkpt U32
F__ccgo_pad3 [4]byte
FpSnapshot uintptr
}
// Connection to a write-ahead log (WAL) file.
// There is one object of this type for each pager.
type Wal = Wal1
// An instance of the following structure is allocated for each active
// savepoint and statement transaction in the system. All such structures
// are stored in the Pager.aSavepoint[] array, which is allocated and
// resized using sqlite3Realloc().
//
// When a savepoint is created, the PagerSavepoint.iHdrOffset field is
// set to 0. If a journal-header is written into the main journal while
// the savepoint is active, then iHdrOffset is set to the byte offset
// immediately following the last journal record written into the main
// journal before the journal-header. This is required during savepoint
// rollback (see pagerPlaybackSavepoint()).
type PagerSavepoint1 = struct {
FiOffset I64
FiHdrOffset I64
FpInSavepoint uintptr
FnOrig Pgno
FiSubRec Pgno
FbTruncateOnRelease int32
FaWalData [4]U32
F__ccgo_pad1 [4]byte
}
// An instance of the following structure is allocated for each active
// savepoint and statement transaction in the system. All such structures
// are stored in the Pager.aSavepoint[] array, which is allocated and
// resized using sqlite3Realloc().
//
// When a savepoint is created, the PagerSavepoint.iHdrOffset field is
// set to 0. If a journal-header is written into the main journal while
// the savepoint is active, then iHdrOffset is set to the byte offset
// immediately following the last journal record written into the main
// journal before the journal-header. This is required during savepoint
// rollback (see pagerPlaybackSavepoint()).
type PagerSavepoint = PagerSavepoint1
var aJournalMagic = [8]uint8{
uint8(0xd9), uint8(0xd5), uint8(0x05), uint8(0xf9), uint8(0x20), uint8(0xa1), uint8(0x63), uint8(0xd7),
}
func setGetterMethod(tls *libc.TLS, pPager uintptr) {
if (*Pager)(unsafe.Pointer(pPager)).FerrCode != 0 {
(*Pager)(unsafe.Pointer(pPager)).FxGet = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, Pgno, uintptr, int32) int32
}{getPageError}))
} else if (*Pager)(unsafe.Pointer(pPager)).FbUseFetch != 0 {
(*Pager)(unsafe.Pointer(pPager)).FxGet = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, Pgno, uintptr, int32) int32
}{getPageMMap}))
} else {
(*Pager)(unsafe.Pointer(pPager)).FxGet = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, Pgno, uintptr, int32) int32
}{getPageNormal}))
}
}
func subjRequiresPage(tls *libc.TLS, pPg uintptr) int32 {
var pPager uintptr = (*PgHdr)(unsafe.Pointer(pPg)).FpPager
var p uintptr
var pgno Pgno = (*PgHdr)(unsafe.Pointer(pPg)).Fpgno
var i int32
for i = 0; i < (*Pager)(unsafe.Pointer(pPager)).FnSavepoint; i++ {
p = (*Pager)(unsafe.Pointer(pPager)).FaSavepoint + uintptr(i)*56
if (*PagerSavepoint)(unsafe.Pointer(p)).FnOrig >= pgno && 0 == Xsqlite3BitvecTestNotNull(tls, (*PagerSavepoint)(unsafe.Pointer(p)).FpInSavepoint, pgno) {
for i = i + 1; i < (*Pager)(unsafe.Pointer(pPager)).FnSavepoint; i++ {
(*PagerSavepoint)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).FaSavepoint + uintptr(i)*56)).FbTruncateOnRelease = 0
}
return 1
}
}
return 0
}
func read32bits(tls *libc.TLS, fd uintptr, offset I64, pRes uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32 = Xsqlite3OsRead(tls, fd, bp, int32(unsafe.Sizeof([4]uint8{})), offset)
if rc == SQLITE_OK {
*(*U32)(unsafe.Pointer(pRes)) = Xsqlite3Get4byte(tls, bp)
}
return rc
}
func write32bits(tls *libc.TLS, fd uintptr, offset I64, val U32) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
Xsqlite3Put4byte(tls, bp, val)
return Xsqlite3OsWrite(tls, fd, bp, 4, offset)
}
func pagerUnlockDb(tls *libc.TLS, pPager uintptr, eLock int32) int32 {
var rc int32 = SQLITE_OK
if (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Ffd)).FpMethods != uintptr(0) {
if (*Pager)(unsafe.Pointer(pPager)).FnoLock != 0 {
rc = SQLITE_OK
} else {
rc = Xsqlite3OsUnlock(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, eLock)
}
if int32((*Pager)(unsafe.Pointer(pPager)).FeLock) != EXCLUSIVE_LOCK+1 {
(*Pager)(unsafe.Pointer(pPager)).FeLock = U8(eLock)
}
}
(*Pager)(unsafe.Pointer(pPager)).FchangeCountDone = (*Pager)(unsafe.Pointer(pPager)).FtempFile
return rc
}
func pagerLockDb(tls *libc.TLS, pPager uintptr, eLock int32) int32 {
var rc int32 = SQLITE_OK
if int32((*Pager)(unsafe.Pointer(pPager)).FeLock) < eLock || int32((*Pager)(unsafe.Pointer(pPager)).FeLock) == EXCLUSIVE_LOCK+1 {
if (*Pager)(unsafe.Pointer(pPager)).FnoLock != 0 {
rc = SQLITE_OK
} else {
rc = Xsqlite3OsLock(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, eLock)
}
if rc == SQLITE_OK && (int32((*Pager)(unsafe.Pointer(pPager)).FeLock) != EXCLUSIVE_LOCK+1 || eLock == EXCLUSIVE_LOCK) {
(*Pager)(unsafe.Pointer(pPager)).FeLock = U8(eLock)
}
}
return rc
}
func jrnlBufferSize(tls *libc.TLS, pPager uintptr) int32 {
_ = pPager
return 0
}
func readSuperJournal(tls *libc.TLS, pJrnl uintptr, zSuper uintptr, nSuper U32) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var rc int32
var u U32
*(*int8)(unsafe.Pointer(zSuper)) = int8(0)
if SQLITE_OK != libc.AssignInt32(&rc, Xsqlite3OsFileSize(tls, pJrnl, bp)) ||
*(*I64)(unsafe.Pointer(bp)) < int64(16) ||
SQLITE_OK != libc.AssignInt32(&rc, read32bits(tls, pJrnl, *(*I64)(unsafe.Pointer(bp))-int64(16), bp+8)) ||
*(*U32)(unsafe.Pointer(bp + 8)) >= nSuper ||
I64(*(*U32)(unsafe.Pointer(bp + 8))) > *(*I64)(unsafe.Pointer(bp))-int64(16) ||
*(*U32)(unsafe.Pointer(bp + 8)) == U32(0) ||
SQLITE_OK != libc.AssignInt32(&rc, read32bits(tls, pJrnl, *(*I64)(unsafe.Pointer(bp))-int64(12), bp+12)) ||
SQLITE_OK != libc.AssignInt32(&rc, Xsqlite3OsRead(tls, pJrnl, bp+16, 8, *(*I64)(unsafe.Pointer(bp))-int64(8))) ||
libc.Xmemcmp(tls, bp+16, uintptr(unsafe.Pointer(&aJournalMagic)), uint64(8)) != 0 ||
SQLITE_OK != libc.AssignInt32(&rc, Xsqlite3OsRead(tls, pJrnl, zSuper, int32(*(*U32)(unsafe.Pointer(bp + 8))), *(*I64)(unsafe.Pointer(bp))-int64(16)-I64(*(*U32)(unsafe.Pointer(bp + 8))))) {
return rc
}
for u = U32(0); u < *(*U32)(unsafe.Pointer(bp + 8)); u++ {
*(*U32)(unsafe.Pointer(bp + 12)) -= U32(*(*int8)(unsafe.Pointer(zSuper + uintptr(u))))
}
if *(*U32)(unsafe.Pointer(bp + 12)) != 0 {
*(*U32)(unsafe.Pointer(bp + 8)) = U32(0)
}
*(*int8)(unsafe.Pointer(zSuper + uintptr(*(*U32)(unsafe.Pointer(bp + 8))))) = int8(0)
*(*int8)(unsafe.Pointer(zSuper + uintptr(*(*U32)(unsafe.Pointer(bp + 8))+U32(1)))) = int8(0)
return SQLITE_OK
}
func journalHdrOffset(tls *libc.TLS, pPager uintptr) I64 {
var offset I64 = int64(0)
var c I64 = (*Pager)(unsafe.Pointer(pPager)).FjournalOff
if c != 0 {
offset = ((c-int64(1))/I64((*Pager)(unsafe.Pointer(pPager)).FsectorSize) + int64(1)) * I64((*Pager)(unsafe.Pointer(pPager)).FsectorSize)
}
return offset
}
func zeroJournalHdr(tls *libc.TLS, pPager uintptr, doTruncate int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
if (*Pager)(unsafe.Pointer(pPager)).FjournalOff != 0 {
var iLimit I64 = (*Pager)(unsafe.Pointer(pPager)).FjournalSizeLimit
if doTruncate != 0 || iLimit == int64(0) {
rc = Xsqlite3OsTruncate(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, int64(0))
} else {
rc = Xsqlite3OsWrite(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, uintptr(unsafe.Pointer(&zeroHdr)), int32(unsafe.Sizeof(zeroHdr)), int64(0))
}
if rc == SQLITE_OK && !(int32((*Pager)(unsafe.Pointer(pPager)).FnoSync) != 0) {
rc = Xsqlite3OsSync(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, SQLITE_SYNC_DATAONLY|int32((*Pager)(unsafe.Pointer(pPager)).FsyncFlags))
}
if rc == SQLITE_OK && iLimit > int64(0) {
rc = Xsqlite3OsFileSize(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, bp)
if rc == SQLITE_OK && *(*I64)(unsafe.Pointer(bp)) > iLimit {
rc = Xsqlite3OsTruncate(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, iLimit)
}
}
}
return rc
}
var zeroHdr = [28]int8{0: int8(0)}
func writeJournalHdr(tls *libc.TLS, pPager uintptr) int32 {
var rc int32 = SQLITE_OK
var zHeader uintptr = (*Pager)(unsafe.Pointer(pPager)).FpTmpSpace
var nHeader U32 = U32((*Pager)(unsafe.Pointer(pPager)).FpageSize)
var nWrite U32
var ii int32
if nHeader > (*Pager)(unsafe.Pointer(pPager)).FsectorSize {
nHeader = (*Pager)(unsafe.Pointer(pPager)).FsectorSize
}
for ii = 0; ii < (*Pager)(unsafe.Pointer(pPager)).FnSavepoint; ii++ {
if (*PagerSavepoint)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).FaSavepoint+uintptr(ii)*56)).FiHdrOffset == int64(0) {
(*PagerSavepoint)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).FaSavepoint + uintptr(ii)*56)).FiHdrOffset = (*Pager)(unsafe.Pointer(pPager)).FjournalOff
}
}
(*Pager)(unsafe.Pointer(pPager)).FjournalHdr = libc.AssignPtrInt64(pPager+96, journalHdrOffset(tls, pPager))
if (*Pager)(unsafe.Pointer(pPager)).FnoSync != 0 || int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode) == PAGER_JOURNALMODE_MEMORY ||
Xsqlite3OsDeviceCharacteristics(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd)&SQLITE_IOCAP_SAFE_APPEND != 0 {
libc.X__builtin___memcpy_chk(tls, zHeader, uintptr(unsafe.Pointer(&aJournalMagic)), uint64(unsafe.Sizeof(aJournalMagic)), libc.X__builtin_object_size(tls, zHeader, 0))
Xsqlite3Put4byte(tls, zHeader+8, 0xffffffff)
} else {
libc.X__builtin___memset_chk(tls, zHeader, 0, uint64(unsafe.Sizeof(aJournalMagic))+uint64(4), libc.X__builtin_object_size(tls, zHeader, 0))
}
Xsqlite3_randomness(tls, int32(unsafe.Sizeof(U32(0))), pPager+56)
Xsqlite3Put4byte(tls, zHeader+12, (*Pager)(unsafe.Pointer(pPager)).FcksumInit)
Xsqlite3Put4byte(tls, zHeader+16, (*Pager)(unsafe.Pointer(pPager)).FdbOrigSize)
Xsqlite3Put4byte(tls, zHeader+20, (*Pager)(unsafe.Pointer(pPager)).FsectorSize)
Xsqlite3Put4byte(tls, zHeader+24, uint32((*Pager)(unsafe.Pointer(pPager)).FpageSize))
libc.X__builtin___memset_chk(tls, zHeader+28, 0, uint64(nHeader)-(uint64(unsafe.Sizeof(aJournalMagic))+uint64(20)), libc.X__builtin_object_size(tls, zHeader+28, 0))
for nWrite = U32(0); rc == SQLITE_OK && nWrite < (*Pager)(unsafe.Pointer(pPager)).FsectorSize; nWrite = nWrite + nHeader {
rc = Xsqlite3OsWrite(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, zHeader, int32(nHeader), (*Pager)(unsafe.Pointer(pPager)).FjournalOff)
*(*I64)(unsafe.Pointer(pPager + 96)) += I64(nHeader)
}
return rc
}
func readJournalHdr(tls *libc.TLS, pPager uintptr, isHot int32, journalSize I64, pNRec uintptr, pDbSize uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var rc int32
var iHdrOff I64
(*Pager)(unsafe.Pointer(pPager)).FjournalOff = journalHdrOffset(tls, pPager)
if (*Pager)(unsafe.Pointer(pPager)).FjournalOff+I64((*Pager)(unsafe.Pointer(pPager)).FsectorSize) > journalSize {
return SQLITE_DONE
}
iHdrOff = (*Pager)(unsafe.Pointer(pPager)).FjournalOff
if isHot != 0 || iHdrOff != (*Pager)(unsafe.Pointer(pPager)).FjournalHdr {
rc = Xsqlite3OsRead(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, bp, int32(unsafe.Sizeof([8]uint8{})), iHdrOff)
if rc != 0 {
return rc
}
if libc.Xmemcmp(tls, bp, uintptr(unsafe.Pointer(&aJournalMagic)), uint64(unsafe.Sizeof([8]uint8{}))) != 0 {
return SQLITE_DONE
}
}
if SQLITE_OK != libc.AssignInt32(&rc, read32bits(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, iHdrOff+int64(8), pNRec)) ||
SQLITE_OK != libc.AssignInt32(&rc, read32bits(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, iHdrOff+int64(12), pPager+56)) ||
SQLITE_OK != libc.AssignInt32(&rc, read32bits(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, iHdrOff+int64(16), pDbSize)) {
return rc
}
if (*Pager)(unsafe.Pointer(pPager)).FjournalOff == int64(0) {
if SQLITE_OK != libc.AssignInt32(&rc, read32bits(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, iHdrOff+int64(20), bp+8)) ||
SQLITE_OK != libc.AssignInt32(&rc, read32bits(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, iHdrOff+int64(24), bp+12)) {
return rc
}
if *(*U32)(unsafe.Pointer(bp + 12)) == U32(0) {
*(*U32)(unsafe.Pointer(bp + 12)) = U32((*Pager)(unsafe.Pointer(pPager)).FpageSize)
}
if *(*U32)(unsafe.Pointer(bp + 12)) < U32(512) || *(*U32)(unsafe.Pointer(bp + 8)) < U32(32) ||
*(*U32)(unsafe.Pointer(bp + 12)) > U32(SQLITE_MAX_PAGE_SIZE) || *(*U32)(unsafe.Pointer(bp + 8)) > U32(MAX_SECTOR_SIZE) ||
(*(*U32)(unsafe.Pointer(bp + 12))-U32(1))&*(*U32)(unsafe.Pointer(bp + 12)) != U32(0) || (*(*U32)(unsafe.Pointer(bp + 8))-U32(1))&*(*U32)(unsafe.Pointer(bp + 8)) != U32(0) {
return SQLITE_DONE
}
rc = Xsqlite3PagerSetPagesize(tls, pPager, bp+12, -1)
(*Pager)(unsafe.Pointer(pPager)).FsectorSize = *(*U32)(unsafe.Pointer(bp + 8))
}
*(*I64)(unsafe.Pointer(pPager + 96)) += I64((*Pager)(unsafe.Pointer(pPager)).FsectorSize)
return rc
}
func writeSuperJournal(tls *libc.TLS, pPager uintptr, zSuper uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
var nSuper int32
var iHdrOff I64
var cksum U32 = U32(0)
if !(zSuper != 0) ||
int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode) == PAGER_JOURNALMODE_MEMORY ||
!((*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fjfd)).FpMethods != uintptr(0)) {
return SQLITE_OK
}
(*Pager)(unsafe.Pointer(pPager)).FsetSuper = U8(1)
for nSuper = 0; *(*int8)(unsafe.Pointer(zSuper + uintptr(nSuper))) != 0; nSuper++ {
cksum = cksum + U32(*(*int8)(unsafe.Pointer(zSuper + uintptr(nSuper))))
}
if (*Pager)(unsafe.Pointer(pPager)).FfullSync != 0 {
(*Pager)(unsafe.Pointer(pPager)).FjournalOff = journalHdrOffset(tls, pPager)
}
iHdrOff = (*Pager)(unsafe.Pointer(pPager)).FjournalOff
if 0 != libc.AssignInt32(&rc, write32bits(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, iHdrOff, (*Pager)(unsafe.Pointer(pPager)).FlckPgno)) ||
0 != libc.AssignInt32(&rc, Xsqlite3OsWrite(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, zSuper, nSuper, iHdrOff+int64(4))) ||
0 != libc.AssignInt32(&rc, write32bits(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, iHdrOff+int64(4)+I64(nSuper), uint32(nSuper))) ||
0 != libc.AssignInt32(&rc, write32bits(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, iHdrOff+int64(4)+I64(nSuper)+int64(4), cksum)) ||
0 != libc.AssignInt32(&rc, Xsqlite3OsWrite(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, uintptr(unsafe.Pointer(&aJournalMagic)), 8,
iHdrOff+int64(4)+I64(nSuper)+int64(8))) {
return rc
}
*(*I64)(unsafe.Pointer(pPager + 96)) += I64(nSuper + 20)
if SQLITE_OK == libc.AssignInt32(&rc, Xsqlite3OsFileSize(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, bp)) &&
*(*I64)(unsafe.Pointer(bp)) > (*Pager)(unsafe.Pointer(pPager)).FjournalOff {
rc = Xsqlite3OsTruncate(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, (*Pager)(unsafe.Pointer(pPager)).FjournalOff)
}
return rc
}
func pager_reset(tls *libc.TLS, pPager uintptr) {
(*Pager)(unsafe.Pointer(pPager)).FiDataVersion++
Xsqlite3BackupRestart(tls, (*Pager)(unsafe.Pointer(pPager)).FpBackup)
Xsqlite3PcacheClear(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache)
}
// Return the pPager->iDataVersion value
func Xsqlite3PagerDataVersion(tls *libc.TLS, pPager uintptr) U32 {
return (*Pager)(unsafe.Pointer(pPager)).FiDataVersion
}
func releaseAllSavepoints(tls *libc.TLS, pPager uintptr) {
var ii int32
for ii = 0; ii < (*Pager)(unsafe.Pointer(pPager)).FnSavepoint; ii++ {
Xsqlite3BitvecDestroy(tls, (*PagerSavepoint)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).FaSavepoint+uintptr(ii)*56)).FpInSavepoint)
}
if !(int32((*Pager)(unsafe.Pointer(pPager)).FexclusiveMode) != 0) || Xsqlite3JournalIsInMemory(tls, (*Pager)(unsafe.Pointer(pPager)).Fsjfd) != 0 {
Xsqlite3OsClose(tls, (*Pager)(unsafe.Pointer(pPager)).Fsjfd)
}
Xsqlite3_free(tls, (*Pager)(unsafe.Pointer(pPager)).FaSavepoint)
(*Pager)(unsafe.Pointer(pPager)).FaSavepoint = uintptr(0)
(*Pager)(unsafe.Pointer(pPager)).FnSavepoint = 0
(*Pager)(unsafe.Pointer(pPager)).FnSubRec = U32(0)
}
func addToSavepointBitvecs(tls *libc.TLS, pPager uintptr, pgno Pgno) int32 {
var ii int32
var rc int32 = SQLITE_OK
for ii = 0; ii < (*Pager)(unsafe.Pointer(pPager)).FnSavepoint; ii++ {
var p uintptr = (*Pager)(unsafe.Pointer(pPager)).FaSavepoint + uintptr(ii)*56
if pgno <= (*PagerSavepoint)(unsafe.Pointer(p)).FnOrig {
rc = rc | Xsqlite3BitvecSet(tls, (*PagerSavepoint)(unsafe.Pointer(p)).FpInSavepoint, pgno)
}
}
return rc
}
func pager_unlock(tls *libc.TLS, pPager uintptr) {
Xsqlite3BitvecDestroy(tls, (*Pager)(unsafe.Pointer(pPager)).FpInJournal)
(*Pager)(unsafe.Pointer(pPager)).FpInJournal = uintptr(0)
releaseAllSavepoints(tls, pPager)
if (*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0) {
Xsqlite3WalEndReadTransaction(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal)
(*Pager)(unsafe.Pointer(pPager)).FeState = U8(PAGER_OPEN)
} else if !(int32((*Pager)(unsafe.Pointer(pPager)).FexclusiveMode) != 0) {
var rc int32
var iDc int32
if (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Ffd)).FpMethods != uintptr(0) {
iDc = Xsqlite3OsDeviceCharacteristics(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd)
} else {
iDc = 0
}
if 0 == iDc&SQLITE_IOCAP_UNDELETABLE_WHEN_OPEN ||
1 != int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode)&5 {
Xsqlite3OsClose(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd)
}
rc = pagerUnlockDb(tls, pPager, NO_LOCK)
if rc != SQLITE_OK && int32((*Pager)(unsafe.Pointer(pPager)).FeState) == PAGER_ERROR {
(*Pager)(unsafe.Pointer(pPager)).FeLock = U8(EXCLUSIVE_LOCK + 1)
}
(*Pager)(unsafe.Pointer(pPager)).FeState = U8(PAGER_OPEN)
}
if (*Pager)(unsafe.Pointer(pPager)).FerrCode != 0 {
if int32((*Pager)(unsafe.Pointer(pPager)).FtempFile) == 0 {
pager_reset(tls, pPager)
(*Pager)(unsafe.Pointer(pPager)).FchangeCountDone = U8(0)
(*Pager)(unsafe.Pointer(pPager)).FeState = U8(PAGER_OPEN)
} else {
(*Pager)(unsafe.Pointer(pPager)).FeState = func() uint8 {
if (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fjfd)).FpMethods != uintptr(0) {
return uint8(PAGER_OPEN)
}
return uint8(PAGER_READER)
}()
}
if (*Pager)(unsafe.Pointer(pPager)).FbUseFetch != 0 {
Xsqlite3OsUnfetch(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, int64(0), uintptr(0))
}
(*Pager)(unsafe.Pointer(pPager)).FerrCode = SQLITE_OK
setGetterMethod(tls, pPager)
}
(*Pager)(unsafe.Pointer(pPager)).FjournalOff = int64(0)
(*Pager)(unsafe.Pointer(pPager)).FjournalHdr = int64(0)
(*Pager)(unsafe.Pointer(pPager)).FsetSuper = U8(0)
}
func pager_error(tls *libc.TLS, pPager uintptr, rc int32) int32 {
var rc2 int32 = rc & 0xff
if rc2 == SQLITE_FULL || rc2 == SQLITE_IOERR {
(*Pager)(unsafe.Pointer(pPager)).FerrCode = rc
(*Pager)(unsafe.Pointer(pPager)).FeState = U8(PAGER_ERROR)
setGetterMethod(tls, pPager)
}
return rc
}
func pagerFlushOnCommit(tls *libc.TLS, pPager uintptr, bCommit int32) int32 {
if int32((*Pager)(unsafe.Pointer(pPager)).FtempFile) == 0 {
return 1
}
if !(bCommit != 0) {
return 0
}
if !((*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Ffd)).FpMethods != uintptr(0)) {
return 0
}
return libc.Bool32(Xsqlite3PCachePercentDirty(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache) >= 25)
}
func pager_end_transaction(tls *libc.TLS, pPager uintptr, hasSuper int32, bCommit int32) int32 {
var rc int32 = SQLITE_OK
var rc2 int32 = SQLITE_OK
if int32((*Pager)(unsafe.Pointer(pPager)).FeState) < PAGER_WRITER_LOCKED && int32((*Pager)(unsafe.Pointer(pPager)).FeLock) < RESERVED_LOCK {
return SQLITE_OK
}
releaseAllSavepoints(tls, pPager)
if (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fjfd)).FpMethods != uintptr(0) {
if Xsqlite3JournalIsInMemory(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd) != 0 {
Xsqlite3OsClose(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd)
} else if int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode) == PAGER_JOURNALMODE_TRUNCATE {
if (*Pager)(unsafe.Pointer(pPager)).FjournalOff == int64(0) {
rc = SQLITE_OK
} else {
rc = Xsqlite3OsTruncate(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, int64(0))
if rc == SQLITE_OK && (*Pager)(unsafe.Pointer(pPager)).FfullSync != 0 {
rc = Xsqlite3OsSync(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, int32((*Pager)(unsafe.Pointer(pPager)).FsyncFlags))
}
}
(*Pager)(unsafe.Pointer(pPager)).FjournalOff = int64(0)
} else if int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode) == PAGER_JOURNALMODE_PERSIST ||
(*Pager)(unsafe.Pointer(pPager)).FexclusiveMode != 0 && int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode) != PAGER_JOURNALMODE_WAL {
rc = zeroJournalHdr(tls, pPager, libc.Bool32(hasSuper != 0 || (*Pager)(unsafe.Pointer(pPager)).FtempFile != 0))
(*Pager)(unsafe.Pointer(pPager)).FjournalOff = int64(0)
} else {
var bDelete int32 = libc.BoolInt32(!((*Pager)(unsafe.Pointer(pPager)).FtempFile != 0))
Xsqlite3OsClose(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd)
if bDelete != 0 {
rc = Xsqlite3OsDelete(tls, (*Pager)(unsafe.Pointer(pPager)).FpVfs, (*Pager)(unsafe.Pointer(pPager)).FzJournal, int32((*Pager)(unsafe.Pointer(pPager)).FextraSync))
}
}
}
Xsqlite3BitvecDestroy(tls, (*Pager)(unsafe.Pointer(pPager)).FpInJournal)
(*Pager)(unsafe.Pointer(pPager)).FpInJournal = uintptr(0)
(*Pager)(unsafe.Pointer(pPager)).FnRec = 0
if rc == SQLITE_OK {
if (*Pager)(unsafe.Pointer(pPager)).FmemDb != 0 || pagerFlushOnCommit(tls, pPager, bCommit) != 0 {
Xsqlite3PcacheCleanAll(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache)
} else {
Xsqlite3PcacheClearWritable(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache)
}
Xsqlite3PcacheTruncate(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache, (*Pager)(unsafe.Pointer(pPager)).FdbSize)
}
if (*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0) {
rc2 = Xsqlite3WalEndWriteTransaction(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal)
} else if rc == SQLITE_OK && bCommit != 0 && (*Pager)(unsafe.Pointer(pPager)).FdbFileSize > (*Pager)(unsafe.Pointer(pPager)).FdbSize {
rc = pager_truncate(tls, pPager, (*Pager)(unsafe.Pointer(pPager)).FdbSize)
}
if rc == SQLITE_OK && bCommit != 0 {
rc = Xsqlite3OsFileControl(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, SQLITE_FCNTL_COMMIT_PHASETWO, uintptr(0))
if rc == SQLITE_NOTFOUND {
rc = SQLITE_OK
}
}
if !(int32((*Pager)(unsafe.Pointer(pPager)).FexclusiveMode) != 0) &&
(!((*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0)) || Xsqlite3WalExclusiveMode(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, 0) != 0) {
rc2 = pagerUnlockDb(tls, pPager, SHARED_LOCK)
}
(*Pager)(unsafe.Pointer(pPager)).FeState = U8(PAGER_READER)
(*Pager)(unsafe.Pointer(pPager)).FsetSuper = U8(0)
return func() int32 {
if rc == SQLITE_OK {
return rc2
}
return rc
}()
}
func pagerUnlockAndRollback(tls *libc.TLS, pPager uintptr) {
if int32((*Pager)(unsafe.Pointer(pPager)).FeState) != PAGER_ERROR && int32((*Pager)(unsafe.Pointer(pPager)).FeState) != PAGER_OPEN {
if int32((*Pager)(unsafe.Pointer(pPager)).FeState) >= PAGER_WRITER_LOCKED {
Xsqlite3BeginBenignMalloc(tls)
Xsqlite3PagerRollback(tls, pPager)
Xsqlite3EndBenignMalloc(tls)
} else if !(int32((*Pager)(unsafe.Pointer(pPager)).FexclusiveMode) != 0) {
pager_end_transaction(tls, pPager, 0, 0)
}
}
pager_unlock(tls, pPager)
}
func pager_cksum(tls *libc.TLS, pPager uintptr, aData uintptr) U32 {
var cksum U32 = (*Pager)(unsafe.Pointer(pPager)).FcksumInit
var i int32 = int32((*Pager)(unsafe.Pointer(pPager)).FpageSize - int64(200))
for i > 0 {
cksum = cksum + U32(*(*U8)(unsafe.Pointer(aData + uintptr(i))))
i = i - 200
}
return cksum
}
func pager_playback_one_page(tls *libc.TLS, pPager uintptr, pOffset uintptr, pDone uintptr, isMainJrnl int32, isSavepnt int32) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var rc int32
var aData uintptr
var jfd uintptr
var isSynced int32
aData = (*Pager)(unsafe.Pointer(pPager)).FpTmpSpace
if isMainJrnl != 0 {
jfd = (*Pager)(unsafe.Pointer(pPager)).Fjfd
} else {
jfd = (*Pager)(unsafe.Pointer(pPager)).Fsjfd
}
rc = read32bits(tls, jfd, *(*I64)(unsafe.Pointer(pOffset)), bp)
if rc != SQLITE_OK {
return rc
}
rc = Xsqlite3OsRead(tls, jfd, aData, int32((*Pager)(unsafe.Pointer(pPager)).FpageSize), *(*I64)(unsafe.Pointer(pOffset))+int64(4))
if rc != SQLITE_OK {
return rc
}
*(*I64)(unsafe.Pointer(pOffset)) += (*Pager)(unsafe.Pointer(pPager)).FpageSize + int64(4) + I64(isMainJrnl*4)
if *(*Pgno)(unsafe.Pointer(bp)) == Pgno(0) || *(*Pgno)(unsafe.Pointer(bp)) == (*Pager)(unsafe.Pointer(pPager)).FlckPgno {
return SQLITE_DONE
}
if *(*Pgno)(unsafe.Pointer(bp)) > (*Pager)(unsafe.Pointer(pPager)).FdbSize || Xsqlite3BitvecTest(tls, pDone, *(*Pgno)(unsafe.Pointer(bp))) != 0 {
return SQLITE_OK
}
if isMainJrnl != 0 {
rc = read32bits(tls, jfd, *(*I64)(unsafe.Pointer(pOffset))-int64(4), bp+4)
if rc != 0 {
return rc
}
if !(isSavepnt != 0) && pager_cksum(tls, pPager, aData) != *(*U32)(unsafe.Pointer(bp + 4)) {
return SQLITE_DONE
}
}
if pDone != 0 && libc.AssignInt32(&rc, Xsqlite3BitvecSet(tls, pDone, *(*Pgno)(unsafe.Pointer(bp)))) != SQLITE_OK {
return rc
}
if *(*Pgno)(unsafe.Pointer(bp)) == Pgno(1) && int32((*Pager)(unsafe.Pointer(pPager)).FnReserve) != int32(*(*U8)(unsafe.Pointer(aData + 20))) {
(*Pager)(unsafe.Pointer(pPager)).FnReserve = I16(*(*U8)(unsafe.Pointer(aData + 20)))
}
if (*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0) {
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
} else {
*(*uintptr)(unsafe.Pointer(bp + 8)) = Xsqlite3PagerLookup(tls, pPager, *(*Pgno)(unsafe.Pointer(bp)))
}
if isMainJrnl != 0 {
isSynced = libc.Bool32((*Pager)(unsafe.Pointer(pPager)).FnoSync != 0 || *(*I64)(unsafe.Pointer(pOffset)) <= (*Pager)(unsafe.Pointer(pPager)).FjournalHdr)
} else {
isSynced = libc.Bool32(*(*uintptr)(unsafe.Pointer(bp + 8)) == uintptr(0) || 0 == int32((*PgHdr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).Fflags)&PGHDR_NEED_SYNC)
}
if (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Ffd)).FpMethods != uintptr(0) &&
(int32((*Pager)(unsafe.Pointer(pPager)).FeState) >= PAGER_WRITER_DBMOD || int32((*Pager)(unsafe.Pointer(pPager)).FeState) == PAGER_OPEN) &&
isSynced != 0 {
var ofst I64 = I64(*(*Pgno)(unsafe.Pointer(bp))-Pgno(1)) * (*Pager)(unsafe.Pointer(pPager)).FpageSize
rc = Xsqlite3OsWrite(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, aData, int32((*Pager)(unsafe.Pointer(pPager)).FpageSize), ofst)
if *(*Pgno)(unsafe.Pointer(bp)) > (*Pager)(unsafe.Pointer(pPager)).FdbFileSize {
(*Pager)(unsafe.Pointer(pPager)).FdbFileSize = *(*Pgno)(unsafe.Pointer(bp))
}
if (*Pager)(unsafe.Pointer(pPager)).FpBackup != 0 {
Xsqlite3BackupUpdate(tls, (*Pager)(unsafe.Pointer(pPager)).FpBackup, *(*Pgno)(unsafe.Pointer(bp)), aData)
}
} else if !(isMainJrnl != 0) && *(*uintptr)(unsafe.Pointer(bp + 8)) == uintptr(0) {
*(*U8)(unsafe.Pointer(pPager + 25)) |= U8(SPILLFLAG_ROLLBACK)
rc = Xsqlite3PagerGet(tls, pPager, *(*Pgno)(unsafe.Pointer(bp)), bp+8, 1)
*(*U8)(unsafe.Pointer(pPager + 25)) &= libc.Uint8FromInt32(libc.CplInt32(SPILLFLAG_ROLLBACK))
if rc != SQLITE_OK {
return rc
}
Xsqlite3PcacheMakeDirty(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
if *(*uintptr)(unsafe.Pointer(bp + 8)) != 0 {
var pData uintptr
pData = (*PgHdr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FpData
libc.X__builtin___memcpy_chk(tls, pData, aData, uint64((*Pager)(unsafe.Pointer(pPager)).FpageSize), libc.X__builtin_object_size(tls, pData, 0))
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*Pager)(unsafe.Pointer(pPager)).FxReiniter})).f(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
if *(*Pgno)(unsafe.Pointer(bp)) == Pgno(1) {
libc.X__builtin___memcpy_chk(tls, pPager+136, pData+24, uint64(unsafe.Sizeof([16]int8{})), libc.X__builtin_object_size(tls, pPager+136, 0))
}
Xsqlite3PcacheRelease(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
return rc
}
func pager_delsuper(tls *libc.TLS, pPager uintptr, zSuper uintptr) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
var pVfs uintptr
var rc int32
var pSuper uintptr
var pJournal uintptr
var zSuperJournal uintptr
var zJournal uintptr
var zSuperPtr uintptr
var zFree uintptr
var nSuperPtr int32
var flags int32
var c int32
var flags1 int32
pVfs = (*Pager)(unsafe.Pointer(pPager)).FpVfs
zSuperJournal = uintptr(0)
zFree = uintptr(0)
pSuper = Xsqlite3MallocZero(tls, uint64((*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FszOsFile*2))
if !!(pSuper != 0) {
goto __1
}
rc = SQLITE_NOMEM
pJournal = uintptr(0)
goto __2
__1:
flags = SQLITE_OPEN_READONLY | SQLITE_OPEN_SUPER_JOURNAL
rc = Xsqlite3OsOpen(tls, pVfs, zSuper, pSuper, flags, uintptr(0))
pJournal = pSuper + uintptr((*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FszOsFile)
__2:
;
if !(rc != SQLITE_OK) {
goto __3
}
goto delsuper_out
__3:
;
rc = Xsqlite3OsFileSize(tls, pSuper, bp)
if !(rc != SQLITE_OK) {
goto __4
}
goto delsuper_out
__4:
;
nSuperPtr = (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FmxPathname + 1
zFree = Xsqlite3Malloc(tls, uint64(int64(4)+*(*I64)(unsafe.Pointer(bp))+I64(nSuperPtr)+int64(2)))
if !!(zFree != 0) {
goto __5
}
rc = SQLITE_NOMEM
goto delsuper_out
__5:
;
*(*int8)(unsafe.Pointer(zFree)) = libc.AssignPtrInt8(zFree+1, libc.AssignPtrInt8(zFree+2, libc.AssignPtrInt8(zFree+3, int8(0))))
zSuperJournal = zFree + 4
zSuperPtr = zSuperJournal + uintptr(*(*I64)(unsafe.Pointer(bp))+int64(2))
rc = Xsqlite3OsRead(tls, pSuper, zSuperJournal, int32(*(*I64)(unsafe.Pointer(bp))), int64(0))
if !(rc != SQLITE_OK) {
goto __6
}
goto delsuper_out
__6:
;
*(*int8)(unsafe.Pointer(zSuperJournal + uintptr(*(*I64)(unsafe.Pointer(bp))))) = int8(0)
*(*int8)(unsafe.Pointer(zSuperJournal + uintptr(*(*I64)(unsafe.Pointer(bp))+int64(1)))) = int8(0)
zJournal = zSuperJournal
__7:
if !((int64(zJournal)-int64(zSuperJournal))/1 < *(*I64)(unsafe.Pointer(bp))) {
goto __8
}
rc = Xsqlite3OsAccess(tls, pVfs, zJournal, SQLITE_ACCESS_EXISTS, bp+8)
if !(rc != SQLITE_OK) {
goto __9
}
goto delsuper_out
__9:
;
if !(*(*int32)(unsafe.Pointer(bp + 8)) != 0) {
goto __10
}
flags1 = SQLITE_OPEN_READONLY | SQLITE_OPEN_SUPER_JOURNAL
rc = Xsqlite3OsOpen(tls, pVfs, zJournal, pJournal, flags1, uintptr(0))
if !(rc != SQLITE_OK) {
goto __11
}
goto delsuper_out
__11:
;
rc = readSuperJournal(tls, pJournal, zSuperPtr, uint32(nSuperPtr))
Xsqlite3OsClose(tls, pJournal)
if !(rc != SQLITE_OK) {
goto __12
}
goto delsuper_out
__12:
;
c = libc.Bool32(int32(*(*int8)(unsafe.Pointer(zSuperPtr))) != 0 && libc.Xstrcmp(tls, zSuperPtr, zSuper) == 0)
if !(c != 0) {
goto __13
}
goto delsuper_out
__13:
;
__10:
;
zJournal += uintptr(Xsqlite3Strlen30(tls, zJournal) + 1)
goto __7
__8:
;
Xsqlite3OsClose(tls, pSuper)
rc = Xsqlite3OsDelete(tls, pVfs, zSuper, 0)
delsuper_out:
Xsqlite3_free(tls, zFree)
if !(pSuper != 0) {
goto __14
}
Xsqlite3OsClose(tls, pSuper)
Xsqlite3_free(tls, pSuper)
__14:
;
return rc
}
func pager_truncate(tls *libc.TLS, pPager uintptr, nPage Pgno) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var rc int32 = SQLITE_OK
if (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Ffd)).FpMethods != uintptr(0) &&
(int32((*Pager)(unsafe.Pointer(pPager)).FeState) >= PAGER_WRITER_DBMOD || int32((*Pager)(unsafe.Pointer(pPager)).FeState) == PAGER_OPEN) {
var szPage int32 = int32((*Pager)(unsafe.Pointer(pPager)).FpageSize)
rc = Xsqlite3OsFileSize(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, bp)
*(*I64)(unsafe.Pointer(bp + 8)) = I64(szPage) * I64(nPage)
if rc == SQLITE_OK && *(*I64)(unsafe.Pointer(bp)) != *(*I64)(unsafe.Pointer(bp + 8)) {
if *(*I64)(unsafe.Pointer(bp)) > *(*I64)(unsafe.Pointer(bp + 8)) {
rc = Xsqlite3OsTruncate(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, *(*I64)(unsafe.Pointer(bp + 8)))
} else if *(*I64)(unsafe.Pointer(bp))+I64(szPage) <= *(*I64)(unsafe.Pointer(bp + 8)) {
var pTmp uintptr = (*Pager)(unsafe.Pointer(pPager)).FpTmpSpace
libc.X__builtin___memset_chk(tls, pTmp, 0, uint64(szPage), libc.X__builtin_object_size(tls, pTmp, 0))
Xsqlite3OsFileControlHint(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, SQLITE_FCNTL_SIZE_HINT, bp+8)
rc = Xsqlite3OsWrite(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, pTmp, szPage, *(*I64)(unsafe.Pointer(bp + 8))-I64(szPage))
}
if rc == SQLITE_OK {
(*Pager)(unsafe.Pointer(pPager)).FdbFileSize = nPage
}
}
}
return rc
}
// Return a sanitized version of the sector-size of OS file pFile. The
// return value is guaranteed to lie between 32 and MAX_SECTOR_SIZE.
func Xsqlite3SectorSize(tls *libc.TLS, pFile uintptr) int32 {
var iRet int32 = Xsqlite3OsSectorSize(tls, pFile)
if iRet < 32 {
iRet = 512
} else if iRet > MAX_SECTOR_SIZE {
iRet = MAX_SECTOR_SIZE
}
return iRet
}
func setSectorSize(tls *libc.TLS, pPager uintptr) {
if (*Pager)(unsafe.Pointer(pPager)).FtempFile != 0 ||
Xsqlite3OsDeviceCharacteristics(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd)&SQLITE_IOCAP_POWERSAFE_OVERWRITE != 0 {
(*Pager)(unsafe.Pointer(pPager)).FsectorSize = U32(512)
} else {
(*Pager)(unsafe.Pointer(pPager)).FsectorSize = U32(Xsqlite3SectorSize(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd))
}
}
func pager_playback(tls *libc.TLS, pPager uintptr, isHot int32) int32 {
bp := tls.Alloc(40)
defer tls.Free(40)
var pVfs uintptr
var u U32
var rc int32
var zSuper uintptr
var needPagerReset int32
var nPlayback int32
pVfs = (*Pager)(unsafe.Pointer(pPager)).FpVfs
*(*Pgno)(unsafe.Pointer(bp + 32)) = Pgno(0)
*(*int32)(unsafe.Pointer(bp + 24)) = 1
zSuper = uintptr(0)
nPlayback = 0
*(*U32)(unsafe.Pointer(bp + 36)) = U32((*Pager)(unsafe.Pointer(pPager)).FpageSize)
rc = Xsqlite3OsFileSize(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, bp+16)
if !(rc != SQLITE_OK) {
goto __1
}
goto end_playback
__1:
;
zSuper = (*Pager)(unsafe.Pointer(pPager)).FpTmpSpace
rc = readSuperJournal(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, zSuper, uint32((*Sqlite3_vfs)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).FpVfs)).FmxPathname+1))
if !(rc == SQLITE_OK && *(*int8)(unsafe.Pointer(zSuper)) != 0) {
goto __2
}
rc = Xsqlite3OsAccess(tls, pVfs, zSuper, SQLITE_ACCESS_EXISTS, bp+24)
__2:
;
zSuper = uintptr(0)
if !(rc != SQLITE_OK || !(*(*int32)(unsafe.Pointer(bp + 24)) != 0)) {
goto __3
}
goto end_playback
__3:
;
(*Pager)(unsafe.Pointer(pPager)).FjournalOff = int64(0)
needPagerReset = isHot
__4:
if !(1 != 0) {
goto __5
}
rc = readJournalHdr(tls, pPager, isHot, *(*I64)(unsafe.Pointer(bp + 16)), bp+28, bp+32)
if !(rc != SQLITE_OK) {
goto __6
}
if !(rc == SQLITE_DONE) {
goto __7
}
rc = SQLITE_OK
__7:
;
goto end_playback
__6:
;
if !(*(*U32)(unsafe.Pointer(bp + 28)) == 0xffffffff) {
goto __8
}
*(*U32)(unsafe.Pointer(bp + 28)) = U32(int32((*(*I64)(unsafe.Pointer(bp + 16)) - I64((*Pager)(unsafe.Pointer(pPager)).FsectorSize)) / ((*Pager)(unsafe.Pointer(pPager)).FpageSize + int64(8))))
__8:
;
if !(*(*U32)(unsafe.Pointer(bp + 28)) == U32(0) && !(isHot != 0) && (*Pager)(unsafe.Pointer(pPager)).FjournalHdr+I64((*Pager)(unsafe.Pointer(pPager)).FsectorSize) == (*Pager)(unsafe.Pointer(pPager)).FjournalOff) {
goto __9
}
*(*U32)(unsafe.Pointer(bp + 28)) = U32(int32((*(*I64)(unsafe.Pointer(bp + 16)) - (*Pager)(unsafe.Pointer(pPager)).FjournalOff) / ((*Pager)(unsafe.Pointer(pPager)).FpageSize + int64(8))))
__9:
;
if !((*Pager)(unsafe.Pointer(pPager)).FjournalOff == I64((*Pager)(unsafe.Pointer(pPager)).FsectorSize)) {
goto __10
}
rc = pager_truncate(tls, pPager, *(*Pgno)(unsafe.Pointer(bp + 32)))
if !(rc != SQLITE_OK) {
goto __11
}
goto end_playback
__11:
;
(*Pager)(unsafe.Pointer(pPager)).FdbSize = *(*Pgno)(unsafe.Pointer(bp + 32))
if !((*Pager)(unsafe.Pointer(pPager)).FmxPgno < *(*Pgno)(unsafe.Pointer(bp + 32))) {
goto __12
}
(*Pager)(unsafe.Pointer(pPager)).FmxPgno = *(*Pgno)(unsafe.Pointer(bp + 32))
__12:
;
__10:
;
u = U32(0)
__13:
if !(u < *(*U32)(unsafe.Pointer(bp + 28))) {
goto __15
}
if !(needPagerReset != 0) {
goto __16
}
pager_reset(tls, pPager)
needPagerReset = 0
__16:
;
rc = pager_playback_one_page(tls, pPager, pPager+96, uintptr(0), 1, 0)
if !(rc == SQLITE_OK) {
goto __17
}
nPlayback++
goto __18
__17:
if !(rc == SQLITE_DONE) {
goto __19
}
(*Pager)(unsafe.Pointer(pPager)).FjournalOff = *(*I64)(unsafe.Pointer(bp + 16))
goto __15
goto __20
__19:
if !(rc == SQLITE_IOERR|int32(2)<<8) {
goto __21
}
rc = SQLITE_OK
goto end_playback
goto __22
__21:
goto end_playback
__22:
;
__20:
;
__18:
;
goto __14
__14:
u++
goto __13
goto __15
__15:
;
goto __4
__5:
;
end_playback:
if !(rc == SQLITE_OK) {
goto __23
}
rc = Xsqlite3PagerSetPagesize(tls, pPager, bp+36, -1)
__23:
;
(*Pager)(unsafe.Pointer(pPager)).FchangeCountDone = (*Pager)(unsafe.Pointer(pPager)).FtempFile
if !(rc == SQLITE_OK) {
goto __24
}
zSuper = (*Pager)(unsafe.Pointer(pPager)).FpTmpSpace + 4
rc = readSuperJournal(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, zSuper, uint32((*Sqlite3_vfs)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).FpVfs)).FmxPathname+1))
__24:
;
if !(rc == SQLITE_OK &&
(int32((*Pager)(unsafe.Pointer(pPager)).FeState) >= PAGER_WRITER_DBMOD || int32((*Pager)(unsafe.Pointer(pPager)).FeState) == PAGER_OPEN)) {
goto __25
}
rc = Xsqlite3PagerSync(tls, pPager, uintptr(0))
__25:
;
if !(rc == SQLITE_OK) {
goto __26
}
rc = pager_end_transaction(tls, pPager, libc.Bool32(int32(*(*int8)(unsafe.Pointer(zSuper))) != 0), 0)
__26:
;
if !(rc == SQLITE_OK && *(*int8)(unsafe.Pointer(zSuper)) != 0 && *(*int32)(unsafe.Pointer(bp + 24)) != 0) {
goto __27
}
libc.X__builtin___memset_chk(tls, (*Pager)(unsafe.Pointer(pPager)).FpTmpSpace, 0, uint64(4), libc.X__builtin_object_size(tls, (*Pager)(unsafe.Pointer(pPager)).FpTmpSpace, 0))
rc = pager_delsuper(tls, pPager, zSuper)
__27:
;
if !(isHot != 0 && nPlayback != 0) {
goto __28
}
Xsqlite3_log(tls, SQLITE_NOTICE|int32(2)<<8, ts+4297,
libc.VaList(bp, nPlayback, (*Pager)(unsafe.Pointer(pPager)).FzJournal))
__28:
;
setSectorSize(tls, pPager)
return rc
}
func readDbPage(tls *libc.TLS, pPg uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pPager uintptr = (*PgHdr)(unsafe.Pointer(pPg)).FpPager
var rc int32 = SQLITE_OK
*(*U32)(unsafe.Pointer(bp)) = U32(0)
if (*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0) {
rc = Xsqlite3WalFindFrame(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, (*PgHdr)(unsafe.Pointer(pPg)).Fpgno, bp)
if rc != 0 {
return rc
}
}
if *(*U32)(unsafe.Pointer(bp)) != 0 {
rc = Xsqlite3WalReadFrame(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, *(*U32)(unsafe.Pointer(bp)), int32((*Pager)(unsafe.Pointer(pPager)).FpageSize), (*PgHdr)(unsafe.Pointer(pPg)).FpData)
} else {
var iOffset I64 = I64((*PgHdr)(unsafe.Pointer(pPg)).Fpgno-Pgno(1)) * (*Pager)(unsafe.Pointer(pPager)).FpageSize
rc = Xsqlite3OsRead(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, (*PgHdr)(unsafe.Pointer(pPg)).FpData, int32((*Pager)(unsafe.Pointer(pPager)).FpageSize), iOffset)
if rc == SQLITE_IOERR|int32(2)<<8 {
rc = SQLITE_OK
}
}
if (*PgHdr)(unsafe.Pointer(pPg)).Fpgno == Pgno(1) {
if rc != 0 {
libc.X__builtin___memset_chk(tls, pPager+136, 0xff, uint64(unsafe.Sizeof([16]int8{})), libc.X__builtin_object_size(tls, pPager+136, 0))
} else {
var dbFileVers uintptr = (*PgHdr)(unsafe.Pointer(pPg)).FpData + 24
libc.X__builtin___memcpy_chk(tls, pPager+136, dbFileVers, uint64(unsafe.Sizeof([16]int8{})), libc.X__builtin_object_size(tls, pPager+136, 0))
}
}
return rc
}
func pager_write_changecounter(tls *libc.TLS, pPg uintptr) {
var change_counter U32
if pPg == uintptr(0) {
return
}
change_counter = Xsqlite3Get4byte(tls, (*PgHdr)(unsafe.Pointer(pPg)).FpPager+136) + U32(1)
Xsqlite3Put4byte(tls, (*PgHdr)(unsafe.Pointer(pPg)).FpData+uintptr(24), change_counter)
Xsqlite3Put4byte(tls, (*PgHdr)(unsafe.Pointer(pPg)).FpData+uintptr(92), change_counter)
Xsqlite3Put4byte(tls, (*PgHdr)(unsafe.Pointer(pPg)).FpData+uintptr(96), uint32(SQLITE_VERSION_NUMBER))
}
func pagerUndoCallback(tls *libc.TLS, pCtx uintptr, iPg Pgno) int32 {
var rc int32 = SQLITE_OK
var pPager uintptr = pCtx
var pPg uintptr
pPg = Xsqlite3PagerLookup(tls, pPager, iPg)
if pPg != 0 {
if Xsqlite3PcachePageRefcount(tls, pPg) == 1 {
Xsqlite3PcacheDrop(tls, pPg)
} else {
rc = readDbPage(tls, pPg)
if rc == SQLITE_OK {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*Pager)(unsafe.Pointer(pPager)).FxReiniter})).f(tls, pPg)
}
Xsqlite3PagerUnrefNotNull(tls, pPg)
}
}
Xsqlite3BackupRestart(tls, (*Pager)(unsafe.Pointer(pPager)).FpBackup)
return rc
}
func pagerRollbackWal(tls *libc.TLS, pPager uintptr) int32 {
var rc int32
var pList uintptr
(*Pager)(unsafe.Pointer(pPager)).FdbSize = (*Pager)(unsafe.Pointer(pPager)).FdbOrigSize
rc = Xsqlite3WalUndo(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, Pgno) int32
}{pagerUndoCallback})), pPager)
pList = Xsqlite3PcacheDirtyList(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache)
for pList != 0 && rc == SQLITE_OK {
var pNext uintptr = (*PgHdr)(unsafe.Pointer(pList)).FpDirty
rc = pagerUndoCallback(tls, pPager, (*PgHdr)(unsafe.Pointer(pList)).Fpgno)
pList = pNext
}
return rc
}
func pagerWalFrames(tls *libc.TLS, pPager uintptr, pList uintptr, nTruncate Pgno, isCommit int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = pList
var rc int32
var nList int32
var p uintptr
if isCommit != 0 {
var ppNext uintptr = bp
nList = 0
for p = *(*uintptr)(unsafe.Pointer(bp)); libc.AssignPtrUintptr(ppNext, p) != uintptr(0); p = (*PgHdr)(unsafe.Pointer(p)).FpDirty {
if (*PgHdr)(unsafe.Pointer(p)).Fpgno <= nTruncate {
ppNext = p + 32
nList++
}
}
} else {
nList = 1
}
*(*int32)(unsafe.Pointer(pPager + 248 + 2*4)) += nList
if (*PgHdr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Fpgno == Pgno(1) {
pager_write_changecounter(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
rc = Xsqlite3WalFrames(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal,
int32((*Pager)(unsafe.Pointer(pPager)).FpageSize), *(*uintptr)(unsafe.Pointer(bp)), nTruncate, isCommit, int32((*Pager)(unsafe.Pointer(pPager)).FwalSyncFlags))
if rc == SQLITE_OK && (*Pager)(unsafe.Pointer(pPager)).FpBackup != 0 {
for p = *(*uintptr)(unsafe.Pointer(bp)); p != 0; p = (*PgHdr)(unsafe.Pointer(p)).FpDirty {
Xsqlite3BackupUpdate(tls, (*Pager)(unsafe.Pointer(pPager)).FpBackup, (*PgHdr)(unsafe.Pointer(p)).Fpgno, (*PgHdr)(unsafe.Pointer(p)).FpData)
}
}
return rc
}
func pagerBeginReadTransaction(tls *libc.TLS, pPager uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32
*(*int32)(unsafe.Pointer(bp)) = 0
Xsqlite3WalEndReadTransaction(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal)
rc = Xsqlite3WalBeginReadTransaction(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, bp)
if rc != SQLITE_OK || *(*int32)(unsafe.Pointer(bp)) != 0 {
pager_reset(tls, pPager)
if (*Pager)(unsafe.Pointer(pPager)).FbUseFetch != 0 {
Xsqlite3OsUnfetch(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, int64(0), uintptr(0))
}
}
return rc
}
func pagerPagecount(tls *libc.TLS, pPager uintptr, pnPage uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var nPage Pgno
nPage = Xsqlite3WalDbsize(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal)
if nPage == Pgno(0) && (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Ffd)).FpMethods != uintptr(0) {
*(*I64)(unsafe.Pointer(bp)) = int64(0)
var rc int32 = Xsqlite3OsFileSize(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, bp)
if rc != SQLITE_OK {
return rc
}
nPage = Pgno((*(*I64)(unsafe.Pointer(bp)) + (*Pager)(unsafe.Pointer(pPager)).FpageSize - int64(1)) / (*Pager)(unsafe.Pointer(pPager)).FpageSize)
}
if nPage > (*Pager)(unsafe.Pointer(pPager)).FmxPgno {
(*Pager)(unsafe.Pointer(pPager)).FmxPgno = nPage
}
*(*Pgno)(unsafe.Pointer(pnPage)) = nPage
return SQLITE_OK
}
func pagerOpenWalIfPresent(tls *libc.TLS, pPager uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
if !(int32((*Pager)(unsafe.Pointer(pPager)).FtempFile) != 0) {
rc = Xsqlite3OsAccess(tls,
(*Pager)(unsafe.Pointer(pPager)).FpVfs, (*Pager)(unsafe.Pointer(pPager)).FzWal, SQLITE_ACCESS_EXISTS, bp)
if rc == SQLITE_OK {
if *(*int32)(unsafe.Pointer(bp)) != 0 {
rc = pagerPagecount(tls, pPager, bp+4)
if rc != 0 {
return rc
}
if *(*Pgno)(unsafe.Pointer(bp + 4)) == Pgno(0) {
rc = Xsqlite3OsDelete(tls, (*Pager)(unsafe.Pointer(pPager)).FpVfs, (*Pager)(unsafe.Pointer(pPager)).FzWal, 0)
} else {
rc = Xsqlite3PagerOpenWal(tls, pPager, uintptr(0))
}
} else if int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode) == PAGER_JOURNALMODE_WAL {
(*Pager)(unsafe.Pointer(pPager)).FjournalMode = U8(PAGER_JOURNALMODE_DELETE)
}
}
}
return rc
}
func pagerPlaybackSavepoint(tls *libc.TLS, pPager uintptr, pSavepoint uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var szJ I64
var iHdrOff I64
var rc int32 = SQLITE_OK
var pDone uintptr = uintptr(0)
if pSavepoint != 0 {
pDone = Xsqlite3BitvecCreate(tls, (*PagerSavepoint)(unsafe.Pointer(pSavepoint)).FnOrig)
if !(pDone != 0) {
return SQLITE_NOMEM
}
}
(*Pager)(unsafe.Pointer(pPager)).FdbSize = func() uint32 {
if pSavepoint != 0 {
return (*PagerSavepoint)(unsafe.Pointer(pSavepoint)).FnOrig
}
return (*Pager)(unsafe.Pointer(pPager)).FdbOrigSize
}()
(*Pager)(unsafe.Pointer(pPager)).FchangeCountDone = (*Pager)(unsafe.Pointer(pPager)).FtempFile
if !(pSavepoint != 0) && (*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0) {
return pagerRollbackWal(tls, pPager)
}
szJ = (*Pager)(unsafe.Pointer(pPager)).FjournalOff
if pSavepoint != 0 && !((*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0)) {
if (*PagerSavepoint)(unsafe.Pointer(pSavepoint)).FiHdrOffset != 0 {
iHdrOff = (*PagerSavepoint)(unsafe.Pointer(pSavepoint)).FiHdrOffset
} else {
iHdrOff = szJ
}
(*Pager)(unsafe.Pointer(pPager)).FjournalOff = (*PagerSavepoint)(unsafe.Pointer(pSavepoint)).FiOffset
for rc == SQLITE_OK && (*Pager)(unsafe.Pointer(pPager)).FjournalOff < iHdrOff {
rc = pager_playback_one_page(tls, pPager, pPager+96, pDone, 1, 1)
}
} else {
(*Pager)(unsafe.Pointer(pPager)).FjournalOff = int64(0)
}
for rc == SQLITE_OK && (*Pager)(unsafe.Pointer(pPager)).FjournalOff < szJ {
var ii U32
*(*U32)(unsafe.Pointer(bp)) = U32(0)
rc = readJournalHdr(tls, pPager, 0, szJ, bp, bp+4)
if *(*U32)(unsafe.Pointer(bp)) == U32(0) &&
(*Pager)(unsafe.Pointer(pPager)).FjournalHdr+I64((*Pager)(unsafe.Pointer(pPager)).FsectorSize) == (*Pager)(unsafe.Pointer(pPager)).FjournalOff {
*(*U32)(unsafe.Pointer(bp)) = U32((szJ - (*Pager)(unsafe.Pointer(pPager)).FjournalOff) / ((*Pager)(unsafe.Pointer(pPager)).FpageSize + int64(8)))
}
for ii = U32(0); rc == SQLITE_OK && ii < *(*U32)(unsafe.Pointer(bp)) && (*Pager)(unsafe.Pointer(pPager)).FjournalOff < szJ; ii++ {
rc = pager_playback_one_page(tls, pPager, pPager+96, pDone, 1, 1)
}
}
if pSavepoint != 0 {
var ii U32
*(*I64)(unsafe.Pointer(bp + 8)) = I64((*PagerSavepoint)(unsafe.Pointer(pSavepoint)).FiSubRec) * (int64(4) + (*Pager)(unsafe.Pointer(pPager)).FpageSize)
if (*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0) {
rc = Xsqlite3WalSavepointUndo(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, pSavepoint+36)
}
for ii = (*PagerSavepoint)(unsafe.Pointer(pSavepoint)).FiSubRec; rc == SQLITE_OK && ii < (*Pager)(unsafe.Pointer(pPager)).FnSubRec; ii++ {
rc = pager_playback_one_page(tls, pPager, bp+8, pDone, 0, 1)
}
}
Xsqlite3BitvecDestroy(tls, pDone)
if rc == SQLITE_OK {
(*Pager)(unsafe.Pointer(pPager)).FjournalOff = szJ
}
return rc
}
// Change the maximum number of in-memory pages that are allowed
// before attempting to recycle clean and unused pages.
func Xsqlite3PagerSetCachesize(tls *libc.TLS, pPager uintptr, mxPage int32) {
Xsqlite3PcacheSetCachesize(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache, mxPage)
}
// Change the maximum number of in-memory pages that are allowed
// before attempting to spill pages to journal.
func Xsqlite3PagerSetSpillsize(tls *libc.TLS, pPager uintptr, mxPage int32) int32 {
return Xsqlite3PcacheSetSpillsize(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache, mxPage)
}
func pagerFixMaplimit(tls *libc.TLS, pPager uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var fd uintptr = (*Pager)(unsafe.Pointer(pPager)).Ffd
if (*Sqlite3_file)(unsafe.Pointer(fd)).FpMethods != uintptr(0) && (*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(fd)).FpMethods)).FiVersion >= 3 {
*(*Sqlite3_int64)(unsafe.Pointer(bp)) = (*Pager)(unsafe.Pointer(pPager)).FszMmap
(*Pager)(unsafe.Pointer(pPager)).FbUseFetch = U8(libc.Bool32(*(*Sqlite3_int64)(unsafe.Pointer(bp)) > int64(0)))
setGetterMethod(tls, pPager)
Xsqlite3OsFileControlHint(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, SQLITE_FCNTL_MMAP_SIZE, bp)
}
}
// Change the maximum size of any memory mapping made of the database file.
func Xsqlite3PagerSetMmapLimit(tls *libc.TLS, pPager uintptr, szMmap Sqlite3_int64) {
(*Pager)(unsafe.Pointer(pPager)).FszMmap = szMmap
pagerFixMaplimit(tls, pPager)
}
// Free as much memory as possible from the pager.
func Xsqlite3PagerShrink(tls *libc.TLS, pPager uintptr) {
Xsqlite3PcacheShrink(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache)
}
// Adjust settings of the pager to those specified in the pgFlags parameter.
//
// The "level" in pgFlags & PAGER_SYNCHRONOUS_MASK sets the robustness
// of the database to damage due to OS crashes or power failures by
// changing the number of syncs()s when writing the journals.
// There are four levels:
//
// OFF sqlite3OsSync() is never called. This is the default
// for temporary and transient files.
//
// NORMAL The journal is synced once before writes begin on the
// database. This is normally adequate protection, but
// it is theoretically possible, though very unlikely,
// that an inopertune power failure could leave the journal
// in a state which would cause damage to the database
// when it is rolled back.
//
// FULL The journal is synced twice before writes begin on the
// database (with some additional information - the nRec field
// of the journal header - being written in between the two
// syncs). If we assume that writing a
// single disk sector is atomic, then this mode provides
// assurance that the journal will not be corrupted to the
// point of causing damage to the database during rollback.
//
// EXTRA This is like FULL except that is also syncs the directory
// that contains the rollback journal after the rollback
// journal is unlinked.
//
// The above is for a rollback-journal mode. For WAL mode, OFF continues
// to mean that no syncs ever occur. NORMAL means that the WAL is synced
// prior to the start of checkpoint and that the database file is synced
// at the conclusion of the checkpoint if the entire content of the WAL
// was written back into the database. But no sync operations occur for
// an ordinary commit in NORMAL mode with WAL. FULL means that the WAL
// file is synced following each commit operation, in addition to the
// syncs associated with NORMAL. There is no difference between FULL
// and EXTRA for WAL mode.
//
// Do not confuse synchronous=FULL with SQLITE_SYNC_FULL. The
// SQLITE_SYNC_FULL macro means to use the MacOSX-style full-fsync
// using fcntl(F_FULLFSYNC). SQLITE_SYNC_NORMAL means to do an
// ordinary fsync() call. There is no difference between SQLITE_SYNC_FULL
// and SQLITE_SYNC_NORMAL on platforms other than MacOSX. But the
// synchronous=FULL versus synchronous=NORMAL setting determines when
// the xSync primitive is called and is relevant to all platforms.
//
// Numeric values associated with these states are OFF==1, NORMAL=2,
// and FULL=3.
func Xsqlite3PagerSetFlags(tls *libc.TLS, pPager uintptr, pgFlags uint32) {
var level uint32 = pgFlags & uint32(PAGER_SYNCHRONOUS_MASK)
if (*Pager)(unsafe.Pointer(pPager)).FtempFile != 0 {
(*Pager)(unsafe.Pointer(pPager)).FnoSync = U8(1)
(*Pager)(unsafe.Pointer(pPager)).FfullSync = U8(0)
(*Pager)(unsafe.Pointer(pPager)).FextraSync = U8(0)
} else {
(*Pager)(unsafe.Pointer(pPager)).FnoSync = func() uint8 {
if level == uint32(PAGER_SYNCHRONOUS_OFF) {
return uint8(1)
}
return uint8(0)
}()
(*Pager)(unsafe.Pointer(pPager)).FfullSync = func() uint8 {
if level >= uint32(PAGER_SYNCHRONOUS_FULL) {
return uint8(1)
}
return uint8(0)
}()
(*Pager)(unsafe.Pointer(pPager)).FextraSync = func() uint8 {
if level == uint32(PAGER_SYNCHRONOUS_EXTRA) {
return uint8(1)
}
return uint8(0)
}()
}
if (*Pager)(unsafe.Pointer(pPager)).FnoSync != 0 {
(*Pager)(unsafe.Pointer(pPager)).FsyncFlags = U8(0)
} else if pgFlags&uint32(PAGER_FULLFSYNC) != 0 {
(*Pager)(unsafe.Pointer(pPager)).FsyncFlags = U8(SQLITE_SYNC_FULL)
} else {
(*Pager)(unsafe.Pointer(pPager)).FsyncFlags = U8(SQLITE_SYNC_NORMAL)
}
(*Pager)(unsafe.Pointer(pPager)).FwalSyncFlags = U8(int32((*Pager)(unsafe.Pointer(pPager)).FsyncFlags) << 2)
if (*Pager)(unsafe.Pointer(pPager)).FfullSync != 0 {
*(*U8)(unsafe.Pointer(pPager + 15)) |= U8(int32((*Pager)(unsafe.Pointer(pPager)).FsyncFlags))
}
if pgFlags&uint32(PAGER_CKPT_FULLFSYNC) != 0 && !(int32((*Pager)(unsafe.Pointer(pPager)).FnoSync) != 0) {
*(*U8)(unsafe.Pointer(pPager + 15)) |= U8(int32(SQLITE_SYNC_FULL) << 2)
}
if pgFlags&uint32(PAGER_CACHESPILL) != 0 {
*(*U8)(unsafe.Pointer(pPager + 25)) &= libc.Uint8FromInt32(libc.CplInt32(SPILLFLAG_OFF))
} else {
*(*U8)(unsafe.Pointer(pPager + 25)) |= U8(SPILLFLAG_OFF)
}
}
func pagerOpentemp(tls *libc.TLS, pPager uintptr, pFile uintptr, vfsFlags int32) int32 {
var rc int32
vfsFlags = vfsFlags | (SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE | SQLITE_OPEN_EXCLUSIVE | SQLITE_OPEN_DELETEONCLOSE)
rc = Xsqlite3OsOpen(tls, (*Pager)(unsafe.Pointer(pPager)).FpVfs, uintptr(0), pFile, vfsFlags, uintptr(0))
return rc
}
// Set the busy handler function.
//
// The pager invokes the busy-handler if sqlite3OsLock() returns
// SQLITE_BUSY when trying to upgrade from no-lock to a SHARED lock,
// or when trying to upgrade from a RESERVED lock to an EXCLUSIVE
// lock. It does *not* invoke the busy handler when upgrading from
// SHARED to RESERVED, or when upgrading from SHARED to EXCLUSIVE
// (which occurs during hot-journal rollback). Summary:
//
// Transition | Invokes xBusyHandler
// --------------------------------------------------------
// NO_LOCK -> SHARED_LOCK | Yes
// SHARED_LOCK -> RESERVED_LOCK | No
// SHARED_LOCK -> EXCLUSIVE_LOCK | No
// RESERVED_LOCK -> EXCLUSIVE_LOCK | Yes
//
// If the busy-handler callback returns non-zero, the lock is
// retried. If it returns zero, then the SQLITE_BUSY error is
// returned to the caller of the pager API function.
func Xsqlite3PagerSetBusyHandler(tls *libc.TLS, pPager uintptr, xBusyHandler uintptr, pBusyHandlerArg uintptr) {
var ap uintptr
(*Pager)(unsafe.Pointer(pPager)).FxBusyHandler = xBusyHandler
(*Pager)(unsafe.Pointer(pPager)).FpBusyHandlerArg = pBusyHandlerArg
ap = pPager + 232
Xsqlite3OsFileControlHint(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, SQLITE_FCNTL_BUSYHANDLER, ap)
}
// Change the page size used by the Pager object. The new page size
// is passed in *pPageSize.
//
// If the pager is in the error state when this function is called, it
// is a no-op. The value returned is the error state error code (i.e.
// one of SQLITE_IOERR, an SQLITE_IOERR_xxx sub-code or SQLITE_FULL).
//
// Otherwise, if all of the following are true:
//
// - the new page size (value of *pPageSize) is valid (a power
// of two between 512 and SQLITE_MAX_PAGE_SIZE, inclusive), and
//
// - there are no outstanding page references, and
//
// - the database is either not an in-memory database or it is
// an in-memory database that currently consists of zero pages.
//
// then the pager object page size is set to *pPageSize.
//
// If the page size is changed, then this function uses sqlite3PagerMalloc()
// to obtain a new Pager.pTmpSpace buffer. If this allocation attempt
// fails, SQLITE_NOMEM is returned and the page size remains unchanged.
// In all other cases, SQLITE_OK is returned.
//
// If the page size is not changed, either because one of the enumerated
// conditions above is not true, the pager was in error state when this
// function was called, or because the memory allocation attempt failed,
// then *pPageSize is set to the old, retained page size before returning.
func Xsqlite3PagerSetPagesize(tls *libc.TLS, pPager uintptr, pPageSize uintptr, nReserve int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
var pageSize U32 = *(*U32)(unsafe.Pointer(pPageSize))
if (int32((*Pager)(unsafe.Pointer(pPager)).FmemDb) == 0 || (*Pager)(unsafe.Pointer(pPager)).FdbSize == Pgno(0)) &&
Xsqlite3PcacheRefCount(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache) == 0 &&
pageSize != 0 && pageSize != U32((*Pager)(unsafe.Pointer(pPager)).FpageSize) {
var pNew uintptr = uintptr(0)
*(*I64)(unsafe.Pointer(bp)) = int64(0)
if int32((*Pager)(unsafe.Pointer(pPager)).FeState) > PAGER_OPEN && (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Ffd)).FpMethods != uintptr(0) {
rc = Xsqlite3OsFileSize(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, bp)
}
if rc == SQLITE_OK {
pNew = Xsqlite3PageMalloc(tls, int32(pageSize+U32(8)))
if !(pNew != 0) {
rc = SQLITE_NOMEM
} else {
libc.X__builtin___memset_chk(tls, pNew+uintptr(pageSize), 0, uint64(8), libc.X__builtin_object_size(tls, pNew+uintptr(pageSize), 0))
}
}
if rc == SQLITE_OK {
pager_reset(tls, pPager)
rc = Xsqlite3PcacheSetPageSize(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache, int32(pageSize))
}
if rc == SQLITE_OK {
Xsqlite3PageFree(tls, (*Pager)(unsafe.Pointer(pPager)).FpTmpSpace)
(*Pager)(unsafe.Pointer(pPager)).FpTmpSpace = pNew
(*Pager)(unsafe.Pointer(pPager)).FdbSize = Pgno((*(*I64)(unsafe.Pointer(bp)) + I64(pageSize) - int64(1)) / I64(pageSize))
(*Pager)(unsafe.Pointer(pPager)).FpageSize = I64(pageSize)
(*Pager)(unsafe.Pointer(pPager)).FlckPgno = U32(Xsqlite3PendingByte)/pageSize + Pgno(1)
} else {
Xsqlite3PageFree(tls, pNew)
}
}
*(*U32)(unsafe.Pointer(pPageSize)) = U32((*Pager)(unsafe.Pointer(pPager)).FpageSize)
if rc == SQLITE_OK {
if nReserve < 0 {
nReserve = int32((*Pager)(unsafe.Pointer(pPager)).FnReserve)
}
(*Pager)(unsafe.Pointer(pPager)).FnReserve = I16(nReserve)
pagerFixMaplimit(tls, pPager)
}
return rc
}
// Return a pointer to the "temporary page" buffer held internally
// by the pager. This is a buffer that is big enough to hold the
// entire content of a database page. This buffer is used internally
// during rollback and will be overwritten whenever a rollback
// occurs. But other modules are free to use it too, as long as
// no rollbacks are happening.
func Xsqlite3PagerTempSpace(tls *libc.TLS, pPager uintptr) uintptr {
return (*Pager)(unsafe.Pointer(pPager)).FpTmpSpace
}
// Attempt to set the maximum database page count if mxPage is positive.
// Make no changes if mxPage is zero or negative. And never reduce the
// maximum page count below the current size of the database.
//
// Regardless of mxPage, return the current maximum page count.
func Xsqlite3PagerMaxPageCount(tls *libc.TLS, pPager uintptr, mxPage Pgno) Pgno {
if mxPage > Pgno(0) {
(*Pager)(unsafe.Pointer(pPager)).FmxPgno = mxPage
}
return (*Pager)(unsafe.Pointer(pPager)).FmxPgno
}
// Read the first N bytes from the beginning of the file into memory
// that pDest points to.
//
// If the pager was opened on a transient file (zFilename==""), or
// opened on a file less than N bytes in size, the output buffer is
// zeroed and SQLITE_OK returned. The rationale for this is that this
// function is used to read database headers, and a new transient or
// zero sized database has a header than consists entirely of zeroes.
//
// If any IO error apart from SQLITE_IOERR_SHORT_READ is encountered,
// the error code is returned to the caller and the contents of the
// output buffer undefined.
func Xsqlite3PagerReadFileheader(tls *libc.TLS, pPager uintptr, N int32, pDest uintptr) int32 {
var rc int32 = SQLITE_OK
libc.X__builtin___memset_chk(tls, pDest, 0, uint64(N), libc.X__builtin_object_size(tls, pDest, 0))
if (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Ffd)).FpMethods != uintptr(0) {
rc = Xsqlite3OsRead(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, pDest, N, int64(0))
if rc == SQLITE_IOERR|int32(2)<<8 {
rc = SQLITE_OK
}
}
return rc
}
// This function may only be called when a read-transaction is open on
// the pager. It returns the total number of pages in the database.
//
// However, if the file is between 1 and <page-size> bytes in size, then
// this is considered a 1 page file.
func Xsqlite3PagerPagecount(tls *libc.TLS, pPager uintptr, pnPage uintptr) {
*(*int32)(unsafe.Pointer(pnPage)) = int32((*Pager)(unsafe.Pointer(pPager)).FdbSize)
}
func pager_wait_on_lock(tls *libc.TLS, pPager uintptr, locktype int32) int32 {
var rc int32
for __ccgo := true; __ccgo; __ccgo = rc == SQLITE_BUSY && (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Pager)(unsafe.Pointer(pPager)).FxBusyHandler})).f(tls, (*Pager)(unsafe.Pointer(pPager)).FpBusyHandlerArg) != 0 {
rc = pagerLockDb(tls, pPager, locktype)
}
return rc
}
// Truncate the in-memory database file image to nPage pages. This
// function does not actually modify the database file on disk. It
// just sets the internal state of the pager object so that the
// truncation will be done when the current transaction is committed.
//
// This function is only called right before committing a transaction.
// Once this function has been called, the transaction must either be
// rolled back or committed. It is not safe to call this function and
// then continue writing to the database.
func Xsqlite3PagerTruncateImage(tls *libc.TLS, pPager uintptr, nPage Pgno) {
(*Pager)(unsafe.Pointer(pPager)).FdbSize = nPage
}
func pagerSyncHotJournal(tls *libc.TLS, pPager uintptr) int32 {
var rc int32 = SQLITE_OK
if !(int32((*Pager)(unsafe.Pointer(pPager)).FnoSync) != 0) {
rc = Xsqlite3OsSync(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, SQLITE_SYNC_NORMAL)
}
if rc == SQLITE_OK {
rc = Xsqlite3OsFileSize(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, pPager+104)
}
return rc
}
func pagerAcquireMapPage(tls *libc.TLS, pPager uintptr, pgno Pgno, pData uintptr, ppPage uintptr) int32 {
var p uintptr
if (*Pager)(unsafe.Pointer(pPager)).FpMmapFreelist != 0 {
*(*uintptr)(unsafe.Pointer(ppPage)) = libc.AssignUintptr(&p, (*Pager)(unsafe.Pointer(pPager)).FpMmapFreelist)
(*Pager)(unsafe.Pointer(pPager)).FpMmapFreelist = (*PgHdr)(unsafe.Pointer(p)).FpDirty
(*PgHdr)(unsafe.Pointer(p)).FpDirty = uintptr(0)
libc.X__builtin___memset_chk(tls, (*PgHdr)(unsafe.Pointer(p)).FpExtra, 0, uint64(8), libc.X__builtin_object_size(tls, (*PgHdr)(unsafe.Pointer(p)).FpExtra, 0))
} else {
*(*uintptr)(unsafe.Pointer(ppPage)) = libc.AssignUintptr(&p, Xsqlite3MallocZero(tls, uint64(unsafe.Sizeof(PgHdr{}))+uint64((*Pager)(unsafe.Pointer(pPager)).FnExtra)))
if p == uintptr(0) {
Xsqlite3OsUnfetch(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, I64(pgno-Pgno(1))*(*Pager)(unsafe.Pointer(pPager)).FpageSize, pData)
return SQLITE_NOMEM
}
(*PgHdr)(unsafe.Pointer(p)).FpExtra = p + 1*72
(*PgHdr)(unsafe.Pointer(p)).Fflags = U16(PGHDR_MMAP)
(*PgHdr)(unsafe.Pointer(p)).FnRef = int16(1)
(*PgHdr)(unsafe.Pointer(p)).FpPager = pPager
}
(*PgHdr)(unsafe.Pointer(p)).Fpgno = pgno
(*PgHdr)(unsafe.Pointer(p)).FpData = pData
(*Pager)(unsafe.Pointer(pPager)).FnMmapOut++
return SQLITE_OK
}
func pagerReleaseMapPage(tls *libc.TLS, pPg uintptr) {
var pPager uintptr = (*PgHdr)(unsafe.Pointer(pPg)).FpPager
(*Pager)(unsafe.Pointer(pPager)).FnMmapOut--
(*PgHdr)(unsafe.Pointer(pPg)).FpDirty = (*Pager)(unsafe.Pointer(pPager)).FpMmapFreelist
(*Pager)(unsafe.Pointer(pPager)).FpMmapFreelist = pPg
Xsqlite3OsUnfetch(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, I64((*PgHdr)(unsafe.Pointer(pPg)).Fpgno-Pgno(1))*(*Pager)(unsafe.Pointer(pPager)).FpageSize, (*PgHdr)(unsafe.Pointer(pPg)).FpData)
}
func pagerFreeMapHdrs(tls *libc.TLS, pPager uintptr) {
var p uintptr
var pNext uintptr
for p = (*Pager)(unsafe.Pointer(pPager)).FpMmapFreelist; p != 0; p = pNext {
pNext = (*PgHdr)(unsafe.Pointer(p)).FpDirty
Xsqlite3_free(tls, p)
}
}
func databaseIsUnmoved(tls *libc.TLS, pPager uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
*(*int32)(unsafe.Pointer(bp)) = 0
var rc int32
if (*Pager)(unsafe.Pointer(pPager)).FtempFile != 0 {
return SQLITE_OK
}
if (*Pager)(unsafe.Pointer(pPager)).FdbSize == Pgno(0) {
return SQLITE_OK
}
rc = Xsqlite3OsFileControl(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, SQLITE_FCNTL_HAS_MOVED, bp)
if rc == SQLITE_NOTFOUND {
rc = SQLITE_OK
} else if rc == SQLITE_OK && *(*int32)(unsafe.Pointer(bp)) != 0 {
rc = SQLITE_READONLY | int32(4)<<8
}
return rc
}
// Shutdown the page cache. Free all memory and close all files.
//
// If a transaction was in progress when this routine is called, that
// transaction is rolled back. All outstanding pages are invalidated
// and their memory is freed. Any attempt to use a page associated
// with this page cache after this function returns will likely
// result in a coredump.
//
// This function always succeeds. If a transaction is active an attempt
// is made to roll it back. If an error occurs during the rollback
// a hot journal may be left in the filesystem but no error is returned
// to the caller.
func Xsqlite3PagerClose(tls *libc.TLS, pPager uintptr, db uintptr) int32 {
var pTmp uintptr = (*Pager)(unsafe.Pointer(pPager)).FpTmpSpace
Xsqlite3BeginBenignMalloc(tls)
pagerFreeMapHdrs(tls, pPager)
(*Pager)(unsafe.Pointer(pPager)).FexclusiveMode = U8(0)
{
var a uintptr = uintptr(0)
if db != 0 && uint64(0) == (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_NoCkptOnClose) &&
SQLITE_OK == databaseIsUnmoved(tls, pPager) {
a = pTmp
}
Xsqlite3WalClose(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, db, int32((*Pager)(unsafe.Pointer(pPager)).FwalSyncFlags), int32((*Pager)(unsafe.Pointer(pPager)).FpageSize), a)
(*Pager)(unsafe.Pointer(pPager)).FpWal = uintptr(0)
}
pager_reset(tls, pPager)
if (*Pager)(unsafe.Pointer(pPager)).FmemDb != 0 {
pager_unlock(tls, pPager)
} else {
if (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fjfd)).FpMethods != uintptr(0) {
pager_error(tls, pPager, pagerSyncHotJournal(tls, pPager))
}
pagerUnlockAndRollback(tls, pPager)
}
Xsqlite3EndBenignMalloc(tls)
Xsqlite3OsClose(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd)
Xsqlite3OsClose(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd)
Xsqlite3PageFree(tls, pTmp)
Xsqlite3PcacheClose(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache)
Xsqlite3_free(tls, pPager)
return SQLITE_OK
}
// Increment the reference count for page pPg.
func Xsqlite3PagerRef(tls *libc.TLS, pPg uintptr) {
Xsqlite3PcacheRef(tls, pPg)
}
func syncJournal(tls *libc.TLS, pPager uintptr, newHdr int32) int32 {
bp := tls.Alloc(20)
defer tls.Free(20)
var rc int32
rc = Xsqlite3PagerExclusiveLock(tls, pPager)
if rc != SQLITE_OK {
return rc
}
if !(int32((*Pager)(unsafe.Pointer(pPager)).FnoSync) != 0) {
if (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fjfd)).FpMethods != uintptr(0) && int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode) != PAGER_JOURNALMODE_MEMORY {
var iDc int32 = Xsqlite3OsDeviceCharacteristics(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd)
if 0 == iDc&SQLITE_IOCAP_SAFE_APPEND {
var iNextHdrOffset I64
libc.X__builtin___memcpy_chk(tls, bp, uintptr(unsafe.Pointer(&aJournalMagic)), uint64(unsafe.Sizeof(aJournalMagic)), libc.X__builtin_object_size(tls, bp, 0))
Xsqlite3Put4byte(tls, bp+8, uint32((*Pager)(unsafe.Pointer(pPager)).FnRec))
iNextHdrOffset = journalHdrOffset(tls, pPager)
rc = Xsqlite3OsRead(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, bp+12, 8, iNextHdrOffset)
if rc == SQLITE_OK && 0 == libc.Xmemcmp(tls, bp+12, uintptr(unsafe.Pointer(&aJournalMagic)), uint64(8)) {
rc = Xsqlite3OsWrite(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, uintptr(unsafe.Pointer(&zerobyte)), 1, iNextHdrOffset)
}
if rc != SQLITE_OK && rc != SQLITE_IOERR|int32(2)<<8 {
return rc
}
if (*Pager)(unsafe.Pointer(pPager)).FfullSync != 0 && 0 == iDc&SQLITE_IOCAP_SEQUENTIAL {
rc = Xsqlite3OsSync(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, int32((*Pager)(unsafe.Pointer(pPager)).FsyncFlags))
if rc != SQLITE_OK {
return rc
}
}
rc = Xsqlite3OsWrite(tls,
(*Pager)(unsafe.Pointer(pPager)).Fjfd, bp, int32(unsafe.Sizeof([12]U8{})), (*Pager)(unsafe.Pointer(pPager)).FjournalHdr)
if rc != SQLITE_OK {
return rc
}
}
if 0 == iDc&SQLITE_IOCAP_SEQUENTIAL {
rc = Xsqlite3OsSync(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, int32((*Pager)(unsafe.Pointer(pPager)).FsyncFlags)|func() int32 {
if int32((*Pager)(unsafe.Pointer(pPager)).FsyncFlags) == SQLITE_SYNC_FULL {
return SQLITE_SYNC_DATAONLY
}
return 0
}())
if rc != SQLITE_OK {
return rc
}
}
(*Pager)(unsafe.Pointer(pPager)).FjournalHdr = (*Pager)(unsafe.Pointer(pPager)).FjournalOff
if newHdr != 0 && 0 == iDc&SQLITE_IOCAP_SAFE_APPEND {
(*Pager)(unsafe.Pointer(pPager)).FnRec = 0
rc = writeJournalHdr(tls, pPager)
if rc != SQLITE_OK {
return rc
}
}
} else {
(*Pager)(unsafe.Pointer(pPager)).FjournalHdr = (*Pager)(unsafe.Pointer(pPager)).FjournalOff
}
}
Xsqlite3PcacheClearSyncFlags(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache)
(*Pager)(unsafe.Pointer(pPager)).FeState = U8(PAGER_WRITER_DBMOD)
return SQLITE_OK
}
var zerobyte U8 = U8(0)
func pager_write_pagelist(tls *libc.TLS, pPager uintptr, pList uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
if !((*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Ffd)).FpMethods != uintptr(0)) {
rc = pagerOpentemp(tls, pPager, (*Pager)(unsafe.Pointer(pPager)).Ffd, int32((*Pager)(unsafe.Pointer(pPager)).FvfsFlags))
}
if rc == SQLITE_OK &&
(*Pager)(unsafe.Pointer(pPager)).FdbHintSize < (*Pager)(unsafe.Pointer(pPager)).FdbSize &&
((*PgHdr)(unsafe.Pointer(pList)).FpDirty != 0 || (*PgHdr)(unsafe.Pointer(pList)).Fpgno > (*Pager)(unsafe.Pointer(pPager)).FdbHintSize) {
*(*Sqlite3_int64)(unsafe.Pointer(bp)) = (*Pager)(unsafe.Pointer(pPager)).FpageSize * Sqlite3_int64((*Pager)(unsafe.Pointer(pPager)).FdbSize)
Xsqlite3OsFileControlHint(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, SQLITE_FCNTL_SIZE_HINT, bp)
(*Pager)(unsafe.Pointer(pPager)).FdbHintSize = (*Pager)(unsafe.Pointer(pPager)).FdbSize
}
for rc == SQLITE_OK && pList != 0 {
var pgno Pgno = (*PgHdr)(unsafe.Pointer(pList)).Fpgno
if pgno <= (*Pager)(unsafe.Pointer(pPager)).FdbSize && 0 == int32((*PgHdr)(unsafe.Pointer(pList)).Fflags)&PGHDR_DONT_WRITE {
var offset I64 = I64(pgno-Pgno(1)) * (*Pager)(unsafe.Pointer(pPager)).FpageSize
var pData uintptr
if (*PgHdr)(unsafe.Pointer(pList)).Fpgno == Pgno(1) {
pager_write_changecounter(tls, pList)
}
pData = (*PgHdr)(unsafe.Pointer(pList)).FpData
rc = Xsqlite3OsWrite(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, pData, int32((*Pager)(unsafe.Pointer(pPager)).FpageSize), offset)
if pgno == Pgno(1) {
libc.X__builtin___memcpy_chk(tls, pPager+136, pData+24, uint64(unsafe.Sizeof([16]int8{})), libc.X__builtin_object_size(tls, pPager+136, 0))
}
if pgno > (*Pager)(unsafe.Pointer(pPager)).FdbFileSize {
(*Pager)(unsafe.Pointer(pPager)).FdbFileSize = pgno
}
*(*int32)(unsafe.Pointer(pPager + 248 + 2*4))++
Xsqlite3BackupUpdate(tls, (*Pager)(unsafe.Pointer(pPager)).FpBackup, pgno, (*PgHdr)(unsafe.Pointer(pList)).FpData)
} else {
}
pList = (*PgHdr)(unsafe.Pointer(pList)).FpDirty
}
return rc
}
func openSubJournal(tls *libc.TLS, pPager uintptr) int32 {
var rc int32 = SQLITE_OK
if !((*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fsjfd)).FpMethods != uintptr(0)) {
var flags int32 = SQLITE_OPEN_SUBJOURNAL | SQLITE_OPEN_READWRITE |
SQLITE_OPEN_CREATE | SQLITE_OPEN_EXCLUSIVE |
SQLITE_OPEN_DELETEONCLOSE
var nStmtSpill int32 = Xsqlite3Config.FnStmtSpill
if int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode) == PAGER_JOURNALMODE_MEMORY || (*Pager)(unsafe.Pointer(pPager)).FsubjInMemory != 0 {
nStmtSpill = -1
}
rc = Xsqlite3JournalOpen(tls, (*Pager)(unsafe.Pointer(pPager)).FpVfs, uintptr(0), (*Pager)(unsafe.Pointer(pPager)).Fsjfd, flags, nStmtSpill)
}
return rc
}
func subjournalPage(tls *libc.TLS, pPg uintptr) int32 {
var rc int32 = SQLITE_OK
var pPager uintptr = (*PgHdr)(unsafe.Pointer(pPg)).FpPager
if int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode) != PAGER_JOURNALMODE_OFF {
rc = openSubJournal(tls, pPager)
if rc == SQLITE_OK {
var pData uintptr = (*PgHdr)(unsafe.Pointer(pPg)).FpData
var offset I64 = I64((*Pager)(unsafe.Pointer(pPager)).FnSubRec) * (int64(4) + (*Pager)(unsafe.Pointer(pPager)).FpageSize)
var pData2 uintptr
pData2 = pData
rc = write32bits(tls, (*Pager)(unsafe.Pointer(pPager)).Fsjfd, offset, (*PgHdr)(unsafe.Pointer(pPg)).Fpgno)
if rc == SQLITE_OK {
rc = Xsqlite3OsWrite(tls, (*Pager)(unsafe.Pointer(pPager)).Fsjfd, pData2, int32((*Pager)(unsafe.Pointer(pPager)).FpageSize), offset+int64(4))
}
}
}
if rc == SQLITE_OK {
(*Pager)(unsafe.Pointer(pPager)).FnSubRec++
rc = addToSavepointBitvecs(tls, pPager, (*PgHdr)(unsafe.Pointer(pPg)).Fpgno)
}
return rc
}
func subjournalPageIfRequired(tls *libc.TLS, pPg uintptr) int32 {
if subjRequiresPage(tls, pPg) != 0 {
return subjournalPage(tls, pPg)
} else {
return SQLITE_OK
}
return int32(0)
}
func pagerStress(tls *libc.TLS, p uintptr, pPg uintptr) int32 {
var pPager uintptr = p
var rc int32 = SQLITE_OK
if (*Pager)(unsafe.Pointer(pPager)).FerrCode != 0 {
return SQLITE_OK
}
if (*Pager)(unsafe.Pointer(pPager)).FdoNotSpill != 0 &&
(int32((*Pager)(unsafe.Pointer(pPager)).FdoNotSpill)&(SPILLFLAG_ROLLBACK|SPILLFLAG_OFF) != 0 ||
int32((*PgHdr)(unsafe.Pointer(pPg)).Fflags)&PGHDR_NEED_SYNC != 0) {
return SQLITE_OK
}
*(*int32)(unsafe.Pointer(pPager + 248 + 3*4))++
(*PgHdr)(unsafe.Pointer(pPg)).FpDirty = uintptr(0)
if (*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0) {
rc = subjournalPageIfRequired(tls, pPg)
if rc == SQLITE_OK {
rc = pagerWalFrames(tls, pPager, pPg, uint32(0), 0)
}
} else {
if int32((*PgHdr)(unsafe.Pointer(pPg)).Fflags)&PGHDR_NEED_SYNC != 0 ||
int32((*Pager)(unsafe.Pointer(pPager)).FeState) == PAGER_WRITER_CACHEMOD {
rc = syncJournal(tls, pPager, 1)
}
if rc == SQLITE_OK {
rc = pager_write_pagelist(tls, pPager, pPg)
}
}
if rc == SQLITE_OK {
Xsqlite3PcacheMakeClean(tls, pPg)
}
return pager_error(tls, pPager, rc)
}
// Flush all unreferenced dirty pages to disk.
func Xsqlite3PagerFlush(tls *libc.TLS, pPager uintptr) int32 {
var rc int32 = (*Pager)(unsafe.Pointer(pPager)).FerrCode
if !(int32((*Pager)(unsafe.Pointer(pPager)).FmemDb) != 0) {
var pList uintptr = Xsqlite3PcacheDirtyList(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache)
for rc == SQLITE_OK && pList != 0 {
var pNext uintptr = (*PgHdr)(unsafe.Pointer(pList)).FpDirty
if int32((*PgHdr)(unsafe.Pointer(pList)).FnRef) == 0 {
rc = pagerStress(tls, pPager, pList)
}
pList = pNext
}
}
return rc
}
// Allocate and initialize a new Pager object and put a pointer to it
// in *ppPager. The pager should eventually be freed by passing it
// to sqlite3PagerClose().
//
// The zFilename argument is the path to the database file to open.
// If zFilename is NULL then a randomly-named temporary file is created
// and used as the file to be cached. Temporary files are be deleted
// automatically when they are closed. If zFilename is ":memory:" then
// all information is held in cache. It is never written to disk.
// This can be used to implement an in-memory database.
//
// The nExtra parameter specifies the number of bytes of space allocated
// along with each page reference. This space is available to the user
// via the sqlite3PagerGetExtra() API. When a new page is allocated, the
// first 8 bytes of this space are zeroed but the remainder is uninitialized.
// (The extra space is used by btree as the MemPage object.)
//
// The flags argument is used to specify properties that affect the
// operation of the pager. It should be passed some bitwise combination
// of the PAGER_* flags.
//
// The vfsFlags parameter is a bitmask to pass to the flags parameter
// of the xOpen() method of the supplied VFS when opening files.
//
// If the pager object is allocated and the specified file opened
// successfully, SQLITE_OK is returned and *ppPager set to point to
// the new pager object. If an error occurs, *ppPager is set to NULL
// and error code returned. This function may return SQLITE_NOMEM
// (sqlite3Malloc() is used to allocate memory), SQLITE_CANTOPEN or
// various SQLITE_IO_XXX errors.
func Xsqlite3PagerOpen(tls *libc.TLS, pVfs uintptr, ppPager uintptr, zFilename uintptr, nExtra int32, flags int32, vfsFlags int32, xReinit uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var pPtr uintptr
_ = pPtr
var rc int32
var tempFile int32
var memDb int32
var memJM int32
var readOnly int32
var journalFileSize int32
var zPathname uintptr
var nPathname int32
var useJournal int32
var pcacheSize int32
var zUri uintptr
var nUriByte int32
var z uintptr
var iDc int32
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
rc = SQLITE_OK
tempFile = 0
memDb = 0
memJM = 0
readOnly = 0
zPathname = uintptr(0)
nPathname = 0
useJournal = libc.Bool32(flags&PAGER_OMIT_JOURNAL == 0)
pcacheSize = Xsqlite3PcacheSize(tls)
*(*U32)(unsafe.Pointer(bp + 12)) = U32(SQLITE_DEFAULT_PAGE_SIZE)
zUri = uintptr(0)
nUriByte = 1
journalFileSize = (Xsqlite3JournalSize(tls, pVfs) + 7) & libc.CplInt32(7)
*(*uintptr)(unsafe.Pointer(ppPager)) = uintptr(0)
if !(flags&PAGER_MEMORY != 0) {
goto __1
}
memDb = 1
if !(zFilename != 0 && *(*int8)(unsafe.Pointer(zFilename)) != 0) {
goto __2
}
zPathname = Xsqlite3DbStrDup(tls, uintptr(0), zFilename)
if !(zPathname == uintptr(0)) {
goto __3
}
return SQLITE_NOMEM
__3:
;
nPathname = Xsqlite3Strlen30(tls, zPathname)
zFilename = uintptr(0)
__2:
;
__1:
;
if !(zFilename != 0 && *(*int8)(unsafe.Pointer(zFilename)) != 0) {
goto __4
}
nPathname = (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FmxPathname + 1
zPathname = Xsqlite3DbMallocRaw(tls, uintptr(0), uint64(nPathname*2))
if !(zPathname == uintptr(0)) {
goto __5
}
return SQLITE_NOMEM
__5:
;
*(*int8)(unsafe.Pointer(zPathname)) = int8(0)
rc = Xsqlite3OsFullPathname(tls, pVfs, zFilename, nPathname, zPathname)
if !(rc != SQLITE_OK) {
goto __6
}
if !(rc == SQLITE_OK|int32(2)<<8) {
goto __7
}
if !(vfsFlags&SQLITE_OPEN_NOFOLLOW != 0) {
goto __8
}
rc = SQLITE_CANTOPEN | int32(6)<<8
goto __9
__8:
rc = SQLITE_OK
__9:
;
__7:
;
__6:
;
nPathname = Xsqlite3Strlen30(tls, zPathname)
z = libc.AssignUintptr(&zUri, zFilename+uintptr(Xsqlite3Strlen30(tls, zFilename)+1))
__10:
if !(*(*int8)(unsafe.Pointer(z)) != 0) {
goto __11
}
z += uintptr(libc.Xstrlen(tls, z) + uint64(1))
z += uintptr(libc.Xstrlen(tls, z) + uint64(1))
goto __10
__11:
;
nUriByte = int32((int64(z+1) - int64(zUri)) / 1)
if !(rc == SQLITE_OK && nPathname+8 > (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FmxPathname) {
goto __12
}
rc = Xsqlite3CantopenError(tls, 60235)
__12:
;
if !(rc != SQLITE_OK) {
goto __13
}
Xsqlite3DbFree(tls, uintptr(0), zPathname)
return rc
__13:
;
__4:
;
pPtr = Xsqlite3MallocZero(tls,
(uint64(unsafe.Sizeof(Pager{}))+uint64(7))&libc.Uint64FromInt32(libc.CplInt32(7))+uint64((pcacheSize+7)&libc.CplInt32(7))+uint64(((*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FszOsFile+7)&libc.CplInt32(7))+uint64(journalFileSize*2)+uint64(unsafe.Sizeof(uintptr(0)))+uint64(4)+uint64(nPathname)+uint64(1)+uint64(nUriByte)+uint64(nPathname)+uint64(8)+uint64(1)+uint64(nPathname)+uint64(4)+uint64(1)+uint64(3))
if !!(pPtr != 0) {
goto __14
}
Xsqlite3DbFree(tls, uintptr(0), zPathname)
return SQLITE_NOMEM
__14:
;
*(*uintptr)(unsafe.Pointer(bp)) = pPtr
pPtr += uintptr((uint64(unsafe.Sizeof(Pager{})) + uint64(7)) & libc.Uint64FromInt32(libc.CplInt32(7)))
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpPCache = pPtr
pPtr += uintptr((pcacheSize + 7) & libc.CplInt32(7))
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Ffd = pPtr
pPtr += uintptr(((*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FszOsFile + 7) & libc.CplInt32(7))
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Fsjfd = pPtr
pPtr += uintptr(journalFileSize)
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Fjfd = pPtr
pPtr += uintptr(journalFileSize)
libc.X__builtin___memcpy_chk(tls, pPtr, bp, uint64(unsafe.Sizeof(uintptr(0))), libc.X__builtin_object_size(tls, pPtr, 0))
pPtr += unsafe.Sizeof(uintptr(0))
pPtr += uintptr(4)
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FzFilename = pPtr
if !(nPathname > 0) {
goto __15
}
libc.X__builtin___memcpy_chk(tls, pPtr, zPathname, uint64(nPathname), libc.X__builtin_object_size(tls, pPtr, 0))
pPtr += uintptr(nPathname + 1)
if !(zUri != 0) {
goto __16
}
libc.X__builtin___memcpy_chk(tls, pPtr, zUri, uint64(nUriByte), libc.X__builtin_object_size(tls, pPtr, 0))
pPtr += uintptr(nUriByte)
goto __17
__16:
pPtr++
__17:
;
__15:
;
if !(nPathname > 0) {
goto __18
}
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FzJournal = pPtr
libc.X__builtin___memcpy_chk(tls, pPtr, zPathname, uint64(nPathname), libc.X__builtin_object_size(tls, pPtr, 0))
pPtr += uintptr(nPathname)
libc.X__builtin___memcpy_chk(tls, pPtr, ts+4324, uint64(8), libc.X__builtin_object_size(tls, pPtr, 0))
pPtr += uintptr(8 + 1)
goto __19
__18:
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FzJournal = uintptr(0)
__19:
;
if !(nPathname > 0) {
goto __20
}
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FzWal = pPtr
libc.X__builtin___memcpy_chk(tls, pPtr, zPathname, uint64(nPathname), libc.X__builtin_object_size(tls, pPtr, 0))
pPtr += uintptr(nPathname)
libc.X__builtin___memcpy_chk(tls, pPtr, ts+4333, uint64(4), libc.X__builtin_object_size(tls, pPtr, 0))
pPtr += uintptr(4 + 1)
goto __21
__20:
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FzWal = uintptr(0)
__21:
;
_ = pPtr
if !(nPathname != 0) {
goto __22
}
Xsqlite3DbFree(tls, uintptr(0), zPathname)
__22:
;
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpVfs = pVfs
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FvfsFlags = U32(vfsFlags)
if !(zFilename != 0 && *(*int8)(unsafe.Pointer(zFilename)) != 0) {
goto __23
}
*(*int32)(unsafe.Pointer(bp + 8)) = 0
rc = Xsqlite3OsOpen(tls, pVfs, (*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FzFilename, (*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Ffd, vfsFlags, bp+8)
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FmemVfs = U8(libc.AssignInt32(&memJM, libc.Bool32(*(*int32)(unsafe.Pointer(bp + 8))&SQLITE_OPEN_MEMORY != 0)))
readOnly = libc.Bool32(*(*int32)(unsafe.Pointer(bp + 8))&SQLITE_OPEN_READONLY != 0)
if !(rc == SQLITE_OK) {
goto __25
}
iDc = Xsqlite3OsDeviceCharacteristics(tls, (*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Ffd)
if !!(readOnly != 0) {
goto __26
}
setSectorSize(tls, *(*uintptr)(unsafe.Pointer(bp)))
if !(*(*U32)(unsafe.Pointer(bp + 12)) < (*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FsectorSize) {
goto __27
}
if !((*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FsectorSize > U32(SQLITE_MAX_DEFAULT_PAGE_SIZE)) {
goto __28
}
*(*U32)(unsafe.Pointer(bp + 12)) = U32(SQLITE_MAX_DEFAULT_PAGE_SIZE)
goto __29
__28:
*(*U32)(unsafe.Pointer(bp + 12)) = (*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FsectorSize
__29:
;
__27:
;
__26:
;
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FnoLock = U8(Xsqlite3_uri_boolean(tls, (*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FzFilename, ts+4338, 0))
if !(iDc&SQLITE_IOCAP_IMMUTABLE != 0 ||
Xsqlite3_uri_boolean(tls, (*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FzFilename, ts+4345, 0) != 0) {
goto __30
}
vfsFlags = vfsFlags | SQLITE_OPEN_READONLY
goto act_like_temp_file
__30:
;
__25:
;
goto __24
__23:
act_like_temp_file:
tempFile = 1
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FeState = U8(PAGER_READER)
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FeLock = U8(EXCLUSIVE_LOCK)
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FnoLock = U8(1)
readOnly = vfsFlags & SQLITE_OPEN_READONLY
__24:
;
if !(rc == SQLITE_OK) {
goto __31
}
rc = Xsqlite3PagerSetPagesize(tls, *(*uintptr)(unsafe.Pointer(bp)), bp+12, -1)
__31:
;
if !(rc == SQLITE_OK) {
goto __32
}
nExtra = (nExtra + 7) & libc.CplInt32(7)
rc = Xsqlite3PcacheOpen(tls, int32(*(*U32)(unsafe.Pointer(bp + 12))), nExtra, libc.BoolInt32(!(memDb != 0)),
func() uintptr {
if !(memDb != 0) {
return *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{pagerStress}))
}
return uintptr(0)
}(), *(*uintptr)(unsafe.Pointer(bp)), (*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpPCache)
__32:
;
if !(rc != SQLITE_OK) {
goto __33
}
Xsqlite3OsClose(tls, (*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Ffd)
Xsqlite3PageFree(tls, (*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpTmpSpace)
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp)))
return rc
__33:
;
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FuseJournal = U8(useJournal)
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FmxPgno = Pgno(SQLITE_MAX_PAGE_COUNT)
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FtempFile = U8(tempFile)
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FexclusiveMode = U8(tempFile)
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FchangeCountDone = (*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FtempFile
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FmemDb = U8(memDb)
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FreadOnly = U8(readOnly)
Xsqlite3PagerSetFlags(tls, *(*uintptr)(unsafe.Pointer(bp)), uint32(SQLITE_DEFAULT_SYNCHRONOUS+1|PAGER_CACHESPILL))
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FnExtra = U16(nExtra)
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FjournalSizeLimit = int64(-1)
setSectorSize(tls, *(*uintptr)(unsafe.Pointer(bp)))
if !!(useJournal != 0) {
goto __34
}
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FjournalMode = U8(PAGER_JOURNALMODE_OFF)
goto __35
__34:
if !(memDb != 0 || memJM != 0) {
goto __36
}
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FjournalMode = U8(PAGER_JOURNALMODE_MEMORY)
__36:
;
__35:
;
(*Pager)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FxReiniter = xReinit
setGetterMethod(tls, *(*uintptr)(unsafe.Pointer(bp)))
*(*uintptr)(unsafe.Pointer(ppPager)) = *(*uintptr)(unsafe.Pointer(bp))
return SQLITE_OK
}
// Return the sqlite3_file for the main database given the name
// of the corresonding WAL or Journal name as passed into
// xOpen.
func Xsqlite3_database_file_object(tls *libc.TLS, zName uintptr) uintptr {
var pPager uintptr
for int32(*(*int8)(unsafe.Pointer(zName + libc.UintptrFromInt32(-1)))) != 0 || int32(*(*int8)(unsafe.Pointer(zName + libc.UintptrFromInt32(-2)))) != 0 || int32(*(*int8)(unsafe.Pointer(zName + libc.UintptrFromInt32(-3)))) != 0 || int32(*(*int8)(unsafe.Pointer(zName + libc.UintptrFromInt32(-4)))) != 0 {
zName--
}
pPager = *(*uintptr)(unsafe.Pointer(zName - uintptr(4) - uintptr(uint64(unsafe.Sizeof(uintptr(0))))))
return (*Pager)(unsafe.Pointer(pPager)).Ffd
}
func hasHotJournal(tls *libc.TLS, pPager uintptr, pExists uintptr) int32 {
bp := tls.Alloc(17)
defer tls.Free(17)
var pVfs uintptr = (*Pager)(unsafe.Pointer(pPager)).FpVfs
var rc int32 = SQLITE_OK
*(*int32)(unsafe.Pointer(bp)) = 1
var jrnlOpen int32 = libc.BoolInt32(!!((*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fjfd)).FpMethods != uintptr(0)))
*(*int32)(unsafe.Pointer(pExists)) = 0
if !(jrnlOpen != 0) {
rc = Xsqlite3OsAccess(tls, pVfs, (*Pager)(unsafe.Pointer(pPager)).FzJournal, SQLITE_ACCESS_EXISTS, bp)
}
if rc == SQLITE_OK && *(*int32)(unsafe.Pointer(bp)) != 0 {
*(*int32)(unsafe.Pointer(bp + 4)) = 0
rc = Xsqlite3OsCheckReservedLock(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, bp+4)
if rc == SQLITE_OK && !(*(*int32)(unsafe.Pointer(bp + 4)) != 0) {
rc = pagerPagecount(tls, pPager, bp+8)
if rc == SQLITE_OK {
if *(*Pgno)(unsafe.Pointer(bp + 8)) == Pgno(0) && !(jrnlOpen != 0) {
Xsqlite3BeginBenignMalloc(tls)
if pagerLockDb(tls, pPager, RESERVED_LOCK) == SQLITE_OK {
Xsqlite3OsDelete(tls, pVfs, (*Pager)(unsafe.Pointer(pPager)).FzJournal, 0)
if !(int32((*Pager)(unsafe.Pointer(pPager)).FexclusiveMode) != 0) {
pagerUnlockDb(tls, pPager, SHARED_LOCK)
}
}
Xsqlite3EndBenignMalloc(tls)
} else {
if !(jrnlOpen != 0) {
*(*int32)(unsafe.Pointer(bp + 12)) = SQLITE_OPEN_READONLY | SQLITE_OPEN_MAIN_JOURNAL
rc = Xsqlite3OsOpen(tls, pVfs, (*Pager)(unsafe.Pointer(pPager)).FzJournal, (*Pager)(unsafe.Pointer(pPager)).Fjfd, *(*int32)(unsafe.Pointer(bp + 12)), bp+12)
}
if rc == SQLITE_OK {
*(*U8)(unsafe.Pointer(bp + 16)) = U8(0)
rc = Xsqlite3OsRead(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, bp+16, 1, int64(0))
if rc == SQLITE_IOERR|int32(2)<<8 {
rc = SQLITE_OK
}
if !(jrnlOpen != 0) {
Xsqlite3OsClose(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd)
}
*(*int32)(unsafe.Pointer(pExists)) = libc.Bool32(int32(*(*U8)(unsafe.Pointer(bp + 16))) != 0)
} else if rc == SQLITE_CANTOPEN {
*(*int32)(unsafe.Pointer(pExists)) = 1
rc = SQLITE_OK
}
}
}
}
}
return rc
}
// This function is called to obtain a shared lock on the database file.
// It is illegal to call sqlite3PagerGet() until after this function
// has been successfully called. If a shared-lock is already held when
// this function is called, it is a no-op.
//
// The following operations are also performed by this function.
//
// 1. If the pager is currently in PAGER_OPEN state (no lock held
// on the database file), then an attempt is made to obtain a
// SHARED lock on the database file. Immediately after obtaining
// the SHARED lock, the file-system is checked for a hot-journal,
// which is played back if present. Following any hot-journal
// rollback, the contents of the cache are validated by checking
// the 'change-counter' field of the database file header and
// discarded if they are found to be invalid.
//
// 2. If the pager is running in exclusive-mode, and there are currently
// no outstanding references to any pages, and is in the error state,
// then an attempt is made to clear the error state by discarding
// the contents of the page cache and rolling back any open journal
// file.
//
// If everything is successful, SQLITE_OK is returned. If an IO error
// occurs while locking the database, checking for a hot-journal file or
// rolling back a journal file, the IO error code is returned.
func Xsqlite3PagerSharedLock(tls *libc.TLS, pPager uintptr) int32 {
bp := tls.Alloc(28)
defer tls.Free(28)
var rc int32
var f int32
var pVfs uintptr
rc = SQLITE_OK
if !(!((*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0)) && int32((*Pager)(unsafe.Pointer(pPager)).FeState) == PAGER_OPEN) {
goto __1
}
*(*int32)(unsafe.Pointer(bp)) = 1
rc = pager_wait_on_lock(tls, pPager, SHARED_LOCK)
if !(rc != SQLITE_OK) {
goto __2
}
goto failed
__2:
;
if !(int32((*Pager)(unsafe.Pointer(pPager)).FeLock) <= SHARED_LOCK) {
goto __3
}
rc = hasHotJournal(tls, pPager, bp)
__3:
;
if !(rc != SQLITE_OK) {
goto __4
}
goto failed
__4:
;
if !(*(*int32)(unsafe.Pointer(bp)) != 0) {
goto __5
}
if !((*Pager)(unsafe.Pointer(pPager)).FreadOnly != 0) {
goto __6
}
rc = SQLITE_READONLY | int32(3)<<8
goto failed
__6:
;
rc = pagerLockDb(tls, pPager, EXCLUSIVE_LOCK)
if !(rc != SQLITE_OK) {
goto __7
}
goto failed
__7:
;
if !(!((*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fjfd)).FpMethods != uintptr(0)) && int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode) != PAGER_JOURNALMODE_OFF) {
goto __8
}
pVfs = (*Pager)(unsafe.Pointer(pPager)).FpVfs
rc = Xsqlite3OsAccess(tls,
pVfs, (*Pager)(unsafe.Pointer(pPager)).FzJournal, SQLITE_ACCESS_EXISTS, bp+4)
if !(rc == SQLITE_OK && *(*int32)(unsafe.Pointer(bp + 4)) != 0) {
goto __9
}
*(*int32)(unsafe.Pointer(bp + 8)) = 0
f = SQLITE_OPEN_READWRITE | SQLITE_OPEN_MAIN_JOURNAL
rc = Xsqlite3OsOpen(tls, pVfs, (*Pager)(unsafe.Pointer(pPager)).FzJournal, (*Pager)(unsafe.Pointer(pPager)).Fjfd, f, bp+8)
if !(rc == SQLITE_OK && *(*int32)(unsafe.Pointer(bp + 8))&SQLITE_OPEN_READONLY != 0) {
goto __10
}
rc = Xsqlite3CantopenError(tls, 60754)
Xsqlite3OsClose(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd)
__10:
;
__9:
;
__8:
;
if !((*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fjfd)).FpMethods != uintptr(0)) {
goto __11
}
rc = pagerSyncHotJournal(tls, pPager)
if !(rc == SQLITE_OK) {
goto __13
}
rc = pager_playback(tls, pPager, libc.BoolInt32(!((*Pager)(unsafe.Pointer(pPager)).FtempFile != 0)))
(*Pager)(unsafe.Pointer(pPager)).FeState = U8(PAGER_OPEN)
__13:
;
goto __12
__11:
if !!(int32((*Pager)(unsafe.Pointer(pPager)).FexclusiveMode) != 0) {
goto __14
}
pagerUnlockDb(tls, pPager, SHARED_LOCK)
__14:
;
__12:
;
if !(rc != SQLITE_OK) {
goto __15
}
pager_error(tls, pPager, rc)
goto failed
__15:
;
__5:
;
if !(!(int32((*Pager)(unsafe.Pointer(pPager)).FtempFile) != 0) && (*Pager)(unsafe.Pointer(pPager)).FhasHeldSharedLock != 0) {
goto __16
}
rc = Xsqlite3OsRead(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, bp+12, int32(unsafe.Sizeof([16]int8{})), int64(24))
if !(rc != SQLITE_OK) {
goto __17
}
if !(rc != SQLITE_IOERR|int32(2)<<8) {
goto __18
}
goto failed
__18:
;
libc.X__builtin___memset_chk(tls, bp+12, 0, uint64(unsafe.Sizeof([16]int8{})), libc.X__builtin_object_size(tls, bp+12, 0))
__17:
;
if !(libc.Xmemcmp(tls, pPager+136, bp+12, uint64(unsafe.Sizeof([16]int8{}))) != 0) {
goto __19
}
pager_reset(tls, pPager)
if !((*Pager)(unsafe.Pointer(pPager)).FbUseFetch != 0) {
goto __20
}
Xsqlite3OsUnfetch(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, int64(0), uintptr(0))
__20:
;
__19:
;
__16:
;
rc = pagerOpenWalIfPresent(tls, pPager)
__1:
;
if !((*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0)) {
goto __21
}
rc = pagerBeginReadTransaction(tls, pPager)
__21:
;
if !(int32((*Pager)(unsafe.Pointer(pPager)).FtempFile) == 0 && int32((*Pager)(unsafe.Pointer(pPager)).FeState) == PAGER_OPEN && rc == SQLITE_OK) {
goto __22
}
rc = pagerPagecount(tls, pPager, pPager+32)
__22:
;
failed:
if !(rc != SQLITE_OK) {
goto __23
}
pager_unlock(tls, pPager)
goto __24
__23:
(*Pager)(unsafe.Pointer(pPager)).FeState = U8(PAGER_READER)
(*Pager)(unsafe.Pointer(pPager)).FhasHeldSharedLock = U8(1)
__24:
;
return rc
}
func pagerUnlockIfUnused(tls *libc.TLS, pPager uintptr) {
if Xsqlite3PcacheRefCount(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache) == 0 {
pagerUnlockAndRollback(tls, pPager)
}
}
func getPageNormal(tls *libc.TLS, pPager uintptr, pgno Pgno, ppPage uintptr, flags int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
var pPg uintptr
var noContent U8
rc = SQLITE_OK
if !(pgno == Pgno(0)) {
goto __1
}
return Xsqlite3CorruptError(tls, 60967)
__1:
;
*(*uintptr)(unsafe.Pointer(bp)) = Xsqlite3PcacheFetch(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache, pgno, 3)
if !(*(*uintptr)(unsafe.Pointer(bp)) == uintptr(0)) {
goto __2
}
pPg = uintptr(0)
rc = Xsqlite3PcacheFetchStress(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache, pgno, bp)
if !(rc != SQLITE_OK) {
goto __3
}
goto pager_acquire_err
__3:
;
if !(*(*uintptr)(unsafe.Pointer(bp)) == uintptr(0)) {
goto __4
}
rc = SQLITE_NOMEM
goto pager_acquire_err
__4:
;
__2:
;
pPg = libc.AssignPtrUintptr(ppPage, Xsqlite3PcacheFetchFinish(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache, pgno, *(*uintptr)(unsafe.Pointer(bp))))
noContent = U8(libc.Bool32(flags&PAGER_GET_NOCONTENT != 0))
if !((*PgHdr)(unsafe.Pointer(pPg)).FpPager != 0 && !(noContent != 0)) {
goto __5
}
*(*int32)(unsafe.Pointer(pPager + 248))++
return SQLITE_OK
goto __6
__5:
if !(pgno == (*Pager)(unsafe.Pointer(pPager)).FlckPgno) {
goto __7
}
rc = Xsqlite3CorruptError(tls, 60999)
goto pager_acquire_err
__7:
;
(*PgHdr)(unsafe.Pointer(pPg)).FpPager = pPager
if !(!((*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Ffd)).FpMethods != uintptr(0)) || (*Pager)(unsafe.Pointer(pPager)).FdbSize < pgno || noContent != 0) {
goto __8
}
if !(pgno > (*Pager)(unsafe.Pointer(pPager)).FmxPgno) {
goto __10
}
rc = SQLITE_FULL
goto pager_acquire_err
__10:
;
if !(noContent != 0) {
goto __11
}
Xsqlite3BeginBenignMalloc(tls)
if !(pgno <= (*Pager)(unsafe.Pointer(pPager)).FdbOrigSize) {
goto __12
}
Xsqlite3BitvecSet(tls, (*Pager)(unsafe.Pointer(pPager)).FpInJournal, pgno)
__12:
;
addToSavepointBitvecs(tls, pPager, pgno)
Xsqlite3EndBenignMalloc(tls)
__11:
;
libc.X__builtin___memset_chk(tls, (*PgHdr)(unsafe.Pointer(pPg)).FpData, 0, uint64((*Pager)(unsafe.Pointer(pPager)).FpageSize), libc.X__builtin_object_size(tls, (*PgHdr)(unsafe.Pointer(pPg)).FpData, 0))
goto __9
__8:
;
*(*int32)(unsafe.Pointer(pPager + 248 + 1*4))++
rc = readDbPage(tls, pPg)
if !(rc != SQLITE_OK) {
goto __13
}
goto pager_acquire_err
__13:
;
__9:
;
__6:
;
return SQLITE_OK
pager_acquire_err:
;
if !(pPg != 0) {
goto __14
}
Xsqlite3PcacheDrop(tls, pPg)
__14:
;
pagerUnlockIfUnused(tls, pPager)
*(*uintptr)(unsafe.Pointer(ppPage)) = uintptr(0)
return rc
}
func getPageMMap(tls *libc.TLS, pPager uintptr, pgno Pgno, ppPage uintptr, flags int32) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var rc int32 = SQLITE_OK
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
*(*U32)(unsafe.Pointer(bp)) = U32(0)
var bMmapOk int32 = libc.Bool32(pgno > Pgno(1) &&
(int32((*Pager)(unsafe.Pointer(pPager)).FeState) == PAGER_READER || flags&PAGER_GET_READONLY != 0))
if pgno <= Pgno(1) && pgno == Pgno(0) {
return Xsqlite3CorruptError(tls, 61078)
}
if bMmapOk != 0 && (*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0) {
rc = Xsqlite3WalFindFrame(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, pgno, bp)
if rc != SQLITE_OK {
*(*uintptr)(unsafe.Pointer(ppPage)) = uintptr(0)
return rc
}
}
if bMmapOk != 0 && *(*U32)(unsafe.Pointer(bp)) == U32(0) {
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
rc = Xsqlite3OsFetch(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd,
I64(pgno-Pgno(1))*(*Pager)(unsafe.Pointer(pPager)).FpageSize, int32((*Pager)(unsafe.Pointer(pPager)).FpageSize), bp+8)
if rc == SQLITE_OK && *(*uintptr)(unsafe.Pointer(bp + 8)) != 0 {
if int32((*Pager)(unsafe.Pointer(pPager)).FeState) > PAGER_READER || (*Pager)(unsafe.Pointer(pPager)).FtempFile != 0 {
*(*uintptr)(unsafe.Pointer(bp + 16)) = Xsqlite3PagerLookup(tls, pPager, pgno)
}
if *(*uintptr)(unsafe.Pointer(bp + 16)) == uintptr(0) {
rc = pagerAcquireMapPage(tls, pPager, pgno, *(*uintptr)(unsafe.Pointer(bp + 8)), bp+16)
} else {
Xsqlite3OsUnfetch(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, I64(pgno-Pgno(1))*(*Pager)(unsafe.Pointer(pPager)).FpageSize, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
if *(*uintptr)(unsafe.Pointer(bp + 16)) != 0 {
*(*uintptr)(unsafe.Pointer(ppPage)) = *(*uintptr)(unsafe.Pointer(bp + 16))
return SQLITE_OK
}
}
if rc != SQLITE_OK {
*(*uintptr)(unsafe.Pointer(ppPage)) = uintptr(0)
return rc
}
}
return getPageNormal(tls, pPager, pgno, ppPage, flags)
}
func getPageError(tls *libc.TLS, pPager uintptr, pgno Pgno, ppPage uintptr, flags int32) int32 {
_ = pgno
_ = flags
*(*uintptr)(unsafe.Pointer(ppPage)) = uintptr(0)
return (*Pager)(unsafe.Pointer(pPager)).FerrCode
}
// Dispatch all page fetch requests to the appropriate getter method.
func Xsqlite3PagerGet(tls *libc.TLS, pPager uintptr, pgno Pgno, ppPage uintptr, flags int32) int32 {
return (*struct {
f func(*libc.TLS, uintptr, Pgno, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Pager)(unsafe.Pointer(pPager)).FxGet})).f(tls, pPager, pgno, ppPage, flags)
}
// Acquire a page if it is already in the in-memory cache. Do
// not read the page from disk. Return a pointer to the page,
// or 0 if the page is not in cache.
//
// See also sqlite3PagerGet(). The difference between this routine
// and sqlite3PagerGet() is that _get() will go to the disk and read
// in the page if the page is not already in cache. This routine
// returns NULL if the page is not in cache or if a disk I/O error
// has ever happened.
func Xsqlite3PagerLookup(tls *libc.TLS, pPager uintptr, pgno Pgno) uintptr {
var pPage uintptr
pPage = Xsqlite3PcacheFetch(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache, pgno, 0)
if pPage == uintptr(0) {
return uintptr(0)
}
return Xsqlite3PcacheFetchFinish(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache, pgno, pPage)
}
// Release a page reference.
//
// The sqlite3PagerUnref() and sqlite3PagerUnrefNotNull() may only be
// used if we know that the page being released is not the last page.
// The btree layer always holds page1 open until the end, so these first
// to routines can be used to release any page other than BtShared.pPage1.
//
// Use sqlite3PagerUnrefPageOne() to release page1. This latter routine
// checks the total number of outstanding pages and if the number of
// pages reaches zero it drops the database lock.
func Xsqlite3PagerUnrefNotNull(tls *libc.TLS, pPg uintptr) {
if int32((*DbPage)(unsafe.Pointer(pPg)).Fflags)&PGHDR_MMAP != 0 {
pagerReleaseMapPage(tls, pPg)
} else {
Xsqlite3PcacheRelease(tls, pPg)
}
}
func Xsqlite3PagerUnref(tls *libc.TLS, pPg uintptr) {
if pPg != 0 {
Xsqlite3PagerUnrefNotNull(tls, pPg)
}
}
func Xsqlite3PagerUnrefPageOne(tls *libc.TLS, pPg uintptr) {
var pPager uintptr
pPager = (*DbPage)(unsafe.Pointer(pPg)).FpPager
Xsqlite3PcacheRelease(tls, pPg)
pagerUnlockIfUnused(tls, pPager)
}
func pager_open_journal(tls *libc.TLS, pPager uintptr) int32 {
var rc int32 = SQLITE_OK
var pVfs uintptr = (*Pager)(unsafe.Pointer(pPager)).FpVfs
if (*Pager)(unsafe.Pointer(pPager)).FerrCode != 0 {
return (*Pager)(unsafe.Pointer(pPager)).FerrCode
}
if !((*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0)) && int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode) != PAGER_JOURNALMODE_OFF {
(*Pager)(unsafe.Pointer(pPager)).FpInJournal = Xsqlite3BitvecCreate(tls, (*Pager)(unsafe.Pointer(pPager)).FdbSize)
if (*Pager)(unsafe.Pointer(pPager)).FpInJournal == uintptr(0) {
return SQLITE_NOMEM
}
if !((*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fjfd)).FpMethods != uintptr(0)) {
if int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode) == PAGER_JOURNALMODE_MEMORY {
Xsqlite3MemJournalOpen(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd)
} else {
var flags int32 = SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE
var nSpill int32
if (*Pager)(unsafe.Pointer(pPager)).FtempFile != 0 {
flags = flags | (SQLITE_OPEN_DELETEONCLOSE | SQLITE_OPEN_TEMP_JOURNAL)
flags = flags | SQLITE_OPEN_EXCLUSIVE
nSpill = Xsqlite3Config.FnStmtSpill
} else {
flags = flags | SQLITE_OPEN_MAIN_JOURNAL
nSpill = jrnlBufferSize(tls, pPager)
}
rc = databaseIsUnmoved(tls, pPager)
if rc == SQLITE_OK {
rc = Xsqlite3JournalOpen(tls,
pVfs, (*Pager)(unsafe.Pointer(pPager)).FzJournal, (*Pager)(unsafe.Pointer(pPager)).Fjfd, flags, nSpill)
}
}
}
if rc == SQLITE_OK {
(*Pager)(unsafe.Pointer(pPager)).FnRec = 0
(*Pager)(unsafe.Pointer(pPager)).FjournalOff = int64(0)
(*Pager)(unsafe.Pointer(pPager)).FsetSuper = U8(0)
(*Pager)(unsafe.Pointer(pPager)).FjournalHdr = int64(0)
rc = writeJournalHdr(tls, pPager)
}
}
if rc != SQLITE_OK {
Xsqlite3BitvecDestroy(tls, (*Pager)(unsafe.Pointer(pPager)).FpInJournal)
(*Pager)(unsafe.Pointer(pPager)).FpInJournal = uintptr(0)
(*Pager)(unsafe.Pointer(pPager)).FjournalOff = int64(0)
} else {
(*Pager)(unsafe.Pointer(pPager)).FeState = U8(PAGER_WRITER_CACHEMOD)
}
return rc
}
// Begin a write-transaction on the specified pager object. If a
// write-transaction has already been opened, this function is a no-op.
//
// If the exFlag argument is false, then acquire at least a RESERVED
// lock on the database file. If exFlag is true, then acquire at least
// an EXCLUSIVE lock. If such a lock is already held, no locking
// functions need be called.
//
// If the subjInMemory argument is non-zero, then any sub-journal opened
// within this transaction will be opened as an in-memory file. This
// has no effect if the sub-journal is already opened (as it may be when
// running in exclusive mode) or if the transaction does not require a
// sub-journal. If the subjInMemory argument is zero, then any required
// sub-journal is implemented in-memory if pPager is an in-memory database,
// or using a temporary file otherwise.
func Xsqlite3PagerBegin(tls *libc.TLS, pPager uintptr, exFlag int32, subjInMemory int32) int32 {
var rc int32 = SQLITE_OK
if (*Pager)(unsafe.Pointer(pPager)).FerrCode != 0 {
return (*Pager)(unsafe.Pointer(pPager)).FerrCode
}
(*Pager)(unsafe.Pointer(pPager)).FsubjInMemory = U8(subjInMemory)
if int32((*Pager)(unsafe.Pointer(pPager)).FeState) == PAGER_READER {
if (*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0) {
if (*Pager)(unsafe.Pointer(pPager)).FexclusiveMode != 0 && Xsqlite3WalExclusiveMode(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, -1) != 0 {
rc = pagerLockDb(tls, pPager, EXCLUSIVE_LOCK)
if rc != SQLITE_OK {
return rc
}
Xsqlite3WalExclusiveMode(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, 1)
}
rc = Xsqlite3WalBeginWriteTransaction(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal)
} else {
rc = pagerLockDb(tls, pPager, RESERVED_LOCK)
if rc == SQLITE_OK && exFlag != 0 {
rc = pager_wait_on_lock(tls, pPager, EXCLUSIVE_LOCK)
}
}
if rc == SQLITE_OK {
(*Pager)(unsafe.Pointer(pPager)).FeState = U8(PAGER_WRITER_LOCKED)
(*Pager)(unsafe.Pointer(pPager)).FdbHintSize = (*Pager)(unsafe.Pointer(pPager)).FdbSize
(*Pager)(unsafe.Pointer(pPager)).FdbFileSize = (*Pager)(unsafe.Pointer(pPager)).FdbSize
(*Pager)(unsafe.Pointer(pPager)).FdbOrigSize = (*Pager)(unsafe.Pointer(pPager)).FdbSize
(*Pager)(unsafe.Pointer(pPager)).FjournalOff = int64(0)
}
}
return rc
}
func pagerAddPageToRollbackJournal(tls *libc.TLS, pPg uintptr) int32 {
var pPager uintptr = (*PgHdr)(unsafe.Pointer(pPg)).FpPager
var rc int32
var cksum U32
var pData2 uintptr
var iOff I64 = (*Pager)(unsafe.Pointer(pPager)).FjournalOff
pData2 = (*PgHdr)(unsafe.Pointer(pPg)).FpData
cksum = pager_cksum(tls, pPager, pData2)
*(*U16)(unsafe.Pointer(pPg + 52)) |= U16(PGHDR_NEED_SYNC)
rc = write32bits(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, iOff, (*PgHdr)(unsafe.Pointer(pPg)).Fpgno)
if rc != SQLITE_OK {
return rc
}
rc = Xsqlite3OsWrite(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, pData2, int32((*Pager)(unsafe.Pointer(pPager)).FpageSize), iOff+int64(4))
if rc != SQLITE_OK {
return rc
}
rc = write32bits(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd, iOff+(*Pager)(unsafe.Pointer(pPager)).FpageSize+int64(4), cksum)
if rc != SQLITE_OK {
return rc
}
*(*I64)(unsafe.Pointer(pPager + 96)) += int64(8) + (*Pager)(unsafe.Pointer(pPager)).FpageSize
(*Pager)(unsafe.Pointer(pPager)).FnRec++
rc = Xsqlite3BitvecSet(tls, (*Pager)(unsafe.Pointer(pPager)).FpInJournal, (*PgHdr)(unsafe.Pointer(pPg)).Fpgno)
rc = rc | addToSavepointBitvecs(tls, pPager, (*PgHdr)(unsafe.Pointer(pPg)).Fpgno)
return rc
}
func pager_write(tls *libc.TLS, pPg uintptr) int32 {
var pPager uintptr = (*PgHdr)(unsafe.Pointer(pPg)).FpPager
var rc int32 = SQLITE_OK
if int32((*Pager)(unsafe.Pointer(pPager)).FeState) == PAGER_WRITER_LOCKED {
rc = pager_open_journal(tls, pPager)
if rc != SQLITE_OK {
return rc
}
}
Xsqlite3PcacheMakeDirty(tls, pPg)
if (*Pager)(unsafe.Pointer(pPager)).FpInJournal != uintptr(0) &&
Xsqlite3BitvecTestNotNull(tls, (*Pager)(unsafe.Pointer(pPager)).FpInJournal, (*PgHdr)(unsafe.Pointer(pPg)).Fpgno) == 0 {
if (*PgHdr)(unsafe.Pointer(pPg)).Fpgno <= (*Pager)(unsafe.Pointer(pPager)).FdbOrigSize {
rc = pagerAddPageToRollbackJournal(tls, pPg)
if rc != SQLITE_OK {
return rc
}
} else {
if int32((*Pager)(unsafe.Pointer(pPager)).FeState) != PAGER_WRITER_DBMOD {
*(*U16)(unsafe.Pointer(pPg + 52)) |= U16(PGHDR_NEED_SYNC)
}
}
}
*(*U16)(unsafe.Pointer(pPg + 52)) |= U16(PGHDR_WRITEABLE)
if (*Pager)(unsafe.Pointer(pPager)).FnSavepoint > 0 {
rc = subjournalPageIfRequired(tls, pPg)
}
if (*Pager)(unsafe.Pointer(pPager)).FdbSize < (*PgHdr)(unsafe.Pointer(pPg)).Fpgno {
(*Pager)(unsafe.Pointer(pPager)).FdbSize = (*PgHdr)(unsafe.Pointer(pPg)).Fpgno
}
return rc
}
func pagerWriteLargeSector(tls *libc.TLS, pPg uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
var nPageCount Pgno
var pg1 Pgno
var nPage int32 = 0
var ii int32
var needSync int32 = 0
var pPager uintptr = (*PgHdr)(unsafe.Pointer(pPg)).FpPager
var nPagePerSector Pgno = Pgno(I64((*Pager)(unsafe.Pointer(pPager)).FsectorSize) / (*Pager)(unsafe.Pointer(pPager)).FpageSize)
*(*U8)(unsafe.Pointer(pPager + 25)) |= U8(SPILLFLAG_NOSYNC)
pg1 = ((*PgHdr)(unsafe.Pointer(pPg)).Fpgno-Pgno(1)) & ^(nPagePerSector-Pgno(1)) + Pgno(1)
nPageCount = (*Pager)(unsafe.Pointer(pPager)).FdbSize
if (*PgHdr)(unsafe.Pointer(pPg)).Fpgno > nPageCount {
nPage = int32((*PgHdr)(unsafe.Pointer(pPg)).Fpgno - pg1 + Pgno(1))
} else if pg1+nPagePerSector-Pgno(1) > nPageCount {
nPage = int32(nPageCount + Pgno(1) - pg1)
} else {
nPage = int32(nPagePerSector)
}
for ii = 0; ii < nPage && rc == SQLITE_OK; ii++ {
var pg Pgno = pg1 + Pgno(ii)
if pg == (*PgHdr)(unsafe.Pointer(pPg)).Fpgno || !(Xsqlite3BitvecTest(tls, (*Pager)(unsafe.Pointer(pPager)).FpInJournal, pg) != 0) {
if pg != (*Pager)(unsafe.Pointer(pPager)).FlckPgno {
rc = Xsqlite3PagerGet(tls, pPager, pg, bp, 0)
if rc == SQLITE_OK {
rc = pager_write(tls, *(*uintptr)(unsafe.Pointer(bp)))
if int32((*PgHdr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Fflags)&PGHDR_NEED_SYNC != 0 {
needSync = 1
}
Xsqlite3PagerUnrefNotNull(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
}
} else if libc.AssignPtrUintptr(bp, Xsqlite3PagerLookup(tls, pPager, pg)) != uintptr(0) {
if int32((*PgHdr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Fflags)&PGHDR_NEED_SYNC != 0 {
needSync = 1
}
Xsqlite3PagerUnrefNotNull(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
}
if rc == SQLITE_OK && needSync != 0 {
for ii = 0; ii < nPage; ii++ {
var pPage uintptr = Xsqlite3PagerLookup(tls, pPager, pg1+Pgno(ii))
if pPage != 0 {
*(*U16)(unsafe.Pointer(pPage + 52)) |= U16(PGHDR_NEED_SYNC)
Xsqlite3PagerUnrefNotNull(tls, pPage)
}
}
}
*(*U8)(unsafe.Pointer(pPager + 25)) &= libc.Uint8FromInt32(libc.CplInt32(SPILLFLAG_NOSYNC))
return rc
}
// Mark a data page as writeable. This routine must be called before
// making changes to a page. The caller must check the return value
// of this function and be careful not to change any page data unless
// this routine returns SQLITE_OK.
//
// The difference between this function and pager_write() is that this
// function also deals with the special case where 2 or more pages
// fit on a single disk sector. In this case all co-resident pages
// must have been written to the journal file before returning.
//
// If an error occurs, SQLITE_NOMEM or an IO error code is returned
// as appropriate. Otherwise, SQLITE_OK.
func Xsqlite3PagerWrite(tls *libc.TLS, pPg uintptr) int32 {
var pPager uintptr = (*PgHdr)(unsafe.Pointer(pPg)).FpPager
if int32((*PgHdr)(unsafe.Pointer(pPg)).Fflags)&PGHDR_WRITEABLE != 0 && (*Pager)(unsafe.Pointer(pPager)).FdbSize >= (*PgHdr)(unsafe.Pointer(pPg)).Fpgno {
if (*Pager)(unsafe.Pointer(pPager)).FnSavepoint != 0 {
return subjournalPageIfRequired(tls, pPg)
}
return SQLITE_OK
} else if (*Pager)(unsafe.Pointer(pPager)).FerrCode != 0 {
return (*Pager)(unsafe.Pointer(pPager)).FerrCode
} else if (*Pager)(unsafe.Pointer(pPager)).FsectorSize > U32((*Pager)(unsafe.Pointer(pPager)).FpageSize) {
return pagerWriteLargeSector(tls, pPg)
} else {
return pager_write(tls, pPg)
}
return int32(0)
}
// A call to this routine tells the pager that it is not necessary to
// write the information on page pPg back to the disk, even though
// that page might be marked as dirty. This happens, for example, when
// the page has been added as a leaf of the freelist and so its
// content no longer matters.
//
// The overlying software layer calls this routine when all of the data
// on the given page is unused. The pager marks the page as clean so
// that it does not get written to disk.
//
// Tests show that this optimization can quadruple the speed of large
// DELETE operations.
//
// This optimization cannot be used with a temp-file, as the page may
// have been dirty at the start of the transaction. In that case, if
// memory pressure forces page pPg out of the cache, the data does need
// to be written out to disk so that it may be read back in if the
// current transaction is rolled back.
func Xsqlite3PagerDontWrite(tls *libc.TLS, pPg uintptr) {
var pPager uintptr = (*PgHdr)(unsafe.Pointer(pPg)).FpPager
if !(int32((*Pager)(unsafe.Pointer(pPager)).FtempFile) != 0) && int32((*PgHdr)(unsafe.Pointer(pPg)).Fflags)&PGHDR_DIRTY != 0 && (*Pager)(unsafe.Pointer(pPager)).FnSavepoint == 0 {
*(*U16)(unsafe.Pointer(pPg + 52)) |= U16(PGHDR_DONT_WRITE)
*(*U16)(unsafe.Pointer(pPg + 52)) &= libc.Uint16FromInt32(libc.CplInt32(PGHDR_WRITEABLE))
}
}
func pager_incr_changecounter(tls *libc.TLS, pPager uintptr, isDirectMode int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
_ = isDirectMode
if !(int32((*Pager)(unsafe.Pointer(pPager)).FchangeCountDone) != 0) && (*Pager)(unsafe.Pointer(pPager)).FdbSize > Pgno(0) {
rc = Xsqlite3PagerGet(tls, pPager, uint32(1), bp, 0)
if !(0 != 0) && rc == SQLITE_OK {
rc = Xsqlite3PagerWrite(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
if rc == SQLITE_OK {
pager_write_changecounter(tls, *(*uintptr)(unsafe.Pointer(bp)))
if 0 != 0 {
var zBuf uintptr
zBuf = (*PgHdr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpData
if rc == SQLITE_OK {
rc = Xsqlite3OsWrite(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, zBuf, int32((*Pager)(unsafe.Pointer(pPager)).FpageSize), int64(0))
*(*int32)(unsafe.Pointer(pPager + 248 + 2*4))++
}
if rc == SQLITE_OK {
var pCopy uintptr = zBuf + 24
libc.X__builtin___memcpy_chk(tls, pPager+136, pCopy, uint64(unsafe.Sizeof([16]int8{})), libc.X__builtin_object_size(tls, pPager+136, 0))
(*Pager)(unsafe.Pointer(pPager)).FchangeCountDone = U8(1)
}
} else {
(*Pager)(unsafe.Pointer(pPager)).FchangeCountDone = U8(1)
}
}
Xsqlite3PagerUnref(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
return rc
}
// Sync the database file to disk. This is a no-op for in-memory databases
// or pages with the Pager.noSync flag set.
//
// If successful, or if called on a pager for which it is a no-op, this
// function returns SQLITE_OK. Otherwise, an IO error code is returned.
func Xsqlite3PagerSync(tls *libc.TLS, pPager uintptr, zSuper uintptr) int32 {
var rc int32 = SQLITE_OK
var pArg uintptr = zSuper
rc = Xsqlite3OsFileControl(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, SQLITE_FCNTL_SYNC, pArg)
if rc == SQLITE_NOTFOUND {
rc = SQLITE_OK
}
if rc == SQLITE_OK && !(int32((*Pager)(unsafe.Pointer(pPager)).FnoSync) != 0) {
rc = Xsqlite3OsSync(tls, (*Pager)(unsafe.Pointer(pPager)).Ffd, int32((*Pager)(unsafe.Pointer(pPager)).FsyncFlags))
}
return rc
}
// This function may only be called while a write-transaction is active in
// rollback. If the connection is in WAL mode, this call is a no-op.
// Otherwise, if the connection does not already have an EXCLUSIVE lock on
// the database file, an attempt is made to obtain one.
//
// If the EXCLUSIVE lock is already held or the attempt to obtain it is
// successful, or the connection is in WAL mode, SQLITE_OK is returned.
// Otherwise, either SQLITE_BUSY or an SQLITE_IOERR_XXX error code is
// returned.
func Xsqlite3PagerExclusiveLock(tls *libc.TLS, pPager uintptr) int32 {
var rc int32 = (*Pager)(unsafe.Pointer(pPager)).FerrCode
if rc == SQLITE_OK {
if 0 == libc.Bool32((*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0)) {
rc = pager_wait_on_lock(tls, pPager, EXCLUSIVE_LOCK)
}
}
return rc
}
// Sync the database file for the pager pPager. zSuper points to the name
// of a super-journal file that should be written into the individual
// journal file. zSuper may be NULL, which is interpreted as no
// super-journal (a single database transaction).
//
// This routine ensures that:
//
// - The database file change-counter is updated,
// - the journal is synced (unless the atomic-write optimization is used),
// - all dirty pages are written to the database file,
// - the database file is truncated (if required), and
// - the database file synced.
//
// The only thing that remains to commit the transaction is to finalize
// (delete, truncate or zero the first part of) the journal file (or
// delete the super-journal file if specified).
//
// Note that if zSuper==NULL, this does not overwrite a previous value
// passed to an sqlite3PagerCommitPhaseOne() call.
//
// If the final parameter - noSync - is true, then the database file itself
// is not synced. The caller must call sqlite3PagerSync() directly to
// sync the database file before calling CommitPhaseTwo() to delete the
// journal file in this case.
func Xsqlite3PagerCommitPhaseOne(tls *libc.TLS, pPager uintptr, zSuper uintptr, noSync int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
var nNew Pgno
var pList uintptr
rc = SQLITE_OK
if !((*Pager)(unsafe.Pointer(pPager)).FerrCode != 0) {
goto __1
}
return (*Pager)(unsafe.Pointer(pPager)).FerrCode
__1:
;
if !(Xsqlite3FaultSim(tls, 400) != 0) {
goto __2
}
return SQLITE_IOERR
__2:
;
if !(int32((*Pager)(unsafe.Pointer(pPager)).FeState) < PAGER_WRITER_CACHEMOD) {
goto __3
}
return SQLITE_OK
__3:
;
if !(0 == pagerFlushOnCommit(tls, pPager, 1)) {
goto __4
}
Xsqlite3BackupRestart(tls, (*Pager)(unsafe.Pointer(pPager)).FpBackup)
goto __5
__4:
if !((*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0)) {
goto __6
}
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
pList = Xsqlite3PcacheDirtyList(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache)
if !(pList == uintptr(0)) {
goto __8
}
rc = Xsqlite3PagerGet(tls, pPager, uint32(1), bp, 0)
pList = *(*uintptr)(unsafe.Pointer(bp))
(*PgHdr)(unsafe.Pointer(pList)).FpDirty = uintptr(0)
__8:
;
if !(pList != 0) {
goto __9
}
rc = pagerWalFrames(tls, pPager, pList, (*Pager)(unsafe.Pointer(pPager)).FdbSize, 1)
__9:
;
Xsqlite3PagerUnref(tls, *(*uintptr)(unsafe.Pointer(bp)))
if !(rc == SQLITE_OK) {
goto __10
}
Xsqlite3PcacheCleanAll(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache)
__10:
;
goto __7
__6:
rc = pager_incr_changecounter(tls, pPager, 0)
if !(rc != SQLITE_OK) {
goto __11
}
goto commit_phase_one_exit
__11:
;
rc = writeSuperJournal(tls, pPager, zSuper)
if !(rc != SQLITE_OK) {
goto __12
}
goto commit_phase_one_exit
__12:
;
rc = syncJournal(tls, pPager, 0)
if !(rc != SQLITE_OK) {
goto __13
}
goto commit_phase_one_exit
__13:
;
pList = Xsqlite3PcacheDirtyList(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache)
if !(BBatch == 0) {
goto __14
}
rc = pager_write_pagelist(tls, pPager, pList)
__14:
;
if !(rc != SQLITE_OK) {
goto __15
}
goto commit_phase_one_exit
__15:
;
Xsqlite3PcacheCleanAll(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache)
if !((*Pager)(unsafe.Pointer(pPager)).FdbSize > (*Pager)(unsafe.Pointer(pPager)).FdbFileSize) {
goto __16
}
nNew = (*Pager)(unsafe.Pointer(pPager)).FdbSize - Pgno(libc.Bool32((*Pager)(unsafe.Pointer(pPager)).FdbSize == (*Pager)(unsafe.Pointer(pPager)).FlckPgno))
rc = pager_truncate(tls, pPager, nNew)
if !(rc != SQLITE_OK) {
goto __17
}
goto commit_phase_one_exit
__17:
;
__16:
;
if !!(noSync != 0) {
goto __18
}
rc = Xsqlite3PagerSync(tls, pPager, zSuper)
__18:
;
__7:
;
__5:
;
commit_phase_one_exit:
if !(rc == SQLITE_OK && !((*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0))) {
goto __19
}
(*Pager)(unsafe.Pointer(pPager)).FeState = U8(PAGER_WRITER_FINISHED)
__19:
;
return rc
}
// When this function is called, the database file has been completely
// updated to reflect the changes made by the current transaction and
// synced to disk. The journal file still exists in the file-system
// though, and if a failure occurs at this point it will eventually
// be used as a hot-journal and the current transaction rolled back.
//
// This function finalizes the journal file, either by deleting,
// truncating or partially zeroing it, so that it cannot be used
// for hot-journal rollback. Once this is done the transaction is
// irrevocably committed.
//
// If an error occurs, an IO error code is returned and the pager
// moves into the error state. Otherwise, SQLITE_OK is returned.
func Xsqlite3PagerCommitPhaseTwo(tls *libc.TLS, pPager uintptr) int32 {
var rc int32 = SQLITE_OK
if (*Pager)(unsafe.Pointer(pPager)).FerrCode != 0 {
return (*Pager)(unsafe.Pointer(pPager)).FerrCode
}
(*Pager)(unsafe.Pointer(pPager)).FiDataVersion++
if int32((*Pager)(unsafe.Pointer(pPager)).FeState) == PAGER_WRITER_LOCKED &&
(*Pager)(unsafe.Pointer(pPager)).FexclusiveMode != 0 &&
int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode) == PAGER_JOURNALMODE_PERSIST {
(*Pager)(unsafe.Pointer(pPager)).FeState = U8(PAGER_READER)
return SQLITE_OK
}
rc = pager_end_transaction(tls, pPager, int32((*Pager)(unsafe.Pointer(pPager)).FsetSuper), 1)
return pager_error(tls, pPager, rc)
}
// If a write transaction is open, then all changes made within the
// transaction are reverted and the current write-transaction is closed.
// The pager falls back to PAGER_READER state if successful, or PAGER_ERROR
// state if an error occurs.
//
// If the pager is already in PAGER_ERROR state when this function is called,
// it returns Pager.errCode immediately. No work is performed in this case.
//
// Otherwise, in rollback mode, this function performs two functions:
//
// 1. It rolls back the journal file, restoring all database file and
// in-memory cache pages to the state they were in when the transaction
// was opened, and
//
// 2. It finalizes the journal file, so that it is not used for hot
// rollback at any point in the future.
//
// Finalization of the journal file (task 2) is only performed if the
// rollback is successful.
//
// In WAL mode, all cache-entries containing data modified within the
// current transaction are either expelled from the cache or reverted to
// their pre-transaction state by re-reading data from the database or
// WAL files. The WAL transaction is then closed.
func Xsqlite3PagerRollback(tls *libc.TLS, pPager uintptr) int32 {
var rc int32 = SQLITE_OK
if int32((*Pager)(unsafe.Pointer(pPager)).FeState) == PAGER_ERROR {
return (*Pager)(unsafe.Pointer(pPager)).FerrCode
}
if int32((*Pager)(unsafe.Pointer(pPager)).FeState) <= PAGER_READER {
return SQLITE_OK
}
if (*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0) {
var rc2 int32
rc = Xsqlite3PagerSavepoint(tls, pPager, SAVEPOINT_ROLLBACK, -1)
rc2 = pager_end_transaction(tls, pPager, int32((*Pager)(unsafe.Pointer(pPager)).FsetSuper), 0)
if rc == SQLITE_OK {
rc = rc2
}
} else if !((*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fjfd)).FpMethods != uintptr(0)) || int32((*Pager)(unsafe.Pointer(pPager)).FeState) == PAGER_WRITER_LOCKED {
var eState int32 = int32((*Pager)(unsafe.Pointer(pPager)).FeState)
rc = pager_end_transaction(tls, pPager, 0, 0)
if !(int32((*Pager)(unsafe.Pointer(pPager)).FmemDb) != 0) && eState > PAGER_WRITER_LOCKED {
(*Pager)(unsafe.Pointer(pPager)).FerrCode = SQLITE_ABORT
(*Pager)(unsafe.Pointer(pPager)).FeState = U8(PAGER_ERROR)
setGetterMethod(tls, pPager)
return rc
}
} else {
rc = pager_playback(tls, pPager, 0)
}
return pager_error(tls, pPager, rc)
}
// Return TRUE if the database file is opened read-only. Return FALSE
// if the database is (in theory) writable.
func Xsqlite3PagerIsreadonly(tls *libc.TLS, pPager uintptr) U8 {
return (*Pager)(unsafe.Pointer(pPager)).FreadOnly
}
// Return the approximate number of bytes of memory currently
// used by the pager and its associated cache.
func Xsqlite3PagerMemUsed(tls *libc.TLS, pPager uintptr) int32 {
var perPageSize int32 = int32((*Pager)(unsafe.Pointer(pPager)).FpageSize + I64((*Pager)(unsafe.Pointer(pPager)).FnExtra) +
I64(int32(uint64(unsafe.Sizeof(PgHdr{}))+uint64(5)*uint64(unsafe.Sizeof(uintptr(0))))))
return int32(I64(perPageSize*Xsqlite3PcachePagecount(tls, (*Pager)(unsafe.Pointer(pPager)).FpPCache)+
Xsqlite3MallocSize(tls, pPager)) +
(*Pager)(unsafe.Pointer(pPager)).FpageSize)
}
// Return the number of references to the specified page.
func Xsqlite3PagerPageRefcount(tls *libc.TLS, pPage uintptr) int32 {
return Xsqlite3PcachePageRefcount(tls, pPage)
}
// Parameter eStat must be one of SQLITE_DBSTATUS_CACHE_HIT, _MISS, _WRITE,
// or _WRITE+1. The SQLITE_DBSTATUS_CACHE_WRITE+1 case is a translation
// of SQLITE_DBSTATUS_CACHE_SPILL. The _SPILL case is not contiguous because
// it was added later.
//
// Before returning, *pnVal is incremented by the
// current cache hit or miss count, according to the value of eStat. If the
// reset parameter is non-zero, the cache hit or miss count is zeroed before
// returning.
func Xsqlite3PagerCacheStat(tls *libc.TLS, pPager uintptr, eStat int32, reset int32, pnVal uintptr) {
eStat = eStat - SQLITE_DBSTATUS_CACHE_HIT
*(*int32)(unsafe.Pointer(pnVal)) += *(*int32)(unsafe.Pointer(pPager + 248 + uintptr(eStat)*4))
if reset != 0 {
*(*int32)(unsafe.Pointer(pPager + 248 + uintptr(eStat)*4)) = 0
}
}
// Return true if this is an in-memory or temp-file backed pager.
func Xsqlite3PagerIsMemdb(tls *libc.TLS, pPager uintptr) int32 {
return libc.Bool32((*Pager)(unsafe.Pointer(pPager)).FtempFile != 0 || (*Pager)(unsafe.Pointer(pPager)).FmemVfs != 0)
}
func pagerOpenSavepoint(tls *libc.TLS, pPager uintptr, nSavepoint int32) int32 {
var rc int32 = SQLITE_OK
var nCurrent int32 = (*Pager)(unsafe.Pointer(pPager)).FnSavepoint
var ii int32
var aNew uintptr
aNew = Xsqlite3Realloc(tls,
(*Pager)(unsafe.Pointer(pPager)).FaSavepoint, uint64(unsafe.Sizeof(PagerSavepoint{}))*uint64(nSavepoint))
if !(aNew != 0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, aNew+uintptr(nCurrent)*56, 0, uint64(nSavepoint-nCurrent)*uint64(unsafe.Sizeof(PagerSavepoint{})), libc.X__builtin_object_size(tls, aNew+uintptr(nCurrent)*56, 0))
(*Pager)(unsafe.Pointer(pPager)).FaSavepoint = aNew
for ii = nCurrent; ii < nSavepoint; ii++ {
(*PagerSavepoint)(unsafe.Pointer(aNew + uintptr(ii)*56)).FnOrig = (*Pager)(unsafe.Pointer(pPager)).FdbSize
if (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fjfd)).FpMethods != uintptr(0) && (*Pager)(unsafe.Pointer(pPager)).FjournalOff > int64(0) {
(*PagerSavepoint)(unsafe.Pointer(aNew + uintptr(ii)*56)).FiOffset = (*Pager)(unsafe.Pointer(pPager)).FjournalOff
} else {
(*PagerSavepoint)(unsafe.Pointer(aNew + uintptr(ii)*56)).FiOffset = I64((*Pager)(unsafe.Pointer(pPager)).FsectorSize)
}
(*PagerSavepoint)(unsafe.Pointer(aNew + uintptr(ii)*56)).FiSubRec = (*Pager)(unsafe.Pointer(pPager)).FnSubRec
(*PagerSavepoint)(unsafe.Pointer(aNew + uintptr(ii)*56)).FpInSavepoint = Xsqlite3BitvecCreate(tls, (*Pager)(unsafe.Pointer(pPager)).FdbSize)
(*PagerSavepoint)(unsafe.Pointer(aNew + uintptr(ii)*56)).FbTruncateOnRelease = 1
if !(int32((*PagerSavepoint)(unsafe.Pointer(aNew+uintptr(ii)*56)).FpInSavepoint) != 0) {
return SQLITE_NOMEM
}
if (*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0) {
Xsqlite3WalSavepoint(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, aNew+uintptr(ii)*56+36)
}
(*Pager)(unsafe.Pointer(pPager)).FnSavepoint = ii + 1
}
return rc
}
func Xsqlite3PagerOpenSavepoint(tls *libc.TLS, pPager uintptr, nSavepoint int32) int32 {
if nSavepoint > (*Pager)(unsafe.Pointer(pPager)).FnSavepoint && (*Pager)(unsafe.Pointer(pPager)).FuseJournal != 0 {
return pagerOpenSavepoint(tls, pPager, nSavepoint)
} else {
return SQLITE_OK
}
return int32(0)
}
// This function is called to rollback or release (commit) a savepoint.
// The savepoint to release or rollback need not be the most recently
// created savepoint.
//
// Parameter op is always either SAVEPOINT_ROLLBACK or SAVEPOINT_RELEASE.
// If it is SAVEPOINT_RELEASE, then release and destroy the savepoint with
// index iSavepoint. If it is SAVEPOINT_ROLLBACK, then rollback all changes
// that have occurred since the specified savepoint was created.
//
// The savepoint to rollback or release is identified by parameter
// iSavepoint. A value of 0 means to operate on the outermost savepoint
// (the first created). A value of (Pager.nSavepoint-1) means operate
// on the most recently created savepoint. If iSavepoint is greater than
// (Pager.nSavepoint-1), then this function is a no-op.
//
// If a negative value is passed to this function, then the current
// transaction is rolled back. This is different to calling
// sqlite3PagerRollback() because this function does not terminate
// the transaction or unlock the database, it just restores the
// contents of the database to its original state.
//
// In any case, all savepoints with an index greater than iSavepoint
// are destroyed. If this is a release operation (op==SAVEPOINT_RELEASE),
// then savepoint iSavepoint is also destroyed.
//
// This function may return SQLITE_NOMEM if a memory allocation fails,
// or an IO error code if an IO error occurs while rolling back a
// savepoint. If no errors occur, SQLITE_OK is returned.
func Xsqlite3PagerSavepoint(tls *libc.TLS, pPager uintptr, op int32, iSavepoint int32) int32 {
var rc int32 = (*Pager)(unsafe.Pointer(pPager)).FerrCode
if rc == SQLITE_OK && iSavepoint < (*Pager)(unsafe.Pointer(pPager)).FnSavepoint {
var ii int32
var nNew int32
nNew = iSavepoint + func() int32 {
if op == SAVEPOINT_RELEASE {
return 0
}
return 1
}()
for ii = nNew; ii < (*Pager)(unsafe.Pointer(pPager)).FnSavepoint; ii++ {
Xsqlite3BitvecDestroy(tls, (*PagerSavepoint)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).FaSavepoint+uintptr(ii)*56)).FpInSavepoint)
}
(*Pager)(unsafe.Pointer(pPager)).FnSavepoint = nNew
if op == SAVEPOINT_RELEASE {
var pRel uintptr = (*Pager)(unsafe.Pointer(pPager)).FaSavepoint + uintptr(nNew)*56
if (*PagerSavepoint)(unsafe.Pointer(pRel)).FbTruncateOnRelease != 0 && (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fsjfd)).FpMethods != uintptr(0) {
if Xsqlite3JournalIsInMemory(tls, (*Pager)(unsafe.Pointer(pPager)).Fsjfd) != 0 {
var sz I64 = ((*Pager)(unsafe.Pointer(pPager)).FpageSize + int64(4)) * I64((*PagerSavepoint)(unsafe.Pointer(pRel)).FiSubRec)
rc = Xsqlite3OsTruncate(tls, (*Pager)(unsafe.Pointer(pPager)).Fsjfd, sz)
}
(*Pager)(unsafe.Pointer(pPager)).FnSubRec = (*PagerSavepoint)(unsafe.Pointer(pRel)).FiSubRec
}
} else if (*Pager)(unsafe.Pointer(pPager)).FpWal != uintptr(0) || (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fjfd)).FpMethods != uintptr(0) {
var pSavepoint uintptr
if nNew == 0 {
pSavepoint = uintptr(0)
} else {
pSavepoint = (*Pager)(unsafe.Pointer(pPager)).FaSavepoint + uintptr(nNew-1)*56
}
rc = pagerPlaybackSavepoint(tls, pPager, pSavepoint)
}
}
return rc
}
// Return the full pathname of the database file.
//
// Except, if the pager is in-memory only, then return an empty string if
// nullIfMemDb is true. This routine is called with nullIfMemDb==1 when
// used to report the filename to the user, for compatibility with legacy
// behavior. But when the Btree needs to know the filename for matching to
// shared cache, it uses nullIfMemDb==0 so that in-memory databases can
// participate in shared-cache.
//
// The return value to this routine is always safe to use with
// sqlite3_uri_parameter() and sqlite3_filename_database() and friends.
func Xsqlite3PagerFilename(tls *libc.TLS, pPager uintptr, nullIfMemDb int32) uintptr {
if nullIfMemDb != 0 && ((*Pager)(unsafe.Pointer(pPager)).FmemDb != 0 || Xsqlite3IsMemdb(tls, (*Pager)(unsafe.Pointer(pPager)).FpVfs) != 0) {
return uintptr(unsafe.Pointer(&zFake)) + 4
} else {
return (*Pager)(unsafe.Pointer(pPager)).FzFilename
}
return uintptr(0)
}
var zFake = [8]int8{int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0)}
// Return the VFS structure for the pager.
func Xsqlite3PagerVfs(tls *libc.TLS, pPager uintptr) uintptr {
return (*Pager)(unsafe.Pointer(pPager)).FpVfs
}
// Return the file handle for the database file associated
// with the pager. This might return NULL if the file has
// not yet been opened.
func Xsqlite3PagerFile(tls *libc.TLS, pPager uintptr) uintptr {
return (*Pager)(unsafe.Pointer(pPager)).Ffd
}
// Return the file handle for the journal file (if it exists).
// This will be either the rollback journal or the WAL file.
func Xsqlite3PagerJrnlFile(tls *libc.TLS, pPager uintptr) uintptr {
if (*Pager)(unsafe.Pointer(pPager)).FpWal != 0 {
return Xsqlite3WalFile(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal)
}
return (*Pager)(unsafe.Pointer(pPager)).Fjfd
}
// Return the full pathname of the journal file.
func Xsqlite3PagerJournalname(tls *libc.TLS, pPager uintptr) uintptr {
return (*Pager)(unsafe.Pointer(pPager)).FzJournal
}
// Move the page pPg to location pgno in the file.
//
// There must be no references to the page previously located at
// pgno (which we call pPgOld) though that page is allowed to be
// in cache. If the page previously located at pgno is not already
// in the rollback journal, it is not put there by by this routine.
//
// References to the page pPg remain valid. Updating any
// meta-data associated with pPg (i.e. data stored in the nExtra bytes
// allocated along with the page) is the responsibility of the caller.
//
// A transaction must be active when this routine is called. It used to be
// required that a statement transaction was not active, but this restriction
// has been removed (CREATE INDEX needs to move a page when a statement
// transaction is active).
//
// If the fourth argument, isCommit, is non-zero, then this page is being
// moved as part of a database reorganization just before the transaction
// is being committed. In this case, it is guaranteed that the database page
// pPg refers to will not be written to again within this transaction.
//
// This function may return SQLITE_NOMEM or an IO error code if an error
// occurs. Otherwise, it returns SQLITE_OK.
func Xsqlite3PagerMovepage(tls *libc.TLS, pPager uintptr, pPg uintptr, pgno Pgno, isCommit int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pPgOld uintptr
var needSyncPgno Pgno = Pgno(0)
var rc int32
var origPgno Pgno
if (*Pager)(unsafe.Pointer(pPager)).FtempFile != 0 {
rc = Xsqlite3PagerWrite(tls, pPg)
if rc != 0 {
return rc
}
}
if int32((*DbPage)(unsafe.Pointer(pPg)).Fflags)&PGHDR_DIRTY != 0 &&
SQLITE_OK != libc.AssignInt32(&rc, subjournalPageIfRequired(tls, pPg)) {
return rc
}
if int32((*DbPage)(unsafe.Pointer(pPg)).Fflags)&PGHDR_NEED_SYNC != 0 && !(isCommit != 0) {
needSyncPgno = (*DbPage)(unsafe.Pointer(pPg)).Fpgno
}
*(*U16)(unsafe.Pointer(pPg + 52)) &= libc.Uint16FromInt32(libc.CplInt32(PGHDR_NEED_SYNC))
pPgOld = Xsqlite3PagerLookup(tls, pPager, pgno)
if pPgOld != 0 {
if int32((*PgHdr)(unsafe.Pointer(pPgOld)).FnRef) > 1 {
Xsqlite3PagerUnrefNotNull(tls, pPgOld)
return Xsqlite3CorruptError(tls, 62623)
}
*(*U16)(unsafe.Pointer(pPg + 52)) |= U16(int32((*PgHdr)(unsafe.Pointer(pPgOld)).Fflags) & PGHDR_NEED_SYNC)
if (*Pager)(unsafe.Pointer(pPager)).FtempFile != 0 {
Xsqlite3PcacheMove(tls, pPgOld, (*Pager)(unsafe.Pointer(pPager)).FdbSize+Pgno(1))
} else {
Xsqlite3PcacheDrop(tls, pPgOld)
}
}
origPgno = (*DbPage)(unsafe.Pointer(pPg)).Fpgno
Xsqlite3PcacheMove(tls, pPg, pgno)
Xsqlite3PcacheMakeDirty(tls, pPg)
if (*Pager)(unsafe.Pointer(pPager)).FtempFile != 0 && pPgOld != 0 {
Xsqlite3PcacheMove(tls, pPgOld, origPgno)
Xsqlite3PagerUnrefNotNull(tls, pPgOld)
}
if needSyncPgno != 0 {
rc = Xsqlite3PagerGet(tls, pPager, needSyncPgno, bp, 0)
if rc != SQLITE_OK {
if needSyncPgno <= (*Pager)(unsafe.Pointer(pPager)).FdbOrigSize {
Xsqlite3BitvecClear(tls, (*Pager)(unsafe.Pointer(pPager)).FpInJournal, needSyncPgno, (*Pager)(unsafe.Pointer(pPager)).FpTmpSpace)
}
return rc
}
*(*U16)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)) + 52)) |= U16(PGHDR_NEED_SYNC)
Xsqlite3PcacheMakeDirty(tls, *(*uintptr)(unsafe.Pointer(bp)))
Xsqlite3PagerUnrefNotNull(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
return SQLITE_OK
}
// The page handle passed as the first argument refers to a dirty page
// with a page number other than iNew. This function changes the page's
// page number to iNew and sets the value of the PgHdr.flags field to
// the value passed as the third parameter.
func Xsqlite3PagerRekey(tls *libc.TLS, pPg uintptr, iNew Pgno, flags U16) {
(*DbPage)(unsafe.Pointer(pPg)).Fflags = flags
Xsqlite3PcacheMove(tls, pPg, iNew)
}
// Return a pointer to the data for the specified page.
func Xsqlite3PagerGetData(tls *libc.TLS, pPg uintptr) uintptr {
return (*DbPage)(unsafe.Pointer(pPg)).FpData
}
// Return a pointer to the Pager.nExtra bytes of "extra" space
// allocated along with the specified page.
func Xsqlite3PagerGetExtra(tls *libc.TLS, pPg uintptr) uintptr {
return (*DbPage)(unsafe.Pointer(pPg)).FpExtra
}
// Get/set the locking-mode for this pager. Parameter eMode must be one
// of PAGER_LOCKINGMODE_QUERY, PAGER_LOCKINGMODE_NORMAL or
// PAGER_LOCKINGMODE_EXCLUSIVE. If the parameter is not _QUERY, then
// the locking-mode is set to the value specified.
//
// The returned value is either PAGER_LOCKINGMODE_NORMAL or
// PAGER_LOCKINGMODE_EXCLUSIVE, indicating the current (possibly updated)
// locking-mode.
func Xsqlite3PagerLockingMode(tls *libc.TLS, pPager uintptr, eMode int32) int32 {
if eMode >= 0 && !(int32((*Pager)(unsafe.Pointer(pPager)).FtempFile) != 0) && !(Xsqlite3WalHeapMemory(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal) != 0) {
(*Pager)(unsafe.Pointer(pPager)).FexclusiveMode = U8(eMode)
}
return int32((*Pager)(unsafe.Pointer(pPager)).FexclusiveMode)
}
// Set the journal-mode for this pager. Parameter eMode must be one of:
//
// PAGER_JOURNALMODE_DELETE
// PAGER_JOURNALMODE_TRUNCATE
// PAGER_JOURNALMODE_PERSIST
// PAGER_JOURNALMODE_OFF
// PAGER_JOURNALMODE_MEMORY
// PAGER_JOURNALMODE_WAL
//
// The journalmode is set to the value specified if the change is allowed.
// The change may be disallowed for the following reasons:
//
// - An in-memory database can only have its journal_mode set to _OFF
// or _MEMORY.
//
// - Temporary databases cannot have _WAL journalmode.
//
// The returned indicate the current (possibly updated) journal-mode.
func Xsqlite3PagerSetJournalMode(tls *libc.TLS, pPager uintptr, eMode int32) int32 {
var eOld U8 = (*Pager)(unsafe.Pointer(pPager)).FjournalMode
if (*Pager)(unsafe.Pointer(pPager)).FmemDb != 0 {
if eMode != PAGER_JOURNALMODE_MEMORY && eMode != PAGER_JOURNALMODE_OFF {
eMode = int32(eOld)
}
}
if eMode != int32(eOld) {
(*Pager)(unsafe.Pointer(pPager)).FjournalMode = U8(eMode)
if !(int32((*Pager)(unsafe.Pointer(pPager)).FexclusiveMode) != 0) && int32(eOld)&5 == 1 && eMode&1 == 0 {
Xsqlite3OsClose(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd)
if int32((*Pager)(unsafe.Pointer(pPager)).FeLock) >= RESERVED_LOCK {
Xsqlite3OsDelete(tls, (*Pager)(unsafe.Pointer(pPager)).FpVfs, (*Pager)(unsafe.Pointer(pPager)).FzJournal, 0)
} else {
var rc int32 = SQLITE_OK
var state int32 = int32((*Pager)(unsafe.Pointer(pPager)).FeState)
if state == PAGER_OPEN {
rc = Xsqlite3PagerSharedLock(tls, pPager)
}
if int32((*Pager)(unsafe.Pointer(pPager)).FeState) == PAGER_READER {
rc = pagerLockDb(tls, pPager, RESERVED_LOCK)
}
if rc == SQLITE_OK {
Xsqlite3OsDelete(tls, (*Pager)(unsafe.Pointer(pPager)).FpVfs, (*Pager)(unsafe.Pointer(pPager)).FzJournal, 0)
}
if rc == SQLITE_OK && state == PAGER_READER {
pagerUnlockDb(tls, pPager, SHARED_LOCK)
} else if state == PAGER_OPEN {
pager_unlock(tls, pPager)
}
}
} else if eMode == PAGER_JOURNALMODE_OFF {
Xsqlite3OsClose(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd)
}
}
return int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode)
}
// Return the current journal mode.
func Xsqlite3PagerGetJournalMode(tls *libc.TLS, pPager uintptr) int32 {
return int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode)
}
// Return TRUE if the pager is in a state where it is OK to change the
// journalmode. Journalmode changes can only happen when the database
// is unmodified.
func Xsqlite3PagerOkToChangeJournalMode(tls *libc.TLS, pPager uintptr) int32 {
if int32((*Pager)(unsafe.Pointer(pPager)).FeState) >= PAGER_WRITER_CACHEMOD {
return 0
}
if (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Fjfd)).FpMethods != uintptr(0) && (*Pager)(unsafe.Pointer(pPager)).FjournalOff > int64(0) {
return 0
}
return 1
}
// Get/set the size-limit used for persistent journal files.
//
// Setting the size limit to -1 means no limit is enforced.
// An attempt to set a limit smaller than -1 is a no-op.
func Xsqlite3PagerJournalSizeLimit(tls *libc.TLS, pPager uintptr, iLimit I64) I64 {
if iLimit >= int64(-1) {
(*Pager)(unsafe.Pointer(pPager)).FjournalSizeLimit = iLimit
Xsqlite3WalLimit(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, iLimit)
}
return (*Pager)(unsafe.Pointer(pPager)).FjournalSizeLimit
}
// Return a pointer to the pPager->pBackup variable. The backup module
// in backup.c maintains the content of this variable. This module
// uses it opaquely as an argument to sqlite3BackupRestart() and
// sqlite3BackupUpdate() only.
func Xsqlite3PagerBackupPtr(tls *libc.TLS, pPager uintptr) uintptr {
return pPager + 112
}
// Unless this is an in-memory or temporary database, clear the pager cache.
func Xsqlite3PagerClearCache(tls *libc.TLS, pPager uintptr) {
if int32((*Pager)(unsafe.Pointer(pPager)).FtempFile) == 0 {
pager_reset(tls, pPager)
}
}
// This function is called when the user invokes "PRAGMA wal_checkpoint",
// "PRAGMA wal_blocking_checkpoint" or calls the sqlite3_wal_checkpoint()
// or wal_blocking_checkpoint() API functions.
//
// Parameter eMode is one of SQLITE_CHECKPOINT_PASSIVE, FULL or RESTART.
func Xsqlite3PagerCheckpoint(tls *libc.TLS, pPager uintptr, db uintptr, eMode int32, pnLog uintptr, pnCkpt uintptr) int32 {
var rc int32 = SQLITE_OK
if (*Pager)(unsafe.Pointer(pPager)).FpWal == uintptr(0) && int32((*Pager)(unsafe.Pointer(pPager)).FjournalMode) == PAGER_JOURNALMODE_WAL {
Xsqlite3_exec(tls, db, ts+4355, uintptr(0), uintptr(0), uintptr(0))
}
if (*Pager)(unsafe.Pointer(pPager)).FpWal != 0 {
rc = Xsqlite3WalCheckpoint(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, db, eMode,
func() uintptr {
if eMode == SQLITE_CHECKPOINT_PASSIVE {
return uintptr(0)
}
return (*Pager)(unsafe.Pointer(pPager)).FxBusyHandler
}(),
(*Pager)(unsafe.Pointer(pPager)).FpBusyHandlerArg,
int32((*Pager)(unsafe.Pointer(pPager)).FwalSyncFlags), int32((*Pager)(unsafe.Pointer(pPager)).FpageSize), (*Pager)(unsafe.Pointer(pPager)).FpTmpSpace,
pnLog, pnCkpt)
}
return rc
}
func Xsqlite3PagerWalCallback(tls *libc.TLS, pPager uintptr) int32 {
return Xsqlite3WalCallback(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal)
}
// Return true if the underlying VFS for the given pager supports the
// primitives necessary for write-ahead logging.
func Xsqlite3PagerWalSupported(tls *libc.TLS, pPager uintptr) int32 {
var pMethods uintptr = (*Sqlite3_file)(unsafe.Pointer((*Pager)(unsafe.Pointer(pPager)).Ffd)).FpMethods
if (*Pager)(unsafe.Pointer(pPager)).FnoLock != 0 {
return 0
}
return libc.Bool32((*Pager)(unsafe.Pointer(pPager)).FexclusiveMode != 0 || (*Sqlite3_io_methods)(unsafe.Pointer(pMethods)).FiVersion >= 2 && (*Sqlite3_io_methods)(unsafe.Pointer(pMethods)).FxShmMap != 0)
}
func pagerExclusiveLock(tls *libc.TLS, pPager uintptr) int32 {
var rc int32
rc = pagerLockDb(tls, pPager, EXCLUSIVE_LOCK)
if rc != SQLITE_OK {
pagerUnlockDb(tls, pPager, SHARED_LOCK)
}
return rc
}
func pagerOpenWal(tls *libc.TLS, pPager uintptr) int32 {
var rc int32 = SQLITE_OK
if (*Pager)(unsafe.Pointer(pPager)).FexclusiveMode != 0 {
rc = pagerExclusiveLock(tls, pPager)
}
if rc == SQLITE_OK {
rc = Xsqlite3WalOpen(tls, (*Pager)(unsafe.Pointer(pPager)).FpVfs,
(*Pager)(unsafe.Pointer(pPager)).Ffd, (*Pager)(unsafe.Pointer(pPager)).FzWal, int32((*Pager)(unsafe.Pointer(pPager)).FexclusiveMode),
(*Pager)(unsafe.Pointer(pPager)).FjournalSizeLimit, pPager+296)
}
pagerFixMaplimit(tls, pPager)
return rc
}
// The caller must be holding a SHARED lock on the database file to call
// this function.
//
// If the pager passed as the first argument is open on a real database
// file (not a temp file or an in-memory database), and the WAL file
// is not already open, make an attempt to open it now. If successful,
// return SQLITE_OK. If an error occurs or the VFS used by the pager does
// not support the xShmXXX() methods, return an error code. *pbOpen is
// not modified in either case.
//
// If the pager is open on a temp-file (or in-memory database), or if
// the WAL file is already open, set *pbOpen to 1 and return SQLITE_OK
// without doing anything.
func Xsqlite3PagerOpenWal(tls *libc.TLS, pPager uintptr, pbOpen uintptr) int32 {
var rc int32 = SQLITE_OK
if !(int32((*Pager)(unsafe.Pointer(pPager)).FtempFile) != 0) && !(int32((*Pager)(unsafe.Pointer(pPager)).FpWal) != 0) {
if !(Xsqlite3PagerWalSupported(tls, pPager) != 0) {
return SQLITE_CANTOPEN
}
Xsqlite3OsClose(tls, (*Pager)(unsafe.Pointer(pPager)).Fjfd)
rc = pagerOpenWal(tls, pPager)
if rc == SQLITE_OK {
(*Pager)(unsafe.Pointer(pPager)).FjournalMode = U8(PAGER_JOURNALMODE_WAL)
(*Pager)(unsafe.Pointer(pPager)).FeState = U8(PAGER_OPEN)
}
} else {
*(*int32)(unsafe.Pointer(pbOpen)) = 1
}
return rc
}
// This function is called to close the connection to the log file prior
// to switching from WAL to rollback mode.
//
// Before closing the log file, this function attempts to take an
// EXCLUSIVE lock on the database file. If this cannot be obtained, an
// error (SQLITE_BUSY) is returned and the log connection is not closed.
// If successful, the EXCLUSIVE lock is not released before returning.
func Xsqlite3PagerCloseWal(tls *libc.TLS, pPager uintptr, db uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32 = SQLITE_OK
if !(int32((*Pager)(unsafe.Pointer(pPager)).FpWal) != 0) {
*(*int32)(unsafe.Pointer(bp)) = 0
rc = pagerLockDb(tls, pPager, SHARED_LOCK)
if rc == SQLITE_OK {
rc = Xsqlite3OsAccess(tls,
(*Pager)(unsafe.Pointer(pPager)).FpVfs, (*Pager)(unsafe.Pointer(pPager)).FzWal, SQLITE_ACCESS_EXISTS, bp)
}
if rc == SQLITE_OK && *(*int32)(unsafe.Pointer(bp)) != 0 {
rc = pagerOpenWal(tls, pPager)
}
}
if rc == SQLITE_OK && (*Pager)(unsafe.Pointer(pPager)).FpWal != 0 {
rc = pagerExclusiveLock(tls, pPager)
if rc == SQLITE_OK {
rc = Xsqlite3WalClose(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, db, int32((*Pager)(unsafe.Pointer(pPager)).FwalSyncFlags),
int32((*Pager)(unsafe.Pointer(pPager)).FpageSize), (*Pager)(unsafe.Pointer(pPager)).FpTmpSpace)
(*Pager)(unsafe.Pointer(pPager)).FpWal = uintptr(0)
pagerFixMaplimit(tls, pPager)
if rc != 0 && !(int32((*Pager)(unsafe.Pointer(pPager)).FexclusiveMode) != 0) {
pagerUnlockDb(tls, pPager, SHARED_LOCK)
}
}
}
return rc
}
// If this is a WAL database, obtain a snapshot handle for the snapshot
// currently open. Otherwise, return an error.
func Xsqlite3PagerSnapshotGet(tls *libc.TLS, pPager uintptr, ppSnapshot uintptr) int32 {
var rc int32 = SQLITE_ERROR
if (*Pager)(unsafe.Pointer(pPager)).FpWal != 0 {
rc = Xsqlite3WalSnapshotGet(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, ppSnapshot)
}
return rc
}
// If this is a WAL database, store a pointer to pSnapshot. Next time a
// read transaction is opened, attempt to read from the snapshot it
// identifies. If this is not a WAL database, return an error.
func Xsqlite3PagerSnapshotOpen(tls *libc.TLS, pPager uintptr, pSnapshot uintptr) int32 {
var rc int32 = SQLITE_OK
if (*Pager)(unsafe.Pointer(pPager)).FpWal != 0 {
Xsqlite3WalSnapshotOpen(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, pSnapshot)
} else {
rc = SQLITE_ERROR
}
return rc
}
// If this is a WAL database, call sqlite3WalSnapshotRecover(). If this
// is not a WAL database, return an error.
func Xsqlite3PagerSnapshotRecover(tls *libc.TLS, pPager uintptr) int32 {
var rc int32
if (*Pager)(unsafe.Pointer(pPager)).FpWal != 0 {
rc = Xsqlite3WalSnapshotRecover(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal)
} else {
rc = SQLITE_ERROR
}
return rc
}
// The caller currently has a read transaction open on the database.
// If this is not a WAL database, SQLITE_ERROR is returned. Otherwise,
// this function takes a SHARED lock on the CHECKPOINTER slot and then
// checks if the snapshot passed as the second argument is still
// available. If so, SQLITE_OK is returned.
//
// If the snapshot is not available, SQLITE_ERROR is returned. Or, if
// the CHECKPOINTER lock cannot be obtained, SQLITE_BUSY. If any error
// occurs (any value other than SQLITE_OK is returned), the CHECKPOINTER
// lock is released before returning.
func Xsqlite3PagerSnapshotCheck(tls *libc.TLS, pPager uintptr, pSnapshot uintptr) int32 {
var rc int32
if (*Pager)(unsafe.Pointer(pPager)).FpWal != 0 {
rc = Xsqlite3WalSnapshotCheck(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal, pSnapshot)
} else {
rc = SQLITE_ERROR
}
return rc
}
// Release a lock obtained by an earlier successful call to
// sqlite3PagerSnapshotCheck().
func Xsqlite3PagerSnapshotUnlock(tls *libc.TLS, pPager uintptr) {
Xsqlite3WalSnapshotUnlock(tls, (*Pager)(unsafe.Pointer(pPager)).FpWal)
}
// Object declarations
type WalIndexHdr1 = struct {
FiVersion U32
Funused U32
FiChange U32
FisInit U8
FbigEndCksum U8
FszPage U16
FmxFrame U32
FnPage U32
FaFrameCksum [2]U32
FaSalt [2]U32
FaCksum [2]U32
}
// Object declarations
type WalIndexHdr = WalIndexHdr1
type WalIterator1 = struct {
FiPrior U32
FnSegment int32
FaSegment [1]struct {
FiNext int32
F__ccgo_pad1 [4]byte
FaIndex uintptr
FaPgno uintptr
FnEntry int32
FiZero int32
}
}
type WalIterator = WalIterator1
type WalCkptInfo1 = struct {
FnBackfill U32
FaReadMark [5]U32
FaLock [8]U8
FnBackfillAttempted U32
FnotUsed0 U32
}
type WalCkptInfo = WalCkptInfo1
// Each page of the wal-index mapping contains a hash-table made up of
// an array of HASHTABLE_NSLOT elements of the following type.
type Ht_slot = U16
// This structure is used to implement an iterator that loops through
// all frames in the WAL in database page order. Where two or more frames
// correspond to the same database page, the iterator visits only the
// frame most recently written to the WAL (in other words, the frame with
// the largest index).
//
// The internals of this structure are only accessed by:
//
// walIteratorInit() - Create a new iterator,
// walIteratorNext() - Step an iterator,
// walIteratorFree() - Free an iterator.
//
// This functionality is used by the checkpoint code (see walCheckpoint()).
type WalSegment = struct {
FiNext int32
F__ccgo_pad1 [4]byte
FaIndex uintptr
FaPgno uintptr
FnEntry int32
FiZero int32
}
func walIndexPageRealloc(tls *libc.TLS, pWal uintptr, iPage int32, ppPage uintptr) int32 {
var rc int32 = SQLITE_OK
if (*Wal)(unsafe.Pointer(pWal)).FnWiData <= iPage {
var nByte Sqlite3_int64 = Sqlite3_int64(uint64(unsafe.Sizeof(uintptr(0))) * uint64(iPage+1))
var apNew uintptr
libc.AtomicStoreUintptr(&apNew, Xsqlite3Realloc(tls, (*Wal)(unsafe.Pointer(pWal)).FapWiData, uint64(nByte)))
if !(apNew != 0) {
*(*uintptr)(unsafe.Pointer(ppPage)) = uintptr(0)
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, apNew+uintptr((*Wal)(unsafe.Pointer(pWal)).FnWiData)*8, 0, uint64(unsafe.Sizeof(uintptr(0)))*uint64(iPage+1-(*Wal)(unsafe.Pointer(pWal)).FnWiData), libc.X__builtin_object_size(tls, apNew+uintptr((*Wal)(unsafe.Pointer(pWal)).FnWiData)*8, 0))
(*Wal)(unsafe.Pointer(pWal)).FapWiData = apNew
(*Wal)(unsafe.Pointer(pWal)).FnWiData = iPage + 1
}
if int32((*Wal)(unsafe.Pointer(pWal)).FexclusiveMode) == WAL_HEAPMEMORY_MODE {
*(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData + uintptr(iPage)*8)) = Xsqlite3MallocZero(tls, uint64(unsafe.Sizeof(Ht_slot(0)))*uint64(HASHTABLE_NPAGE*2)+uint64(HASHTABLE_NPAGE)*uint64(unsafe.Sizeof(U32(0))))
if !(int32(*(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData + uintptr(iPage)*8))) != 0) {
rc = SQLITE_NOMEM
}
} else {
rc = Xsqlite3OsShmMap(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, iPage, int32(uint64(unsafe.Sizeof(Ht_slot(0)))*uint64(HASHTABLE_NPAGE*2)+uint64(HASHTABLE_NPAGE)*uint64(unsafe.Sizeof(U32(0)))),
int32((*Wal)(unsafe.Pointer(pWal)).FwriteLock), (*Wal)(unsafe.Pointer(pWal)).FapWiData+uintptr(iPage)*8)
if rc == SQLITE_OK {
if iPage > 0 && Xsqlite3FaultSim(tls, 600) != 0 {
rc = SQLITE_NOMEM
}
} else if rc&0xff == SQLITE_READONLY {
*(*U8)(unsafe.Pointer(pWal + 66)) |= U8(WAL_SHM_RDONLY)
if rc == SQLITE_READONLY {
rc = SQLITE_OK
}
}
}
*(*uintptr)(unsafe.Pointer(ppPage)) = *(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData + uintptr(iPage)*8))
return rc
}
func walIndexPage(tls *libc.TLS, pWal uintptr, iPage int32, ppPage uintptr) int32 {
if (*Wal)(unsafe.Pointer(pWal)).FnWiData <= iPage || libc.AssignPtrUintptr(ppPage, *(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData + uintptr(iPage)*8))) == uintptr(0) {
return walIndexPageRealloc(tls, pWal, iPage, ppPage)
}
return SQLITE_OK
}
func walCkptInfo(tls *libc.TLS, pWal uintptr) uintptr {
return *(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData)) + 24*4
}
func walIndexHdr(tls *libc.TLS, pWal uintptr) uintptr {
return *(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData))
}
func walChecksumBytes(tls *libc.TLS, nativeCksum int32, a uintptr, nByte int32, aIn uintptr, aOut uintptr) {
var s1 U32
var s2 U32
var aData uintptr = a
var aEnd uintptr = a + uintptr(nByte)
if aIn != 0 {
s1 = *(*U32)(unsafe.Pointer(aIn))
s2 = *(*U32)(unsafe.Pointer(aIn + 1*4))
} else {
s1 = libc.AssignUint32(&s2, U32(0))
}
if nativeCksum != 0 {
for __ccgo := true; __ccgo; __ccgo = aData < aEnd {
s1 = s1 + (*(*U32)(unsafe.Pointer(libc.PostIncUintptr(&aData, 4))) + s2)
s2 = s2 + (*(*U32)(unsafe.Pointer(libc.PostIncUintptr(&aData, 4))) + s1)
}
} else {
for __ccgo1 := true; __ccgo1; __ccgo1 = aData < aEnd {
s1 = s1 + (*(*U32)(unsafe.Pointer(aData))&U32(0x000000FF)<<24 + *(*U32)(unsafe.Pointer(aData))&U32(0x0000FF00)<<8 + *(*U32)(unsafe.Pointer(aData))&U32(0x00FF0000)>>8 + *(*U32)(unsafe.Pointer(aData))&0xFF000000>>24 + s2)
s2 = s2 + (*(*U32)(unsafe.Pointer(aData + 1*4))&U32(0x000000FF)<<24 + *(*U32)(unsafe.Pointer(aData + 1*4))&U32(0x0000FF00)<<8 + *(*U32)(unsafe.Pointer(aData + 1*4))&U32(0x00FF0000)>>8 + *(*U32)(unsafe.Pointer(aData + 1*4))&0xFF000000>>24 + s1)
aData += 4 * uintptr(2)
}
}
*(*U32)(unsafe.Pointer(aOut)) = s1
*(*U32)(unsafe.Pointer(aOut + 1*4)) = s2
}
func walShmBarrier(tls *libc.TLS, pWal uintptr) {
if int32((*Wal)(unsafe.Pointer(pWal)).FexclusiveMode) != WAL_HEAPMEMORY_MODE {
Xsqlite3OsShmBarrier(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd)
}
}
func walIndexWriteHdr(tls *libc.TLS, pWal uintptr) {
var aHdr uintptr = walIndexHdr(tls, pWal)
var nCksum int32 = int32(uintptr(0) + 40)
(*Wal)(unsafe.Pointer(pWal)).Fhdr.FisInit = U8(1)
(*Wal)(unsafe.Pointer(pWal)).Fhdr.FiVersion = U32(WALINDEX_MAX_VERSION)
walChecksumBytes(tls, 1, pWal+72, nCksum, uintptr(0), pWal+72+40)
libc.X__builtin___memcpy_chk(tls, aHdr+1*48, pWal+72, uint64(unsafe.Sizeof(WalIndexHdr{})), libc.X__builtin_object_size(tls, aHdr+1*48, 0))
walShmBarrier(tls, pWal)
libc.X__builtin___memcpy_chk(tls, aHdr, pWal+72, uint64(unsafe.Sizeof(WalIndexHdr{})), libc.X__builtin_object_size(tls, aHdr, 0))
}
func walEncodeFrame(tls *libc.TLS, pWal uintptr, iPage U32, nTruncate U32, aData uintptr, aFrame uintptr) {
var nativeCksum int32
var aCksum uintptr = pWal + 72 + 24
Xsqlite3Put4byte(tls, aFrame, iPage)
Xsqlite3Put4byte(tls, aFrame+4, nTruncate)
if (*Wal)(unsafe.Pointer(pWal)).FiReCksum == U32(0) {
libc.X__builtin___memcpy_chk(tls, aFrame+8, pWal+72+32, uint64(8), libc.X__builtin_object_size(tls, aFrame+8, 0))
nativeCksum = libc.Bool32(int32((*Wal)(unsafe.Pointer(pWal)).Fhdr.FbigEndCksum) == SQLITE_BIGENDIAN)
walChecksumBytes(tls, nativeCksum, aFrame, 8, aCksum, aCksum)
walChecksumBytes(tls, nativeCksum, aData, int32((*Wal)(unsafe.Pointer(pWal)).FszPage), aCksum, aCksum)
Xsqlite3Put4byte(tls, aFrame+16, *(*U32)(unsafe.Pointer(aCksum)))
Xsqlite3Put4byte(tls, aFrame+20, *(*U32)(unsafe.Pointer(aCksum + 1*4)))
} else {
libc.X__builtin___memset_chk(tls, aFrame+8, 0, uint64(16), libc.X__builtin_object_size(tls, aFrame+8, 0))
}
}
func walDecodeFrame(tls *libc.TLS, pWal uintptr, piPage uintptr, pnTruncate uintptr, aData uintptr, aFrame uintptr) int32 {
var nativeCksum int32
var aCksum uintptr = pWal + 72 + 24
var pgno U32
if libc.Xmemcmp(tls, pWal+72+32, aFrame+8, uint64(8)) != 0 {
return 0
}
pgno = Xsqlite3Get4byte(tls, aFrame)
if pgno == U32(0) {
return 0
}
nativeCksum = libc.Bool32(int32((*Wal)(unsafe.Pointer(pWal)).Fhdr.FbigEndCksum) == SQLITE_BIGENDIAN)
walChecksumBytes(tls, nativeCksum, aFrame, 8, aCksum, aCksum)
walChecksumBytes(tls, nativeCksum, aData, int32((*Wal)(unsafe.Pointer(pWal)).FszPage), aCksum, aCksum)
if *(*U32)(unsafe.Pointer(aCksum)) != Xsqlite3Get4byte(tls, aFrame+16) ||
*(*U32)(unsafe.Pointer(aCksum + 1*4)) != Xsqlite3Get4byte(tls, aFrame+20) {
return 0
}
*(*U32)(unsafe.Pointer(piPage)) = pgno
*(*U32)(unsafe.Pointer(pnTruncate)) = Xsqlite3Get4byte(tls, aFrame+4)
return 1
}
func walLockShared(tls *libc.TLS, pWal uintptr, lockIdx int32) int32 {
var rc int32
if (*Wal)(unsafe.Pointer(pWal)).FexclusiveMode != 0 {
return SQLITE_OK
}
rc = Xsqlite3OsShmLock(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, lockIdx, 1,
SQLITE_SHM_LOCK|SQLITE_SHM_SHARED)
return rc
}
func walUnlockShared(tls *libc.TLS, pWal uintptr, lockIdx int32) {
if (*Wal)(unsafe.Pointer(pWal)).FexclusiveMode != 0 {
return
}
Xsqlite3OsShmLock(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, lockIdx, 1,
SQLITE_SHM_UNLOCK|SQLITE_SHM_SHARED)
}
func walLockExclusive(tls *libc.TLS, pWal uintptr, lockIdx int32, n int32) int32 {
var rc int32
if (*Wal)(unsafe.Pointer(pWal)).FexclusiveMode != 0 {
return SQLITE_OK
}
rc = Xsqlite3OsShmLock(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, lockIdx, n,
SQLITE_SHM_LOCK|SQLITE_SHM_EXCLUSIVE)
return rc
}
func walUnlockExclusive(tls *libc.TLS, pWal uintptr, lockIdx int32, n int32) {
if (*Wal)(unsafe.Pointer(pWal)).FexclusiveMode != 0 {
return
}
Xsqlite3OsShmLock(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, lockIdx, n,
SQLITE_SHM_UNLOCK|SQLITE_SHM_EXCLUSIVE)
}
func walHash(tls *libc.TLS, iPage U32) int32 {
return int32(iPage * U32(HASHTABLE_HASH_1) & U32(HASHTABLE_NPAGE*2-1))
}
func walNextHash(tls *libc.TLS, iPriorHash int32) int32 {
return (iPriorHash + 1) & (HASHTABLE_NPAGE*2 - 1)
}
// An instance of the WalHashLoc object is used to describe the location
// of a page hash table in the wal-index. This becomes the return value
// from walHashGet().
type WalHashLoc1 = struct {
FaHash uintptr
FaPgno uintptr
FiZero U32
F__ccgo_pad1 [4]byte
}
// An instance of the WalHashLoc object is used to describe the location
// of a page hash table in the wal-index. This becomes the return value
// from walHashGet().
type WalHashLoc = WalHashLoc1
func walHashGet(tls *libc.TLS, pWal uintptr, iHash int32, pLoc uintptr) int32 {
var rc int32
rc = walIndexPage(tls, pWal, iHash, pLoc+8)
if (*WalHashLoc)(unsafe.Pointer(pLoc)).FaPgno != 0 {
(*WalHashLoc)(unsafe.Pointer(pLoc)).FaHash = (*WalHashLoc)(unsafe.Pointer(pLoc)).FaPgno + 4096*4
if iHash == 0 {
(*WalHashLoc)(unsafe.Pointer(pLoc)).FaPgno = (*WalHashLoc)(unsafe.Pointer(pLoc)).FaPgno + 34*4
(*WalHashLoc)(unsafe.Pointer(pLoc)).FiZero = U32(0)
} else {
(*WalHashLoc)(unsafe.Pointer(pLoc)).FiZero = U32(uint64(HASHTABLE_NPAGE) - (uint64(unsafe.Sizeof(WalIndexHdr{}))*uint64(2)+uint64(unsafe.Sizeof(WalCkptInfo{})))/uint64(unsafe.Sizeof(U32(0))) + uint64((iHash-1)*HASHTABLE_NPAGE))
}
} else if rc == SQLITE_OK {
rc = SQLITE_ERROR
}
return rc
}
func walFramePage(tls *libc.TLS, iFrame U32) int32 {
var iHash int32 = int32((uint64(iFrame+U32(HASHTABLE_NPAGE)) - (uint64(HASHTABLE_NPAGE) - (uint64(unsafe.Sizeof(WalIndexHdr{}))*uint64(2)+uint64(unsafe.Sizeof(WalCkptInfo{})))/uint64(unsafe.Sizeof(U32(0)))) - uint64(1)) / uint64(HASHTABLE_NPAGE))
return iHash
}
func walFramePgno(tls *libc.TLS, pWal uintptr, iFrame U32) U32 {
var iHash int32 = walFramePage(tls, iFrame)
if iHash == 0 {
return *(*U32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData)) + uintptr((uint64(unsafe.Sizeof(WalIndexHdr{}))*uint64(2)+uint64(unsafe.Sizeof(WalCkptInfo{})))/uint64(unsafe.Sizeof(U32(0)))+uint64(iFrame)-uint64(1))*4))
}
return *(*U32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData + uintptr(iHash)*8)) + uintptr((uint64(iFrame-U32(1))-(uint64(HASHTABLE_NPAGE)-(uint64(unsafe.Sizeof(WalIndexHdr{}))*uint64(2)+uint64(unsafe.Sizeof(WalCkptInfo{})))/uint64(unsafe.Sizeof(U32(0)))))%uint64(HASHTABLE_NPAGE))*4))
}
func walCleanupHash(tls *libc.TLS, pWal uintptr) {
bp := tls.Alloc(24)
defer tls.Free(24)
var iLimit int32 = 0
var nByte int32
var i int32
if (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame == U32(0) {
return
}
i = walHashGet(tls, pWal, walFramePage(tls, (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame), bp)
if i != 0 {
return
}
iLimit = int32((*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame - (*WalHashLoc)(unsafe.Pointer(bp)).FiZero)
for i = 0; i < HASHTABLE_NPAGE*2; i++ {
if int32(*(*Ht_slot)(unsafe.Pointer((*WalHashLoc)(unsafe.Pointer(bp)).FaHash + uintptr(i)*2))) > iLimit {
*(*Ht_slot)(unsafe.Pointer((*WalHashLoc)(unsafe.Pointer(bp)).FaHash + uintptr(i)*2)) = Ht_slot(0)
}
}
nByte = int32((int64((*WalHashLoc)(unsafe.Pointer(bp)).FaHash) - int64((*WalHashLoc)(unsafe.Pointer(bp)).FaPgno+uintptr(iLimit)*4)) / 1)
libc.X__builtin___memset_chk(tls, (*WalHashLoc)(unsafe.Pointer(bp)).FaPgno+uintptr(iLimit)*4, 0, uint64(nByte), libc.X__builtin_object_size(tls, (*WalHashLoc)(unsafe.Pointer(bp)).FaPgno+uintptr(iLimit)*4, 0))
}
func walIndexAppend(tls *libc.TLS, pWal uintptr, iFrame U32, iPage U32) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var rc int32
rc = walHashGet(tls, pWal, walFramePage(tls, iFrame), bp)
if rc == SQLITE_OK {
var iKey int32
var idx int32
var nCollide int32
idx = int32(iFrame - (*WalHashLoc)(unsafe.Pointer(bp)).FiZero)
if idx == 1 {
var nByte int32 = int32((int64((*WalHashLoc)(unsafe.Pointer(bp)).FaHash+8192*2) - int64((*WalHashLoc)(unsafe.Pointer(bp)).FaPgno)) / 1)
libc.X__builtin___memset_chk(tls, (*WalHashLoc)(unsafe.Pointer(bp)).FaPgno, 0, uint64(nByte), libc.X__builtin_object_size(tls, (*WalHashLoc)(unsafe.Pointer(bp)).FaPgno, 0))
}
if *(*U32)(unsafe.Pointer((*WalHashLoc)(unsafe.Pointer(bp)).FaPgno + uintptr(idx-1)*4)) != 0 {
walCleanupHash(tls, pWal)
}
nCollide = idx
for iKey = walHash(tls, iPage); *(*Ht_slot)(unsafe.Pointer((*WalHashLoc)(unsafe.Pointer(bp)).FaHash + uintptr(iKey)*2)) != 0; iKey = walNextHash(tls, iKey) {
if libc.PostDecInt32(&nCollide, 1) == 0 {
return Xsqlite3CorruptError(tls, 64387)
}
}
*(*U32)(unsafe.Pointer((*WalHashLoc)(unsafe.Pointer(bp)).FaPgno + uintptr(idx-1)*4)) = iPage
*(*Ht_slot)(unsafe.Pointer((*WalHashLoc)(unsafe.Pointer(bp)).FaHash + uintptr(iKey)*2)) = Ht_slot(idx)
}
return rc
}
func walIndexRecover(tls *libc.TLS, pWal uintptr) int32 {
bp := tls.Alloc(80)
defer tls.Free(80)
var rc int32
var iLock int32
var iOffset I64
var iFrame U32
var iLast U32
var iFirst U32
var nHdr U32
var nHdr32 U32
var aPrivate uintptr
var aFrame uintptr
var szFrame int32
var aData uintptr
var szPage int32
var magic U32
var version U32
var isValid int32
var iPg U32
var iLastFrame U32
var pInfo uintptr
var i int32
*(*[2]U32)(unsafe.Pointer(bp + 72)) = [2]U32{U32(0), U32(0)}
iLock = WAL_ALL_BUT_WRITE + int32((*Wal)(unsafe.Pointer(pWal)).FckptLock)
rc = walLockExclusive(tls, pWal, iLock, 3+0-iLock)
if !(rc != 0) {
goto __1
}
return rc
__1:
;
libc.X__builtin___memset_chk(tls, pWal+72, 0, uint64(unsafe.Sizeof(WalIndexHdr{})), libc.X__builtin_object_size(tls, pWal+72, 0))
rc = Xsqlite3OsFileSize(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, bp+16)
if !(rc != SQLITE_OK) {
goto __2
}
goto recovery_error
__2:
;
if !(*(*I64)(unsafe.Pointer(bp + 16)) > int64(WAL_HDRSIZE)) {
goto __3
}
aPrivate = uintptr(0)
aFrame = uintptr(0)
rc = Xsqlite3OsRead(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, bp+24, WAL_HDRSIZE, int64(0))
if !(rc != SQLITE_OK) {
goto __4
}
goto recovery_error
__4:
;
magic = Xsqlite3Get4byte(tls, bp+24)
szPage = int32(Xsqlite3Get4byte(tls, bp+24+8))
if !(magic&0xFFFFFFFE != U32(WAL_MAGIC) ||
szPage&(szPage-1) != 0 ||
szPage > SQLITE_MAX_PAGE_SIZE ||
szPage < 512) {
goto __5
}
goto finished
__5:
;
(*Wal)(unsafe.Pointer(pWal)).Fhdr.FbigEndCksum = U8(magic & U32(0x00000001))
(*Wal)(unsafe.Pointer(pWal)).FszPage = U32(szPage)
(*Wal)(unsafe.Pointer(pWal)).FnCkpt = Xsqlite3Get4byte(tls, bp+24+12)
libc.X__builtin___memcpy_chk(tls, pWal+72+32, bp+24+16, uint64(8), libc.X__builtin_object_size(tls, pWal+72+32, 0))
walChecksumBytes(tls, libc.Bool32(int32((*Wal)(unsafe.Pointer(pWal)).Fhdr.FbigEndCksum) == SQLITE_BIGENDIAN),
bp+24, WAL_HDRSIZE-2*4, uintptr(0), pWal+72+24)
if !(*(*U32)(unsafe.Pointer(pWal + 72 + 24)) != Xsqlite3Get4byte(tls, bp+24+24) ||
*(*U32)(unsafe.Pointer(pWal + 72 + 24 + 1*4)) != Xsqlite3Get4byte(tls, bp+24+28)) {
goto __6
}
goto finished
__6:
;
version = Xsqlite3Get4byte(tls, bp+24+4)
if !(version != U32(WAL_MAX_VERSION)) {
goto __7
}
rc = Xsqlite3CantopenError(tls, 64519)
goto finished
__7:
;
szFrame = szPage + WAL_FRAME_HDRSIZE
aFrame = Xsqlite3_malloc64(tls, uint64(szFrame)+(uint64(unsafe.Sizeof(Ht_slot(0)))*uint64(HASHTABLE_NPAGE*2)+uint64(HASHTABLE_NPAGE)*uint64(unsafe.Sizeof(U32(0)))))
if !!(aFrame != 0) {
goto __8
}
rc = SQLITE_NOMEM
goto recovery_error
__8:
;
aData = aFrame + 24
aPrivate = aData + uintptr(szPage)
iLastFrame = U32((*(*I64)(unsafe.Pointer(bp + 16)) - int64(WAL_HDRSIZE)) / I64(szFrame))
iPg = U32(0)
__9:
if !(iPg <= U32(walFramePage(tls, iLastFrame))) {
goto __11
}
iLast = func() uint32 {
if uint64(iLastFrame) < uint64(HASHTABLE_NPAGE)-(uint64(unsafe.Sizeof(WalIndexHdr{}))*uint64(2)+uint64(unsafe.Sizeof(WalCkptInfo{})))/uint64(unsafe.Sizeof(U32(0)))+uint64(iPg*U32(HASHTABLE_NPAGE)) {
return iLastFrame
}
return uint32(uint64(HASHTABLE_NPAGE) - (uint64(unsafe.Sizeof(WalIndexHdr{}))*uint64(2)+uint64(unsafe.Sizeof(WalCkptInfo{})))/uint64(unsafe.Sizeof(U32(0))) + uint64(iPg*U32(HASHTABLE_NPAGE)))
}()
iFirst = U32(uint64(1) + func() uint64 {
if iPg == U32(0) {
return uint64(0)
}
return uint64(HASHTABLE_NPAGE) - (uint64(unsafe.Sizeof(WalIndexHdr{}))*uint64(2)+uint64(unsafe.Sizeof(WalCkptInfo{})))/uint64(unsafe.Sizeof(U32(0))) + uint64((iPg-U32(1))*U32(HASHTABLE_NPAGE))
}())
rc = walIndexPage(tls, pWal, int32(iPg), bp+56)
if !(*(*uintptr)(unsafe.Pointer(bp + 56)) == uintptr(0)) {
goto __12
}
goto __11
__12:
;
*(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData + uintptr(iPg)*8)) = aPrivate
iFrame = iFirst
__13:
if !(iFrame <= iLast) {
goto __15
}
iOffset = int64(WAL_HDRSIZE) + I64(iFrame-U32(1))*I64(szPage+WAL_FRAME_HDRSIZE)
rc = Xsqlite3OsRead(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, aFrame, szFrame, iOffset)
if !(rc != SQLITE_OK) {
goto __16
}
goto __15
__16:
;
isValid = walDecodeFrame(tls, pWal, bp+64, bp+68, aData, aFrame)
if !!(isValid != 0) {
goto __17
}
goto __15
__17:
;
rc = walIndexAppend(tls, pWal, iFrame, *(*U32)(unsafe.Pointer(bp + 64)))
if !(rc != SQLITE_OK) {
goto __18
}
goto __15
__18:
;
if !(*(*U32)(unsafe.Pointer(bp + 68)) != 0) {
goto __19
}
(*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame = iFrame
(*Wal)(unsafe.Pointer(pWal)).Fhdr.FnPage = *(*U32)(unsafe.Pointer(bp + 68))
(*Wal)(unsafe.Pointer(pWal)).Fhdr.FszPage = U16(szPage&0xff00 | szPage>>16)
*(*U32)(unsafe.Pointer(bp + 72)) = *(*U32)(unsafe.Pointer(pWal + 72 + 24))
*(*U32)(unsafe.Pointer(bp + 72 + 1*4)) = *(*U32)(unsafe.Pointer(pWal + 72 + 24 + 1*4))
__19:
;
goto __14
__14:
iFrame++
goto __13
goto __15
__15:
;
*(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData + uintptr(iPg)*8)) = *(*uintptr)(unsafe.Pointer(bp + 56))
nHdr = func() uint32 {
if iPg == U32(0) {
return uint32(uint64(unsafe.Sizeof(WalIndexHdr{}))*uint64(2) + uint64(unsafe.Sizeof(WalCkptInfo{})))
}
return uint32(0)
}()
nHdr32 = U32(uint64(nHdr) / uint64(unsafe.Sizeof(U32(0))))
libc.X__builtin___memcpy_chk(tls, *(*uintptr)(unsafe.Pointer(bp + 56))+uintptr(nHdr32)*4, aPrivate+uintptr(nHdr32)*4, uint64(unsafe.Sizeof(Ht_slot(0)))*uint64(HASHTABLE_NPAGE*2)+uint64(HASHTABLE_NPAGE)*uint64(unsafe.Sizeof(U32(0)))-uint64(nHdr), libc.X__builtin_object_size(tls, *(*uintptr)(unsafe.Pointer(bp + 56))+uintptr(nHdr32)*4, 0))
if !(iFrame <= iLast) {
goto __20
}
goto __11
__20:
;
goto __10
__10:
iPg++
goto __9
goto __11
__11:
;
Xsqlite3_free(tls, aFrame)
__3:
;
finished:
if !(rc == SQLITE_OK) {
goto __21
}
*(*U32)(unsafe.Pointer(pWal + 72 + 24)) = *(*U32)(unsafe.Pointer(bp + 72))
*(*U32)(unsafe.Pointer(pWal + 72 + 24 + 1*4)) = *(*U32)(unsafe.Pointer(bp + 72 + 1*4))
walIndexWriteHdr(tls, pWal)
libc.AtomicStoreUintptr(&pInfo, walCkptInfo(tls, pWal))
(*WalCkptInfo)(unsafe.Pointer(pInfo)).FnBackfill = U32(0)
(*WalCkptInfo)(unsafe.Pointer(pInfo)).FnBackfillAttempted = (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame
*(*U32)(unsafe.Pointer(pInfo + 4)) = U32(0)
i = 1
__22:
if !(i < SQLITE_SHM_NLOCK-3) {
goto __24
}
rc = walLockExclusive(tls, pWal, 3+i, 1)
if !(rc == SQLITE_OK) {
goto __25
}
if !(i == 1 && (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame != 0) {
goto __27
}
*(*U32)(unsafe.Pointer(pInfo + 4 + uintptr(i)*4)) = (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame
goto __28
__27:
*(*U32)(unsafe.Pointer(pInfo + 4 + uintptr(i)*4)) = READMARK_NOT_USED
__28:
;
walUnlockExclusive(tls, pWal, 3+i, 1)
goto __26
__25:
if !(rc != SQLITE_BUSY) {
goto __29
}
goto recovery_error
__29:
;
__26:
;
goto __23
__23:
i++
goto __22
goto __24
__24:
;
if !((*Wal)(unsafe.Pointer(pWal)).Fhdr.FnPage != 0) {
goto __30
}
Xsqlite3_log(tls, SQLITE_NOTICE|int32(1)<<8,
ts+4373,
libc.VaList(bp, (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame, (*Wal)(unsafe.Pointer(pWal)).FzWalName))
__30:
;
__21:
;
recovery_error:
;
walUnlockExclusive(tls, pWal, iLock, 3+0-iLock)
return rc
}
func walIndexClose(tls *libc.TLS, pWal uintptr, isDelete int32) {
if int32((*Wal)(unsafe.Pointer(pWal)).FexclusiveMode) == WAL_HEAPMEMORY_MODE || (*Wal)(unsafe.Pointer(pWal)).FbShmUnreliable != 0 {
var i int32
for i = 0; i < (*Wal)(unsafe.Pointer(pWal)).FnWiData; i++ {
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData + uintptr(i)*8)))
*(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData + uintptr(i)*8)) = uintptr(0)
}
}
if int32((*Wal)(unsafe.Pointer(pWal)).FexclusiveMode) != WAL_HEAPMEMORY_MODE {
Xsqlite3OsShmUnmap(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, isDelete)
}
}
// Open a connection to the WAL file zWalName. The database file must
// already be opened on connection pDbFd. The buffer that zWalName points
// to must remain valid for the lifetime of the returned Wal* handle.
//
// A SHARED lock should be held on the database file when this function
// is called. The purpose of this SHARED lock is to prevent any other
// client from unlinking the WAL or wal-index file. If another process
// were to do this just after this client opened one of these files, the
// system would be badly broken.
//
// If the log file is successfully opened, SQLITE_OK is returned and
// *ppWal is set to point to a new WAL handle. If an error occurs,
// an SQLite error code is returned and *ppWal is left unmodified.
func Xsqlite3WalOpen(tls *libc.TLS, pVfs uintptr, pDbFd uintptr, zWalName uintptr, bNoShm int32, mxWalSize I64, ppWal uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32
var pRet uintptr
*(*uintptr)(unsafe.Pointer(ppWal)) = uintptr(0)
pRet = Xsqlite3MallocZero(tls, uint64(unsafe.Sizeof(Wal{}))+uint64((*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FszOsFile))
if !(pRet != 0) {
return SQLITE_NOMEM
}
(*Wal)(unsafe.Pointer(pRet)).FpVfs = pVfs
(*Wal)(unsafe.Pointer(pRet)).FpWalFd = pRet + 1*152
(*Wal)(unsafe.Pointer(pRet)).FpDbFd = pDbFd
(*Wal)(unsafe.Pointer(pRet)).FreadLock = int16(-1)
(*Wal)(unsafe.Pointer(pRet)).FmxWalSize = mxWalSize
(*Wal)(unsafe.Pointer(pRet)).FzWalName = zWalName
(*Wal)(unsafe.Pointer(pRet)).FsyncHeader = U8(1)
(*Wal)(unsafe.Pointer(pRet)).FpadToSectorBoundary = U8(1)
(*Wal)(unsafe.Pointer(pRet)).FexclusiveMode = func() uint8 {
if bNoShm != 0 {
return uint8(WAL_HEAPMEMORY_MODE)
}
return uint8(WAL_NORMAL_MODE)
}()
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE | SQLITE_OPEN_WAL
rc = Xsqlite3OsOpen(tls, pVfs, zWalName, (*Wal)(unsafe.Pointer(pRet)).FpWalFd, *(*int32)(unsafe.Pointer(bp)), bp)
if rc == SQLITE_OK && *(*int32)(unsafe.Pointer(bp))&SQLITE_OPEN_READONLY != 0 {
(*Wal)(unsafe.Pointer(pRet)).FreadOnly = U8(WAL_RDONLY)
}
if rc != SQLITE_OK {
walIndexClose(tls, pRet, 0)
Xsqlite3OsClose(tls, (*Wal)(unsafe.Pointer(pRet)).FpWalFd)
Xsqlite3_free(tls, pRet)
} else {
var iDC int32 = Xsqlite3OsDeviceCharacteristics(tls, pDbFd)
if iDC&SQLITE_IOCAP_SEQUENTIAL != 0 {
(*Wal)(unsafe.Pointer(pRet)).FsyncHeader = U8(0)
}
if iDC&SQLITE_IOCAP_POWERSAFE_OVERWRITE != 0 {
(*Wal)(unsafe.Pointer(pRet)).FpadToSectorBoundary = U8(0)
}
*(*uintptr)(unsafe.Pointer(ppWal)) = pRet
}
return rc
}
// Change the size to which the WAL file is trucated on each reset.
func Xsqlite3WalLimit(tls *libc.TLS, pWal uintptr, iLimit I64) {
if pWal != 0 {
(*Wal)(unsafe.Pointer(pWal)).FmxWalSize = iLimit
}
}
func walIteratorNext(tls *libc.TLS, p uintptr, piPage uintptr, piFrame uintptr) int32 {
var iMin U32
var iRet U32 = 0xFFFFFFFF
var i int32
iMin = (*WalIterator)(unsafe.Pointer(p)).FiPrior
for i = (*WalIterator)(unsafe.Pointer(p)).FnSegment - 1; i >= 0; i-- {
var pSegment uintptr = p + 8 + uintptr(i)*32
for (*WalSegment)(unsafe.Pointer(pSegment)).FiNext < (*WalSegment)(unsafe.Pointer(pSegment)).FnEntry {
var iPg U32 = *(*U32)(unsafe.Pointer((*WalSegment)(unsafe.Pointer(pSegment)).FaPgno + uintptr(*(*Ht_slot)(unsafe.Pointer((*WalSegment)(unsafe.Pointer(pSegment)).FaIndex + uintptr((*WalSegment)(unsafe.Pointer(pSegment)).FiNext)*2)))*4))
if iPg > iMin {
if iPg < iRet {
iRet = iPg
*(*U32)(unsafe.Pointer(piFrame)) = U32((*WalSegment)(unsafe.Pointer(pSegment)).FiZero + int32(*(*Ht_slot)(unsafe.Pointer((*WalSegment)(unsafe.Pointer(pSegment)).FaIndex + uintptr((*WalSegment)(unsafe.Pointer(pSegment)).FiNext)*2))))
}
break
}
(*WalSegment)(unsafe.Pointer(pSegment)).FiNext++
}
}
*(*U32)(unsafe.Pointer(piPage)) = libc.AssignPtrUint32(p, iRet)
return libc.Bool32(iRet == 0xFFFFFFFF)
}
func walMerge(tls *libc.TLS, aContent uintptr, aLeft uintptr, nLeft int32, paRight uintptr, pnRight uintptr, aTmp uintptr) {
var iLeft int32 = 0
var iRight int32 = 0
var iOut int32 = 0
var nRight int32 = *(*int32)(unsafe.Pointer(pnRight))
var aRight uintptr = *(*uintptr)(unsafe.Pointer(paRight))
for iRight < nRight || iLeft < nLeft {
var logpage Ht_slot
var dbpage Pgno
if iLeft < nLeft &&
(iRight >= nRight || *(*U32)(unsafe.Pointer(aContent + uintptr(*(*Ht_slot)(unsafe.Pointer(aLeft + uintptr(iLeft)*2)))*4)) < *(*U32)(unsafe.Pointer(aContent + uintptr(*(*Ht_slot)(unsafe.Pointer(aRight + uintptr(iRight)*2)))*4))) {
logpage = *(*Ht_slot)(unsafe.Pointer(aLeft + uintptr(libc.PostIncInt32(&iLeft, 1))*2))
} else {
logpage = *(*Ht_slot)(unsafe.Pointer(aRight + uintptr(libc.PostIncInt32(&iRight, 1))*2))
}
dbpage = *(*U32)(unsafe.Pointer(aContent + uintptr(logpage)*4))
*(*Ht_slot)(unsafe.Pointer(aTmp + uintptr(libc.PostIncInt32(&iOut, 1))*2)) = logpage
if iLeft < nLeft && *(*U32)(unsafe.Pointer(aContent + uintptr(*(*Ht_slot)(unsafe.Pointer(aLeft + uintptr(iLeft)*2)))*4)) == dbpage {
iLeft++
}
}
*(*uintptr)(unsafe.Pointer(paRight)) = aLeft
*(*int32)(unsafe.Pointer(pnRight)) = iOut
libc.X__builtin___memcpy_chk(tls, aLeft, aTmp, uint64(unsafe.Sizeof(Ht_slot(0)))*uint64(iOut), libc.X__builtin_object_size(tls, aLeft, 0))
}
func walMergesort(tls *libc.TLS, aContent uintptr, aBuffer uintptr, aList uintptr, pnList uintptr) {
bp := tls.Alloc(220)
defer tls.Free(220)
var nList int32 = *(*int32)(unsafe.Pointer(pnList))
*(*int32)(unsafe.Pointer(bp + 216)) = 0
*(*uintptr)(unsafe.Pointer(bp + 208)) = uintptr(0)
var iList int32
var iSub U32 = U32(0)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof([13]Sublist{})), libc.X__builtin_object_size(tls, bp, 0))
for iList = 0; iList < nList; iList++ {
*(*int32)(unsafe.Pointer(bp + 216)) = 1
*(*uintptr)(unsafe.Pointer(bp + 208)) = aList + uintptr(iList)*2
for iSub = U32(0); iList&(int32(1)<<iSub) != 0; iSub++ {
var p uintptr
p = bp + uintptr(iSub)*16
walMerge(tls, aContent, (*Sublist)(unsafe.Pointer(p)).FaList, (*Sublist)(unsafe.Pointer(p)).FnList, bp+208, bp+216, aBuffer)
}
(*Sublist)(unsafe.Pointer(bp + uintptr(iSub)*16)).FaList = *(*uintptr)(unsafe.Pointer(bp + 208))
(*Sublist)(unsafe.Pointer(bp + uintptr(iSub)*16)).FnList = *(*int32)(unsafe.Pointer(bp + 216))
}
for iSub++; iSub < U32(int32(uint64(unsafe.Sizeof([13]Sublist{}))/uint64(unsafe.Sizeof(Sublist{})))); iSub++ {
if nList&(int32(1)<<iSub) != 0 {
var p uintptr
p = bp + uintptr(iSub)*16
walMerge(tls, aContent, (*Sublist)(unsafe.Pointer(p)).FaList, (*Sublist)(unsafe.Pointer(p)).FnList, bp+208, bp+216, aBuffer)
}
}
*(*int32)(unsafe.Pointer(pnList)) = *(*int32)(unsafe.Pointer(bp + 216))
}
type Sublist = struct {
FnList int32
F__ccgo_pad1 [4]byte
FaList uintptr
}
func walIteratorFree(tls *libc.TLS, p uintptr) {
Xsqlite3_free(tls, p)
}
func walIteratorInit(tls *libc.TLS, pWal uintptr, nBackfill U32, pp uintptr) int32 {
bp := tls.Alloc(28)
defer tls.Free(28)
var p uintptr
var nSegment int32
var iLast U32
var nByte Sqlite3_int64
var i int32
var aTmp uintptr
var rc int32 = SQLITE_OK
iLast = (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame
nSegment = walFramePage(tls, iLast) + 1
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(WalIterator{})) +
uint64(nSegment-1)*uint64(unsafe.Sizeof(WalSegment{})) +
uint64(iLast)*uint64(unsafe.Sizeof(Ht_slot(0))))
p = Xsqlite3_malloc64(tls, uint64(nByte))
if !(p != 0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, p, 0, uint64(nByte), libc.X__builtin_object_size(tls, p, 0))
(*WalIterator)(unsafe.Pointer(p)).FnSegment = nSegment
aTmp = Xsqlite3_malloc64(tls,
uint64(unsafe.Sizeof(Ht_slot(0)))*func() uint64 {
if iLast > U32(HASHTABLE_NPAGE) {
return uint64(HASHTABLE_NPAGE)
}
return uint64(iLast)
}())
if !(aTmp != 0) {
rc = SQLITE_NOMEM
}
for i = walFramePage(tls, nBackfill+U32(1)); rc == SQLITE_OK && i < nSegment; i++ {
rc = walHashGet(tls, pWal, i, bp)
if rc == SQLITE_OK {
var j int32
var aIndex uintptr
if i+1 == nSegment {
*(*int32)(unsafe.Pointer(bp + 24)) = int32(iLast - (*WalHashLoc)(unsafe.Pointer(bp)).FiZero)
} else {
*(*int32)(unsafe.Pointer(bp + 24)) = int32((int64((*WalHashLoc)(unsafe.Pointer(bp)).FaHash) - int64((*WalHashLoc)(unsafe.Pointer(bp)).FaPgno)) / 4)
}
aIndex = p + 8 + uintptr((*WalIterator)(unsafe.Pointer(p)).FnSegment)*32 + uintptr((*WalHashLoc)(unsafe.Pointer(bp)).FiZero)*2
(*WalHashLoc)(unsafe.Pointer(bp)).FiZero++
for j = 0; j < *(*int32)(unsafe.Pointer(bp + 24)); j++ {
*(*Ht_slot)(unsafe.Pointer(aIndex + uintptr(j)*2)) = Ht_slot(j)
}
walMergesort(tls, (*WalHashLoc)(unsafe.Pointer(bp)).FaPgno, aTmp, aIndex, bp+24)
(*WalSegment)(unsafe.Pointer(p + 8 + uintptr(i)*32)).FiZero = int32((*WalHashLoc)(unsafe.Pointer(bp)).FiZero)
(*WalSegment)(unsafe.Pointer(p + 8 + uintptr(i)*32)).FnEntry = *(*int32)(unsafe.Pointer(bp + 24))
(*WalSegment)(unsafe.Pointer(p + 8 + uintptr(i)*32)).FaIndex = aIndex
(*WalSegment)(unsafe.Pointer(p + 8 + uintptr(i)*32)).FaPgno = (*WalHashLoc)(unsafe.Pointer(bp)).FaPgno
}
}
Xsqlite3_free(tls, aTmp)
if rc != SQLITE_OK {
walIteratorFree(tls, p)
p = uintptr(0)
}
*(*uintptr)(unsafe.Pointer(pp)) = p
return rc
}
func walBusyLock(tls *libc.TLS, pWal uintptr, xBusy uintptr, pBusyArg uintptr, lockIdx int32, n int32) int32 {
var rc int32
for __ccgo := true; __ccgo; __ccgo = xBusy != 0 && rc == SQLITE_BUSY && (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xBusy})).f(tls, pBusyArg) != 0 {
rc = walLockExclusive(tls, pWal, lockIdx, n)
}
return rc
}
func walPagesize(tls *libc.TLS, pWal uintptr) int32 {
return int32((*Wal)(unsafe.Pointer(pWal)).Fhdr.FszPage)&0xfe00 + int32((*Wal)(unsafe.Pointer(pWal)).Fhdr.FszPage)&0x0001<<16
}
func walRestartHdr(tls *libc.TLS, pWal uintptr, salt1 U32) {
bp := tls.Alloc(4)
defer tls.Free(4)
*(*U32)(unsafe.Pointer(bp)) = salt1
var pInfo uintptr = walCkptInfo(tls, pWal)
var i int32
var aSalt uintptr = pWal + 72 + 32
(*Wal)(unsafe.Pointer(pWal)).FnCkpt++
(*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame = U32(0)
Xsqlite3Put4byte(tls, aSalt, U32(1)+Xsqlite3Get4byte(tls, aSalt))
libc.X__builtin___memcpy_chk(tls, pWal+72+32+1*4, bp, uint64(4), libc.X__builtin_object_size(tls, pWal+72+32+1*4, 0))
walIndexWriteHdr(tls, pWal)
*(*U32)(unsafe.Pointer(pInfo)) = U32(0)
(*WalCkptInfo)(unsafe.Pointer(pInfo)).FnBackfillAttempted = U32(0)
*(*U32)(unsafe.Pointer(pInfo + 4 + 1*4)) = U32(0)
for i = 2; i < SQLITE_SHM_NLOCK-3; i++ {
*(*U32)(unsafe.Pointer(pInfo + 4 + uintptr(i)*4)) = READMARK_NOT_USED
}
}
func walCheckpoint(tls *libc.TLS, pWal uintptr, db uintptr, eMode int32, xBusy uintptr, pBusyArg uintptr, sync_flags int32, zBuf uintptr) int32 {
bp := tls.Alloc(36)
defer tls.Free(36)
var rc int32
var szPage int32
var mxSafeFrame U32
var mxPage U32
var i int32
var pInfo uintptr
var iMark U32
var y U32
var iOffset I64
var szDb I64
var nBackfill U32
rc = SQLITE_OK
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
*(*U32)(unsafe.Pointer(bp + 24)) = U32(0)
*(*U32)(unsafe.Pointer(bp + 28)) = U32(0)
szPage = walPagesize(tls, pWal)
libc.AtomicStoreUintptr(&pInfo, walCkptInfo(tls, pWal))
if !((*WalCkptInfo)(unsafe.Pointer(pInfo)).FnBackfill < (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame) {
goto __1
}
mxSafeFrame = (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame
mxPage = (*Wal)(unsafe.Pointer(pWal)).Fhdr.FnPage
i = 1
__2:
if !(i < SQLITE_SHM_NLOCK-3) {
goto __4
}
y = *(*U32)(unsafe.Pointer(pInfo + 4 + uintptr(i)*4))
if !(mxSafeFrame > y) {
goto __5
}
rc = walBusyLock(tls, pWal, xBusy, pBusyArg, 3+i, 1)
if !(rc == SQLITE_OK) {
goto __6
}
iMark = func() uint32 {
if i == 1 {
return mxSafeFrame
}
return READMARK_NOT_USED
}()
*(*U32)(unsafe.Pointer(pInfo + 4 + uintptr(i)*4)) = iMark
walUnlockExclusive(tls, pWal, 3+i, 1)
goto __7
__6:
if !(rc == SQLITE_BUSY) {
goto __8
}
mxSafeFrame = y
xBusy = uintptr(0)
goto __9
__8:
goto walcheckpoint_out
__9:
;
__7:
;
__5:
;
goto __3
__3:
i++
goto __2
goto __4
__4:
;
if !((*WalCkptInfo)(unsafe.Pointer(pInfo)).FnBackfill < mxSafeFrame) {
goto __10
}
rc = walIteratorInit(tls, pWal, (*WalCkptInfo)(unsafe.Pointer(pInfo)).FnBackfill, bp)
__10:
;
if !(*(*uintptr)(unsafe.Pointer(bp)) != 0 &&
libc.AssignInt32(&rc, walBusyLock(tls, pWal, xBusy, pBusyArg, 3+0, 1)) == SQLITE_OK) {
goto __11
}
nBackfill = (*WalCkptInfo)(unsafe.Pointer(pInfo)).FnBackfill
(*WalCkptInfo)(unsafe.Pointer(pInfo)).FnBackfillAttempted = mxSafeFrame
rc = Xsqlite3OsSync(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, sync_flags>>2&0x03)
if !(rc == SQLITE_OK) {
goto __12
}
*(*I64)(unsafe.Pointer(bp + 16)) = I64(mxPage) * I64(szPage)
Xsqlite3OsFileControl(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, SQLITE_FCNTL_CKPT_START, uintptr(0))
rc = Xsqlite3OsFileSize(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, bp+8)
if !(rc == SQLITE_OK && *(*I64)(unsafe.Pointer(bp + 8)) < *(*I64)(unsafe.Pointer(bp + 16))) {
goto __13
}
if !(*(*I64)(unsafe.Pointer(bp + 8))+int64(65536)+I64((*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame)*I64(szPage) < *(*I64)(unsafe.Pointer(bp + 16))) {
goto __14
}
rc = Xsqlite3CorruptError(tls, 65333)
goto __15
__14:
Xsqlite3OsFileControlHint(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, SQLITE_FCNTL_SIZE_HINT, bp+16)
__15:
;
__13:
;
__12:
;
__16:
if !(rc == SQLITE_OK && 0 == walIteratorNext(tls, *(*uintptr)(unsafe.Pointer(bp)), bp+24, bp+28)) {
goto __17
}
if !(*(*int32)(unsafe.Pointer(db + 432)) != 0) {
goto __18
}
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
rc = SQLITE_NOMEM
} else {
rc = SQLITE_INTERRUPT
}
goto __17
__18:
;
if !(*(*U32)(unsafe.Pointer(bp + 28)) <= nBackfill || *(*U32)(unsafe.Pointer(bp + 28)) > mxSafeFrame || *(*U32)(unsafe.Pointer(bp + 24)) > mxPage) {
goto __19
}
goto __16
__19:
;
iOffset = int64(WAL_HDRSIZE) + I64(*(*U32)(unsafe.Pointer(bp + 28))-U32(1))*I64(szPage+WAL_FRAME_HDRSIZE) + int64(WAL_FRAME_HDRSIZE)
rc = Xsqlite3OsRead(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, zBuf, szPage, iOffset)
if !(rc != SQLITE_OK) {
goto __20
}
goto __17
__20:
;
iOffset = I64(*(*U32)(unsafe.Pointer(bp + 24))-U32(1)) * I64(szPage)
rc = Xsqlite3OsWrite(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, zBuf, szPage, iOffset)
if !(rc != SQLITE_OK) {
goto __21
}
goto __17
__21:
;
goto __16
__17:
;
Xsqlite3OsFileControl(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, SQLITE_FCNTL_CKPT_DONE, uintptr(0))
if !(rc == SQLITE_OK) {
goto __22
}
if !(mxSafeFrame == (*WalIndexHdr)(unsafe.Pointer(walIndexHdr(tls, pWal))).FmxFrame) {
goto __23
}
szDb = I64((*Wal)(unsafe.Pointer(pWal)).Fhdr.FnPage) * I64(szPage)
rc = Xsqlite3OsTruncate(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, szDb)
if !(rc == SQLITE_OK) {
goto __24
}
rc = Xsqlite3OsSync(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, sync_flags>>2&0x03)
__24:
;
__23:
;
if !(rc == SQLITE_OK) {
goto __25
}
*(*U32)(unsafe.Pointer(pInfo)) = mxSafeFrame
__25:
;
__22:
;
walUnlockExclusive(tls, pWal, 3+0, 1)
__11:
;
if !(rc == SQLITE_BUSY) {
goto __26
}
rc = SQLITE_OK
__26:
;
__1:
;
if !(rc == SQLITE_OK && eMode != SQLITE_CHECKPOINT_PASSIVE) {
goto __27
}
if !((*WalCkptInfo)(unsafe.Pointer(pInfo)).FnBackfill < (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame) {
goto __28
}
rc = SQLITE_BUSY
goto __29
__28:
if !(eMode >= SQLITE_CHECKPOINT_RESTART) {
goto __30
}
Xsqlite3_randomness(tls, 4, bp+32)
rc = walBusyLock(tls, pWal, xBusy, pBusyArg, 3+1, SQLITE_SHM_NLOCK-3-1)
if !(rc == SQLITE_OK) {
goto __31
}
if !(eMode == SQLITE_CHECKPOINT_TRUNCATE) {
goto __32
}
walRestartHdr(tls, pWal, *(*U32)(unsafe.Pointer(bp + 32)))
rc = Xsqlite3OsTruncate(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, int64(0))
__32:
;
walUnlockExclusive(tls, pWal, 3+1, SQLITE_SHM_NLOCK-3-1)
__31:
;
__30:
;
__29:
;
__27:
;
walcheckpoint_out:
walIteratorFree(tls, *(*uintptr)(unsafe.Pointer(bp)))
return rc
}
func walLimitSize(tls *libc.TLS, pWal uintptr, nMax I64) {
bp := tls.Alloc(16)
defer tls.Free(16)
var rx int32
Xsqlite3BeginBenignMalloc(tls)
rx = Xsqlite3OsFileSize(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, bp+8)
if rx == SQLITE_OK && *(*I64)(unsafe.Pointer(bp + 8)) > nMax {
rx = Xsqlite3OsTruncate(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, nMax)
}
Xsqlite3EndBenignMalloc(tls)
if rx != 0 {
Xsqlite3_log(tls, rx, ts+4410, libc.VaList(bp, (*Wal)(unsafe.Pointer(pWal)).FzWalName))
}
}
// Close a connection to a log file.
func Xsqlite3WalClose(tls *libc.TLS, pWal uintptr, db uintptr, sync_flags int32, nBuf int32, zBuf uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32 = SQLITE_OK
if pWal != 0 {
var isDelete int32 = 0
if zBuf != uintptr(0) &&
SQLITE_OK == libc.AssignInt32(&rc, Xsqlite3OsLock(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, SQLITE_LOCK_EXCLUSIVE)) {
if int32((*Wal)(unsafe.Pointer(pWal)).FexclusiveMode) == WAL_NORMAL_MODE {
(*Wal)(unsafe.Pointer(pWal)).FexclusiveMode = U8(WAL_EXCLUSIVE_MODE)
}
rc = Xsqlite3WalCheckpoint(tls, pWal, db,
SQLITE_CHECKPOINT_PASSIVE, uintptr(0), uintptr(0), sync_flags, nBuf, zBuf, uintptr(0), uintptr(0))
if rc == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp)) = -1
Xsqlite3OsFileControlHint(tls,
(*Wal)(unsafe.Pointer(pWal)).FpDbFd, SQLITE_FCNTL_PERSIST_WAL, bp)
if *(*int32)(unsafe.Pointer(bp)) != 1 {
isDelete = 1
} else if (*Wal)(unsafe.Pointer(pWal)).FmxWalSize >= int64(0) {
walLimitSize(tls, pWal, int64(0))
}
}
}
walIndexClose(tls, pWal, isDelete)
Xsqlite3OsClose(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd)
if isDelete != 0 {
Xsqlite3BeginBenignMalloc(tls)
Xsqlite3OsDelete(tls, (*Wal)(unsafe.Pointer(pWal)).FpVfs, (*Wal)(unsafe.Pointer(pWal)).FzWalName, 0)
Xsqlite3EndBenignMalloc(tls)
}
Xsqlite3_free(tls, (*Wal)(unsafe.Pointer(pWal)).FapWiData)
Xsqlite3_free(tls, pWal)
}
return rc
}
func walIndexTryHdr(tls *libc.TLS, pWal uintptr, pChanged uintptr) int32 {
bp := tls.Alloc(104)
defer tls.Free(104)
var aHdr uintptr
libc.AtomicStoreUintptr(&aHdr, walIndexHdr(tls, pWal))
libc.X__builtin___memcpy_chk(tls, bp, aHdr, uint64(unsafe.Sizeof(WalIndexHdr{})), libc.X__builtin_object_size(tls, bp, 0))
walShmBarrier(tls, pWal)
libc.X__builtin___memcpy_chk(tls, bp+48, aHdr+1*48, uint64(unsafe.Sizeof(WalIndexHdr{})), libc.X__builtin_object_size(tls, bp+48, 0))
if libc.Xmemcmp(tls, bp, bp+48, uint64(unsafe.Sizeof(WalIndexHdr{}))) != 0 {
return 1
}
if int32((*WalIndexHdr)(unsafe.Pointer(bp)).FisInit) == 0 {
return 1
}
walChecksumBytes(tls, 1, bp, int32(uint64(unsafe.Sizeof(WalIndexHdr{}))-uint64(unsafe.Sizeof([2]U32{}))), uintptr(0), bp+96)
if *(*U32)(unsafe.Pointer(bp + 96)) != *(*U32)(unsafe.Pointer(bp + 40)) || *(*U32)(unsafe.Pointer(bp + 96 + 1*4)) != *(*U32)(unsafe.Pointer(bp + 40 + 1*4)) {
return 1
}
if libc.Xmemcmp(tls, pWal+72, bp, uint64(unsafe.Sizeof(WalIndexHdr{}))) != 0 {
*(*int32)(unsafe.Pointer(pChanged)) = 1
libc.X__builtin___memcpy_chk(tls, pWal+72, bp, uint64(unsafe.Sizeof(WalIndexHdr{})), libc.X__builtin_object_size(tls, pWal+72, 0))
(*Wal)(unsafe.Pointer(pWal)).FszPage = U32(int32((*Wal)(unsafe.Pointer(pWal)).Fhdr.FszPage)&0xfe00 + int32((*Wal)(unsafe.Pointer(pWal)).Fhdr.FszPage)&0x0001<<16)
}
return 0
}
func walIndexReadHdr(tls *libc.TLS, pWal uintptr, pChanged uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
var badHdr int32
rc = walIndexPage(tls, pWal, 0, bp)
if rc != SQLITE_OK {
if rc == SQLITE_READONLY|int32(5)<<8 {
(*Wal)(unsafe.Pointer(pWal)).FbShmUnreliable = U8(1)
(*Wal)(unsafe.Pointer(pWal)).FexclusiveMode = U8(WAL_HEAPMEMORY_MODE)
*(*int32)(unsafe.Pointer(pChanged)) = 1
} else {
return rc
}
} else {
}
badHdr = func() int32 {
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
return walIndexTryHdr(tls, pWal, pChanged)
}
return 1
}()
if badHdr != 0 {
if int32((*Wal)(unsafe.Pointer(pWal)).FbShmUnreliable) == 0 && int32((*Wal)(unsafe.Pointer(pWal)).FreadOnly)&WAL_SHM_RDONLY != 0 {
if SQLITE_OK == libc.AssignInt32(&rc, walLockShared(tls, pWal, WAL_WRITE_LOCK)) {
walUnlockShared(tls, pWal, WAL_WRITE_LOCK)
rc = SQLITE_READONLY | int32(1)<<8
}
} else {
var bWriteLock int32 = int32((*Wal)(unsafe.Pointer(pWal)).FwriteLock)
if bWriteLock != 0 || SQLITE_OK == libc.AssignInt32(&rc, walLockExclusive(tls, pWal, WAL_WRITE_LOCK, 1)) {
(*Wal)(unsafe.Pointer(pWal)).FwriteLock = U8(1)
if SQLITE_OK == libc.AssignInt32(&rc, walIndexPage(tls, pWal, 0, bp)) {
badHdr = walIndexTryHdr(tls, pWal, pChanged)
if badHdr != 0 {
rc = walIndexRecover(tls, pWal)
*(*int32)(unsafe.Pointer(pChanged)) = 1
}
}
if bWriteLock == 0 {
(*Wal)(unsafe.Pointer(pWal)).FwriteLock = U8(0)
walUnlockExclusive(tls, pWal, WAL_WRITE_LOCK, 1)
}
}
}
}
if badHdr == 0 && (*Wal)(unsafe.Pointer(pWal)).Fhdr.FiVersion != U32(WALINDEX_MAX_VERSION) {
rc = Xsqlite3CantopenError(tls, 65682)
}
if (*Wal)(unsafe.Pointer(pWal)).FbShmUnreliable != 0 {
if rc != SQLITE_OK {
walIndexClose(tls, pWal, 0)
(*Wal)(unsafe.Pointer(pWal)).FbShmUnreliable = U8(0)
if rc == SQLITE_IOERR|int32(2)<<8 {
rc = -1
}
}
(*Wal)(unsafe.Pointer(pWal)).FexclusiveMode = U8(WAL_NORMAL_MODE)
}
return rc
}
func walBeginShmUnreliable(tls *libc.TLS, pWal uintptr, pChanged uintptr) int32 {
bp := tls.Alloc(64)
defer tls.Free(64)
var iOffset I64
var aFrame uintptr
var szFrame int32
var aData uintptr
var rc int32
var i int32
aFrame = uintptr(0)
rc = walLockShared(tls, pWal, 3+0)
if !(rc != SQLITE_OK) {
goto __1
}
if !(rc == SQLITE_BUSY) {
goto __2
}
rc = -1
__2:
;
goto begin_unreliable_shm_out
__1:
;
(*Wal)(unsafe.Pointer(pWal)).FreadLock = int16(0)
rc = Xsqlite3OsShmMap(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, 0, int32(uint64(unsafe.Sizeof(Ht_slot(0)))*uint64(HASHTABLE_NPAGE*2)+uint64(HASHTABLE_NPAGE)*uint64(unsafe.Sizeof(U32(0)))), 0, bp)
if !(rc != SQLITE_READONLY|int32(5)<<8) {
goto __3
}
rc = func() int32 {
if rc == SQLITE_READONLY {
return -1
}
return rc
}()
goto begin_unreliable_shm_out
__3:
;
libc.X__builtin___memcpy_chk(tls, pWal+72, walIndexHdr(tls, pWal), uint64(unsafe.Sizeof(WalIndexHdr{})), libc.X__builtin_object_size(tls, pWal+72, 0))
rc = Xsqlite3OsFileSize(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, bp+8)
if !(rc != SQLITE_OK) {
goto __4
}
goto begin_unreliable_shm_out
__4:
;
if !(*(*I64)(unsafe.Pointer(bp + 8)) < int64(WAL_HDRSIZE)) {
goto __5
}
*(*int32)(unsafe.Pointer(pChanged)) = 1
rc = func() int32 {
if (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame == U32(0) {
return SQLITE_OK
}
return -1
}()
goto begin_unreliable_shm_out
__5:
;
rc = Xsqlite3OsRead(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, bp+16, WAL_HDRSIZE, int64(0))
if !(rc != SQLITE_OK) {
goto __6
}
goto begin_unreliable_shm_out
__6:
;
if !(libc.Xmemcmp(tls, pWal+72+32, bp+16+16, uint64(8)) != 0) {
goto __7
}
rc = -1
goto begin_unreliable_shm_out
__7:
;
szFrame = int32((*Wal)(unsafe.Pointer(pWal)).FszPage + U32(WAL_FRAME_HDRSIZE))
aFrame = Xsqlite3_malloc64(tls, uint64(szFrame))
if !(aFrame == uintptr(0)) {
goto __8
}
rc = SQLITE_NOMEM
goto begin_unreliable_shm_out
__8:
;
aData = aFrame + 24
*(*U32)(unsafe.Pointer(bp + 48)) = *(*U32)(unsafe.Pointer(pWal + 72 + 24))
*(*U32)(unsafe.Pointer(bp + 48 + 1*4)) = *(*U32)(unsafe.Pointer(pWal + 72 + 24 + 1*4))
iOffset = int64(WAL_HDRSIZE) + I64((*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame+U32(1)-U32(1))*I64((*Wal)(unsafe.Pointer(pWal)).FszPage+U32(WAL_FRAME_HDRSIZE))
__9:
if !(iOffset+I64(szFrame) <= *(*I64)(unsafe.Pointer(bp + 8))) {
goto __11
}
rc = Xsqlite3OsRead(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, aFrame, szFrame, iOffset)
if !(rc != SQLITE_OK) {
goto __12
}
goto __11
__12:
;
if !!(walDecodeFrame(tls, pWal, bp+56, bp+60, aData, aFrame) != 0) {
goto __13
}
goto __11
__13:
;
if !(*(*U32)(unsafe.Pointer(bp + 60)) != 0) {
goto __14
}
rc = -1
goto __11
__14:
;
goto __10
__10:
iOffset = iOffset + I64(szFrame)
goto __9
goto __11
__11:
;
*(*U32)(unsafe.Pointer(pWal + 72 + 24)) = *(*U32)(unsafe.Pointer(bp + 48))
*(*U32)(unsafe.Pointer(pWal + 72 + 24 + 1*4)) = *(*U32)(unsafe.Pointer(bp + 48 + 1*4))
begin_unreliable_shm_out:
Xsqlite3_free(tls, aFrame)
if !(rc != SQLITE_OK) {
goto __15
}
i = 0
__16:
if !(i < (*Wal)(unsafe.Pointer(pWal)).FnWiData) {
goto __18
}
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData + uintptr(i)*8)))
*(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData + uintptr(i)*8)) = uintptr(0)
goto __17
__17:
i++
goto __16
goto __18
__18:
;
(*Wal)(unsafe.Pointer(pWal)).FbShmUnreliable = U8(0)
Xsqlite3WalEndReadTransaction(tls, pWal)
*(*int32)(unsafe.Pointer(pChanged)) = 1
__15:
;
return rc
}
func walTryBeginRead(tls *libc.TLS, pWal uintptr, pChanged uintptr, useWal int32, cnt int32) int32 {
var pInfo uintptr
var mxReadMark U32
var mxI int32
var i int32
var rc int32 = SQLITE_OK
var mxFrame U32
if cnt > 5 {
var nDelay int32 = 1
if cnt > 100 {
return SQLITE_PROTOCOL
}
if cnt >= 10 {
nDelay = (cnt - 9) * (cnt - 9) * 39
}
Xsqlite3OsSleep(tls, (*Wal)(unsafe.Pointer(pWal)).FpVfs, nDelay)
}
if !(useWal != 0) {
if int32((*Wal)(unsafe.Pointer(pWal)).FbShmUnreliable) == 0 {
rc = walIndexReadHdr(tls, pWal, pChanged)
}
if rc == SQLITE_BUSY {
if *(*uintptr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FapWiData)) == uintptr(0) {
rc = -1
} else if SQLITE_OK == libc.AssignInt32(&rc, walLockShared(tls, pWal, WAL_RECOVER_LOCK)) {
walUnlockShared(tls, pWal, WAL_RECOVER_LOCK)
rc = -1
} else if rc == SQLITE_BUSY {
rc = SQLITE_BUSY | int32(1)<<8
}
}
if rc != SQLITE_OK {
return rc
} else if (*Wal)(unsafe.Pointer(pWal)).FbShmUnreliable != 0 {
return walBeginShmUnreliable(tls, pWal, pChanged)
}
}
libc.AtomicStoreUintptr(&pInfo, walCkptInfo(tls, pWal))
if !(useWal != 0) && *(*U32)(unsafe.Pointer(pInfo)) == (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame &&
((*Wal)(unsafe.Pointer(pWal)).FpSnapshot == uintptr(0) || (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame == U32(0)) {
rc = walLockShared(tls, pWal, 3+0)
walShmBarrier(tls, pWal)
if rc == SQLITE_OK {
if libc.Xmemcmp(tls, walIndexHdr(tls, pWal), pWal+72, uint64(unsafe.Sizeof(WalIndexHdr{}))) != 0 {
walUnlockShared(tls, pWal, 3+0)
return -1
}
(*Wal)(unsafe.Pointer(pWal)).FreadLock = int16(0)
return SQLITE_OK
} else if rc != SQLITE_BUSY {
return rc
}
}
mxReadMark = U32(0)
mxI = 0
mxFrame = (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame
if (*Wal)(unsafe.Pointer(pWal)).FpSnapshot != 0 && (*WalIndexHdr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FpSnapshot)).FmxFrame < mxFrame {
mxFrame = (*WalIndexHdr)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FpSnapshot)).FmxFrame
}
for i = 1; i < SQLITE_SHM_NLOCK-3; i++ {
var thisMark U32 = *(*U32)(unsafe.Pointer(pInfo + 4 + uintptr(i)*4))
if mxReadMark <= thisMark && thisMark <= mxFrame {
mxReadMark = thisMark
mxI = i
}
}
if int32((*Wal)(unsafe.Pointer(pWal)).FreadOnly)&WAL_SHM_RDONLY == 0 &&
(mxReadMark < mxFrame || mxI == 0) {
for i = 1; i < SQLITE_SHM_NLOCK-3; i++ {
rc = walLockExclusive(tls, pWal, 3+i, 1)
if rc == SQLITE_OK {
*(*U32)(unsafe.Pointer(pInfo + 4 + uintptr(i)*4)) = mxFrame
mxReadMark = mxFrame
mxI = i
walUnlockExclusive(tls, pWal, 3+i, 1)
break
} else if rc != SQLITE_BUSY {
return rc
}
}
}
if mxI == 0 {
if rc == SQLITE_BUSY {
return -1
}
return SQLITE_READONLY | int32(5)<<8
}
rc = walLockShared(tls, pWal, 3+mxI)
if rc != 0 {
if rc == SQLITE_BUSY {
return -1
}
return rc
}
(*Wal)(unsafe.Pointer(pWal)).FminFrame = *(*U32)(unsafe.Pointer(pInfo)) + U32(1)
walShmBarrier(tls, pWal)
if *(*U32)(unsafe.Pointer(pInfo + 4 + uintptr(mxI)*4)) != mxReadMark ||
libc.Xmemcmp(tls, walIndexHdr(tls, pWal), pWal+72, uint64(unsafe.Sizeof(WalIndexHdr{}))) != 0 {
walUnlockShared(tls, pWal, 3+mxI)
return -1
} else {
(*Wal)(unsafe.Pointer(pWal)).FreadLock = I16(mxI)
}
return rc
}
// Attempt to reduce the value of the WalCkptInfo.nBackfillAttempted
// variable so that older snapshots can be accessed. To do this, loop
// through all wal frames from nBackfillAttempted to (nBackfill+1),
// comparing their content to the corresponding page with the database
// file, if any. Set nBackfillAttempted to the frame number of the
// first frame for which the wal file content matches the db file.
//
// This is only really safe if the file-system is such that any page
// writes made by earlier checkpointers were atomic operations, which
// is not always true. It is also possible that nBackfillAttempted
// may be left set to a value larger than expected, if a wal frame
// contains content that duplicate of an earlier version of the same
// page.
//
// SQLITE_OK is returned if successful, or an SQLite error code if an
// error occurs. It is not an error if nBackfillAttempted cannot be
// decreased at all.
func Xsqlite3WalSnapshotRecover(tls *libc.TLS, pWal uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var rc int32
rc = walLockExclusive(tls, pWal, WAL_CKPT_LOCK, 1)
if rc == SQLITE_OK {
var pInfo uintptr = walCkptInfo(tls, pWal)
var szPage int32 = int32((*Wal)(unsafe.Pointer(pWal)).FszPage)
rc = Xsqlite3OsFileSize(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, bp)
if rc == SQLITE_OK {
var pBuf1 uintptr = Xsqlite3_malloc(tls, szPage)
var pBuf2 uintptr = Xsqlite3_malloc(tls, szPage)
if pBuf1 == uintptr(0) || pBuf2 == uintptr(0) {
rc = SQLITE_NOMEM
} else {
var i U32 = (*WalCkptInfo)(unsafe.Pointer(pInfo)).FnBackfillAttempted
for i = (*WalCkptInfo)(unsafe.Pointer(pInfo)).FnBackfillAttempted; i > *(*U32)(unsafe.Pointer(pInfo)); i-- {
var pgno U32
var iDbOff I64
var iWalOff I64
rc = walHashGet(tls, pWal, walFramePage(tls, i), bp+8)
if rc != SQLITE_OK {
break
}
pgno = *(*U32)(unsafe.Pointer((*WalHashLoc)(unsafe.Pointer(bp+8)).FaPgno + uintptr(i-(*WalHashLoc)(unsafe.Pointer(bp+8)).FiZero-U32(1))*4))
iDbOff = I64(pgno-U32(1)) * I64(szPage)
if iDbOff+I64(szPage) <= *(*I64)(unsafe.Pointer(bp)) {
iWalOff = int64(WAL_HDRSIZE) + I64(i-U32(1))*I64(szPage+WAL_FRAME_HDRSIZE) + int64(WAL_FRAME_HDRSIZE)
rc = Xsqlite3OsRead(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, pBuf1, szPage, iWalOff)
if rc == SQLITE_OK {
rc = Xsqlite3OsRead(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, pBuf2, szPage, iDbOff)
}
if rc != SQLITE_OK || 0 == libc.Xmemcmp(tls, pBuf1, pBuf2, uint64(szPage)) {
break
}
}
(*WalCkptInfo)(unsafe.Pointer(pInfo)).FnBackfillAttempted = i - U32(1)
}
}
Xsqlite3_free(tls, pBuf1)
Xsqlite3_free(tls, pBuf2)
}
walUnlockExclusive(tls, pWal, WAL_CKPT_LOCK, 1)
}
return rc
}
// Begin a read transaction on the database.
//
// This routine used to be called sqlite3OpenSnapshot() and with good reason:
// it takes a snapshot of the state of the WAL and wal-index for the current
// instant in time. The current thread will continue to use this snapshot.
// Other threads might append new content to the WAL and wal-index but
// that extra content is ignored by the current thread.
//
// If the database contents have changes since the previous read
// transaction, then *pChanged is set to 1 before returning. The
// Pager layer will use this to know that its cache is stale and
// needs to be flushed.
func Xsqlite3WalBeginReadTransaction(tls *libc.TLS, pWal uintptr, pChanged uintptr) int32 {
var rc int32
var cnt int32 = 0
var bChanged int32 = 0
var pSnapshot uintptr = (*Wal)(unsafe.Pointer(pWal)).FpSnapshot
if pSnapshot != 0 {
if libc.Xmemcmp(tls, pSnapshot, pWal+72, uint64(unsafe.Sizeof(WalIndexHdr{}))) != 0 {
bChanged = 1
}
rc = walLockShared(tls, pWal, WAL_CKPT_LOCK)
if rc != SQLITE_OK {
return rc
}
(*Wal)(unsafe.Pointer(pWal)).FckptLock = U8(1)
}
for __ccgo := true; __ccgo; __ccgo = rc == -1 {
rc = walTryBeginRead(tls, pWal, pChanged, 0, libc.PreIncInt32(&cnt, 1))
}
if rc == SQLITE_OK {
if pSnapshot != 0 && libc.Xmemcmp(tls, pSnapshot, pWal+72, uint64(unsafe.Sizeof(WalIndexHdr{}))) != 0 {
var pInfo uintptr = walCkptInfo(tls, pWal)
if !(libc.Xmemcmp(tls, pSnapshot+32, pWal+72+32, uint64(unsafe.Sizeof([2]U32{}))) != 0) &&
(*WalIndexHdr)(unsafe.Pointer(pSnapshot)).FmxFrame >= (*WalCkptInfo)(unsafe.Pointer(pInfo)).FnBackfillAttempted {
libc.X__builtin___memcpy_chk(tls, pWal+72, pSnapshot, uint64(unsafe.Sizeof(WalIndexHdr{})), libc.X__builtin_object_size(tls, pWal+72, 0))
*(*int32)(unsafe.Pointer(pChanged)) = bChanged
} else {
rc = SQLITE_ERROR | int32(3)<<8
}
(*Wal)(unsafe.Pointer(pWal)).FminFrame = U32(1)
if rc != SQLITE_OK {
Xsqlite3WalEndReadTransaction(tls, pWal)
}
}
}
if (*Wal)(unsafe.Pointer(pWal)).FckptLock != 0 {
walUnlockShared(tls, pWal, WAL_CKPT_LOCK)
(*Wal)(unsafe.Pointer(pWal)).FckptLock = U8(0)
}
return rc
}
// Finish with a read transaction. All this does is release the
// read-lock.
func Xsqlite3WalEndReadTransaction(tls *libc.TLS, pWal uintptr) {
Xsqlite3WalEndWriteTransaction(tls, pWal)
if int32((*Wal)(unsafe.Pointer(pWal)).FreadLock) >= 0 {
walUnlockShared(tls, pWal, 3+int32((*Wal)(unsafe.Pointer(pWal)).FreadLock))
(*Wal)(unsafe.Pointer(pWal)).FreadLock = int16(-1)
}
}
// Search the wal file for page pgno. If found, set *piRead to the frame that
// contains the page. Otherwise, if pgno is not in the wal file, set *piRead
// to zero.
//
// Return SQLITE_OK if successful, or an error code if an error occurs. If an
// error does occur, the final value of *piRead is undefined.
func Xsqlite3WalFindFrame(tls *libc.TLS, pWal uintptr, pgno Pgno, piRead uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var iRead U32 = U32(0)
var iLast U32 = (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame
var iHash int32
var iMinHash int32
if iLast == U32(0) || int32((*Wal)(unsafe.Pointer(pWal)).FreadLock) == 0 && int32((*Wal)(unsafe.Pointer(pWal)).FbShmUnreliable) == 0 {
*(*U32)(unsafe.Pointer(piRead)) = U32(0)
return SQLITE_OK
}
iMinHash = walFramePage(tls, (*Wal)(unsafe.Pointer(pWal)).FminFrame)
for iHash = walFramePage(tls, iLast); iHash >= iMinHash; iHash-- {
var iKey int32
var nCollide int32
var rc int32
var iH U32
rc = walHashGet(tls, pWal, iHash, bp)
if rc != SQLITE_OK {
return rc
}
nCollide = HASHTABLE_NPAGE * 2
iKey = walHash(tls, pgno)
for libc.AssignUint32(&iH, U32(*(*Ht_slot)(unsafe.Pointer((*WalHashLoc)(unsafe.Pointer(bp)).FaHash + uintptr(iKey)*2)))) != U32(0) {
var iFrame U32 = iH + (*WalHashLoc)(unsafe.Pointer(bp)).FiZero
if iFrame <= iLast && iFrame >= (*Wal)(unsafe.Pointer(pWal)).FminFrame && *(*U32)(unsafe.Pointer((*WalHashLoc)(unsafe.Pointer(bp)).FaPgno + uintptr(iH-U32(1))*4)) == pgno {
iRead = iFrame
}
if libc.PostDecInt32(&nCollide, 1) == 0 {
return Xsqlite3CorruptError(tls, 66419)
}
iKey = walNextHash(tls, iKey)
}
if iRead != 0 {
break
}
}
*(*U32)(unsafe.Pointer(piRead)) = iRead
return SQLITE_OK
}
// Read the contents of frame iRead from the wal file into buffer pOut
// (which is nOut bytes in size). Return SQLITE_OK if successful, or an
// error code otherwise.
func Xsqlite3WalReadFrame(tls *libc.TLS, pWal uintptr, iRead U32, nOut int32, pOut uintptr) int32 {
var sz int32
var iOffset I64
sz = int32((*Wal)(unsafe.Pointer(pWal)).Fhdr.FszPage)
sz = sz&0xfe00 + sz&0x0001<<16
iOffset = int64(WAL_HDRSIZE) + I64(iRead-U32(1))*I64(sz+WAL_FRAME_HDRSIZE) + int64(WAL_FRAME_HDRSIZE)
return Xsqlite3OsRead(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, pOut, func() int32 {
if nOut > sz {
return sz
}
return nOut
}(), iOffset)
}
// Return the size of the database in pages (or zero, if unknown).
func Xsqlite3WalDbsize(tls *libc.TLS, pWal uintptr) Pgno {
if pWal != 0 && int32((*Wal)(unsafe.Pointer(pWal)).FreadLock) >= 0 {
return (*Wal)(unsafe.Pointer(pWal)).Fhdr.FnPage
}
return Pgno(0)
}
// This function starts a write transaction on the WAL.
//
// A read transaction must have already been started by a prior call
// to sqlite3WalBeginReadTransaction().
//
// If another thread or process has written into the database since
// the read transaction was started, then it is not possible for this
// thread to write as doing so would cause a fork. So this routine
// returns SQLITE_BUSY in that case and no write transaction is started.
//
// There can only be a single writer active at a time.
func Xsqlite3WalBeginWriteTransaction(tls *libc.TLS, pWal uintptr) int32 {
var rc int32
if (*Wal)(unsafe.Pointer(pWal)).FreadOnly != 0 {
return SQLITE_READONLY
}
rc = walLockExclusive(tls, pWal, WAL_WRITE_LOCK, 1)
if rc != 0 {
return rc
}
(*Wal)(unsafe.Pointer(pWal)).FwriteLock = U8(1)
if libc.Xmemcmp(tls, pWal+72, walIndexHdr(tls, pWal), uint64(unsafe.Sizeof(WalIndexHdr{}))) != 0 {
walUnlockExclusive(tls, pWal, WAL_WRITE_LOCK, 1)
(*Wal)(unsafe.Pointer(pWal)).FwriteLock = U8(0)
rc = SQLITE_BUSY | int32(2)<<8
}
return rc
}
// End a write transaction. The commit has already been done. This
// routine merely releases the lock.
func Xsqlite3WalEndWriteTransaction(tls *libc.TLS, pWal uintptr) int32 {
if (*Wal)(unsafe.Pointer(pWal)).FwriteLock != 0 {
walUnlockExclusive(tls, pWal, WAL_WRITE_LOCK, 1)
(*Wal)(unsafe.Pointer(pWal)).FwriteLock = U8(0)
(*Wal)(unsafe.Pointer(pWal)).FiReCksum = U32(0)
(*Wal)(unsafe.Pointer(pWal)).FtruncateOnCommit = U8(0)
}
return SQLITE_OK
}
// If any data has been written (but not committed) to the log file, this
// function moves the write-pointer back to the start of the transaction.
//
// Additionally, the callback function is invoked for each frame written
// to the WAL since the start of the transaction. If the callback returns
// other than SQLITE_OK, it is not invoked again and the error code is
// returned to the caller.
//
// Otherwise, if the callback function does not return an error, this
// function returns SQLITE_OK.
func Xsqlite3WalUndo(tls *libc.TLS, pWal uintptr, xUndo uintptr, pUndoCtx uintptr) int32 {
var rc int32 = SQLITE_OK
if (*Wal)(unsafe.Pointer(pWal)).FwriteLock != 0 {
var iMax Pgno = (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame
var iFrame Pgno
libc.X__builtin___memcpy_chk(tls, pWal+72, walIndexHdr(tls, pWal), uint64(unsafe.Sizeof(WalIndexHdr{})), libc.X__builtin_object_size(tls, pWal+72, 0))
for iFrame = (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame + U32(1); rc == SQLITE_OK && iFrame <= iMax; iFrame++ {
rc = (*struct {
f func(*libc.TLS, uintptr, Pgno) int32
})(unsafe.Pointer(&struct{ uintptr }{xUndo})).f(tls, pUndoCtx, walFramePgno(tls, pWal, iFrame))
}
if iMax != (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame {
walCleanupHash(tls, pWal)
}
}
return rc
}
// Argument aWalData must point to an array of WAL_SAVEPOINT_NDATA u32
// values. This function populates the array with values required to
// "rollback" the write position of the WAL handle back to the current
// point in the event of a savepoint rollback (via WalSavepointUndo()).
func Xsqlite3WalSavepoint(tls *libc.TLS, pWal uintptr, aWalData uintptr) {
*(*U32)(unsafe.Pointer(aWalData)) = (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame
*(*U32)(unsafe.Pointer(aWalData + 1*4)) = *(*U32)(unsafe.Pointer(pWal + 72 + 24))
*(*U32)(unsafe.Pointer(aWalData + 2*4)) = *(*U32)(unsafe.Pointer(pWal + 72 + 24 + 1*4))
*(*U32)(unsafe.Pointer(aWalData + 3*4)) = (*Wal)(unsafe.Pointer(pWal)).FnCkpt
}
// Move the write position of the WAL back to the point identified by
// the values in the aWalData[] array. aWalData must point to an array
// of WAL_SAVEPOINT_NDATA u32 values that has been previously populated
// by a call to WalSavepoint().
func Xsqlite3WalSavepointUndo(tls *libc.TLS, pWal uintptr, aWalData uintptr) int32 {
var rc int32 = SQLITE_OK
if *(*U32)(unsafe.Pointer(aWalData + 3*4)) != (*Wal)(unsafe.Pointer(pWal)).FnCkpt {
*(*U32)(unsafe.Pointer(aWalData)) = U32(0)
*(*U32)(unsafe.Pointer(aWalData + 3*4)) = (*Wal)(unsafe.Pointer(pWal)).FnCkpt
}
if *(*U32)(unsafe.Pointer(aWalData)) < (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame {
(*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame = *(*U32)(unsafe.Pointer(aWalData))
*(*U32)(unsafe.Pointer(pWal + 72 + 24)) = *(*U32)(unsafe.Pointer(aWalData + 1*4))
*(*U32)(unsafe.Pointer(pWal + 72 + 24 + 1*4)) = *(*U32)(unsafe.Pointer(aWalData + 2*4))
walCleanupHash(tls, pWal)
}
return rc
}
func walRestartLog(tls *libc.TLS, pWal uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
var cnt int32
if int32((*Wal)(unsafe.Pointer(pWal)).FreadLock) == 0 {
var pInfo uintptr = walCkptInfo(tls, pWal)
if (*WalCkptInfo)(unsafe.Pointer(pInfo)).FnBackfill > U32(0) {
Xsqlite3_randomness(tls, 4, bp)
rc = walLockExclusive(tls, pWal, 3+1, SQLITE_SHM_NLOCK-3-1)
if rc == SQLITE_OK {
walRestartHdr(tls, pWal, *(*U32)(unsafe.Pointer(bp)))
walUnlockExclusive(tls, pWal, 3+1, SQLITE_SHM_NLOCK-3-1)
} else if rc != SQLITE_BUSY {
return rc
}
}
walUnlockShared(tls, pWal, 3+0)
(*Wal)(unsafe.Pointer(pWal)).FreadLock = int16(-1)
cnt = 0
for __ccgo := true; __ccgo; __ccgo = rc == -1 {
rc = walTryBeginRead(tls, pWal, bp+4, 1, libc.PreIncInt32(&cnt, 1))
}
}
return rc
}
// Information about the current state of the WAL file and where
// the next fsync should occur - passed from sqlite3WalFrames() into
// walWriteToLog().
type WalWriter1 = struct {
FpWal uintptr
FpFd uintptr
FiSyncPoint Sqlite3_int64
FsyncFlags int32
FszPage int32
}
// Information about the current state of the WAL file and where
// the next fsync should occur - passed from sqlite3WalFrames() into
// walWriteToLog().
type WalWriter = WalWriter1
func walWriteToLog(tls *libc.TLS, p uintptr, pContent uintptr, iAmt int32, iOffset Sqlite3_int64) int32 {
var rc int32
if iOffset < (*WalWriter)(unsafe.Pointer(p)).FiSyncPoint && iOffset+Sqlite3_int64(iAmt) >= (*WalWriter)(unsafe.Pointer(p)).FiSyncPoint {
var iFirstAmt int32 = int32((*WalWriter)(unsafe.Pointer(p)).FiSyncPoint - iOffset)
rc = Xsqlite3OsWrite(tls, (*WalWriter)(unsafe.Pointer(p)).FpFd, pContent, iFirstAmt, iOffset)
if rc != 0 {
return rc
}
iOffset = iOffset + Sqlite3_int64(iFirstAmt)
iAmt = iAmt - iFirstAmt
pContent = uintptr(iFirstAmt) + pContent
rc = Xsqlite3OsSync(tls, (*WalWriter)(unsafe.Pointer(p)).FpFd, (*WalWriter)(unsafe.Pointer(p)).FsyncFlags&0x03)
if iAmt == 0 || rc != 0 {
return rc
}
}
rc = Xsqlite3OsWrite(tls, (*WalWriter)(unsafe.Pointer(p)).FpFd, pContent, iAmt, iOffset)
return rc
}
func walWriteOneFrame(tls *libc.TLS, p uintptr, pPage uintptr, nTruncate int32, iOffset Sqlite3_int64) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var rc int32
var pData uintptr
pData = (*PgHdr)(unsafe.Pointer(pPage)).FpData
walEncodeFrame(tls, (*WalWriter)(unsafe.Pointer(p)).FpWal, (*PgHdr)(unsafe.Pointer(pPage)).Fpgno, uint32(nTruncate), pData, bp)
rc = walWriteToLog(tls, p, bp, int32(unsafe.Sizeof([24]U8{})), iOffset)
if rc != 0 {
return rc
}
rc = walWriteToLog(tls, p, pData, (*WalWriter)(unsafe.Pointer(p)).FszPage, int64(uint64(iOffset)+uint64(unsafe.Sizeof([24]U8{}))))
return rc
}
func walRewriteChecksums(tls *libc.TLS, pWal uintptr, iLast U32) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var szPage int32 = int32((*Wal)(unsafe.Pointer(pWal)).FszPage)
var rc int32 = SQLITE_OK
var aBuf uintptr
var iRead U32
var iCksumOff I64
aBuf = Xsqlite3_malloc(tls, szPage+WAL_FRAME_HDRSIZE)
if aBuf == uintptr(0) {
return SQLITE_NOMEM
}
if (*Wal)(unsafe.Pointer(pWal)).FiReCksum == U32(1) {
iCksumOff = int64(24)
} else {
iCksumOff = int64(WAL_HDRSIZE) + I64((*Wal)(unsafe.Pointer(pWal)).FiReCksum-U32(1)-U32(1))*I64(szPage+WAL_FRAME_HDRSIZE) + int64(16)
}
rc = Xsqlite3OsRead(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, aBuf, int32(uint64(unsafe.Sizeof(U32(0)))*uint64(2)), iCksumOff)
*(*U32)(unsafe.Pointer(pWal + 72 + 24)) = Xsqlite3Get4byte(tls, aBuf)
*(*U32)(unsafe.Pointer(pWal + 72 + 24 + 1*4)) = Xsqlite3Get4byte(tls, aBuf+4)
iRead = (*Wal)(unsafe.Pointer(pWal)).FiReCksum
(*Wal)(unsafe.Pointer(pWal)).FiReCksum = U32(0)
for ; rc == SQLITE_OK && iRead <= iLast; iRead++ {
var iOff I64 = int64(WAL_HDRSIZE) + I64(iRead-U32(1))*I64(szPage+WAL_FRAME_HDRSIZE)
rc = Xsqlite3OsRead(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, aBuf, szPage+WAL_FRAME_HDRSIZE, iOff)
if rc == SQLITE_OK {
var iPgno U32
var nDbSize U32
iPgno = Xsqlite3Get4byte(tls, aBuf)
nDbSize = Xsqlite3Get4byte(tls, aBuf+4)
walEncodeFrame(tls, pWal, iPgno, nDbSize, aBuf+24, bp)
rc = Xsqlite3OsWrite(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, bp, int32(unsafe.Sizeof([24]U8{})), iOff)
}
}
Xsqlite3_free(tls, aBuf)
return rc
}
// Write a set of frames to the log. The caller must hold the write-lock
// on the log file (obtained using sqlite3WalBeginWriteTransaction()).
func Xsqlite3WalFrames(tls *libc.TLS, pWal uintptr, szPage int32, pList uintptr, nTruncate Pgno, isCommit int32, sync_flags int32) int32 {
bp := tls.Alloc(80)
defer tls.Free(80)
var rc int32
var iFrame U32
var p uintptr
var pLast uintptr = uintptr(0)
var nExtra int32 = 0
var szFrame int32
var iOffset I64
var iFirst U32 = U32(0)
var pLive uintptr
pLive = walIndexHdr(tls, pWal)
if libc.Xmemcmp(tls, pWal+72, pLive, uint64(unsafe.Sizeof(WalIndexHdr{}))) != 0 {
iFirst = (*WalIndexHdr)(unsafe.Pointer(pLive)).FmxFrame + U32(1)
}
if SQLITE_OK != libc.AssignInt32(&rc, walRestartLog(tls, pWal)) {
return rc
}
iFrame = (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame
if iFrame == U32(0) {
Xsqlite3Put4byte(tls, bp, uint32(WAL_MAGIC|SQLITE_BIGENDIAN))
Xsqlite3Put4byte(tls, bp+4, uint32(WAL_MAX_VERSION))
Xsqlite3Put4byte(tls, bp+8, uint32(szPage))
Xsqlite3Put4byte(tls, bp+12, (*Wal)(unsafe.Pointer(pWal)).FnCkpt)
if (*Wal)(unsafe.Pointer(pWal)).FnCkpt == U32(0) {
Xsqlite3_randomness(tls, 8, pWal+72+32)
}
libc.X__builtin___memcpy_chk(tls, bp+16, pWal+72+32, uint64(8), libc.X__builtin_object_size(tls, bp+16, 0))
walChecksumBytes(tls, 1, bp, WAL_HDRSIZE-2*4, uintptr(0), bp+32)
Xsqlite3Put4byte(tls, bp+24, *(*U32)(unsafe.Pointer(bp + 32)))
Xsqlite3Put4byte(tls, bp+28, *(*U32)(unsafe.Pointer(bp + 32 + 1*4)))
(*Wal)(unsafe.Pointer(pWal)).FszPage = U32(szPage)
(*Wal)(unsafe.Pointer(pWal)).Fhdr.FbigEndCksum = U8(SQLITE_BIGENDIAN)
*(*U32)(unsafe.Pointer(pWal + 72 + 24)) = *(*U32)(unsafe.Pointer(bp + 32))
*(*U32)(unsafe.Pointer(pWal + 72 + 24 + 1*4)) = *(*U32)(unsafe.Pointer(bp + 32 + 1*4))
(*Wal)(unsafe.Pointer(pWal)).FtruncateOnCommit = U8(1)
rc = Xsqlite3OsWrite(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, bp, int32(unsafe.Sizeof([32]U8{})), int64(0))
if rc != SQLITE_OK {
return rc
}
if (*Wal)(unsafe.Pointer(pWal)).FsyncHeader != 0 {
rc = Xsqlite3OsSync(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, sync_flags>>2&0x03)
if rc != 0 {
return rc
}
}
}
(*WalWriter)(unsafe.Pointer(bp + 48)).FpWal = pWal
(*WalWriter)(unsafe.Pointer(bp + 48)).FpFd = (*Wal)(unsafe.Pointer(pWal)).FpWalFd
(*WalWriter)(unsafe.Pointer(bp + 48)).FiSyncPoint = int64(0)
(*WalWriter)(unsafe.Pointer(bp + 48)).FsyncFlags = sync_flags
(*WalWriter)(unsafe.Pointer(bp + 48)).FszPage = szPage
iOffset = int64(WAL_HDRSIZE) + I64(iFrame+U32(1)-U32(1))*I64(szPage+WAL_FRAME_HDRSIZE)
szFrame = szPage + WAL_FRAME_HDRSIZE
for p = pList; p != 0; p = (*PgHdr)(unsafe.Pointer(p)).FpDirty {
var nDbSize int32
if iFirst != 0 && ((*PgHdr)(unsafe.Pointer(p)).FpDirty != 0 || isCommit == 0) {
*(*U32)(unsafe.Pointer(bp + 40)) = U32(0)
Xsqlite3WalFindFrame(tls, pWal, (*PgHdr)(unsafe.Pointer(p)).Fpgno, bp+40)
if *(*U32)(unsafe.Pointer(bp + 40)) >= iFirst {
var iOff I64 = int64(WAL_HDRSIZE) + I64(*(*U32)(unsafe.Pointer(bp + 40))-U32(1))*I64(szPage+WAL_FRAME_HDRSIZE) + int64(WAL_FRAME_HDRSIZE)
var pData uintptr
if (*Wal)(unsafe.Pointer(pWal)).FiReCksum == U32(0) || *(*U32)(unsafe.Pointer(bp + 40)) < (*Wal)(unsafe.Pointer(pWal)).FiReCksum {
(*Wal)(unsafe.Pointer(pWal)).FiReCksum = *(*U32)(unsafe.Pointer(bp + 40))
}
pData = (*PgHdr)(unsafe.Pointer(p)).FpData
rc = Xsqlite3OsWrite(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd, pData, szPage, iOff)
if rc != 0 {
return rc
}
*(*U16)(unsafe.Pointer(p + 52)) &= libc.Uint16FromInt32(libc.CplInt32(PGHDR_WAL_APPEND))
continue
}
}
iFrame++
if isCommit != 0 && (*PgHdr)(unsafe.Pointer(p)).FpDirty == uintptr(0) {
nDbSize = int32(nTruncate)
} else {
nDbSize = 0
}
rc = walWriteOneFrame(tls, bp+48, p, nDbSize, iOffset)
if rc != 0 {
return rc
}
pLast = p
iOffset = iOffset + I64(szFrame)
*(*U16)(unsafe.Pointer(p + 52)) |= U16(PGHDR_WAL_APPEND)
}
if isCommit != 0 && (*Wal)(unsafe.Pointer(pWal)).FiReCksum != 0 {
rc = walRewriteChecksums(tls, pWal, iFrame)
if rc != 0 {
return rc
}
}
if isCommit != 0 && sync_flags&0x03 != 0 {
var bSync int32 = 1
if (*Wal)(unsafe.Pointer(pWal)).FpadToSectorBoundary != 0 {
var sectorSize int32 = Xsqlite3SectorSize(tls, (*Wal)(unsafe.Pointer(pWal)).FpWalFd)
(*WalWriter)(unsafe.Pointer(bp + 48)).FiSyncPoint = (iOffset + I64(sectorSize) - int64(1)) / I64(sectorSize) * I64(sectorSize)
bSync = libc.Bool32((*WalWriter)(unsafe.Pointer(bp+48)).FiSyncPoint == iOffset)
for iOffset < (*WalWriter)(unsafe.Pointer(bp+48)).FiSyncPoint {
rc = walWriteOneFrame(tls, bp+48, pLast, int32(nTruncate), iOffset)
if rc != 0 {
return rc
}
iOffset = iOffset + I64(szFrame)
nExtra++
}
}
if bSync != 0 {
rc = Xsqlite3OsSync(tls, (*WalWriter)(unsafe.Pointer(bp+48)).FpFd, sync_flags&0x03)
}
}
if isCommit != 0 && (*Wal)(unsafe.Pointer(pWal)).FtruncateOnCommit != 0 && (*Wal)(unsafe.Pointer(pWal)).FmxWalSize >= int64(0) {
var sz I64 = (*Wal)(unsafe.Pointer(pWal)).FmxWalSize
if int64(WAL_HDRSIZE)+I64(iFrame+U32(nExtra)+U32(1)-U32(1))*I64(szPage+WAL_FRAME_HDRSIZE) > (*Wal)(unsafe.Pointer(pWal)).FmxWalSize {
sz = int64(WAL_HDRSIZE) + I64(iFrame+U32(nExtra)+U32(1)-U32(1))*I64(szPage+WAL_FRAME_HDRSIZE)
}
walLimitSize(tls, pWal, sz)
(*Wal)(unsafe.Pointer(pWal)).FtruncateOnCommit = U8(0)
}
iFrame = (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame
for p = pList; p != 0 && rc == SQLITE_OK; p = (*PgHdr)(unsafe.Pointer(p)).FpDirty {
if int32((*PgHdr)(unsafe.Pointer(p)).Fflags)&PGHDR_WAL_APPEND == 0 {
continue
}
iFrame++
rc = walIndexAppend(tls, pWal, iFrame, (*PgHdr)(unsafe.Pointer(p)).Fpgno)
}
for rc == SQLITE_OK && nExtra > 0 {
iFrame++
nExtra--
rc = walIndexAppend(tls, pWal, iFrame, (*PgHdr)(unsafe.Pointer(pLast)).Fpgno)
}
if rc == SQLITE_OK {
(*Wal)(unsafe.Pointer(pWal)).Fhdr.FszPage = U16(szPage&0xff00 | szPage>>16)
(*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame = iFrame
if isCommit != 0 {
(*Wal)(unsafe.Pointer(pWal)).Fhdr.FiChange++
(*Wal)(unsafe.Pointer(pWal)).Fhdr.FnPage = nTruncate
}
if isCommit != 0 {
walIndexWriteHdr(tls, pWal)
(*Wal)(unsafe.Pointer(pWal)).FiCallback = iFrame
}
}
return rc
}
// This routine is called to implement sqlite3_wal_checkpoint() and
// related interfaces.
//
// Obtain a CHECKPOINT lock and then backfill as much information as
// we can from WAL into the database.
//
// If parameter xBusy is not NULL, it is a pointer to a busy-handler
// callback. In this case this function runs a blocking checkpoint.
func Xsqlite3WalCheckpoint(tls *libc.TLS, pWal uintptr, db uintptr, eMode int32, xBusy uintptr, pBusyArg uintptr, sync_flags int32, nBuf int32, zBuf uintptr, pnLog uintptr, pnCkpt uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32
*(*int32)(unsafe.Pointer(bp)) = 0
var eMode2 int32 = eMode
var xBusy2 uintptr = xBusy
if (*Wal)(unsafe.Pointer(pWal)).FreadOnly != 0 {
return SQLITE_READONLY
}
rc = walLockExclusive(tls, pWal, WAL_CKPT_LOCK, 1)
if rc == SQLITE_OK {
(*Wal)(unsafe.Pointer(pWal)).FckptLock = U8(1)
if eMode != SQLITE_CHECKPOINT_PASSIVE {
rc = walBusyLock(tls, pWal, xBusy2, pBusyArg, WAL_WRITE_LOCK, 1)
if rc == SQLITE_OK {
(*Wal)(unsafe.Pointer(pWal)).FwriteLock = U8(1)
} else if rc == SQLITE_BUSY {
eMode2 = SQLITE_CHECKPOINT_PASSIVE
xBusy2 = uintptr(0)
rc = SQLITE_OK
}
}
}
if rc == SQLITE_OK {
rc = walIndexReadHdr(tls, pWal, bp)
if *(*int32)(unsafe.Pointer(bp)) != 0 && (*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Wal)(unsafe.Pointer(pWal)).FpDbFd)).FpMethods)).FiVersion >= 3 {
Xsqlite3OsUnfetch(tls, (*Wal)(unsafe.Pointer(pWal)).FpDbFd, int64(0), uintptr(0))
}
}
if rc == SQLITE_OK {
if (*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame != 0 && walPagesize(tls, pWal) != nBuf {
rc = Xsqlite3CorruptError(tls, 67138)
} else {
rc = walCheckpoint(tls, pWal, db, eMode2, xBusy2, pBusyArg, sync_flags, zBuf)
}
if rc == SQLITE_OK || rc == SQLITE_BUSY {
if pnLog != 0 {
*(*int32)(unsafe.Pointer(pnLog)) = int32((*Wal)(unsafe.Pointer(pWal)).Fhdr.FmxFrame)
}
if pnCkpt != 0 {
*(*int32)(unsafe.Pointer(pnCkpt)) = int32((*WalCkptInfo)(unsafe.Pointer(walCkptInfo(tls, pWal))).FnBackfill)
}
}
}
if *(*int32)(unsafe.Pointer(bp)) != 0 {
libc.X__builtin___memset_chk(tls, pWal+72, 0, uint64(unsafe.Sizeof(WalIndexHdr{})), libc.X__builtin_object_size(tls, pWal+72, 0))
}
Xsqlite3WalEndWriteTransaction(tls, pWal)
if (*Wal)(unsafe.Pointer(pWal)).FckptLock != 0 {
walUnlockExclusive(tls, pWal, WAL_CKPT_LOCK, 1)
(*Wal)(unsafe.Pointer(pWal)).FckptLock = U8(0)
}
return func() int32 {
if rc == SQLITE_OK && eMode != eMode2 {
return SQLITE_BUSY
}
return rc
}()
}
// Return the value to pass to a sqlite3_wal_hook callback, the
// number of frames in the WAL at the point of the last commit since
// sqlite3WalCallback() was called. If no commits have occurred since
// the last call, then return 0.
func Xsqlite3WalCallback(tls *libc.TLS, pWal uintptr) int32 {
var ret U32 = U32(0)
if pWal != 0 {
ret = (*Wal)(unsafe.Pointer(pWal)).FiCallback
(*Wal)(unsafe.Pointer(pWal)).FiCallback = U32(0)
}
return int32(ret)
}
// This function is called to change the WAL subsystem into or out
// of locking_mode=EXCLUSIVE.
//
// If op is zero, then attempt to change from locking_mode=EXCLUSIVE
// into locking_mode=NORMAL. This means that we must acquire a lock
// on the pWal->readLock byte. If the WAL is already in locking_mode=NORMAL
// or if the acquisition of the lock fails, then return 0. If the
// transition out of exclusive-mode is successful, return 1. This
// operation must occur while the pager is still holding the exclusive
// lock on the main database file.
//
// If op is one, then change from locking_mode=NORMAL into
// locking_mode=EXCLUSIVE. This means that the pWal->readLock must
// be released. Return 1 if the transition is made and 0 if the
// WAL is already in exclusive-locking mode - meaning that this
// routine is a no-op. The pager must already hold the exclusive lock
// on the main database file before invoking this operation.
//
// If op is negative, then do a dry-run of the op==1 case but do
// not actually change anything. The pager uses this to see if it
// should acquire the database exclusive lock prior to invoking
// the op==1 case.
func Xsqlite3WalExclusiveMode(tls *libc.TLS, pWal uintptr, op int32) int32 {
var rc int32
if op == 0 {
if int32((*Wal)(unsafe.Pointer(pWal)).FexclusiveMode) != WAL_NORMAL_MODE {
(*Wal)(unsafe.Pointer(pWal)).FexclusiveMode = U8(WAL_NORMAL_MODE)
if walLockShared(tls, pWal, 3+int32((*Wal)(unsafe.Pointer(pWal)).FreadLock)) != SQLITE_OK {
(*Wal)(unsafe.Pointer(pWal)).FexclusiveMode = U8(WAL_EXCLUSIVE_MODE)
}
rc = libc.Bool32(int32((*Wal)(unsafe.Pointer(pWal)).FexclusiveMode) == WAL_NORMAL_MODE)
} else {
rc = 0
}
} else if op > 0 {
walUnlockShared(tls, pWal, 3+int32((*Wal)(unsafe.Pointer(pWal)).FreadLock))
(*Wal)(unsafe.Pointer(pWal)).FexclusiveMode = U8(WAL_EXCLUSIVE_MODE)
rc = 1
} else {
rc = libc.Bool32(int32((*Wal)(unsafe.Pointer(pWal)).FexclusiveMode) == WAL_NORMAL_MODE)
}
return rc
}
// Return true if the argument is non-NULL and the WAL module is using
// heap-memory for the wal-index. Otherwise, if the argument is NULL or the
// WAL module is using shared-memory, return false.
func Xsqlite3WalHeapMemory(tls *libc.TLS, pWal uintptr) int32 {
return libc.Bool32(pWal != 0 && int32((*Wal)(unsafe.Pointer(pWal)).FexclusiveMode) == WAL_HEAPMEMORY_MODE)
}
// Create a snapshot object. The content of a snapshot is opaque to
// every other subsystem, so the WAL module can put whatever it needs
// in the object.
func Xsqlite3WalSnapshotGet(tls *libc.TLS, pWal uintptr, ppSnapshot uintptr) int32 {
var rc int32 = SQLITE_OK
var pRet uintptr
if libc.Xmemcmp(tls, pWal+72+24, uintptr(unsafe.Pointer(&aZero)), uint64(16)) == 0 {
*(*uintptr)(unsafe.Pointer(ppSnapshot)) = uintptr(0)
return SQLITE_ERROR
}
pRet = Xsqlite3_malloc(tls, int32(unsafe.Sizeof(WalIndexHdr{})))
if pRet == uintptr(0) {
rc = SQLITE_NOMEM
} else {
libc.X__builtin___memcpy_chk(tls, pRet, pWal+72, uint64(unsafe.Sizeof(WalIndexHdr{})), libc.X__builtin_object_size(tls, pRet, 0))
*(*uintptr)(unsafe.Pointer(ppSnapshot)) = pRet
}
return rc
}
var aZero = [4]U32{U32(0), U32(0), U32(0), U32(0)}
// Try to open on pSnapshot when the next read-transaction starts
func Xsqlite3WalSnapshotOpen(tls *libc.TLS, pWal uintptr, pSnapshot uintptr) {
(*Wal)(unsafe.Pointer(pWal)).FpSnapshot = pSnapshot
}
// Return a +ve value if snapshot p1 is newer than p2. A -ve value if
// p1 is older than p2 and zero if p1 and p2 are the same snapshot.
func Xsqlite3_snapshot_cmp(tls *libc.TLS, p1 uintptr, p2 uintptr) int32 {
var pHdr1 uintptr = p1
var pHdr2 uintptr = p2
if *(*U32)(unsafe.Pointer(pHdr1 + 32)) < *(*U32)(unsafe.Pointer(pHdr2 + 32)) {
return -1
}
if *(*U32)(unsafe.Pointer(pHdr1 + 32)) > *(*U32)(unsafe.Pointer(pHdr2 + 32)) {
return +1
}
if (*WalIndexHdr)(unsafe.Pointer(pHdr1)).FmxFrame < (*WalIndexHdr)(unsafe.Pointer(pHdr2)).FmxFrame {
return -1
}
if (*WalIndexHdr)(unsafe.Pointer(pHdr1)).FmxFrame > (*WalIndexHdr)(unsafe.Pointer(pHdr2)).FmxFrame {
return +1
}
return 0
}
// The caller currently has a read transaction open on the database.
// This function takes a SHARED lock on the CHECKPOINTER slot and then
// checks if the snapshot passed as the second argument is still
// available. If so, SQLITE_OK is returned.
//
// If the snapshot is not available, SQLITE_ERROR is returned. Or, if
// the CHECKPOINTER lock cannot be obtained, SQLITE_BUSY. If any error
// occurs (any value other than SQLITE_OK is returned), the CHECKPOINTER
// lock is released before returning.
func Xsqlite3WalSnapshotCheck(tls *libc.TLS, pWal uintptr, pSnapshot uintptr) int32 {
var rc int32
rc = walLockShared(tls, pWal, WAL_CKPT_LOCK)
if rc == SQLITE_OK {
var pNew uintptr = pSnapshot
if libc.Xmemcmp(tls, pNew+32, pWal+72+32, uint64(unsafe.Sizeof([2]U32{}))) != 0 ||
(*WalIndexHdr)(unsafe.Pointer(pNew)).FmxFrame < (*WalCkptInfo)(unsafe.Pointer(walCkptInfo(tls, pWal))).FnBackfillAttempted {
rc = SQLITE_ERROR | int32(3)<<8
walUnlockShared(tls, pWal, WAL_CKPT_LOCK)
}
}
return rc
}
// Release a lock obtained by an earlier successful call to
// sqlite3WalSnapshotCheck().
func Xsqlite3WalSnapshotUnlock(tls *libc.TLS, pWal uintptr) {
walUnlockShared(tls, pWal, WAL_CKPT_LOCK)
}
// Return the sqlite3_file object for the WAL file
func Xsqlite3WalFile(tls *libc.TLS, pWal uintptr) uintptr {
return (*Wal)(unsafe.Pointer(pWal)).FpWalFd
}
// Forward declarations
type MemPage1 = struct {
FisInit U8
FintKey U8
FintKeyLeaf U8
F__ccgo_pad1 [1]byte
Fpgno Pgno
Fleaf U8
FhdrOffset U8
FchildPtrSize U8
Fmax1bytePayload U8
FnOverflow U8
F__ccgo_pad2 [1]byte
FmaxLocal U16
FminLocal U16
FcellOffset U16
FnFree int32
FnCell U16
FmaskPage U16
FaiOvfl [4]U16
F__ccgo_pad3 [4]byte
FapOvfl [4]uintptr
FpBt uintptr
FaData uintptr
FaDataEnd uintptr
FaCellIdx uintptr
FaDataOfst uintptr
FpDbPage uintptr
FxCellSize uintptr
FxParseCell uintptr
}
// Forward declarations
type MemPage = MemPage1
type BtLock1 = struct {
FpBtree uintptr
FiTable Pgno
FeLock U8
F__ccgo_pad1 [3]byte
FpNext uintptr
}
type BtLock = BtLock1
type CellInfo1 = struct {
FnKey I64
FpPayload uintptr
FnPayload U32
FnLocal U16
FnSize U16
}
type CellInfo = CellInfo1
// This structure is passed around through all the PRAGMA integrity_check
// checking routines in order to keep track of some global state information.
//
// The aRef[] array is allocated so that there is 1 bit for each page in
// the database. As the integrity-check proceeds, for each page used in
// the database the corresponding bit is set. This allows integrity-check to
// detect pages that are used twice and orphaned pages (both of which
// indicate corruption).
type IntegrityCk1 = struct {
FpBt uintptr
FpPager uintptr
FaPgRef uintptr
FnPage Pgno
FmxErr int32
FnErr int32
Frc int32
FnStep U32
F__ccgo_pad1 [4]byte
FzPfx uintptr
Fv1 Pgno
Fv2 int32
FerrMsg StrAccum
Fheap uintptr
Fdb uintptr
}
// This structure is passed around through all the PRAGMA integrity_check
// checking routines in order to keep track of some global state information.
//
// The aRef[] array is allocated so that there is 1 bit for each page in
// the database. As the integrity-check proceeds, for each page used in
// the database the corresponding bit is set. This allows integrity-check to
// detect pages that are used twice and orphaned pages (both of which
// indicate corruption).
type IntegrityCk = IntegrityCk1
func lockBtreeMutex(tls *libc.TLS, p uintptr) {
Xsqlite3_mutex_enter(tls, (*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).Fmutex)
(*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).Fdb = (*Btree)(unsafe.Pointer(p)).Fdb
(*Btree)(unsafe.Pointer(p)).Flocked = U8(1)
}
func unlockBtreeMutex(tls *libc.TLS, p uintptr) {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3_mutex_leave(tls, (*BtShared)(unsafe.Pointer(pBt)).Fmutex)
(*Btree)(unsafe.Pointer(p)).Flocked = U8(0)
}
// Enter a mutex on the given BTree object.
//
// If the object is not sharable, then no mutex is ever required
// and this routine is a no-op. The underlying mutex is non-recursive.
// But we keep a reference count in Btree.wantToLock so the behavior
// of this interface is recursive.
//
// To avoid deadlocks, multiple Btrees are locked in the same order
// by all database connections. The p->pNext is a list of other
// Btrees belonging to the same database connection as the p Btree
// which need to be locked after p. If we cannot get a lock on
// p, then first unlock all of the others on p->pNext, then wait
// for the lock to become available on p, then relock all of the
// subsequent Btrees that desire a lock.
func Xsqlite3BtreeEnter(tls *libc.TLS, p uintptr) {
if !(int32((*Btree)(unsafe.Pointer(p)).Fsharable) != 0) {
return
}
(*Btree)(unsafe.Pointer(p)).FwantToLock++
if (*Btree)(unsafe.Pointer(p)).Flocked != 0 {
return
}
btreeLockCarefully(tls, p)
}
func btreeLockCarefully(tls *libc.TLS, p uintptr) {
var pLater uintptr
if Xsqlite3_mutex_try(tls, (*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).Fmutex) == SQLITE_OK {
(*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).Fdb = (*Btree)(unsafe.Pointer(p)).Fdb
(*Btree)(unsafe.Pointer(p)).Flocked = U8(1)
return
}
for pLater = (*Btree)(unsafe.Pointer(p)).FpNext; pLater != 0; pLater = (*Btree)(unsafe.Pointer(pLater)).FpNext {
if (*Btree)(unsafe.Pointer(pLater)).Flocked != 0 {
unlockBtreeMutex(tls, pLater)
}
}
lockBtreeMutex(tls, p)
for pLater = (*Btree)(unsafe.Pointer(p)).FpNext; pLater != 0; pLater = (*Btree)(unsafe.Pointer(pLater)).FpNext {
if (*Btree)(unsafe.Pointer(pLater)).FwantToLock != 0 {
lockBtreeMutex(tls, pLater)
}
}
}
// Exit the recursive mutex on a Btree.
func Xsqlite3BtreeLeave(tls *libc.TLS, p uintptr) {
if (*Btree)(unsafe.Pointer(p)).Fsharable != 0 {
(*Btree)(unsafe.Pointer(p)).FwantToLock--
if (*Btree)(unsafe.Pointer(p)).FwantToLock == 0 {
unlockBtreeMutex(tls, p)
}
}
}
func btreeEnterAll(tls *libc.TLS, db uintptr) {
var i int32
var skipOk int32 = 1
var p uintptr
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
p = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if p != 0 && (*Btree)(unsafe.Pointer(p)).Fsharable != 0 {
Xsqlite3BtreeEnter(tls, p)
skipOk = 0
}
}
(*Sqlite3)(unsafe.Pointer(db)).FnoSharedCache = U8(skipOk)
}
func Xsqlite3BtreeEnterAll(tls *libc.TLS, db uintptr) {
if int32((*Sqlite3)(unsafe.Pointer(db)).FnoSharedCache) == 0 {
btreeEnterAll(tls, db)
}
}
func btreeLeaveAll(tls *libc.TLS, db uintptr) {
var i int32
var p uintptr
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
p = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if p != 0 {
Xsqlite3BtreeLeave(tls, p)
}
}
}
func Xsqlite3BtreeLeaveAll(tls *libc.TLS, db uintptr) {
if int32((*Sqlite3)(unsafe.Pointer(db)).FnoSharedCache) == 0 {
btreeLeaveAll(tls, db)
}
}
// Enter a mutex on a Btree given a cursor owned by that Btree.
//
// These entry points are used by incremental I/O only. Enter() is required
// any time OMIT_SHARED_CACHE is not defined, regardless of whether or not
// the build is threadsafe. Leave() is only required by threadsafe builds.
func Xsqlite3BtreeEnterCursor(tls *libc.TLS, pCur uintptr) {
Xsqlite3BtreeEnter(tls, (*BtCursor)(unsafe.Pointer(pCur)).FpBtree)
}
func Xsqlite3BtreeLeaveCursor(tls *libc.TLS, pCur uintptr) {
Xsqlite3BtreeLeave(tls, (*BtCursor)(unsafe.Pointer(pCur)).FpBtree)
}
var zMagicHeader = *(*[16]int8)(unsafe.Pointer(ts + 4436))
var sqlite3SharedCacheList uintptr = uintptr(0)
// Enable or disable the shared pager and schema features.
//
// This routine has no effect on existing database connections.
// The shared cache setting effects only future calls to
// sqlite3_open(), sqlite3_open16(), or sqlite3_open_v2().
func Xsqlite3_enable_shared_cache(tls *libc.TLS, enable int32) int32 {
Xsqlite3Config.FsharedCacheEnabled = enable
return SQLITE_OK
}
func querySharedCacheTableLock(tls *libc.TLS, p uintptr, iTab Pgno, eLock U8) int32 {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
var pIter uintptr
if !(int32((*Btree)(unsafe.Pointer(p)).Fsharable) != 0) {
return SQLITE_OK
}
if (*BtShared)(unsafe.Pointer(pBt)).FpWriter != p && int32((*BtShared)(unsafe.Pointer(pBt)).FbtsFlags)&BTS_EXCLUSIVE != 0 {
Xsqlite3ConnectionBlocked(tls, (*Btree)(unsafe.Pointer(p)).Fdb, (*Btree)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpWriter)).Fdb)
return SQLITE_LOCKED | int32(1)<<8
}
for pIter = (*BtShared)(unsafe.Pointer(pBt)).FpLock; pIter != 0; pIter = (*BtLock)(unsafe.Pointer(pIter)).FpNext {
if (*BtLock)(unsafe.Pointer(pIter)).FpBtree != p && (*BtLock)(unsafe.Pointer(pIter)).FiTable == iTab && int32((*BtLock)(unsafe.Pointer(pIter)).FeLock) != int32(eLock) {
Xsqlite3ConnectionBlocked(tls, (*Btree)(unsafe.Pointer(p)).Fdb, (*Btree)(unsafe.Pointer((*BtLock)(unsafe.Pointer(pIter)).FpBtree)).Fdb)
if int32(eLock) == WRITE_LOCK {
*(*U16)(unsafe.Pointer(pBt + 40)) |= U16(BTS_PENDING)
}
return SQLITE_LOCKED | int32(1)<<8
}
}
return SQLITE_OK
}
func setSharedCacheTableLock(tls *libc.TLS, p uintptr, iTable Pgno, eLock U8) int32 {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
var pLock uintptr = uintptr(0)
var pIter uintptr
for pIter = (*BtShared)(unsafe.Pointer(pBt)).FpLock; pIter != 0; pIter = (*BtLock)(unsafe.Pointer(pIter)).FpNext {
if (*BtLock)(unsafe.Pointer(pIter)).FiTable == iTable && (*BtLock)(unsafe.Pointer(pIter)).FpBtree == p {
pLock = pIter
break
}
}
if !(pLock != 0) {
pLock = Xsqlite3MallocZero(tls, uint64(unsafe.Sizeof(BtLock{})))
if !(pLock != 0) {
return SQLITE_NOMEM
}
(*BtLock)(unsafe.Pointer(pLock)).FiTable = iTable
(*BtLock)(unsafe.Pointer(pLock)).FpBtree = p
(*BtLock)(unsafe.Pointer(pLock)).FpNext = (*BtShared)(unsafe.Pointer(pBt)).FpLock
(*BtShared)(unsafe.Pointer(pBt)).FpLock = pLock
}
if int32(eLock) > int32((*BtLock)(unsafe.Pointer(pLock)).FeLock) {
(*BtLock)(unsafe.Pointer(pLock)).FeLock = eLock
}
return SQLITE_OK
}
func clearAllSharedCacheTableLocks(tls *libc.TLS, p uintptr) {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
var ppIter uintptr = pBt + 120
for *(*uintptr)(unsafe.Pointer(ppIter)) != 0 {
var pLock uintptr = *(*uintptr)(unsafe.Pointer(ppIter))
if (*BtLock)(unsafe.Pointer(pLock)).FpBtree == p {
*(*uintptr)(unsafe.Pointer(ppIter)) = (*BtLock)(unsafe.Pointer(pLock)).FpNext
if (*BtLock)(unsafe.Pointer(pLock)).FiTable != Pgno(1) {
Xsqlite3_free(tls, pLock)
}
} else {
ppIter = pLock + 16
}
}
if (*BtShared)(unsafe.Pointer(pBt)).FpWriter == p {
(*BtShared)(unsafe.Pointer(pBt)).FpWriter = uintptr(0)
*(*U16)(unsafe.Pointer(pBt + 40)) &= libc.Uint16FromInt32(libc.CplInt32(BTS_EXCLUSIVE | BTS_PENDING))
} else if (*BtShared)(unsafe.Pointer(pBt)).FnTransaction == 2 {
*(*U16)(unsafe.Pointer(pBt + 40)) &= libc.Uint16FromInt32(libc.CplInt32(BTS_PENDING))
}
}
func downgradeAllSharedCacheTableLocks(tls *libc.TLS, p uintptr) {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
if (*BtShared)(unsafe.Pointer(pBt)).FpWriter == p {
var pLock uintptr
(*BtShared)(unsafe.Pointer(pBt)).FpWriter = uintptr(0)
*(*U16)(unsafe.Pointer(pBt + 40)) &= libc.Uint16FromInt32(libc.CplInt32(BTS_EXCLUSIVE | BTS_PENDING))
for pLock = (*BtShared)(unsafe.Pointer(pBt)).FpLock; pLock != 0; pLock = (*BtLock)(unsafe.Pointer(pLock)).FpNext {
(*BtLock)(unsafe.Pointer(pLock)).FeLock = U8(READ_LOCK)
}
}
}
func invalidateAllOverflowCache(tls *libc.TLS, pBt uintptr) {
var p uintptr
for p = (*BtShared)(unsafe.Pointer(pBt)).FpCursor; p != 0; p = (*BtCursor)(unsafe.Pointer(p)).FpNext {
*(*U8)(unsafe.Pointer(p + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_ValidOvfl))
}
}
func invalidateIncrblobCursors(tls *libc.TLS, pBtree uintptr, pgnoRoot Pgno, iRow I64, isClearTable int32) {
var p uintptr
(*Btree)(unsafe.Pointer(pBtree)).FhasIncrblobCur = U8(0)
for p = (*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(pBtree)).FpBt)).FpCursor; p != 0; p = (*BtCursor)(unsafe.Pointer(p)).FpNext {
if int32((*BtCursor)(unsafe.Pointer(p)).FcurFlags)&BTCF_Incrblob != 0 {
(*Btree)(unsafe.Pointer(pBtree)).FhasIncrblobCur = U8(1)
if (*BtCursor)(unsafe.Pointer(p)).FpgnoRoot == pgnoRoot && (isClearTable != 0 || (*BtCursor)(unsafe.Pointer(p)).Finfo.FnKey == iRow) {
(*BtCursor)(unsafe.Pointer(p)).FeState = U8(CURSOR_INVALID)
}
}
}
}
func btreeSetHasContent(tls *libc.TLS, pBt uintptr, pgno Pgno) int32 {
var rc int32 = SQLITE_OK
if !(int32((*BtShared)(unsafe.Pointer(pBt)).FpHasContent) != 0) {
(*BtShared)(unsafe.Pointer(pBt)).FpHasContent = Xsqlite3BitvecCreate(tls, (*BtShared)(unsafe.Pointer(pBt)).FnPage)
if !(int32((*BtShared)(unsafe.Pointer(pBt)).FpHasContent) != 0) {
rc = SQLITE_NOMEM
}
}
if rc == SQLITE_OK && pgno <= Xsqlite3BitvecSize(tls, (*BtShared)(unsafe.Pointer(pBt)).FpHasContent) {
rc = Xsqlite3BitvecSet(tls, (*BtShared)(unsafe.Pointer(pBt)).FpHasContent, pgno)
}
return rc
}
func btreeGetHasContent(tls *libc.TLS, pBt uintptr, pgno Pgno) int32 {
var p uintptr = (*BtShared)(unsafe.Pointer(pBt)).FpHasContent
return libc.Bool32(p != 0 && (pgno > Xsqlite3BitvecSize(tls, p) || Xsqlite3BitvecTestNotNull(tls, p, pgno) != 0))
}
func btreeClearHasContent(tls *libc.TLS, pBt uintptr) {
Xsqlite3BitvecDestroy(tls, (*BtShared)(unsafe.Pointer(pBt)).FpHasContent)
(*BtShared)(unsafe.Pointer(pBt)).FpHasContent = uintptr(0)
}
func btreeReleaseAllCursorPages(tls *libc.TLS, pCur uintptr) {
var i int32
if int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage) >= 0 {
for i = 0; i < int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage); i++ {
releasePageNotNull(tls, *(*uintptr)(unsafe.Pointer(pCur + 144 + uintptr(i)*8)))
}
releasePageNotNull(tls, (*BtCursor)(unsafe.Pointer(pCur)).FpPage)
(*BtCursor)(unsafe.Pointer(pCur)).FiPage = int8(-1)
}
}
func saveCursorKey(tls *libc.TLS, pCur uintptr) int32 {
var rc int32 = SQLITE_OK
if (*BtCursor)(unsafe.Pointer(pCur)).FcurIntKey != 0 {
(*BtCursor)(unsafe.Pointer(pCur)).FnKey = Xsqlite3BtreeIntegerKey(tls, pCur)
} else {
var pKey uintptr
(*BtCursor)(unsafe.Pointer(pCur)).FnKey = I64(Xsqlite3BtreePayloadSize(tls, pCur))
pKey = Xsqlite3Malloc(tls, uint64((*BtCursor)(unsafe.Pointer(pCur)).FnKey+int64(9)+int64(8)))
if pKey != 0 {
rc = Xsqlite3BtreePayload(tls, pCur, uint32(0), uint32(int32((*BtCursor)(unsafe.Pointer(pCur)).FnKey)), pKey)
if rc == SQLITE_OK {
libc.X__builtin___memset_chk(tls, pKey+uintptr((*BtCursor)(unsafe.Pointer(pCur)).FnKey), 0, uint64(9+8), libc.X__builtin_object_size(tls, pKey+uintptr((*BtCursor)(unsafe.Pointer(pCur)).FnKey), 0))
(*BtCursor)(unsafe.Pointer(pCur)).FpKey = pKey
} else {
Xsqlite3_free(tls, pKey)
}
} else {
rc = SQLITE_NOMEM
}
}
return rc
}
func saveCursorPosition(tls *libc.TLS, pCur uintptr) int32 {
var rc int32
if int32((*BtCursor)(unsafe.Pointer(pCur)).FcurFlags)&BTCF_Pinned != 0 {
return SQLITE_CONSTRAINT | int32(11)<<8
}
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) == CURSOR_SKIPNEXT {
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_VALID)
} else {
(*BtCursor)(unsafe.Pointer(pCur)).FskipNext = 0
}
rc = saveCursorKey(tls, pCur)
if rc == SQLITE_OK {
btreeReleaseAllCursorPages(tls, pCur)
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_REQUIRESEEK)
}
*(*U8)(unsafe.Pointer(pCur + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_ValidNKey | BTCF_ValidOvfl | BTCF_AtLast))
return rc
}
func saveAllCursors(tls *libc.TLS, pBt uintptr, iRoot Pgno, pExcept uintptr) int32 {
var p uintptr
for p = (*BtShared)(unsafe.Pointer(pBt)).FpCursor; p != 0; p = (*BtCursor)(unsafe.Pointer(p)).FpNext {
if p != pExcept && (Pgno(0) == iRoot || (*BtCursor)(unsafe.Pointer(p)).FpgnoRoot == iRoot) {
break
}
}
if p != 0 {
return saveCursorsOnList(tls, p, iRoot, pExcept)
}
if pExcept != 0 {
*(*U8)(unsafe.Pointer(pExcept + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_Multiple))
}
return SQLITE_OK
}
func saveCursorsOnList(tls *libc.TLS, p uintptr, iRoot Pgno, pExcept uintptr) int32 {
for __ccgo := true; __ccgo; __ccgo = p != 0 {
if p != pExcept && (Pgno(0) == iRoot || (*BtCursor)(unsafe.Pointer(p)).FpgnoRoot == iRoot) {
if int32((*BtCursor)(unsafe.Pointer(p)).FeState) == CURSOR_VALID || int32((*BtCursor)(unsafe.Pointer(p)).FeState) == CURSOR_SKIPNEXT {
var rc int32 = saveCursorPosition(tls, p)
if SQLITE_OK != rc {
return rc
}
} else {
btreeReleaseAllCursorPages(tls, p)
}
}
p = (*BtCursor)(unsafe.Pointer(p)).FpNext
}
return SQLITE_OK
}
// Clear the current cursor position.
func Xsqlite3BtreeClearCursor(tls *libc.TLS, pCur uintptr) {
Xsqlite3_free(tls, (*BtCursor)(unsafe.Pointer(pCur)).FpKey)
(*BtCursor)(unsafe.Pointer(pCur)).FpKey = uintptr(0)
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_INVALID)
}
func btreeMoveto(tls *libc.TLS, pCur uintptr, pKey uintptr, nKey I64, bias int32, pRes uintptr) int32 {
var rc int32
var pIdxKey uintptr
if pKey != 0 {
var pKeyInfo uintptr = (*BtCursor)(unsafe.Pointer(pCur)).FpKeyInfo
pIdxKey = Xsqlite3VdbeAllocUnpackedRecord(tls, pKeyInfo)
if pIdxKey == uintptr(0) {
return SQLITE_NOMEM
}
Xsqlite3VdbeRecordUnpack(tls, pKeyInfo, int32(nKey), pKey, pIdxKey)
if int32((*UnpackedRecord)(unsafe.Pointer(pIdxKey)).FnField) == 0 || int32((*UnpackedRecord)(unsafe.Pointer(pIdxKey)).FnField) > int32((*KeyInfo)(unsafe.Pointer(pKeyInfo)).FnAllField) {
rc = Xsqlite3CorruptError(tls, 69249)
} else {
rc = Xsqlite3BtreeIndexMoveto(tls, pCur, pIdxKey, pRes)
}
Xsqlite3DbFree(tls, (*KeyInfo1)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpKeyInfo)).Fdb, pIdxKey)
} else {
pIdxKey = uintptr(0)
rc = Xsqlite3BtreeTableMoveto(tls, pCur, nKey, bias, pRes)
}
return rc
}
func btreeRestoreCursorPosition(tls *libc.TLS, pCur uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32
*(*int32)(unsafe.Pointer(bp)) = 0
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) == CURSOR_FAULT {
return (*BtCursor)(unsafe.Pointer(pCur)).FskipNext
}
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_INVALID)
if Xsqlite3FaultSim(tls, 410) != 0 {
rc = SQLITE_IOERR
} else {
rc = btreeMoveto(tls, pCur, (*BtCursor)(unsafe.Pointer(pCur)).FpKey, (*BtCursor)(unsafe.Pointer(pCur)).FnKey, 0, bp)
}
if rc == SQLITE_OK {
Xsqlite3_free(tls, (*BtCursor)(unsafe.Pointer(pCur)).FpKey)
(*BtCursor)(unsafe.Pointer(pCur)).FpKey = uintptr(0)
if *(*int32)(unsafe.Pointer(bp)) != 0 {
(*BtCursor)(unsafe.Pointer(pCur)).FskipNext = *(*int32)(unsafe.Pointer(bp))
}
if (*BtCursor)(unsafe.Pointer(pCur)).FskipNext != 0 && int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) == CURSOR_VALID {
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_SKIPNEXT)
}
}
return rc
}
// Determine whether or not a cursor has moved from the position where
// it was last placed, or has been invalidated for any other reason.
// Cursors can move when the row they are pointing at is deleted out
// from under them, for example. Cursor might also move if a btree
// is rebalanced.
//
// Calling this routine with a NULL cursor pointer returns false.
//
// Use the separate sqlite3BtreeCursorRestore() routine to restore a cursor
// back to where it ought to be if this routine returns true.
func Xsqlite3BtreeCursorHasMoved(tls *libc.TLS, pCur uintptr) int32 {
return libc.Bool32(CURSOR_VALID != int32(*(*U8)(unsafe.Pointer(pCur))))
}
// Return a pointer to a fake BtCursor object that will always answer
// false to the sqlite3BtreeCursorHasMoved() routine above. The fake
// cursor returned must not be used with any other Btree interface.
func Xsqlite3BtreeFakeValidCursor(tls *libc.TLS) uintptr {
return uintptr(unsafe.Pointer(&fakeCursor))
}
var fakeCursor U8 = U8(CURSOR_VALID)
// This routine restores a cursor back to its original position after it
// has been moved by some outside activity (such as a btree rebalance or
// a row having been deleted out from under the cursor).
//
// On success, the *pDifferentRow parameter is false if the cursor is left
// pointing at exactly the same row. *pDifferntRow is the row the cursor
// was pointing to has been deleted, forcing the cursor to point to some
// nearby row.
//
// This routine should only be called for a cursor that just returned
// TRUE from sqlite3BtreeCursorHasMoved().
func Xsqlite3BtreeCursorRestore(tls *libc.TLS, pCur uintptr, pDifferentRow uintptr) int32 {
var rc int32
rc = func() int32 {
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) >= CURSOR_REQUIRESEEK {
return btreeRestoreCursorPosition(tls, pCur)
}
return SQLITE_OK
}()
if rc != 0 {
*(*int32)(unsafe.Pointer(pDifferentRow)) = 1
return rc
}
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) != CURSOR_VALID {
*(*int32)(unsafe.Pointer(pDifferentRow)) = 1
} else {
*(*int32)(unsafe.Pointer(pDifferentRow)) = 0
}
return SQLITE_OK
}
// Provide flag hints to the cursor.
func Xsqlite3BtreeCursorHintFlags(tls *libc.TLS, pCur uintptr, x uint32) {
(*BtCursor)(unsafe.Pointer(pCur)).Fhints = U8(x)
}
func ptrmapPageno(tls *libc.TLS, pBt uintptr, pgno Pgno) Pgno {
var nPagesPerMapPage int32
var iPtrMap Pgno
var ret Pgno
if pgno < Pgno(2) {
return Pgno(0)
}
nPagesPerMapPage = int32((*BtShared)(unsafe.Pointer(pBt)).FusableSize/U32(5) + U32(1))
iPtrMap = (pgno - Pgno(2)) / Pgno(nPagesPerMapPage)
ret = iPtrMap*Pgno(nPagesPerMapPage) + Pgno(2)
if ret == U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize+U32(1) {
ret++
}
return ret
}
func ptrmapPut(tls *libc.TLS, pBt uintptr, key Pgno, eType U8, parent Pgno, pRC uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pPtrmap uintptr
var iPtrmap Pgno
var offset int32
var rc int32
if !(*(*int32)(unsafe.Pointer(pRC)) != 0) {
goto __1
}
return
__1:
;
if !(key == Pgno(0)) {
goto __2
}
*(*int32)(unsafe.Pointer(pRC)) = Xsqlite3CorruptError(tls, 69430)
return
__2:
;
iPtrmap = ptrmapPageno(tls, pBt, key)
rc = Xsqlite3PagerGet(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, iPtrmap, bp, 0)
if !(rc != SQLITE_OK) {
goto __3
}
*(*int32)(unsafe.Pointer(pRC)) = rc
return
__3:
;
if !(int32(*(*int8)(unsafe.Pointer(Xsqlite3PagerGetExtra(tls, *(*uintptr)(unsafe.Pointer(bp)))))) != 0) {
goto __4
}
*(*int32)(unsafe.Pointer(pRC)) = Xsqlite3CorruptError(tls, 69443)
goto ptrmap_exit
__4:
;
offset = int32(Pgno(5) * (key - iPtrmap - Pgno(1)))
if !(offset < 0) {
goto __5
}
*(*int32)(unsafe.Pointer(pRC)) = Xsqlite3CorruptError(tls, 69448)
goto ptrmap_exit
__5:
;
pPtrmap = Xsqlite3PagerGetData(tls, *(*uintptr)(unsafe.Pointer(bp)))
if !(int32(eType) != int32(*(*U8)(unsafe.Pointer(pPtrmap + uintptr(offset)))) || Xsqlite3Get4byte(tls, pPtrmap+uintptr(offset+1)) != parent) {
goto __6
}
*(*int32)(unsafe.Pointer(pRC)) = libc.AssignInt32(&rc, Xsqlite3PagerWrite(tls, *(*uintptr)(unsafe.Pointer(bp))))
if !(rc == SQLITE_OK) {
goto __7
}
*(*U8)(unsafe.Pointer(pPtrmap + uintptr(offset))) = eType
Xsqlite3Put4byte(tls, pPtrmap+uintptr(offset+1), parent)
__7:
;
__6:
;
ptrmap_exit:
Xsqlite3PagerUnref(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
func ptrmapGet(tls *libc.TLS, pBt uintptr, key Pgno, pEType uintptr, pPgno uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var iPtrmap int32
var pPtrmap uintptr
var offset int32
var rc int32
iPtrmap = int32(ptrmapPageno(tls, pBt, key))
rc = Xsqlite3PagerGet(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, uint32(iPtrmap), bp, 0)
if rc != 0 {
return rc
}
pPtrmap = Xsqlite3PagerGetData(tls, *(*uintptr)(unsafe.Pointer(bp)))
offset = int32(Pgno(5) * (key - Pgno(iPtrmap) - Pgno(1)))
if offset < 0 {
Xsqlite3PagerUnref(tls, *(*uintptr)(unsafe.Pointer(bp)))
return Xsqlite3CorruptError(tls, 69493)
}
*(*U8)(unsafe.Pointer(pEType)) = *(*U8)(unsafe.Pointer(pPtrmap + uintptr(offset)))
if pPgno != 0 {
*(*Pgno)(unsafe.Pointer(pPgno)) = Xsqlite3Get4byte(tls, pPtrmap+uintptr(offset+1))
}
Xsqlite3PagerUnref(tls, *(*uintptr)(unsafe.Pointer(bp)))
if int32(*(*U8)(unsafe.Pointer(pEType))) < 1 || int32(*(*U8)(unsafe.Pointer(pEType))) > 5 {
return Xsqlite3CorruptError(tls, 69501)
}
return SQLITE_OK
}
func btreeParseCellAdjustSizeForOverflow(tls *libc.TLS, pPage uintptr, pCell uintptr, pInfo uintptr) {
var minLocal int32
var maxLocal int32
var surplus int32
minLocal = int32((*MemPage)(unsafe.Pointer(pPage)).FminLocal)
maxLocal = int32((*MemPage)(unsafe.Pointer(pPage)).FmaxLocal)
surplus = int32(U32(minLocal) + ((*CellInfo)(unsafe.Pointer(pInfo)).FnPayload-U32(minLocal))%((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize-U32(4)))
if surplus <= maxLocal {
(*CellInfo)(unsafe.Pointer(pInfo)).FnLocal = U16(surplus)
} else {
(*CellInfo)(unsafe.Pointer(pInfo)).FnLocal = U16(minLocal)
}
(*CellInfo)(unsafe.Pointer(pInfo)).FnSize = U16(int32(U16((int64((*CellInfo)(unsafe.Pointer(pInfo)).FpPayload+uintptr((*CellInfo)(unsafe.Pointer(pInfo)).FnLocal))-int64(pCell))/1)) + 4)
}
func btreePayloadToLocal(tls *libc.TLS, pPage uintptr, nPayload I64) int32 {
var maxLocal int32
maxLocal = int32((*MemPage)(unsafe.Pointer(pPage)).FmaxLocal)
if nPayload <= I64(maxLocal) {
return int32(nPayload)
} else {
var minLocal int32
var surplus int32
minLocal = int32((*MemPage)(unsafe.Pointer(pPage)).FminLocal)
surplus = int32(I64(minLocal) + (nPayload-I64(minLocal))%I64((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize-U32(4)))
if surplus <= maxLocal {
return surplus
}
return minLocal
}
return int32(0)
}
func btreeParseCellPtrNoPayload(tls *libc.TLS, pPage uintptr, pCell uintptr, pInfo uintptr) {
_ = pPage
(*CellInfo)(unsafe.Pointer(pInfo)).FnSize = U16(4 + int32(Xsqlite3GetVarint(tls, pCell+4, pInfo)))
(*CellInfo)(unsafe.Pointer(pInfo)).FnPayload = U32(0)
(*CellInfo)(unsafe.Pointer(pInfo)).FnLocal = U16(0)
(*CellInfo)(unsafe.Pointer(pInfo)).FpPayload = uintptr(0)
return
}
func btreeParseCellPtr(tls *libc.TLS, pPage uintptr, pCell uintptr, pInfo uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pIter uintptr
var nPayload U32
pIter = pCell
nPayload = U32(*(*U8)(unsafe.Pointer(pIter)))
if nPayload >= U32(0x80) {
var pEnd uintptr = pIter + 8
nPayload = nPayload & U32(0x7f)
for __ccgo := true; __ccgo; __ccgo = int32(*(*U8)(unsafe.Pointer(pIter))) >= 0x80 && pIter < pEnd {
nPayload = nPayload<<7 | U32(int32(*(*U8)(unsafe.Pointer(libc.PreIncUintptr(&pIter, 1))))&0x7f)
}
}
pIter++
*(*U64)(unsafe.Pointer(bp)) = U64(*(*U8)(unsafe.Pointer(pIter)))
if *(*U64)(unsafe.Pointer(bp)) >= uint64(0x80) {
var x U8
*(*U64)(unsafe.Pointer(bp)) = *(*U64)(unsafe.Pointer(bp))&uint64(0x7f)<<7 | U64(int32(libc.AssignUint8(&x, *(*U8)(unsafe.Pointer(libc.PreIncUintptr(&pIter, 1)))))&0x7f)
if int32(x) >= 0x80 {
*(*U64)(unsafe.Pointer(bp)) = *(*U64)(unsafe.Pointer(bp))<<7 | U64(int32(libc.AssignUint8(&x, *(*U8)(unsafe.Pointer(libc.PreIncUintptr(&pIter, 1)))))&0x7f)
if int32(x) >= 0x80 {
*(*U64)(unsafe.Pointer(bp)) = *(*U64)(unsafe.Pointer(bp))<<7 | U64(int32(libc.AssignUint8(&x, *(*U8)(unsafe.Pointer(libc.PreIncUintptr(&pIter, 1)))))&0x7f)
if int32(x) >= 0x80 {
*(*U64)(unsafe.Pointer(bp)) = *(*U64)(unsafe.Pointer(bp))<<7 | U64(int32(libc.AssignUint8(&x, *(*U8)(unsafe.Pointer(libc.PreIncUintptr(&pIter, 1)))))&0x7f)
if int32(x) >= 0x80 {
*(*U64)(unsafe.Pointer(bp)) = *(*U64)(unsafe.Pointer(bp))<<7 | U64(int32(libc.AssignUint8(&x, *(*U8)(unsafe.Pointer(libc.PreIncUintptr(&pIter, 1)))))&0x7f)
if int32(x) >= 0x80 {
*(*U64)(unsafe.Pointer(bp)) = *(*U64)(unsafe.Pointer(bp))<<7 | U64(int32(libc.AssignUint8(&x, *(*U8)(unsafe.Pointer(libc.PreIncUintptr(&pIter, 1)))))&0x7f)
if int32(x) >= 0x80 {
*(*U64)(unsafe.Pointer(bp)) = *(*U64)(unsafe.Pointer(bp))<<7 | U64(int32(libc.AssignUint8(&x, *(*U8)(unsafe.Pointer(libc.PreIncUintptr(&pIter, 1)))))&0x7f)
if int32(x) >= 0x80 {
*(*U64)(unsafe.Pointer(bp)) = *(*U64)(unsafe.Pointer(bp))<<8 | U64(*(*U8)(unsafe.Pointer(libc.PreIncUintptr(&pIter, 1))))
}
}
}
}
}
}
}
}
pIter++
(*CellInfo)(unsafe.Pointer(pInfo)).FnKey = *(*I64)(unsafe.Pointer(bp))
(*CellInfo)(unsafe.Pointer(pInfo)).FnPayload = nPayload
(*CellInfo)(unsafe.Pointer(pInfo)).FpPayload = pIter
if nPayload <= U32((*MemPage)(unsafe.Pointer(pPage)).FmaxLocal) {
(*CellInfo)(unsafe.Pointer(pInfo)).FnSize = U16(nPayload + U32(U16((int64(pIter)-int64(pCell))/1)))
if int32((*CellInfo)(unsafe.Pointer(pInfo)).FnSize) < 4 {
(*CellInfo)(unsafe.Pointer(pInfo)).FnSize = U16(4)
}
(*CellInfo)(unsafe.Pointer(pInfo)).FnLocal = U16(nPayload)
} else {
btreeParseCellAdjustSizeForOverflow(tls, pPage, pCell, pInfo)
}
}
func btreeParseCellPtrIndex(tls *libc.TLS, pPage uintptr, pCell uintptr, pInfo uintptr) {
var pIter uintptr
var nPayload U32
pIter = pCell + uintptr((*MemPage)(unsafe.Pointer(pPage)).FchildPtrSize)
nPayload = U32(*(*U8)(unsafe.Pointer(pIter)))
if nPayload >= U32(0x80) {
var pEnd uintptr = pIter + 8
nPayload = nPayload & U32(0x7f)
for __ccgo := true; __ccgo; __ccgo = int32(*(*U8)(unsafe.Pointer(pIter))) >= 0x80 && pIter < pEnd {
nPayload = nPayload<<7 | U32(int32(*(*U8)(unsafe.Pointer(libc.PreIncUintptr(&pIter, 1))))&0x7f)
}
}
pIter++
(*CellInfo)(unsafe.Pointer(pInfo)).FnKey = I64(nPayload)
(*CellInfo)(unsafe.Pointer(pInfo)).FnPayload = nPayload
(*CellInfo)(unsafe.Pointer(pInfo)).FpPayload = pIter
if nPayload <= U32((*MemPage)(unsafe.Pointer(pPage)).FmaxLocal) {
(*CellInfo)(unsafe.Pointer(pInfo)).FnSize = U16(nPayload + U32(U16((int64(pIter)-int64(pCell))/1)))
if int32((*CellInfo)(unsafe.Pointer(pInfo)).FnSize) < 4 {
(*CellInfo)(unsafe.Pointer(pInfo)).FnSize = U16(4)
}
(*CellInfo)(unsafe.Pointer(pInfo)).FnLocal = U16(nPayload)
} else {
btreeParseCellAdjustSizeForOverflow(tls, pPage, pCell, pInfo)
}
}
func btreeParseCell(tls *libc.TLS, pPage uintptr, iCell int32, pInfo uintptr) {
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pPage)).FxParseCell})).f(tls, pPage, (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*iCell))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*iCell) + 1))))), pInfo)
}
func cellSizePtr(tls *libc.TLS, pPage uintptr, pCell uintptr) U16 {
var pIter uintptr = pCell + uintptr((*MemPage)(unsafe.Pointer(pPage)).FchildPtrSize)
var pEnd uintptr
var nSize U32
nSize = U32(*(*U8)(unsafe.Pointer(pIter)))
if nSize >= U32(0x80) {
pEnd = pIter + 8
nSize = nSize & U32(0x7f)
for __ccgo := true; __ccgo; __ccgo = int32(*(*U8)(unsafe.Pointer(pIter))) >= 0x80 && pIter < pEnd {
nSize = nSize<<7 | U32(int32(*(*U8)(unsafe.Pointer(libc.PreIncUintptr(&pIter, 1))))&0x7f)
}
}
pIter++
if nSize <= U32((*MemPage)(unsafe.Pointer(pPage)).FmaxLocal) {
nSize = nSize + U32((int64(pIter)-int64(pCell))/1)
if nSize < U32(4) {
nSize = U32(4)
}
} else {
var minLocal int32 = int32((*MemPage)(unsafe.Pointer(pPage)).FminLocal)
nSize = U32(minLocal) + (nSize-U32(minLocal))%((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize-U32(4))
if nSize > U32((*MemPage)(unsafe.Pointer(pPage)).FmaxLocal) {
nSize = U32(minLocal)
}
nSize = nSize + U32(4+int32(U16((int64(pIter)-int64(pCell))/1)))
}
return U16(nSize)
}
func cellSizePtrNoPayload(tls *libc.TLS, pPage uintptr, pCell uintptr) U16 {
var pIter uintptr = pCell + uintptr(4)
var pEnd uintptr
_ = pPage
pEnd = pIter + uintptr(9)
for int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pIter, 1))))&0x80 != 0 && pIter < pEnd {
}
return U16((int64(pIter) - int64(pCell)) / 1)
}
func cellSizePtrTableLeaf(tls *libc.TLS, pPage uintptr, pCell uintptr) U16 {
var pIter uintptr = pCell
var pEnd uintptr
var nSize U32
nSize = U32(*(*U8)(unsafe.Pointer(pIter)))
if nSize >= U32(0x80) {
pEnd = pIter + 8
nSize = nSize & U32(0x7f)
for __ccgo := true; __ccgo; __ccgo = int32(*(*U8)(unsafe.Pointer(pIter))) >= 0x80 && pIter < pEnd {
nSize = nSize<<7 | U32(int32(*(*U8)(unsafe.Pointer(libc.PreIncUintptr(&pIter, 1))))&0x7f)
}
}
pIter++
if int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pIter, 1))))&0x80 != 0 &&
int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pIter, 1))))&0x80 != 0 &&
int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pIter, 1))))&0x80 != 0 &&
int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pIter, 1))))&0x80 != 0 &&
int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pIter, 1))))&0x80 != 0 &&
int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pIter, 1))))&0x80 != 0 &&
int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pIter, 1))))&0x80 != 0 &&
int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pIter, 1))))&0x80 != 0 {
pIter++
}
if nSize <= U32((*MemPage)(unsafe.Pointer(pPage)).FmaxLocal) {
nSize = nSize + U32((int64(pIter)-int64(pCell))/1)
if nSize < U32(4) {
nSize = U32(4)
}
} else {
var minLocal int32 = int32((*MemPage)(unsafe.Pointer(pPage)).FminLocal)
nSize = U32(minLocal) + (nSize-U32(minLocal))%((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize-U32(4))
if nSize > U32((*MemPage)(unsafe.Pointer(pPage)).FmaxLocal) {
nSize = U32(minLocal)
}
nSize = nSize + U32(4+int32(U16((int64(pIter)-int64(pCell))/1)))
}
return U16(nSize)
}
func ptrmapPutOvflPtr(tls *libc.TLS, pPage uintptr, pSrc uintptr, pCell uintptr, pRC uintptr) {
bp := tls.Alloc(24)
defer tls.Free(24)
if *(*int32)(unsafe.Pointer(pRC)) != 0 {
return
}
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pPage)).FxParseCell})).f(tls, pPage, pCell, bp)
if U32((*CellInfo)(unsafe.Pointer(bp)).FnLocal) < (*CellInfo)(unsafe.Pointer(bp)).FnPayload {
var ovfl Pgno
if Uptr((*MemPage)(unsafe.Pointer(pSrc)).FaDataEnd) >= Uptr(pCell) && Uptr((*MemPage)(unsafe.Pointer(pSrc)).FaDataEnd) < Uptr(pCell+uintptr((*CellInfo)(unsafe.Pointer(bp)).FnLocal)) {
*(*int32)(unsafe.Pointer(pRC)) = Xsqlite3CorruptError(tls, 69893)
return
}
ovfl = Xsqlite3Get4byte(tls, pCell+uintptr(int32((*CellInfo)(unsafe.Pointer(bp)).FnSize)-4))
ptrmapPut(tls, (*MemPage)(unsafe.Pointer(pPage)).FpBt, ovfl, uint8(PTRMAP_OVERFLOW1), (*MemPage)(unsafe.Pointer(pPage)).Fpgno, pRC)
}
}
func defragmentPage(tls *libc.TLS, pPage uintptr, nMaxFrag int32) int32 {
var i int32
var pc int32
var hdr int32
var size int32
var usableSize int32
var cellOffset int32
var cbrk int32
var nCell int32
var data uintptr
var temp uintptr
var src uintptr
var iCellFirst int32
var iCellLast int32
var iCellStart int32
var pEnd uintptr
var pAddr uintptr
var sz2 int32
var sz int32
var top int32
var iFree2 int32
var iFree int32
var pAddr1 uintptr
data = (*MemPage)(unsafe.Pointer(pPage)).FaData
hdr = int32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)
cellOffset = int32((*MemPage)(unsafe.Pointer(pPage)).FcellOffset)
nCell = int32((*MemPage)(unsafe.Pointer(pPage)).FnCell)
iCellFirst = cellOffset + 2*nCell
usableSize = int32((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize)
if !(int32(*(*uint8)(unsafe.Pointer(data + uintptr(hdr+7)))) <= nMaxFrag) {
goto __1
}
iFree = int32(*(*uint8)(unsafe.Pointer(data + uintptr(hdr+1))))<<8 | int32(*(*uint8)(unsafe.Pointer(data + uintptr(hdr+1) + 1)))
if !(iFree > usableSize-4) {
goto __2
}
return Xsqlite3CorruptError(tls, 69951)
__2:
;
if !(iFree != 0) {
goto __3
}
iFree2 = int32(*(*uint8)(unsafe.Pointer(data + uintptr(iFree))))<<8 | int32(*(*uint8)(unsafe.Pointer(data + uintptr(iFree) + 1)))
if !(iFree2 > usableSize-4) {
goto __4
}
return Xsqlite3CorruptError(tls, 69954)
__4:
;
if !(0 == iFree2 || int32(*(*uint8)(unsafe.Pointer(data + uintptr(iFree2)))) == 0 && int32(*(*uint8)(unsafe.Pointer(data + uintptr(iFree2+1)))) == 0) {
goto __5
}
pEnd = data + uintptr(cellOffset+nCell*2)
sz2 = 0
sz = int32(*(*uint8)(unsafe.Pointer(data + uintptr(iFree+2))))<<8 | int32(*(*uint8)(unsafe.Pointer(data + uintptr(iFree+2) + 1)))
top = int32(*(*uint8)(unsafe.Pointer(data + uintptr(hdr+5))))<<8 | int32(*(*uint8)(unsafe.Pointer(data + uintptr(hdr+5) + 1)))
if !(top >= iFree) {
goto __6
}
return Xsqlite3CorruptError(tls, 69962)
__6:
;
if !(iFree2 != 0) {
goto __7
}
if !(iFree+sz > iFree2) {
goto __9
}
return Xsqlite3CorruptError(tls, 69965)
__9:
;
sz2 = int32(*(*uint8)(unsafe.Pointer(data + uintptr(iFree2+2))))<<8 | int32(*(*uint8)(unsafe.Pointer(data + uintptr(iFree2+2) + 1)))
if !(iFree2+sz2 > usableSize) {
goto __10
}
return Xsqlite3CorruptError(tls, 69967)
__10:
;
libc.X__builtin___memmove_chk(tls, data+uintptr(iFree+sz+sz2), data+uintptr(iFree+sz), uint64(iFree2-(iFree+sz)), libc.X__builtin_object_size(tls, data+uintptr(iFree+sz+sz2), 0))
sz = sz + sz2
goto __8
__7:
if !(iFree+sz > usableSize) {
goto __11
}
return Xsqlite3CorruptError(tls, 69971)
__11:
;
__8:
;
cbrk = top + sz
libc.X__builtin___memmove_chk(tls, data+uintptr(cbrk), data+uintptr(top), uint64(iFree-top), libc.X__builtin_object_size(tls, data+uintptr(cbrk), 0))
pAddr = data + uintptr(cellOffset)
__12:
if !(pAddr < pEnd) {
goto __14
}
pc = int32(*(*U8)(unsafe.Pointer(pAddr)))<<8 | int32(*(*U8)(unsafe.Pointer(pAddr + 1)))
if !(pc < iFree) {
goto __15
}
*(*U8)(unsafe.Pointer(pAddr)) = U8((pc + sz) >> 8)
*(*U8)(unsafe.Pointer(pAddr + 1)) = U8(pc + sz)
goto __16
__15:
if !(pc < iFree2) {
goto __17
}
*(*U8)(unsafe.Pointer(pAddr)) = U8((pc + sz2) >> 8)
*(*U8)(unsafe.Pointer(pAddr + 1)) = U8(pc + sz2)
__17:
;
__16:
;
goto __13
__13:
pAddr += uintptr(2)
goto __12
goto __14
__14:
;
goto defragment_out
__5:
;
__3:
;
__1:
;
cbrk = usableSize
iCellLast = usableSize - 4
iCellStart = int32(*(*uint8)(unsafe.Pointer(data + uintptr(hdr+5))))<<8 | int32(*(*uint8)(unsafe.Pointer(data + uintptr(hdr+5) + 1)))
if !(nCell > 0) {
goto __18
}
temp = Xsqlite3PagerTempSpace(tls, (*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FpPager)
libc.X__builtin___memcpy_chk(tls, temp+uintptr(iCellStart), data+uintptr(iCellStart), uint64(usableSize-iCellStart), libc.X__builtin_object_size(tls, temp+uintptr(iCellStart), 0))
src = temp
i = 0
__19:
if !(i < nCell) {
goto __21
}
pAddr1 = data + uintptr(cellOffset+i*2)
pc = int32(*(*U8)(unsafe.Pointer(pAddr1)))<<8 | int32(*(*U8)(unsafe.Pointer(pAddr1 + 1)))
if !(pc < iCellStart || pc > iCellLast) {
goto __22
}
return Xsqlite3CorruptError(tls, 70004)
__22:
;
size = int32((*struct {
f func(*libc.TLS, uintptr, uintptr) U16
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pPage)).FxCellSize})).f(tls, pPage, src+uintptr(pc)))
cbrk = cbrk - size
if !(cbrk < iCellStart || pc+size > usableSize) {
goto __23
}
return Xsqlite3CorruptError(tls, 70010)
__23:
;
*(*U8)(unsafe.Pointer(pAddr1)) = U8(cbrk >> 8)
*(*U8)(unsafe.Pointer(pAddr1 + 1)) = U8(cbrk)
libc.X__builtin___memcpy_chk(tls, data+uintptr(cbrk), src+uintptr(pc), uint64(size), libc.X__builtin_object_size(tls, data+uintptr(cbrk), 0))
goto __20
__20:
i++
goto __19
goto __21
__21:
;
__18:
;
*(*uint8)(unsafe.Pointer(data + uintptr(hdr+7))) = uint8(0)
defragment_out:
;
if !(int32(*(*uint8)(unsafe.Pointer(data + uintptr(hdr+7))))+cbrk-iCellFirst != (*MemPage)(unsafe.Pointer(pPage)).FnFree) {
goto __24
}
return Xsqlite3CorruptError(tls, 70024)
__24:
;
*(*uint8)(unsafe.Pointer(data + uintptr(hdr+5))) = U8(cbrk >> 8)
*(*uint8)(unsafe.Pointer(data + uintptr(hdr+5) + 1)) = U8(cbrk)
*(*uint8)(unsafe.Pointer(data + uintptr(hdr+1))) = uint8(0)
*(*uint8)(unsafe.Pointer(data + uintptr(hdr+2))) = uint8(0)
libc.X__builtin___memset_chk(tls, data+uintptr(iCellFirst), 0, uint64(cbrk-iCellFirst), libc.X__builtin_object_size(tls, data+uintptr(iCellFirst), 0))
return SQLITE_OK
}
func pageFindSlot(tls *libc.TLS, pPg uintptr, nByte int32, pRc uintptr) uintptr {
var hdr int32 = int32((*MemPage)(unsafe.Pointer(pPg)).FhdrOffset)
var aData uintptr = (*MemPage)(unsafe.Pointer(pPg)).FaData
var iAddr int32 = hdr + 1
var pTmp uintptr = aData + uintptr(iAddr)
var pc int32 = int32(*(*U8)(unsafe.Pointer(pTmp)))<<8 | int32(*(*U8)(unsafe.Pointer(pTmp + 1)))
var x int32
var maxPC int32 = int32((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPg)).FpBt)).FusableSize - U32(nByte))
var size int32
for pc <= maxPC {
pTmp = aData + uintptr(pc+2)
size = int32(*(*U8)(unsafe.Pointer(pTmp)))<<8 | int32(*(*U8)(unsafe.Pointer(pTmp + 1)))
if libc.AssignInt32(&x, size-nByte) >= 0 {
if x < 4 {
if int32(*(*U8)(unsafe.Pointer(aData + uintptr(hdr+7)))) > 57 {
return uintptr(0)
}
libc.X__builtin___memcpy_chk(tls, aData+uintptr(iAddr), aData+uintptr(pc), uint64(2), libc.X__builtin_object_size(tls, aData+uintptr(iAddr), 0))
*(*U8)(unsafe.Pointer(aData + uintptr(hdr+7))) += U8(int32(U8(x)))
return aData + uintptr(pc)
} else if x+pc > maxPC {
*(*int32)(unsafe.Pointer(pRc)) = Xsqlite3CorruptError(tls, 70081)
return uintptr(0)
} else {
*(*U8)(unsafe.Pointer(aData + uintptr(pc+2))) = U8(x >> 8)
*(*U8)(unsafe.Pointer(aData + uintptr(pc+2) + 1)) = U8(x)
}
return aData + uintptr(pc+x)
}
iAddr = pc
pTmp = aData + uintptr(pc)
pc = int32(*(*U8)(unsafe.Pointer(pTmp)))<<8 | int32(*(*U8)(unsafe.Pointer(pTmp + 1)))
if pc <= iAddr {
if pc != 0 {
*(*int32)(unsafe.Pointer(pRc)) = Xsqlite3CorruptError(tls, 70096)
}
return uintptr(0)
}
}
if pc > maxPC+nByte-4 {
*(*int32)(unsafe.Pointer(pRc)) = Xsqlite3CorruptError(tls, 70103)
}
return uintptr(0)
}
func allocateSpace(tls *libc.TLS, pPage uintptr, nByte int32, pIdx uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var hdr int32 = int32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)
var data uintptr = (*MemPage)(unsafe.Pointer(pPage)).FaData
var top int32
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
var pTmp uintptr
var gap int32
gap = int32((*MemPage)(unsafe.Pointer(pPage)).FcellOffset) + 2*int32((*MemPage)(unsafe.Pointer(pPage)).FnCell)
pTmp = data + uintptr(hdr+5)
top = int32(*(*U8)(unsafe.Pointer(pTmp)))<<8 | int32(*(*U8)(unsafe.Pointer(pTmp + 1)))
if gap > top {
if top == 0 && (*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize == U32(65536) {
top = 65536
} else {
return Xsqlite3CorruptError(tls, 70152)
}
}
if (*(*U8)(unsafe.Pointer(data + uintptr(hdr+2))) != 0 || *(*U8)(unsafe.Pointer(data + uintptr(hdr+1))) != 0) && gap+2 <= top {
var pSpace uintptr = pageFindSlot(tls, pPage, nByte, bp)
if pSpace != 0 {
var g2 int32
*(*int32)(unsafe.Pointer(pIdx)) = libc.AssignInt32(&g2, int32((int64(pSpace)-int64(data))/1))
if g2 <= gap {
return Xsqlite3CorruptError(tls, 70170)
} else {
return SQLITE_OK
}
} else if *(*int32)(unsafe.Pointer(bp)) != 0 {
return *(*int32)(unsafe.Pointer(bp))
}
}
if gap+2+nByte > top {
*(*int32)(unsafe.Pointer(bp)) = defragmentPage(tls, pPage, func() int32 {
if 4 < (*MemPage)(unsafe.Pointer(pPage)).FnFree-(2+nByte) {
return 4
}
return (*MemPage)(unsafe.Pointer(pPage)).FnFree - (2 + nByte)
}())
if *(*int32)(unsafe.Pointer(bp)) != 0 {
return *(*int32)(unsafe.Pointer(bp))
}
top = (int32(*(*U8)(unsafe.Pointer(data + uintptr(hdr+5))))<<8|int32(*(*U8)(unsafe.Pointer(data + uintptr(hdr+5) + 1)))-1)&0xffff + 1
}
top = top - nByte
*(*U8)(unsafe.Pointer(data + uintptr(hdr+5))) = U8(top >> 8)
*(*U8)(unsafe.Pointer(data + uintptr(hdr+5) + 1)) = U8(top)
*(*int32)(unsafe.Pointer(pIdx)) = top
return SQLITE_OK
}
func freeSpace(tls *libc.TLS, pPage uintptr, iStart U16, iSize U16) int32 {
var iPtr U16
var iFreeBlk U16
var hdr U8
var nFrag U8 = U8(0)
var iOrigSize U16 = iSize
var x U16
var iEnd U32 = U32(int32(iStart) + int32(iSize))
var data uintptr = (*MemPage)(unsafe.Pointer(pPage)).FaData
var pTmp uintptr
hdr = (*MemPage)(unsafe.Pointer(pPage)).FhdrOffset
iPtr = U16(int32(hdr) + 1)
if int32(*(*uint8)(unsafe.Pointer(data + uintptr(int32(iPtr)+1)))) == 0 && int32(*(*uint8)(unsafe.Pointer(data + uintptr(iPtr)))) == 0 {
iFreeBlk = U16(0)
} else {
for int32(libc.AssignUint16(&iFreeBlk, U16(int32(*(*uint8)(unsafe.Pointer(data + uintptr(iPtr))))<<8|int32(*(*uint8)(unsafe.Pointer(data + uintptr(iPtr) + 1)))))) < int32(iStart) {
if int32(iFreeBlk) <= int32(iPtr) {
if int32(iFreeBlk) == 0 {
break
}
return Xsqlite3CorruptError(tls, 70249)
}
iPtr = iFreeBlk
}
if U32(iFreeBlk) > (*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize-U32(4) {
return Xsqlite3CorruptError(tls, 70254)
}
if iFreeBlk != 0 && iEnd+U32(3) >= U32(iFreeBlk) {
nFrag = U8(U32(iFreeBlk) - iEnd)
if iEnd > U32(iFreeBlk) {
return Xsqlite3CorruptError(tls, 70266)
}
iEnd = U32(int32(iFreeBlk) + (int32(*(*uint8)(unsafe.Pointer(data + uintptr(int32(iFreeBlk)+2))))<<8 | int32(*(*uint8)(unsafe.Pointer(data + uintptr(int32(iFreeBlk)+2) + 1)))))
if iEnd > (*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize {
return Xsqlite3CorruptError(tls, 70269)
}
iSize = U16(iEnd - U32(iStart))
iFreeBlk = U16(int32(*(*uint8)(unsafe.Pointer(data + uintptr(iFreeBlk))))<<8 | int32(*(*uint8)(unsafe.Pointer(data + uintptr(iFreeBlk) + 1))))
}
if int32(iPtr) > int32(hdr)+1 {
var iPtrEnd int32 = int32(iPtr) + (int32(*(*uint8)(unsafe.Pointer(data + uintptr(int32(iPtr)+2))))<<8 | int32(*(*uint8)(unsafe.Pointer(data + uintptr(int32(iPtr)+2) + 1))))
if iPtrEnd+3 >= int32(iStart) {
if iPtrEnd > int32(iStart) {
return Xsqlite3CorruptError(tls, 70282)
}
nFrag = U8(int32(nFrag) + (int32(iStart) - iPtrEnd))
iSize = U16(iEnd - U32(iPtr))
iStart = iPtr
}
}
if int32(nFrag) > int32(*(*uint8)(unsafe.Pointer(data + uintptr(int32(hdr)+7)))) {
return Xsqlite3CorruptError(tls, 70288)
}
*(*uint8)(unsafe.Pointer(data + uintptr(int32(hdr)+7))) -= uint8(int32(nFrag))
}
pTmp = data + uintptr(int32(hdr)+5)
x = U16(int32(*(*U8)(unsafe.Pointer(pTmp)))<<8 | int32(*(*U8)(unsafe.Pointer(pTmp + 1))))
if int32(iStart) <= int32(x) {
if int32(iStart) < int32(x) {
return Xsqlite3CorruptError(tls, 70297)
}
if int32(iPtr) != int32(hdr)+1 {
return Xsqlite3CorruptError(tls, 70298)
}
*(*uint8)(unsafe.Pointer(data + uintptr(int32(hdr)+1))) = U8(int32(iFreeBlk) >> 8)
*(*uint8)(unsafe.Pointer(data + uintptr(int32(hdr)+1) + 1)) = U8(iFreeBlk)
*(*uint8)(unsafe.Pointer(data + uintptr(int32(hdr)+5))) = U8(iEnd >> 8)
*(*uint8)(unsafe.Pointer(data + uintptr(int32(hdr)+5) + 1)) = U8(iEnd)
} else {
*(*uint8)(unsafe.Pointer(data + uintptr(iPtr))) = U8(int32(iStart) >> 8)
*(*uint8)(unsafe.Pointer(data + uintptr(iPtr) + 1)) = U8(iStart)
}
if int32((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FbtsFlags)&BTS_FAST_SECURE != 0 {
libc.X__builtin___memset_chk(tls, data+uintptr(iStart), 0, uint64(iSize), libc.X__builtin_object_size(tls, data+uintptr(iStart), 0))
}
*(*uint8)(unsafe.Pointer(data + uintptr(iStart))) = U8(int32(iFreeBlk) >> 8)
*(*uint8)(unsafe.Pointer(data + uintptr(iStart) + 1)) = U8(iFreeBlk)
*(*uint8)(unsafe.Pointer(data + uintptr(int32(iStart)+2))) = U8(int32(iSize) >> 8)
*(*uint8)(unsafe.Pointer(data + uintptr(int32(iStart)+2) + 1)) = U8(iSize)
*(*int32)(unsafe.Pointer(pPage + 20)) += int32(iOrigSize)
return SQLITE_OK
}
func decodeFlags(tls *libc.TLS, pPage uintptr, flagByte int32) int32 {
var pBt uintptr
pBt = (*MemPage)(unsafe.Pointer(pPage)).FpBt
(*MemPage)(unsafe.Pointer(pPage)).Fmax1bytePayload = (*BtShared)(unsafe.Pointer(pBt)).Fmax1bytePayload
if flagByte >= PTF_ZERODATA|PTF_LEAF {
(*MemPage)(unsafe.Pointer(pPage)).FchildPtrSize = U8(0)
(*MemPage)(unsafe.Pointer(pPage)).Fleaf = U8(1)
if flagByte == PTF_LEAFDATA|PTF_INTKEY|PTF_LEAF {
(*MemPage)(unsafe.Pointer(pPage)).FintKeyLeaf = U8(1)
(*MemPage)(unsafe.Pointer(pPage)).FxCellSize = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) U16
}{cellSizePtrTableLeaf}))
(*MemPage)(unsafe.Pointer(pPage)).FxParseCell = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
}{btreeParseCellPtr}))
(*MemPage)(unsafe.Pointer(pPage)).FintKey = U8(1)
(*MemPage)(unsafe.Pointer(pPage)).FmaxLocal = (*BtShared)(unsafe.Pointer(pBt)).FmaxLeaf
(*MemPage)(unsafe.Pointer(pPage)).FminLocal = (*BtShared)(unsafe.Pointer(pBt)).FminLeaf
} else if flagByte == PTF_ZERODATA|PTF_LEAF {
(*MemPage)(unsafe.Pointer(pPage)).FintKey = U8(0)
(*MemPage)(unsafe.Pointer(pPage)).FintKeyLeaf = U8(0)
(*MemPage)(unsafe.Pointer(pPage)).FxCellSize = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) U16
}{cellSizePtr}))
(*MemPage)(unsafe.Pointer(pPage)).FxParseCell = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
}{btreeParseCellPtrIndex}))
(*MemPage)(unsafe.Pointer(pPage)).FmaxLocal = (*BtShared)(unsafe.Pointer(pBt)).FmaxLocal
(*MemPage)(unsafe.Pointer(pPage)).FminLocal = (*BtShared)(unsafe.Pointer(pBt)).FminLocal
} else {
(*MemPage)(unsafe.Pointer(pPage)).FintKey = U8(0)
(*MemPage)(unsafe.Pointer(pPage)).FintKeyLeaf = U8(0)
(*MemPage)(unsafe.Pointer(pPage)).FxCellSize = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) U16
}{cellSizePtr}))
(*MemPage)(unsafe.Pointer(pPage)).FxParseCell = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
}{btreeParseCellPtrIndex}))
return Xsqlite3CorruptError(tls, 70357)
}
} else {
(*MemPage)(unsafe.Pointer(pPage)).FchildPtrSize = U8(4)
(*MemPage)(unsafe.Pointer(pPage)).Fleaf = U8(0)
if flagByte == PTF_ZERODATA {
(*MemPage)(unsafe.Pointer(pPage)).FintKey = U8(0)
(*MemPage)(unsafe.Pointer(pPage)).FintKeyLeaf = U8(0)
(*MemPage)(unsafe.Pointer(pPage)).FxCellSize = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) U16
}{cellSizePtr}))
(*MemPage)(unsafe.Pointer(pPage)).FxParseCell = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
}{btreeParseCellPtrIndex}))
(*MemPage)(unsafe.Pointer(pPage)).FmaxLocal = (*BtShared)(unsafe.Pointer(pBt)).FmaxLocal
(*MemPage)(unsafe.Pointer(pPage)).FminLocal = (*BtShared)(unsafe.Pointer(pBt)).FminLocal
} else if flagByte == PTF_LEAFDATA|PTF_INTKEY {
(*MemPage)(unsafe.Pointer(pPage)).FintKeyLeaf = U8(0)
(*MemPage)(unsafe.Pointer(pPage)).FxCellSize = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) U16
}{cellSizePtrNoPayload}))
(*MemPage)(unsafe.Pointer(pPage)).FxParseCell = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
}{btreeParseCellPtrNoPayload}))
(*MemPage)(unsafe.Pointer(pPage)).FintKey = U8(1)
(*MemPage)(unsafe.Pointer(pPage)).FmaxLocal = (*BtShared)(unsafe.Pointer(pBt)).FmaxLeaf
(*MemPage)(unsafe.Pointer(pPage)).FminLocal = (*BtShared)(unsafe.Pointer(pBt)).FminLeaf
} else {
(*MemPage)(unsafe.Pointer(pPage)).FintKey = U8(0)
(*MemPage)(unsafe.Pointer(pPage)).FintKeyLeaf = U8(0)
(*MemPage)(unsafe.Pointer(pPage)).FxCellSize = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) U16
}{cellSizePtr}))
(*MemPage)(unsafe.Pointer(pPage)).FxParseCell = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
}{btreeParseCellPtrIndex}))
return Xsqlite3CorruptError(tls, 70381)
}
}
return SQLITE_OK
}
func btreeComputeFreeSpace(tls *libc.TLS, pPage uintptr) int32 {
var pc int32
var hdr U8
var data uintptr
var usableSize int32
var nFree int32
var top int32
var iCellFirst int32
var iCellLast int32
usableSize = int32((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize)
hdr = (*MemPage)(unsafe.Pointer(pPage)).FhdrOffset
data = (*MemPage)(unsafe.Pointer(pPage)).FaData
top = (int32(*(*U8)(unsafe.Pointer(data + uintptr(int32(hdr)+5))))<<8|int32(*(*U8)(unsafe.Pointer(data + uintptr(int32(hdr)+5) + 1)))-1)&0xffff + 1
iCellFirst = int32(hdr) + 8 + int32((*MemPage)(unsafe.Pointer(pPage)).FchildPtrSize) + 2*int32((*MemPage)(unsafe.Pointer(pPage)).FnCell)
iCellLast = usableSize - 4
pc = int32(*(*U8)(unsafe.Pointer(data + uintptr(int32(hdr)+1))))<<8 | int32(*(*U8)(unsafe.Pointer(data + uintptr(int32(hdr)+1) + 1)))
nFree = int32(*(*U8)(unsafe.Pointer(data + uintptr(int32(hdr)+7)))) + top
if pc > 0 {
var next U32
var size U32
if pc < top {
return Xsqlite3CorruptError(tls, 70432)
}
for 1 != 0 {
if pc > iCellLast {
return Xsqlite3CorruptError(tls, 70437)
}
next = U32(int32(*(*U8)(unsafe.Pointer(data + uintptr(pc))))<<8 | int32(*(*U8)(unsafe.Pointer(data + uintptr(pc) + 1))))
size = U32(int32(*(*U8)(unsafe.Pointer(data + uintptr(pc+2))))<<8 | int32(*(*U8)(unsafe.Pointer(data + uintptr(pc+2) + 1))))
nFree = int32(U32(nFree) + size)
if next <= U32(pc)+size+U32(3) {
break
}
pc = int32(next)
}
if next > U32(0) {
return Xsqlite3CorruptError(tls, 70447)
}
if U32(pc)+size > uint32(usableSize) {
return Xsqlite3CorruptError(tls, 70451)
}
}
if nFree > usableSize || nFree < iCellFirst {
return Xsqlite3CorruptError(tls, 70463)
}
(*MemPage)(unsafe.Pointer(pPage)).FnFree = int32(U16(nFree - iCellFirst))
return SQLITE_OK
}
func btreeCellSizeCheck(tls *libc.TLS, pPage uintptr) int32 {
var iCellFirst int32
var iCellLast int32
var i int32
var sz int32
var pc int32
var data uintptr
var usableSize int32
var cellOffset int32
iCellFirst = int32((*MemPage)(unsafe.Pointer(pPage)).FcellOffset) + 2*int32((*MemPage)(unsafe.Pointer(pPage)).FnCell)
usableSize = int32((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize)
iCellLast = usableSize - 4
data = (*MemPage)(unsafe.Pointer(pPage)).FaData
cellOffset = int32((*MemPage)(unsafe.Pointer(pPage)).FcellOffset)
if !(int32((*MemPage)(unsafe.Pointer(pPage)).Fleaf) != 0) {
iCellLast--
}
for i = 0; i < int32((*MemPage)(unsafe.Pointer(pPage)).FnCell); i++ {
pc = int32(*(*U8)(unsafe.Pointer(data + uintptr(cellOffset+i*2))))<<8 | int32(*(*U8)(unsafe.Pointer(data + uintptr(cellOffset+i*2) + 1)))
if pc < iCellFirst || pc > iCellLast {
return Xsqlite3CorruptError(tls, 70494)
}
sz = int32((*struct {
f func(*libc.TLS, uintptr, uintptr) U16
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pPage)).FxCellSize})).f(tls, pPage, data+uintptr(pc)))
if pc+sz > usableSize {
return Xsqlite3CorruptError(tls, 70499)
}
}
return SQLITE_OK
}
func btreeInitPage(tls *libc.TLS, pPage uintptr) int32 {
var data uintptr
var pBt uintptr
pBt = (*MemPage)(unsafe.Pointer(pPage)).FpBt
data = (*MemPage)(unsafe.Pointer(pPage)).FaData + uintptr((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)
if decodeFlags(tls, pPage, int32(*(*U8)(unsafe.Pointer(data)))) != 0 {
return Xsqlite3CorruptError(tls, 70531)
}
(*MemPage)(unsafe.Pointer(pPage)).FmaskPage = U16((*BtShared)(unsafe.Pointer(pBt)).FpageSize - U32(1))
(*MemPage)(unsafe.Pointer(pPage)).FnOverflow = U8(0)
(*MemPage)(unsafe.Pointer(pPage)).FcellOffset = U16(int32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset) + 8 + int32((*MemPage)(unsafe.Pointer(pPage)).FchildPtrSize))
(*MemPage)(unsafe.Pointer(pPage)).FaCellIdx = data + uintptr((*MemPage)(unsafe.Pointer(pPage)).FchildPtrSize) + uintptr(8)
(*MemPage)(unsafe.Pointer(pPage)).FaDataEnd = (*MemPage)(unsafe.Pointer(pPage)).FaData + uintptr((*BtShared)(unsafe.Pointer(pBt)).FpageSize)
(*MemPage)(unsafe.Pointer(pPage)).FaDataOfst = (*MemPage)(unsafe.Pointer(pPage)).FaData + uintptr((*MemPage)(unsafe.Pointer(pPage)).FchildPtrSize)
(*MemPage)(unsafe.Pointer(pPage)).FnCell = U16(int32(*(*U8)(unsafe.Pointer(data + 3)))<<8 | int32(*(*U8)(unsafe.Pointer(data + 3 + 1))))
if U32((*MemPage)(unsafe.Pointer(pPage)).FnCell) > ((*BtShared)(unsafe.Pointer(pBt)).FpageSize-U32(8))/U32(6) {
return Xsqlite3CorruptError(tls, 70545)
}
(*MemPage)(unsafe.Pointer(pPage)).FnFree = -1
(*MemPage)(unsafe.Pointer(pPage)).FisInit = U8(1)
if (*Sqlite3)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).Fdb)).Fflags&uint64(SQLITE_CellSizeCk) != 0 {
return btreeCellSizeCheck(tls, pPage)
}
return SQLITE_OK
}
func zeroPage(tls *libc.TLS, pPage uintptr, flags int32) {
var data uintptr = (*MemPage)(unsafe.Pointer(pPage)).FaData
var pBt uintptr = (*MemPage)(unsafe.Pointer(pPage)).FpBt
var hdr U8 = (*MemPage)(unsafe.Pointer(pPage)).FhdrOffset
var first U16
if int32((*BtShared)(unsafe.Pointer(pBt)).FbtsFlags)&BTS_FAST_SECURE != 0 {
libc.X__builtin___memset_chk(tls, data+uintptr(hdr), 0, uint64((*BtShared)(unsafe.Pointer(pBt)).FusableSize-U32(hdr)), libc.X__builtin_object_size(tls, data+uintptr(hdr), 0))
}
*(*uint8)(unsafe.Pointer(data + uintptr(hdr))) = uint8(int8(flags))
first = U16(int32(hdr) + func() int32 {
if flags&PTF_LEAF == 0 {
return 12
}
return 8
}())
libc.X__builtin___memset_chk(tls, data+uintptr(int32(hdr)+1), 0, uint64(4), libc.X__builtin_object_size(tls, data+uintptr(int32(hdr)+1), 0))
*(*uint8)(unsafe.Pointer(data + uintptr(int32(hdr)+7))) = uint8(0)
*(*uint8)(unsafe.Pointer(data + uintptr(int32(hdr)+5))) = U8((*BtShared)(unsafe.Pointer(pBt)).FusableSize >> 8)
*(*uint8)(unsafe.Pointer(data + uintptr(int32(hdr)+5) + 1)) = U8((*BtShared)(unsafe.Pointer(pBt)).FusableSize)
(*MemPage)(unsafe.Pointer(pPage)).FnFree = int32(U16((*BtShared)(unsafe.Pointer(pBt)).FusableSize - U32(first)))
decodeFlags(tls, pPage, flags)
(*MemPage)(unsafe.Pointer(pPage)).FcellOffset = first
(*MemPage)(unsafe.Pointer(pPage)).FaDataEnd = data + uintptr((*BtShared)(unsafe.Pointer(pBt)).FpageSize)
(*MemPage)(unsafe.Pointer(pPage)).FaCellIdx = data + uintptr(first)
(*MemPage)(unsafe.Pointer(pPage)).FaDataOfst = data + uintptr((*MemPage)(unsafe.Pointer(pPage)).FchildPtrSize)
(*MemPage)(unsafe.Pointer(pPage)).FnOverflow = U8(0)
(*MemPage)(unsafe.Pointer(pPage)).FmaskPage = U16((*BtShared)(unsafe.Pointer(pBt)).FpageSize - U32(1))
(*MemPage)(unsafe.Pointer(pPage)).FnCell = U16(0)
(*MemPage)(unsafe.Pointer(pPage)).FisInit = U8(1)
}
func btreePageFromDbPage(tls *libc.TLS, pDbPage uintptr, pgno Pgno, pBt uintptr) uintptr {
var pPage uintptr = Xsqlite3PagerGetExtra(tls, pDbPage)
if pgno != (*MemPage)(unsafe.Pointer(pPage)).Fpgno {
(*MemPage)(unsafe.Pointer(pPage)).FaData = Xsqlite3PagerGetData(tls, pDbPage)
(*MemPage)(unsafe.Pointer(pPage)).FpDbPage = pDbPage
(*MemPage)(unsafe.Pointer(pPage)).FpBt = pBt
(*MemPage)(unsafe.Pointer(pPage)).Fpgno = pgno
(*MemPage)(unsafe.Pointer(pPage)).FhdrOffset = func() uint8 {
if pgno == Pgno(1) {
return uint8(100)
}
return uint8(0)
}()
}
return pPage
}
func btreeGetPage(tls *libc.TLS, pBt uintptr, pgno Pgno, ppPage uintptr, flags int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
rc = Xsqlite3PagerGet(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, pgno, bp, flags)
if rc != 0 {
return rc
}
*(*uintptr)(unsafe.Pointer(ppPage)) = btreePageFromDbPage(tls, *(*uintptr)(unsafe.Pointer(bp)), pgno, pBt)
return SQLITE_OK
}
func btreePageLookup(tls *libc.TLS, pBt uintptr, pgno Pgno) uintptr {
var pDbPage uintptr
pDbPage = Xsqlite3PagerLookup(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, pgno)
if pDbPage != 0 {
return btreePageFromDbPage(tls, pDbPage, pgno, pBt)
}
return uintptr(0)
}
func btreePagecount(tls *libc.TLS, pBt uintptr) Pgno {
return (*BtShared)(unsafe.Pointer(pBt)).FnPage
}
func Xsqlite3BtreeLastPage(tls *libc.TLS, p uintptr) Pgno {
return btreePagecount(tls, (*Btree)(unsafe.Pointer(p)).FpBt)
}
func getAndInitPage(tls *libc.TLS, pBt uintptr, pgno Pgno, ppPage uintptr, pCur uintptr, bReadOnly int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
if !(pgno > btreePagecount(tls, pBt)) {
goto __1
}
rc = Xsqlite3CorruptError(tls, 70700)
goto getAndInitPage_error1
__1:
;
rc = Xsqlite3PagerGet(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, pgno, bp, bReadOnly)
if !(rc != 0) {
goto __2
}
goto getAndInitPage_error1
__2:
;
*(*uintptr)(unsafe.Pointer(ppPage)) = Xsqlite3PagerGetExtra(tls, *(*uintptr)(unsafe.Pointer(bp)))
if !(int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ppPage)))).FisInit) == 0) {
goto __3
}
btreePageFromDbPage(tls, *(*uintptr)(unsafe.Pointer(bp)), pgno, pBt)
rc = btreeInitPage(tls, *(*uintptr)(unsafe.Pointer(ppPage)))
if !(rc != SQLITE_OK) {
goto __4
}
goto getAndInitPage_error2
__4:
;
__3:
;
if !(pCur != 0 && (int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ppPage)))).FnCell) < 1 || int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ppPage)))).FintKey) != int32((*BtCursor)(unsafe.Pointer(pCur)).FcurIntKey))) {
goto __5
}
rc = Xsqlite3CorruptError(tls, 70721)
goto getAndInitPage_error2
__5:
;
return SQLITE_OK
getAndInitPage_error2:
releasePage(tls, *(*uintptr)(unsafe.Pointer(ppPage)))
getAndInitPage_error1:
if !(pCur != 0) {
goto __6
}
(*BtCursor)(unsafe.Pointer(pCur)).FiPage--
(*BtCursor)(unsafe.Pointer(pCur)).FpPage = *(*uintptr)(unsafe.Pointer(pCur + 144 + uintptr((*BtCursor)(unsafe.Pointer(pCur)).FiPage)*8))
__6:
;
return rc
}
func releasePageNotNull(tls *libc.TLS, pPage uintptr) {
Xsqlite3PagerUnrefNotNull(tls, (*MemPage)(unsafe.Pointer(pPage)).FpDbPage)
}
func releasePage(tls *libc.TLS, pPage uintptr) {
if pPage != 0 {
releasePageNotNull(tls, pPage)
}
}
func releasePageOne(tls *libc.TLS, pPage uintptr) {
Xsqlite3PagerUnrefPageOne(tls, (*MemPage)(unsafe.Pointer(pPage)).FpDbPage)
}
func btreeGetUnusedPage(tls *libc.TLS, pBt uintptr, pgno Pgno, ppPage uintptr, flags int32) int32 {
var rc int32 = btreeGetPage(tls, pBt, pgno, ppPage, flags)
if rc == SQLITE_OK {
if Xsqlite3PagerPageRefcount(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ppPage)))).FpDbPage) > 1 {
releasePage(tls, *(*uintptr)(unsafe.Pointer(ppPage)))
*(*uintptr)(unsafe.Pointer(ppPage)) = uintptr(0)
return Xsqlite3CorruptError(tls, 70787)
}
(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ppPage)))).FisInit = U8(0)
} else {
*(*uintptr)(unsafe.Pointer(ppPage)) = uintptr(0)
}
return rc
}
func pageReinit(tls *libc.TLS, pData uintptr) {
var pPage uintptr
pPage = Xsqlite3PagerGetExtra(tls, pData)
if (*MemPage)(unsafe.Pointer(pPage)).FisInit != 0 {
(*MemPage)(unsafe.Pointer(pPage)).FisInit = U8(0)
if Xsqlite3PagerPageRefcount(tls, pData) > 1 {
btreeInitPage(tls, pPage)
}
}
}
func btreeInvokeBusyHandler(tls *libc.TLS, pArg uintptr) int32 {
var pBt uintptr = pArg
return Xsqlite3InvokeBusyHandler(tls, (*BtShared)(unsafe.Pointer(pBt)).Fdb+672)
}
// Open a database file.
//
// zFilename is the name of the database file. If zFilename is NULL
// then an ephemeral database is created. The ephemeral database might
// be exclusively in memory, or it might use a disk-based memory cache.
// Either way, the ephemeral database will be automatically deleted
// when sqlite3BtreeClose() is called.
//
// If zFilename is ":memory:" then an in-memory database is created
// that is automatically destroyed when it is closed.
//
// The "flags" parameter is a bitmask that might contain bits like
// BTREE_OMIT_JOURNAL and/or BTREE_MEMORY.
//
// If the database is already opened in the same database connection
// and we are in shared cache mode, then the open will fail with an
// SQLITE_CONSTRAINT error. We cannot allow two or more BtShared
// objects in the same database connection since doing so will lead
// to problems with locking.
func Xsqlite3BtreeOpen(tls *libc.TLS, pVfs uintptr, zFilename uintptr, db uintptr, ppBtree uintptr, flags int32, vfsFlags int32) int32 {
bp := tls.Alloc(100)
defer tls.Free(100)
var pBt uintptr
var p uintptr
var mutexOpen uintptr
var rc int32
var nReserve U8
var isTempDb int32
var isMemdb int32
var pExisting uintptr
var iDb int32
var nFilename int32
var nFullPathname int32
var zFullPathname uintptr
var mutexShared uintptr
var mutexShared1 uintptr
var i int32
var pSib uintptr
var pFile uintptr
pBt = uintptr(0)
mutexOpen = uintptr(0)
rc = SQLITE_OK
isTempDb = libc.Bool32(zFilename == uintptr(0) || int32(*(*int8)(unsafe.Pointer(zFilename))) == 0)
isMemdb = libc.Bool32(zFilename != 0 && libc.Xstrcmp(tls, zFilename, ts+4452) == 0 ||
isTempDb != 0 && Xsqlite3TempInMemory(tls, db) != 0 ||
vfsFlags&SQLITE_OPEN_MEMORY != 0)
if !(isMemdb != 0) {
goto __1
}
flags = flags | BTREE_MEMORY
__1:
;
if !(vfsFlags&SQLITE_OPEN_MAIN_DB != 0 && (isMemdb != 0 || isTempDb != 0)) {
goto __2
}
vfsFlags = vfsFlags&libc.CplInt32(SQLITE_OPEN_MAIN_DB) | SQLITE_OPEN_TEMP_DB
__2:
;
p = Xsqlite3MallocZero(tls, uint64(unsafe.Sizeof(Btree{})))
if !!(p != 0) {
goto __3
}
return SQLITE_NOMEM
__3:
;
(*Btree)(unsafe.Pointer(p)).FinTrans = U8(TRANS_NONE)
(*Btree)(unsafe.Pointer(p)).Fdb = db
(*Btree)(unsafe.Pointer(p)).Flock.FpBtree = p
(*Btree)(unsafe.Pointer(p)).Flock.FiTable = Pgno(1)
if !(isTempDb == 0 && (isMemdb == 0 || vfsFlags&SQLITE_OPEN_URI != 0)) {
goto __4
}
if !(vfsFlags&SQLITE_OPEN_SHAREDCACHE != 0) {
goto __5
}
nFilename = Xsqlite3Strlen30(tls, zFilename) + 1
nFullPathname = (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FmxPathname + 1
zFullPathname = Xsqlite3Malloc(tls, func() uint64 {
if nFullPathname > nFilename {
return uint64(nFullPathname)
}
return uint64(nFilename)
}())
(*Btree)(unsafe.Pointer(p)).Fsharable = U8(1)
if !!(zFullPathname != 0) {
goto __6
}
Xsqlite3_free(tls, p)
return SQLITE_NOMEM
__6:
;
if !(isMemdb != 0) {
goto __7
}
libc.X__builtin___memcpy_chk(tls, zFullPathname, zFilename, uint64(nFilename), libc.X__builtin_object_size(tls, zFullPathname, 0))
goto __8
__7:
rc = Xsqlite3OsFullPathname(tls, pVfs, zFilename,
nFullPathname, zFullPathname)
if !(rc != 0) {
goto __9
}
if !(rc == SQLITE_OK|int32(2)<<8) {
goto __10
}
rc = SQLITE_OK
goto __11
__10:
Xsqlite3_free(tls, zFullPathname)
Xsqlite3_free(tls, p)
return rc
__11:
;
__9:
;
__8:
;
mutexOpen = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_OPEN)
Xsqlite3_mutex_enter(tls, mutexOpen)
mutexShared = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MAIN)
Xsqlite3_mutex_enter(tls, mutexShared)
pBt = sqlite3SharedCacheList
__12:
if !(pBt != 0) {
goto __14
}
if !(0 == libc.Xstrcmp(tls, zFullPathname, Xsqlite3PagerFilename(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, 0)) &&
Xsqlite3PagerVfs(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager) == pVfs) {
goto __15
}
iDb = (*Sqlite3)(unsafe.Pointer(db)).FnDb - 1
__16:
if !(iDb >= 0) {
goto __18
}
pExisting = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpBt
if !(pExisting != 0 && (*Btree)(unsafe.Pointer(pExisting)).FpBt == pBt) {
goto __19
}
Xsqlite3_mutex_leave(tls, mutexShared)
Xsqlite3_mutex_leave(tls, mutexOpen)
Xsqlite3_free(tls, zFullPathname)
Xsqlite3_free(tls, p)
return SQLITE_CONSTRAINT
__19:
;
goto __17
__17:
iDb--
goto __16
goto __18
__18:
;
(*Btree)(unsafe.Pointer(p)).FpBt = pBt
(*BtShared)(unsafe.Pointer(pBt)).FnRef++
goto __14
__15:
;
goto __13
__13:
pBt = (*BtShared)(unsafe.Pointer(pBt)).FpNext
goto __12
goto __14
__14:
;
Xsqlite3_mutex_leave(tls, mutexShared)
Xsqlite3_free(tls, zFullPathname)
__5:
;
__4:
;
if !(pBt == uintptr(0)) {
goto __20
}
pBt = Xsqlite3MallocZero(tls, uint64(unsafe.Sizeof(BtShared{})))
if !(pBt == uintptr(0)) {
goto __21
}
rc = SQLITE_NOMEM
goto btree_open_out
__21:
;
rc = Xsqlite3PagerOpen(tls, pVfs, pBt, zFilename,
int32(unsafe.Sizeof(MemPage{})), flags, vfsFlags, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{pageReinit})))
if !(rc == SQLITE_OK) {
goto __22
}
Xsqlite3PagerSetMmapLimit(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, (*Sqlite3)(unsafe.Pointer(db)).FszMmap)
rc = Xsqlite3PagerReadFileheader(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, int32(unsafe.Sizeof([100]uint8{})), bp)
__22:
;
if !(rc != SQLITE_OK) {
goto __23
}
goto btree_open_out
__23:
;
(*BtShared)(unsafe.Pointer(pBt)).FopenFlags = U8(flags)
(*BtShared)(unsafe.Pointer(pBt)).Fdb = db
Xsqlite3PagerSetBusyHandler(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr) int32
}{btreeInvokeBusyHandler})), pBt)
(*Btree)(unsafe.Pointer(p)).FpBt = pBt
(*BtShared)(unsafe.Pointer(pBt)).FpCursor = uintptr(0)
(*BtShared)(unsafe.Pointer(pBt)).FpPage1 = uintptr(0)
if !(Xsqlite3PagerIsreadonly(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager) != 0) {
goto __24
}
*(*U16)(unsafe.Pointer(pBt + 40)) |= U16(BTS_READ_ONLY)
__24:
;
(*BtShared)(unsafe.Pointer(pBt)).FpageSize = U32(int32(*(*uint8)(unsafe.Pointer(bp + 16)))<<8 | int32(*(*uint8)(unsafe.Pointer(bp + 17)))<<16)
if !((*BtShared)(unsafe.Pointer(pBt)).FpageSize < U32(512) || (*BtShared)(unsafe.Pointer(pBt)).FpageSize > U32(SQLITE_MAX_PAGE_SIZE) ||
((*BtShared)(unsafe.Pointer(pBt)).FpageSize-U32(1))&(*BtShared)(unsafe.Pointer(pBt)).FpageSize != U32(0)) {
goto __25
}
(*BtShared)(unsafe.Pointer(pBt)).FpageSize = U32(0)
if !(zFilename != 0 && !(isMemdb != 0)) {
goto __27
}
(*BtShared)(unsafe.Pointer(pBt)).FautoVacuum = func() uint8 {
if 0 != 0 {
return uint8(1)
}
return uint8(0)
}()
(*BtShared)(unsafe.Pointer(pBt)).FincrVacuum = func() uint8 {
if SQLITE_DEFAULT_AUTOVACUUM == 2 {
return uint8(1)
}
return uint8(0)
}()
__27:
;
nReserve = U8(0)
goto __26
__25:
nReserve = *(*uint8)(unsafe.Pointer(bp + 20))
*(*U16)(unsafe.Pointer(pBt + 40)) |= U16(BTS_PAGESIZE_FIXED)
(*BtShared)(unsafe.Pointer(pBt)).FautoVacuum = func() uint8 {
if Xsqlite3Get4byte(tls, bp+52) != 0 {
return uint8(1)
}
return uint8(0)
}()
(*BtShared)(unsafe.Pointer(pBt)).FincrVacuum = func() uint8 {
if Xsqlite3Get4byte(tls, bp+64) != 0 {
return uint8(1)
}
return uint8(0)
}()
__26:
;
rc = Xsqlite3PagerSetPagesize(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, pBt+52, int32(nReserve))
if !(rc != 0) {
goto __28
}
goto btree_open_out
__28:
;
(*BtShared)(unsafe.Pointer(pBt)).FusableSize = (*BtShared)(unsafe.Pointer(pBt)).FpageSize - U32(nReserve)
(*BtShared)(unsafe.Pointer(pBt)).FnRef = 1
if !((*Btree)(unsafe.Pointer(p)).Fsharable != 0) {
goto __29
}
mutexShared1 = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MAIN)
if !(1 != 0 && Xsqlite3Config.FbCoreMutex != 0) {
goto __30
}
(*BtShared)(unsafe.Pointer(pBt)).Fmutex = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_FAST)
if !((*BtShared)(unsafe.Pointer(pBt)).Fmutex == uintptr(0)) {
goto __31
}
rc = SQLITE_NOMEM
goto btree_open_out
__31:
;
__30:
;
Xsqlite3_mutex_enter(tls, mutexShared1)
(*BtShared)(unsafe.Pointer(pBt)).FpNext = sqlite3SharedCacheList
sqlite3SharedCacheList = pBt
Xsqlite3_mutex_leave(tls, mutexShared1)
__29:
;
__20:
;
if !((*Btree)(unsafe.Pointer(p)).Fsharable != 0) {
goto __32
}
i = 0
__33:
if !(i < (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __35
}
if !(libc.AssignUintptr(&pSib, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FpBt) != uintptr(0) && (*Btree)(unsafe.Pointer(pSib)).Fsharable != 0) {
goto __36
}
__37:
if !((*Btree)(unsafe.Pointer(pSib)).FpPrev != 0) {
goto __38
}
pSib = (*Btree)(unsafe.Pointer(pSib)).FpPrev
goto __37
__38:
;
if !(Uptr((*Btree)(unsafe.Pointer(p)).FpBt) < Uptr((*Btree)(unsafe.Pointer(pSib)).FpBt)) {
goto __39
}
(*Btree)(unsafe.Pointer(p)).FpNext = pSib
(*Btree)(unsafe.Pointer(p)).FpPrev = uintptr(0)
(*Btree)(unsafe.Pointer(pSib)).FpPrev = p
goto __40
__39:
__41:
if !((*Btree)(unsafe.Pointer(pSib)).FpNext != 0 && Uptr((*Btree)(unsafe.Pointer((*Btree)(unsafe.Pointer(pSib)).FpNext)).FpBt) < Uptr((*Btree)(unsafe.Pointer(p)).FpBt)) {
goto __42
}
pSib = (*Btree)(unsafe.Pointer(pSib)).FpNext
goto __41
__42:
;
(*Btree)(unsafe.Pointer(p)).FpNext = (*Btree)(unsafe.Pointer(pSib)).FpNext
(*Btree)(unsafe.Pointer(p)).FpPrev = pSib
if !((*Btree)(unsafe.Pointer(p)).FpNext != 0) {
goto __43
}
(*Btree)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpNext)).FpPrev = p
__43:
;
(*Btree)(unsafe.Pointer(pSib)).FpNext = p
__40:
;
goto __35
__36:
;
goto __34
__34:
i++
goto __33
goto __35
__35:
;
__32:
;
*(*uintptr)(unsafe.Pointer(ppBtree)) = p
btree_open_out:
if !(rc != SQLITE_OK) {
goto __44
}
if !(pBt != 0 && (*BtShared)(unsafe.Pointer(pBt)).FpPager != 0) {
goto __46
}
Xsqlite3PagerClose(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, uintptr(0))
__46:
;
Xsqlite3_free(tls, pBt)
Xsqlite3_free(tls, p)
*(*uintptr)(unsafe.Pointer(ppBtree)) = uintptr(0)
goto __45
__44:
if !(Xsqlite3BtreeSchema(tls, p, 0, uintptr(0)) == uintptr(0)) {
goto __47
}
Xsqlite3BtreeSetCacheSize(tls, p, -2000)
__47:
;
pFile = Xsqlite3PagerFile(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager)
if !((*Sqlite3_file)(unsafe.Pointer(pFile)).FpMethods != 0) {
goto __48
}
Xsqlite3OsFileControlHint(tls, pFile, SQLITE_FCNTL_PDB, pBt+8)
__48:
;
__45:
;
if !(mutexOpen != 0) {
goto __49
}
Xsqlite3_mutex_leave(tls, mutexOpen)
__49:
;
return rc
}
func removeFromSharingList(tls *libc.TLS, pBt uintptr) int32 {
var pMainMtx uintptr
var pList uintptr
var removed int32 = 0
pMainMtx = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MAIN)
Xsqlite3_mutex_enter(tls, pMainMtx)
(*BtShared)(unsafe.Pointer(pBt)).FnRef--
if (*BtShared)(unsafe.Pointer(pBt)).FnRef <= 0 {
if sqlite3SharedCacheList == pBt {
sqlite3SharedCacheList = (*BtShared)(unsafe.Pointer(pBt)).FpNext
} else {
pList = sqlite3SharedCacheList
for pList != 0 && (*BtShared)(unsafe.Pointer(pList)).FpNext != pBt {
pList = (*BtShared)(unsafe.Pointer(pList)).FpNext
}
if pList != 0 {
(*BtShared)(unsafe.Pointer(pList)).FpNext = (*BtShared)(unsafe.Pointer(pBt)).FpNext
}
}
if 1 != 0 {
Xsqlite3_mutex_free(tls, (*BtShared)(unsafe.Pointer(pBt)).Fmutex)
}
removed = 1
}
Xsqlite3_mutex_leave(tls, pMainMtx)
return removed
}
func allocateTempSpace(tls *libc.TLS, pBt uintptr) int32 {
(*BtShared)(unsafe.Pointer(pBt)).FpTmpSpace = Xsqlite3PageMalloc(tls, int32((*BtShared)(unsafe.Pointer(pBt)).FpageSize))
if (*BtShared)(unsafe.Pointer(pBt)).FpTmpSpace == uintptr(0) {
var pCur uintptr = (*BtShared)(unsafe.Pointer(pBt)).FpCursor
(*BtShared)(unsafe.Pointer(pBt)).FpCursor = (*BtCursor)(unsafe.Pointer(pCur)).FpNext
libc.X__builtin___memset_chk(tls, pCur, 0, uint64(unsafe.Sizeof(BtCursor{})), libc.X__builtin_object_size(tls, pCur, 0))
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, (*BtShared)(unsafe.Pointer(pBt)).FpTmpSpace, 0, uint64(8), libc.X__builtin_object_size(tls, (*BtShared)(unsafe.Pointer(pBt)).FpTmpSpace, 0))
*(*uintptr)(unsafe.Pointer(pBt + 136)) += uintptr(4)
return SQLITE_OK
}
func freeTempSpace(tls *libc.TLS, pBt uintptr) {
if (*BtShared)(unsafe.Pointer(pBt)).FpTmpSpace != 0 {
*(*uintptr)(unsafe.Pointer(pBt + 136)) -= uintptr(4)
Xsqlite3PageFree(tls, (*BtShared)(unsafe.Pointer(pBt)).FpTmpSpace)
(*BtShared)(unsafe.Pointer(pBt)).FpTmpSpace = uintptr(0)
}
}
// Close an open database and invalidate all cursors.
func Xsqlite3BtreeClose(tls *libc.TLS, p uintptr) int32 {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3BtreeEnter(tls, p)
Xsqlite3BtreeRollback(tls, p, SQLITE_OK, 0)
Xsqlite3BtreeLeave(tls, p)
if !(int32((*Btree)(unsafe.Pointer(p)).Fsharable) != 0) || removeFromSharingList(tls, pBt) != 0 {
Xsqlite3PagerClose(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, (*Btree)(unsafe.Pointer(p)).Fdb)
if (*BtShared)(unsafe.Pointer(pBt)).FxFreeSchema != 0 && (*BtShared)(unsafe.Pointer(pBt)).FpSchema != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*BtShared)(unsafe.Pointer(pBt)).FxFreeSchema})).f(tls, (*BtShared)(unsafe.Pointer(pBt)).FpSchema)
}
Xsqlite3DbFree(tls, uintptr(0), (*BtShared)(unsafe.Pointer(pBt)).FpSchema)
freeTempSpace(tls, pBt)
Xsqlite3_free(tls, pBt)
}
if (*Btree)(unsafe.Pointer(p)).FpPrev != 0 {
(*Btree)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpPrev)).FpNext = (*Btree)(unsafe.Pointer(p)).FpNext
}
if (*Btree)(unsafe.Pointer(p)).FpNext != 0 {
(*Btree)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpNext)).FpPrev = (*Btree)(unsafe.Pointer(p)).FpPrev
}
Xsqlite3_free(tls, p)
return SQLITE_OK
}
// Change the "soft" limit on the number of pages in the cache.
// Unused and unmodified pages will be recycled when the number of
// pages in the cache exceeds this soft limit. But the size of the
// cache is allowed to grow larger than this limit if it contains
// dirty pages or pages still in active use.
func Xsqlite3BtreeSetCacheSize(tls *libc.TLS, p uintptr, mxPage int32) int32 {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3BtreeEnter(tls, p)
Xsqlite3PagerSetCachesize(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, mxPage)
Xsqlite3BtreeLeave(tls, p)
return SQLITE_OK
}
// Change the "spill" limit on the number of pages in the cache.
// If the number of pages exceeds this limit during a write transaction,
// the pager might attempt to "spill" pages to the journal early in
// order to free up memory.
//
// The value returned is the current spill size. If zero is passed
// as an argument, no changes are made to the spill size setting, so
// using mxPage of 0 is a way to query the current spill size.
func Xsqlite3BtreeSetSpillSize(tls *libc.TLS, p uintptr, mxPage int32) int32 {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
var res int32
Xsqlite3BtreeEnter(tls, p)
res = Xsqlite3PagerSetSpillsize(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, mxPage)
Xsqlite3BtreeLeave(tls, p)
return res
}
// Change the limit on the amount of the database file that may be
// memory mapped.
func Xsqlite3BtreeSetMmapLimit(tls *libc.TLS, p uintptr, szMmap Sqlite3_int64) int32 {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3BtreeEnter(tls, p)
Xsqlite3PagerSetMmapLimit(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, szMmap)
Xsqlite3BtreeLeave(tls, p)
return SQLITE_OK
}
// Change the way data is synced to disk in order to increase or decrease
// how well the database resists damage due to OS crashes and power
// failures. Level 1 is the same as asynchronous (no syncs() occur and
// there is a high probability of damage) Level 2 is the default. There
// is a very low but non-zero probability of damage. Level 3 reduces the
// probability of damage to near zero but with a write performance reduction.
func Xsqlite3BtreeSetPagerFlags(tls *libc.TLS, p uintptr, pgFlags uint32) int32 {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3BtreeEnter(tls, p)
Xsqlite3PagerSetFlags(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, pgFlags)
Xsqlite3BtreeLeave(tls, p)
return SQLITE_OK
}
// Change the default pages size and the number of reserved bytes per page.
// Or, if the page size has already been fixed, return SQLITE_READONLY
// without changing anything.
//
// The page size must be a power of 2 between 512 and 65536. If the page
// size supplied does not meet this constraint then the page size is not
// changed.
//
// Page sizes are constrained to be a power of two so that the region
// of the database file used for locking (beginning at PENDING_BYTE,
// the first byte past the 1GB boundary, 0x40000000) needs to occur
// at the beginning of a page.
//
// If parameter nReserve is less than zero, then the number of reserved
// bytes per page is left unchanged.
//
// If the iFix!=0 then the BTS_PAGESIZE_FIXED flag is set so that the page size
// and autovacuum mode can no longer be changed.
func Xsqlite3BtreeSetPageSize(tls *libc.TLS, p uintptr, pageSize int32, nReserve int32, iFix int32) int32 {
var rc int32 = SQLITE_OK
var x int32
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3BtreeEnter(tls, p)
(*BtShared)(unsafe.Pointer(pBt)).FnReserveWanted = U8(nReserve)
x = int32((*BtShared)(unsafe.Pointer(pBt)).FpageSize - (*BtShared)(unsafe.Pointer(pBt)).FusableSize)
if nReserve < x {
nReserve = x
}
if int32((*BtShared)(unsafe.Pointer(pBt)).FbtsFlags)&BTS_PAGESIZE_FIXED != 0 {
Xsqlite3BtreeLeave(tls, p)
return SQLITE_READONLY
}
if pageSize >= 512 && pageSize <= SQLITE_MAX_PAGE_SIZE && (pageSize-1)&pageSize == 0 {
if nReserve > 32 && pageSize == 512 {
pageSize = 1024
}
(*BtShared)(unsafe.Pointer(pBt)).FpageSize = U32(pageSize)
freeTempSpace(tls, pBt)
}
rc = Xsqlite3PagerSetPagesize(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, pBt+52, nReserve)
(*BtShared)(unsafe.Pointer(pBt)).FusableSize = (*BtShared)(unsafe.Pointer(pBt)).FpageSize - U32(U16(nReserve))
if iFix != 0 {
*(*U16)(unsafe.Pointer(pBt + 40)) |= U16(BTS_PAGESIZE_FIXED)
}
Xsqlite3BtreeLeave(tls, p)
return rc
}
// Return the currently defined page size
func Xsqlite3BtreeGetPageSize(tls *libc.TLS, p uintptr) int32 {
return int32((*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FpageSize)
}
// This function is similar to sqlite3BtreeGetReserve(), except that it
// may only be called if it is guaranteed that the b-tree mutex is already
// held.
//
// This is useful in one special case in the backup API code where it is
// known that the shared b-tree mutex is held, but the mutex on the
// database handle that owns *p is not. In this case if sqlite3BtreeEnter()
// were to be called, it might collide with some other operation on the
// database handle that owns *p, causing undefined behavior.
func Xsqlite3BtreeGetReserveNoMutex(tls *libc.TLS, p uintptr) int32 {
var n int32
n = int32((*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FpageSize - (*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FusableSize)
return n
}
// Return the number of bytes of space at the end of every page that
// are intentually left unused. This is the "reserved" space that is
// sometimes used by extensions.
//
// The value returned is the larger of the current reserve size and
// the latest reserve size requested by SQLITE_FILECTRL_RESERVE_BYTES.
// The amount of reserve can only grow - never shrink.
func Xsqlite3BtreeGetRequestedReserve(tls *libc.TLS, p uintptr) int32 {
var n1 int32
var n2 int32
Xsqlite3BtreeEnter(tls, p)
n1 = int32((*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FnReserveWanted)
n2 = Xsqlite3BtreeGetReserveNoMutex(tls, p)
Xsqlite3BtreeLeave(tls, p)
if n1 > n2 {
return n1
}
return n2
}
// Set the maximum page count for a database if mxPage is positive.
// No changes are made if mxPage is 0 or negative.
// Regardless of the value of mxPage, return the maximum page count.
func Xsqlite3BtreeMaxPageCount(tls *libc.TLS, p uintptr, mxPage Pgno) Pgno {
var n Pgno
Xsqlite3BtreeEnter(tls, p)
n = Xsqlite3PagerMaxPageCount(tls, (*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FpPager, mxPage)
Xsqlite3BtreeLeave(tls, p)
return n
}
// Change the values for the BTS_SECURE_DELETE and BTS_OVERWRITE flags:
//
// newFlag==0 Both BTS_SECURE_DELETE and BTS_OVERWRITE are cleared
// newFlag==1 BTS_SECURE_DELETE set and BTS_OVERWRITE is cleared
// newFlag==2 BTS_SECURE_DELETE cleared and BTS_OVERWRITE is set
// newFlag==(-1) No changes
//
// # This routine acts as a query if newFlag is less than zero
//
// With BTS_OVERWRITE set, deleted content is overwritten by zeros, but
// freelist leaf pages are not written back to the database. Thus in-page
// deleted content is cleared, but freelist deleted content is not.
//
// With BTS_SECURE_DELETE, operation is like BTS_OVERWRITE with the addition
// that freelist leaf pages are written back into the database, increasing
// the amount of disk I/O.
func Xsqlite3BtreeSecureDelete(tls *libc.TLS, p uintptr, newFlag int32) int32 {
var b int32
if p == uintptr(0) {
return 0
}
Xsqlite3BtreeEnter(tls, p)
if newFlag >= 0 {
*(*U16)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt + 40)) &= libc.Uint16FromInt32(libc.CplInt32(BTS_FAST_SECURE))
*(*U16)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt + 40)) |= U16(BTS_SECURE_DELETE * newFlag)
}
b = int32((*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FbtsFlags) & BTS_FAST_SECURE / BTS_SECURE_DELETE
Xsqlite3BtreeLeave(tls, p)
return b
}
// Change the 'auto-vacuum' property of the database. If the 'autoVacuum'
// parameter is non-zero, then auto-vacuum mode is enabled. If zero, it
// is disabled. The default value for the auto-vacuum property is
// determined by the SQLITE_DEFAULT_AUTOVACUUM macro.
func Xsqlite3BtreeSetAutoVacuum(tls *libc.TLS, p uintptr, autoVacuum int32) int32 {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
var rc int32 = SQLITE_OK
var av U8 = U8(autoVacuum)
Xsqlite3BtreeEnter(tls, p)
if int32((*BtShared)(unsafe.Pointer(pBt)).FbtsFlags)&BTS_PAGESIZE_FIXED != 0 && func() int32 {
if av != 0 {
return 1
}
return 0
}() != int32((*BtShared)(unsafe.Pointer(pBt)).FautoVacuum) {
rc = SQLITE_READONLY
} else {
(*BtShared)(unsafe.Pointer(pBt)).FautoVacuum = func() uint8 {
if av != 0 {
return uint8(1)
}
return uint8(0)
}()
(*BtShared)(unsafe.Pointer(pBt)).FincrVacuum = func() uint8 {
if int32(av) == 2 {
return uint8(1)
}
return uint8(0)
}()
}
Xsqlite3BtreeLeave(tls, p)
return rc
}
// Return the value of the 'auto-vacuum' property. If auto-vacuum is
// enabled 1 is returned. Otherwise 0.
func Xsqlite3BtreeGetAutoVacuum(tls *libc.TLS, p uintptr) int32 {
var rc int32
Xsqlite3BtreeEnter(tls, p)
rc = func() int32 {
if !(int32((*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FautoVacuum) != 0) {
return BTREE_AUTOVACUUM_NONE
}
return func() int32 {
if !(int32((*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FincrVacuum) != 0) {
return BTREE_AUTOVACUUM_FULL
}
return BTREE_AUTOVACUUM_INCR
}()
}()
Xsqlite3BtreeLeave(tls, p)
return rc
}
func lockBtree(tls *libc.TLS, pBt uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var rc int32
var nPage U32
var pageSize U32
var usableSize U32
var page1 uintptr
*(*U32)(unsafe.Pointer(bp + 8)) = U32(0)
rc = Xsqlite3PagerSharedLock(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager)
if !(rc != SQLITE_OK) {
goto __1
}
return rc
__1:
;
rc = btreeGetPage(tls, pBt, uint32(1), bp, 0)
if !(rc != SQLITE_OK) {
goto __2
}
return rc
__2:
;
nPage = Xsqlite3Get4byte(tls, uintptr(28)+(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData)
Xsqlite3PagerPagecount(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, bp+8)
if !(nPage == U32(0) || libc.Xmemcmp(tls, uintptr(24)+(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData, uintptr(92)+(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData, uint64(4)) != 0) {
goto __3
}
nPage = *(*U32)(unsafe.Pointer(bp + 8))
__3:
;
if !((*Sqlite3)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).Fdb)).Fflags&uint64(SQLITE_ResetDatabase) != uint64(0)) {
goto __4
}
nPage = U32(0)
__4:
;
if !(nPage > U32(0)) {
goto __5
}
page1 = (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData
rc = SQLITE_NOTADB
if !(libc.Xmemcmp(tls, page1, uintptr(unsafe.Pointer(&zMagicHeader)), uint64(16)) != 0) {
goto __6
}
goto page1_init_failed
__6:
;
if !(int32(*(*U8)(unsafe.Pointer(page1 + 18))) > 2) {
goto __7
}
*(*U16)(unsafe.Pointer(pBt + 40)) |= U16(BTS_READ_ONLY)
__7:
;
if !(int32(*(*U8)(unsafe.Pointer(page1 + 19))) > 2) {
goto __8
}
goto page1_init_failed
__8:
;
if !(int32(*(*U8)(unsafe.Pointer(page1 + 19))) == 2 && int32((*BtShared)(unsafe.Pointer(pBt)).FbtsFlags)&BTS_NO_WAL == 0) {
goto __9
}
*(*int32)(unsafe.Pointer(bp + 12)) = 0
rc = Xsqlite3PagerOpenWal(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, bp+12)
if !(rc != SQLITE_OK) {
goto __11
}
goto page1_init_failed
goto __12
__11:
;
if !(*(*int32)(unsafe.Pointer(bp + 12)) == 0) {
goto __13
}
releasePageOne(tls, *(*uintptr)(unsafe.Pointer(bp)))
return SQLITE_OK
__13:
;
__12:
;
rc = SQLITE_NOTADB
goto __10
__9:
;
__10:
;
if !(libc.Xmemcmp(tls, page1+21, ts+4461, uint64(3)) != 0) {
goto __14
}
goto page1_init_failed
__14:
;
pageSize = U32(int32(*(*U8)(unsafe.Pointer(page1 + 16)))<<8 | int32(*(*U8)(unsafe.Pointer(page1 + 17)))<<16)
if !((pageSize-U32(1))&pageSize != U32(0) ||
pageSize > U32(SQLITE_MAX_PAGE_SIZE) ||
pageSize <= U32(256)) {
goto __15
}
goto page1_init_failed
__15:
;
*(*U16)(unsafe.Pointer(pBt + 40)) |= U16(BTS_PAGESIZE_FIXED)
usableSize = pageSize - U32(*(*U8)(unsafe.Pointer(page1 + 20)))
if !(pageSize != (*BtShared)(unsafe.Pointer(pBt)).FpageSize) {
goto __16
}
releasePageOne(tls, *(*uintptr)(unsafe.Pointer(bp)))
(*BtShared)(unsafe.Pointer(pBt)).FusableSize = usableSize
(*BtShared)(unsafe.Pointer(pBt)).FpageSize = pageSize
freeTempSpace(tls, pBt)
rc = Xsqlite3PagerSetPagesize(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, pBt+52,
int32(pageSize-usableSize))
return rc
__16:
;
if !(nPage > *(*U32)(unsafe.Pointer(bp + 8))) {
goto __17
}
if !(Xsqlite3WritableSchema(tls, (*BtShared)(unsafe.Pointer(pBt)).Fdb) == 0) {
goto __18
}
rc = Xsqlite3CorruptError(tls, 71722)
goto page1_init_failed
goto __19
__18:
nPage = *(*U32)(unsafe.Pointer(bp + 8))
__19:
;
__17:
;
if !(usableSize < U32(480)) {
goto __20
}
goto page1_init_failed
__20:
;
(*BtShared)(unsafe.Pointer(pBt)).FpageSize = pageSize
(*BtShared)(unsafe.Pointer(pBt)).FusableSize = usableSize
(*BtShared)(unsafe.Pointer(pBt)).FautoVacuum = func() uint8 {
if Xsqlite3Get4byte(tls, page1+52) != 0 {
return uint8(1)
}
return uint8(0)
}()
(*BtShared)(unsafe.Pointer(pBt)).FincrVacuum = func() uint8 {
if Xsqlite3Get4byte(tls, page1+64) != 0 {
return uint8(1)
}
return uint8(0)
}()
__5:
;
(*BtShared)(unsafe.Pointer(pBt)).FmaxLocal = U16(((*BtShared)(unsafe.Pointer(pBt)).FusableSize-U32(12))*U32(64)/U32(255) - U32(23))
(*BtShared)(unsafe.Pointer(pBt)).FminLocal = U16(((*BtShared)(unsafe.Pointer(pBt)).FusableSize-U32(12))*U32(32)/U32(255) - U32(23))
(*BtShared)(unsafe.Pointer(pBt)).FmaxLeaf = U16((*BtShared)(unsafe.Pointer(pBt)).FusableSize - U32(35))
(*BtShared)(unsafe.Pointer(pBt)).FminLeaf = U16(((*BtShared)(unsafe.Pointer(pBt)).FusableSize-U32(12))*U32(32)/U32(255) - U32(23))
if !(int32((*BtShared)(unsafe.Pointer(pBt)).FmaxLocal) > 127) {
goto __21
}
(*BtShared)(unsafe.Pointer(pBt)).Fmax1bytePayload = U8(127)
goto __22
__21:
(*BtShared)(unsafe.Pointer(pBt)).Fmax1bytePayload = U8((*BtShared)(unsafe.Pointer(pBt)).FmaxLocal)
__22:
;
(*BtShared)(unsafe.Pointer(pBt)).FpPage1 = *(*uintptr)(unsafe.Pointer(bp))
(*BtShared)(unsafe.Pointer(pBt)).FnPage = nPage
return SQLITE_OK
page1_init_failed:
releasePageOne(tls, *(*uintptr)(unsafe.Pointer(bp)))
(*BtShared)(unsafe.Pointer(pBt)).FpPage1 = uintptr(0)
return rc
}
func unlockBtreeIfUnused(tls *libc.TLS, pBt uintptr) {
if int32((*BtShared)(unsafe.Pointer(pBt)).FinTransaction) == TRANS_NONE && (*BtShared)(unsafe.Pointer(pBt)).FpPage1 != uintptr(0) {
var pPage1 uintptr = (*BtShared)(unsafe.Pointer(pBt)).FpPage1
(*BtShared)(unsafe.Pointer(pBt)).FpPage1 = uintptr(0)
releasePageOne(tls, pPage1)
}
}
func newDatabase(tls *libc.TLS, pBt uintptr) int32 {
var pP1 uintptr
var data uintptr
var rc int32
if (*BtShared)(unsafe.Pointer(pBt)).FnPage > U32(0) {
return SQLITE_OK
}
pP1 = (*BtShared)(unsafe.Pointer(pBt)).FpPage1
data = (*MemPage)(unsafe.Pointer(pP1)).FaData
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(pP1)).FpDbPage)
if rc != 0 {
return rc
}
libc.X__builtin___memcpy_chk(tls, data, uintptr(unsafe.Pointer(&zMagicHeader)), uint64(unsafe.Sizeof(zMagicHeader)), libc.X__builtin_object_size(tls, data, 0))
*(*uint8)(unsafe.Pointer(data + 16)) = U8((*BtShared)(unsafe.Pointer(pBt)).FpageSize >> 8 & U32(0xff))
*(*uint8)(unsafe.Pointer(data + 17)) = U8((*BtShared)(unsafe.Pointer(pBt)).FpageSize >> 16 & U32(0xff))
*(*uint8)(unsafe.Pointer(data + 18)) = uint8(1)
*(*uint8)(unsafe.Pointer(data + 19)) = uint8(1)
*(*uint8)(unsafe.Pointer(data + 20)) = U8((*BtShared)(unsafe.Pointer(pBt)).FpageSize - (*BtShared)(unsafe.Pointer(pBt)).FusableSize)
*(*uint8)(unsafe.Pointer(data + 21)) = uint8(64)
*(*uint8)(unsafe.Pointer(data + 22)) = uint8(32)
*(*uint8)(unsafe.Pointer(data + 23)) = uint8(32)
libc.X__builtin___memset_chk(tls, data+24, 0, uint64(100-24), libc.X__builtin_object_size(tls, data+24, 0))
zeroPage(tls, pP1, PTF_INTKEY|PTF_LEAF|PTF_LEAFDATA)
*(*U16)(unsafe.Pointer(pBt + 40)) |= U16(BTS_PAGESIZE_FIXED)
Xsqlite3Put4byte(tls, data+52, uint32((*BtShared)(unsafe.Pointer(pBt)).FautoVacuum))
Xsqlite3Put4byte(tls, data+64, uint32((*BtShared)(unsafe.Pointer(pBt)).FincrVacuum))
(*BtShared)(unsafe.Pointer(pBt)).FnPage = U32(1)
*(*uint8)(unsafe.Pointer(data + 31)) = uint8(1)
return SQLITE_OK
}
// Initialize the first page of the database file (creating a database
// consisting of a single page and no schema objects). Return SQLITE_OK
// if successful, or an SQLite error code otherwise.
func Xsqlite3BtreeNewDb(tls *libc.TLS, p uintptr) int32 {
var rc int32
Xsqlite3BtreeEnter(tls, p)
(*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FnPage = U32(0)
rc = newDatabase(tls, (*Btree)(unsafe.Pointer(p)).FpBt)
Xsqlite3BtreeLeave(tls, p)
return rc
}
// Attempt to start a new transaction. A write-transaction
// is started if the second argument is nonzero, otherwise a read-
// transaction. If the second argument is 2 or more and exclusive
// transaction is started, meaning that no other process is allowed
// to access the database. A preexisting transaction may not be
// upgraded to exclusive by calling this routine a second time - the
// exclusivity flag only works for a new transaction.
//
// A write-transaction must be started before attempting any
// changes to the database. None of the following routines
// will work unless a transaction is started first:
//
// sqlite3BtreeCreateTable()
// sqlite3BtreeCreateIndex()
// sqlite3BtreeClearTable()
// sqlite3BtreeDropTable()
// sqlite3BtreeInsert()
// sqlite3BtreeDelete()
// sqlite3BtreeUpdateMeta()
//
// If an initial attempt to acquire the lock fails because of lock contention
// and the database was previously unlocked, then invoke the busy handler
// if there is one. But if there was previously a read-lock, do not
// invoke the busy handler - just return SQLITE_BUSY. SQLITE_BUSY is
// returned when there is already a read-lock in order to avoid a deadlock.
//
// Suppose there are two processes A and B. A has a read lock and B has
// a reserved lock. B tries to promote to exclusive but is blocked because
// of A's read lock. A tries to promote to reserved but is blocked by B.
// One or the other of the two processes must give way or there can be
// no progress. By returning SQLITE_BUSY and not invoking the busy callback
// when A already has a read lock, we encourage A to give up and let B
// proceed.
func Xsqlite3BtreeBeginTrans(tls *libc.TLS, p uintptr, wrflag int32, pSchemaVersion uintptr) int32 {
var pBt uintptr
var pPager uintptr
var rc int32
var pIter uintptr
var pBlock uintptr
var pPage1 uintptr
pBt = (*Btree)(unsafe.Pointer(p)).FpBt
pPager = (*BtShared)(unsafe.Pointer(pBt)).FpPager
rc = SQLITE_OK
Xsqlite3BtreeEnter(tls, p)
if !(int32((*Btree)(unsafe.Pointer(p)).FinTrans) == TRANS_WRITE || int32((*Btree)(unsafe.Pointer(p)).FinTrans) == TRANS_READ && !(wrflag != 0)) {
goto __1
}
goto trans_begun
__1:
;
if !((*Sqlite3)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).Fdb)).Fflags&uint64(SQLITE_ResetDatabase) != 0 &&
int32(Xsqlite3PagerIsreadonly(tls, pPager)) == 0) {
goto __2
}
*(*U16)(unsafe.Pointer(pBt + 40)) &= libc.Uint16FromInt32(libc.CplInt32(BTS_READ_ONLY))
__2:
;
if !(int32((*BtShared)(unsafe.Pointer(pBt)).FbtsFlags)&BTS_READ_ONLY != 0 && wrflag != 0) {
goto __3
}
rc = SQLITE_READONLY
goto trans_begun
__3:
;
pBlock = uintptr(0)
if !(wrflag != 0 && int32((*BtShared)(unsafe.Pointer(pBt)).FinTransaction) == TRANS_WRITE ||
int32((*BtShared)(unsafe.Pointer(pBt)).FbtsFlags)&BTS_PENDING != 0) {
goto __4
}
pBlock = (*Btree)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpWriter)).Fdb
goto __5
__4:
if !(wrflag > 1) {
goto __6
}
pIter = (*BtShared)(unsafe.Pointer(pBt)).FpLock
__7:
if !(pIter != 0) {
goto __9
}
if !((*BtLock)(unsafe.Pointer(pIter)).FpBtree != p) {
goto __10
}
pBlock = (*Btree)(unsafe.Pointer((*BtLock)(unsafe.Pointer(pIter)).FpBtree)).Fdb
goto __9
__10:
;
goto __8
__8:
pIter = (*BtLock)(unsafe.Pointer(pIter)).FpNext
goto __7
goto __9
__9:
;
__6:
;
__5:
;
if !(pBlock != 0) {
goto __11
}
Xsqlite3ConnectionBlocked(tls, (*Btree)(unsafe.Pointer(p)).Fdb, pBlock)
rc = SQLITE_LOCKED | int32(1)<<8
goto trans_begun
__11:
;
rc = querySharedCacheTableLock(tls, p, uint32(SCHEMA_ROOT), uint8(READ_LOCK))
if !(SQLITE_OK != rc) {
goto __12
}
goto trans_begun
__12:
;
*(*U16)(unsafe.Pointer(pBt + 40)) &= libc.Uint16FromInt32(libc.CplInt32(BTS_INITIALLY_EMPTY))
if !((*BtShared)(unsafe.Pointer(pBt)).FnPage == U32(0)) {
goto __13
}
*(*U16)(unsafe.Pointer(pBt + 40)) |= U16(BTS_INITIALLY_EMPTY)
__13:
;
__14:
;
__17:
if !((*BtShared)(unsafe.Pointer(pBt)).FpPage1 == uintptr(0) && SQLITE_OK == libc.AssignInt32(&rc, lockBtree(tls, pBt))) {
goto __18
}
goto __17
__18:
;
if !(rc == SQLITE_OK && wrflag != 0) {
goto __19
}
if !(int32((*BtShared)(unsafe.Pointer(pBt)).FbtsFlags)&BTS_READ_ONLY != 0) {
goto __20
}
rc = SQLITE_READONLY
goto __21
__20:
rc = Xsqlite3PagerBegin(tls, pPager, libc.Bool32(wrflag > 1), Xsqlite3TempInMemory(tls, (*Btree)(unsafe.Pointer(p)).Fdb))
if !(rc == SQLITE_OK) {
goto __22
}
rc = newDatabase(tls, pBt)
goto __23
__22:
if !(rc == SQLITE_BUSY|int32(2)<<8 && int32((*BtShared)(unsafe.Pointer(pBt)).FinTransaction) == TRANS_NONE) {
goto __24
}
rc = SQLITE_BUSY
__24:
;
__23:
;
__21:
;
__19:
;
if !(rc != SQLITE_OK) {
goto __25
}
unlockBtreeIfUnused(tls, pBt)
__25:
;
goto __15
__15:
if rc&0xFF == SQLITE_BUSY && int32((*BtShared)(unsafe.Pointer(pBt)).FinTransaction) == TRANS_NONE && btreeInvokeBusyHandler(tls, pBt) != 0 {
goto __14
}
goto __16
__16:
;
if !(rc == SQLITE_OK) {
goto __26
}
if !(int32((*Btree)(unsafe.Pointer(p)).FinTrans) == TRANS_NONE) {
goto __27
}
(*BtShared)(unsafe.Pointer(pBt)).FnTransaction++
if !((*Btree)(unsafe.Pointer(p)).Fsharable != 0) {
goto __28
}
(*Btree)(unsafe.Pointer(p)).Flock.FeLock = U8(READ_LOCK)
(*Btree)(unsafe.Pointer(p)).Flock.FpNext = (*BtShared)(unsafe.Pointer(pBt)).FpLock
(*BtShared)(unsafe.Pointer(pBt)).FpLock = p + 48
__28:
;
__27:
;
(*Btree)(unsafe.Pointer(p)).FinTrans = func() uint8 {
if wrflag != 0 {
return uint8(TRANS_WRITE)
}
return uint8(TRANS_READ)
}()
if !(int32((*Btree)(unsafe.Pointer(p)).FinTrans) > int32((*BtShared)(unsafe.Pointer(pBt)).FinTransaction)) {
goto __29
}
(*BtShared)(unsafe.Pointer(pBt)).FinTransaction = (*Btree)(unsafe.Pointer(p)).FinTrans
__29:
;
if !(wrflag != 0) {
goto __30
}
pPage1 = (*BtShared)(unsafe.Pointer(pBt)).FpPage1
(*BtShared)(unsafe.Pointer(pBt)).FpWriter = p
*(*U16)(unsafe.Pointer(pBt + 40)) &= libc.Uint16FromInt32(libc.CplInt32(BTS_EXCLUSIVE))
if !(wrflag > 1) {
goto __31
}
*(*U16)(unsafe.Pointer(pBt + 40)) |= U16(BTS_EXCLUSIVE)
__31:
;
if !((*BtShared)(unsafe.Pointer(pBt)).FnPage != Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+28)) {
goto __32
}
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(pPage1)).FpDbPage)
if !(rc == SQLITE_OK) {
goto __33
}
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+28, (*BtShared)(unsafe.Pointer(pBt)).FnPage)
__33:
;
__32:
;
__30:
;
__26:
;
trans_begun:
if !(rc == SQLITE_OK) {
goto __34
}
if !(pSchemaVersion != 0) {
goto __35
}
*(*int32)(unsafe.Pointer(pSchemaVersion)) = int32(Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData+40))
__35:
;
if !(wrflag != 0) {
goto __36
}
rc = Xsqlite3PagerOpenSavepoint(tls, pPager, (*Sqlite3)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).Fdb)).FnSavepoint)
__36:
;
__34:
;
Xsqlite3BtreeLeave(tls, p)
return rc
}
func setChildPtrmaps(tls *libc.TLS, pPage uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var i int32
var nCell int32
var pBt uintptr = (*MemPage)(unsafe.Pointer(pPage)).FpBt
var pgno Pgno = (*MemPage)(unsafe.Pointer(pPage)).Fpgno
if (*MemPage)(unsafe.Pointer(pPage)).FisInit != 0 {
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
} else {
*(*int32)(unsafe.Pointer(bp)) = btreeInitPage(tls, pPage)
}
if *(*int32)(unsafe.Pointer(bp)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp))
}
nCell = int32((*MemPage)(unsafe.Pointer(pPage)).FnCell)
for i = 0; i < nCell; i++ {
var pCell uintptr = (*MemPage)(unsafe.Pointer(pPage)).FaData + uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*i))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*i) + 1)))))
ptrmapPutOvflPtr(tls, pPage, pPage, pCell, bp)
if !(int32((*MemPage)(unsafe.Pointer(pPage)).Fleaf) != 0) {
var childPgno Pgno = Xsqlite3Get4byte(tls, pCell)
ptrmapPut(tls, pBt, childPgno, uint8(PTRMAP_BTREE), pgno, bp)
}
}
if !(int32((*MemPage)(unsafe.Pointer(pPage)).Fleaf) != 0) {
var childPgno Pgno = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)+8))
ptrmapPut(tls, pBt, childPgno, uint8(PTRMAP_BTREE), pgno, bp)
}
return *(*int32)(unsafe.Pointer(bp))
}
func modifyPagePointer(tls *libc.TLS, pPage uintptr, iFrom Pgno, iTo Pgno, eType U8) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
if int32(eType) == PTRMAP_OVERFLOW2 {
if Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData) != iFrom {
return Xsqlite3CorruptError(tls, 72143)
}
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData, iTo)
} else {
var i int32
var nCell int32
var rc int32
if (*MemPage)(unsafe.Pointer(pPage)).FisInit != 0 {
rc = SQLITE_OK
} else {
rc = btreeInitPage(tls, pPage)
}
if rc != 0 {
return rc
}
nCell = int32((*MemPage)(unsafe.Pointer(pPage)).FnCell)
for i = 0; i < nCell; i++ {
var pCell uintptr = (*MemPage)(unsafe.Pointer(pPage)).FaData + uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*i))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*i) + 1)))))
if int32(eType) == PTRMAP_OVERFLOW1 {
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pPage)).FxParseCell})).f(tls, pPage, pCell, bp)
if U32((*CellInfo)(unsafe.Pointer(bp)).FnLocal) < (*CellInfo)(unsafe.Pointer(bp)).FnPayload {
if pCell+uintptr((*CellInfo)(unsafe.Pointer(bp)).FnSize) > (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize) {
return Xsqlite3CorruptError(tls, 72162)
}
if iFrom == Xsqlite3Get4byte(tls, pCell+uintptr((*CellInfo)(unsafe.Pointer(bp)).FnSize)-uintptr(4)) {
Xsqlite3Put4byte(tls, pCell+uintptr((*CellInfo)(unsafe.Pointer(bp)).FnSize)-uintptr(4), iTo)
break
}
}
} else {
if pCell+uintptr(4) > (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize) {
return Xsqlite3CorruptError(tls, 72171)
}
if Xsqlite3Get4byte(tls, pCell) == iFrom {
Xsqlite3Put4byte(tls, pCell, iTo)
break
}
}
}
if i == nCell {
if int32(eType) != PTRMAP_BTREE || Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)+8)) != iFrom {
return Xsqlite3CorruptError(tls, 72183)
}
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)+8), iTo)
}
}
return SQLITE_OK
}
func relocatePage(tls *libc.TLS, pBt uintptr, pDbPage uintptr, eType U8, iPtrPage Pgno, iFreePage Pgno, isCommit int32) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var iDbPage Pgno = (*MemPage)(unsafe.Pointer(pDbPage)).Fpgno
var pPager uintptr = (*BtShared)(unsafe.Pointer(pBt)).FpPager
if iDbPage < Pgno(3) {
return Xsqlite3CorruptError(tls, 72218)
}
*(*int32)(unsafe.Pointer(bp)) = Xsqlite3PagerMovepage(tls, pPager, (*MemPage)(unsafe.Pointer(pDbPage)).FpDbPage, iFreePage, isCommit)
if *(*int32)(unsafe.Pointer(bp)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp))
}
(*MemPage)(unsafe.Pointer(pDbPage)).Fpgno = iFreePage
if int32(eType) == PTRMAP_BTREE || int32(eType) == PTRMAP_ROOTPAGE {
*(*int32)(unsafe.Pointer(bp)) = setChildPtrmaps(tls, pDbPage)
if *(*int32)(unsafe.Pointer(bp)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp))
}
} else {
var nextOvfl Pgno = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pDbPage)).FaData)
if nextOvfl != Pgno(0) {
ptrmapPut(tls, pBt, nextOvfl, uint8(PTRMAP_OVERFLOW2), iFreePage, bp)
if *(*int32)(unsafe.Pointer(bp)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp))
}
}
}
if int32(eType) != PTRMAP_ROOTPAGE {
*(*int32)(unsafe.Pointer(bp)) = btreeGetPage(tls, pBt, iPtrPage, bp+8, 0)
if *(*int32)(unsafe.Pointer(bp)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp))
}
*(*int32)(unsafe.Pointer(bp)) = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FpDbPage)
if *(*int32)(unsafe.Pointer(bp)) != SQLITE_OK {
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
return *(*int32)(unsafe.Pointer(bp))
}
*(*int32)(unsafe.Pointer(bp)) = modifyPagePointer(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), iDbPage, iFreePage, eType)
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
ptrmapPut(tls, pBt, iFreePage, eType, iPtrPage, bp)
}
}
return *(*int32)(unsafe.Pointer(bp))
}
func incrVacuumStep(tls *libc.TLS, pBt uintptr, nFin Pgno, iLastPg Pgno, bCommit int32) int32 {
bp := tls.Alloc(44)
defer tls.Free(44)
var nFreeList Pgno
var rc int32
if !(ptrmapPageno(tls, pBt, iLastPg) == iLastPg) && iLastPg != U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize+U32(1) {
nFreeList = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData+36)
if nFreeList == Pgno(0) {
return SQLITE_DONE
}
rc = ptrmapGet(tls, pBt, iLastPg, bp, bp+4)
if rc != SQLITE_OK {
return rc
}
if int32(*(*U8)(unsafe.Pointer(bp))) == PTRMAP_ROOTPAGE {
return Xsqlite3CorruptError(tls, 72316)
}
if int32(*(*U8)(unsafe.Pointer(bp))) == PTRMAP_FREEPAGE {
if bCommit == 0 {
rc = allocateBtreePage(tls, pBt, bp+8, bp+16, iLastPg, uint8(BTALLOC_EXACT))
if rc != SQLITE_OK {
return rc
}
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
} else {
var eMode U8 = U8(BTALLOC_ANY)
var iNear Pgno = Pgno(0)
rc = btreeGetPage(tls, pBt, iLastPg, bp+24, 0)
if rc != SQLITE_OK {
return rc
}
if bCommit == 0 {
eMode = U8(BTALLOC_LE)
iNear = nFin
}
for __ccgo := true; __ccgo; __ccgo = bCommit != 0 && *(*Pgno)(unsafe.Pointer(bp + 40)) > nFin {
var dbSize Pgno = btreePagecount(tls, pBt)
rc = allocateBtreePage(tls, pBt, bp+32, bp+40, iNear, eMode)
if rc != SQLITE_OK {
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
return rc
}
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 32)))
if *(*Pgno)(unsafe.Pointer(bp + 40)) > dbSize {
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
return Xsqlite3CorruptError(tls, 72368)
}
}
rc = relocatePage(tls, pBt, *(*uintptr)(unsafe.Pointer(bp + 24)), *(*U8)(unsafe.Pointer(bp)), *(*Pgno)(unsafe.Pointer(bp + 4)), *(*Pgno)(unsafe.Pointer(bp + 40)), bCommit)
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
if rc != SQLITE_OK {
return rc
}
}
}
if bCommit == 0 {
for __ccgo1 := true; __ccgo1; __ccgo1 = iLastPg == U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize+U32(1) || ptrmapPageno(tls, pBt, iLastPg) == iLastPg {
iLastPg--
}
(*BtShared)(unsafe.Pointer(pBt)).FbDoTruncate = U8(1)
(*BtShared)(unsafe.Pointer(pBt)).FnPage = iLastPg
}
return SQLITE_OK
}
func finalDbSize(tls *libc.TLS, pBt uintptr, nOrig Pgno, nFree Pgno) Pgno {
var nEntry int32
var nPtrmap Pgno
var nFin Pgno
nEntry = int32((*BtShared)(unsafe.Pointer(pBt)).FusableSize / U32(5))
nPtrmap = (nFree - nOrig + ptrmapPageno(tls, pBt, nOrig) + Pgno(nEntry)) / Pgno(nEntry)
nFin = nOrig - nFree - nPtrmap
if nOrig > U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize+U32(1) && nFin < U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize+U32(1) {
nFin--
}
for ptrmapPageno(tls, pBt, nFin) == nFin || nFin == U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize+U32(1) {
nFin--
}
return nFin
}
// A write-transaction must be opened before calling this function.
// It performs a single unit of work towards an incremental vacuum.
//
// If the incremental vacuum is finished after this function has run,
// SQLITE_DONE is returned. If it is not finished, but no error occurred,
// SQLITE_OK is returned. Otherwise an SQLite error code.
func Xsqlite3BtreeIncrVacuum(tls *libc.TLS, p uintptr) int32 {
var rc int32
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3BtreeEnter(tls, p)
if !(int32((*BtShared)(unsafe.Pointer(pBt)).FautoVacuum) != 0) {
rc = SQLITE_DONE
} else {
var nOrig Pgno = btreePagecount(tls, pBt)
var nFree Pgno = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData+36)
var nFin Pgno = finalDbSize(tls, pBt, nOrig, nFree)
if nOrig < nFin || nFree >= nOrig {
rc = Xsqlite3CorruptError(tls, 72436)
} else if nFree > Pgno(0) {
rc = saveAllCursors(tls, pBt, uint32(0), uintptr(0))
if rc == SQLITE_OK {
invalidateAllOverflowCache(tls, pBt)
rc = incrVacuumStep(tls, pBt, nFin, nOrig, 0)
}
if rc == SQLITE_OK {
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FpDbPage)
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData+28, (*BtShared)(unsafe.Pointer(pBt)).FnPage)
}
} else {
rc = SQLITE_DONE
}
}
Xsqlite3BtreeLeave(tls, p)
return rc
}
func autoVacuumCommit(tls *libc.TLS, p uintptr) int32 {
var rc int32 = SQLITE_OK
var pPager uintptr
var pBt uintptr
var db uintptr
pBt = (*Btree)(unsafe.Pointer(p)).FpBt
pPager = (*BtShared)(unsafe.Pointer(pBt)).FpPager
invalidateAllOverflowCache(tls, pBt)
if !(int32((*BtShared)(unsafe.Pointer(pBt)).FincrVacuum) != 0) {
var nFin Pgno
var nFree Pgno
var nVac Pgno
var iFree Pgno
var nOrig Pgno
nOrig = btreePagecount(tls, pBt)
if ptrmapPageno(tls, pBt, nOrig) == nOrig || nOrig == U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize+U32(1) {
return Xsqlite3CorruptError(tls, 72487)
}
nFree = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData+36)
db = (*Btree)(unsafe.Pointer(p)).Fdb
if (*Sqlite3)(unsafe.Pointer(db)).FxAutovacPages != 0 {
var iDb int32
for iDb = 0; iDb < (*Sqlite3)(unsafe.Pointer(db)).FnDb; iDb++ {
if (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpBt == p {
break
}
}
nVac = (*struct {
f func(*libc.TLS, uintptr, uintptr, U32, U32, U32) uint32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxAutovacPages})).f(tls,
(*Sqlite3)(unsafe.Pointer(db)).FpAutovacPagesArg,
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName,
nOrig,
nFree,
(*BtShared)(unsafe.Pointer(pBt)).FpageSize)
if nVac > nFree {
nVac = nFree
}
if nVac == Pgno(0) {
return SQLITE_OK
}
} else {
nVac = nFree
}
nFin = finalDbSize(tls, pBt, nOrig, nVac)
if nFin > nOrig {
return Xsqlite3CorruptError(tls, 72514)
}
if nFin < nOrig {
rc = saveAllCursors(tls, pBt, uint32(0), uintptr(0))
}
for iFree = nOrig; iFree > nFin && rc == SQLITE_OK; iFree-- {
rc = incrVacuumStep(tls, pBt, nFin, iFree, libc.Bool32(nVac == nFree))
}
if (rc == SQLITE_DONE || rc == SQLITE_OK) && nFree > Pgno(0) {
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FpDbPage)
if nVac == nFree {
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData+32, uint32(0))
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData+36, uint32(0))
}
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData+28, nFin)
(*BtShared)(unsafe.Pointer(pBt)).FbDoTruncate = U8(1)
(*BtShared)(unsafe.Pointer(pBt)).FnPage = nFin
}
if rc != SQLITE_OK {
Xsqlite3PagerRollback(tls, pPager)
}
}
return rc
}
// This routine does the first phase of a two-phase commit. This routine
// causes a rollback journal to be created (if it does not already exist)
// and populated with enough information so that if a power loss occurs
// the database can be restored to its original state by playing back
// the journal. Then the contents of the journal are flushed out to
// the disk. After the journal is safely on oxide, the changes to the
// database are written into the database file and flushed to oxide.
// At the end of this call, the rollback journal still exists on the
// disk and we are still holding all locks, so the transaction has not
// committed. See sqlite3BtreeCommitPhaseTwo() for the second phase of the
// commit process.
//
// This call is a no-op if no write-transaction is currently active on pBt.
//
// Otherwise, sync the database file for the btree pBt. zSuperJrnl points to
// the name of a super-journal file that should be written into the
// individual journal file, or is NULL, indicating no super-journal file
// (single database transaction).
//
// When this is called, the super-journal should already have been
// created, populated with this journal pointer and synced to disk.
//
// Once this is routine has returned, the only thing required to commit
// the write-transaction for this database file is to delete the journal.
func Xsqlite3BtreeCommitPhaseOne(tls *libc.TLS, p uintptr, zSuperJrnl uintptr) int32 {
var rc int32 = SQLITE_OK
if int32((*Btree)(unsafe.Pointer(p)).FinTrans) == TRANS_WRITE {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3BtreeEnter(tls, p)
if (*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0 {
rc = autoVacuumCommit(tls, p)
if rc != SQLITE_OK {
Xsqlite3BtreeLeave(tls, p)
return rc
}
}
if (*BtShared)(unsafe.Pointer(pBt)).FbDoTruncate != 0 {
Xsqlite3PagerTruncateImage(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, (*BtShared)(unsafe.Pointer(pBt)).FnPage)
}
rc = Xsqlite3PagerCommitPhaseOne(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, zSuperJrnl, 0)
Xsqlite3BtreeLeave(tls, p)
}
return rc
}
func btreeEndTransaction(tls *libc.TLS, p uintptr) {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
var db uintptr = (*Btree)(unsafe.Pointer(p)).Fdb
(*BtShared)(unsafe.Pointer(pBt)).FbDoTruncate = U8(0)
if int32((*Btree)(unsafe.Pointer(p)).FinTrans) > TRANS_NONE && (*Sqlite3)(unsafe.Pointer(db)).FnVdbeRead > 1 {
downgradeAllSharedCacheTableLocks(tls, p)
(*Btree)(unsafe.Pointer(p)).FinTrans = U8(TRANS_READ)
} else {
if int32((*Btree)(unsafe.Pointer(p)).FinTrans) != TRANS_NONE {
clearAllSharedCacheTableLocks(tls, p)
(*BtShared)(unsafe.Pointer(pBt)).FnTransaction--
if 0 == (*BtShared)(unsafe.Pointer(pBt)).FnTransaction {
(*BtShared)(unsafe.Pointer(pBt)).FinTransaction = U8(TRANS_NONE)
}
}
(*Btree)(unsafe.Pointer(p)).FinTrans = U8(TRANS_NONE)
unlockBtreeIfUnused(tls, pBt)
}
}
// Commit the transaction currently in progress.
//
// This routine implements the second phase of a 2-phase commit. The
// sqlite3BtreeCommitPhaseOne() routine does the first phase and should
// be invoked prior to calling this routine. The sqlite3BtreeCommitPhaseOne()
// routine did all the work of writing information out to disk and flushing the
// contents so that they are written onto the disk platter. All this
// routine has to do is delete or truncate or zero the header in the
// the rollback journal (which causes the transaction to commit) and
// drop locks.
//
// Normally, if an error occurs while the pager layer is attempting to
// finalize the underlying journal file, this function returns an error and
// the upper layer will attempt a rollback. However, if the second argument
// is non-zero then this b-tree transaction is part of a multi-file
// transaction. In this case, the transaction has already been committed
// (by deleting a super-journal file) and the caller will ignore this
// functions return code. So, even if an error occurs in the pager layer,
// reset the b-tree objects internal state to indicate that the write
// transaction has been closed. This is quite safe, as the pager will have
// transitioned to the error state.
//
// This will release the write lock on the database file. If there
// are no active cursors, it also releases the read lock.
func Xsqlite3BtreeCommitPhaseTwo(tls *libc.TLS, p uintptr, bCleanup int32) int32 {
if int32((*Btree)(unsafe.Pointer(p)).FinTrans) == TRANS_NONE {
return SQLITE_OK
}
Xsqlite3BtreeEnter(tls, p)
if int32((*Btree)(unsafe.Pointer(p)).FinTrans) == TRANS_WRITE {
var rc int32
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
rc = Xsqlite3PagerCommitPhaseTwo(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager)
if rc != SQLITE_OK && bCleanup == 0 {
Xsqlite3BtreeLeave(tls, p)
return rc
}
(*Btree)(unsafe.Pointer(p)).FiBDataVersion--
(*BtShared)(unsafe.Pointer(pBt)).FinTransaction = U8(TRANS_READ)
btreeClearHasContent(tls, pBt)
}
btreeEndTransaction(tls, p)
Xsqlite3BtreeLeave(tls, p)
return SQLITE_OK
}
// Do both phases of a commit.
func Xsqlite3BtreeCommit(tls *libc.TLS, p uintptr) int32 {
var rc int32
Xsqlite3BtreeEnter(tls, p)
rc = Xsqlite3BtreeCommitPhaseOne(tls, p, uintptr(0))
if rc == SQLITE_OK {
rc = Xsqlite3BtreeCommitPhaseTwo(tls, p, 0)
}
Xsqlite3BtreeLeave(tls, p)
return rc
}
// This routine sets the state to CURSOR_FAULT and the error
// code to errCode for every cursor on any BtShared that pBtree
// references. Or if the writeOnly flag is set to 1, then only
// trip write cursors and leave read cursors unchanged.
//
// Every cursor is a candidate to be tripped, including cursors
// that belong to other database connections that happen to be
// sharing the cache with pBtree.
//
// This routine gets called when a rollback occurs. If the writeOnly
// flag is true, then only write-cursors need be tripped - read-only
// cursors save their current positions so that they may continue
// following the rollback. Or, if writeOnly is false, all cursors are
// tripped. In general, writeOnly is false if the transaction being
// rolled back modified the database schema. In this case b-tree root
// pages may be moved or deleted from the database altogether, making
// it unsafe for read cursors to continue.
//
// If the writeOnly flag is true and an error is encountered while
// saving the current position of a read-only cursor, all cursors,
// including all read-cursors are tripped.
//
// SQLITE_OK is returned if successful, or if an error occurs while
// saving a cursor position, an SQLite error code.
func Xsqlite3BtreeTripAllCursors(tls *libc.TLS, pBtree uintptr, errCode int32, writeOnly int32) int32 {
var p uintptr
var rc int32 = SQLITE_OK
if pBtree != 0 {
Xsqlite3BtreeEnter(tls, pBtree)
for p = (*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(pBtree)).FpBt)).FpCursor; p != 0; p = (*BtCursor)(unsafe.Pointer(p)).FpNext {
if writeOnly != 0 && int32((*BtCursor)(unsafe.Pointer(p)).FcurFlags)&BTCF_WriteFlag == 0 {
if int32((*BtCursor)(unsafe.Pointer(p)).FeState) == CURSOR_VALID || int32((*BtCursor)(unsafe.Pointer(p)).FeState) == CURSOR_SKIPNEXT {
rc = saveCursorPosition(tls, p)
if rc != SQLITE_OK {
Xsqlite3BtreeTripAllCursors(tls, pBtree, rc, 0)
break
}
}
} else {
Xsqlite3BtreeClearCursor(tls, p)
(*BtCursor)(unsafe.Pointer(p)).FeState = U8(CURSOR_FAULT)
(*BtCursor)(unsafe.Pointer(p)).FskipNext = errCode
}
btreeReleaseAllCursorPages(tls, p)
}
Xsqlite3BtreeLeave(tls, pBtree)
}
return rc
}
func btreeSetNPage(tls *libc.TLS, pBt uintptr, pPage1 uintptr) {
bp := tls.Alloc(4)
defer tls.Free(4)
*(*int32)(unsafe.Pointer(bp)) = int32(Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+28))
if *(*int32)(unsafe.Pointer(bp)) == 0 {
Xsqlite3PagerPagecount(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, bp)
}
(*BtShared)(unsafe.Pointer(pBt)).FnPage = U32(*(*int32)(unsafe.Pointer(bp)))
}
// Rollback the transaction in progress.
//
// If tripCode is not SQLITE_OK then cursors will be invalidated (tripped).
// Only write cursors are tripped if writeOnly is true but all cursors are
// tripped if writeOnly is false. Any attempt to use
// a tripped cursor will result in an error.
//
// This will release the write lock on the database file. If there
// are no active cursors, it also releases the read lock.
func Xsqlite3BtreeRollback(tls *libc.TLS, p uintptr, tripCode int32, writeOnly int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3BtreeEnter(tls, p)
if tripCode == SQLITE_OK {
rc = libc.AssignInt32(&tripCode, saveAllCursors(tls, pBt, uint32(0), uintptr(0)))
if rc != 0 {
writeOnly = 0
}
} else {
rc = SQLITE_OK
}
if tripCode != 0 {
var rc2 int32 = Xsqlite3BtreeTripAllCursors(tls, p, tripCode, writeOnly)
if rc2 != SQLITE_OK {
rc = rc2
}
}
if int32((*Btree)(unsafe.Pointer(p)).FinTrans) == TRANS_WRITE {
var rc2 int32
rc2 = Xsqlite3PagerRollback(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager)
if rc2 != SQLITE_OK {
rc = rc2
}
if btreeGetPage(tls, pBt, uint32(1), bp, 0) == SQLITE_OK {
btreeSetNPage(tls, pBt, *(*uintptr)(unsafe.Pointer(bp)))
releasePageOne(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
(*BtShared)(unsafe.Pointer(pBt)).FinTransaction = U8(TRANS_READ)
btreeClearHasContent(tls, pBt)
}
btreeEndTransaction(tls, p)
Xsqlite3BtreeLeave(tls, p)
return rc
}
// Start a statement subtransaction. The subtransaction can be rolled
// back independently of the main transaction. You must start a transaction
// before starting a subtransaction. The subtransaction is ended automatically
// if the main transaction commits or rolls back.
//
// Statement subtransactions are used around individual SQL statements
// that are contained within a BEGIN...COMMIT block. If a constraint
// error occurs within the statement, the effect of that one statement
// can be rolled back without having to rollback the entire transaction.
//
// A statement sub-transaction is implemented as an anonymous savepoint. The
// value passed as the second parameter is the total number of savepoints,
// including the new anonymous savepoint, open on the B-Tree. i.e. if there
// are no active savepoints and no other statement-transactions open,
// iStatement is 1. This anonymous savepoint can be released or rolled back
// using the sqlite3BtreeSavepoint() function.
func Xsqlite3BtreeBeginStmt(tls *libc.TLS, p uintptr, iStatement int32) int32 {
var rc int32
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3BtreeEnter(tls, p)
rc = Xsqlite3PagerOpenSavepoint(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, iStatement)
Xsqlite3BtreeLeave(tls, p)
return rc
}
// The second argument to this function, op, is always SAVEPOINT_ROLLBACK
// or SAVEPOINT_RELEASE. This function either releases or rolls back the
// savepoint identified by parameter iSavepoint, depending on the value
// of op.
//
// Normally, iSavepoint is greater than or equal to zero. However, if op is
// SAVEPOINT_ROLLBACK, then iSavepoint may also be -1. In this case the
// contents of the entire transaction are rolled back. This is different
// from a normal transaction rollback, as no locks are released and the
// transaction remains open.
func Xsqlite3BtreeSavepoint(tls *libc.TLS, p uintptr, op int32, iSavepoint int32) int32 {
var rc int32 = SQLITE_OK
if p != 0 && int32((*Btree)(unsafe.Pointer(p)).FinTrans) == TRANS_WRITE {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3BtreeEnter(tls, p)
if op == SAVEPOINT_ROLLBACK {
rc = saveAllCursors(tls, pBt, uint32(0), uintptr(0))
}
if rc == SQLITE_OK {
rc = Xsqlite3PagerSavepoint(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, op, iSavepoint)
}
if rc == SQLITE_OK {
if iSavepoint < 0 && int32((*BtShared)(unsafe.Pointer(pBt)).FbtsFlags)&BTS_INITIALLY_EMPTY != 0 {
(*BtShared)(unsafe.Pointer(pBt)).FnPage = U32(0)
}
rc = newDatabase(tls, pBt)
btreeSetNPage(tls, pBt, (*BtShared)(unsafe.Pointer(pBt)).FpPage1)
}
Xsqlite3BtreeLeave(tls, p)
}
return rc
}
func btreeCursor(tls *libc.TLS, p uintptr, iTable Pgno, wrFlag int32, pKeyInfo uintptr, pCur uintptr) int32 {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
var pX uintptr
if iTable <= Pgno(1) {
if iTable < Pgno(1) {
return Xsqlite3CorruptError(tls, 72978)
} else if btreePagecount(tls, pBt) == Pgno(0) {
iTable = Pgno(0)
}
}
(*BtCursor)(unsafe.Pointer(pCur)).FpgnoRoot = iTable
(*BtCursor)(unsafe.Pointer(pCur)).FiPage = int8(-1)
(*BtCursor)(unsafe.Pointer(pCur)).FpKeyInfo = pKeyInfo
(*BtCursor)(unsafe.Pointer(pCur)).FpBtree = p
(*BtCursor)(unsafe.Pointer(pCur)).FpBt = pBt
(*BtCursor)(unsafe.Pointer(pCur)).FcurFlags = U8(0)
for pX = (*BtShared)(unsafe.Pointer(pBt)).FpCursor; pX != 0; pX = (*BtCursor)(unsafe.Pointer(pX)).FpNext {
if (*BtCursor)(unsafe.Pointer(pX)).FpgnoRoot == iTable {
*(*U8)(unsafe.Pointer(pX + 1)) |= U8(BTCF_Multiple)
(*BtCursor)(unsafe.Pointer(pCur)).FcurFlags = U8(BTCF_Multiple)
}
}
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_INVALID)
(*BtCursor)(unsafe.Pointer(pCur)).FpNext = (*BtShared)(unsafe.Pointer(pBt)).FpCursor
(*BtShared)(unsafe.Pointer(pBt)).FpCursor = pCur
if wrFlag != 0 {
*(*U8)(unsafe.Pointer(pCur + 1)) |= U8(BTCF_WriteFlag)
(*BtCursor)(unsafe.Pointer(pCur)).FcurPagerFlags = U8(0)
if (*BtShared)(unsafe.Pointer(pBt)).FpTmpSpace == uintptr(0) {
return allocateTempSpace(tls, pBt)
}
} else {
(*BtCursor)(unsafe.Pointer(pCur)).FcurPagerFlags = U8(PAGER_GET_READONLY)
}
return SQLITE_OK
}
func btreeCursorWithLock(tls *libc.TLS, p uintptr, iTable Pgno, wrFlag int32, pKeyInfo uintptr, pCur uintptr) int32 {
var rc int32
Xsqlite3BtreeEnter(tls, p)
rc = btreeCursor(tls, p, iTable, wrFlag, pKeyInfo, pCur)
Xsqlite3BtreeLeave(tls, p)
return rc
}
func Xsqlite3BtreeCursor(tls *libc.TLS, p uintptr, iTable Pgno, wrFlag int32, pKeyInfo uintptr, pCur uintptr) int32 {
if (*Btree)(unsafe.Pointer(p)).Fsharable != 0 {
return btreeCursorWithLock(tls, p, iTable, wrFlag, pKeyInfo, pCur)
} else {
return btreeCursor(tls, p, iTable, wrFlag, pKeyInfo, pCur)
}
return int32(0)
}
// Return the size of a BtCursor object in bytes.
//
// This interfaces is needed so that users of cursors can preallocate
// sufficient storage to hold a cursor. The BtCursor object is opaque
// to users so they cannot do the sizeof() themselves - they must call
// this routine.
func Xsqlite3BtreeCursorSize(tls *libc.TLS) int32 {
return int32((uint64(unsafe.Sizeof(BtCursor{})) + uint64(7)) & libc.Uint64FromInt32(libc.CplInt32(7)))
}
// Initialize memory that will be converted into a BtCursor object.
//
// The simple approach here would be to memset() the entire object
// to zero. But it turns out that the apPage[] and aiIdx[] arrays
// do not need to be zeroed and they are large, so we can save a lot
// of run-time by skipping the initialization of those elements.
func Xsqlite3BtreeCursorZero(tls *libc.TLS, p uintptr) {
libc.X__builtin___memset_chk(tls, p, 0, uint64(uintptr(0)+32), libc.X__builtin_object_size(tls, p, 0))
}
// Close a cursor. The read lock on the database file is released
// when the last cursor is closed.
func Xsqlite3BtreeCloseCursor(tls *libc.TLS, pCur uintptr) int32 {
var pBtree uintptr = (*BtCursor)(unsafe.Pointer(pCur)).FpBtree
if pBtree != 0 {
var pBt uintptr = (*BtCursor)(unsafe.Pointer(pCur)).FpBt
Xsqlite3BtreeEnter(tls, pBtree)
if (*BtShared)(unsafe.Pointer(pBt)).FpCursor == pCur {
(*BtShared)(unsafe.Pointer(pBt)).FpCursor = (*BtCursor)(unsafe.Pointer(pCur)).FpNext
} else {
var pPrev uintptr = (*BtShared)(unsafe.Pointer(pBt)).FpCursor
for __ccgo := true; __ccgo; __ccgo = pPrev != 0 {
if (*BtCursor)(unsafe.Pointer(pPrev)).FpNext == pCur {
(*BtCursor)(unsafe.Pointer(pPrev)).FpNext = (*BtCursor)(unsafe.Pointer(pCur)).FpNext
break
}
pPrev = (*BtCursor)(unsafe.Pointer(pPrev)).FpNext
}
}
btreeReleaseAllCursorPages(tls, pCur)
unlockBtreeIfUnused(tls, pBt)
Xsqlite3_free(tls, (*BtCursor)(unsafe.Pointer(pCur)).FaOverflow)
Xsqlite3_free(tls, (*BtCursor)(unsafe.Pointer(pCur)).FpKey)
if int32((*BtShared)(unsafe.Pointer(pBt)).FopenFlags)&BTREE_SINGLE != 0 && (*BtShared)(unsafe.Pointer(pBt)).FpCursor == uintptr(0) {
Xsqlite3BtreeClose(tls, pBtree)
} else {
Xsqlite3BtreeLeave(tls, pBtree)
}
(*BtCursor)(unsafe.Pointer(pCur)).FpBtree = uintptr(0)
}
return SQLITE_OK
}
func getCellInfo(tls *libc.TLS, pCur uintptr) {
if int32((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnSize) == 0 {
*(*U8)(unsafe.Pointer(pCur + 1)) |= U8(BTCF_ValidNKey)
btreeParseCell(tls, (*BtCursor)(unsafe.Pointer(pCur)).FpPage, int32((*BtCursor)(unsafe.Pointer(pCur)).Fix), pCur+48)
} else {
}
}
func Xsqlite3BtreeCursorIsValidNN(tls *libc.TLS, pCur uintptr) int32 {
return libc.Bool32(int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) == CURSOR_VALID)
}
// Return the value of the integer key or "rowid" for a table btree.
// This routine is only valid for a cursor that is pointing into a
// ordinary table btree. If the cursor points to an index btree or
// is invalid, the result of this routine is undefined.
func Xsqlite3BtreeIntegerKey(tls *libc.TLS, pCur uintptr) I64 {
getCellInfo(tls, pCur)
return (*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnKey
}
// Pin or unpin a cursor.
func Xsqlite3BtreeCursorPin(tls *libc.TLS, pCur uintptr) {
*(*U8)(unsafe.Pointer(pCur + 1)) |= U8(BTCF_Pinned)
}
func Xsqlite3BtreeCursorUnpin(tls *libc.TLS, pCur uintptr) {
*(*U8)(unsafe.Pointer(pCur + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_Pinned))
}
// Return the offset into the database file for the start of the
// payload to which the cursor is pointing.
func Xsqlite3BtreeOffset(tls *libc.TLS, pCur uintptr) I64 {
getCellInfo(tls, pCur)
return I64((*BtShared)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpBt)).FpageSize)*(I64((*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).Fpgno)-int64(1)) + (int64((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FpPayload)-int64((*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).FaData))/1
}
// Return the number of bytes of payload for the entry that pCur is
// currently pointing to. For table btrees, this will be the amount
// of data. For index btrees, this will be the size of the key.
//
// The caller must guarantee that the cursor is pointing to a non-NULL
// valid entry. In other words, the calling procedure must guarantee
// that the cursor has Cursor.eState==CURSOR_VALID.
func Xsqlite3BtreePayloadSize(tls *libc.TLS, pCur uintptr) U32 {
getCellInfo(tls, pCur)
return (*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnPayload
}
// Return an upper bound on the size of any record for the table
// that the cursor is pointing into.
//
// This is an optimization. Everything will still work if this
// routine always returns 2147483647 (which is the largest record
// that SQLite can handle) or more. But returning a smaller value might
// prevent large memory allocations when trying to interpret a
// corrupt datrabase.
//
// The current implementation merely returns the size of the underlying
// database file.
func Xsqlite3BtreeMaxRecordSize(tls *libc.TLS, pCur uintptr) Sqlite3_int64 {
return Sqlite3_int64((*BtShared)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpBt)).FpageSize) * Sqlite3_int64((*BtShared)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpBt)).FnPage)
}
func getOverflowPage(tls *libc.TLS, pBt uintptr, ovfl Pgno, ppPage uintptr, pPgnoNext uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var next Pgno = Pgno(0)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
var rc int32 = SQLITE_OK
if (*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0 {
var iGuess Pgno = ovfl + Pgno(1)
for ptrmapPageno(tls, pBt, iGuess) == iGuess || iGuess == U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize+U32(1) {
iGuess++
}
if iGuess <= btreePagecount(tls, pBt) {
rc = ptrmapGet(tls, pBt, iGuess, bp, bp+4)
if rc == SQLITE_OK && int32(*(*U8)(unsafe.Pointer(bp))) == PTRMAP_OVERFLOW2 && *(*Pgno)(unsafe.Pointer(bp + 4)) == ovfl {
next = iGuess
rc = SQLITE_DONE
}
}
}
if rc == SQLITE_OK {
rc = btreeGetPage(tls, pBt, ovfl, bp+8, func() int32 {
if ppPage == uintptr(0) {
return PAGER_GET_READONLY
}
return 0
}())
if rc == SQLITE_OK {
next = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FaData)
}
}
*(*Pgno)(unsafe.Pointer(pPgnoNext)) = next
if ppPage != 0 {
*(*uintptr)(unsafe.Pointer(ppPage)) = *(*uintptr)(unsafe.Pointer(bp + 8))
} else {
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
return func() int32 {
if rc == SQLITE_DONE {
return SQLITE_OK
}
return rc
}()
}
func copyPayload(tls *libc.TLS, pPayload uintptr, pBuf uintptr, nByte int32, eOp int32, pDbPage uintptr) int32 {
if eOp != 0 {
var rc int32 = Xsqlite3PagerWrite(tls, pDbPage)
if rc != SQLITE_OK {
return rc
}
libc.X__builtin___memcpy_chk(tls, pPayload, pBuf, uint64(nByte), libc.X__builtin_object_size(tls, pPayload, 0))
} else {
libc.X__builtin___memcpy_chk(tls, pBuf, pPayload, uint64(nByte), libc.X__builtin_object_size(tls, pBuf, 0))
}
return SQLITE_OK
}
func accessPayload(tls *libc.TLS, pCur uintptr, offset U32, amt U32, pBuf uintptr, eOp int32) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var aPayload uintptr
var rc int32 = SQLITE_OK
var iIdx int32 = 0
var pPage uintptr = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
var pBt uintptr = (*BtCursor)(unsafe.Pointer(pCur)).FpBt
if int32((*BtCursor)(unsafe.Pointer(pCur)).Fix) >= int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) {
return Xsqlite3CorruptError(tls, 73385)
}
getCellInfo(tls, pCur)
aPayload = (*BtCursor)(unsafe.Pointer(pCur)).Finfo.FpPayload
if Uptr((int64(aPayload)-int64((*MemPage)(unsafe.Pointer(pPage)).FaData))/1) > Uptr((*BtShared)(unsafe.Pointer(pBt)).FusableSize-U32((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnLocal)) {
return Xsqlite3CorruptError(tls, 73400)
}
if offset < U32((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnLocal) {
var a int32 = int32(amt)
if U32(a)+offset > U32((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnLocal) {
a = int32(U32((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnLocal) - offset)
}
rc = copyPayload(tls, aPayload+uintptr(offset), pBuf, a, eOp, (*MemPage)(unsafe.Pointer(pPage)).FpDbPage)
offset = U32(0)
pBuf += uintptr(a)
amt = amt - U32(a)
} else {
offset = offset - U32((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnLocal)
}
if rc == SQLITE_OK && amt > U32(0) {
var ovflSize U32 = (*BtShared)(unsafe.Pointer(pBt)).FusableSize - U32(4)
*(*Pgno)(unsafe.Pointer(bp)) = Xsqlite3Get4byte(tls, aPayload+uintptr((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnLocal))
if int32((*BtCursor)(unsafe.Pointer(pCur)).FcurFlags)&BTCF_ValidOvfl == 0 {
var nOvfl int32 = int32(((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnPayload - U32((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnLocal) + ovflSize - U32(1)) / ovflSize)
if (*BtCursor)(unsafe.Pointer(pCur)).FaOverflow == uintptr(0) ||
nOvfl*int32(unsafe.Sizeof(Pgno(0))) > Xsqlite3MallocSize(tls, (*BtCursor)(unsafe.Pointer(pCur)).FaOverflow) {
var aNew uintptr = Xsqlite3Realloc(tls,
(*BtCursor)(unsafe.Pointer(pCur)).FaOverflow, uint64(nOvfl*2)*uint64(unsafe.Sizeof(Pgno(0))))
if aNew == uintptr(0) {
return SQLITE_NOMEM
} else {
(*BtCursor)(unsafe.Pointer(pCur)).FaOverflow = aNew
}
}
libc.X__builtin___memset_chk(tls, (*BtCursor)(unsafe.Pointer(pCur)).FaOverflow, 0, uint64(nOvfl)*uint64(unsafe.Sizeof(Pgno(0))), libc.X__builtin_object_size(tls, (*BtCursor)(unsafe.Pointer(pCur)).FaOverflow, 0))
*(*U8)(unsafe.Pointer(pCur + 1)) |= U8(BTCF_ValidOvfl)
} else {
if *(*Pgno)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FaOverflow + uintptr(offset/ovflSize)*4)) != 0 {
iIdx = int32(offset / ovflSize)
*(*Pgno)(unsafe.Pointer(bp)) = *(*Pgno)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FaOverflow + uintptr(iIdx)*4))
offset = offset % ovflSize
}
}
for *(*Pgno)(unsafe.Pointer(bp)) != 0 {
if *(*Pgno)(unsafe.Pointer(bp)) > (*BtShared)(unsafe.Pointer(pBt)).FnPage {
return Xsqlite3CorruptError(tls, 73462)
}
*(*Pgno)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FaOverflow + uintptr(iIdx)*4)) = *(*Pgno)(unsafe.Pointer(bp))
if offset >= ovflSize {
if *(*Pgno)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FaOverflow + uintptr(iIdx+1)*4)) != 0 {
*(*Pgno)(unsafe.Pointer(bp)) = *(*Pgno)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FaOverflow + uintptr(iIdx+1)*4))
} else {
rc = getOverflowPage(tls, pBt, *(*Pgno)(unsafe.Pointer(bp)), uintptr(0), bp)
}
offset = offset - ovflSize
} else {
var a int32 = int32(amt)
if U32(a)+offset > ovflSize {
a = int32(ovflSize - offset)
}
{
rc = Xsqlite3PagerGet(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, *(*Pgno)(unsafe.Pointer(bp)), bp+8,
func() int32 {
if eOp == 0 {
return PAGER_GET_READONLY
}
return 0
}())
if rc == SQLITE_OK {
aPayload = Xsqlite3PagerGetData(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
*(*Pgno)(unsafe.Pointer(bp)) = Xsqlite3Get4byte(tls, aPayload)
rc = copyPayload(tls, aPayload+uintptr(offset+U32(4)), pBuf, a, eOp, *(*uintptr)(unsafe.Pointer(bp + 8)))
Xsqlite3PagerUnref(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
offset = U32(0)
}
}
amt = amt - U32(a)
if amt == U32(0) {
return rc
}
pBuf += uintptr(a)
}
if rc != 0 {
break
}
iIdx++
}
}
if rc == SQLITE_OK && amt > U32(0) {
return Xsqlite3CorruptError(tls, 73547)
}
return rc
}
// Read part of the payload for the row at which that cursor pCur is currently
// pointing. "amt" bytes will be transferred into pBuf[]. The transfer
// begins at "offset".
//
// pCur can be pointing to either a table or an index b-tree.
// If pointing to a table btree, then the content section is read. If
// pCur is pointing to an index b-tree then the key section is read.
//
// For sqlite3BtreePayload(), the caller must ensure that pCur is pointing
// to a valid row in the table. For sqlite3BtreePayloadChecked(), the
// cursor might be invalid or might need to be restored before being read.
//
// Return SQLITE_OK on success or an error code if anything goes
// wrong. An error is returned if "offset+amt" is larger than
// the available payload.
func Xsqlite3BtreePayload(tls *libc.TLS, pCur uintptr, offset U32, amt U32, pBuf uintptr) int32 {
return accessPayload(tls, pCur, offset, amt, pBuf, 0)
}
func accessPayloadChecked(tls *libc.TLS, pCur uintptr, offset U32, amt U32, pBuf uintptr) int32 {
var rc int32
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) == CURSOR_INVALID {
return SQLITE_ABORT
}
rc = btreeRestoreCursorPosition(tls, pCur)
if rc != 0 {
return rc
}
return accessPayload(tls, pCur, offset, amt, pBuf, 0)
}
func Xsqlite3BtreePayloadChecked(tls *libc.TLS, pCur uintptr, offset U32, amt U32, pBuf uintptr) int32 {
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) == CURSOR_VALID {
return accessPayload(tls, pCur, offset, amt, pBuf, 0)
} else {
return accessPayloadChecked(tls, pCur, offset, amt, pBuf)
}
return int32(0)
}
func fetchPayload(tls *libc.TLS, pCur uintptr, pAmt uintptr) uintptr {
var amt int32
amt = int32((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnLocal)
if amt > int32((int64((*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).FaDataEnd)-int64((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FpPayload))/1) {
amt = func() int32 {
if 0 > int32((int64((*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).FaDataEnd)-int64((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FpPayload))/1) {
return 0
}
return int32((int64((*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).FaDataEnd) - int64((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FpPayload)) / 1)
}()
}
*(*U32)(unsafe.Pointer(pAmt)) = U32(amt)
return (*BtCursor)(unsafe.Pointer(pCur)).Finfo.FpPayload
}
// For the entry that cursor pCur is point to, return as
// many bytes of the key or data as are available on the local
// b-tree page. Write the number of available bytes into *pAmt.
//
// The pointer returned is ephemeral. The key/data may move
// or be destroyed on the next call to any Btree routine,
// including calls from other threads against the same cache.
// Hence, a mutex on the BtShared should be held prior to calling
// this routine.
//
// These routines is used to get quick access to key and data
// in the common case where no overflow pages are used.
func Xsqlite3BtreePayloadFetch(tls *libc.TLS, pCur uintptr, pAmt uintptr) uintptr {
return fetchPayload(tls, pCur, pAmt)
}
func moveToChild(tls *libc.TLS, pCur uintptr, newPgno U32) int32 {
if int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage) >= BTCURSOR_MAX_DEPTH-1 {
return Xsqlite3CorruptError(tls, 73684)
}
(*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnSize = U16(0)
*(*U8)(unsafe.Pointer(pCur + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_ValidNKey | BTCF_ValidOvfl))
*(*U16)(unsafe.Pointer(pCur + 88 + uintptr((*BtCursor)(unsafe.Pointer(pCur)).FiPage)*2)) = (*BtCursor)(unsafe.Pointer(pCur)).Fix
*(*uintptr)(unsafe.Pointer(pCur + 144 + uintptr((*BtCursor)(unsafe.Pointer(pCur)).FiPage)*8)) = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
(*BtCursor)(unsafe.Pointer(pCur)).Fix = U16(0)
(*BtCursor)(unsafe.Pointer(pCur)).FiPage++
return getAndInitPage(tls, (*BtCursor)(unsafe.Pointer(pCur)).FpBt, newPgno, pCur+136, pCur,
int32((*BtCursor)(unsafe.Pointer(pCur)).FcurPagerFlags))
}
func moveToParent(tls *libc.TLS, pCur uintptr) {
var pLeaf uintptr
(*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnSize = U16(0)
*(*U8)(unsafe.Pointer(pCur + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_ValidNKey | BTCF_ValidOvfl))
(*BtCursor)(unsafe.Pointer(pCur)).Fix = *(*U16)(unsafe.Pointer(pCur + 88 + uintptr(int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage)-1)*2))
pLeaf = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
(*BtCursor)(unsafe.Pointer(pCur)).FpPage = *(*uintptr)(unsafe.Pointer(pCur + 144 + uintptr(libc.PreDecInt8(&(*BtCursor)(unsafe.Pointer(pCur)).FiPage, 1))*8))
releasePageNotNull(tls, pLeaf)
}
func moveToRoot(tls *libc.TLS, pCur uintptr) int32 {
var pRoot uintptr
var rc int32
var subpage Pgno
rc = SQLITE_OK
if !(int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage) >= 0) {
goto __1
}
if !((*BtCursor)(unsafe.Pointer(pCur)).FiPage != 0) {
goto __3
}
releasePageNotNull(tls, (*BtCursor)(unsafe.Pointer(pCur)).FpPage)
__4:
if !(libc.PreDecInt8(&(*BtCursor)(unsafe.Pointer(pCur)).FiPage, 1) != 0) {
goto __5
}
releasePageNotNull(tls, *(*uintptr)(unsafe.Pointer(pCur + 144 + uintptr((*BtCursor)(unsafe.Pointer(pCur)).FiPage)*8)))
goto __4
__5:
;
pRoot = libc.AssignPtrUintptr(pCur+136, *(*uintptr)(unsafe.Pointer(pCur + 144)))
goto skip_init
__3:
;
goto __2
__1:
if !((*BtCursor)(unsafe.Pointer(pCur)).FpgnoRoot == Pgno(0)) {
goto __6
}
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_INVALID)
return SQLITE_EMPTY
goto __7
__6:
;
if !(int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) >= CURSOR_REQUIRESEEK) {
goto __8
}
if !(int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) == CURSOR_FAULT) {
goto __9
}
return (*BtCursor)(unsafe.Pointer(pCur)).FskipNext
__9:
;
Xsqlite3BtreeClearCursor(tls, pCur)
__8:
;
rc = getAndInitPage(tls, (*BtCursor)(unsafe.Pointer(pCur)).FpBt, (*BtCursor)(unsafe.Pointer(pCur)).FpgnoRoot, pCur+136,
uintptr(0), int32((*BtCursor)(unsafe.Pointer(pCur)).FcurPagerFlags))
if !(rc != SQLITE_OK) {
goto __10
}
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_INVALID)
return rc
__10:
;
(*BtCursor)(unsafe.Pointer(pCur)).FiPage = int8(0)
(*BtCursor)(unsafe.Pointer(pCur)).FcurIntKey = (*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).FintKey
__7:
;
__2:
;
pRoot = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
if !(int32((*MemPage)(unsafe.Pointer(pRoot)).FisInit) == 0 || libc.Bool32((*BtCursor)(unsafe.Pointer(pCur)).FpKeyInfo == uintptr(0)) != int32((*MemPage)(unsafe.Pointer(pRoot)).FintKey)) {
goto __11
}
return Xsqlite3CorruptError(tls, 73823)
__11:
;
skip_init:
(*BtCursor)(unsafe.Pointer(pCur)).Fix = U16(0)
(*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnSize = U16(0)
*(*U8)(unsafe.Pointer(pCur + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_AtLast | BTCF_ValidNKey | BTCF_ValidOvfl))
if !(int32((*MemPage)(unsafe.Pointer(pRoot)).FnCell) > 0) {
goto __12
}
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_VALID)
goto __13
__12:
if !!(int32((*MemPage)(unsafe.Pointer(pRoot)).Fleaf) != 0) {
goto __14
}
if !((*MemPage)(unsafe.Pointer(pRoot)).Fpgno != Pgno(1)) {
goto __16
}
return Xsqlite3CorruptError(tls, 73835)
__16:
;
subpage = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pRoot)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pRoot)).FhdrOffset)+8))
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_VALID)
rc = moveToChild(tls, pCur, subpage)
goto __15
__14:
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_INVALID)
rc = SQLITE_EMPTY
__15:
;
__13:
;
return rc
}
func moveToLeftmost(tls *libc.TLS, pCur uintptr) int32 {
var pgno Pgno
var rc int32 = SQLITE_OK
var pPage uintptr
for rc == SQLITE_OK && !(int32((*MemPage)(unsafe.Pointer(libc.AssignUintptr(&pPage, (*BtCursor)(unsafe.Pointer(pCur)).FpPage))).Fleaf) != 0) {
pgno = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*int32((*BtCursor)(unsafe.Pointer(pCur)).Fix)))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*int32((*BtCursor)(unsafe.Pointer(pCur)).Fix)) + 1))))))
rc = moveToChild(tls, pCur, pgno)
}
return rc
}
func moveToRightmost(tls *libc.TLS, pCur uintptr) int32 {
var pgno Pgno
var rc int32 = SQLITE_OK
var pPage uintptr = uintptr(0)
for !(int32((*MemPage)(unsafe.Pointer(libc.AssignUintptr(&pPage, (*BtCursor)(unsafe.Pointer(pCur)).FpPage))).Fleaf) != 0) {
pgno = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)+8))
(*BtCursor)(unsafe.Pointer(pCur)).Fix = (*MemPage)(unsafe.Pointer(pPage)).FnCell
rc = moveToChild(tls, pCur, pgno)
if rc != 0 {
return rc
}
}
(*BtCursor)(unsafe.Pointer(pCur)).Fix = U16(int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) - 1)
return SQLITE_OK
}
// Move the cursor to the first entry in the table. Return SQLITE_OK
// on success. Set *pRes to 0 if the cursor actually points to something
// or set *pRes to 1 if the table is empty.
func Xsqlite3BtreeFirst(tls *libc.TLS, pCur uintptr, pRes uintptr) int32 {
var rc int32
rc = moveToRoot(tls, pCur)
if rc == SQLITE_OK {
*(*int32)(unsafe.Pointer(pRes)) = 0
rc = moveToLeftmost(tls, pCur)
} else if rc == SQLITE_EMPTY {
*(*int32)(unsafe.Pointer(pRes)) = 1
rc = SQLITE_OK
}
return rc
}
func btreeLast(tls *libc.TLS, pCur uintptr, pRes uintptr) int32 {
var rc int32 = moveToRoot(tls, pCur)
if rc == SQLITE_OK {
*(*int32)(unsafe.Pointer(pRes)) = 0
rc = moveToRightmost(tls, pCur)
if rc == SQLITE_OK {
*(*U8)(unsafe.Pointer(pCur + 1)) |= U8(BTCF_AtLast)
} else {
*(*U8)(unsafe.Pointer(pCur + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_AtLast))
}
} else if rc == SQLITE_EMPTY {
*(*int32)(unsafe.Pointer(pRes)) = 1
rc = SQLITE_OK
}
return rc
}
func Xsqlite3BtreeLast(tls *libc.TLS, pCur uintptr, pRes uintptr) int32 {
if CURSOR_VALID == int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) && int32((*BtCursor)(unsafe.Pointer(pCur)).FcurFlags)&BTCF_AtLast != 0 {
*(*int32)(unsafe.Pointer(pRes)) = 0
return SQLITE_OK
}
return btreeLast(tls, pCur, pRes)
}
// Move the cursor so that it points to an entry in a table (a.k.a INTKEY)
// table near the key intKey. Return a success code.
//
// If an exact match is not found, then the cursor is always
// left pointing at a leaf page which would hold the entry if it
// were present. The cursor might point to an entry that comes
// before or after the key.
//
// An integer is written into *pRes which is the result of
// comparing the key with the entry to which the cursor is
// pointing. The meaning of the integer written into
// *pRes is as follows:
//
// *pRes<0 The cursor is left pointing at an entry that
// is smaller than intKey or if the table is empty
// and the cursor is therefore left point to nothing.
//
// *pRes==0 The cursor is left pointing at an entry that
// exactly matches intKey.
//
// *pRes>0 The cursor is left pointing at an entry that
// is larger than intKey.
func Xsqlite3BtreeTableMoveto(tls *libc.TLS, pCur uintptr, intKey I64, biasRight int32, pRes uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
var lwr int32
var upr int32
var idx int32
var c int32
var chldPg Pgno
var pPage uintptr
var pCell uintptr
if !(int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) == CURSOR_VALID && int32((*BtCursor)(unsafe.Pointer(pCur)).FcurFlags)&BTCF_ValidNKey != 0) {
goto __1
}
if !((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnKey == intKey) {
goto __2
}
*(*int32)(unsafe.Pointer(pRes)) = 0
return SQLITE_OK
__2:
;
if !((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnKey < intKey) {
goto __3
}
if !(int32((*BtCursor)(unsafe.Pointer(pCur)).FcurFlags)&BTCF_AtLast != 0) {
goto __4
}
*(*int32)(unsafe.Pointer(pRes)) = -1
return SQLITE_OK
__4:
;
if !((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnKey+int64(1) == intKey) {
goto __5
}
*(*int32)(unsafe.Pointer(pRes)) = 0
rc = Xsqlite3BtreeNext(tls, pCur, 0)
if !(rc == SQLITE_OK) {
goto __6
}
getCellInfo(tls, pCur)
if !((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnKey == intKey) {
goto __8
}
return SQLITE_OK
__8:
;
goto __7
__6:
if !(rc != SQLITE_DONE) {
goto __9
}
return rc
__9:
;
__7:
;
__5:
;
__3:
;
__1:
;
rc = moveToRoot(tls, pCur)
if !(rc != 0) {
goto __10
}
if !(rc == SQLITE_EMPTY) {
goto __11
}
*(*int32)(unsafe.Pointer(pRes)) = -1
return SQLITE_OK
__11:
;
return rc
__10:
;
__12:
pPage = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
lwr = 0
upr = int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) - 1
idx = upr >> (1 - biasRight)
__15:
pCell = (*MemPage)(unsafe.Pointer(pPage)).FaDataOfst + uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*idx))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*idx) + 1)))))
if !((*MemPage)(unsafe.Pointer(pPage)).FintKeyLeaf != 0) {
goto __18
}
__19:
if !(0x80 <= int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pCell, 1))))) {
goto __20
}
if !(pCell >= (*MemPage)(unsafe.Pointer(pPage)).FaDataEnd) {
goto __21
}
return Xsqlite3CorruptError(tls, 74077)
__21:
;
goto __19
__20:
;
__18:
;
Xsqlite3GetVarint(tls, pCell, bp)
if !(*(*I64)(unsafe.Pointer(bp)) < intKey) {
goto __22
}
lwr = idx + 1
if !(lwr > upr) {
goto __24
}
c = -1
goto __17
__24:
;
goto __23
__22:
if !(*(*I64)(unsafe.Pointer(bp)) > intKey) {
goto __25
}
upr = idx - 1
if !(lwr > upr) {
goto __27
}
c = +1
goto __17
__27:
;
goto __26
__25:
;
(*BtCursor)(unsafe.Pointer(pCur)).Fix = U16(idx)
if !!(int32((*MemPage)(unsafe.Pointer(pPage)).Fleaf) != 0) {
goto __28
}
lwr = idx
goto moveto_table_next_layer
goto __29
__28:
*(*U8)(unsafe.Pointer(pCur + 1)) |= U8(BTCF_ValidNKey)
(*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnKey = *(*I64)(unsafe.Pointer(bp))
(*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnSize = U16(0)
*(*int32)(unsafe.Pointer(pRes)) = 0
return SQLITE_OK
__29:
;
__26:
;
__23:
;
idx = (lwr + upr) >> 1
goto __16
__16:
goto __15
goto __17
__17:
;
if !((*MemPage)(unsafe.Pointer(pPage)).Fleaf != 0) {
goto __30
}
(*BtCursor)(unsafe.Pointer(pCur)).Fix = U16(idx)
*(*int32)(unsafe.Pointer(pRes)) = c
rc = SQLITE_OK
goto moveto_table_finish
__30:
;
moveto_table_next_layer:
if !(lwr >= int32((*MemPage)(unsafe.Pointer(pPage)).FnCell)) {
goto __31
}
chldPg = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)+8))
goto __32
__31:
chldPg = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*lwr))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*lwr) + 1))))))
__32:
;
(*BtCursor)(unsafe.Pointer(pCur)).Fix = U16(lwr)
rc = moveToChild(tls, pCur, chldPg)
if !(rc != 0) {
goto __33
}
goto __14
__33:
;
goto __13
__13:
goto __12
goto __14
__14:
;
moveto_table_finish:
(*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnSize = U16(0)
return rc
}
func indexCellCompare(tls *libc.TLS, pCur uintptr, idx int32, pIdxKey uintptr, xRecordCompare RecordCompare) int32 {
var pPage uintptr = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
var c int32
var nCell int32
var pCell uintptr = (*MemPage)(unsafe.Pointer(pPage)).FaDataOfst + uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*idx))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*idx) + 1)))))
nCell = int32(*(*U8)(unsafe.Pointer(pCell)))
if nCell <= int32((*MemPage)(unsafe.Pointer(pPage)).Fmax1bytePayload) {
c = (*struct {
f func(*libc.TLS, int32, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xRecordCompare})).f(tls, nCell, pCell+1, pIdxKey)
} else if !(int32(*(*U8)(unsafe.Pointer(pCell + 1)))&0x80 != 0) &&
libc.AssignInt32(&nCell, nCell&0x7f<<7+int32(*(*U8)(unsafe.Pointer(pCell + 1)))) <= int32((*MemPage)(unsafe.Pointer(pPage)).FmaxLocal) {
c = (*struct {
f func(*libc.TLS, int32, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xRecordCompare})).f(tls, nCell, pCell+2, pIdxKey)
} else {
c = 99
}
return c
}
func cursorOnLastPage(tls *libc.TLS, pCur uintptr) int32 {
var i int32
for i = 0; i < int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage); i++ {
var pPage uintptr = *(*uintptr)(unsafe.Pointer(pCur + 144 + uintptr(i)*8))
if int32(*(*U16)(unsafe.Pointer(pCur + 88 + uintptr(i)*2))) < int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) {
return 0
}
}
return 1
}
// Move the cursor so that it points to an entry in an index table
// near the key pIdxKey. Return a success code.
//
// If an exact match is not found, then the cursor is always
// left pointing at a leaf page which would hold the entry if it
// were present. The cursor might point to an entry that comes
// before or after the key.
//
// An integer is written into *pRes which is the result of
// comparing the key with the entry to which the cursor is
// pointing. The meaning of the integer written into
// *pRes is as follows:
//
// *pRes<0 The cursor is left pointing at an entry that
// is smaller than pIdxKey or if the table is empty
// and the cursor is therefore left point to nothing.
//
// *pRes==0 The cursor is left pointing at an entry that
// exactly matches pIdxKey.
//
// *pRes>0 The cursor is left pointing at an entry that
// is larger than pIdxKey.
//
// The pIdxKey->eqSeen field is set to 1 if there
// exists an entry in the table that exactly matches pIdxKey.
func Xsqlite3BtreeIndexMoveto(tls *libc.TLS, pCur uintptr, pIdxKey uintptr, pRes uintptr) int32 {
var rc int32
var xRecordCompare RecordCompare
var c int32
var pCellKey uintptr
var pCellBody uintptr
var nOverrun int32
var nCell int32
var lwr int32
var upr int32
var idx int32
var c1 int32
var chldPg Pgno
var pPage uintptr
var pCell uintptr
xRecordCompare = Xsqlite3VdbeFindCompare(tls, pIdxKey)
(*UnpackedRecord)(unsafe.Pointer(pIdxKey)).FerrCode = U8(0)
if !(int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) == CURSOR_VALID &&
(*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).Fleaf != 0 &&
cursorOnLastPage(tls, pCur) != 0) {
goto __1
}
if !(int32((*BtCursor)(unsafe.Pointer(pCur)).Fix) == int32((*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).FnCell)-1 &&
libc.AssignInt32(&c, indexCellCompare(tls, pCur, int32((*BtCursor)(unsafe.Pointer(pCur)).Fix), pIdxKey, xRecordCompare)) <= 0 &&
int32((*UnpackedRecord)(unsafe.Pointer(pIdxKey)).FerrCode) == SQLITE_OK) {
goto __2
}
*(*int32)(unsafe.Pointer(pRes)) = c
return SQLITE_OK
__2:
;
if !(int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage) > 0 &&
indexCellCompare(tls, pCur, 0, pIdxKey, xRecordCompare) <= 0 &&
int32((*UnpackedRecord)(unsafe.Pointer(pIdxKey)).FerrCode) == SQLITE_OK) {
goto __3
}
*(*U8)(unsafe.Pointer(pCur + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_ValidOvfl))
if !!(int32((*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).FisInit) != 0) {
goto __4
}
return Xsqlite3CorruptError(tls, 74273)
__4:
;
goto bypass_moveto_root
__3:
;
(*UnpackedRecord)(unsafe.Pointer(pIdxKey)).FerrCode = U8(SQLITE_OK)
__1:
;
rc = moveToRoot(tls, pCur)
if !(rc != 0) {
goto __5
}
if !(rc == SQLITE_EMPTY) {
goto __6
}
*(*int32)(unsafe.Pointer(pRes)) = -1
return SQLITE_OK
__6:
;
return rc
__5:
;
bypass_moveto_root:
;
__7:
pPage = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
lwr = 0
upr = int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) - 1
idx = upr >> 1
__10:
pCell = (*MemPage)(unsafe.Pointer(pPage)).FaDataOfst + uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*idx))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*idx) + 1)))))
nCell = int32(*(*U8)(unsafe.Pointer(pCell)))
if !(nCell <= int32((*MemPage)(unsafe.Pointer(pPage)).Fmax1bytePayload)) {
goto __13
}
c1 = (*struct {
f func(*libc.TLS, int32, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xRecordCompare})).f(tls, nCell, pCell+1, pIdxKey)
goto __14
__13:
if !(!(int32(*(*U8)(unsafe.Pointer(pCell + 1)))&0x80 != 0) &&
libc.AssignInt32(&nCell, nCell&0x7f<<7+int32(*(*U8)(unsafe.Pointer(pCell + 1)))) <= int32((*MemPage)(unsafe.Pointer(pPage)).FmaxLocal)) {
goto __15
}
c1 = (*struct {
f func(*libc.TLS, int32, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xRecordCompare})).f(tls, nCell, pCell+2, pIdxKey)
goto __16
__15:
pCellBody = pCell - uintptr((*MemPage)(unsafe.Pointer(pPage)).FchildPtrSize)
nOverrun = 18
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pPage)).FxParseCell})).f(tls, pPage, pCellBody, pCur+48)
nCell = int32((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnKey)
if !(nCell < 2 || U32(nCell)/(*BtShared)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpBt)).FusableSize > (*BtShared)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpBt)).FnPage) {
goto __17
}
rc = Xsqlite3CorruptError(tls, 74360)
goto moveto_index_finish
__17:
;
pCellKey = Xsqlite3Malloc(tls, uint64(nCell+nOverrun))
if !(pCellKey == uintptr(0)) {
goto __18
}
rc = SQLITE_NOMEM
goto moveto_index_finish
__18:
;
(*BtCursor)(unsafe.Pointer(pCur)).Fix = U16(idx)
rc = accessPayload(tls, pCur, uint32(0), uint32(nCell), pCellKey, 0)
libc.X__builtin___memset_chk(tls, pCellKey+uintptr(nCell), 0, uint64(nOverrun), libc.X__builtin_object_size(tls, pCellKey+uintptr(nCell), 0))
*(*U8)(unsafe.Pointer(pCur + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_ValidOvfl))
if !(rc != 0) {
goto __19
}
Xsqlite3_free(tls, pCellKey)
goto moveto_index_finish
__19:
;
c1 = Xsqlite3VdbeRecordCompare(tls, nCell, pCellKey, pIdxKey)
Xsqlite3_free(tls, pCellKey)
__16:
;
__14:
;
if !(c1 < 0) {
goto __20
}
lwr = idx + 1
goto __21
__20:
if !(c1 > 0) {
goto __22
}
upr = idx - 1
goto __23
__22:
;
*(*int32)(unsafe.Pointer(pRes)) = 0
rc = SQLITE_OK
(*BtCursor)(unsafe.Pointer(pCur)).Fix = U16(idx)
if !((*UnpackedRecord)(unsafe.Pointer(pIdxKey)).FerrCode != 0) {
goto __24
}
rc = Xsqlite3CorruptError(tls, 74392)
__24:
;
goto moveto_index_finish
__23:
;
__21:
;
if !(lwr > upr) {
goto __25
}
goto __12
__25:
;
idx = (lwr + upr) >> 1
goto __11
__11:
goto __10
goto __12
__12:
;
if !((*MemPage)(unsafe.Pointer(pPage)).Fleaf != 0) {
goto __26
}
(*BtCursor)(unsafe.Pointer(pCur)).Fix = U16(idx)
*(*int32)(unsafe.Pointer(pRes)) = c1
rc = SQLITE_OK
goto moveto_index_finish
__26:
;
if !(lwr >= int32((*MemPage)(unsafe.Pointer(pPage)).FnCell)) {
goto __27
}
chldPg = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)+8))
goto __28
__27:
chldPg = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*lwr))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*lwr) + 1))))))
__28:
;
(*BtCursor)(unsafe.Pointer(pCur)).Fix = U16(lwr)
rc = moveToChild(tls, pCur, chldPg)
if !(rc != 0) {
goto __29
}
goto __9
__29:
;
goto __8
__8:
goto __7
goto __9
__9:
;
moveto_index_finish:
(*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnSize = U16(0)
return rc
}
// Return TRUE if the cursor is not pointing at an entry of the table.
//
// TRUE will be returned after a call to sqlite3BtreeNext() moves
// past the last entry in the table or sqlite3BtreePrev() moves past
// the first entry. TRUE is also returned if the table is empty.
func Xsqlite3BtreeEof(tls *libc.TLS, pCur uintptr) int32 {
return libc.Bool32(CURSOR_VALID != int32((*BtCursor)(unsafe.Pointer(pCur)).FeState))
}
// Return an estimate for the number of rows in the table that pCur is
// pointing to. Return a negative number if no estimate is currently
// available.
func Xsqlite3BtreeRowCountEst(tls *libc.TLS, pCur uintptr) I64 {
var n I64
var i U8
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) != CURSOR_VALID {
return int64(-1)
}
if int32((*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).Fleaf) == 0 {
return int64(-1)
}
n = I64((*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).FnCell)
for i = U8(0); int32(i) < int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage); i++ {
n = n * I64((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pCur + 144 + uintptr(i)*8)))).FnCell)
}
return n
}
func btreeNext(tls *libc.TLS, pCur uintptr) int32 {
var rc int32
var idx int32
var pPage uintptr
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) != CURSOR_VALID {
rc = func() int32 {
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) >= CURSOR_REQUIRESEEK {
return btreeRestoreCursorPosition(tls, pCur)
}
return SQLITE_OK
}()
if rc != SQLITE_OK {
return rc
}
if CURSOR_INVALID == int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) {
return SQLITE_DONE
}
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) == CURSOR_SKIPNEXT {
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_VALID)
if (*BtCursor)(unsafe.Pointer(pCur)).FskipNext > 0 {
return SQLITE_OK
}
}
}
pPage = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
idx = int32(libc.PreIncUint16(&(*BtCursor)(unsafe.Pointer(pCur)).Fix, 1))
if !(int32((*MemPage)(unsafe.Pointer(pPage)).FisInit) != 0) || Xsqlite3FaultSim(tls, 412) != 0 {
return Xsqlite3CorruptError(tls, 74508)
}
if idx >= int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) {
if !(int32((*MemPage)(unsafe.Pointer(pPage)).Fleaf) != 0) {
rc = moveToChild(tls, pCur, Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)+8)))
if rc != 0 {
return rc
}
return moveToLeftmost(tls, pCur)
}
for __ccgo := true; __ccgo; __ccgo = int32((*BtCursor)(unsafe.Pointer(pCur)).Fix) >= int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) {
if int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage) == 0 {
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_INVALID)
return SQLITE_DONE
}
moveToParent(tls, pCur)
pPage = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
}
if (*MemPage)(unsafe.Pointer(pPage)).FintKey != 0 {
return Xsqlite3BtreeNext(tls, pCur, 0)
} else {
return SQLITE_OK
}
}
if (*MemPage)(unsafe.Pointer(pPage)).Fleaf != 0 {
return SQLITE_OK
} else {
return moveToLeftmost(tls, pCur)
}
return int32(0)
}
func Xsqlite3BtreeNext(tls *libc.TLS, pCur uintptr, flags int32) int32 {
var pPage uintptr
_ = flags
(*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnSize = U16(0)
*(*U8)(unsafe.Pointer(pCur + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_ValidNKey | BTCF_ValidOvfl))
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) != CURSOR_VALID {
return btreeNext(tls, pCur)
}
pPage = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
if int32(libc.PreIncUint16(&(*BtCursor)(unsafe.Pointer(pCur)).Fix, 1)) >= int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) {
(*BtCursor)(unsafe.Pointer(pCur)).Fix--
return btreeNext(tls, pCur)
}
if (*MemPage)(unsafe.Pointer(pPage)).Fleaf != 0 {
return SQLITE_OK
} else {
return moveToLeftmost(tls, pCur)
}
return int32(0)
}
func btreePrevious(tls *libc.TLS, pCur uintptr) int32 {
var rc int32
var pPage uintptr
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) != CURSOR_VALID {
rc = func() int32 {
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) >= CURSOR_REQUIRESEEK {
return btreeRestoreCursorPosition(tls, pCur)
}
return SQLITE_OK
}()
if rc != SQLITE_OK {
return rc
}
if CURSOR_INVALID == int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) {
return SQLITE_DONE
}
if CURSOR_SKIPNEXT == int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) {
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_VALID)
if (*BtCursor)(unsafe.Pointer(pCur)).FskipNext < 0 {
return SQLITE_OK
}
}
}
pPage = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
if !(int32((*MemPage)(unsafe.Pointer(pPage)).Fleaf) != 0) {
var idx int32 = int32((*BtCursor)(unsafe.Pointer(pCur)).Fix)
rc = moveToChild(tls, pCur, Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*idx))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*idx) + 1)))))))
if rc != 0 {
return rc
}
rc = moveToRightmost(tls, pCur)
} else {
for int32((*BtCursor)(unsafe.Pointer(pCur)).Fix) == 0 {
if int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage) == 0 {
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_INVALID)
return SQLITE_DONE
}
moveToParent(tls, pCur)
}
(*BtCursor)(unsafe.Pointer(pCur)).Fix--
pPage = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
if (*MemPage)(unsafe.Pointer(pPage)).FintKey != 0 && !(int32((*MemPage)(unsafe.Pointer(pPage)).Fleaf) != 0) {
rc = Xsqlite3BtreePrevious(tls, pCur, 0)
} else {
rc = SQLITE_OK
}
}
return rc
}
func Xsqlite3BtreePrevious(tls *libc.TLS, pCur uintptr, flags int32) int32 {
_ = flags
*(*U8)(unsafe.Pointer(pCur + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_AtLast | BTCF_ValidOvfl | BTCF_ValidNKey))
(*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnSize = U16(0)
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) != CURSOR_VALID ||
int32((*BtCursor)(unsafe.Pointer(pCur)).Fix) == 0 ||
int32((*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).Fleaf) == 0 {
return btreePrevious(tls, pCur)
}
(*BtCursor)(unsafe.Pointer(pCur)).Fix--
return SQLITE_OK
}
func allocateBtreePage(tls *libc.TLS, pBt uintptr, ppPage uintptr, pPgno uintptr, nearby Pgno, eMode U8) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var pPage1 uintptr
var rc int32
var n U32
var k U32
var pPrevTrunk uintptr
var mxPage Pgno
var iNewTrunk Pgno
var d2 int32
var dist int32
var i U32
var noContent int32
var closest U32
var iPage Pgno
var aData uintptr
var iTrunk Pgno
var searchList U8
var nSearch U32
var bNoContent int32
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
pPrevTrunk = uintptr(0)
pPage1 = (*BtShared)(unsafe.Pointer(pBt)).FpPage1
mxPage = btreePagecount(tls, pBt)
n = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+36)
if !(n >= mxPage) {
goto __1
}
return Xsqlite3CorruptError(tls, 74688)
__1:
;
if !(n > U32(0)) {
goto __2
}
searchList = U8(0)
nSearch = U32(0)
if !(int32(eMode) == BTALLOC_EXACT) {
goto __4
}
if !(nearby <= mxPage) {
goto __6
}
rc = ptrmapGet(tls, pBt, nearby, bp, uintptr(0))
if !(rc != 0) {
goto __7
}
return rc
__7:
;
if !(int32(*(*U8)(unsafe.Pointer(bp))) == PTRMAP_FREEPAGE) {
goto __8
}
searchList = U8(1)
__8:
;
__6:
;
goto __5
__4:
if !(int32(eMode) == BTALLOC_LE) {
goto __9
}
searchList = U8(1)
__9:
;
__5:
;
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(pPage1)).FpDbPage)
if !(rc != 0) {
goto __10
}
return rc
__10:
;
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+36, n-U32(1))
__11:
pPrevTrunk = *(*uintptr)(unsafe.Pointer(bp + 8))
if !(pPrevTrunk != 0) {
goto __14
}
iTrunk = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPrevTrunk)).FaData)
goto __15
__14:
iTrunk = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+32)
__15:
;
if !(iTrunk > mxPage || libc.PostIncUint32(&nSearch, 1) > n) {
goto __16
}
rc = Xsqlite3CorruptError(tls, 74744)
goto __17
__16:
rc = btreeGetUnusedPage(tls, pBt, iTrunk, bp+8, 0)
__17:
;
if !(rc != 0) {
goto __18
}
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
goto end_allocate_page
__18:
;
k = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FaData+4)
if !(k == U32(0) && !(searchList != 0)) {
goto __19
}
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FpDbPage)
if !(rc != 0) {
goto __21
}
goto end_allocate_page
__21:
;
*(*Pgno)(unsafe.Pointer(pPgno)) = iTrunk
libc.X__builtin___memcpy_chk(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+32, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FaData, uint64(4), libc.X__builtin_object_size(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+32, 0))
*(*uintptr)(unsafe.Pointer(ppPage)) = *(*uintptr)(unsafe.Pointer(bp + 8))
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
goto __20
__19:
if !(k > (*BtShared)(unsafe.Pointer(pBt)).FusableSize/U32(4)-U32(2)) {
goto __22
}
rc = Xsqlite3CorruptError(tls, 74773)
goto end_allocate_page
goto __23
__22:
if !(searchList != 0 &&
(nearby == iTrunk || iTrunk < nearby && int32(eMode) == BTALLOC_LE)) {
goto __24
}
*(*Pgno)(unsafe.Pointer(pPgno)) = iTrunk
*(*uintptr)(unsafe.Pointer(ppPage)) = *(*uintptr)(unsafe.Pointer(bp + 8))
searchList = U8(0)
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FpDbPage)
if !(rc != 0) {
goto __26
}
goto end_allocate_page
__26:
;
if !(k == U32(0)) {
goto __27
}
if !!(pPrevTrunk != 0) {
goto __29
}
libc.X__builtin___memcpy_chk(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+32, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FaData, uint64(4), libc.X__builtin_object_size(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+32, 0))
goto __30
__29:
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(pPrevTrunk)).FpDbPage)
if !(rc != SQLITE_OK) {
goto __31
}
goto end_allocate_page
__31:
;
libc.X__builtin___memcpy_chk(tls, (*MemPage)(unsafe.Pointer(pPrevTrunk)).FaData, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FaData, uint64(4), libc.X__builtin_object_size(tls, (*MemPage)(unsafe.Pointer(pPrevTrunk)).FaData, 0))
__30:
;
goto __28
__27:
iNewTrunk = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FaData+8)
if !(iNewTrunk > mxPage) {
goto __32
}
rc = Xsqlite3CorruptError(tls, 74807)
goto end_allocate_page
__32:
;
rc = btreeGetUnusedPage(tls, pBt, iNewTrunk, bp+16, 0)
if !(rc != SQLITE_OK) {
goto __33
}
goto end_allocate_page
__33:
;
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FpDbPage)
if !(rc != SQLITE_OK) {
goto __34
}
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
goto end_allocate_page
__34:
;
libc.X__builtin___memcpy_chk(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FaData, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FaData, uint64(4), libc.X__builtin_object_size(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FaData, 0))
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FaData+4, k-U32(1))
libc.X__builtin___memcpy_chk(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FaData+8, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FaData+12, uint64((k-U32(1))*U32(4)), libc.X__builtin_object_size(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FaData+8, 0))
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
if !!(pPrevTrunk != 0) {
goto __35
}
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+32, iNewTrunk)
goto __36
__35:
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(pPrevTrunk)).FpDbPage)
if !(rc != 0) {
goto __37
}
goto end_allocate_page
__37:
;
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(pPrevTrunk)).FaData, iNewTrunk)
__36:
;
__28:
;
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
goto __25
__24:
if !(k > U32(0)) {
goto __38
}
aData = (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FaData
if !(nearby > Pgno(0)) {
goto __39
}
closest = U32(0)
if !(int32(eMode) == BTALLOC_LE) {
goto __41
}
i = U32(0)
__43:
if !(i < k) {
goto __45
}
iPage = Xsqlite3Get4byte(tls, aData+uintptr(U32(8)+i*U32(4)))
if !(iPage <= nearby) {
goto __46
}
closest = i
goto __45
__46:
;
goto __44
__44:
i++
goto __43
goto __45
__45:
;
goto __42
__41:
dist = Xsqlite3AbsInt32(tls, int32(Xsqlite3Get4byte(tls, aData+8)-nearby))
i = U32(1)
__47:
if !(i < k) {
goto __49
}
d2 = Xsqlite3AbsInt32(tls, int32(Xsqlite3Get4byte(tls, aData+uintptr(U32(8)+i*U32(4)))-nearby))
if !(d2 < dist) {
goto __50
}
closest = i
dist = d2
__50:
;
goto __48
__48:
i++
goto __47
goto __49
__49:
;
__42:
;
goto __40
__39:
closest = U32(0)
__40:
;
iPage = Xsqlite3Get4byte(tls, aData+uintptr(U32(8)+closest*U32(4)))
if !(iPage > mxPage || iPage < Pgno(2)) {
goto __51
}
rc = Xsqlite3CorruptError(tls, 74872)
goto end_allocate_page
__51:
;
if !(!(searchList != 0) ||
(iPage == nearby || iPage < nearby && int32(eMode) == BTALLOC_LE)) {
goto __52
}
*(*Pgno)(unsafe.Pointer(pPgno)) = iPage
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FpDbPage)
if !(rc != 0) {
goto __53
}
goto end_allocate_page
__53:
;
if !(closest < k-U32(1)) {
goto __54
}
libc.X__builtin___memcpy_chk(tls, aData+uintptr(U32(8)+closest*U32(4)), aData+uintptr(U32(4)+k*U32(4)), uint64(4), libc.X__builtin_object_size(tls, aData+uintptr(U32(8)+closest*U32(4)), 0))
__54:
;
Xsqlite3Put4byte(tls, aData+4, k-U32(1))
if !(btreeGetHasContent(tls, pBt, *(*Pgno)(unsafe.Pointer(pPgno))) != 0) {
noContent = PAGER_GET_NOCONTENT
} else {
noContent = 0
}
rc = btreeGetUnusedPage(tls, pBt, *(*Pgno)(unsafe.Pointer(pPgno)), ppPage, noContent)
if !(rc == SQLITE_OK) {
goto __55
}
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ppPage)))).FpDbPage)
if !(rc != SQLITE_OK) {
goto __56
}
releasePage(tls, *(*uintptr)(unsafe.Pointer(ppPage)))
*(*uintptr)(unsafe.Pointer(ppPage)) = uintptr(0)
__56:
;
__55:
;
searchList = U8(0)
__52:
;
__38:
;
__25:
;
__23:
;
__20:
;
releasePage(tls, pPrevTrunk)
pPrevTrunk = uintptr(0)
goto __12
__12:
if searchList != 0 {
goto __11
}
goto __13
__13:
;
goto __3
__2:
if 0 == int32((*BtShared)(unsafe.Pointer(pBt)).FbDoTruncate) {
bNoContent = PAGER_GET_NOCONTENT
} else {
bNoContent = 0
}
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FpDbPage)
if !(rc != 0) {
goto __57
}
return rc
__57:
;
(*BtShared)(unsafe.Pointer(pBt)).FnPage++
if !((*BtShared)(unsafe.Pointer(pBt)).FnPage == U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize+U32(1)) {
goto __58
}
(*BtShared)(unsafe.Pointer(pBt)).FnPage++
__58:
;
if !((*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0 && ptrmapPageno(tls, pBt, (*BtShared)(unsafe.Pointer(pBt)).FnPage) == (*BtShared)(unsafe.Pointer(pBt)).FnPage) {
goto __59
}
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
rc = btreeGetUnusedPage(tls, pBt, (*BtShared)(unsafe.Pointer(pBt)).FnPage, bp+24, bNoContent)
if !(rc == SQLITE_OK) {
goto __60
}
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 24)))).FpDbPage)
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
__60:
;
if !(rc != 0) {
goto __61
}
return rc
__61:
;
(*BtShared)(unsafe.Pointer(pBt)).FnPage++
if !((*BtShared)(unsafe.Pointer(pBt)).FnPage == U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize+U32(1)) {
goto __62
}
(*BtShared)(unsafe.Pointer(pBt)).FnPage++
__62:
;
__59:
;
Xsqlite3Put4byte(tls, uintptr(28)+(*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData, (*BtShared)(unsafe.Pointer(pBt)).FnPage)
*(*Pgno)(unsafe.Pointer(pPgno)) = (*BtShared)(unsafe.Pointer(pBt)).FnPage
rc = btreeGetUnusedPage(tls, pBt, *(*Pgno)(unsafe.Pointer(pPgno)), ppPage, bNoContent)
if !(rc != 0) {
goto __63
}
return rc
__63:
;
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ppPage)))).FpDbPage)
if !(rc != SQLITE_OK) {
goto __64
}
releasePage(tls, *(*uintptr)(unsafe.Pointer(ppPage)))
*(*uintptr)(unsafe.Pointer(ppPage)) = uintptr(0)
__64:
;
__3:
;
end_allocate_page:
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
releasePage(tls, pPrevTrunk)
return rc
}
func freePage2(tls *libc.TLS, pBt uintptr, pMemPage uintptr, iPage Pgno) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var iTrunk Pgno
var pPage1 uintptr
var nFree U32
var nLeaf U32
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
iTrunk = Pgno(0)
pPage1 = (*BtShared)(unsafe.Pointer(pBt)).FpPage1
if !(iPage < Pgno(2) || iPage > (*BtShared)(unsafe.Pointer(pBt)).FnPage) {
goto __1
}
return Xsqlite3CorruptError(tls, 74999)
__1:
;
if !(pMemPage != 0) {
goto __2
}
*(*uintptr)(unsafe.Pointer(bp)) = pMemPage
Xsqlite3PagerRef(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpDbPage)
goto __3
__2:
*(*uintptr)(unsafe.Pointer(bp)) = btreePageLookup(tls, pBt, iPage)
__3:
;
*(*int32)(unsafe.Pointer(bp + 8)) = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(pPage1)).FpDbPage)
if !(*(*int32)(unsafe.Pointer(bp + 8)) != 0) {
goto __4
}
goto freepage_out
__4:
;
nFree = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+36)
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+36, nFree+U32(1))
if !(int32((*BtShared)(unsafe.Pointer(pBt)).FbtsFlags)&BTS_SECURE_DELETE != 0) {
goto __5
}
if !(!(*(*uintptr)(unsafe.Pointer(bp)) != 0) && libc.AssignPtrInt32(bp+8, btreeGetPage(tls, pBt, iPage, bp, 0)) != 0 ||
libc.AssignPtrInt32(bp+8, Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpDbPage)) != 0) {
goto __6
}
goto freepage_out
__6:
;
libc.X__builtin___memset_chk(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData, 0, uint64((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpBt)).FpageSize), libc.X__builtin_object_size(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData, 0))
__5:
;
if !((*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0) {
goto __7
}
ptrmapPut(tls, pBt, iPage, uint8(PTRMAP_FREEPAGE), uint32(0), bp+8)
if !(*(*int32)(unsafe.Pointer(bp + 8)) != 0) {
goto __8
}
goto freepage_out
__8:
;
__7:
;
if !(nFree != U32(0)) {
goto __9
}
iTrunk = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+32)
if !(iTrunk > btreePagecount(tls, pBt)) {
goto __10
}
*(*int32)(unsafe.Pointer(bp + 8)) = Xsqlite3CorruptError(tls, 75046)
goto freepage_out
__10:
;
*(*int32)(unsafe.Pointer(bp + 8)) = btreeGetPage(tls, pBt, iTrunk, bp+16, 0)
if !(*(*int32)(unsafe.Pointer(bp + 8)) != SQLITE_OK) {
goto __11
}
goto freepage_out
__11:
;
nLeaf = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FaData+4)
if !(nLeaf > (*BtShared)(unsafe.Pointer(pBt)).FusableSize/U32(4)-U32(2)) {
goto __12
}
*(*int32)(unsafe.Pointer(bp + 8)) = Xsqlite3CorruptError(tls, 75057)
goto freepage_out
__12:
;
if !(nLeaf < (*BtShared)(unsafe.Pointer(pBt)).FusableSize/U32(4)-U32(8)) {
goto __13
}
*(*int32)(unsafe.Pointer(bp + 8)) = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FpDbPage)
if !(*(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK) {
goto __14
}
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FaData+4, nLeaf+U32(1))
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FaData+uintptr(U32(8)+nLeaf*U32(4)), iPage)
if !(*(*uintptr)(unsafe.Pointer(bp)) != 0 && int32((*BtShared)(unsafe.Pointer(pBt)).FbtsFlags)&BTS_SECURE_DELETE == 0) {
goto __15
}
Xsqlite3PagerDontWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpDbPage)
__15:
;
*(*int32)(unsafe.Pointer(bp + 8)) = btreeSetHasContent(tls, pBt, iPage)
__14:
;
goto freepage_out
__13:
;
__9:
;
if !(*(*uintptr)(unsafe.Pointer(bp)) == uintptr(0) && SQLITE_OK != libc.AssignPtrInt32(bp+8, btreeGetPage(tls, pBt, iPage, bp, 0))) {
goto __16
}
goto freepage_out
__16:
;
*(*int32)(unsafe.Pointer(bp + 8)) = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpDbPage)
if !(*(*int32)(unsafe.Pointer(bp + 8)) != SQLITE_OK) {
goto __17
}
goto freepage_out
__17:
;
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData, iTrunk)
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData+4, uint32(0))
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(pPage1)).FaData+32, iPage)
freepage_out:
if !(*(*uintptr)(unsafe.Pointer(bp)) != 0) {
goto __18
}
(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FisInit = U8(0)
__18:
;
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp)))
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
return *(*int32)(unsafe.Pointer(bp + 8))
}
func freePage(tls *libc.TLS, pPage uintptr, pRC uintptr) {
if *(*int32)(unsafe.Pointer(pRC)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(pRC)) = freePage2(tls, (*MemPage)(unsafe.Pointer(pPage)).FpBt, pPage, (*MemPage)(unsafe.Pointer(pPage)).Fpgno)
}
}
func clearCellOverflow(tls *libc.TLS, pPage uintptr, pCell uintptr, pInfo uintptr) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
var pBt uintptr
var ovflPgno Pgno
var rc int32
var nOvfl int32
var ovflPageSize U32
if pCell+uintptr((*CellInfo)(unsafe.Pointer(pInfo)).FnSize) > (*MemPage)(unsafe.Pointer(pPage)).FaDataEnd {
return Xsqlite3CorruptError(tls, 75146)
}
ovflPgno = Xsqlite3Get4byte(tls, pCell+uintptr((*CellInfo)(unsafe.Pointer(pInfo)).FnSize)-uintptr(4))
pBt = (*MemPage)(unsafe.Pointer(pPage)).FpBt
ovflPageSize = (*BtShared)(unsafe.Pointer(pBt)).FusableSize - U32(4)
nOvfl = int32(((*CellInfo)(unsafe.Pointer(pInfo)).FnPayload - U32((*CellInfo)(unsafe.Pointer(pInfo)).FnLocal) + ovflPageSize - U32(1)) / ovflPageSize)
for libc.PostDecInt32(&nOvfl, 1) != 0 {
*(*Pgno)(unsafe.Pointer(bp + 8)) = Pgno(0)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
if ovflPgno < Pgno(2) || ovflPgno > btreePagecount(tls, pBt) {
return Xsqlite3CorruptError(tls, 75163)
}
if nOvfl != 0 {
rc = getOverflowPage(tls, pBt, ovflPgno, bp, bp+8)
if rc != 0 {
return rc
}
}
if (*(*uintptr)(unsafe.Pointer(bp)) != 0 || libc.AssignPtrUintptr(bp, btreePageLookup(tls, pBt, ovflPgno)) != uintptr(0)) &&
Xsqlite3PagerPageRefcount(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpDbPage) != 1 {
rc = Xsqlite3CorruptError(tls, 75183)
} else {
rc = freePage2(tls, pBt, *(*uintptr)(unsafe.Pointer(bp)), ovflPgno)
}
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
Xsqlite3PagerUnref(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpDbPage)
}
if rc != 0 {
return rc
}
ovflPgno = *(*Pgno)(unsafe.Pointer(bp + 8))
}
return SQLITE_OK
}
func fillInCell(tls *libc.TLS, pPage uintptr, pCell uintptr, pX uintptr, pnSize uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var nPayload int32
var pSrc uintptr
var nSrc int32
var n int32
var mn int32
var spaceLeft int32
var pToRelease uintptr
var pPrior uintptr
var pPayload uintptr
var pBt uintptr
var nHeader int32
nHeader = int32((*MemPage)(unsafe.Pointer(pPage)).FchildPtrSize)
if (*MemPage)(unsafe.Pointer(pPage)).FintKey != 0 {
nPayload = (*BtreePayload)(unsafe.Pointer(pX)).FnData + (*BtreePayload)(unsafe.Pointer(pX)).FnZero
pSrc = (*BtreePayload)(unsafe.Pointer(pX)).FpData
nSrc = (*BtreePayload)(unsafe.Pointer(pX)).FnData
nHeader = nHeader + int32(func() uint8 {
if U32(nPayload) < U32(0x80) {
return uint8(func() int32 { *(*uint8)(unsafe.Pointer(pCell + uintptr(nHeader))) = uint8(nPayload); return 1 }())
}
return uint8(Xsqlite3PutVarint(tls, pCell+uintptr(nHeader), uint64(nPayload)))
}())
nHeader = nHeader + Xsqlite3PutVarint(tls, pCell+uintptr(nHeader), *(*U64)(unsafe.Pointer(pX + 8)))
} else {
nSrc = libc.AssignInt32(&nPayload, int32((*BtreePayload)(unsafe.Pointer(pX)).FnKey))
pSrc = (*BtreePayload)(unsafe.Pointer(pX)).FpKey
nHeader = nHeader + int32(func() uint8 {
if U32(nPayload) < U32(0x80) {
return uint8(func() int32 { *(*uint8)(unsafe.Pointer(pCell + uintptr(nHeader))) = uint8(nPayload); return 1 }())
}
return uint8(Xsqlite3PutVarint(tls, pCell+uintptr(nHeader), uint64(nPayload)))
}())
}
pPayload = pCell + uintptr(nHeader)
if nPayload <= int32((*MemPage)(unsafe.Pointer(pPage)).FmaxLocal) {
n = nHeader + nPayload
if n < 4 {
n = 4
}
*(*int32)(unsafe.Pointer(pnSize)) = n
libc.X__builtin___memcpy_chk(tls, pPayload, pSrc, uint64(nSrc), libc.X__builtin_object_size(tls, pPayload, 0))
libc.X__builtin___memset_chk(tls, pPayload+uintptr(nSrc), 0, uint64(nPayload-nSrc), libc.X__builtin_object_size(tls, pPayload+uintptr(nSrc), 0))
return SQLITE_OK
}
mn = int32((*MemPage)(unsafe.Pointer(pPage)).FminLocal)
n = int32(U32(mn) + U32(nPayload-mn)%((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize-U32(4)))
if n > int32((*MemPage)(unsafe.Pointer(pPage)).FmaxLocal) {
n = mn
}
spaceLeft = n
*(*int32)(unsafe.Pointer(pnSize)) = n + nHeader + 4
pPrior = pCell + uintptr(nHeader+n)
pToRelease = uintptr(0)
*(*Pgno)(unsafe.Pointer(bp + 8)) = Pgno(0)
pBt = (*MemPage)(unsafe.Pointer(pPage)).FpBt
for 1 != 0 {
n = nPayload
if n > spaceLeft {
n = spaceLeft
}
if nSrc >= n {
libc.X__builtin___memcpy_chk(tls, pPayload, pSrc, uint64(n), libc.X__builtin_object_size(tls, pPayload, 0))
} else if nSrc > 0 {
n = nSrc
libc.X__builtin___memcpy_chk(tls, pPayload, pSrc, uint64(n), libc.X__builtin_object_size(tls, pPayload, 0))
} else {
libc.X__builtin___memset_chk(tls, pPayload, 0, uint64(n), libc.X__builtin_object_size(tls, pPayload, 0))
}
nPayload = nPayload - n
if nPayload <= 0 {
break
}
pPayload += uintptr(n)
pSrc += uintptr(n)
nSrc = nSrc - n
spaceLeft = spaceLeft - n
if spaceLeft == 0 {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var pgnoPtrmap Pgno = *(*Pgno)(unsafe.Pointer(bp + 8))
if (*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0 {
for __ccgo := true; __ccgo; __ccgo = ptrmapPageno(tls, pBt, *(*Pgno)(unsafe.Pointer(bp + 8))) == *(*Pgno)(unsafe.Pointer(bp + 8)) || *(*Pgno)(unsafe.Pointer(bp + 8)) == U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize+U32(1) {
*(*Pgno)(unsafe.Pointer(bp + 8))++
}
}
*(*int32)(unsafe.Pointer(bp + 12)) = allocateBtreePage(tls, pBt, bp, bp+8, *(*Pgno)(unsafe.Pointer(bp + 8)), uint8(0))
if (*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0 && *(*int32)(unsafe.Pointer(bp + 12)) == SQLITE_OK {
var eType U8 = func() uint8 {
if pgnoPtrmap != 0 {
return uint8(PTRMAP_OVERFLOW2)
}
return uint8(PTRMAP_OVERFLOW1)
}()
ptrmapPut(tls, pBt, *(*Pgno)(unsafe.Pointer(bp + 8)), eType, pgnoPtrmap, bp+12)
if *(*int32)(unsafe.Pointer(bp + 12)) != 0 {
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
}
if *(*int32)(unsafe.Pointer(bp + 12)) != 0 {
releasePage(tls, pToRelease)
return *(*int32)(unsafe.Pointer(bp + 12))
}
Xsqlite3Put4byte(tls, pPrior, *(*Pgno)(unsafe.Pointer(bp + 8)))
releasePage(tls, pToRelease)
pToRelease = *(*uintptr)(unsafe.Pointer(bp))
pPrior = (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData
Xsqlite3Put4byte(tls, pPrior, uint32(0))
pPayload = (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData + 4
spaceLeft = int32((*BtShared)(unsafe.Pointer(pBt)).FusableSize - U32(4))
}
}
releasePage(tls, pToRelease)
return SQLITE_OK
}
func dropCell(tls *libc.TLS, pPage uintptr, idx int32, sz int32, pRC uintptr) {
var pc U32
var data uintptr
var ptr uintptr
var rc int32
var hdr int32
if *(*int32)(unsafe.Pointer(pRC)) != 0 {
return
}
data = (*MemPage)(unsafe.Pointer(pPage)).FaData
ptr = (*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*idx)
pc = U32(int32(*(*U8)(unsafe.Pointer(ptr)))<<8 | int32(*(*U8)(unsafe.Pointer(ptr + 1))))
hdr = int32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)
if pc+U32(sz) > (*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize {
*(*int32)(unsafe.Pointer(pRC)) = Xsqlite3CorruptError(tls, 75436)
return
}
rc = freeSpace(tls, pPage, uint16(pc), uint16(sz))
if rc != 0 {
*(*int32)(unsafe.Pointer(pRC)) = rc
return
}
(*MemPage)(unsafe.Pointer(pPage)).FnCell--
if int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) == 0 {
libc.X__builtin___memset_chk(tls, data+uintptr(hdr+1), 0, uint64(4), libc.X__builtin_object_size(tls, data+uintptr(hdr+1), 0))
*(*U8)(unsafe.Pointer(data + uintptr(hdr+7))) = U8(0)
*(*U8)(unsafe.Pointer(data + uintptr(hdr+5))) = U8((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize >> 8)
*(*U8)(unsafe.Pointer(data + uintptr(hdr+5) + 1)) = U8((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize)
(*MemPage)(unsafe.Pointer(pPage)).FnFree = int32((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FusableSize - U32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset) -
U32((*MemPage)(unsafe.Pointer(pPage)).FchildPtrSize) - U32(8))
} else {
libc.X__builtin___memmove_chk(tls, ptr, ptr+uintptr(2), uint64(2*(int32((*MemPage)(unsafe.Pointer(pPage)).FnCell)-idx)), libc.X__builtin_object_size(tls, ptr, 0))
*(*U8)(unsafe.Pointer(data + uintptr(hdr+3))) = U8(int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) >> 8)
*(*U8)(unsafe.Pointer(data + uintptr(hdr+3) + 1)) = U8((*MemPage)(unsafe.Pointer(pPage)).FnCell)
*(*int32)(unsafe.Pointer(pPage + 20)) += 2
}
}
func insertCell(tls *libc.TLS, pPage uintptr, i int32, pCell uintptr, sz int32, pTemp uintptr, iChild Pgno) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*int32)(unsafe.Pointer(bp)) = 0
var j int32
var data uintptr
var pIns uintptr
if (*MemPage)(unsafe.Pointer(pPage)).FnOverflow != 0 || sz+2 > (*MemPage)(unsafe.Pointer(pPage)).FnFree {
if pTemp != 0 {
libc.X__builtin___memcpy_chk(tls, pTemp, pCell, uint64(sz), libc.X__builtin_object_size(tls, pTemp, 0))
pCell = pTemp
}
if iChild != 0 {
Xsqlite3Put4byte(tls, pCell, iChild)
}
j = int32(libc.PostIncUint8(&(*MemPage)(unsafe.Pointer(pPage)).FnOverflow, 1))
*(*uintptr)(unsafe.Pointer(pPage + 40 + uintptr(j)*8)) = pCell
*(*U16)(unsafe.Pointer(pPage + 28 + uintptr(j)*2)) = U16(i)
} else {
var rc int32 = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(pPage)).FpDbPage)
if rc != SQLITE_OK {
return rc
}
data = (*MemPage)(unsafe.Pointer(pPage)).FaData
rc = allocateSpace(tls, pPage, sz, bp)
if rc != 0 {
return rc
}
*(*int32)(unsafe.Pointer(pPage + 20)) -= int32(U16(2 + sz))
if iChild != 0 {
libc.X__builtin___memcpy_chk(tls, data+uintptr(*(*int32)(unsafe.Pointer(bp))+4), pCell+uintptr(4), uint64(sz-4), libc.X__builtin_object_size(tls, data+uintptr(*(*int32)(unsafe.Pointer(bp))+4), 0))
Xsqlite3Put4byte(tls, data+uintptr(*(*int32)(unsafe.Pointer(bp))), iChild)
} else {
libc.X__builtin___memcpy_chk(tls, data+uintptr(*(*int32)(unsafe.Pointer(bp))), pCell, uint64(sz), libc.X__builtin_object_size(tls, data+uintptr(*(*int32)(unsafe.Pointer(bp))), 0))
}
pIns = (*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(i*2)
libc.X__builtin___memmove_chk(tls, pIns+uintptr(2), pIns, uint64(2*(int32((*MemPage)(unsafe.Pointer(pPage)).FnCell)-i)), libc.X__builtin_object_size(tls, pIns+uintptr(2), 0))
*(*U8)(unsafe.Pointer(pIns)) = U8(*(*int32)(unsafe.Pointer(bp)) >> 8)
*(*U8)(unsafe.Pointer(pIns + 1)) = U8(*(*int32)(unsafe.Pointer(bp)))
(*MemPage)(unsafe.Pointer(pPage)).FnCell++
if int32(libc.PreIncUint8(&*(*U8)(unsafe.Pointer(data + uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)+4))), 1)) == 0 {
*(*U8)(unsafe.Pointer(data + uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)+3)))++
}
if (*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FpBt)).FautoVacuum != 0 {
*(*int32)(unsafe.Pointer(bp + 4)) = SQLITE_OK
ptrmapPutOvflPtr(tls, pPage, pPage, pCell, bp+4)
if *(*int32)(unsafe.Pointer(bp + 4)) != 0 {
return *(*int32)(unsafe.Pointer(bp + 4))
}
}
}
return SQLITE_OK
}
// A CellArray object contains a cache of pointers and sizes for a
// consecutive sequence of cells that might be held on multiple pages.
//
// The cells in this array are the divider cell or cells from the pParent
// page plus up to three child pages. There are a total of nCell cells.
//
// pRef is a pointer to one of the pages that contributes cells. This is
// used to access information such as MemPage.intKey and MemPage.pBt->pageSize
// which should be common to all pages that contribute cells to this array.
//
// apCell[] and szCell[] hold, respectively, pointers to the start of each
// cell and the size of each cell. Some of the apCell[] pointers might refer
// to overflow cells. In other words, some apCel[] pointers might not point
// to content area of the pages.
//
// A szCell[] of zero means the size of that cell has not yet been computed.
//
// The cells come from as many as four different pages:
//
// -----------
// | Parent |
// -----------
// / | ** / | ** --------- --------- ---------
// |Child-1| |Child-2| |Child-3|
// --------- --------- ---------
//
// The order of cells is in the array is for an index btree is:
//
// 1. All cells from Child-1 in order
// 2. The first divider cell from Parent
// 3. All cells from Child-2 in order
// 4. The second divider cell from Parent
// 5. All cells from Child-3 in order
//
// For a table-btree (with rowids) the items 2 and 4 are empty because
// content exists only in leaves and there are no divider cells.
//
// For an index btree, the apEnd[] array holds pointer to the end of page
// for Child-1, the Parent, Child-2, the Parent (again), and Child-3,
// respectively. The ixNx[] array holds the number of cells contained in
// each of these 5 stages, and all stages to the left. Hence:
//
// ixNx[0] = Number of cells in Child-1.
// ixNx[1] = Number of cells in Child-1 plus 1 for first divider.
// ixNx[2] = Number of cells in Child-1 and Child-2 + 1 for 1st divider.
// ixNx[3] = Number of cells in Child-1 and Child-2 + both divider cells
// ixNx[4] = Total number of cells.
//
// For a table-btree, the concept is similar, except only apEnd[0]..apEnd[2]
// are used and they point to the leaf pages only, and the ixNx value are:
//
// ixNx[0] = Number of cells in Child-1.
// ixNx[1] = Number of cells in Child-1 and Child-2.
// ixNx[2] = Total number of cells.
//
// Sometimes when deleting, a child page can have zero cells. In those
// cases, ixNx[] entries with higher indexes, and the corresponding apEnd[]
// entries, shift down. The end result is that each ixNx[] entry should
// be larger than the previous
type CellArray1 = struct {
FnCell int32
F__ccgo_pad1 [4]byte
FpRef uintptr
FapCell uintptr
FszCell uintptr
FapEnd [6]uintptr
FixNx [6]int32
}
// A CellArray object contains a cache of pointers and sizes for a
// consecutive sequence of cells that might be held on multiple pages.
//
// The cells in this array are the divider cell or cells from the pParent
// page plus up to three child pages. There are a total of nCell cells.
//
// pRef is a pointer to one of the pages that contributes cells. This is
// used to access information such as MemPage.intKey and MemPage.pBt->pageSize
// which should be common to all pages that contribute cells to this array.
//
// apCell[] and szCell[] hold, respectively, pointers to the start of each
// cell and the size of each cell. Some of the apCell[] pointers might refer
// to overflow cells. In other words, some apCel[] pointers might not point
// to content area of the pages.
//
// A szCell[] of zero means the size of that cell has not yet been computed.
//
// The cells come from as many as four different pages:
//
// -----------
// | Parent |
// -----------
// / | ** / | ** --------- --------- ---------
// |Child-1| |Child-2| |Child-3|
// --------- --------- ---------
//
// The order of cells is in the array is for an index btree is:
//
// 1. All cells from Child-1 in order
// 2. The first divider cell from Parent
// 3. All cells from Child-2 in order
// 4. The second divider cell from Parent
// 5. All cells from Child-3 in order
//
// For a table-btree (with rowids) the items 2 and 4 are empty because
// content exists only in leaves and there are no divider cells.
//
// For an index btree, the apEnd[] array holds pointer to the end of page
// for Child-1, the Parent, Child-2, the Parent (again), and Child-3,
// respectively. The ixNx[] array holds the number of cells contained in
// each of these 5 stages, and all stages to the left. Hence:
//
// ixNx[0] = Number of cells in Child-1.
// ixNx[1] = Number of cells in Child-1 plus 1 for first divider.
// ixNx[2] = Number of cells in Child-1 and Child-2 + 1 for 1st divider.
// ixNx[3] = Number of cells in Child-1 and Child-2 + both divider cells
// ixNx[4] = Total number of cells.
//
// For a table-btree, the concept is similar, except only apEnd[0]..apEnd[2]
// are used and they point to the leaf pages only, and the ixNx value are:
//
// ixNx[0] = Number of cells in Child-1.
// ixNx[1] = Number of cells in Child-1 and Child-2.
// ixNx[2] = Total number of cells.
//
// Sometimes when deleting, a child page can have zero cells. In those
// cases, ixNx[] entries with higher indexes, and the corresponding apEnd[]
// entries, shift down. The end result is that each ixNx[] entry should
// be larger than the previous
type CellArray = CellArray1
func populateCellCache(tls *libc.TLS, p uintptr, idx int32, N int32) {
var pRef uintptr = (*CellArray)(unsafe.Pointer(p)).FpRef
var szCell uintptr = (*CellArray)(unsafe.Pointer(p)).FszCell
for N > 0 {
if int32(*(*U16)(unsafe.Pointer(szCell + uintptr(idx)*2))) == 0 {
*(*U16)(unsafe.Pointer(szCell + uintptr(idx)*2)) = (*struct {
f func(*libc.TLS, uintptr, uintptr) U16
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pRef)).FxCellSize})).f(tls, pRef, *(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(p)).FapCell + uintptr(idx)*8)))
} else {
}
idx++
N--
}
}
func computeCellSize(tls *libc.TLS, p uintptr, N int32) U16 {
*(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(p)).FszCell + uintptr(N)*2)) = (*struct {
f func(*libc.TLS, uintptr, uintptr) U16
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer((*CellArray)(unsafe.Pointer(p)).FpRef)).FxCellSize})).f(tls, (*CellArray)(unsafe.Pointer(p)).FpRef, *(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(p)).FapCell + uintptr(N)*8)))
return *(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(p)).FszCell + uintptr(N)*2))
}
func cachedCellSize(tls *libc.TLS, p uintptr, N int32) U16 {
if *(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(p)).FszCell + uintptr(N)*2)) != 0 {
return *(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(p)).FszCell + uintptr(N)*2))
}
return computeCellSize(tls, p, N)
}
func rebuildPage(tls *libc.TLS, pCArray uintptr, iFirst int32, nCell int32, pPg uintptr) int32 {
var hdr int32 = int32((*MemPage)(unsafe.Pointer(pPg)).FhdrOffset)
var aData uintptr = (*MemPage)(unsafe.Pointer(pPg)).FaData
var usableSize int32 = int32((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPg)).FpBt)).FusableSize)
var pEnd uintptr = aData + uintptr(usableSize)
var i int32 = iFirst
var j U32
var iEnd int32 = i + nCell
var pCellptr uintptr = (*MemPage)(unsafe.Pointer(pPg)).FaCellIdx
var pTmp uintptr = Xsqlite3PagerTempSpace(tls, (*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPg)).FpBt)).FpPager)
var pData uintptr
var k int32
var pSrcEnd uintptr
j = U32(int32(*(*U8)(unsafe.Pointer(aData + uintptr(hdr+5))))<<8 | int32(*(*U8)(unsafe.Pointer(aData + uintptr(hdr+5) + 1))))
if j > U32(usableSize) {
j = U32(0)
}
libc.X__builtin___memcpy_chk(tls, pTmp+uintptr(j), aData+uintptr(j), uint64(U32(usableSize)-j), libc.X__builtin_object_size(tls, pTmp+uintptr(j), 0))
for k = 0; *(*int32)(unsafe.Pointer(pCArray + 80 + uintptr(k)*4)) <= i && k < NB*2; k++ {
}
pSrcEnd = *(*uintptr)(unsafe.Pointer(pCArray + 32 + uintptr(k)*8))
pData = pEnd
for 1 != 0 {
var pCell uintptr = *(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(pCArray)).FapCell + uintptr(i)*8))
var sz U16 = *(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(pCArray)).FszCell + uintptr(i)*2))
if Uptr(pCell) >= Uptr(aData+uintptr(j)) && Uptr(pCell) < Uptr(pEnd) {
if Uptr(pCell+uintptr(sz)) > Uptr(pEnd) {
return Xsqlite3CorruptError(tls, 75737)
}
pCell = pTmp + uintptr((int64(pCell)-int64(aData))/1)
} else if Uptr(pCell+uintptr(sz)) > Uptr(pSrcEnd) &&
Uptr(pCell) < Uptr(pSrcEnd) {
return Xsqlite3CorruptError(tls, 75742)
}
pData -= uintptr(sz)
*(*U8)(unsafe.Pointer(pCellptr)) = U8((int64(pData) - int64(aData)) / 1 >> 8)
*(*U8)(unsafe.Pointer(pCellptr + 1)) = U8((int64(pData) - int64(aData)) / 1)
pCellptr += uintptr(2)
if pData < pCellptr {
return Xsqlite3CorruptError(tls, 75748)
}
libc.X__builtin___memmove_chk(tls, pData, pCell, uint64(sz), libc.X__builtin_object_size(tls, pData, 0))
i++
if i >= iEnd {
break
}
if *(*int32)(unsafe.Pointer(pCArray + 80 + uintptr(k)*4)) <= i {
k++
pSrcEnd = *(*uintptr)(unsafe.Pointer(pCArray + 32 + uintptr(k)*8))
}
}
(*MemPage)(unsafe.Pointer(pPg)).FnCell = U16(nCell)
(*MemPage)(unsafe.Pointer(pPg)).FnOverflow = U8(0)
*(*U8)(unsafe.Pointer(aData + uintptr(hdr+1))) = U8(int32(0) >> 8)
*(*U8)(unsafe.Pointer(aData + uintptr(hdr+1) + 1)) = U8(0)
*(*U8)(unsafe.Pointer(aData + uintptr(hdr+3))) = U8(int32((*MemPage)(unsafe.Pointer(pPg)).FnCell) >> 8)
*(*U8)(unsafe.Pointer(aData + uintptr(hdr+3) + 1)) = U8((*MemPage)(unsafe.Pointer(pPg)).FnCell)
*(*U8)(unsafe.Pointer(aData + uintptr(hdr+5))) = U8((int64(pData) - int64(aData)) / 1 >> 8)
*(*U8)(unsafe.Pointer(aData + uintptr(hdr+5) + 1)) = U8((int64(pData) - int64(aData)) / 1)
*(*U8)(unsafe.Pointer(aData + uintptr(hdr+7))) = U8(0x00)
return SQLITE_OK
}
func pageInsertArray(tls *libc.TLS, pPg uintptr, pBegin uintptr, ppData uintptr, pCellptr uintptr, iFirst int32, nCell int32, pCArray uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var i int32 = iFirst
var aData uintptr = (*MemPage)(unsafe.Pointer(pPg)).FaData
var pData uintptr = *(*uintptr)(unsafe.Pointer(ppData))
var iEnd int32 = iFirst + nCell
var k int32
var pEnd uintptr
if iEnd <= iFirst {
return 0
}
for k = 0; *(*int32)(unsafe.Pointer(pCArray + 80 + uintptr(k)*4)) <= i && k < NB*2; k++ {
}
pEnd = *(*uintptr)(unsafe.Pointer(pCArray + 32 + uintptr(k)*8))
for 1 != 0 {
var sz int32
var pSlot uintptr
sz = int32(*(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(pCArray)).FszCell + uintptr(i)*2)))
if int32(*(*U8)(unsafe.Pointer(aData + 1))) == 0 && int32(*(*U8)(unsafe.Pointer(aData + 2))) == 0 || libc.AssignUintptr(&pSlot, pageFindSlot(tls, pPg, sz, bp)) == uintptr(0) {
if (int64(pData)-int64(pBegin))/1 < int64(sz) {
return 1
}
pData -= uintptr(sz)
pSlot = pData
}
if Uptr(*(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(pCArray)).FapCell + uintptr(i)*8))+uintptr(sz)) > Uptr(pEnd) &&
Uptr(*(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(pCArray)).FapCell + uintptr(i)*8))) < Uptr(pEnd) {
Xsqlite3CorruptError(tls, 75833)
return 1
}
libc.X__builtin___memmove_chk(tls, pSlot, *(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(pCArray)).FapCell + uintptr(i)*8)), uint64(sz), libc.X__builtin_object_size(tls, pSlot, 0))
*(*U8)(unsafe.Pointer(pCellptr)) = U8((int64(pSlot) - int64(aData)) / 1 >> 8)
*(*U8)(unsafe.Pointer(pCellptr + 1)) = U8((int64(pSlot) - int64(aData)) / 1)
pCellptr += uintptr(2)
i++
if i >= iEnd {
break
}
if *(*int32)(unsafe.Pointer(pCArray + 80 + uintptr(k)*4)) <= i {
k++
pEnd = *(*uintptr)(unsafe.Pointer(pCArray + 32 + uintptr(k)*8))
}
}
*(*uintptr)(unsafe.Pointer(ppData)) = pData
return 0
}
func pageFreeArray(tls *libc.TLS, pPg uintptr, iFirst int32, nCell int32, pCArray uintptr) int32 {
var aData uintptr = (*MemPage)(unsafe.Pointer(pPg)).FaData
var pEnd uintptr = aData + uintptr((*BtShared)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPg)).FpBt)).FusableSize)
var pStart uintptr = aData + uintptr(int32((*MemPage)(unsafe.Pointer(pPg)).FhdrOffset)+8+int32((*MemPage)(unsafe.Pointer(pPg)).FchildPtrSize))
var nRet int32 = 0
var i int32
var iEnd int32 = iFirst + nCell
var pFree uintptr = uintptr(0)
var szFree int32 = 0
for i = iFirst; i < iEnd; i++ {
var pCell uintptr = *(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(pCArray)).FapCell + uintptr(i)*8))
if Uptr(pCell) >= Uptr(pStart) && Uptr(pCell) < Uptr(pEnd) {
var sz int32
sz = int32(*(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(pCArray)).FszCell + uintptr(i)*2)))
if pFree != pCell+uintptr(sz) {
if pFree != 0 {
freeSpace(tls, pPg, U16((int64(pFree)-int64(aData))/1), uint16(szFree))
}
pFree = pCell
szFree = sz
if pFree+uintptr(sz) > pEnd {
return 0
}
} else {
pFree = pCell
szFree = szFree + sz
}
nRet++
}
}
if pFree != 0 {
freeSpace(tls, pPg, U16((int64(pFree)-int64(aData))/1), uint16(szFree))
}
return nRet
}
func editPage(tls *libc.TLS, pPg uintptr, iOld int32, iNew int32, nNew int32, pCArray uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var aData uintptr
var hdr int32
var pBegin uintptr
var nCell int32
var pCellptr uintptr
var i int32
var iOldEnd int32
var iNewEnd int32
var nShift int32
var nTail int32
var nAdd int32
var iCell int32
aData = (*MemPage)(unsafe.Pointer(pPg)).FaData
hdr = int32((*MemPage)(unsafe.Pointer(pPg)).FhdrOffset)
pBegin = (*MemPage)(unsafe.Pointer(pPg)).FaCellIdx + uintptr(nNew*2)
nCell = int32((*MemPage)(unsafe.Pointer(pPg)).FnCell)
iOldEnd = iOld + int32((*MemPage)(unsafe.Pointer(pPg)).FnCell) + int32((*MemPage)(unsafe.Pointer(pPg)).FnOverflow)
iNewEnd = iNew + nNew
if !(iOld < iNew) {
goto __1
}
nShift = pageFreeArray(tls, pPg, iOld, iNew-iOld, pCArray)
if !(nShift > nCell) {
goto __2
}
return Xsqlite3CorruptError(tls, 75947)
__2:
;
libc.X__builtin___memmove_chk(tls, (*MemPage)(unsafe.Pointer(pPg)).FaCellIdx, (*MemPage)(unsafe.Pointer(pPg)).FaCellIdx+uintptr(nShift*2), uint64(nCell*2), libc.X__builtin_object_size(tls, (*MemPage)(unsafe.Pointer(pPg)).FaCellIdx, 0))
nCell = nCell - nShift
__1:
;
if !(iNewEnd < iOldEnd) {
goto __3
}
nTail = pageFreeArray(tls, pPg, iNewEnd, iOldEnd-iNewEnd, pCArray)
nCell = nCell - nTail
__3:
;
*(*uintptr)(unsafe.Pointer(bp)) = aData + uintptr((int32(*(*U8)(unsafe.Pointer(aData + uintptr(hdr+5))))<<8|int32(*(*U8)(unsafe.Pointer(aData + uintptr(hdr+5) + 1)))-1)&0xffff+1)
if !(*(*uintptr)(unsafe.Pointer(bp)) < pBegin) {
goto __4
}
goto editpage_fail
__4:
;
if !(*(*uintptr)(unsafe.Pointer(bp)) > (*MemPage)(unsafe.Pointer(pPg)).FaDataEnd) {
goto __5
}
goto editpage_fail
__5:
;
if !(iNew < iOld) {
goto __6
}
nAdd = func() int32 {
if nNew < iOld-iNew {
return nNew
}
return iOld - iNew
}()
pCellptr = (*MemPage)(unsafe.Pointer(pPg)).FaCellIdx
libc.X__builtin___memmove_chk(tls, pCellptr+uintptr(nAdd*2), pCellptr, uint64(nCell*2), libc.X__builtin_object_size(tls, pCellptr+uintptr(nAdd*2), 0))
if !(pageInsertArray(tls,
pPg, pBegin, bp, pCellptr,
iNew, nAdd, pCArray) != 0) {
goto __7
}
goto editpage_fail
__7:
;
nCell = nCell + nAdd
__6:
;
i = 0
__8:
if !(i < int32((*MemPage)(unsafe.Pointer(pPg)).FnOverflow)) {
goto __10
}
iCell = iOld + int32(*(*U16)(unsafe.Pointer(pPg + 28 + uintptr(i)*2))) - iNew
if !(iCell >= 0 && iCell < nNew) {
goto __11
}
pCellptr = (*MemPage)(unsafe.Pointer(pPg)).FaCellIdx + uintptr(iCell*2)
if !(nCell > iCell) {
goto __12
}
libc.X__builtin___memmove_chk(tls, pCellptr+2, pCellptr, uint64((nCell-iCell)*2), libc.X__builtin_object_size(tls, pCellptr+2, 0))
__12:
;
nCell++
cachedCellSize(tls, pCArray, iCell+iNew)
if !(pageInsertArray(tls,
pPg, pBegin, bp, pCellptr,
iCell+iNew, 1, pCArray) != 0) {
goto __13
}
goto editpage_fail
__13:
;
__11:
;
goto __9
__9:
i++
goto __8
goto __10
__10:
;
pCellptr = (*MemPage)(unsafe.Pointer(pPg)).FaCellIdx + uintptr(nCell*2)
if !(pageInsertArray(tls,
pPg, pBegin, bp, pCellptr,
iNew+nCell, nNew-nCell, pCArray) != 0) {
goto __14
}
goto editpage_fail
__14:
;
(*MemPage)(unsafe.Pointer(pPg)).FnCell = U16(nNew)
(*MemPage)(unsafe.Pointer(pPg)).FnOverflow = U8(0)
*(*U8)(unsafe.Pointer(aData + uintptr(hdr+3))) = U8(int32((*MemPage)(unsafe.Pointer(pPg)).FnCell) >> 8)
*(*U8)(unsafe.Pointer(aData + uintptr(hdr+3) + 1)) = U8((*MemPage)(unsafe.Pointer(pPg)).FnCell)
*(*U8)(unsafe.Pointer(aData + uintptr(hdr+5))) = U8((int64(*(*uintptr)(unsafe.Pointer(bp))) - int64(aData)) / 1 >> 8)
*(*U8)(unsafe.Pointer(aData + uintptr(hdr+5) + 1)) = U8((int64(*(*uintptr)(unsafe.Pointer(bp))) - int64(aData)) / 1)
return SQLITE_OK
editpage_fail:
populateCellCache(tls, pCArray, iNew, nNew)
return rebuildPage(tls, pCArray, iNew, nNew, pPg)
}
func balance_quick(tls *libc.TLS, pParent uintptr, pPage uintptr, pSpace uintptr) int32 {
bp := tls.Alloc(140)
defer tls.Free(140)
var pBt uintptr = (*MemPage)(unsafe.Pointer(pPage)).FpBt
if int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) == 0 {
return Xsqlite3CorruptError(tls, 76060)
}
*(*int32)(unsafe.Pointer(bp + 136)) = allocateBtreePage(tls, pBt, bp, bp+8, uint32(0), uint8(0))
if *(*int32)(unsafe.Pointer(bp + 136)) == SQLITE_OK {
var pOut uintptr = pSpace + 4
*(*uintptr)(unsafe.Pointer(bp + 16)) = *(*uintptr)(unsafe.Pointer(pPage + 40))
*(*U16)(unsafe.Pointer(bp + 24)) = (*struct {
f func(*libc.TLS, uintptr, uintptr) U16
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pPage)).FxCellSize})).f(tls, pPage, *(*uintptr)(unsafe.Pointer(bp + 16)))
var pStop uintptr
zeroPage(tls, *(*uintptr)(unsafe.Pointer(bp)), PTF_INTKEY|PTF_LEAFDATA|PTF_LEAF)
(*CellArray)(unsafe.Pointer(bp + 32)).FnCell = 1
(*CellArray)(unsafe.Pointer(bp + 32)).FpRef = pPage
(*CellArray)(unsafe.Pointer(bp + 32)).FapCell = bp + 16
(*CellArray)(unsafe.Pointer(bp + 32)).FszCell = bp + 24
*(*uintptr)(unsafe.Pointer(bp + 32 + 32)) = (*MemPage)(unsafe.Pointer(pPage)).FaDataEnd
*(*int32)(unsafe.Pointer(bp + 32 + 80)) = 2
*(*int32)(unsafe.Pointer(bp + 136)) = rebuildPage(tls, bp+32, 0, 1, *(*uintptr)(unsafe.Pointer(bp)))
if *(*int32)(unsafe.Pointer(bp + 136)) != 0 {
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp)))
return *(*int32)(unsafe.Pointer(bp + 136))
}
(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FnFree = int32((*BtShared)(unsafe.Pointer(pBt)).FusableSize - U32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FcellOffset) - U32(2) - U32(*(*U16)(unsafe.Pointer(bp + 24))))
if (*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0 {
ptrmapPut(tls, pBt, *(*Pgno)(unsafe.Pointer(bp + 8)), uint8(PTRMAP_BTREE), (*MemPage)(unsafe.Pointer(pParent)).Fpgno, bp+136)
if int32(*(*U16)(unsafe.Pointer(bp + 24))) > int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FminLocal) {
ptrmapPutOvflPtr(tls, *(*uintptr)(unsafe.Pointer(bp)), *(*uintptr)(unsafe.Pointer(bp)), *(*uintptr)(unsafe.Pointer(bp + 16)), bp+136)
}
}
*(*uintptr)(unsafe.Pointer(bp + 16)) = (*MemPage)(unsafe.Pointer(pPage)).FaData + uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*(int32((*MemPage)(unsafe.Pointer(pPage)).FnCell)-1)))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*(int32((*MemPage)(unsafe.Pointer(pPage)).FnCell)-1)) + 1)))))
pStop = *(*uintptr)(unsafe.Pointer(bp + 16)) + 9
for int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&*(*uintptr)(unsafe.Pointer(bp + 16)), 1))))&0x80 != 0 && *(*uintptr)(unsafe.Pointer(bp + 16)) < pStop {
}
pStop = *(*uintptr)(unsafe.Pointer(bp + 16)) + 9
for int32(libc.AssignPtrUint8(libc.PostIncUintptr(&pOut, 1), *(*U8)(unsafe.Pointer(libc.PostIncUintptr(&*(*uintptr)(unsafe.Pointer(bp + 16)), 1)))))&0x80 != 0 && *(*uintptr)(unsafe.Pointer(bp + 16)) < pStop {
}
if *(*int32)(unsafe.Pointer(bp + 136)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 136)) = insertCell(tls, pParent, int32((*MemPage)(unsafe.Pointer(pParent)).FnCell), pSpace, int32((int64(pOut)-int64(pSpace))/1),
uintptr(0), (*MemPage)(unsafe.Pointer(pPage)).Fpgno)
}
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(pParent)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pParent)).FhdrOffset)+8), *(*Pgno)(unsafe.Pointer(bp + 8)))
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
return *(*int32)(unsafe.Pointer(bp + 136))
}
func copyNodeContent(tls *libc.TLS, pFrom uintptr, pTo uintptr, pRC uintptr) {
if *(*int32)(unsafe.Pointer(pRC)) == SQLITE_OK {
var pBt uintptr = (*MemPage)(unsafe.Pointer(pFrom)).FpBt
var aFrom uintptr = (*MemPage)(unsafe.Pointer(pFrom)).FaData
var aTo uintptr = (*MemPage)(unsafe.Pointer(pTo)).FaData
var iFromHdr int32 = int32((*MemPage)(unsafe.Pointer(pFrom)).FhdrOffset)
var iToHdr int32 = func() int32 {
if (*MemPage)(unsafe.Pointer(pTo)).Fpgno == Pgno(1) {
return 100
}
return 0
}()
var rc int32
var iData int32
iData = int32(*(*U8)(unsafe.Pointer(aFrom + uintptr(iFromHdr+5))))<<8 | int32(*(*U8)(unsafe.Pointer(aFrom + uintptr(iFromHdr+5) + 1)))
libc.X__builtin___memcpy_chk(tls, aTo+uintptr(iData), aFrom+uintptr(iData), uint64((*BtShared)(unsafe.Pointer(pBt)).FusableSize-U32(iData)), libc.X__builtin_object_size(tls, aTo+uintptr(iData), 0))
libc.X__builtin___memcpy_chk(tls, aTo+uintptr(iToHdr), aFrom+uintptr(iFromHdr), uint64(int32((*MemPage)(unsafe.Pointer(pFrom)).FcellOffset)+2*int32((*MemPage)(unsafe.Pointer(pFrom)).FnCell)), libc.X__builtin_object_size(tls, aTo+uintptr(iToHdr), 0))
(*MemPage)(unsafe.Pointer(pTo)).FisInit = U8(0)
rc = btreeInitPage(tls, pTo)
if rc == SQLITE_OK {
rc = btreeComputeFreeSpace(tls, pTo)
}
if rc != SQLITE_OK {
*(*int32)(unsafe.Pointer(pRC)) = rc
return
}
if (*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0 {
*(*int32)(unsafe.Pointer(pRC)) = setChildPtrmaps(tls, pTo)
}
}
}
func balance_nonroot(tls *libc.TLS, pParent uintptr, iParentIdx int32, aOvflSpace uintptr, isRoot int32, bBulk int32) int32 {
bp := tls.Alloc(312)
defer tls.Free(312)
var pBt uintptr
var nMaxCells int32
var nNew int32
var nOld int32
var i int32
var j int32
var k int32
var nxDiv int32
var leafCorrection U16
var leafData int32
var usableSpace int32
var pageFlags int32
var iSpace1 int32
var iOvflSpace int32
var szScratch int32
var pRight uintptr
var aSpace1 uintptr
var iOff int32
var sz U16
var pTemp uintptr
var pOld uintptr
var limit int32
var aData uintptr
var maskPage U16
var piCell uintptr
var piEnd uintptr
var p uintptr
var sz1 int32
var szR int32
var szD int32
var szRight int32
var szLeft int32
var r int32
var d int32
var pgnoA Pgno
var pgnoB Pgno
var pgnoTemp Pgno
var fgA U16
var fgB U16
var iB int32
var pOld1 uintptr
var pCell uintptr
var pOld2 uintptr
var pNew1 uintptr
var cntOldNext int32
var iNew int32
var iOld int32
var pCell1 uintptr
var pTemp1 uintptr
var sz2 int32
var pSrcEnd uintptr
var pNew2 uintptr
var iNew1 int32
var iOld1 int32
var nNewCell int32
var iPg int32
var key U32
nMaxCells = 0
nNew = 0
*(*int32)(unsafe.Pointer(bp + 172)) = SQLITE_OK
iSpace1 = 0
iOvflSpace = 0
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof([5]U8{})), libc.X__builtin_object_size(tls, bp, 0))
libc.X__builtin___memset_chk(tls, bp+8, 0, uint64(unsafe.Sizeof(CellArray{})), libc.X__builtin_object_size(tls, bp+8, 0))
pBt = (*MemPage)(unsafe.Pointer(pParent)).FpBt
if !!(aOvflSpace != 0) {
goto __1
}
return SQLITE_NOMEM
__1:
;
i = int32((*MemPage)(unsafe.Pointer(pParent)).FnOverflow) + int32((*MemPage)(unsafe.Pointer(pParent)).FnCell)
if !(i < 2) {
goto __2
}
nxDiv = 0
goto __3
__2:
;
if !(iParentIdx == 0) {
goto __4
}
nxDiv = 0
goto __5
__4:
if !(iParentIdx == i) {
goto __6
}
nxDiv = i - 2 + bBulk
goto __7
__6:
nxDiv = iParentIdx - 1
__7:
;
__5:
;
i = 2 - bBulk
__3:
;
nOld = i + 1
if !(i+nxDiv-int32((*MemPage)(unsafe.Pointer(pParent)).FnOverflow) == int32((*MemPage)(unsafe.Pointer(pParent)).FnCell)) {
goto __8
}
pRight = (*MemPage)(unsafe.Pointer(pParent)).FaData + uintptr(int32((*MemPage)(unsafe.Pointer(pParent)).FhdrOffset)+8)
goto __9
__8:
pRight = (*MemPage)(unsafe.Pointer(pParent)).FaData + uintptr(int32((*MemPage)(unsafe.Pointer(pParent)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pParent)).FaCellIdx + uintptr(2*(i+nxDiv-int32((*MemPage)(unsafe.Pointer(pParent)).FnOverflow))))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pParent)).FaCellIdx + uintptr(2*(i+nxDiv-int32((*MemPage)(unsafe.Pointer(pParent)).FnOverflow))) + 1)))))
__9:
;
*(*Pgno)(unsafe.Pointer(bp + 264)) = Xsqlite3Get4byte(tls, pRight)
__10:
if !(1 != 0) {
goto __11
}
if !(*(*int32)(unsafe.Pointer(bp + 172)) == SQLITE_OK) {
goto __12
}
*(*int32)(unsafe.Pointer(bp + 172)) = getAndInitPage(tls, pBt, *(*Pgno)(unsafe.Pointer(bp + 264)), bp+112+uintptr(i)*8, uintptr(0), 0)
__12:
;
if !(*(*int32)(unsafe.Pointer(bp + 172)) != 0) {
goto __13
}
libc.X__builtin___memset_chk(tls, bp+112, 0, uint64(i+1)*uint64(unsafe.Sizeof(uintptr(0))), libc.X__builtin_object_size(tls, bp+112, 0))
goto balance_cleanup
__13:
;
if !((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 112 + uintptr(i)*8)))).FnFree < 0) {
goto __14
}
*(*int32)(unsafe.Pointer(bp + 172)) = btreeComputeFreeSpace(tls, *(*uintptr)(unsafe.Pointer(bp + 112 + uintptr(i)*8)))
if !(*(*int32)(unsafe.Pointer(bp + 172)) != 0) {
goto __15
}
libc.X__builtin___memset_chk(tls, bp+112, 0, uint64(i)*uint64(unsafe.Sizeof(uintptr(0))), libc.X__builtin_object_size(tls, bp+112, 0))
goto balance_cleanup
__15:
;
__14:
;
nMaxCells = nMaxCells + (int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 112 + uintptr(i)*8)))).FnCell) + int32(uint64(unsafe.Sizeof([4]uintptr{}))/uint64(unsafe.Sizeof(uintptr(0)))))
if !(libc.PostDecInt32(&i, 1) == 0) {
goto __16
}
goto __11
__16:
;
if !((*MemPage)(unsafe.Pointer(pParent)).FnOverflow != 0 && i+nxDiv == int32(*(*U16)(unsafe.Pointer(pParent + 28)))) {
goto __17
}
*(*uintptr)(unsafe.Pointer(bp + 136 + uintptr(i)*8)) = *(*uintptr)(unsafe.Pointer(pParent + 40))
*(*Pgno)(unsafe.Pointer(bp + 264)) = Xsqlite3Get4byte(tls, *(*uintptr)(unsafe.Pointer(bp + 136 + uintptr(i)*8)))
*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i)*4)) = int32((*struct {
f func(*libc.TLS, uintptr, uintptr) U16
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pParent)).FxCellSize})).f(tls, pParent, *(*uintptr)(unsafe.Pointer(bp + 136 + uintptr(i)*8))))
(*MemPage)(unsafe.Pointer(pParent)).FnOverflow = U8(0)
goto __18
__17:
*(*uintptr)(unsafe.Pointer(bp + 136 + uintptr(i)*8)) = (*MemPage)(unsafe.Pointer(pParent)).FaData + uintptr(int32((*MemPage)(unsafe.Pointer(pParent)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pParent)).FaCellIdx + uintptr(2*(i+nxDiv-int32((*MemPage)(unsafe.Pointer(pParent)).FnOverflow))))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pParent)).FaCellIdx + uintptr(2*(i+nxDiv-int32((*MemPage)(unsafe.Pointer(pParent)).FnOverflow))) + 1)))))
*(*Pgno)(unsafe.Pointer(bp + 264)) = Xsqlite3Get4byte(tls, *(*uintptr)(unsafe.Pointer(bp + 136 + uintptr(i)*8)))
*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i)*4)) = int32((*struct {
f func(*libc.TLS, uintptr, uintptr) U16
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pParent)).FxCellSize})).f(tls, pParent, *(*uintptr)(unsafe.Pointer(bp + 136 + uintptr(i)*8))))
if !(int32((*BtShared)(unsafe.Pointer(pBt)).FbtsFlags)&BTS_FAST_SECURE != 0) {
goto __19
}
iOff = int32(*(*uintptr)(unsafe.Pointer(bp + 136 + uintptr(i)*8))) - int32((*MemPage)(unsafe.Pointer(pParent)).FaData)
if !(iOff+*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i)*4)) <= int32((*BtShared)(unsafe.Pointer(pBt)).FusableSize)) {
goto __20
}
libc.X__builtin___memcpy_chk(tls, aOvflSpace+uintptr(iOff), *(*uintptr)(unsafe.Pointer(bp + 136 + uintptr(i)*8)), uint64(*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i)*4))), libc.X__builtin_object_size(tls, aOvflSpace+uintptr(iOff), 0))
*(*uintptr)(unsafe.Pointer(bp + 136 + uintptr(i)*8)) = aOvflSpace + uintptr((int64(*(*uintptr)(unsafe.Pointer(bp + 136 + uintptr(i)*8)))-int64((*MemPage)(unsafe.Pointer(pParent)).FaData))/1)
__20:
;
__19:
;
dropCell(tls, pParent, i+nxDiv-int32((*MemPage)(unsafe.Pointer(pParent)).FnOverflow), *(*int32)(unsafe.Pointer(bp + 152 + uintptr(i)*4)), bp+172)
__18:
;
goto __10
__11:
;
nMaxCells = (nMaxCells + 3) & libc.CplInt32(3)
szScratch = int32(uint64(nMaxCells)*uint64(unsafe.Sizeof(uintptr(0))) +
uint64(nMaxCells)*uint64(unsafe.Sizeof(U16(0))) +
uint64((*BtShared)(unsafe.Pointer(pBt)).FpageSize))
(*CellArray)(unsafe.Pointer(bp + 8)).FapCell = Xsqlite3DbMallocRaw(tls, uintptr(0), uint64(szScratch))
if !((*CellArray)(unsafe.Pointer(bp+8)).FapCell == uintptr(0)) {
goto __21
}
*(*int32)(unsafe.Pointer(bp + 172)) = SQLITE_NOMEM
goto balance_cleanup
__21:
;
(*CellArray)(unsafe.Pointer(bp + 8)).FszCell = (*CellArray)(unsafe.Pointer(bp+8)).FapCell + uintptr(nMaxCells)*8
aSpace1 = (*CellArray)(unsafe.Pointer(bp+8)).FszCell + uintptr(nMaxCells)*2
(*CellArray)(unsafe.Pointer(bp + 8)).FpRef = *(*uintptr)(unsafe.Pointer(bp + 112))
leafCorrection = U16(int32((*MemPage)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FpRef)).Fleaf) * 4)
leafData = int32((*MemPage)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp + 8)).FpRef)).FintKeyLeaf)
i = 0
__22:
if !(i < nOld) {
goto __24
}
pOld = *(*uintptr)(unsafe.Pointer(bp + 112 + uintptr(i)*8))
limit = int32((*MemPage)(unsafe.Pointer(pOld)).FnCell)
aData = (*MemPage)(unsafe.Pointer(pOld)).FaData
maskPage = (*MemPage)(unsafe.Pointer(pOld)).FmaskPage
piCell = aData + uintptr((*MemPage)(unsafe.Pointer(pOld)).FcellOffset)
if !(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pOld)).FaData))) != int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 112)))).FaData)))) {
goto __25
}
*(*int32)(unsafe.Pointer(bp + 172)) = Xsqlite3CorruptError(tls, 76481)
goto balance_cleanup
__25:
;
libc.X__builtin___memset_chk(tls, (*CellArray)(unsafe.Pointer(bp+8)).FszCell+uintptr((*CellArray)(unsafe.Pointer(bp+8)).FnCell)*2, 0, uint64(unsafe.Sizeof(U16(0)))*uint64(limit+int32((*MemPage)(unsafe.Pointer(pOld)).FnOverflow)), libc.X__builtin_object_size(tls, (*CellArray)(unsafe.Pointer(bp+8)).FszCell+uintptr((*CellArray)(unsafe.Pointer(bp+8)).FnCell)*2, 0))
if !(int32((*MemPage)(unsafe.Pointer(pOld)).FnOverflow) > 0) {
goto __26
}
if !(limit < int32(*(*U16)(unsafe.Pointer(pOld + 28)))) {
goto __27
}
*(*int32)(unsafe.Pointer(bp + 172)) = Xsqlite3CorruptError(tls, 76505)
goto balance_cleanup
__27:
;
limit = int32(*(*U16)(unsafe.Pointer(pOld + 28)))
j = 0
__28:
if !(j < limit) {
goto __30
}
*(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FapCell + uintptr((*CellArray)(unsafe.Pointer(bp+8)).FnCell)*8)) = aData + uintptr(int32(maskPage)&(int32(*(*U8)(unsafe.Pointer(piCell)))<<8|int32(*(*U8)(unsafe.Pointer(piCell + 1)))))
piCell += uintptr(2)
(*CellArray)(unsafe.Pointer(bp+8)).FnCell++
goto __29
__29:
j++
goto __28
goto __30
__30:
;
k = 0
__31:
if !(k < int32((*MemPage)(unsafe.Pointer(pOld)).FnOverflow)) {
goto __33
}
*(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FapCell + uintptr((*CellArray)(unsafe.Pointer(bp+8)).FnCell)*8)) = *(*uintptr)(unsafe.Pointer(pOld + 40 + uintptr(k)*8))
(*CellArray)(unsafe.Pointer(bp+8)).FnCell++
goto __32
__32:
k++
goto __31
goto __33
__33:
;
__26:
;
piEnd = aData + uintptr((*MemPage)(unsafe.Pointer(pOld)).FcellOffset) + uintptr(2*int32((*MemPage)(unsafe.Pointer(pOld)).FnCell))
__34:
if !(piCell < piEnd) {
goto __35
}
*(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FapCell + uintptr((*CellArray)(unsafe.Pointer(bp+8)).FnCell)*8)) = aData + uintptr(int32(maskPage)&(int32(*(*U8)(unsafe.Pointer(piCell)))<<8|int32(*(*U8)(unsafe.Pointer(piCell + 1)))))
piCell += uintptr(2)
(*CellArray)(unsafe.Pointer(bp+8)).FnCell++
goto __34
__35:
;
*(*int32)(unsafe.Pointer(bp + 176 + uintptr(i)*4)) = (*CellArray)(unsafe.Pointer(bp + 8)).FnCell
if !(i < nOld-1 && !(leafData != 0)) {
goto __36
}
sz = U16(*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i)*4)))
*(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FszCell + uintptr((*CellArray)(unsafe.Pointer(bp+8)).FnCell)*2)) = sz
pTemp = aSpace1 + uintptr(iSpace1)
iSpace1 = iSpace1 + int32(sz)
libc.X__builtin___memcpy_chk(tls, pTemp, *(*uintptr)(unsafe.Pointer(bp + 136 + uintptr(i)*8)), uint64(sz), libc.X__builtin_object_size(tls, pTemp, 0))
*(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FapCell + uintptr((*CellArray)(unsafe.Pointer(bp+8)).FnCell)*8)) = pTemp + uintptr(leafCorrection)
*(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FszCell + uintptr((*CellArray)(unsafe.Pointer(bp+8)).FnCell)*2)) = U16(int32(*(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FszCell + uintptr((*CellArray)(unsafe.Pointer(bp+8)).FnCell)*2))) - int32(leafCorrection))
if !!(int32((*MemPage)(unsafe.Pointer(pOld)).Fleaf) != 0) {
goto __37
}
libc.X__builtin___memcpy_chk(tls, *(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FapCell + uintptr((*CellArray)(unsafe.Pointer(bp+8)).FnCell)*8)), (*MemPage)(unsafe.Pointer(pOld)).FaData+8, uint64(4), libc.X__builtin_object_size(tls, *(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FapCell + uintptr((*CellArray)(unsafe.Pointer(bp+8)).FnCell)*8)), 0))
goto __38
__37:
;
__39:
if !(int32(*(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FszCell + uintptr((*CellArray)(unsafe.Pointer(bp+8)).FnCell)*2))) < 4) {
goto __40
}
*(*U8)(unsafe.Pointer(aSpace1 + uintptr(libc.PostIncInt32(&iSpace1, 1)))) = U8(0x00)
*(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FszCell + uintptr((*CellArray)(unsafe.Pointer(bp+8)).FnCell)*2))++
goto __39
__40:
;
__38:
;
(*CellArray)(unsafe.Pointer(bp+8)).FnCell++
__36:
;
goto __23
__23:
i++
goto __22
goto __24
__24:
;
usableSpace = int32((*BtShared)(unsafe.Pointer(pBt)).FusableSize - U32(12) + U32(leafCorrection))
i = libc.AssignInt32(&k, 0)
__41:
if !(i < nOld) {
goto __43
}
p = *(*uintptr)(unsafe.Pointer(bp + 112 + uintptr(i)*8))
*(*uintptr)(unsafe.Pointer(bp + 8 + 32 + uintptr(k)*8)) = (*MemPage)(unsafe.Pointer(p)).FaDataEnd
*(*int32)(unsafe.Pointer(bp + 8 + 80 + uintptr(k)*4)) = *(*int32)(unsafe.Pointer(bp + 176 + uintptr(i)*4))
if !(k != 0 && *(*int32)(unsafe.Pointer(bp + 8 + 80 + uintptr(k)*4)) == *(*int32)(unsafe.Pointer(bp + 8 + 80 + uintptr(k-1)*4))) {
goto __44
}
k--
__44:
;
if !!(leafData != 0) {
goto __45
}
k++
*(*uintptr)(unsafe.Pointer(bp + 8 + 32 + uintptr(k)*8)) = (*MemPage)(unsafe.Pointer(pParent)).FaDataEnd
*(*int32)(unsafe.Pointer(bp + 8 + 80 + uintptr(k)*4)) = *(*int32)(unsafe.Pointer(bp + 176 + uintptr(i)*4)) + 1
__45:
;
*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i)*4)) = usableSpace - (*MemPage)(unsafe.Pointer(p)).FnFree
j = 0
__46:
if !(j < int32((*MemPage)(unsafe.Pointer(p)).FnOverflow)) {
goto __48
}
*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i)*4)) += 2 + int32((*struct {
f func(*libc.TLS, uintptr, uintptr) U16
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(p)).FxCellSize})).f(tls, p, *(*uintptr)(unsafe.Pointer(p + 40 + uintptr(j)*8))))
goto __47
__47:
j++
goto __46
goto __48
__48:
;
*(*int32)(unsafe.Pointer(bp + 196 + uintptr(i)*4)) = *(*int32)(unsafe.Pointer(bp + 176 + uintptr(i)*4))
goto __42
__42:
i++
k++
goto __41
goto __43
__43:
;
k = nOld
i = 0
__49:
if !(i < k) {
goto __51
}
__52:
if !(*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i)*4)) > usableSpace) {
goto __53
}
if !(i+1 >= k) {
goto __54
}
k = i + 2
if !(k > NB+2) {
goto __55
}
*(*int32)(unsafe.Pointer(bp + 172)) = Xsqlite3CorruptError(tls, 76606)
goto balance_cleanup
__55:
;
*(*int32)(unsafe.Pointer(bp + 152 + uintptr(k-1)*4)) = 0
*(*int32)(unsafe.Pointer(bp + 196 + uintptr(k-1)*4)) = (*CellArray)(unsafe.Pointer(bp + 8)).FnCell
__54:
;
sz1 = 2 + int32(cachedCellSize(tls, bp+8, *(*int32)(unsafe.Pointer(bp + 196 + uintptr(i)*4))-1))
*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i)*4)) -= sz1
if !!(leafData != 0) {
goto __56
}
if !(*(*int32)(unsafe.Pointer(bp + 196 + uintptr(i)*4)) < (*CellArray)(unsafe.Pointer(bp+8)).FnCell) {
goto __57
}
sz1 = 2 + int32(cachedCellSize(tls, bp+8, *(*int32)(unsafe.Pointer(bp + 196 + uintptr(i)*4))))
goto __58
__57:
sz1 = 0
__58:
;
__56:
;
*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i+1)*4)) += sz1
*(*int32)(unsafe.Pointer(bp + 196 + uintptr(i)*4))--
goto __52
__53:
;
__59:
if !(*(*int32)(unsafe.Pointer(bp + 196 + uintptr(i)*4)) < (*CellArray)(unsafe.Pointer(bp+8)).FnCell) {
goto __60
}
sz1 = 2 + int32(cachedCellSize(tls, bp+8, *(*int32)(unsafe.Pointer(bp + 196 + uintptr(i)*4))))
if !(*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i)*4))+sz1 > usableSpace) {
goto __61
}
goto __60
__61:
;
*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i)*4)) += sz1
*(*int32)(unsafe.Pointer(bp + 196 + uintptr(i)*4))++
if !!(leafData != 0) {
goto __62
}
if !(*(*int32)(unsafe.Pointer(bp + 196 + uintptr(i)*4)) < (*CellArray)(unsafe.Pointer(bp+8)).FnCell) {
goto __63
}
sz1 = 2 + int32(cachedCellSize(tls, bp+8, *(*int32)(unsafe.Pointer(bp + 196 + uintptr(i)*4))))
goto __64
__63:
sz1 = 0
__64:
;
__62:
;
*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i+1)*4)) -= sz1
goto __59
__60:
;
if !(*(*int32)(unsafe.Pointer(bp + 196 + uintptr(i)*4)) >= (*CellArray)(unsafe.Pointer(bp+8)).FnCell) {
goto __65
}
k = i + 1
goto __66
__65:
if !(*(*int32)(unsafe.Pointer(bp + 196 + uintptr(i)*4)) <= func() int32 {
if i > 0 {
return *(*int32)(unsafe.Pointer(bp + 196 + uintptr(i-1)*4))
}
return 0
}()) {
goto __67
}
*(*int32)(unsafe.Pointer(bp + 172)) = Xsqlite3CorruptError(tls, 76639)
goto balance_cleanup
__67:
;
__66:
;
goto __50
__50:
i++
goto __49
goto __51
__51:
;
i = k - 1
__68:
if !(i > 0) {
goto __70
}
szRight = *(*int32)(unsafe.Pointer(bp + 152 + uintptr(i)*4))
szLeft = *(*int32)(unsafe.Pointer(bp + 152 + uintptr(i-1)*4))
r = *(*int32)(unsafe.Pointer(bp + 196 + uintptr(i-1)*4)) - 1
d = r + 1 - leafData
cachedCellSize(tls, bp+8, d)
__71:
;
szR = int32(cachedCellSize(tls, bp+8, r))
szD = int32(*(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FszCell + uintptr(d)*2)))
if !(szRight != 0 &&
(bBulk != 0 || szRight+szD+2 > szLeft-(szR+func() int32 {
if i == k-1 {
return 0
}
return 2
}()))) {
goto __74
}
goto __73
__74:
;
szRight = szRight + (szD + 2)
szLeft = szLeft - (szR + 2)
*(*int32)(unsafe.Pointer(bp + 196 + uintptr(i-1)*4)) = r
r--
d--
goto __72
__72:
if r >= 0 {
goto __71
}
goto __73
__73:
;
*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i)*4)) = szRight
*(*int32)(unsafe.Pointer(bp + 152 + uintptr(i-1)*4)) = szLeft
if !(*(*int32)(unsafe.Pointer(bp + 196 + uintptr(i-1)*4)) <= func() int32 {
if i > 1 {
return *(*int32)(unsafe.Pointer(bp + 196 + uintptr(i-2)*4))
}
return 0
}()) {
goto __75
}
*(*int32)(unsafe.Pointer(bp + 172)) = Xsqlite3CorruptError(tls, 76683)
goto balance_cleanup
__75:
;
goto __69
__69:
i--
goto __68
goto __70
__70:
;
pageFlags = int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 112)))).FaData)))
i = 0
__76:
if !(i < k) {
goto __78
}
if !(i < nOld) {
goto __79
}
*(*uintptr)(unsafe.Pointer(bp + 256)) = libc.AssignPtrUintptr(bp+216+uintptr(i)*8, *(*uintptr)(unsafe.Pointer(bp + 112 + uintptr(i)*8)))
*(*uintptr)(unsafe.Pointer(bp + 112 + uintptr(i)*8)) = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 172)) = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 256)))).FpDbPage)
nNew++
if !(Xsqlite3PagerPageRefcount(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 256)))).FpDbPage) != 1+libc.Bool32(i == iParentIdx-nxDiv) &&
*(*int32)(unsafe.Pointer(bp + 172)) == SQLITE_OK) {
goto __81
}
*(*int32)(unsafe.Pointer(bp + 172)) = Xsqlite3CorruptError(tls, 76716)
__81:
;
if !(*(*int32)(unsafe.Pointer(bp + 172)) != 0) {
goto __82
}
goto balance_cleanup
__82:
;
goto __80
__79:
;
*(*int32)(unsafe.Pointer(bp + 172)) = allocateBtreePage(tls, pBt, bp+256, bp+264, func() uint32 {
if bBulk != 0 {
return uint32(1)
}
return *(*Pgno)(unsafe.Pointer(bp + 264))
}(), uint8(0))
if !(*(*int32)(unsafe.Pointer(bp + 172)) != 0) {
goto __83
}
goto balance_cleanup
__83:
;
zeroPage(tls, *(*uintptr)(unsafe.Pointer(bp + 256)), pageFlags)
*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(i)*8)) = *(*uintptr)(unsafe.Pointer(bp + 256))
nNew++
*(*int32)(unsafe.Pointer(bp + 176 + uintptr(i)*4)) = (*CellArray)(unsafe.Pointer(bp + 8)).FnCell
if !((*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0) {
goto __84
}
ptrmapPut(tls, pBt, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 256)))).Fpgno, uint8(PTRMAP_BTREE), (*MemPage)(unsafe.Pointer(pParent)).Fpgno, bp+172)
if !(*(*int32)(unsafe.Pointer(bp + 172)) != SQLITE_OK) {
goto __85
}
goto balance_cleanup
__85:
;
__84:
;
__80:
;
goto __77
__77:
i++
goto __76
goto __78
__78:
;
i = 0
__86:
if !(i < nNew) {
goto __88
}
*(*Pgno)(unsafe.Pointer(bp + 268 + uintptr(i)*4)) = (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(i)*8)))).Fpgno
goto __87
__87:
i++
goto __86
goto __88
__88:
;
i = 0
__89:
if !(i < nNew-1) {
goto __91
}
iB = i
j = i + 1
__92:
if !(j < nNew) {
goto __94
}
if !((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(j)*8)))).Fpgno < (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(iB)*8)))).Fpgno) {
goto __95
}
iB = j
__95:
;
goto __93
__93:
j++
goto __92
goto __94
__94:
;
if !(iB != i) {
goto __96
}
pgnoA = (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(i)*8)))).Fpgno
pgnoB = (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(iB)*8)))).Fpgno
pgnoTemp = U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize + U32(1)
fgA = (*DbPage)(unsafe.Pointer((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(i)*8)))).FpDbPage)).Fflags
fgB = (*DbPage)(unsafe.Pointer((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(iB)*8)))).FpDbPage)).Fflags
Xsqlite3PagerRekey(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(i)*8)))).FpDbPage, pgnoTemp, fgB)
Xsqlite3PagerRekey(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(iB)*8)))).FpDbPage, pgnoA, fgA)
Xsqlite3PagerRekey(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(i)*8)))).FpDbPage, pgnoB, fgB)
(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(i)*8)))).Fpgno = pgnoB
(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(iB)*8)))).Fpgno = pgnoA
__96:
;
goto __90
__90:
i++
goto __89
goto __91
__91:
;
Xsqlite3Put4byte(tls, pRight, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(nNew-1)*8)))).Fpgno)
if !(pageFlags&PTF_LEAF == 0 && nOld != nNew) {
goto __97
}
pOld1 = *(*uintptr)(unsafe.Pointer(func() uintptr {
if nNew > nOld {
return bp + 216
}
return bp + 112
}() + uintptr(nOld-1)*8))
libc.X__builtin___memcpy_chk(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(nNew-1)*8)))).FaData+8, (*MemPage)(unsafe.Pointer(pOld1)).FaData+8, uint64(4), libc.X__builtin_object_size(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(nNew-1)*8)))).FaData+8, 0))
__97:
;
if !((*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0) {
goto __98
}
pNew1 = libc.AssignUintptr(&pOld2, *(*uintptr)(unsafe.Pointer(bp + 216)))
cntOldNext = int32((*MemPage)(unsafe.Pointer(pNew1)).FnCell) + int32((*MemPage)(unsafe.Pointer(pNew1)).FnOverflow)
iNew = 0
iOld = 0
i = 0
__99:
if !(i < (*CellArray)(unsafe.Pointer(bp+8)).FnCell) {
goto __101
}
pCell = *(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FapCell + uintptr(i)*8))
__102:
if !(i == cntOldNext) {
goto __103
}
iOld++
if iOld < nNew {
pOld2 = *(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(iOld)*8))
} else {
pOld2 = *(*uintptr)(unsafe.Pointer(bp + 112 + uintptr(iOld)*8))
}
cntOldNext = cntOldNext + (int32((*MemPage)(unsafe.Pointer(pOld2)).FnCell) + int32((*MemPage)(unsafe.Pointer(pOld2)).FnOverflow) + libc.BoolInt32(!(leafData != 0)))
goto __102
__103:
;
if !(i == *(*int32)(unsafe.Pointer(bp + 196 + uintptr(iNew)*4))) {
goto __104
}
pNew1 = *(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(libc.PreIncInt32(&iNew, 1))*8))
if !!(leafData != 0) {
goto __105
}
goto __100
__105:
;
__104:
;
if !(iOld >= nNew ||
(*MemPage)(unsafe.Pointer(pNew1)).Fpgno != *(*Pgno)(unsafe.Pointer(bp + 268 + uintptr(iOld)*4)) ||
!(Uptr(pCell) >= Uptr((*MemPage)(unsafe.Pointer(pOld2)).FaData) && Uptr(pCell) < Uptr((*MemPage)(unsafe.Pointer(pOld2)).FaDataEnd))) {
goto __106
}
if !!(leafCorrection != 0) {
goto __107
}
ptrmapPut(tls, pBt, Xsqlite3Get4byte(tls, pCell), uint8(PTRMAP_BTREE), (*MemPage)(unsafe.Pointer(pNew1)).Fpgno, bp+172)
__107:
;
if !(int32(cachedCellSize(tls, bp+8, i)) > int32((*MemPage)(unsafe.Pointer(pNew1)).FminLocal)) {
goto __108
}
ptrmapPutOvflPtr(tls, pNew1, pOld2, pCell, bp+172)
__108:
;
if !(*(*int32)(unsafe.Pointer(bp + 172)) != 0) {
goto __109
}
goto balance_cleanup
__109:
;
__106:
;
goto __100
__100:
i++
goto __99
goto __101
__101:
;
__98:
;
i = 0
__110:
if !(i < nNew-1) {
goto __112
}
pNew2 = *(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(i)*8))
j = *(*int32)(unsafe.Pointer(bp + 196 + uintptr(i)*4))
pCell1 = *(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FapCell + uintptr(j)*8))
sz2 = int32(*(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FszCell + uintptr(j)*2))) + int32(leafCorrection)
pTemp1 = aOvflSpace + uintptr(iOvflSpace)
if !!(int32((*MemPage)(unsafe.Pointer(pNew2)).Fleaf) != 0) {
goto __113
}
libc.X__builtin___memcpy_chk(tls, (*MemPage)(unsafe.Pointer(pNew2)).FaData+8, pCell1, uint64(4), libc.X__builtin_object_size(tls, (*MemPage)(unsafe.Pointer(pNew2)).FaData+8, 0))
goto __114
__113:
if !(leafData != 0) {
goto __115
}
j--
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pNew2)).FxParseCell})).f(tls, pNew2, *(*uintptr)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FapCell + uintptr(j)*8)), bp+288)
pCell1 = pTemp1
sz2 = 4 + Xsqlite3PutVarint(tls, pCell1+4, uint64((*CellInfo)(unsafe.Pointer(bp+288)).FnKey))
pTemp1 = uintptr(0)
goto __116
__115:
pCell1 -= uintptr(4)
if !(int32(*(*U16)(unsafe.Pointer((*CellArray)(unsafe.Pointer(bp+8)).FszCell + uintptr(j)*2))) == 4) {
goto __117
}
sz2 = int32((*struct {
f func(*libc.TLS, uintptr, uintptr) U16
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pParent)).FxCellSize})).f(tls, pParent, pCell1))
__117:
;
__116:
;
__114:
;
iOvflSpace = iOvflSpace + sz2
k = 0
__118:
if !(*(*int32)(unsafe.Pointer(bp + 8 + 80 + uintptr(k)*4)) <= j && k < NB*2) {
goto __120
}
goto __119
__119:
k++
goto __118
goto __120
__120:
;
pSrcEnd = *(*uintptr)(unsafe.Pointer(bp + 8 + 32 + uintptr(k)*8))
if !(Uptr(pSrcEnd) >= Uptr(pCell1) && Uptr(pSrcEnd) < Uptr(pCell1+uintptr(sz2))) {
goto __121
}
*(*int32)(unsafe.Pointer(bp + 172)) = Xsqlite3CorruptError(tls, 76916)
goto balance_cleanup
__121:
;
*(*int32)(unsafe.Pointer(bp + 172)) = insertCell(tls, pParent, nxDiv+i, pCell1, sz2, pTemp1, (*MemPage)(unsafe.Pointer(pNew2)).Fpgno)
if !(*(*int32)(unsafe.Pointer(bp + 172)) != SQLITE_OK) {
goto __122
}
goto balance_cleanup
__122:
;
goto __111
__111:
i++
goto __110
goto __112
__112:
;
i = 1 - nNew
__123:
if !(i < nNew) {
goto __125
}
if i < 0 {
iPg = -i
} else {
iPg = i
}
if !(*(*U8)(unsafe.Pointer(bp + uintptr(iPg))) != 0) {
goto __126
}
goto __124
__126:
;
if !(i >= 0 ||
*(*int32)(unsafe.Pointer(bp + 176 + uintptr(iPg-1)*4)) >= *(*int32)(unsafe.Pointer(bp + 196 + uintptr(iPg-1)*4))) {
goto __127
}
if !(iPg == 0) {
goto __128
}
iNew1 = libc.AssignInt32(&iOld1, 0)
nNewCell = *(*int32)(unsafe.Pointer(bp + 196))
goto __129
__128:
if iPg < nOld {
iOld1 = *(*int32)(unsafe.Pointer(bp + 176 + uintptr(iPg-1)*4)) + libc.BoolInt32(!(leafData != 0))
} else {
iOld1 = (*CellArray)(unsafe.Pointer(bp + 8)).FnCell
}
iNew1 = *(*int32)(unsafe.Pointer(bp + 196 + uintptr(iPg-1)*4)) + libc.BoolInt32(!(leafData != 0))
nNewCell = *(*int32)(unsafe.Pointer(bp + 196 + uintptr(iPg)*4)) - iNew1
__129:
;
*(*int32)(unsafe.Pointer(bp + 172)) = editPage(tls, *(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(iPg)*8)), iOld1, iNew1, nNewCell, bp+8)
if !(*(*int32)(unsafe.Pointer(bp + 172)) != 0) {
goto __130
}
goto balance_cleanup
__130:
;
*(*U8)(unsafe.Pointer(bp + uintptr(iPg)))++
(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(iPg)*8)))).FnFree = usableSpace - *(*int32)(unsafe.Pointer(bp + 152 + uintptr(iPg)*4))
__127:
;
goto __124
__124:
i++
goto __123
goto __125
__125:
;
if !(isRoot != 0 && int32((*MemPage)(unsafe.Pointer(pParent)).FnCell) == 0 && int32((*MemPage)(unsafe.Pointer(pParent)).FhdrOffset) <= (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216)))).FnFree) {
goto __131
}
*(*int32)(unsafe.Pointer(bp + 172)) = defragmentPage(tls, *(*uintptr)(unsafe.Pointer(bp + 216)), -1)
copyNodeContent(tls, *(*uintptr)(unsafe.Pointer(bp + 216)), pParent, bp+172)
freePage(tls, *(*uintptr)(unsafe.Pointer(bp + 216)), bp+172)
goto __132
__131:
if !((*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0 && !(leafCorrection != 0)) {
goto __133
}
i = 0
__134:
if !(i < nNew) {
goto __136
}
key = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(i)*8)))).FaData+8)
ptrmapPut(tls, pBt, key, uint8(PTRMAP_BTREE), (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(i)*8)))).Fpgno, bp+172)
goto __135
__135:
i++
goto __134
goto __136
__136:
;
__133:
;
__132:
;
i = nNew
__137:
if !(i < nOld) {
goto __139
}
freePage(tls, *(*uintptr)(unsafe.Pointer(bp + 112 + uintptr(i)*8)), bp+172)
goto __138
__138:
i++
goto __137
goto __139
__139:
;
balance_cleanup:
Xsqlite3DbFree(tls, uintptr(0), (*CellArray)(unsafe.Pointer(bp+8)).FapCell)
i = 0
__140:
if !(i < nOld) {
goto __142
}
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 112 + uintptr(i)*8)))
goto __141
__141:
i++
goto __140
goto __142
__142:
;
i = 0
__143:
if !(i < nNew) {
goto __145
}
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 216 + uintptr(i)*8)))
goto __144
__144:
i++
goto __143
goto __145
__145:
;
return *(*int32)(unsafe.Pointer(bp + 172))
}
func balance_deeper(tls *libc.TLS, pRoot uintptr, ppChild uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
*(*Pgno)(unsafe.Pointer(bp + 8)) = Pgno(0)
var pBt uintptr = (*MemPage)(unsafe.Pointer(pRoot)).FpBt
*(*int32)(unsafe.Pointer(bp + 12)) = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(pRoot)).FpDbPage)
if *(*int32)(unsafe.Pointer(bp + 12)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 12)) = allocateBtreePage(tls, pBt, bp, bp+8, (*MemPage)(unsafe.Pointer(pRoot)).Fpgno, uint8(0))
copyNodeContent(tls, pRoot, *(*uintptr)(unsafe.Pointer(bp)), bp+12)
if (*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0 {
ptrmapPut(tls, pBt, *(*Pgno)(unsafe.Pointer(bp + 8)), uint8(PTRMAP_BTREE), (*MemPage)(unsafe.Pointer(pRoot)).Fpgno, bp+12)
}
}
if *(*int32)(unsafe.Pointer(bp + 12)) != 0 {
*(*uintptr)(unsafe.Pointer(ppChild)) = uintptr(0)
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp)))
return *(*int32)(unsafe.Pointer(bp + 12))
}
libc.X__builtin___memcpy_chk(tls, *(*uintptr)(unsafe.Pointer(bp))+28, pRoot+28, uint64((*MemPage)(unsafe.Pointer(pRoot)).FnOverflow)*uint64(unsafe.Sizeof(U16(0))), libc.X__builtin_object_size(tls, *(*uintptr)(unsafe.Pointer(bp))+28, 0))
libc.X__builtin___memcpy_chk(tls, *(*uintptr)(unsafe.Pointer(bp))+40, pRoot+40, uint64((*MemPage)(unsafe.Pointer(pRoot)).FnOverflow)*uint64(unsafe.Sizeof(uintptr(0))), libc.X__builtin_object_size(tls, *(*uintptr)(unsafe.Pointer(bp))+40, 0))
(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FnOverflow = (*MemPage)(unsafe.Pointer(pRoot)).FnOverflow
zeroPage(tls, pRoot, int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData)))&libc.CplInt32(PTF_LEAF))
Xsqlite3Put4byte(tls, (*MemPage)(unsafe.Pointer(pRoot)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pRoot)).FhdrOffset)+8), *(*Pgno)(unsafe.Pointer(bp + 8)))
*(*uintptr)(unsafe.Pointer(ppChild)) = *(*uintptr)(unsafe.Pointer(bp))
return SQLITE_OK
}
func anotherValidCursor(tls *libc.TLS, pCur uintptr) int32 {
var pOther uintptr
for pOther = (*BtShared)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpBt)).FpCursor; pOther != 0; pOther = (*BtCursor)(unsafe.Pointer(pOther)).FpNext {
if pOther != pCur &&
int32((*BtCursor)(unsafe.Pointer(pOther)).FeState) == CURSOR_VALID &&
(*BtCursor)(unsafe.Pointer(pOther)).FpPage == (*BtCursor)(unsafe.Pointer(pCur)).FpPage {
return Xsqlite3CorruptError(tls, 77146)
}
}
return SQLITE_OK
}
func balance(tls *libc.TLS, pCur uintptr) int32 {
bp := tls.Alloc(13)
defer tls.Free(13)
var rc int32 = SQLITE_OK
var pFree uintptr = uintptr(0)
for __ccgo := true; __ccgo; __ccgo = rc == SQLITE_OK {
var iPage int32
var pPage uintptr = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
if (*MemPage)(unsafe.Pointer(pPage)).FnFree < 0 && btreeComputeFreeSpace(tls, pPage) != 0 {
break
}
if int32((*MemPage)(unsafe.Pointer(pPage)).FnOverflow) == 0 && (*MemPage)(unsafe.Pointer(pPage)).FnFree*3 <= int32((*BtShared)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpBt)).FusableSize)*2 {
break
} else if libc.AssignInt32(&iPage, int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage)) == 0 {
if (*MemPage)(unsafe.Pointer(pPage)).FnOverflow != 0 && libc.AssignInt32(&rc, anotherValidCursor(tls, pCur)) == SQLITE_OK {
rc = balance_deeper(tls, pPage, pCur+144+1*8)
if rc == SQLITE_OK {
(*BtCursor)(unsafe.Pointer(pCur)).FiPage = int8(1)
(*BtCursor)(unsafe.Pointer(pCur)).Fix = U16(0)
*(*U16)(unsafe.Pointer(pCur + 88)) = U16(0)
*(*uintptr)(unsafe.Pointer(pCur + 144)) = pPage
(*BtCursor)(unsafe.Pointer(pCur)).FpPage = *(*uintptr)(unsafe.Pointer(pCur + 144 + 1*8))
}
} else {
break
}
} else if Xsqlite3PagerPageRefcount(tls, (*MemPage)(unsafe.Pointer(pPage)).FpDbPage) > 1 {
rc = Xsqlite3CorruptError(tls, 77206)
} else {
var pParent uintptr = *(*uintptr)(unsafe.Pointer(pCur + 144 + uintptr(iPage-1)*8))
var iIdx int32 = int32(*(*U16)(unsafe.Pointer(pCur + 88 + uintptr(iPage-1)*2)))
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(pParent)).FpDbPage)
if rc == SQLITE_OK && (*MemPage)(unsafe.Pointer(pParent)).FnFree < 0 {
rc = btreeComputeFreeSpace(tls, pParent)
}
if rc == SQLITE_OK {
if (*MemPage)(unsafe.Pointer(pPage)).FintKeyLeaf != 0 &&
int32((*MemPage)(unsafe.Pointer(pPage)).FnOverflow) == 1 &&
int32(*(*U16)(unsafe.Pointer(pPage + 28))) == int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) &&
(*MemPage)(unsafe.Pointer(pParent)).Fpgno != Pgno(1) &&
int32((*MemPage)(unsafe.Pointer(pParent)).FnCell) == iIdx {
rc = balance_quick(tls, pParent, pPage, bp)
} else {
var pSpace uintptr = Xsqlite3PageMalloc(tls, int32((*BtShared)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpBt)).FpageSize))
rc = balance_nonroot(tls, pParent, iIdx, pSpace, libc.Bool32(iPage == 1),
int32((*BtCursor)(unsafe.Pointer(pCur)).Fhints)&BTREE_BULKLOAD)
if pFree != 0 {
Xsqlite3PageFree(tls, pFree)
}
pFree = pSpace
}
}
(*MemPage)(unsafe.Pointer(pPage)).FnOverflow = U8(0)
releasePage(tls, pPage)
(*BtCursor)(unsafe.Pointer(pCur)).FiPage--
(*BtCursor)(unsafe.Pointer(pCur)).FpPage = *(*uintptr)(unsafe.Pointer(pCur + 144 + uintptr((*BtCursor)(unsafe.Pointer(pCur)).FiPage)*8))
}
}
if pFree != 0 {
Xsqlite3PageFree(tls, pFree)
}
return rc
}
func btreeOverwriteContent(tls *libc.TLS, pPage uintptr, pDest uintptr, pX uintptr, iOffset int32, iAmt int32) int32 {
var nData int32 = (*BtreePayload)(unsafe.Pointer(pX)).FnData - iOffset
if nData <= 0 {
var i int32
for i = 0; i < iAmt && int32(*(*U8)(unsafe.Pointer(pDest + uintptr(i)))) == 0; i++ {
}
if i < iAmt {
var rc int32 = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(pPage)).FpDbPage)
if rc != 0 {
return rc
}
libc.X__builtin___memset_chk(tls, pDest+uintptr(i), 0, uint64(iAmt-i), libc.X__builtin_object_size(tls, pDest+uintptr(i), 0))
}
} else {
if nData < iAmt {
var rc int32 = btreeOverwriteContent(tls, pPage, pDest+uintptr(nData), pX, iOffset+nData,
iAmt-nData)
if rc != 0 {
return rc
}
iAmt = nData
}
if libc.Xmemcmp(tls, pDest, (*BtreePayload)(unsafe.Pointer(pX)).FpData+uintptr(iOffset), uint64(iAmt)) != 0 {
var rc int32 = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(pPage)).FpDbPage)
if rc != 0 {
return rc
}
libc.X__builtin___memmove_chk(tls, pDest, (*BtreePayload)(unsafe.Pointer(pX)).FpData+uintptr(iOffset), uint64(iAmt), libc.X__builtin_object_size(tls, pDest, 0))
}
}
return SQLITE_OK
}
func btreeOverwriteOverflowCell(tls *libc.TLS, pCur uintptr, pX uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var iOffset int32
var nTotal int32 = (*BtreePayload)(unsafe.Pointer(pX)).FnData + (*BtreePayload)(unsafe.Pointer(pX)).FnZero
var rc int32
*(*uintptr)(unsafe.Pointer(bp)) = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
var pBt uintptr
var ovflPgno Pgno
var ovflPageSize U32
rc = btreeOverwriteContent(tls, *(*uintptr)(unsafe.Pointer(bp)), (*BtCursor)(unsafe.Pointer(pCur)).Finfo.FpPayload, pX,
0, int32((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnLocal))
if rc != 0 {
return rc
}
iOffset = int32((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnLocal)
ovflPgno = Xsqlite3Get4byte(tls, (*BtCursor)(unsafe.Pointer(pCur)).Finfo.FpPayload+uintptr(iOffset))
pBt = (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpBt
ovflPageSize = (*BtShared)(unsafe.Pointer(pBt)).FusableSize - U32(4)
for __ccgo := true; __ccgo; __ccgo = iOffset < nTotal {
rc = btreeGetPage(tls, pBt, ovflPgno, bp, 0)
if rc != 0 {
return rc
}
if Xsqlite3PagerPageRefcount(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpDbPage) != 1 || (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FisInit != 0 {
rc = Xsqlite3CorruptError(tls, 77370)
} else {
if U32(iOffset)+ovflPageSize < U32(nTotal) {
ovflPgno = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData)
} else {
ovflPageSize = U32(nTotal - iOffset)
}
rc = btreeOverwriteContent(tls, *(*uintptr)(unsafe.Pointer(bp)), (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData+uintptr(4), pX,
iOffset, int32(ovflPageSize))
}
Xsqlite3PagerUnref(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpDbPage)
if rc != 0 {
return rc
}
iOffset = int32(U32(iOffset) + ovflPageSize)
}
return SQLITE_OK
}
func btreeOverwriteCell(tls *libc.TLS, pCur uintptr, pX uintptr) int32 {
var nTotal int32 = (*BtreePayload)(unsafe.Pointer(pX)).FnData + (*BtreePayload)(unsafe.Pointer(pX)).FnZero
var pPage uintptr = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
if (*BtCursor)(unsafe.Pointer(pCur)).Finfo.FpPayload+uintptr((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnLocal) > (*MemPage)(unsafe.Pointer(pPage)).FaDataEnd ||
(*BtCursor)(unsafe.Pointer(pCur)).Finfo.FpPayload < (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr((*MemPage)(unsafe.Pointer(pPage)).FcellOffset) {
return Xsqlite3CorruptError(tls, 77398)
}
if int32((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnLocal) == nTotal {
return btreeOverwriteContent(tls, pPage, (*BtCursor)(unsafe.Pointer(pCur)).Finfo.FpPayload, pX,
0, int32((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnLocal))
} else {
return btreeOverwriteOverflowCell(tls, pCur, pX)
}
return int32(0)
}
// Insert a new record into the BTree. The content of the new record
// is described by the pX object. The pCur cursor is used only to
// define what table the record should be inserted into, and is left
// pointing at a random location.
//
// For a table btree (used for rowid tables), only the pX.nKey value of
// the key is used. The pX.pKey value must be NULL. The pX.nKey is the
// rowid or INTEGER PRIMARY KEY of the row. The pX.nData,pData,nZero fields
// hold the content of the row.
//
// For an index btree (used for indexes and WITHOUT ROWID tables), the
// key is an arbitrary byte sequence stored in pX.pKey,nKey. The
// pX.pData,nData,nZero fields must be zero.
//
// If the seekResult parameter is non-zero, then a successful call to
// sqlite3BtreeIndexMoveto() to seek cursor pCur to (pKey,nKey) has already
// been performed. In other words, if seekResult!=0 then the cursor
// is currently pointing to a cell that will be adjacent to the cell
// to be inserted. If seekResult<0 then pCur points to a cell that is
// smaller then (pKey,nKey). If seekResult>0 then pCur points to a cell
// that is larger than (pKey,nKey).
//
// If seekResult==0, that means pCur is pointing at some unknown location.
// In that case, this routine must seek the cursor to the correct insertion
// point for (pKey,nKey) before doing the insertion. For index btrees,
// if pX->nMem is non-zero, then pX->aMem contains pointers to the unpacked
// key values and pX->aMem can be used instead of pX->pKey to avoid having
// to decode the key.
func Xsqlite3BtreeInsert(tls *libc.TLS, pCur uintptr, pX uintptr, flags int32, seekResult int32) int32 {
bp := tls.Alloc(152)
defer tls.Free(152)
var idx int32
var pPage uintptr
var p uintptr
var oldCell uintptr
var newCell uintptr
var ovfl Pgno
*(*int32)(unsafe.Pointer(bp)) = seekResult
*(*int32)(unsafe.Pointer(bp + 124)) = 0
p = (*BtCursor)(unsafe.Pointer(pCur)).FpBtree
newCell = uintptr(0)
if !(int32((*BtCursor)(unsafe.Pointer(pCur)).FcurFlags)&BTCF_Multiple != 0) {
goto __1
}
*(*int32)(unsafe.Pointer(bp + 120)) = saveAllCursors(tls, (*Btree)(unsafe.Pointer(p)).FpBt, (*BtCursor)(unsafe.Pointer(pCur)).FpgnoRoot, pCur)
if !(*(*int32)(unsafe.Pointer(bp + 120)) != 0) {
goto __2
}
return *(*int32)(unsafe.Pointer(bp + 120))
__2:
;
if !(*(*int32)(unsafe.Pointer(bp)) != 0 && int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage) < 0) {
goto __3
}
return Xsqlite3CorruptError(tls, 77479)
__3:
;
__1:
;
if !(int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) >= CURSOR_REQUIRESEEK) {
goto __4
}
*(*int32)(unsafe.Pointer(bp + 120)) = moveToRoot(tls, pCur)
if !(*(*int32)(unsafe.Pointer(bp + 120)) != 0 && *(*int32)(unsafe.Pointer(bp + 120)) != SQLITE_EMPTY) {
goto __5
}
return *(*int32)(unsafe.Pointer(bp + 120))
__5:
;
__4:
;
if !((*BtCursor)(unsafe.Pointer(pCur)).FpKeyInfo == uintptr(0)) {
goto __6
}
if !((*Btree)(unsafe.Pointer(p)).FhasIncrblobCur != 0) {
goto __8
}
invalidateIncrblobCursors(tls, p, (*BtCursor)(unsafe.Pointer(pCur)).FpgnoRoot, (*BtreePayload)(unsafe.Pointer(pX)).FnKey, 0)
__8:
;
if !(int32((*BtCursor)(unsafe.Pointer(pCur)).FcurFlags)&BTCF_ValidNKey != 0 && (*BtreePayload)(unsafe.Pointer(pX)).FnKey == (*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnKey) {
goto __9
}
if !(int32((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnSize) != 0 &&
(*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnPayload == U32((*BtreePayload)(unsafe.Pointer(pX)).FnData)+U32((*BtreePayload)(unsafe.Pointer(pX)).FnZero)) {
goto __11
}
return btreeOverwriteCell(tls, pCur, pX)
__11:
;
goto __10
__9:
if !(*(*int32)(unsafe.Pointer(bp)) == 0) {
goto __12
}
*(*int32)(unsafe.Pointer(bp + 120)) = Xsqlite3BtreeTableMoveto(tls, pCur, (*BtreePayload)(unsafe.Pointer(pX)).FnKey,
libc.Bool32(flags&BTREE_APPEND != 0), bp)
if !(*(*int32)(unsafe.Pointer(bp + 120)) != 0) {
goto __13
}
return *(*int32)(unsafe.Pointer(bp + 120))
__13:
;
__12:
;
__10:
;
goto __7
__6:
;
if !(*(*int32)(unsafe.Pointer(bp)) == 0 && flags&BTREE_SAVEPOSITION == 0) {
goto __14
}
if !((*BtreePayload)(unsafe.Pointer(pX)).FnMem != 0) {
goto __15
}
(*UnpackedRecord)(unsafe.Pointer(bp + 8)).FpKeyInfo = (*BtCursor)(unsafe.Pointer(pCur)).FpKeyInfo
(*UnpackedRecord)(unsafe.Pointer(bp + 8)).FaMem = (*BtreePayload)(unsafe.Pointer(pX)).FaMem
(*UnpackedRecord)(unsafe.Pointer(bp + 8)).FnField = (*BtreePayload)(unsafe.Pointer(pX)).FnMem
(*UnpackedRecord)(unsafe.Pointer(bp + 8)).Fdefault_rc = int8(0)
(*UnpackedRecord)(unsafe.Pointer(bp + 8)).FeqSeen = U8(0)
*(*int32)(unsafe.Pointer(bp + 120)) = Xsqlite3BtreeIndexMoveto(tls, pCur, bp+8, bp)
goto __16
__15:
*(*int32)(unsafe.Pointer(bp + 120)) = btreeMoveto(tls, pCur, (*BtreePayload)(unsafe.Pointer(pX)).FpKey, (*BtreePayload)(unsafe.Pointer(pX)).FnKey,
libc.Bool32(flags&BTREE_APPEND != 0), bp)
__16:
;
if !(*(*int32)(unsafe.Pointer(bp + 120)) != 0) {
goto __17
}
return *(*int32)(unsafe.Pointer(bp + 120))
__17:
;
__14:
;
if !(*(*int32)(unsafe.Pointer(bp)) == 0) {
goto __18
}
getCellInfo(tls, pCur)
if !((*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnKey == (*BtreePayload)(unsafe.Pointer(pX)).FnKey) {
goto __19
}
(*BtreePayload)(unsafe.Pointer(bp + 48)).FpData = (*BtreePayload)(unsafe.Pointer(pX)).FpKey
(*BtreePayload)(unsafe.Pointer(bp + 48)).FnData = int32((*BtreePayload)(unsafe.Pointer(pX)).FnKey)
(*BtreePayload)(unsafe.Pointer(bp + 48)).FnZero = 0
return btreeOverwriteCell(tls, pCur, bp+48)
__19:
;
__18:
;
__7:
;
pPage = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
if !((*MemPage)(unsafe.Pointer(pPage)).FnFree < 0) {
goto __20
}
if !(int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) > CURSOR_INVALID) {
goto __21
}
*(*int32)(unsafe.Pointer(bp + 120)) = Xsqlite3CorruptError(tls, 77602)
goto __22
__21:
*(*int32)(unsafe.Pointer(bp + 120)) = btreeComputeFreeSpace(tls, pPage)
__22:
;
if !(*(*int32)(unsafe.Pointer(bp + 120)) != 0) {
goto __23
}
return *(*int32)(unsafe.Pointer(bp + 120))
__23:
;
__20:
;
newCell = (*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FpTmpSpace
if !(flags&BTREE_PREFORMAT != 0) {
goto __24
}
*(*int32)(unsafe.Pointer(bp + 120)) = SQLITE_OK
*(*int32)(unsafe.Pointer(bp + 124)) = (*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FnPreformatSize
if !(*(*int32)(unsafe.Pointer(bp + 124)) < 4) {
goto __26
}
*(*int32)(unsafe.Pointer(bp + 124)) = 4
__26:
;
if !((*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FautoVacuum != 0 && *(*int32)(unsafe.Pointer(bp + 124)) > int32((*MemPage)(unsafe.Pointer(pPage)).FmaxLocal)) {
goto __27
}
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pPage)).FxParseCell})).f(tls, pPage, newCell, bp+96)
if !((*CellInfo)(unsafe.Pointer(bp+96)).FnPayload != U32((*CellInfo)(unsafe.Pointer(bp+96)).FnLocal)) {
goto __28
}
ovfl = Xsqlite3Get4byte(tls, newCell+uintptr(*(*int32)(unsafe.Pointer(bp + 124))-4))
ptrmapPut(tls, (*Btree)(unsafe.Pointer(p)).FpBt, ovfl, uint8(PTRMAP_OVERFLOW1), (*MemPage)(unsafe.Pointer(pPage)).Fpgno, bp+120)
if !(*(*int32)(unsafe.Pointer(bp + 120)) != 0) {
goto __29
}
goto end_insert
__29:
;
__28:
;
__27:
;
goto __25
__24:
*(*int32)(unsafe.Pointer(bp + 120)) = fillInCell(tls, pPage, newCell, pX, bp+124)
if !(*(*int32)(unsafe.Pointer(bp + 120)) != 0) {
goto __30
}
goto end_insert
__30:
;
__25:
;
idx = int32((*BtCursor)(unsafe.Pointer(pCur)).Fix)
if !(*(*int32)(unsafe.Pointer(bp)) == 0) {
goto __31
}
if !(idx >= int32((*MemPage)(unsafe.Pointer(pPage)).FnCell)) {
goto __33
}
return Xsqlite3CorruptError(tls, 77640)
__33:
;
*(*int32)(unsafe.Pointer(bp + 120)) = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(pPage)).FpDbPage)
if !(*(*int32)(unsafe.Pointer(bp + 120)) != 0) {
goto __34
}
goto end_insert
__34:
;
oldCell = (*MemPage)(unsafe.Pointer(pPage)).FaData + uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*idx))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*idx) + 1)))))
if !!(int32((*MemPage)(unsafe.Pointer(pPage)).Fleaf) != 0) {
goto __35
}
libc.X__builtin___memcpy_chk(tls, newCell, oldCell, uint64(4), libc.X__builtin_object_size(tls, newCell, 0))
__35:
;
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pPage)).FxParseCell})).f(tls, pPage, oldCell, bp+128)
if !(U32((*CellInfo)(unsafe.Pointer(bp+128)).FnLocal) != (*CellInfo)(unsafe.Pointer(bp+128)).FnPayload) {
goto __36
}
*(*int32)(unsafe.Pointer(bp + 120)) = clearCellOverflow(tls, pPage, oldCell, bp+128)
goto __37
__36:
*(*int32)(unsafe.Pointer(bp + 120)) = SQLITE_OK
__37:
;
*(*U8)(unsafe.Pointer(pCur + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_ValidOvfl))
if !(int32((*CellInfo)(unsafe.Pointer(bp+128)).FnSize) == *(*int32)(unsafe.Pointer(bp + 124)) && U32((*CellInfo)(unsafe.Pointer(bp+128)).FnLocal) == (*CellInfo)(unsafe.Pointer(bp+128)).FnPayload &&
(!(int32((*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FautoVacuum) != 0) || *(*int32)(unsafe.Pointer(bp + 124)) < int32((*MemPage)(unsafe.Pointer(pPage)).FminLocal))) {
goto __38
}
if !(oldCell < (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)+uintptr(10)) {
goto __39
}
return Xsqlite3CorruptError(tls, 77667)
__39:
;
if !(oldCell+uintptr(*(*int32)(unsafe.Pointer(bp + 124))) > (*MemPage)(unsafe.Pointer(pPage)).FaDataEnd) {
goto __40
}
return Xsqlite3CorruptError(tls, 77670)
__40:
;
libc.X__builtin___memcpy_chk(tls, oldCell, newCell, uint64(*(*int32)(unsafe.Pointer(bp + 124))), libc.X__builtin_object_size(tls, oldCell, 0))
return SQLITE_OK
__38:
;
dropCell(tls, pPage, idx, int32((*CellInfo)(unsafe.Pointer(bp+128)).FnSize), bp+120)
if !(*(*int32)(unsafe.Pointer(bp + 120)) != 0) {
goto __41
}
goto end_insert
__41:
;
goto __32
__31:
if !(*(*int32)(unsafe.Pointer(bp)) < 0 && int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) > 0) {
goto __42
}
idx = int32(libc.PreIncUint16(&(*BtCursor)(unsafe.Pointer(pCur)).Fix, 1))
*(*U8)(unsafe.Pointer(pCur + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_ValidNKey))
goto __43
__42:
;
__43:
;
__32:
;
*(*int32)(unsafe.Pointer(bp + 120)) = insertCell(tls, pPage, idx, newCell, *(*int32)(unsafe.Pointer(bp + 124)), uintptr(0), uint32(0))
(*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnSize = U16(0)
if !((*MemPage)(unsafe.Pointer(pPage)).FnOverflow != 0) {
goto __44
}
*(*U8)(unsafe.Pointer(pCur + 1)) &= libc.Uint8FromInt32(libc.CplInt32(BTCF_ValidNKey))
*(*int32)(unsafe.Pointer(bp + 120)) = balance(tls, pCur)
(*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).FnOverflow = U8(0)
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_INVALID)
if !(flags&BTREE_SAVEPOSITION != 0 && *(*int32)(unsafe.Pointer(bp + 120)) == SQLITE_OK) {
goto __45
}
btreeReleaseAllCursorPages(tls, pCur)
if !((*BtCursor)(unsafe.Pointer(pCur)).FpKeyInfo != 0) {
goto __46
}
(*BtCursor)(unsafe.Pointer(pCur)).FpKey = Xsqlite3Malloc(tls, uint64((*BtreePayload)(unsafe.Pointer(pX)).FnKey))
if !((*BtCursor)(unsafe.Pointer(pCur)).FpKey == uintptr(0)) {
goto __47
}
*(*int32)(unsafe.Pointer(bp + 120)) = SQLITE_NOMEM
goto __48
__47:
libc.X__builtin___memcpy_chk(tls, (*BtCursor)(unsafe.Pointer(pCur)).FpKey, (*BtreePayload)(unsafe.Pointer(pX)).FpKey, uint64((*BtreePayload)(unsafe.Pointer(pX)).FnKey), libc.X__builtin_object_size(tls, (*BtCursor)(unsafe.Pointer(pCur)).FpKey, 0))
__48:
;
__46:
;
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_REQUIRESEEK)
(*BtCursor)(unsafe.Pointer(pCur)).FnKey = (*BtreePayload)(unsafe.Pointer(pX)).FnKey
__45:
;
__44:
;
end_insert:
return *(*int32)(unsafe.Pointer(bp + 120))
}
// This function is used as part of copying the current row from cursor
// pSrc into cursor pDest. If the cursors are open on intkey tables, then
// parameter iKey is used as the rowid value when the record is copied
// into pDest. Otherwise, the record is copied verbatim.
//
// This function does not actually write the new value to cursor pDest.
// Instead, it creates and populates any required overflow pages and
// writes the data for the new cell into the BtShared.pTmpSpace buffer
// for the destination database. The size of the cell, in bytes, is left
// in BtShared.nPreformatSize. The caller completes the insertion by
// calling sqlite3BtreeInsert() with the BTREE_PREFORMAT flag specified.
//
// SQLITE_OK is returned if successful, or an SQLite error code otherwise.
func Xsqlite3BtreeTransferRow(tls *libc.TLS, pDest uintptr, pSrc uintptr, iKey I64) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var pBt uintptr = (*BtCursor)(unsafe.Pointer(pDest)).FpBt
var aOut uintptr = (*BtShared)(unsafe.Pointer(pBt)).FpTmpSpace
var aIn uintptr
var nIn U32
var nRem U32
getCellInfo(tls, pSrc)
if (*BtCursor)(unsafe.Pointer(pSrc)).Finfo.FnPayload < U32(0x80) {
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&aOut, 1))) = U8((*BtCursor)(unsafe.Pointer(pSrc)).Finfo.FnPayload)
} else {
aOut += uintptr(Xsqlite3PutVarint(tls, aOut, uint64((*BtCursor)(unsafe.Pointer(pSrc)).Finfo.FnPayload)))
}
if (*BtCursor)(unsafe.Pointer(pDest)).FpKeyInfo == uintptr(0) {
aOut += uintptr(Xsqlite3PutVarint(tls, aOut, uint64(iKey)))
}
nIn = U32((*BtCursor)(unsafe.Pointer(pSrc)).Finfo.FnLocal)
aIn = (*BtCursor)(unsafe.Pointer(pSrc)).Finfo.FpPayload
if aIn+uintptr(nIn) > (*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pSrc)).FpPage)).FaDataEnd {
return Xsqlite3CorruptError(tls, 77773)
}
nRem = (*BtCursor)(unsafe.Pointer(pSrc)).Finfo.FnPayload
if nIn == nRem && nIn < U32((*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pDest)).FpPage)).FmaxLocal) {
libc.X__builtin___memcpy_chk(tls, aOut, aIn, uint64(nIn), libc.X__builtin_object_size(tls, aOut, 0))
(*BtShared)(unsafe.Pointer(pBt)).FnPreformatSize = int32(int64(nIn) + (int64(aOut)-int64((*BtShared)(unsafe.Pointer(pBt)).FpTmpSpace))/1)
return SQLITE_OK
} else {
*(*int32)(unsafe.Pointer(bp + 20)) = SQLITE_OK
var pSrcPager uintptr = (*BtShared)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pSrc)).FpBt)).FpPager
var pPgnoOut uintptr = uintptr(0)
var ovflIn Pgno = Pgno(0)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var pPageOut uintptr = uintptr(0)
var nOut U32
nOut = U32(btreePayloadToLocal(tls, (*BtCursor)(unsafe.Pointer(pDest)).FpPage, int64((*BtCursor)(unsafe.Pointer(pSrc)).Finfo.FnPayload)))
(*BtShared)(unsafe.Pointer(pBt)).FnPreformatSize = int32(int64(nOut) + (int64(aOut)-int64((*BtShared)(unsafe.Pointer(pBt)).FpTmpSpace))/1)
if nOut < (*BtCursor)(unsafe.Pointer(pSrc)).Finfo.FnPayload {
pPgnoOut = aOut + uintptr(nOut)
*(*int32)(unsafe.Pointer(pBt + 144)) += 4
}
if nRem > nIn {
if aIn+uintptr(nIn)+uintptr(4) > (*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pSrc)).FpPage)).FaDataEnd {
return Xsqlite3CorruptError(tls, 77798)
}
ovflIn = Xsqlite3Get4byte(tls, (*BtCursor)(unsafe.Pointer(pSrc)).Finfo.FpPayload+uintptr(nIn))
}
for __ccgo := true; __ccgo; __ccgo = nRem > U32(0) && *(*int32)(unsafe.Pointer(bp + 20)) == SQLITE_OK {
nRem = nRem - nOut
for __ccgo1 := true; __ccgo1; __ccgo1 = *(*int32)(unsafe.Pointer(bp + 20)) == SQLITE_OK && nOut > U32(0) {
if nIn > U32(0) {
var nCopy int32 = func() int32 {
if nOut < nIn {
return int32(nOut)
}
return int32(nIn)
}()
libc.X__builtin___memcpy_chk(tls, aOut, aIn, uint64(nCopy), libc.X__builtin_object_size(tls, aOut, 0))
nOut = nOut - U32(nCopy)
nIn = nIn - U32(nCopy)
aOut += uintptr(nCopy)
aIn += uintptr(nCopy)
}
if nOut > U32(0) {
Xsqlite3PagerUnref(tls, *(*uintptr)(unsafe.Pointer(bp)))
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 20)) = Xsqlite3PagerGet(tls, pSrcPager, ovflIn, bp, PAGER_GET_READONLY)
if *(*int32)(unsafe.Pointer(bp + 20)) == SQLITE_OK {
aIn = Xsqlite3PagerGetData(tls, *(*uintptr)(unsafe.Pointer(bp)))
ovflIn = Xsqlite3Get4byte(tls, aIn)
aIn += uintptr(4)
nIn = (*BtShared)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pSrc)).FpBt)).FusableSize - U32(4)
}
}
}
if *(*int32)(unsafe.Pointer(bp + 20)) == SQLITE_OK && nRem > U32(0) && pPgnoOut != 0 {
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 20)) = allocateBtreePage(tls, pBt, bp+8, bp+16, uint32(0), uint8(0))
Xsqlite3Put4byte(tls, pPgnoOut, *(*Pgno)(unsafe.Pointer(bp + 16)))
if (*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0 && pPageOut != 0 {
ptrmapPut(tls, pBt, *(*Pgno)(unsafe.Pointer(bp + 16)), uint8(PTRMAP_OVERFLOW2), (*MemPage)(unsafe.Pointer(pPageOut)).Fpgno, bp+20)
}
releasePage(tls, pPageOut)
pPageOut = *(*uintptr)(unsafe.Pointer(bp + 8))
if pPageOut != 0 {
pPgnoOut = (*MemPage)(unsafe.Pointer(pPageOut)).FaData
Xsqlite3Put4byte(tls, pPgnoOut, uint32(0))
aOut = pPgnoOut + 4
nOut = func() uint32 {
if (*BtShared)(unsafe.Pointer(pBt)).FusableSize-U32(4) < nRem {
return (*BtShared)(unsafe.Pointer(pBt)).FusableSize - U32(4)
}
return nRem
}()
}
}
}
releasePage(tls, pPageOut)
Xsqlite3PagerUnref(tls, *(*uintptr)(unsafe.Pointer(bp)))
return *(*int32)(unsafe.Pointer(bp + 20))
}
return int32(0)
}
// Delete the entry that the cursor is pointing to.
//
// If the BTREE_SAVEPOSITION bit of the flags parameter is zero, then
// the cursor is left pointing at an arbitrary location after the delete.
// But if that bit is set, then the cursor is left in a state such that
// the next call to BtreeNext() or BtreePrev() moves it to the same row
// as it would have been on if the call to BtreeDelete() had been omitted.
//
// The BTREE_AUXDELETE bit of flags indicates that is one of several deletes
// associated with a single table entry and its indexes. Only one of those
// deletes is considered the "primary" delete. The primary delete occurs
// on a cursor that is not a BTREE_FORDELETE cursor. All but one delete
// operation on non-FORDELETE cursors is tagged with the AUXDELETE flag.
// The BTREE_AUXDELETE bit is a hint that is not used by this implementation,
// but which might be used by alternative storage engines.
func Xsqlite3BtreeDelete(tls *libc.TLS, pCur uintptr, flags U8) int32 {
bp := tls.Alloc(28)
defer tls.Free(28)
var p uintptr = (*BtCursor)(unsafe.Pointer(pCur)).FpBtree
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
var pPage uintptr
var pCell uintptr
var iCellIdx int32
var iCellDepth int32
var bPreserve U8
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) != CURSOR_VALID {
if int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) >= CURSOR_REQUIRESEEK {
*(*int32)(unsafe.Pointer(bp + 24)) = btreeRestoreCursorPosition(tls, pCur)
if *(*int32)(unsafe.Pointer(bp + 24)) != 0 || int32((*BtCursor)(unsafe.Pointer(pCur)).FeState) != CURSOR_VALID {
return *(*int32)(unsafe.Pointer(bp + 24))
}
} else {
return Xsqlite3CorruptError(tls, 77894)
}
}
iCellDepth = int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage)
iCellIdx = int32((*BtCursor)(unsafe.Pointer(pCur)).Fix)
pPage = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
if int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) <= iCellIdx {
return Xsqlite3CorruptError(tls, 77903)
}
pCell = (*MemPage)(unsafe.Pointer(pPage)).FaData + uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*iCellIdx))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*iCellIdx) + 1)))))
if (*MemPage)(unsafe.Pointer(pPage)).FnFree < 0 && btreeComputeFreeSpace(tls, pPage) != 0 {
return Xsqlite3CorruptError(tls, 77907)
}
bPreserve = U8(libc.Bool32(int32(flags)&BTREE_SAVEPOSITION != 0))
if bPreserve != 0 {
if !(int32((*MemPage)(unsafe.Pointer(pPage)).Fleaf) != 0) ||
(*MemPage)(unsafe.Pointer(pPage)).FnFree+int32((*struct {
f func(*libc.TLS, uintptr, uintptr) U16
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pPage)).FxCellSize})).f(tls, pPage, pCell))+2 > int32((*BtShared)(unsafe.Pointer(pBt)).FusableSize*U32(2)/U32(3)) ||
int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) == 1 {
*(*int32)(unsafe.Pointer(bp + 24)) = saveCursorKey(tls, pCur)
if *(*int32)(unsafe.Pointer(bp + 24)) != 0 {
return *(*int32)(unsafe.Pointer(bp + 24))
}
} else {
bPreserve = U8(2)
}
}
if !(int32((*MemPage)(unsafe.Pointer(pPage)).Fleaf) != 0) {
*(*int32)(unsafe.Pointer(bp + 24)) = Xsqlite3BtreePrevious(tls, pCur, 0)
if *(*int32)(unsafe.Pointer(bp + 24)) != 0 {
return *(*int32)(unsafe.Pointer(bp + 24))
}
}
if int32((*BtCursor)(unsafe.Pointer(pCur)).FcurFlags)&BTCF_Multiple != 0 {
*(*int32)(unsafe.Pointer(bp + 24)) = saveAllCursors(tls, pBt, (*BtCursor)(unsafe.Pointer(pCur)).FpgnoRoot, pCur)
if *(*int32)(unsafe.Pointer(bp + 24)) != 0 {
return *(*int32)(unsafe.Pointer(bp + 24))
}
}
if (*BtCursor)(unsafe.Pointer(pCur)).FpKeyInfo == uintptr(0) && (*Btree)(unsafe.Pointer(p)).FhasIncrblobCur != 0 {
invalidateIncrblobCursors(tls, p, (*BtCursor)(unsafe.Pointer(pCur)).FpgnoRoot, (*BtCursor)(unsafe.Pointer(pCur)).Finfo.FnKey, 0)
}
*(*int32)(unsafe.Pointer(bp + 24)) = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(pPage)).FpDbPage)
if *(*int32)(unsafe.Pointer(bp + 24)) != 0 {
return *(*int32)(unsafe.Pointer(bp + 24))
}
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pPage)).FxParseCell})).f(tls, pPage, pCell, bp)
if U32((*CellInfo)(unsafe.Pointer(bp)).FnLocal) != (*CellInfo)(unsafe.Pointer(bp)).FnPayload {
*(*int32)(unsafe.Pointer(bp + 24)) = clearCellOverflow(tls, pPage, pCell, bp)
} else {
*(*int32)(unsafe.Pointer(bp + 24)) = SQLITE_OK
}
dropCell(tls, pPage, iCellIdx, int32((*CellInfo)(unsafe.Pointer(bp)).FnSize), bp+24)
if *(*int32)(unsafe.Pointer(bp + 24)) != 0 {
return *(*int32)(unsafe.Pointer(bp + 24))
}
if !(int32((*MemPage)(unsafe.Pointer(pPage)).Fleaf) != 0) {
var pLeaf uintptr = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
var nCell int32
var n Pgno
var pTmp uintptr
if (*MemPage)(unsafe.Pointer(pLeaf)).FnFree < 0 {
*(*int32)(unsafe.Pointer(bp + 24)) = btreeComputeFreeSpace(tls, pLeaf)
if *(*int32)(unsafe.Pointer(bp + 24)) != 0 {
return *(*int32)(unsafe.Pointer(bp + 24))
}
}
if iCellDepth < int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage)-1 {
n = (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pCur + 144 + uintptr(iCellDepth+1)*8)))).Fpgno
} else {
n = (*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).Fpgno
}
pCell = (*MemPage)(unsafe.Pointer(pLeaf)).FaData + uintptr(int32((*MemPage)(unsafe.Pointer(pLeaf)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pLeaf)).FaCellIdx + uintptr(2*(int32((*MemPage)(unsafe.Pointer(pLeaf)).FnCell)-1)))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pLeaf)).FaCellIdx + uintptr(2*(int32((*MemPage)(unsafe.Pointer(pLeaf)).FnCell)-1)) + 1)))))
if pCell < (*MemPage)(unsafe.Pointer(pLeaf)).FaData+4 {
return Xsqlite3CorruptError(tls, 77998)
}
nCell = int32((*struct {
f func(*libc.TLS, uintptr, uintptr) U16
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(pLeaf)).FxCellSize})).f(tls, pLeaf, pCell))
pTmp = (*BtShared)(unsafe.Pointer(pBt)).FpTmpSpace
*(*int32)(unsafe.Pointer(bp + 24)) = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(pLeaf)).FpDbPage)
if *(*int32)(unsafe.Pointer(bp + 24)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 24)) = insertCell(tls, pPage, iCellIdx, pCell-uintptr(4), nCell+4, pTmp, n)
}
dropCell(tls, pLeaf, int32((*MemPage)(unsafe.Pointer(pLeaf)).FnCell)-1, nCell, bp+24)
if *(*int32)(unsafe.Pointer(bp + 24)) != 0 {
return *(*int32)(unsafe.Pointer(bp + 24))
}
}
if (*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).FnFree*3 <= int32((*BtShared)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpBt)).FusableSize)*2 {
*(*int32)(unsafe.Pointer(bp + 24)) = SQLITE_OK
} else {
*(*int32)(unsafe.Pointer(bp + 24)) = balance(tls, pCur)
}
if *(*int32)(unsafe.Pointer(bp + 24)) == SQLITE_OK && int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage) > iCellDepth {
releasePageNotNull(tls, (*BtCursor)(unsafe.Pointer(pCur)).FpPage)
(*BtCursor)(unsafe.Pointer(pCur)).FiPage--
for int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage) > iCellDepth {
releasePage(tls, *(*uintptr)(unsafe.Pointer(pCur + 144 + uintptr(libc.PostDecInt8(&(*BtCursor)(unsafe.Pointer(pCur)).FiPage, 1))*8)))
}
(*BtCursor)(unsafe.Pointer(pCur)).FpPage = *(*uintptr)(unsafe.Pointer(pCur + 144 + uintptr((*BtCursor)(unsafe.Pointer(pCur)).FiPage)*8))
*(*int32)(unsafe.Pointer(bp + 24)) = balance(tls, pCur)
}
if *(*int32)(unsafe.Pointer(bp + 24)) == SQLITE_OK {
if int32(bPreserve) > 1 {
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_SKIPNEXT)
if iCellIdx >= int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) {
(*BtCursor)(unsafe.Pointer(pCur)).FskipNext = -1
(*BtCursor)(unsafe.Pointer(pCur)).Fix = U16(int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) - 1)
} else {
(*BtCursor)(unsafe.Pointer(pCur)).FskipNext = 1
}
} else {
*(*int32)(unsafe.Pointer(bp + 24)) = moveToRoot(tls, pCur)
if bPreserve != 0 {
btreeReleaseAllCursorPages(tls, pCur)
(*BtCursor)(unsafe.Pointer(pCur)).FeState = U8(CURSOR_REQUIRESEEK)
}
if *(*int32)(unsafe.Pointer(bp + 24)) == SQLITE_EMPTY {
*(*int32)(unsafe.Pointer(bp + 24)) = SQLITE_OK
}
}
}
return *(*int32)(unsafe.Pointer(bp + 24))
}
func btreeCreateTable(tls *libc.TLS, p uintptr, piTable uintptr, createTabFlags int32) int32 {
bp := tls.Alloc(44)
defer tls.Free(44)
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
var ptfFlags int32
if (*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0 {
invalidateAllOverflowCache(tls, pBt)
Xsqlite3BtreeGetMeta(tls, p, BTREE_LARGEST_ROOT_PAGE, bp)
if *(*Pgno)(unsafe.Pointer(bp)) > btreePagecount(tls, pBt) {
return Xsqlite3CorruptError(tls, 78114)
}
*(*Pgno)(unsafe.Pointer(bp))++
for *(*Pgno)(unsafe.Pointer(bp)) == ptrmapPageno(tls, pBt, *(*Pgno)(unsafe.Pointer(bp))) || *(*Pgno)(unsafe.Pointer(bp)) == U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize+U32(1) {
*(*Pgno)(unsafe.Pointer(bp))++
}
*(*int32)(unsafe.Pointer(bp + 40)) = allocateBtreePage(tls, pBt, bp+8, bp+16, *(*Pgno)(unsafe.Pointer(bp)), uint8(BTALLOC_EXACT))
if *(*int32)(unsafe.Pointer(bp + 40)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp + 40))
}
if *(*Pgno)(unsafe.Pointer(bp + 16)) != *(*Pgno)(unsafe.Pointer(bp)) {
*(*U8)(unsafe.Pointer(bp + 32)) = U8(0)
*(*Pgno)(unsafe.Pointer(bp + 36)) = Pgno(0)
*(*int32)(unsafe.Pointer(bp + 40)) = saveAllCursors(tls, pBt, uint32(0), uintptr(0))
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
if *(*int32)(unsafe.Pointer(bp + 40)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp + 40))
}
*(*int32)(unsafe.Pointer(bp + 40)) = btreeGetPage(tls, pBt, *(*Pgno)(unsafe.Pointer(bp)), bp+24, 0)
if *(*int32)(unsafe.Pointer(bp + 40)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp + 40))
}
*(*int32)(unsafe.Pointer(bp + 40)) = ptrmapGet(tls, pBt, *(*Pgno)(unsafe.Pointer(bp)), bp+32, bp+36)
if int32(*(*U8)(unsafe.Pointer(bp + 32))) == PTRMAP_ROOTPAGE || int32(*(*U8)(unsafe.Pointer(bp + 32))) == PTRMAP_FREEPAGE {
*(*int32)(unsafe.Pointer(bp + 40)) = Xsqlite3CorruptError(tls, 78162)
}
if *(*int32)(unsafe.Pointer(bp + 40)) != SQLITE_OK {
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
return *(*int32)(unsafe.Pointer(bp + 40))
}
*(*int32)(unsafe.Pointer(bp + 40)) = relocatePage(tls, pBt, *(*uintptr)(unsafe.Pointer(bp + 24)), *(*U8)(unsafe.Pointer(bp + 32)), *(*Pgno)(unsafe.Pointer(bp + 36)), *(*Pgno)(unsafe.Pointer(bp + 16)), 0)
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
if *(*int32)(unsafe.Pointer(bp + 40)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp + 40))
}
*(*int32)(unsafe.Pointer(bp + 40)) = btreeGetPage(tls, pBt, *(*Pgno)(unsafe.Pointer(bp)), bp+24, 0)
if *(*int32)(unsafe.Pointer(bp + 40)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp + 40))
}
*(*int32)(unsafe.Pointer(bp + 40)) = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 24)))).FpDbPage)
if *(*int32)(unsafe.Pointer(bp + 40)) != SQLITE_OK {
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
return *(*int32)(unsafe.Pointer(bp + 40))
}
} else {
*(*uintptr)(unsafe.Pointer(bp + 24)) = *(*uintptr)(unsafe.Pointer(bp + 8))
}
ptrmapPut(tls, pBt, *(*Pgno)(unsafe.Pointer(bp)), uint8(PTRMAP_ROOTPAGE), uint32(0), bp+40)
if *(*int32)(unsafe.Pointer(bp + 40)) != 0 {
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
return *(*int32)(unsafe.Pointer(bp + 40))
}
*(*int32)(unsafe.Pointer(bp + 40)) = Xsqlite3BtreeUpdateMeta(tls, p, 4, *(*Pgno)(unsafe.Pointer(bp)))
if *(*int32)(unsafe.Pointer(bp + 40)) != 0 {
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
return *(*int32)(unsafe.Pointer(bp + 40))
}
} else {
*(*int32)(unsafe.Pointer(bp + 40)) = allocateBtreePage(tls, pBt, bp+24, bp, uint32(1), uint8(0))
if *(*int32)(unsafe.Pointer(bp + 40)) != 0 {
return *(*int32)(unsafe.Pointer(bp + 40))
}
}
if createTabFlags&BTREE_INTKEY != 0 {
ptfFlags = PTF_INTKEY | PTF_LEAFDATA | PTF_LEAF
} else {
ptfFlags = PTF_ZERODATA | PTF_LEAF
}
zeroPage(tls, *(*uintptr)(unsafe.Pointer(bp + 24)), ptfFlags)
Xsqlite3PagerUnref(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 24)))).FpDbPage)
*(*Pgno)(unsafe.Pointer(piTable)) = *(*Pgno)(unsafe.Pointer(bp))
return SQLITE_OK
}
func Xsqlite3BtreeCreateTable(tls *libc.TLS, p uintptr, piTable uintptr, flags int32) int32 {
var rc int32
Xsqlite3BtreeEnter(tls, p)
rc = btreeCreateTable(tls, p, piTable, flags)
Xsqlite3BtreeLeave(tls, p)
return rc
}
func clearDatabasePage(tls *libc.TLS, pBt uintptr, pgno Pgno, freePageFlag int32, pnChange uintptr) int32 {
bp := tls.Alloc(36)
defer tls.Free(36)
var pCell uintptr
var i int32
var hdr int32
if !(pgno > btreePagecount(tls, pBt)) {
goto __1
}
return Xsqlite3CorruptError(tls, 78252)
__1:
;
*(*int32)(unsafe.Pointer(bp + 32)) = getAndInitPage(tls, pBt, pgno, bp, uintptr(0), 0)
if !(*(*int32)(unsafe.Pointer(bp + 32)) != 0) {
goto __2
}
return *(*int32)(unsafe.Pointer(bp + 32))
__2:
;
if !(int32((*BtShared)(unsafe.Pointer(pBt)).FopenFlags)&BTREE_SINGLE == 0 &&
Xsqlite3PagerPageRefcount(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpDbPage) != 1+libc.Bool32(pgno == Pgno(1))) {
goto __3
}
*(*int32)(unsafe.Pointer(bp + 32)) = Xsqlite3CorruptError(tls, 78259)
goto cleardatabasepage_out
__3:
;
hdr = int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FhdrOffset)
i = 0
__4:
if !(i < int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FnCell)) {
goto __6
}
pCell = (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData + uintptr(int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaCellIdx + uintptr(2*i))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaCellIdx + uintptr(2*i) + 1)))))
if !!(int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Fleaf) != 0) {
goto __7
}
*(*int32)(unsafe.Pointer(bp + 32)) = clearDatabasePage(tls, pBt, Xsqlite3Get4byte(tls, pCell), 1, pnChange)
if !(*(*int32)(unsafe.Pointer(bp + 32)) != 0) {
goto __8
}
goto cleardatabasepage_out
__8:
;
__7:
;
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FxParseCell})).f(tls, *(*uintptr)(unsafe.Pointer(bp)), pCell, bp+8)
if !(U32((*CellInfo)(unsafe.Pointer(bp+8)).FnLocal) != (*CellInfo)(unsafe.Pointer(bp+8)).FnPayload) {
goto __9
}
*(*int32)(unsafe.Pointer(bp + 32)) = clearCellOverflow(tls, *(*uintptr)(unsafe.Pointer(bp)), pCell, bp+8)
goto __10
__9:
*(*int32)(unsafe.Pointer(bp + 32)) = SQLITE_OK
__10:
;
if !(*(*int32)(unsafe.Pointer(bp + 32)) != 0) {
goto __11
}
goto cleardatabasepage_out
__11:
;
goto __5
__5:
i++
goto __4
goto __6
__6:
;
if !!(int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Fleaf) != 0) {
goto __12
}
*(*int32)(unsafe.Pointer(bp + 32)) = clearDatabasePage(tls, pBt, Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData+uintptr(hdr+8)), 1, pnChange)
if !(*(*int32)(unsafe.Pointer(bp + 32)) != 0) {
goto __13
}
goto cleardatabasepage_out
__13:
;
if !((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FintKey != 0) {
goto __14
}
pnChange = uintptr(0)
__14:
;
__12:
;
if !(pnChange != 0) {
goto __15
}
*(*I64)(unsafe.Pointer(pnChange)) += I64((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FnCell)
__15:
;
if !(freePageFlag != 0) {
goto __16
}
freePage(tls, *(*uintptr)(unsafe.Pointer(bp)), bp+32)
goto __17
__16:
if !(libc.AssignPtrInt32(bp+32, Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpDbPage)) == 0) {
goto __18
}
zeroPage(tls, *(*uintptr)(unsafe.Pointer(bp)), int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaData + uintptr(hdr))))|PTF_LEAF)
__18:
;
__17:
;
cleardatabasepage_out:
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp)))
return *(*int32)(unsafe.Pointer(bp + 32))
}
// Delete all information from a single table in the database. iTable is
// the page number of the root of the table. After this routine returns,
// the root page is empty, but still exists.
//
// This routine will fail with SQLITE_LOCKED if there are any open
// read cursors on the table. Open write cursors are moved to the
// root of the table.
//
// If pnChange is not NULL, then the integer value pointed to by pnChange
// is incremented by the number of entries in the table.
func Xsqlite3BtreeClearTable(tls *libc.TLS, p uintptr, iTable int32, pnChange uintptr) int32 {
var rc int32
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3BtreeEnter(tls, p)
rc = saveAllCursors(tls, pBt, Pgno(iTable), uintptr(0))
if SQLITE_OK == rc {
if (*Btree)(unsafe.Pointer(p)).FhasIncrblobCur != 0 {
invalidateIncrblobCursors(tls, p, Pgno(iTable), int64(0), 1)
}
rc = clearDatabasePage(tls, pBt, Pgno(iTable), 0, pnChange)
}
Xsqlite3BtreeLeave(tls, p)
return rc
}
// Delete all information from the single table that pCur is open on.
//
// This routine only work for pCur on an ephemeral table.
func Xsqlite3BtreeClearTableOfCursor(tls *libc.TLS, pCur uintptr) int32 {
return Xsqlite3BtreeClearTable(tls, (*BtCursor)(unsafe.Pointer(pCur)).FpBtree, int32((*BtCursor)(unsafe.Pointer(pCur)).FpgnoRoot), uintptr(0))
}
func btreeDropTable(tls *libc.TLS, p uintptr, iTable Pgno, piMoved uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
if iTable > btreePagecount(tls, pBt) {
return Xsqlite3CorruptError(tls, 78363)
}
*(*int32)(unsafe.Pointer(bp + 12)) = Xsqlite3BtreeClearTable(tls, p, int32(iTable), uintptr(0))
if *(*int32)(unsafe.Pointer(bp + 12)) != 0 {
return *(*int32)(unsafe.Pointer(bp + 12))
}
*(*int32)(unsafe.Pointer(bp + 12)) = btreeGetPage(tls, pBt, iTable, bp, 0)
if *(*int32)(unsafe.Pointer(bp + 12)) != 0 {
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp)))
return *(*int32)(unsafe.Pointer(bp + 12))
}
*(*int32)(unsafe.Pointer(piMoved)) = 0
if (*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0 {
Xsqlite3BtreeGetMeta(tls, p, BTREE_LARGEST_ROOT_PAGE, bp+8)
if iTable == *(*Pgno)(unsafe.Pointer(bp + 8)) {
freePage(tls, *(*uintptr)(unsafe.Pointer(bp)), bp+12)
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp)))
if *(*int32)(unsafe.Pointer(bp + 12)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp + 12))
}
} else {
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp)))
*(*int32)(unsafe.Pointer(bp + 12)) = btreeGetPage(tls, pBt, *(*Pgno)(unsafe.Pointer(bp + 8)), bp+16, 0)
if *(*int32)(unsafe.Pointer(bp + 12)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp + 12))
}
*(*int32)(unsafe.Pointer(bp + 12)) = relocatePage(tls, pBt, *(*uintptr)(unsafe.Pointer(bp + 16)), uint8(PTRMAP_ROOTPAGE), uint32(0), iTable, 0)
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
if *(*int32)(unsafe.Pointer(bp + 12)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp + 12))
}
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 12)) = btreeGetPage(tls, pBt, *(*Pgno)(unsafe.Pointer(bp + 8)), bp+16, 0)
freePage(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), bp+12)
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
if *(*int32)(unsafe.Pointer(bp + 12)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp + 12))
}
*(*int32)(unsafe.Pointer(piMoved)) = int32(*(*Pgno)(unsafe.Pointer(bp + 8)))
}
*(*Pgno)(unsafe.Pointer(bp + 8))--
for *(*Pgno)(unsafe.Pointer(bp + 8)) == U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize+U32(1) ||
ptrmapPageno(tls, pBt, *(*Pgno)(unsafe.Pointer(bp + 8))) == *(*Pgno)(unsafe.Pointer(bp + 8)) {
*(*Pgno)(unsafe.Pointer(bp + 8))--
}
*(*int32)(unsafe.Pointer(bp + 12)) = Xsqlite3BtreeUpdateMeta(tls, p, 4, *(*Pgno)(unsafe.Pointer(bp + 8)))
} else {
freePage(tls, *(*uintptr)(unsafe.Pointer(bp)), bp+12)
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
return *(*int32)(unsafe.Pointer(bp + 12))
}
func Xsqlite3BtreeDropTable(tls *libc.TLS, p uintptr, iTable int32, piMoved uintptr) int32 {
var rc int32
Xsqlite3BtreeEnter(tls, p)
rc = btreeDropTable(tls, p, uint32(iTable), piMoved)
Xsqlite3BtreeLeave(tls, p)
return rc
}
// This function may only be called if the b-tree connection already
// has a read or write transaction open on the database.
//
// Read the meta-information out of a database file. Meta[0]
// is the number of free pages currently in the database. Meta[1]
// through meta[15] are available for use by higher layers. Meta[0]
// is read-only, the others are read/write.
//
// The schema layer numbers meta values differently. At the schema
// layer (and the SetCookie and ReadCookie opcodes) the number of
// free pages is not visible. So Cookie[0] is the same as Meta[1].
//
// This routine treats Meta[BTREE_DATA_VERSION] as a special case. Instead
// of reading the value out of the header, it instead loads the "DataVersion"
// from the pager. The BTREE_DATA_VERSION value is not actually stored in the
// database file. It is a number computed by the pager. But its access
// pattern is the same as header meta values, and so it is convenient to
// read it from this routine.
func Xsqlite3BtreeGetMeta(tls *libc.TLS, p uintptr, idx int32, pMeta uintptr) {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3BtreeEnter(tls, p)
if idx == BTREE_DATA_VERSION {
*(*U32)(unsafe.Pointer(pMeta)) = Xsqlite3PagerDataVersion(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager) + (*Btree)(unsafe.Pointer(p)).FiBDataVersion
} else {
*(*U32)(unsafe.Pointer(pMeta)) = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData+uintptr(36+idx*4))
}
Xsqlite3BtreeLeave(tls, p)
}
// Write meta-information back into the database. Meta[0] is
// read-only and may not be written.
func Xsqlite3BtreeUpdateMeta(tls *libc.TLS, p uintptr, idx int32, iMeta U32) int32 {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
var pP1 uintptr
var rc int32
Xsqlite3BtreeEnter(tls, p)
pP1 = (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FpDbPage)
if rc == SQLITE_OK {
Xsqlite3Put4byte(tls, pP1+uintptr(36+idx*4), iMeta)
if idx == BTREE_INCR_VACUUM {
(*BtShared)(unsafe.Pointer(pBt)).FincrVacuum = U8(iMeta)
}
}
Xsqlite3BtreeLeave(tls, p)
return rc
}
// The first argument, pCur, is a cursor opened on some b-tree. Count the
// number of entries in the b-tree and write the result to *pnEntry.
//
// SQLITE_OK is returned if the operation is successfully executed.
// Otherwise, if an error is encountered (i.e. an IO error or database
// corruption) an SQLite error code is returned.
func Xsqlite3BtreeCount(tls *libc.TLS, db uintptr, pCur uintptr, pnEntry uintptr) int32 {
var nEntry I64 = int64(0)
var rc int32
rc = moveToRoot(tls, pCur)
if rc == SQLITE_EMPTY {
*(*I64)(unsafe.Pointer(pnEntry)) = int64(0)
return SQLITE_OK
}
for rc == SQLITE_OK && !(*(*int32)(unsafe.Pointer(db + 432)) != 0) {
var iIdx int32
var pPage uintptr
pPage = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
if (*MemPage)(unsafe.Pointer(pPage)).Fleaf != 0 || !(int32((*MemPage)(unsafe.Pointer(pPage)).FintKey) != 0) {
nEntry = nEntry + I64((*MemPage)(unsafe.Pointer(pPage)).FnCell)
}
if (*MemPage)(unsafe.Pointer(pPage)).Fleaf != 0 {
for __ccgo := true; __ccgo; __ccgo = int32((*BtCursor)(unsafe.Pointer(pCur)).Fix) >= int32((*MemPage)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpPage)).FnCell) {
if int32((*BtCursor)(unsafe.Pointer(pCur)).FiPage) == 0 {
*(*I64)(unsafe.Pointer(pnEntry)) = nEntry
return moveToRoot(tls, pCur)
}
moveToParent(tls, pCur)
}
(*BtCursor)(unsafe.Pointer(pCur)).Fix++
pPage = (*BtCursor)(unsafe.Pointer(pCur)).FpPage
}
iIdx = int32((*BtCursor)(unsafe.Pointer(pCur)).Fix)
if iIdx == int32((*MemPage)(unsafe.Pointer(pPage)).FnCell) {
rc = moveToChild(tls, pCur, Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FhdrOffset)+8)))
} else {
rc = moveToChild(tls, pCur, Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer(pPage)).FaData+uintptr(int32((*MemPage)(unsafe.Pointer(pPage)).FmaskPage)&(int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*iIdx))))<<8|int32(*(*U8)(unsafe.Pointer((*MemPage)(unsafe.Pointer(pPage)).FaCellIdx + uintptr(2*iIdx) + 1)))))))
}
}
return rc
}
// Return the pager associated with a BTree. This routine is used for
// testing and debugging only.
func Xsqlite3BtreePager(tls *libc.TLS, p uintptr) uintptr {
return (*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FpPager
}
func checkOom(tls *libc.TLS, pCheck uintptr) {
(*IntegrityCk)(unsafe.Pointer(pCheck)).Frc = SQLITE_NOMEM
(*IntegrityCk)(unsafe.Pointer(pCheck)).FmxErr = 0
if (*IntegrityCk)(unsafe.Pointer(pCheck)).FnErr == 0 {
(*IntegrityCk)(unsafe.Pointer(pCheck)).FnErr++
}
}
func checkProgress(tls *libc.TLS, pCheck uintptr) {
var db uintptr = (*IntegrityCk)(unsafe.Pointer(pCheck)).Fdb
if *(*int32)(unsafe.Pointer(db + 432)) != 0 {
(*IntegrityCk)(unsafe.Pointer(pCheck)).Frc = SQLITE_INTERRUPT
(*IntegrityCk)(unsafe.Pointer(pCheck)).FnErr++
(*IntegrityCk)(unsafe.Pointer(pCheck)).FmxErr = 0
}
if (*Sqlite3)(unsafe.Pointer(db)).FxProgress != 0 {
(*IntegrityCk)(unsafe.Pointer(pCheck)).FnStep++
if (*IntegrityCk)(unsafe.Pointer(pCheck)).FnStep%(*Sqlite3)(unsafe.Pointer(db)).FnProgressOps == U32(0) &&
(*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxProgress})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpProgressArg) != 0 {
(*IntegrityCk)(unsafe.Pointer(pCheck)).Frc = SQLITE_INTERRUPT
(*IntegrityCk)(unsafe.Pointer(pCheck)).FnErr++
(*IntegrityCk)(unsafe.Pointer(pCheck)).FmxErr = 0
}
}
}
func checkAppendMsg(tls *libc.TLS, pCheck uintptr, zFormat uintptr, va uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
var ap Va_list
_ = ap
checkProgress(tls, pCheck)
if !((*IntegrityCk)(unsafe.Pointer(pCheck)).FmxErr != 0) {
return
}
(*IntegrityCk)(unsafe.Pointer(pCheck)).FmxErr--
(*IntegrityCk)(unsafe.Pointer(pCheck)).FnErr++
ap = va
if (*IntegrityCk)(unsafe.Pointer(pCheck)).FerrMsg.FnChar != 0 {
Xsqlite3_str_append(tls, pCheck+64, ts+4465, 1)
}
if (*IntegrityCk)(unsafe.Pointer(pCheck)).FzPfx != 0 {
Xsqlite3_str_appendf(tls, pCheck+64, (*IntegrityCk)(unsafe.Pointer(pCheck)).FzPfx, libc.VaList(bp, (*IntegrityCk)(unsafe.Pointer(pCheck)).Fv1, (*IntegrityCk)(unsafe.Pointer(pCheck)).Fv2))
}
Xsqlite3_str_vappendf(tls, pCheck+64, zFormat, ap)
_ = ap
if int32((*IntegrityCk)(unsafe.Pointer(pCheck)).FerrMsg.FaccError) == SQLITE_NOMEM {
checkOom(tls, pCheck)
}
}
func getPageReferenced(tls *libc.TLS, pCheck uintptr, iPg Pgno) int32 {
return int32(*(*U8)(unsafe.Pointer((*IntegrityCk)(unsafe.Pointer(pCheck)).FaPgRef + uintptr(iPg/Pgno(8))))) & (int32(1) << (iPg & Pgno(0x07)))
}
func setPageReferenced(tls *libc.TLS, pCheck uintptr, iPg Pgno) {
*(*U8)(unsafe.Pointer((*IntegrityCk)(unsafe.Pointer(pCheck)).FaPgRef + uintptr(iPg/Pgno(8)))) |= U8(int32(1) << (iPg & Pgno(0x07)))
}
func checkRef(tls *libc.TLS, pCheck uintptr, iPage Pgno) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
if iPage > (*IntegrityCk)(unsafe.Pointer(pCheck)).FnPage || iPage == Pgno(0) {
checkAppendMsg(tls, pCheck, ts+4467, libc.VaList(bp, iPage))
return 1
}
if getPageReferenced(tls, pCheck, iPage) != 0 {
checkAppendMsg(tls, pCheck, ts+4490, libc.VaList(bp+8, iPage))
return 1
}
setPageReferenced(tls, pCheck, iPage)
return 0
}
func checkPtrmap(tls *libc.TLS, pCheck uintptr, iChild Pgno, eType U8, iParent Pgno) {
bp := tls.Alloc(56)
defer tls.Free(56)
var rc int32
rc = ptrmapGet(tls, (*IntegrityCk)(unsafe.Pointer(pCheck)).FpBt, iChild, bp+48, bp+52)
if rc != SQLITE_OK {
if rc == SQLITE_NOMEM || rc == SQLITE_IOERR|int32(12)<<8 {
checkOom(tls, pCheck)
}
checkAppendMsg(tls, pCheck, ts+4515, libc.VaList(bp, iChild))
return
}
if int32(*(*U8)(unsafe.Pointer(bp + 48))) != int32(eType) || *(*Pgno)(unsafe.Pointer(bp + 52)) != iParent {
checkAppendMsg(tls, pCheck,
ts+4544,
libc.VaList(bp+8, iChild, int32(eType), iParent, int32(*(*U8)(unsafe.Pointer(bp + 48))), *(*Pgno)(unsafe.Pointer(bp + 52))))
}
}
func checkList(tls *libc.TLS, pCheck uintptr, isFreeList int32, iPage Pgno, N U32) {
bp := tls.Alloc(48)
defer tls.Free(48)
var i int32
var expected U32 = N
var nErrAtStart int32 = (*IntegrityCk)(unsafe.Pointer(pCheck)).FnErr
for iPage != Pgno(0) && (*IntegrityCk)(unsafe.Pointer(pCheck)).FmxErr != 0 {
var pOvflData uintptr
if checkRef(tls, pCheck, iPage) != 0 {
break
}
N--
if Xsqlite3PagerGet(tls, (*IntegrityCk)(unsafe.Pointer(pCheck)).FpPager, iPage, bp+40, 0) != 0 {
checkAppendMsg(tls, pCheck, ts+4598, libc.VaList(bp, iPage))
break
}
pOvflData = Xsqlite3PagerGetData(tls, *(*uintptr)(unsafe.Pointer(bp + 40)))
if isFreeList != 0 {
var n U32 = Xsqlite3Get4byte(tls, pOvflData+4)
if (*BtShared)(unsafe.Pointer((*IntegrityCk)(unsafe.Pointer(pCheck)).FpBt)).FautoVacuum != 0 {
checkPtrmap(tls, pCheck, iPage, uint8(PTRMAP_FREEPAGE), uint32(0))
}
if n > (*BtShared)(unsafe.Pointer((*IntegrityCk)(unsafe.Pointer(pCheck)).FpBt)).FusableSize/U32(4)-U32(2) {
checkAppendMsg(tls, pCheck,
ts+4620, libc.VaList(bp+8, iPage))
N--
} else {
for i = 0; i < int32(n); i++ {
var iFreePage Pgno = Xsqlite3Get4byte(tls, pOvflData+uintptr(8+i*4))
if (*BtShared)(unsafe.Pointer((*IntegrityCk)(unsafe.Pointer(pCheck)).FpBt)).FautoVacuum != 0 {
checkPtrmap(tls, pCheck, iFreePage, uint8(PTRMAP_FREEPAGE), uint32(0))
}
checkRef(tls, pCheck, iFreePage)
}
N = N - n
}
} else {
if (*BtShared)(unsafe.Pointer((*IntegrityCk)(unsafe.Pointer(pCheck)).FpBt)).FautoVacuum != 0 && N > U32(0) {
i = int32(Xsqlite3Get4byte(tls, pOvflData))
checkPtrmap(tls, pCheck, uint32(i), uint8(PTRMAP_OVERFLOW2), iPage)
}
}
iPage = Xsqlite3Get4byte(tls, pOvflData)
Xsqlite3PagerUnref(tls, *(*uintptr)(unsafe.Pointer(bp + 40)))
}
if N != 0 && nErrAtStart == (*IntegrityCk)(unsafe.Pointer(pCheck)).FnErr {
checkAppendMsg(tls, pCheck,
ts+4659,
libc.VaList(bp+16, func() uintptr {
if isFreeList != 0 {
return ts + 4685
}
return ts + 4690
}(),
expected-N, expected))
}
}
func btreeHeapInsert(tls *libc.TLS, aHeap uintptr, x U32) {
var j U32
var i U32
i = libc.PreIncUint32(&*(*U32)(unsafe.Pointer(aHeap)), 1)
*(*U32)(unsafe.Pointer(aHeap + uintptr(i)*4)) = x
for libc.AssignUint32(&j, i/U32(2)) > U32(0) && *(*U32)(unsafe.Pointer(aHeap + uintptr(j)*4)) > *(*U32)(unsafe.Pointer(aHeap + uintptr(i)*4)) {
x = *(*U32)(unsafe.Pointer(aHeap + uintptr(j)*4))
*(*U32)(unsafe.Pointer(aHeap + uintptr(j)*4)) = *(*U32)(unsafe.Pointer(aHeap + uintptr(i)*4))
*(*U32)(unsafe.Pointer(aHeap + uintptr(i)*4)) = x
i = j
}
}
func btreeHeapPull(tls *libc.TLS, aHeap uintptr, pOut uintptr) int32 {
var j U32
var i U32
var x U32
if libc.AssignUint32(&x, *(*U32)(unsafe.Pointer(aHeap))) == U32(0) {
return 0
}
*(*U32)(unsafe.Pointer(pOut)) = *(*U32)(unsafe.Pointer(aHeap + 1*4))
*(*U32)(unsafe.Pointer(aHeap + 1*4)) = *(*U32)(unsafe.Pointer(aHeap + uintptr(x)*4))
*(*U32)(unsafe.Pointer(aHeap + uintptr(x)*4)) = 0xffffffff
*(*U32)(unsafe.Pointer(aHeap))--
i = U32(1)
for libc.AssignUint32(&j, i*U32(2)) <= *(*U32)(unsafe.Pointer(aHeap)) {
if *(*U32)(unsafe.Pointer(aHeap + uintptr(j)*4)) > *(*U32)(unsafe.Pointer(aHeap + uintptr(j+U32(1))*4)) {
j++
}
if *(*U32)(unsafe.Pointer(aHeap + uintptr(i)*4)) < *(*U32)(unsafe.Pointer(aHeap + uintptr(j)*4)) {
break
}
x = *(*U32)(unsafe.Pointer(aHeap + uintptr(i)*4))
*(*U32)(unsafe.Pointer(aHeap + uintptr(i)*4)) = *(*U32)(unsafe.Pointer(aHeap + uintptr(j)*4))
*(*U32)(unsafe.Pointer(aHeap + uintptr(j)*4)) = x
i = j
}
return 1
}
func checkTreePage(tls *libc.TLS, pCheck uintptr, iPage Pgno, piMinKey uintptr, maxKey I64) int32 {
bp := tls.Alloc(140)
defer tls.Free(140)
*(*I64)(unsafe.Pointer(bp + 104)) = maxKey
var i int32
var rc int32
var depth int32
var d2 int32
var pgno int32
var nFrag int32
var hdr int32
var cellStart int32
var nCell int32
var doCoverageCheck int32
var keyCanBeEqual int32
var data uintptr
var pCell uintptr
var pCellIdx uintptr
var pBt uintptr
var pc U32
var usableSize U32
var contentOffset U32
var heap uintptr
var prev U32
var saved_zPfx uintptr
var saved_v1 int32
var saved_v2 int32
var savedIsInit U8
var nPage U32
var pgnoOvfl Pgno
var size U32
var size1 int32
var j int32
*(*uintptr)(unsafe.Pointer(bp + 96)) = uintptr(0)
depth = -1
doCoverageCheck = 1
keyCanBeEqual = 1
heap = uintptr(0)
prev = U32(0)
saved_zPfx = (*IntegrityCk)(unsafe.Pointer(pCheck)).FzPfx
saved_v1 = int32((*IntegrityCk)(unsafe.Pointer(pCheck)).Fv1)
saved_v2 = (*IntegrityCk)(unsafe.Pointer(pCheck)).Fv2
savedIsInit = U8(0)
checkProgress(tls, pCheck)
if !((*IntegrityCk)(unsafe.Pointer(pCheck)).FmxErr == 0) {
goto __1
}
goto end_of_check
__1:
;
pBt = (*IntegrityCk)(unsafe.Pointer(pCheck)).FpBt
usableSize = (*BtShared)(unsafe.Pointer(pBt)).FusableSize
if !(iPage == Pgno(0)) {
goto __2
}
return 0
__2:
;
if !(checkRef(tls, pCheck, iPage) != 0) {
goto __3
}
return 0
__3:
;
(*IntegrityCk)(unsafe.Pointer(pCheck)).FzPfx = ts + 4711
(*IntegrityCk)(unsafe.Pointer(pCheck)).Fv1 = iPage
if !(libc.AssignInt32(&rc, btreeGetPage(tls, pBt, iPage, bp+96, 0)) != 0) {
goto __4
}
checkAppendMsg(tls, pCheck,
ts+4721, libc.VaList(bp, rc))
goto end_of_check
__4:
;
savedIsInit = (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 96)))).FisInit
(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 96)))).FisInit = U8(0)
if !(libc.AssignInt32(&rc, btreeInitPage(tls, *(*uintptr)(unsafe.Pointer(bp + 96)))) != 0) {
goto __5
}
checkAppendMsg(tls, pCheck,
ts+4759, libc.VaList(bp+8, rc))
goto end_of_check
__5:
;
if !(libc.AssignInt32(&rc, btreeComputeFreeSpace(tls, *(*uintptr)(unsafe.Pointer(bp + 96)))) != 0) {
goto __6
}
checkAppendMsg(tls, pCheck, ts+4797, libc.VaList(bp+16, rc))
goto end_of_check
__6:
;
data = (*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 96)))).FaData
hdr = int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 96)))).FhdrOffset)
(*IntegrityCk)(unsafe.Pointer(pCheck)).FzPfx = ts + 4819
contentOffset = U32((int32(*(*U8)(unsafe.Pointer(data + uintptr(hdr+5))))<<8|int32(*(*U8)(unsafe.Pointer(data + uintptr(hdr+5) + 1)))-1)&0xffff + 1)
nCell = int32(*(*U8)(unsafe.Pointer(data + uintptr(hdr+3))))<<8 | int32(*(*U8)(unsafe.Pointer(data + uintptr(hdr+3) + 1)))
cellStart = hdr + 12 - 4*int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 96)))).Fleaf)
pCellIdx = data + uintptr(cellStart+2*(nCell-1))
if !!(int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 96)))).Fleaf) != 0) {
goto __7
}
pgno = int32(Xsqlite3Get4byte(tls, data+uintptr(hdr+8)))
if !((*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0) {
goto __9
}
(*IntegrityCk)(unsafe.Pointer(pCheck)).FzPfx = ts + 4845
checkPtrmap(tls, pCheck, uint32(pgno), uint8(PTRMAP_BTREE), iPage)
__9:
;
depth = checkTreePage(tls, pCheck, uint32(pgno), bp+104, *(*I64)(unsafe.Pointer(bp + 104)))
keyCanBeEqual = 0
goto __8
__7:
heap = (*IntegrityCk)(unsafe.Pointer(pCheck)).Fheap
*(*U32)(unsafe.Pointer(heap)) = U32(0)
__8:
;
i = nCell - 1
__10:
if !(i >= 0 && (*IntegrityCk)(unsafe.Pointer(pCheck)).FmxErr != 0) {
goto __12
}
(*IntegrityCk)(unsafe.Pointer(pCheck)).Fv2 = i
pc = U32(int32(*(*U8)(unsafe.Pointer(pCellIdx)))<<8 | int32(*(*U8)(unsafe.Pointer(pCellIdx + 1))))
pCellIdx -= uintptr(2)
if !(pc < contentOffset || pc > usableSize-U32(4)) {
goto __13
}
checkAppendMsg(tls, pCheck, ts+4873,
libc.VaList(bp+24, pc, contentOffset, usableSize-U32(4)))
doCoverageCheck = 0
goto __11
__13:
;
pCell = data + uintptr(pc)
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 96)))).FxParseCell})).f(tls, *(*uintptr)(unsafe.Pointer(bp + 96)), pCell, bp+112)
if !(pc+U32((*CellInfo)(unsafe.Pointer(bp+112)).FnSize) > usableSize) {
goto __14
}
checkAppendMsg(tls, pCheck, ts+4903, 0)
doCoverageCheck = 0
goto __11
__14:
;
if !((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 96)))).FintKey != 0) {
goto __15
}
if !(func() int32 {
if keyCanBeEqual != 0 {
return libc.Bool32((*CellInfo)(unsafe.Pointer(bp+112)).FnKey > *(*I64)(unsafe.Pointer(bp + 104)))
}
return libc.Bool32((*CellInfo)(unsafe.Pointer(bp+112)).FnKey >= *(*I64)(unsafe.Pointer(bp + 104)))
}() != 0) {
goto __16
}
checkAppendMsg(tls, pCheck, ts+4927, libc.VaList(bp+48, (*CellInfo)(unsafe.Pointer(bp+112)).FnKey))
__16:
;
*(*I64)(unsafe.Pointer(bp + 104)) = (*CellInfo)(unsafe.Pointer(bp + 112)).FnKey
keyCanBeEqual = 0
__15:
;
if !((*CellInfo)(unsafe.Pointer(bp+112)).FnPayload > U32((*CellInfo)(unsafe.Pointer(bp+112)).FnLocal)) {
goto __17
}
nPage = ((*CellInfo)(unsafe.Pointer(bp+112)).FnPayload - U32((*CellInfo)(unsafe.Pointer(bp+112)).FnLocal) + usableSize - U32(5)) / (usableSize - U32(4))
pgnoOvfl = Xsqlite3Get4byte(tls, pCell+uintptr(int32((*CellInfo)(unsafe.Pointer(bp+112)).FnSize)-4))
if !((*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0) {
goto __18
}
checkPtrmap(tls, pCheck, pgnoOvfl, uint8(PTRMAP_OVERFLOW1), iPage)
__18:
;
checkList(tls, pCheck, 0, pgnoOvfl, nPage)
__17:
;
if !!(int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 96)))).Fleaf) != 0) {
goto __19
}
pgno = int32(Xsqlite3Get4byte(tls, pCell))
if !((*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0) {
goto __21
}
checkPtrmap(tls, pCheck, uint32(pgno), uint8(PTRMAP_BTREE), iPage)
__21:
;
d2 = checkTreePage(tls, pCheck, uint32(pgno), bp+104, *(*I64)(unsafe.Pointer(bp + 104)))
keyCanBeEqual = 0
if !(d2 != depth) {
goto __22
}
checkAppendMsg(tls, pCheck, ts+4951, 0)
depth = d2
__22:
;
goto __20
__19:
btreeHeapInsert(tls, heap, pc<<16|(pc+U32((*CellInfo)(unsafe.Pointer(bp+112)).FnSize)-U32(1)))
__20:
;
goto __11
__11:
i--
goto __10
goto __12
__12:
;
*(*I64)(unsafe.Pointer(piMinKey)) = *(*I64)(unsafe.Pointer(bp + 104))
(*IntegrityCk)(unsafe.Pointer(pCheck)).FzPfx = uintptr(0)
if !(doCoverageCheck != 0 && (*IntegrityCk)(unsafe.Pointer(pCheck)).FmxErr > 0) {
goto __23
}
if !!(int32((*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 96)))).Fleaf) != 0) {
goto __24
}
heap = (*IntegrityCk)(unsafe.Pointer(pCheck)).Fheap
*(*U32)(unsafe.Pointer(heap)) = U32(0)
i = nCell - 1
__25:
if !(i >= 0) {
goto __27
}
pc = U32(int32(*(*U8)(unsafe.Pointer(data + uintptr(cellStart+i*2))))<<8 | int32(*(*U8)(unsafe.Pointer(data + uintptr(cellStart+i*2) + 1))))
size = U32((*struct {
f func(*libc.TLS, uintptr, uintptr) U16
})(unsafe.Pointer(&struct{ uintptr }{(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 96)))).FxCellSize})).f(tls, *(*uintptr)(unsafe.Pointer(bp + 96)), data+uintptr(pc)))
btreeHeapInsert(tls, heap, pc<<16|(pc+size-U32(1)))
goto __26
__26:
i--
goto __25
goto __27
__27:
;
__24:
;
i = int32(*(*U8)(unsafe.Pointer(data + uintptr(hdr+1))))<<8 | int32(*(*U8)(unsafe.Pointer(data + uintptr(hdr+1) + 1)))
__28:
if !(i > 0) {
goto __29
}
size1 = int32(*(*U8)(unsafe.Pointer(data + uintptr(i+2))))<<8 | int32(*(*U8)(unsafe.Pointer(data + uintptr(i+2) + 1)))
btreeHeapInsert(tls, heap, U32(i)<<16|U32(i+size1-1))
j = int32(*(*U8)(unsafe.Pointer(data + uintptr(i))))<<8 | int32(*(*U8)(unsafe.Pointer(data + uintptr(i) + 1)))
i = j
goto __28
__29:
;
nFrag = 0
prev = contentOffset - U32(1)
__30:
if !(btreeHeapPull(tls, heap, bp+136) != 0) {
goto __31
}
if !(prev&U32(0xffff) >= *(*U32)(unsafe.Pointer(bp + 136))>>16) {
goto __32
}
checkAppendMsg(tls, pCheck,
ts+4976, libc.VaList(bp+56, *(*U32)(unsafe.Pointer(bp + 136))>>16, iPage))
goto __31
goto __33
__32:
nFrag = int32(U32(nFrag) + (*(*U32)(unsafe.Pointer(bp + 136))>>16 - prev&U32(0xffff) - U32(1)))
prev = *(*U32)(unsafe.Pointer(bp + 136))
__33:
;
goto __30
__31:
;
nFrag = int32(U32(nFrag) + (usableSize - prev&U32(0xffff) - U32(1)))
if !(*(*U32)(unsafe.Pointer(heap)) == U32(0) && nFrag != int32(*(*U8)(unsafe.Pointer(data + uintptr(hdr+7))))) {
goto __34
}
checkAppendMsg(tls, pCheck,
ts+5013,
libc.VaList(bp+72, nFrag, int32(*(*U8)(unsafe.Pointer(data + uintptr(hdr+7)))), iPage))
__34:
;
__23:
;
end_of_check:
if !!(doCoverageCheck != 0) {
goto __35
}
(*MemPage)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 96)))).FisInit = savedIsInit
__35:
;
releasePage(tls, *(*uintptr)(unsafe.Pointer(bp + 96)))
(*IntegrityCk)(unsafe.Pointer(pCheck)).FzPfx = saved_zPfx
(*IntegrityCk)(unsafe.Pointer(pCheck)).Fv1 = Pgno(saved_v1)
(*IntegrityCk)(unsafe.Pointer(pCheck)).Fv2 = saved_v2
return depth + 1
}
// This routine does a complete check of the given BTree file. aRoot[] is
// an array of pages numbers were each page number is the root page of
// a table. nRoot is the number of entries in aRoot.
//
// A read-only or read-write transaction must be opened before calling
// this function.
//
// Write the number of error seen in *pnErr. Except for some memory
// allocation errors, an error message held in memory obtained from
// malloc is returned if *pnErr is non-zero. If *pnErr==0 then NULL is
// returned. If a memory allocation error occurs, NULL is returned.
//
// If the first entry in aRoot[] is 0, that indicates that the list of
// root pages is incomplete. This is a "partial integrity-check". This
// happens when performing an integrity check on a single table. The
// zero is skipped, of course. But in addition, the freelist checks
// and the checks to make sure every page is referenced are also skipped,
// since obviously it is not possible to know which pages are covered by
// the unverified btrees. Except, if aRoot[1] is 1, then the freelist
// checks are still performed.
func Xsqlite3BtreeIntegrityCheck(tls *libc.TLS, db uintptr, p uintptr, aRoot uintptr, nRoot int32, mxErr int32, pnErr uintptr, pzOut uintptr) int32 {
bp := tls.Alloc(256)
defer tls.Free(256)
var i Pgno
var pBt uintptr
var savedDbFlags U64
var bPartial int32
var bCkFreelist int32
var mx Pgno
var mxInHdr Pgno
pBt = (*Btree)(unsafe.Pointer(p)).FpBt
savedDbFlags = (*Sqlite3)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).Fdb)).Fflags
bPartial = 0
bCkFreelist = 1
if !(*(*Pgno)(unsafe.Pointer(aRoot)) == Pgno(0)) {
goto __1
}
bPartial = 1
if !(*(*Pgno)(unsafe.Pointer(aRoot + 1*4)) != Pgno(1)) {
goto __2
}
bCkFreelist = 0
__2:
;
__1:
;
Xsqlite3BtreeEnter(tls, p)
libc.X__builtin___memset_chk(tls, bp+32, 0, uint64(unsafe.Sizeof(IntegrityCk{})), libc.X__builtin_object_size(tls, bp+32, 0))
(*IntegrityCk)(unsafe.Pointer(bp + 32)).Fdb = db
(*IntegrityCk)(unsafe.Pointer(bp + 32)).FpBt = pBt
(*IntegrityCk)(unsafe.Pointer(bp + 32)).FpPager = (*BtShared)(unsafe.Pointer(pBt)).FpPager
(*IntegrityCk)(unsafe.Pointer(bp + 32)).FnPage = btreePagecount(tls, (*IntegrityCk)(unsafe.Pointer(bp+32)).FpBt)
(*IntegrityCk)(unsafe.Pointer(bp + 32)).FmxErr = mxErr
Xsqlite3StrAccumInit(tls, bp+32+64, uintptr(0), bp+144, int32(unsafe.Sizeof([100]int8{})), SQLITE_MAX_LENGTH)
(*IntegrityCk)(unsafe.Pointer(bp + 32)).FerrMsg.FprintfFlags = U8(SQLITE_PRINTF_INTERNAL)
if !((*IntegrityCk)(unsafe.Pointer(bp+32)).FnPage == Pgno(0)) {
goto __3
}
goto integrity_ck_cleanup
__3:
;
(*IntegrityCk)(unsafe.Pointer(bp + 32)).FaPgRef = Xsqlite3MallocZero(tls, uint64((*IntegrityCk)(unsafe.Pointer(bp+32)).FnPage/Pgno(8)+Pgno(1)))
if !!(int32((*IntegrityCk)(unsafe.Pointer(bp+32)).FaPgRef) != 0) {
goto __4
}
checkOom(tls, bp+32)
goto integrity_ck_cleanup
__4:
;
(*IntegrityCk)(unsafe.Pointer(bp + 32)).Fheap = Xsqlite3PageMalloc(tls, int32((*BtShared)(unsafe.Pointer(pBt)).FpageSize))
if !((*IntegrityCk)(unsafe.Pointer(bp+32)).Fheap == uintptr(0)) {
goto __5
}
checkOom(tls, bp+32)
goto integrity_ck_cleanup
__5:
;
i = U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer(pBt)).FpageSize + U32(1)
if !(i <= (*IntegrityCk)(unsafe.Pointer(bp+32)).FnPage) {
goto __6
}
setPageReferenced(tls, bp+32, i)
__6:
;
if !(bCkFreelist != 0) {
goto __7
}
(*IntegrityCk)(unsafe.Pointer(bp + 32)).FzPfx = ts + 5065
checkList(tls, bp+32, 1, Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData+32),
Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData+36))
(*IntegrityCk)(unsafe.Pointer(bp + 32)).FzPfx = uintptr(0)
__7:
;
if !!(bPartial != 0) {
goto __8
}
if !((*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0) {
goto __9
}
mx = Pgno(0)
i = Pgno(0)
__11:
if !(int32(i) < nRoot) {
goto __13
}
if !(mx < *(*Pgno)(unsafe.Pointer(aRoot + uintptr(i)*4))) {
goto __14
}
mx = *(*Pgno)(unsafe.Pointer(aRoot + uintptr(i)*4))
__14:
;
goto __12
__12:
i++
goto __11
goto __13
__13:
;
mxInHdr = Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData+52)
if !(mx != mxInHdr) {
goto __15
}
checkAppendMsg(tls, bp+32,
ts+5081,
libc.VaList(bp, mx, mxInHdr))
__15:
;
goto __10
__9:
if !(Xsqlite3Get4byte(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData+64) != U32(0)) {
goto __16
}
checkAppendMsg(tls, bp+32,
ts+5126, 0)
__16:
;
__10:
;
__8:
;
*(*U64)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).Fdb + 48)) &= libc.CplUint64(uint64(SQLITE_CellSizeCk))
i = Pgno(0)
__17:
if !(int32(i) < nRoot && (*IntegrityCk)(unsafe.Pointer(bp+32)).FmxErr != 0) {
goto __19
}
if !(*(*Pgno)(unsafe.Pointer(aRoot + uintptr(i)*4)) == Pgno(0)) {
goto __20
}
goto __18
__20:
;
if !((*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0 && *(*Pgno)(unsafe.Pointer(aRoot + uintptr(i)*4)) > Pgno(1) && !(bPartial != 0)) {
goto __21
}
checkPtrmap(tls, bp+32, *(*Pgno)(unsafe.Pointer(aRoot + uintptr(i)*4)), uint8(PTRMAP_ROOTPAGE), uint32(0))
__21:
;
checkTreePage(tls, bp+32, *(*Pgno)(unsafe.Pointer(aRoot + uintptr(i)*4)), bp+248, int64(0xffffffff)|int64(0x7fffffff)<<32)
goto __18
__18:
i++
goto __17
goto __19
__19:
;
(*Sqlite3)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).Fdb)).Fflags = savedDbFlags
if !!(bPartial != 0) {
goto __22
}
i = Pgno(1)
__23:
if !(i <= (*IntegrityCk)(unsafe.Pointer(bp+32)).FnPage && (*IntegrityCk)(unsafe.Pointer(bp+32)).FmxErr != 0) {
goto __25
}
if !(getPageReferenced(tls, bp+32, i) == 0 && (ptrmapPageno(tls, pBt, i) != i || !(int32((*BtShared)(unsafe.Pointer(pBt)).FautoVacuum) != 0))) {
goto __26
}
checkAppendMsg(tls, bp+32, ts+5181, libc.VaList(bp+16, i))
__26:
;
if !(getPageReferenced(tls, bp+32, i) != 0 && (ptrmapPageno(tls, pBt, i) == i && (*BtShared)(unsafe.Pointer(pBt)).FautoVacuum != 0)) {
goto __27
}
checkAppendMsg(tls, bp+32, ts+5203, libc.VaList(bp+24, i))
__27:
;
goto __24
__24:
i++
goto __23
goto __25
__25:
;
__22:
;
integrity_ck_cleanup:
Xsqlite3PageFree(tls, (*IntegrityCk)(unsafe.Pointer(bp+32)).Fheap)
Xsqlite3_free(tls, (*IntegrityCk)(unsafe.Pointer(bp+32)).FaPgRef)
*(*int32)(unsafe.Pointer(pnErr)) = (*IntegrityCk)(unsafe.Pointer(bp + 32)).FnErr
if !((*IntegrityCk)(unsafe.Pointer(bp+32)).FnErr == 0) {
goto __28
}
Xsqlite3_str_reset(tls, bp+32+64)
*(*uintptr)(unsafe.Pointer(pzOut)) = uintptr(0)
goto __29
__28:
*(*uintptr)(unsafe.Pointer(pzOut)) = Xsqlite3StrAccumFinish(tls, bp+32+64)
__29:
;
Xsqlite3BtreeLeave(tls, p)
return (*IntegrityCk)(unsafe.Pointer(bp + 32)).Frc
}
// Return the full pathname of the underlying database file. Return
// an empty string if the database is in-memory or a TEMP database.
//
// The pager filename is invariant as long as the pager is
// open so it is safe to access without the BtShared mutex.
func Xsqlite3BtreeGetFilename(tls *libc.TLS, p uintptr) uintptr {
return Xsqlite3PagerFilename(tls, (*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FpPager, 1)
}
// Return the pathname of the journal file for this database. The return
// value of this routine is the same regardless of whether the journal file
// has been created or not.
//
// The pager journal filename is invariant as long as the pager is
// open so it is safe to access without the BtShared mutex.
func Xsqlite3BtreeGetJournalname(tls *libc.TLS, p uintptr) uintptr {
return Xsqlite3PagerJournalname(tls, (*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FpPager)
}
// Return one of SQLITE_TXN_NONE, SQLITE_TXN_READ, or SQLITE_TXN_WRITE
// to describe the current transaction state of Btree p.
func Xsqlite3BtreeTxnState(tls *libc.TLS, p uintptr) int32 {
if p != 0 {
return int32((*Btree)(unsafe.Pointer(p)).FinTrans)
}
return 0
}
// Run a checkpoint on the Btree passed as the first argument.
//
// Return SQLITE_LOCKED if this or any other connection has an open
// transaction on the shared-cache the argument Btree is connected to.
//
// Parameter eMode is one of SQLITE_CHECKPOINT_PASSIVE, FULL or RESTART.
func Xsqlite3BtreeCheckpoint(tls *libc.TLS, p uintptr, eMode int32, pnLog uintptr, pnCkpt uintptr) int32 {
var rc int32 = SQLITE_OK
if p != 0 {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3BtreeEnter(tls, p)
if int32((*BtShared)(unsafe.Pointer(pBt)).FinTransaction) != TRANS_NONE {
rc = SQLITE_LOCKED
} else {
rc = Xsqlite3PagerCheckpoint(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager, (*Btree)(unsafe.Pointer(p)).Fdb, eMode, pnLog, pnCkpt)
}
Xsqlite3BtreeLeave(tls, p)
}
return rc
}
// Return true if there is currently a backup running on Btree p.
func Xsqlite3BtreeIsInBackup(tls *libc.TLS, p uintptr) int32 {
return libc.Bool32((*Btree)(unsafe.Pointer(p)).FnBackup != 0)
}
// This function returns a pointer to a blob of memory associated with
// a single shared-btree. The memory is used by client code for its own
// purposes (for example, to store a high-level schema associated with
// the shared-btree). The btree layer manages reference counting issues.
//
// The first time this is called on a shared-btree, nBytes bytes of memory
// are allocated, zeroed, and returned to the caller. For each subsequent
// call the nBytes parameter is ignored and a pointer to the same blob
// of memory returned.
//
// If the nBytes parameter is 0 and the blob of memory has not yet been
// allocated, a null pointer is returned. If the blob has already been
// allocated, it is returned as normal.
//
// Just before the shared-btree is closed, the function passed as the
// xFree argument when the memory allocation was made is invoked on the
// blob of allocated memory. The xFree function should not call sqlite3_free()
// on the memory, the btree layer does that.
func Xsqlite3BtreeSchema(tls *libc.TLS, p uintptr, nBytes int32, xFree uintptr) uintptr {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
Xsqlite3BtreeEnter(tls, p)
if !(int32((*BtShared)(unsafe.Pointer(pBt)).FpSchema) != 0) && nBytes != 0 {
(*BtShared)(unsafe.Pointer(pBt)).FpSchema = Xsqlite3DbMallocZero(tls, uintptr(0), uint64(nBytes))
(*BtShared)(unsafe.Pointer(pBt)).FxFreeSchema = xFree
}
Xsqlite3BtreeLeave(tls, p)
return (*BtShared)(unsafe.Pointer(pBt)).FpSchema
}
// Return SQLITE_LOCKED_SHAREDCACHE if another user of the same shared
// btree as the argument handle holds an exclusive lock on the
// sqlite_schema table. Otherwise SQLITE_OK.
func Xsqlite3BtreeSchemaLocked(tls *libc.TLS, p uintptr) int32 {
var rc int32
Xsqlite3BtreeEnter(tls, p)
rc = querySharedCacheTableLock(tls, p, uint32(SCHEMA_ROOT), uint8(READ_LOCK))
Xsqlite3BtreeLeave(tls, p)
return rc
}
// Obtain a lock on the table whose root page is iTab. The
// lock is a write lock if isWritelock is true or a read lock
// if it is false.
func Xsqlite3BtreeLockTable(tls *libc.TLS, p uintptr, iTab int32, isWriteLock U8) int32 {
var rc int32 = SQLITE_OK
if (*Btree)(unsafe.Pointer(p)).Fsharable != 0 {
var lockType U8 = U8(READ_LOCK + int32(isWriteLock))
Xsqlite3BtreeEnter(tls, p)
rc = querySharedCacheTableLock(tls, p, uint32(iTab), lockType)
if rc == SQLITE_OK {
rc = setSharedCacheTableLock(tls, p, uint32(iTab), lockType)
}
Xsqlite3BtreeLeave(tls, p)
}
return rc
}
// Argument pCsr must be a cursor opened for writing on an
// INTKEY table currently pointing at a valid table entry.
// This function modifies the data stored as part of that entry.
//
// Only the data content may only be modified, it is not possible to
// change the length of the data stored. If this function is called with
// parameters that attempt to write past the end of the existing data,
// no modifications are made and SQLITE_CORRUPT is returned.
func Xsqlite3BtreePutData(tls *libc.TLS, pCsr uintptr, offset U32, amt U32, z uintptr) int32 {
var rc int32
rc = func() int32 {
if int32((*BtCursor)(unsafe.Pointer(pCsr)).FeState) >= CURSOR_REQUIRESEEK {
return btreeRestoreCursorPosition(tls, pCsr)
}
return SQLITE_OK
}()
if rc != SQLITE_OK {
return rc
}
if int32((*BtCursor)(unsafe.Pointer(pCsr)).FeState) != CURSOR_VALID {
return SQLITE_ABORT
}
saveAllCursors(tls, (*BtCursor)(unsafe.Pointer(pCsr)).FpBt, (*BtCursor)(unsafe.Pointer(pCsr)).FpgnoRoot, pCsr)
if int32((*BtCursor)(unsafe.Pointer(pCsr)).FcurFlags)&BTCF_WriteFlag == 0 {
return SQLITE_READONLY
}
return accessPayload(tls, pCsr, offset, amt, z, 1)
}
// Mark this cursor as an incremental blob cursor.
func Xsqlite3BtreeIncrblobCursor(tls *libc.TLS, pCur uintptr) {
*(*U8)(unsafe.Pointer(pCur + 1)) |= U8(BTCF_Incrblob)
(*Btree)(unsafe.Pointer((*BtCursor)(unsafe.Pointer(pCur)).FpBtree)).FhasIncrblobCur = U8(1)
}
// Set both the "read version" (single byte at byte offset 18) and
// "write version" (single byte at byte offset 19) fields in the database
// header to iVersion.
func Xsqlite3BtreeSetVersion(tls *libc.TLS, pBtree uintptr, iVersion int32) int32 {
var pBt uintptr = (*Btree)(unsafe.Pointer(pBtree)).FpBt
var rc int32
*(*U16)(unsafe.Pointer(pBt + 40)) &= libc.Uint16FromInt32(libc.CplInt32(BTS_NO_WAL))
if iVersion == 1 {
*(*U16)(unsafe.Pointer(pBt + 40)) |= U16(BTS_NO_WAL)
}
rc = Xsqlite3BtreeBeginTrans(tls, pBtree, 0, uintptr(0))
if rc == SQLITE_OK {
var aData uintptr = (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FaData
if int32(*(*U8)(unsafe.Pointer(aData + 18))) != int32(U8(iVersion)) || int32(*(*U8)(unsafe.Pointer(aData + 19))) != int32(U8(iVersion)) {
rc = Xsqlite3BtreeBeginTrans(tls, pBtree, 2, uintptr(0))
if rc == SQLITE_OK {
rc = Xsqlite3PagerWrite(tls, (*MemPage)(unsafe.Pointer((*BtShared)(unsafe.Pointer(pBt)).FpPage1)).FpDbPage)
if rc == SQLITE_OK {
*(*U8)(unsafe.Pointer(aData + 18)) = U8(iVersion)
*(*U8)(unsafe.Pointer(aData + 19)) = U8(iVersion)
}
}
}
}
*(*U16)(unsafe.Pointer(pBt + 40)) &= libc.Uint16FromInt32(libc.CplInt32(BTS_NO_WAL))
return rc
}
// Return true if the cursor has a hint specified. This routine is
// only used from within assert() statements
func Xsqlite3BtreeCursorHasHint(tls *libc.TLS, pCsr uintptr, mask uint32) int32 {
return libc.Bool32(uint32((*BtCursor)(unsafe.Pointer(pCsr)).Fhints)&mask != uint32(0))
}
// Return true if the given Btree is read-only.
func Xsqlite3BtreeIsReadonly(tls *libc.TLS, p uintptr) int32 {
return libc.Bool32(int32((*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FbtsFlags)&BTS_READ_ONLY != 0)
}
// Return the size of the header added to each page by this module.
func Xsqlite3HeaderSizeBtree(tls *libc.TLS) int32 {
return int32((uint64(unsafe.Sizeof(MemPage{})) + uint64(7)) & libc.Uint64FromInt32(libc.CplInt32(7)))
}
// If no transaction is active and the database is not a temp-db, clear
// the in-memory pager cache.
func Xsqlite3BtreeClearCache(tls *libc.TLS, p uintptr) {
var pBt uintptr = (*Btree)(unsafe.Pointer(p)).FpBt
if int32((*BtShared)(unsafe.Pointer(pBt)).FinTransaction) == TRANS_NONE {
Xsqlite3PagerClearCache(tls, (*BtShared)(unsafe.Pointer(pBt)).FpPager)
}
}
// Return true if the Btree passed as the only argument is sharable.
func Xsqlite3BtreeSharable(tls *libc.TLS, p uintptr) int32 {
return int32((*Btree)(unsafe.Pointer(p)).Fsharable)
}
// Return the number of connections to the BtShared object accessed by
// the Btree handle passed as the only argument. For private caches
// this is always 1. For shared caches it may be 1 or greater.
func Xsqlite3BtreeConnectionCount(tls *libc.TLS, p uintptr) int32 {
return (*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer(p)).FpBt)).FnRef
}
func findBtree(tls *libc.TLS, pErrorDb uintptr, pDb uintptr, zDb uintptr) uintptr {
bp := tls.Alloc(440)
defer tls.Free(440)
var i int32 = Xsqlite3FindDbName(tls, pDb, zDb)
if i == 1 {
var rc int32 = 0
Xsqlite3ParseObjectInit(tls, bp+16, pDb)
if Xsqlite3OpenTempDatabase(tls, bp+16) != 0 {
Xsqlite3ErrorWithMsg(tls, pErrorDb, (*Parse)(unsafe.Pointer(bp+16)).Frc, ts+3658, libc.VaList(bp, (*Parse)(unsafe.Pointer(bp+16)).FzErrMsg))
rc = SQLITE_ERROR
}
Xsqlite3DbFree(tls, pErrorDb, (*Parse)(unsafe.Pointer(bp+16)).FzErrMsg)
Xsqlite3ParseObjectReset(tls, bp+16)
if rc != 0 {
return uintptr(0)
}
}
if i < 0 {
Xsqlite3ErrorWithMsg(tls, pErrorDb, SQLITE_ERROR, ts+5237, libc.VaList(bp+8, zDb))
return uintptr(0)
}
return (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(pDb)).FaDb + uintptr(i)*32)).FpBt
}
func setDestPgsz(tls *libc.TLS, p uintptr) int32 {
var rc int32
rc = Xsqlite3BtreeSetPageSize(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDest, Xsqlite3BtreeGetPageSize(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc), 0, 0)
return rc
}
func checkReadTransaction(tls *libc.TLS, db uintptr, p uintptr) int32 {
if Xsqlite3BtreeTxnState(tls, p) != SQLITE_TXN_NONE {
Xsqlite3ErrorWithMsg(tls, db, SQLITE_ERROR, ts+5257, 0)
return SQLITE_ERROR
}
return SQLITE_OK
}
// Create an sqlite3_backup process to copy the contents of zSrcDb from
// connection handle pSrcDb to zDestDb in pDestDb. If successful, return
// a pointer to the new sqlite3_backup object.
//
// If an error occurs, NULL is returned and an error code and error message
// stored in database handle pDestDb.
func Xsqlite3_backup_init(tls *libc.TLS, pDestDb uintptr, zDestDb uintptr, pSrcDb uintptr, zSrcDb uintptr) uintptr {
var p uintptr
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(pSrcDb)).Fmutex)
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(pDestDb)).Fmutex)
if pSrcDb == pDestDb {
Xsqlite3ErrorWithMsg(tls,
pDestDb, SQLITE_ERROR, ts+5288, 0)
p = uintptr(0)
} else {
p = Xsqlite3MallocZero(tls, uint64(unsafe.Sizeof(Sqlite3_backup{})))
if !(p != 0) {
Xsqlite3Error(tls, pDestDb, SQLITE_NOMEM)
}
}
if p != 0 {
(*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc = findBtree(tls, pDestDb, pSrcDb, zSrcDb)
(*Sqlite3_backup)(unsafe.Pointer(p)).FpDest = findBtree(tls, pDestDb, pDestDb, zDestDb)
(*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb = pDestDb
(*Sqlite3_backup)(unsafe.Pointer(p)).FpSrcDb = pSrcDb
(*Sqlite3_backup)(unsafe.Pointer(p)).FiNext = Pgno(1)
(*Sqlite3_backup)(unsafe.Pointer(p)).FisAttached = 0
if uintptr(0) == (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc || uintptr(0) == (*Sqlite3_backup)(unsafe.Pointer(p)).FpDest ||
checkReadTransaction(tls, pDestDb, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDest) != SQLITE_OK {
Xsqlite3_free(tls, p)
p = uintptr(0)
}
}
if p != 0 {
(*Btree)(unsafe.Pointer((*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc)).FnBackup++
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(pDestDb)).Fmutex)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(pSrcDb)).Fmutex)
return p
}
func isFatalError(tls *libc.TLS, rc int32) int32 {
return libc.Bool32(rc != SQLITE_OK && rc != SQLITE_BUSY && rc != SQLITE_LOCKED)
}
func backupOnePage(tls *libc.TLS, p uintptr, iSrcPg Pgno, zSrcData uintptr, bUpdate int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pDestPager uintptr = Xsqlite3BtreePager(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDest)
var nSrcPgsz int32 = Xsqlite3BtreeGetPageSize(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc)
var nDestPgsz int32 = Xsqlite3BtreeGetPageSize(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDest)
var nCopy int32 = func() int32 {
if nSrcPgsz < nDestPgsz {
return nSrcPgsz
}
return nDestPgsz
}()
var iEnd I64 = I64(iSrcPg) * I64(nSrcPgsz)
var rc int32 = SQLITE_OK
var iOff I64
if nSrcPgsz != nDestPgsz && Xsqlite3PagerIsMemdb(tls, pDestPager) != 0 {
rc = SQLITE_READONLY
}
for iOff = iEnd - I64(nSrcPgsz); rc == SQLITE_OK && iOff < iEnd; iOff = iOff + I64(nDestPgsz) {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var iDest Pgno = Pgno(iOff/I64(nDestPgsz)) + Pgno(1)
if iDest == U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer((*Sqlite3_backup)(unsafe.Pointer(p)).FpDest)).FpBt)).FpageSize+U32(1) {
continue
}
if SQLITE_OK == libc.AssignInt32(&rc, Xsqlite3PagerGet(tls, pDestPager, iDest, bp, 0)) &&
SQLITE_OK == libc.AssignInt32(&rc, Xsqlite3PagerWrite(tls, *(*uintptr)(unsafe.Pointer(bp)))) {
var zIn uintptr = zSrcData + uintptr(iOff%I64(nSrcPgsz))
var zDestData uintptr = Xsqlite3PagerGetData(tls, *(*uintptr)(unsafe.Pointer(bp)))
var zOut uintptr = zDestData + uintptr(iOff%I64(nDestPgsz))
libc.X__builtin___memcpy_chk(tls, zOut, zIn, uint64(nCopy), libc.X__builtin_object_size(tls, zOut, 0))
*(*U8)(unsafe.Pointer(Xsqlite3PagerGetExtra(tls, *(*uintptr)(unsafe.Pointer(bp))))) = U8(0)
if iOff == int64(0) && bUpdate == 0 {
Xsqlite3Put4byte(tls, zOut+28, Xsqlite3BtreeLastPage(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc))
}
}
Xsqlite3PagerUnref(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
return rc
}
func backupTruncateFile(tls *libc.TLS, pFile uintptr, iSize I64) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = Xsqlite3OsFileSize(tls, pFile, bp)
if rc == SQLITE_OK && *(*I64)(unsafe.Pointer(bp)) > iSize {
rc = Xsqlite3OsTruncate(tls, pFile, iSize)
}
return rc
}
func attachBackupObject(tls *libc.TLS, p uintptr) {
var pp uintptr
pp = Xsqlite3PagerBackupPtr(tls, Xsqlite3BtreePager(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc))
(*Sqlite3_backup)(unsafe.Pointer(p)).FpNext = *(*uintptr)(unsafe.Pointer(pp))
*(*uintptr)(unsafe.Pointer(pp)) = p
(*Sqlite3_backup)(unsafe.Pointer(p)).FisAttached = 1
}
// Copy nPage pages from the source b-tree to the destination.
func Xsqlite3_backup_step(tls *libc.TLS, p uintptr, nPage int32) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var rc int32
var destMode int32
var pgszSrc int32 = 0
var pgszDest int32 = 0
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer((*Sqlite3_backup)(unsafe.Pointer(p)).FpSrcDb)).Fmutex)
Xsqlite3BtreeEnter(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc)
if (*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb != 0 {
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer((*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb)).Fmutex)
}
rc = (*Sqlite3_backup)(unsafe.Pointer(p)).Frc
if !(isFatalError(tls, rc) != 0) {
var pSrcPager uintptr = Xsqlite3BtreePager(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc)
var pDestPager uintptr = Xsqlite3BtreePager(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDest)
var ii int32
var nSrcPage int32 = -1
var bCloseTrans int32 = 0
if (*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb != 0 && int32((*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer((*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc)).FpBt)).FinTransaction) == TRANS_WRITE {
rc = SQLITE_BUSY
} else {
rc = SQLITE_OK
}
if rc == SQLITE_OK && SQLITE_TXN_NONE == Xsqlite3BtreeTxnState(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc) {
rc = Xsqlite3BtreeBeginTrans(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc, 0, uintptr(0))
bCloseTrans = 1
}
if (*Sqlite3_backup)(unsafe.Pointer(p)).FbDestLocked == 0 && rc == SQLITE_OK && setDestPgsz(tls, p) == SQLITE_NOMEM {
rc = SQLITE_NOMEM
}
if SQLITE_OK == rc && (*Sqlite3_backup)(unsafe.Pointer(p)).FbDestLocked == 0 &&
SQLITE_OK == libc.AssignInt32(&rc, Xsqlite3BtreeBeginTrans(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDest, 2,
p+16)) {
(*Sqlite3_backup)(unsafe.Pointer(p)).FbDestLocked = 1
}
pgszSrc = Xsqlite3BtreeGetPageSize(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc)
pgszDest = Xsqlite3BtreeGetPageSize(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDest)
destMode = Xsqlite3PagerGetJournalMode(tls, Xsqlite3BtreePager(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDest))
if SQLITE_OK == rc && destMode == PAGER_JOURNALMODE_WAL && pgszSrc != pgszDest {
rc = SQLITE_READONLY
}
nSrcPage = int32(Xsqlite3BtreeLastPage(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc))
for ii = 0; (nPage < 0 || ii < nPage) && (*Sqlite3_backup)(unsafe.Pointer(p)).FiNext <= Pgno(nSrcPage) && !(rc != 0); ii++ {
var iSrcPg Pgno = (*Sqlite3_backup)(unsafe.Pointer(p)).FiNext
if iSrcPg != U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer((*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc)).FpBt)).FpageSize+U32(1) {
rc = Xsqlite3PagerGet(tls, pSrcPager, iSrcPg, bp, PAGER_GET_READONLY)
if rc == SQLITE_OK {
rc = backupOnePage(tls, p, iSrcPg, Xsqlite3PagerGetData(tls, *(*uintptr)(unsafe.Pointer(bp))), 0)
Xsqlite3PagerUnref(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
}
(*Sqlite3_backup)(unsafe.Pointer(p)).FiNext++
}
if rc == SQLITE_OK {
(*Sqlite3_backup)(unsafe.Pointer(p)).FnPagecount = Pgno(nSrcPage)
(*Sqlite3_backup)(unsafe.Pointer(p)).FnRemaining = Pgno(nSrcPage+1) - (*Sqlite3_backup)(unsafe.Pointer(p)).FiNext
if (*Sqlite3_backup)(unsafe.Pointer(p)).FiNext > Pgno(nSrcPage) {
rc = SQLITE_DONE
} else if !((*Sqlite3_backup)(unsafe.Pointer(p)).FisAttached != 0) {
attachBackupObject(tls, p)
}
}
if rc == SQLITE_DONE {
if nSrcPage == 0 {
rc = Xsqlite3BtreeNewDb(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDest)
nSrcPage = 1
}
if rc == SQLITE_OK || rc == SQLITE_DONE {
rc = Xsqlite3BtreeUpdateMeta(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDest, 1, (*Sqlite3_backup)(unsafe.Pointer(p)).FiDestSchema+U32(1))
}
if rc == SQLITE_OK {
if (*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb != 0 {
Xsqlite3ResetAllSchemasOfConnection(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb)
}
if destMode == PAGER_JOURNALMODE_WAL {
rc = Xsqlite3BtreeSetVersion(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDest, 2)
}
}
if rc == SQLITE_OK {
var nDestTruncate int32
if pgszSrc < pgszDest {
var ratio int32 = pgszDest / pgszSrc
nDestTruncate = (nSrcPage + ratio - 1) / ratio
if nDestTruncate == int32(U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer((*Sqlite3_backup)(unsafe.Pointer(p)).FpDest)).FpBt)).FpageSize+U32(1)) {
nDestTruncate--
}
} else {
nDestTruncate = nSrcPage * (pgszSrc / pgszDest)
}
if pgszSrc < pgszDest {
var iSize I64 = I64(pgszSrc) * I64(nSrcPage)
var pFile uintptr = Xsqlite3PagerFile(tls, pDestPager)
var iPg Pgno
var iOff I64
var iEnd I64
Xsqlite3PagerPagecount(tls, pDestPager, bp+8)
for iPg = Pgno(nDestTruncate); rc == SQLITE_OK && iPg <= Pgno(*(*int32)(unsafe.Pointer(bp + 8))); iPg++ {
if iPg != U32(Xsqlite3PendingByte)/(*BtShared)(unsafe.Pointer((*Btree)(unsafe.Pointer((*Sqlite3_backup)(unsafe.Pointer(p)).FpDest)).FpBt)).FpageSize+U32(1) {
rc = Xsqlite3PagerGet(tls, pDestPager, iPg, bp+16, 0)
if rc == SQLITE_OK {
rc = Xsqlite3PagerWrite(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
Xsqlite3PagerUnref(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
}
}
}
if rc == SQLITE_OK {
rc = Xsqlite3PagerCommitPhaseOne(tls, pDestPager, uintptr(0), 1)
}
iEnd = func() int64 {
if I64(Xsqlite3PendingByte+pgszDest) < iSize {
return int64(Xsqlite3PendingByte + pgszDest)
}
return iSize
}()
for iOff = I64(Xsqlite3PendingByte + pgszSrc); rc == SQLITE_OK && iOff < iEnd; iOff = iOff + I64(pgszSrc) {
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
var iSrcPg Pgno = Pgno(iOff/I64(pgszSrc) + int64(1))
rc = Xsqlite3PagerGet(tls, pSrcPager, iSrcPg, bp+24, 0)
if rc == SQLITE_OK {
var zData uintptr = Xsqlite3PagerGetData(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
rc = Xsqlite3OsWrite(tls, pFile, zData, pgszSrc, iOff)
}
Xsqlite3PagerUnref(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
}
if rc == SQLITE_OK {
rc = backupTruncateFile(tls, pFile, iSize)
}
if rc == SQLITE_OK {
rc = Xsqlite3PagerSync(tls, pDestPager, uintptr(0))
}
} else {
Xsqlite3PagerTruncateImage(tls, pDestPager, uint32(nDestTruncate))
rc = Xsqlite3PagerCommitPhaseOne(tls, pDestPager, uintptr(0), 0)
}
if SQLITE_OK == rc &&
SQLITE_OK == libc.AssignInt32(&rc, Xsqlite3BtreeCommitPhaseTwo(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDest, 0)) {
rc = SQLITE_DONE
}
}
}
if bCloseTrans != 0 {
Xsqlite3BtreeCommitPhaseOne(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc, uintptr(0))
Xsqlite3BtreeCommitPhaseTwo(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc, 0)
}
if rc == SQLITE_IOERR|int32(12)<<8 {
rc = SQLITE_NOMEM
}
(*Sqlite3_backup)(unsafe.Pointer(p)).Frc = rc
}
if (*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb != 0 {
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb)).Fmutex)
}
Xsqlite3BtreeLeave(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Sqlite3_backup)(unsafe.Pointer(p)).FpSrcDb)).Fmutex)
return rc
}
// Release all resources associated with an sqlite3_backup* handle.
func Xsqlite3_backup_finish(tls *libc.TLS, p uintptr) int32 {
var pp uintptr
var pSrcDb uintptr
var rc int32
if p == uintptr(0) {
return SQLITE_OK
}
pSrcDb = (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrcDb
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(pSrcDb)).Fmutex)
Xsqlite3BtreeEnter(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc)
if (*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb != 0 {
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer((*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb)).Fmutex)
}
if (*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb != 0 {
(*Btree)(unsafe.Pointer((*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc)).FnBackup--
}
if (*Sqlite3_backup)(unsafe.Pointer(p)).FisAttached != 0 {
pp = Xsqlite3PagerBackupPtr(tls, Xsqlite3BtreePager(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc))
for *(*uintptr)(unsafe.Pointer(pp)) != p {
pp = *(*uintptr)(unsafe.Pointer(pp)) + 64
}
*(*uintptr)(unsafe.Pointer(pp)) = (*Sqlite3_backup)(unsafe.Pointer(p)).FpNext
}
Xsqlite3BtreeRollback(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDest, SQLITE_OK, 0)
if (*Sqlite3_backup)(unsafe.Pointer(p)).Frc == SQLITE_DONE {
rc = SQLITE_OK
} else {
rc = (*Sqlite3_backup)(unsafe.Pointer(p)).Frc
}
if (*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb != 0 {
Xsqlite3Error(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb, rc)
Xsqlite3LeaveMutexAndCloseZombie(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb)
}
Xsqlite3BtreeLeave(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).FpSrc)
if (*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb != 0 {
Xsqlite3_free(tls, p)
}
Xsqlite3LeaveMutexAndCloseZombie(tls, pSrcDb)
return rc
}
// Return the number of pages still to be backed up as of the most recent
// call to sqlite3_backup_step().
func Xsqlite3_backup_remaining(tls *libc.TLS, p uintptr) int32 {
return int32((*Sqlite3_backup)(unsafe.Pointer(p)).FnRemaining)
}
// Return the total number of pages in the source database as of the most
// recent call to sqlite3_backup_step().
func Xsqlite3_backup_pagecount(tls *libc.TLS, p uintptr) int32 {
return int32((*Sqlite3_backup)(unsafe.Pointer(p)).FnPagecount)
}
func backupUpdate(tls *libc.TLS, p uintptr, iPage Pgno, aData uintptr) {
for __ccgo := true; __ccgo; __ccgo = libc.AssignUintptr(&p, (*Sqlite3_backup)(unsafe.Pointer(p)).FpNext) != uintptr(0) {
if !(isFatalError(tls, (*Sqlite3_backup)(unsafe.Pointer(p)).Frc) != 0) && iPage < (*Sqlite3_backup)(unsafe.Pointer(p)).FiNext {
var rc int32
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer((*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb)).Fmutex)
rc = backupOnePage(tls, p, iPage, aData, 1)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Sqlite3_backup)(unsafe.Pointer(p)).FpDestDb)).Fmutex)
if rc != SQLITE_OK {
(*Sqlite3_backup)(unsafe.Pointer(p)).Frc = rc
}
}
}
}
func Xsqlite3BackupUpdate(tls *libc.TLS, pBackup uintptr, iPage Pgno, aData uintptr) {
if pBackup != 0 {
backupUpdate(tls, pBackup, iPage, aData)
}
}
// Restart the backup process. This is called when the pager layer
// detects that the database has been modified by an external database
// connection. In this case there is no way of knowing which of the
// pages that have been copied into the destination database are still
// valid and which are not, so the entire process needs to be restarted.
//
// It is assumed that the mutex associated with the BtShared object
// corresponding to the source database is held when this function is
// called.
func Xsqlite3BackupRestart(tls *libc.TLS, pBackup uintptr) {
var p uintptr
for p = pBackup; p != 0; p = (*Sqlite3_backup)(unsafe.Pointer(p)).FpNext {
(*Sqlite3_backup)(unsafe.Pointer(p)).FiNext = Pgno(1)
}
}
// Copy the complete content of pBtFrom into pBtTo. A transaction
// must be active for both files.
//
// The size of file pTo may be reduced by this operation. If anything
// goes wrong, the transaction on pTo is rolled back. If successful, the
// transaction is committed before returning.
func Xsqlite3BtreeCopyFile(tls *libc.TLS, pTo uintptr, pFrom uintptr) int32 {
bp := tls.Alloc(80)
defer tls.Free(80)
var rc int32
var pFd uintptr
Xsqlite3BtreeEnter(tls, pTo)
Xsqlite3BtreeEnter(tls, pFrom)
pFd = Xsqlite3PagerFile(tls, Xsqlite3BtreePager(tls, pTo))
if !((*Sqlite3_file)(unsafe.Pointer(pFd)).FpMethods != 0) {
goto __1
}
*(*I64)(unsafe.Pointer(bp)) = I64(Xsqlite3BtreeGetPageSize(tls, pFrom)) * I64(Xsqlite3BtreeLastPage(tls, pFrom))
rc = Xsqlite3OsFileControl(tls, pFd, SQLITE_FCNTL_OVERWRITE, bp)
if !(rc == SQLITE_NOTFOUND) {
goto __2
}
rc = SQLITE_OK
__2:
;
if !(rc != 0) {
goto __3
}
goto copy_finished
__3:
;
__1:
;
libc.X__builtin___memset_chk(tls, bp+8, 0, uint64(unsafe.Sizeof(Sqlite3_backup{})), libc.X__builtin_object_size(tls, bp+8, 0))
(*Sqlite3_backup)(unsafe.Pointer(bp + 8)).FpSrcDb = (*Btree)(unsafe.Pointer(pFrom)).Fdb
(*Sqlite3_backup)(unsafe.Pointer(bp + 8)).FpSrc = pFrom
(*Sqlite3_backup)(unsafe.Pointer(bp + 8)).FpDest = pTo
(*Sqlite3_backup)(unsafe.Pointer(bp + 8)).FiNext = Pgno(1)
Xsqlite3_backup_step(tls, bp+8, 0x7FFFFFFF)
rc = Xsqlite3_backup_finish(tls, bp+8)
if !(rc == SQLITE_OK) {
goto __4
}
*(*U16)(unsafe.Pointer((*Btree)(unsafe.Pointer(pTo)).FpBt + 40)) &= libc.Uint16FromInt32(libc.CplInt32(BTS_PAGESIZE_FIXED))
goto __5
__4:
Xsqlite3PagerClearCache(tls, Xsqlite3BtreePager(tls, (*Sqlite3_backup)(unsafe.Pointer(bp+8)).FpDest))
__5:
;
copy_finished:
Xsqlite3BtreeLeave(tls, pFrom)
Xsqlite3BtreeLeave(tls, pTo)
return rc
}
func vdbeMemRenderNum(tls *libc.TLS, sz int32, zBuf uintptr, p uintptr) {
bp := tls.Alloc(40)
defer tls.Free(40)
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&MEM_Int != 0 {
(*Mem)(unsafe.Pointer(p)).Fn = Xsqlite3Int64ToText(tls, *(*I64)(unsafe.Pointer(p)), zBuf)
} else {
Xsqlite3StrAccumInit(tls, bp+8, uintptr(0), zBuf, sz, 0)
Xsqlite3_str_appendf(tls, bp+8, ts+5328,
libc.VaList(bp, func() float64 {
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&MEM_IntReal != 0 {
return float64(*(*I64)(unsafe.Pointer(p)))
}
return *(*float64)(unsafe.Pointer(p))
}()))
*(*int8)(unsafe.Pointer(zBuf + uintptr((*StrAccum)(unsafe.Pointer(bp+8)).FnChar))) = int8(0)
(*Mem)(unsafe.Pointer(p)).Fn = int32((*StrAccum)(unsafe.Pointer(bp + 8)).FnChar)
}
}
// If pMem is an object with a valid string representation, this routine
// ensures the internal encoding for the string representation is
// 'desiredEnc', one of SQLITE_UTF8, SQLITE_UTF16LE or SQLITE_UTF16BE.
//
// If pMem is not a string object, or the encoding of the string
// representation is already stored using the requested encoding, then this
// routine is a no-op.
//
// SQLITE_OK is returned if the conversion is successful (or not required).
// SQLITE_NOMEM may be returned if a malloc() fails during conversion
// between formats.
func Xsqlite3VdbeChangeEncoding(tls *libc.TLS, pMem uintptr, desiredEnc int32) int32 {
var rc int32
if !(int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Str != 0) {
(*Mem)(unsafe.Pointer(pMem)).Fenc = U8(desiredEnc)
return SQLITE_OK
}
if int32((*Mem)(unsafe.Pointer(pMem)).Fenc) == desiredEnc {
return SQLITE_OK
}
rc = Xsqlite3VdbeMemTranslate(tls, pMem, U8(desiredEnc))
return rc
}
// Make sure pMem->z points to a writable allocation of at least n bytes.
//
// If the bPreserve argument is true, then copy of the content of
// pMem->z into the new allocation. pMem must be either a string or
// blob if bPreserve is true. If bPreserve is false, any prior content
// in pMem->z is discarded.
func Xsqlite3VdbeMemGrow(tls *libc.TLS, pMem uintptr, n int32, bPreserve int32) int32 {
if (*Mem)(unsafe.Pointer(pMem)).FszMalloc > 0 && bPreserve != 0 && (*Mem)(unsafe.Pointer(pMem)).Fz == (*Mem)(unsafe.Pointer(pMem)).FzMalloc {
if (*Mem)(unsafe.Pointer(pMem)).Fdb != 0 {
(*Mem)(unsafe.Pointer(pMem)).Fz = libc.AssignPtrUintptr(pMem+40, Xsqlite3DbReallocOrFree(tls, (*Mem)(unsafe.Pointer(pMem)).Fdb, (*Mem)(unsafe.Pointer(pMem)).Fz, uint64(n)))
} else {
(*Mem)(unsafe.Pointer(pMem)).FzMalloc = Xsqlite3Realloc(tls, (*Mem)(unsafe.Pointer(pMem)).Fz, uint64(n))
if (*Mem)(unsafe.Pointer(pMem)).FzMalloc == uintptr(0) {
Xsqlite3_free(tls, (*Mem)(unsafe.Pointer(pMem)).Fz)
}
(*Mem)(unsafe.Pointer(pMem)).Fz = (*Mem)(unsafe.Pointer(pMem)).FzMalloc
}
bPreserve = 0
} else {
if (*Mem)(unsafe.Pointer(pMem)).FszMalloc > 0 {
Xsqlite3DbFreeNN(tls, (*Mem)(unsafe.Pointer(pMem)).Fdb, (*Mem)(unsafe.Pointer(pMem)).FzMalloc)
}
(*Mem)(unsafe.Pointer(pMem)).FzMalloc = Xsqlite3DbMallocRaw(tls, (*Mem)(unsafe.Pointer(pMem)).Fdb, uint64(n))
}
if (*Mem)(unsafe.Pointer(pMem)).FzMalloc == uintptr(0) {
Xsqlite3VdbeMemSetNull(tls, pMem)
(*Mem)(unsafe.Pointer(pMem)).Fz = uintptr(0)
(*Mem)(unsafe.Pointer(pMem)).FszMalloc = 0
return SQLITE_NOMEM
} else {
(*Mem)(unsafe.Pointer(pMem)).FszMalloc = Xsqlite3DbMallocSize(tls, (*Mem)(unsafe.Pointer(pMem)).Fdb, (*Mem)(unsafe.Pointer(pMem)).FzMalloc)
}
if bPreserve != 0 && (*Mem)(unsafe.Pointer(pMem)).Fz != 0 {
libc.X__builtin___memcpy_chk(tls, (*Mem)(unsafe.Pointer(pMem)).FzMalloc, (*Mem)(unsafe.Pointer(pMem)).Fz, uint64((*Mem)(unsafe.Pointer(pMem)).Fn), libc.X__builtin_object_size(tls, (*Mem)(unsafe.Pointer(pMem)).FzMalloc, 0))
}
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Dyn != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*Mem)(unsafe.Pointer(pMem)).FxDel})).f(tls, (*Mem)(unsafe.Pointer(pMem)).Fz)
}
(*Mem)(unsafe.Pointer(pMem)).Fz = (*Mem)(unsafe.Pointer(pMem)).FzMalloc
*(*U16)(unsafe.Pointer(pMem + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Dyn | MEM_Ephem | MEM_Static))
return SQLITE_OK
}
// Change the pMem->zMalloc allocation to be at least szNew bytes.
// If pMem->zMalloc already meets or exceeds the requested size, this
// routine is a no-op.
//
// Any prior string or blob content in the pMem object may be discarded.
// The pMem->xDel destructor is called, if it exists. Though MEM_Str
// and MEM_Blob values may be discarded, MEM_Int, MEM_Real, MEM_IntReal,
// and MEM_Null values are preserved.
//
// Return SQLITE_OK on success or an error code (probably SQLITE_NOMEM)
// if unable to complete the resizing.
func Xsqlite3VdbeMemClearAndResize(tls *libc.TLS, pMem uintptr, szNew int32) int32 {
if (*Mem)(unsafe.Pointer(pMem)).FszMalloc < szNew {
return Xsqlite3VdbeMemGrow(tls, pMem, szNew, 0)
}
(*Mem)(unsafe.Pointer(pMem)).Fz = (*Mem)(unsafe.Pointer(pMem)).FzMalloc
*(*U16)(unsafe.Pointer(pMem + 20)) &= U16(MEM_Null | MEM_Int | MEM_Real | MEM_IntReal)
return SQLITE_OK
}
func vdbeMemAddTerminator(tls *libc.TLS, pMem uintptr) int32 {
if Xsqlite3VdbeMemGrow(tls, pMem, (*Mem)(unsafe.Pointer(pMem)).Fn+3, 1) != 0 {
return SQLITE_NOMEM
}
*(*int8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pMem)).Fz + uintptr((*Mem)(unsafe.Pointer(pMem)).Fn))) = int8(0)
*(*int8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pMem)).Fz + uintptr((*Mem)(unsafe.Pointer(pMem)).Fn+1))) = int8(0)
*(*int8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pMem)).Fz + uintptr((*Mem)(unsafe.Pointer(pMem)).Fn+2))) = int8(0)
*(*U16)(unsafe.Pointer(pMem + 20)) |= U16(MEM_Term)
return SQLITE_OK
}
// Change pMem so that its MEM_Str or MEM_Blob value is stored in
// MEM.zMalloc, where it can be safely written.
//
// Return SQLITE_OK on success or SQLITE_NOMEM if malloc fails.
func Xsqlite3VdbeMemMakeWriteable(tls *libc.TLS, pMem uintptr) int32 {
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&(MEM_Str|MEM_Blob) != 0 {
if func() int32 {
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Zero != 0 {
return Xsqlite3VdbeMemExpandBlob(tls, pMem)
}
return 0
}() != 0 {
return SQLITE_NOMEM
}
if (*Mem)(unsafe.Pointer(pMem)).FszMalloc == 0 || (*Mem)(unsafe.Pointer(pMem)).Fz != (*Mem)(unsafe.Pointer(pMem)).FzMalloc {
var rc int32 = vdbeMemAddTerminator(tls, pMem)
if rc != 0 {
return rc
}
}
}
*(*U16)(unsafe.Pointer(pMem + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Ephem))
return SQLITE_OK
}
// If the given Mem* has a zero-filled tail, turn it into an ordinary
// blob stored in dynamically allocated space.
func Xsqlite3VdbeMemExpandBlob(tls *libc.TLS, pMem uintptr) int32 {
var nByte int32
nByte = (*Mem)(unsafe.Pointer(pMem)).Fn + *(*int32)(unsafe.Pointer(pMem))
if nByte <= 0 {
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Blob == 0 {
return SQLITE_OK
}
nByte = 1
}
if Xsqlite3VdbeMemGrow(tls, pMem, nByte, 1) != 0 {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, (*Mem)(unsafe.Pointer(pMem)).Fz+uintptr((*Mem)(unsafe.Pointer(pMem)).Fn), 0, uint64(*(*int32)(unsafe.Pointer(pMem))), libc.X__builtin_object_size(tls, (*Mem)(unsafe.Pointer(pMem)).Fz+uintptr((*Mem)(unsafe.Pointer(pMem)).Fn), 0))
*(*int32)(unsafe.Pointer(pMem + 16)) += *(*int32)(unsafe.Pointer(pMem))
*(*U16)(unsafe.Pointer(pMem + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Zero | MEM_Term))
return SQLITE_OK
}
// Make sure the given Mem is \u0000 terminated.
func Xsqlite3VdbeMemNulTerminate(tls *libc.TLS, pMem uintptr) int32 {
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&(MEM_Term|MEM_Str) != MEM_Str {
return SQLITE_OK
} else {
return vdbeMemAddTerminator(tls, pMem)
}
return int32(0)
}
// Add MEM_Str to the set of representations for the given Mem. This
// routine is only called if pMem is a number of some kind, not a NULL
// or a BLOB.
//
// Existing representations MEM_Int, MEM_Real, or MEM_IntReal are invalidated
// if bForce is true but are retained if bForce is false.
//
// A MEM_Null value will never be passed to this function. This function is
// used for converting values to text for returning to the user (i.e. via
// sqlite3_value_text()), or for ensuring that values to be used as btree
// keys are strings. In the former case a NULL pointer is returned the
// user and the latter is an internal programming error.
func Xsqlite3VdbeMemStringify(tls *libc.TLS, pMem uintptr, enc U8, bForce U8) int32 {
var nByte int32 = 32
if Xsqlite3VdbeMemClearAndResize(tls, pMem, nByte) != 0 {
(*Mem)(unsafe.Pointer(pMem)).Fenc = U8(0)
return SQLITE_NOMEM
}
vdbeMemRenderNum(tls, nByte, (*Mem)(unsafe.Pointer(pMem)).Fz, pMem)
(*Mem)(unsafe.Pointer(pMem)).Fenc = U8(SQLITE_UTF8)
*(*U16)(unsafe.Pointer(pMem + 20)) |= U16(MEM_Str | MEM_Term)
if bForce != 0 {
*(*U16)(unsafe.Pointer(pMem + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Int | MEM_Real | MEM_IntReal))
}
Xsqlite3VdbeChangeEncoding(tls, pMem, int32(enc))
return SQLITE_OK
}
// Memory cell pMem contains the context of an aggregate function.
// This routine calls the finalize method for that function. The
// result of the aggregate is stored back into pMem.
//
// Return SQLITE_ERROR if the finalizer reports an error. SQLITE_OK
// otherwise.
func Xsqlite3VdbeMemFinalize(tls *libc.TLS, pMem uintptr, pFunc uintptr) int32 {
bp := tls.Alloc(112)
defer tls.Free(112)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Sqlite3_context{})), libc.X__builtin_object_size(tls, bp, 0))
libc.X__builtin___memset_chk(tls, bp+56, 0, uint64(unsafe.Sizeof(Mem{})), libc.X__builtin_object_size(tls, bp+56, 0))
(*Mem)(unsafe.Pointer(bp + 56)).Fflags = U16(MEM_Null)
(*Mem)(unsafe.Pointer(bp + 56)).Fdb = (*Mem)(unsafe.Pointer(pMem)).Fdb
(*Sqlite3_context)(unsafe.Pointer(bp)).FpOut = bp + 56
(*Sqlite3_context)(unsafe.Pointer(bp)).FpMem = pMem
(*Sqlite3_context)(unsafe.Pointer(bp)).FpFunc = pFunc
(*Sqlite3_context)(unsafe.Pointer(bp)).Fenc = (*Sqlite3)(unsafe.Pointer((*Mem)(unsafe.Pointer(bp + 56)).Fdb)).Fenc
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*FuncDef)(unsafe.Pointer(pFunc)).FxFinalize})).f(tls, bp)
if (*Mem)(unsafe.Pointer(pMem)).FszMalloc > 0 {
Xsqlite3DbFreeNN(tls, (*Mem)(unsafe.Pointer(pMem)).Fdb, (*Mem)(unsafe.Pointer(pMem)).FzMalloc)
}
libc.X__builtin___memcpy_chk(tls, pMem, bp+56, uint64(unsafe.Sizeof(Mem{})), libc.X__builtin_object_size(tls, pMem, 0))
return (*Sqlite3_context)(unsafe.Pointer(bp)).FisError
}
// Memory cell pAccum contains the context of an aggregate function.
// This routine calls the xValue method for that function and stores
// the results in memory cell pMem.
//
// SQLITE_ERROR is returned if xValue() reports an error. SQLITE_OK
// otherwise.
func Xsqlite3VdbeMemAggValue(tls *libc.TLS, pAccum uintptr, pOut uintptr, pFunc uintptr) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Sqlite3_context{})), libc.X__builtin_object_size(tls, bp, 0))
Xsqlite3VdbeMemSetNull(tls, pOut)
(*Sqlite3_context)(unsafe.Pointer(bp)).FpOut = pOut
(*Sqlite3_context)(unsafe.Pointer(bp)).FpMem = pAccum
(*Sqlite3_context)(unsafe.Pointer(bp)).FpFunc = pFunc
(*Sqlite3_context)(unsafe.Pointer(bp)).Fenc = (*Sqlite3)(unsafe.Pointer((*Mem)(unsafe.Pointer(pAccum)).Fdb)).Fenc
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*FuncDef)(unsafe.Pointer(pFunc)).FxValue})).f(tls, bp)
return (*Sqlite3_context)(unsafe.Pointer(bp)).FisError
}
func vdbeMemClearExternAndSetNull(tls *libc.TLS, p uintptr) {
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&MEM_Agg != 0 {
Xsqlite3VdbeMemFinalize(tls, p, *(*uintptr)(unsafe.Pointer(p)))
}
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&MEM_Dyn != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*Mem)(unsafe.Pointer(p)).FxDel})).f(tls, (*Mem)(unsafe.Pointer(p)).Fz)
}
(*Mem)(unsafe.Pointer(p)).Fflags = U16(MEM_Null)
}
func vdbeMemClear(tls *libc.TLS, p uintptr) {
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&(MEM_Agg|MEM_Dyn) != 0 {
vdbeMemClearExternAndSetNull(tls, p)
}
if (*Mem)(unsafe.Pointer(p)).FszMalloc != 0 {
Xsqlite3DbFreeNN(tls, (*Mem)(unsafe.Pointer(p)).Fdb, (*Mem)(unsafe.Pointer(p)).FzMalloc)
(*Mem)(unsafe.Pointer(p)).FszMalloc = 0
}
(*Mem)(unsafe.Pointer(p)).Fz = uintptr(0)
}
// Release any memory resources held by the Mem. Both the memory that is
// free by Mem.xDel and the Mem.zMalloc allocation are freed.
//
// Use this routine prior to clean up prior to abandoning a Mem, or to
// reset a Mem back to its minimum memory utilization.
//
// Use sqlite3VdbeMemSetNull() to release just the Mem.xDel space
// prior to inserting new content into the Mem.
func Xsqlite3VdbeMemRelease(tls *libc.TLS, p uintptr) {
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&(MEM_Agg|MEM_Dyn) != 0 || (*Mem)(unsafe.Pointer(p)).FszMalloc != 0 {
vdbeMemClear(tls, p)
}
}
// Like sqlite3VdbeMemRelease() but faster for cases where we
// know in advance that the Mem is not MEM_Dyn or MEM_Agg.
func Xsqlite3VdbeMemReleaseMalloc(tls *libc.TLS, p uintptr) {
if (*Mem)(unsafe.Pointer(p)).FszMalloc != 0 {
vdbeMemClear(tls, p)
}
}
func doubleToInt64(tls *libc.TLS, r float64) I64 {
if r <= float64(minInt) {
return minInt
} else if r >= float64(maxInt) {
return maxInt
} else {
return I64(r)
}
return I64(0)
}
var maxInt I64 = int64(0xffffffff) | int64(0x7fffffff)<<32
var minInt I64 = int64(-1) - (int64(0xffffffff) | int64(0x7fffffff)<<32)
func memIntValue(tls *libc.TLS, pMem uintptr) I64 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*I64)(unsafe.Pointer(bp)) = int64(0)
Xsqlite3Atoi64(tls, (*Mem)(unsafe.Pointer(pMem)).Fz, bp, (*Mem)(unsafe.Pointer(pMem)).Fn, (*Mem)(unsafe.Pointer(pMem)).Fenc)
return *(*I64)(unsafe.Pointer(bp))
}
func Xsqlite3VdbeIntValue(tls *libc.TLS, pMem uintptr) I64 {
var flags int32
flags = int32((*Mem)(unsafe.Pointer(pMem)).Fflags)
if flags&(MEM_Int|MEM_IntReal) != 0 {
return *(*I64)(unsafe.Pointer(pMem))
} else if flags&MEM_Real != 0 {
return doubleToInt64(tls, *(*float64)(unsafe.Pointer(pMem)))
} else if flags&(MEM_Str|MEM_Blob) != 0 && (*Mem)(unsafe.Pointer(pMem)).Fz != uintptr(0) {
return memIntValue(tls, pMem)
} else {
return int64(0)
}
return I64(0)
}
func memRealValue(tls *libc.TLS, pMem uintptr) float64 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*float64)(unsafe.Pointer(bp)) = float64(0)
Xsqlite3AtoF(tls, (*Mem)(unsafe.Pointer(pMem)).Fz, bp, (*Mem)(unsafe.Pointer(pMem)).Fn, (*Mem)(unsafe.Pointer(pMem)).Fenc)
return *(*float64)(unsafe.Pointer(bp))
}
func Xsqlite3VdbeRealValue(tls *libc.TLS, pMem uintptr) float64 {
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Real != 0 {
return *(*float64)(unsafe.Pointer(pMem))
} else if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&(MEM_Int|MEM_IntReal) != 0 {
return float64(*(*I64)(unsafe.Pointer(pMem)))
} else if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&(MEM_Str|MEM_Blob) != 0 {
return memRealValue(tls, pMem)
} else {
return float64(0)
}
return float64(0)
}
// Return 1 if pMem represents true, and return 0 if pMem represents false.
// Return the value ifNull if pMem is NULL.
func Xsqlite3VdbeBooleanValue(tls *libc.TLS, pMem uintptr, ifNull int32) int32 {
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&(MEM_Int|MEM_IntReal) != 0 {
return libc.Bool32(*(*I64)(unsafe.Pointer(pMem)) != int64(0))
}
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Null != 0 {
return ifNull
}
return libc.Bool32(Xsqlite3VdbeRealValue(tls, pMem) != 0.0)
}
// The MEM structure is already a MEM_Real or MEM_IntReal. Try to
// make it a MEM_Int if we can.
func Xsqlite3VdbeIntegerAffinity(tls *libc.TLS, pMem uintptr) {
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_IntReal != 0 {
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Int)
} else {
var ix I64 = doubleToInt64(tls, *(*float64)(unsafe.Pointer(pMem)))
if *(*float64)(unsafe.Pointer(pMem)) == float64(ix) && ix > int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32) && ix < int64(0xffffffff)|int64(0x7fffffff)<<32 {
*(*I64)(unsafe.Pointer(pMem)) = ix
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Int)
}
}
}
// Convert pMem to type integer. Invalidate any prior representations.
func Xsqlite3VdbeMemIntegerify(tls *libc.TLS, pMem uintptr) int32 {
*(*I64)(unsafe.Pointer(pMem)) = Xsqlite3VdbeIntValue(tls, pMem)
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Int)
return SQLITE_OK
}
// Convert pMem so that it is of type MEM_Real.
// Invalidate any prior representations.
func Xsqlite3VdbeMemRealify(tls *libc.TLS, pMem uintptr) int32 {
*(*float64)(unsafe.Pointer(pMem)) = Xsqlite3VdbeRealValue(tls, pMem)
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Real)
return SQLITE_OK
}
// Compare a floating point value to an integer. Return true if the two
// values are the same within the precision of the floating point value.
//
// This function assumes that i was obtained by assignment from r1.
//
// For some versions of GCC on 32-bit machines, if you do the more obvious
// comparison of "r1==(double)i" you sometimes get an answer of false even
// though the r1 and (double)i values are bit-for-bit the same.
func Xsqlite3RealSameAsInt(tls *libc.TLS, r1 float64, i Sqlite3_int64) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
*(*float64)(unsafe.Pointer(bp)) = r1
*(*float64)(unsafe.Pointer(bp + 8)) = float64(i)
return libc.Bool32(*(*float64)(unsafe.Pointer(bp)) == 0.0 ||
libc.Xmemcmp(tls, bp, bp+8, uint64(unsafe.Sizeof(float64(0)))) == 0 &&
i >= -2251799813685248 && i < 2251799813685248)
}
// Convert a floating point value to its closest integer. Do so in
// a way that avoids 'outside the range of representable values' warnings
// from UBSAN.
func Xsqlite3RealToI64(tls *libc.TLS, r float64) I64 {
if r <= float64(int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32)) {
return int64(-1) - (int64(0xffffffff) | int64(0x7fffffff)<<32)
}
if r >= float64(int64(0xffffffff)|int64(0x7fffffff)<<32) {
return int64(0xffffffff) | int64(0x7fffffff)<<32
}
return I64(r)
}
// Convert pMem so that it has type MEM_Real or MEM_Int.
// Invalidate any prior representations.
//
// Every effort is made to force the conversion, even if the input
// is a string that does not look completely like a number. Convert
// as much of the string as we can and ignore the rest.
func Xsqlite3VdbeMemNumerify(tls *libc.TLS, pMem uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&(MEM_Int|MEM_Real|MEM_IntReal|MEM_Null) == 0 {
var rc int32
rc = Xsqlite3AtoF(tls, (*Mem)(unsafe.Pointer(pMem)).Fz, pMem, (*Mem)(unsafe.Pointer(pMem)).Fn, (*Mem)(unsafe.Pointer(pMem)).Fenc)
if (rc == 0 || rc == 1) && Xsqlite3Atoi64(tls, (*Mem)(unsafe.Pointer(pMem)).Fz, bp, (*Mem)(unsafe.Pointer(pMem)).Fn, (*Mem)(unsafe.Pointer(pMem)).Fenc) <= 1 ||
Xsqlite3RealSameAsInt(tls, *(*float64)(unsafe.Pointer(pMem)), libc.AssignPtrInt64(bp, Xsqlite3RealToI64(tls, *(*float64)(unsafe.Pointer(pMem))))) != 0 {
*(*I64)(unsafe.Pointer(pMem)) = *(*Sqlite3_int64)(unsafe.Pointer(bp))
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Int)
} else {
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Real)
}
}
*(*U16)(unsafe.Pointer(pMem + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Str | MEM_Blob | MEM_Zero))
return SQLITE_OK
}
// Cast the datatype of the value in pMem according to the affinity
// "aff". Casting is different from applying affinity in that a cast
// is forced. In other words, the value is converted into the desired
// affinity even if that results in loss of data. This routine is
// used (for example) to implement the SQL "cast()" operator.
func Xsqlite3VdbeMemCast(tls *libc.TLS, pMem uintptr, aff U8, encoding U8) int32 {
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Null != 0 {
return SQLITE_OK
}
switch int32(aff) {
case SQLITE_AFF_BLOB:
{
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Blob == 0 {
Xsqlite3ValueApplyAffinity(tls, pMem, uint8(SQLITE_AFF_TEXT), encoding)
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Str != 0 {
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Blob)
}
} else {
*(*U16)(unsafe.Pointer(pMem + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_TypeMask & libc.CplInt32(MEM_Blob)))
}
break
}
case SQLITE_AFF_NUMERIC:
{
Xsqlite3VdbeMemNumerify(tls, pMem)
break
}
case SQLITE_AFF_INTEGER:
{
Xsqlite3VdbeMemIntegerify(tls, pMem)
break
}
case SQLITE_AFF_REAL:
{
Xsqlite3VdbeMemRealify(tls, pMem)
break
}
default:
{
*(*U16)(unsafe.Pointer(pMem + 20)) |= U16(int32((*Mem)(unsafe.Pointer(pMem)).Fflags) & MEM_Blob >> 3)
Xsqlite3ValueApplyAffinity(tls, pMem, uint8(SQLITE_AFF_TEXT), encoding)
*(*U16)(unsafe.Pointer(pMem + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Int | MEM_Real | MEM_IntReal | MEM_Blob | MEM_Zero))
if int32(encoding) != SQLITE_UTF8 {
*(*int32)(unsafe.Pointer(pMem + 16)) &= libc.CplInt32(1)
}
return Xsqlite3VdbeChangeEncoding(tls, pMem, int32(encoding))
}
}
return SQLITE_OK
}
// Initialize bulk memory to be a consistent Mem object.
//
// The minimum amount of initialization feasible is performed.
func Xsqlite3VdbeMemInit(tls *libc.TLS, pMem uintptr, db uintptr, flags U16) {
(*Mem)(unsafe.Pointer(pMem)).Fflags = flags
(*Mem)(unsafe.Pointer(pMem)).Fdb = db
(*Mem)(unsafe.Pointer(pMem)).FszMalloc = 0
}
// Delete any previous value and set the value stored in *pMem to NULL.
//
// This routine calls the Mem.xDel destructor to dispose of values that
// require the destructor. But it preserves the Mem.zMalloc memory allocation.
// To free all resources, use sqlite3VdbeMemRelease(), which both calls this
// routine to invoke the destructor and deallocates Mem.zMalloc.
//
// Use this routine to reset the Mem prior to insert a new value.
//
// Use sqlite3VdbeMemRelease() to complete erase the Mem prior to abandoning it.
func Xsqlite3VdbeMemSetNull(tls *libc.TLS, pMem uintptr) {
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&(MEM_Agg|MEM_Dyn) != 0 {
vdbeMemClearExternAndSetNull(tls, pMem)
} else {
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Null)
}
}
func Xsqlite3ValueSetNull(tls *libc.TLS, p uintptr) {
Xsqlite3VdbeMemSetNull(tls, p)
}
// Delete any previous value and set the value to be a BLOB of length
// n containing all zeros.
func Xsqlite3VdbeMemSetZeroBlob(tls *libc.TLS, pMem uintptr, n int32) {
Xsqlite3VdbeMemRelease(tls, pMem)
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Blob | MEM_Zero)
(*Mem)(unsafe.Pointer(pMem)).Fn = 0
if n < 0 {
n = 0
}
*(*int32)(unsafe.Pointer(pMem)) = n
(*Mem)(unsafe.Pointer(pMem)).Fenc = U8(SQLITE_UTF8)
(*Mem)(unsafe.Pointer(pMem)).Fz = uintptr(0)
}
func vdbeReleaseAndSetInt64(tls *libc.TLS, pMem uintptr, val I64) {
Xsqlite3VdbeMemSetNull(tls, pMem)
*(*I64)(unsafe.Pointer(pMem)) = val
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Int)
}
// Delete any previous value and set the value stored in *pMem to val,
// manifest type INTEGER.
func Xsqlite3VdbeMemSetInt64(tls *libc.TLS, pMem uintptr, val I64) {
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&(MEM_Agg|MEM_Dyn) != 0 {
vdbeReleaseAndSetInt64(tls, pMem, val)
} else {
*(*I64)(unsafe.Pointer(pMem)) = val
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Int)
}
}
// A no-op destructor
func Xsqlite3NoopDestructor(tls *libc.TLS, p uintptr) {
_ = p
}
// Set the value stored in *pMem should already be a NULL.
// Also store a pointer to go with it.
func Xsqlite3VdbeMemSetPointer(tls *libc.TLS, pMem uintptr, pPtr uintptr, zPType uintptr, xDestructor uintptr) {
vdbeMemClear(tls, pMem)
*(*uintptr)(unsafe.Pointer(pMem)) = func() uintptr {
if zPType != 0 {
return zPType
}
return ts + 1547
}()
(*Mem)(unsafe.Pointer(pMem)).Fz = pPtr
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Null | MEM_Dyn | MEM_Subtype | MEM_Term)
(*Mem)(unsafe.Pointer(pMem)).FeSubtype = U8('p')
(*Mem)(unsafe.Pointer(pMem)).FxDel = func() uintptr {
if xDestructor != 0 {
return xDestructor
}
return *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3NoopDestructor}))
}()
}
// Delete any previous value and set the value stored in *pMem to val,
// manifest type REAL.
func Xsqlite3VdbeMemSetDouble(tls *libc.TLS, pMem uintptr, val float64) {
Xsqlite3VdbeMemSetNull(tls, pMem)
if !(Xsqlite3IsNaN(tls, val) != 0) {
*(*float64)(unsafe.Pointer(pMem)) = val
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Real)
}
}
// Delete any previous value and set the value of pMem to be an
// empty boolean index.
//
// Return SQLITE_OK on success and SQLITE_NOMEM if a memory allocation
// error occurs.
func Xsqlite3VdbeMemSetRowSet(tls *libc.TLS, pMem uintptr) int32 {
var db uintptr = (*Mem)(unsafe.Pointer(pMem)).Fdb
var p uintptr
Xsqlite3VdbeMemRelease(tls, pMem)
p = Xsqlite3RowSetInit(tls, db)
if p == uintptr(0) {
return SQLITE_NOMEM
}
(*Mem)(unsafe.Pointer(pMem)).Fz = p
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Blob | MEM_Dyn)
(*Mem)(unsafe.Pointer(pMem)).FxDel = *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3RowSetDelete}))
return SQLITE_OK
}
// Return true if the Mem object contains a TEXT or BLOB that is
// too large - whose size exceeds SQLITE_MAX_LENGTH.
func Xsqlite3VdbeMemTooBig(tls *libc.TLS, p uintptr) int32 {
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&(MEM_Str|MEM_Blob) != 0 {
var n int32 = (*Mem)(unsafe.Pointer(p)).Fn
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&MEM_Zero != 0 {
n = n + *(*int32)(unsafe.Pointer(p))
}
return libc.Bool32(n > *(*int32)(unsafe.Pointer((*Mem)(unsafe.Pointer(p)).Fdb + 136)))
}
return 0
}
func vdbeClrCopy(tls *libc.TLS, pTo uintptr, pFrom uintptr, eType int32) {
vdbeMemClearExternAndSetNull(tls, pTo)
Xsqlite3VdbeMemShallowCopy(tls, pTo, pFrom, eType)
}
func Xsqlite3VdbeMemShallowCopy(tls *libc.TLS, pTo uintptr, pFrom uintptr, srcType int32) {
if int32((*Mem)(unsafe.Pointer(pTo)).Fflags)&(MEM_Agg|MEM_Dyn) != 0 {
vdbeClrCopy(tls, pTo, pFrom, srcType)
return
}
libc.X__builtin___memcpy_chk(tls, pTo, pFrom, uint64(uintptr(0)+24), libc.X__builtin_object_size(tls, pTo, 0))
if int32((*Mem)(unsafe.Pointer(pFrom)).Fflags)&MEM_Static == 0 {
*(*U16)(unsafe.Pointer(pTo + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Dyn | MEM_Static | MEM_Ephem))
*(*U16)(unsafe.Pointer(pTo + 20)) |= U16(srcType)
}
}
// Make a full copy of pFrom into pTo. Prior contents of pTo are
// freed before the copy is made.
func Xsqlite3VdbeMemCopy(tls *libc.TLS, pTo uintptr, pFrom uintptr) int32 {
var rc int32 = SQLITE_OK
if int32((*Mem)(unsafe.Pointer(pTo)).Fflags)&(MEM_Agg|MEM_Dyn) != 0 {
vdbeMemClearExternAndSetNull(tls, pTo)
}
libc.X__builtin___memcpy_chk(tls, pTo, pFrom, uint64(uintptr(0)+24), libc.X__builtin_object_size(tls, pTo, 0))
*(*U16)(unsafe.Pointer(pTo + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Dyn))
if int32((*Mem)(unsafe.Pointer(pTo)).Fflags)&(MEM_Str|MEM_Blob) != 0 {
if 0 == int32((*Mem)(unsafe.Pointer(pFrom)).Fflags)&MEM_Static {
*(*U16)(unsafe.Pointer(pTo + 20)) |= U16(MEM_Ephem)
rc = Xsqlite3VdbeMemMakeWriteable(tls, pTo)
}
}
return rc
}
// Transfer the contents of pFrom to pTo. Any existing value in pTo is
// freed. If pFrom contains ephemeral data, a copy is made.
//
// pFrom contains an SQL NULL when this routine returns.
func Xsqlite3VdbeMemMove(tls *libc.TLS, pTo uintptr, pFrom uintptr) {
Xsqlite3VdbeMemRelease(tls, pTo)
libc.X__builtin___memcpy_chk(tls, pTo, pFrom, uint64(unsafe.Sizeof(Mem{})), libc.X__builtin_object_size(tls, pTo, 0))
(*Mem)(unsafe.Pointer(pFrom)).Fflags = U16(MEM_Null)
(*Mem)(unsafe.Pointer(pFrom)).FszMalloc = 0
}
// Change the value of a Mem to be a string or a BLOB.
//
// The memory management strategy depends on the value of the xDel
// parameter. If the value passed is SQLITE_TRANSIENT, then the
// string is copied into a (possibly existing) buffer managed by the
// Mem structure. Otherwise, any existing buffer is freed and the
// pointer copied.
//
// If the string is too large (if it exceeds the SQLITE_LIMIT_LENGTH
// size limit) then no memory allocation occurs. If the string can be
// stored without allocating memory, then it is. If a memory allocation
// is required to store the string, then value of pMem is unchanged. In
// either case, SQLITE_TOOBIG is returned.
//
// The "enc" parameter is the text encoding for the string, or zero
// to store a blob.
//
// If n is negative, then the string consists of all bytes up to but
// excluding the first zero character. The n parameter must be
// non-negative for blobs.
func Xsqlite3VdbeMemSetStr(tls *libc.TLS, pMem uintptr, z uintptr, n I64, enc U8, xDel uintptr) int32 {
var nByte I64 = n
var iLimit int32
var flags U16
if !(z != 0) {
Xsqlite3VdbeMemSetNull(tls, pMem)
return SQLITE_OK
}
if (*Mem)(unsafe.Pointer(pMem)).Fdb != 0 {
iLimit = *(*int32)(unsafe.Pointer((*Mem)(unsafe.Pointer(pMem)).Fdb + 136))
} else {
iLimit = SQLITE_MAX_LENGTH
}
if nByte < int64(0) {
if int32(enc) == SQLITE_UTF8 {
nByte = I64(libc.Xstrlen(tls, z))
} else {
for nByte = int64(0); nByte <= I64(iLimit) && int32(*(*int8)(unsafe.Pointer(z + uintptr(nByte))))|int32(*(*int8)(unsafe.Pointer(z + uintptr(nByte+int64(1))))) != 0; nByte = nByte + int64(2) {
}
}
flags = U16(MEM_Str | MEM_Term)
} else if int32(enc) == 0 {
flags = U16(MEM_Blob)
enc = U8(SQLITE_UTF8)
} else {
flags = U16(MEM_Str)
}
if nByte > I64(iLimit) {
if xDel != 0 && xDel != libc.UintptrFromInt32(-1) {
if xDel == *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3OomClear})) {
Xsqlite3DbFree(tls, (*Mem)(unsafe.Pointer(pMem)).Fdb, z)
} else {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{xDel})).f(tls, z)
}
}
Xsqlite3VdbeMemSetNull(tls, pMem)
return Xsqlite3ErrorToParser(tls, (*Mem)(unsafe.Pointer(pMem)).Fdb, SQLITE_TOOBIG)
}
if xDel == libc.UintptrFromInt32(-1) {
var nAlloc I64 = nByte
if int32(flags)&MEM_Term != 0 {
nAlloc = nAlloc + func() int64 {
if int32(enc) == SQLITE_UTF8 {
return int64(1)
}
return int64(2)
}()
}
if Xsqlite3VdbeMemClearAndResize(tls, pMem, func() int32 {
if nAlloc > int64(32) {
return int32(nAlloc)
}
return 32
}()) != 0 {
return SQLITE_NOMEM
}
libc.X__builtin___memcpy_chk(tls, (*Mem)(unsafe.Pointer(pMem)).Fz, z, uint64(nAlloc), libc.X__builtin_object_size(tls, (*Mem)(unsafe.Pointer(pMem)).Fz, 0))
} else {
Xsqlite3VdbeMemRelease(tls, pMem)
(*Mem)(unsafe.Pointer(pMem)).Fz = z
if xDel == *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3OomClear})) {
(*Mem)(unsafe.Pointer(pMem)).FzMalloc = (*Mem)(unsafe.Pointer(pMem)).Fz
(*Mem)(unsafe.Pointer(pMem)).FszMalloc = Xsqlite3DbMallocSize(tls, (*Mem)(unsafe.Pointer(pMem)).Fdb, (*Mem)(unsafe.Pointer(pMem)).FzMalloc)
} else {
(*Mem)(unsafe.Pointer(pMem)).FxDel = xDel
flags = U16(int32(flags) | func() int32 {
if xDel == uintptr(0) {
return MEM_Static
}
return MEM_Dyn
}())
}
}
(*Mem)(unsafe.Pointer(pMem)).Fn = int32(nByte & int64(0x7fffffff))
(*Mem)(unsafe.Pointer(pMem)).Fflags = flags
(*Mem)(unsafe.Pointer(pMem)).Fenc = enc
if int32(enc) > SQLITE_UTF8 && Xsqlite3VdbeMemHandleBom(tls, pMem) != 0 {
return SQLITE_NOMEM
}
return SQLITE_OK
}
// Move data out of a btree key or data field and into a Mem structure.
// The data is payload from the entry that pCur is currently pointing
// to. offset and amt determine what portion of the data or key to retrieve.
// The result is written into the pMem element.
//
// The pMem object must have been initialized. This routine will use
// pMem->zMalloc to hold the content from the btree, if possible. New
// pMem->zMalloc space will be allocated if necessary. The calling routine
// is responsible for making sure that the pMem object is eventually
// destroyed.
//
// If this routine fails for any reason (malloc returns NULL or unable
// to read from the disk) then the pMem is left in an inconsistent state.
func Xsqlite3VdbeMemFromBtree(tls *libc.TLS, pCur uintptr, offset U32, amt U32, pMem uintptr) int32 {
var rc int32
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Null)
if Xsqlite3BtreeMaxRecordSize(tls, pCur) < Sqlite3_int64(offset+amt) {
return Xsqlite3CorruptError(tls, 81630)
}
if SQLITE_OK == libc.AssignInt32(&rc, Xsqlite3VdbeMemClearAndResize(tls, pMem, int32(amt+U32(1)))) {
rc = Xsqlite3BtreePayload(tls, pCur, offset, amt, (*Mem)(unsafe.Pointer(pMem)).Fz)
if rc == SQLITE_OK {
*(*int8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pMem)).Fz + uintptr(amt))) = int8(0)
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Blob)
(*Mem)(unsafe.Pointer(pMem)).Fn = int32(amt)
} else {
Xsqlite3VdbeMemRelease(tls, pMem)
}
}
return rc
}
func Xsqlite3VdbeMemFromBtreeZeroOffset(tls *libc.TLS, pCur uintptr, amt U32, pMem uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
*(*U32)(unsafe.Pointer(bp)) = U32(0)
var rc int32 = SQLITE_OK
(*Mem)(unsafe.Pointer(pMem)).Fz = Xsqlite3BtreePayloadFetch(tls, pCur, bp)
if amt <= *(*U32)(unsafe.Pointer(bp)) {
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Blob | MEM_Ephem)
(*Mem)(unsafe.Pointer(pMem)).Fn = int32(amt)
} else {
rc = Xsqlite3VdbeMemFromBtree(tls, pCur, uint32(0), amt, pMem)
}
return rc
}
func valueToText(tls *libc.TLS, pVal uintptr, enc U8) uintptr {
if int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fflags)&(MEM_Blob|MEM_Str) != 0 {
if func() int32 {
if int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fflags)&MEM_Zero != 0 {
return Xsqlite3VdbeMemExpandBlob(tls, pVal)
}
return 0
}() != 0 {
return uintptr(0)
}
*(*U16)(unsafe.Pointer(pVal + 20)) |= U16(MEM_Str)
if int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fenc) != int32(enc)&libc.CplInt32(SQLITE_UTF16_ALIGNED) {
Xsqlite3VdbeChangeEncoding(tls, pVal, int32(enc)&libc.CplInt32(SQLITE_UTF16_ALIGNED))
}
if int32(enc)&SQLITE_UTF16_ALIGNED != 0 && 1 == 1&int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fz) {
if Xsqlite3VdbeMemMakeWriteable(tls, pVal) != SQLITE_OK {
return uintptr(0)
}
}
Xsqlite3VdbeMemNulTerminate(tls, pVal)
} else {
Xsqlite3VdbeMemStringify(tls, pVal, enc, uint8(0))
}
if int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fenc) == int32(enc)&libc.CplInt32(SQLITE_UTF16_ALIGNED) {
return (*Sqlite3_value)(unsafe.Pointer(pVal)).Fz
} else {
return uintptr(0)
}
return uintptr(0)
}
// This function is only available internally, it is not part of the
// external API. It works in a similar way to sqlite3_value_text(),
// except the data returned is in the encoding specified by the second
// parameter, which must be one of SQLITE_UTF16BE, SQLITE_UTF16LE or
// SQLITE_UTF8.
//
// (2006-02-16:) The enc value can be or-ed with SQLITE_UTF16_ALIGNED.
// If that is the case, then the result must be aligned on an even byte
// boundary.
func Xsqlite3ValueText(tls *libc.TLS, pVal uintptr, enc U8) uintptr {
if !(pVal != 0) {
return uintptr(0)
}
if int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fflags)&(MEM_Str|MEM_Term) == MEM_Str|MEM_Term && int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fenc) == int32(enc) {
return (*Sqlite3_value)(unsafe.Pointer(pVal)).Fz
}
if int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fflags)&MEM_Null != 0 {
return uintptr(0)
}
return valueToText(tls, pVal, enc)
}
// Create a new sqlite3_value object.
func Xsqlite3ValueNew(tls *libc.TLS, db uintptr) uintptr {
var p uintptr = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Mem{})))
if p != 0 {
(*Mem)(unsafe.Pointer(p)).Fflags = U16(MEM_Null)
(*Mem)(unsafe.Pointer(p)).Fdb = db
}
return p
}
// Context object passed by sqlite3Stat4ProbeSetValue() through to
// valueNew(). See comments above valueNew() for details.
type ValueNewStat4Ctx = struct {
FpParse uintptr
FpIdx uintptr
FppRec uintptr
FiVal int32
F__ccgo_pad1 [4]byte
}
func valueNew(tls *libc.TLS, db uintptr, p uintptr) uintptr {
if p != 0 {
var pRec uintptr = *(*uintptr)(unsafe.Pointer((*ValueNewStat4Ctx)(unsafe.Pointer(p)).FppRec))
if pRec == uintptr(0) {
var pIdx uintptr = (*ValueNewStat4Ctx)(unsafe.Pointer(p)).FpIdx
var nByte int32
var i int32
var nCol int32 = int32((*Index)(unsafe.Pointer(pIdx)).FnColumn)
nByte = int32(uint64(unsafe.Sizeof(Mem{}))*uint64(nCol) + (uint64(unsafe.Sizeof(UnpackedRecord{}))+uint64(7))&libc.Uint64FromInt32(libc.CplInt32(7)))
pRec = Xsqlite3DbMallocZero(tls, db, uint64(nByte))
if pRec != 0 {
(*UnpackedRecord)(unsafe.Pointer(pRec)).FpKeyInfo = Xsqlite3KeyInfoOfIndex(tls, (*ValueNewStat4Ctx)(unsafe.Pointer(p)).FpParse, pIdx)
if (*UnpackedRecord)(unsafe.Pointer(pRec)).FpKeyInfo != 0 {
(*UnpackedRecord)(unsafe.Pointer(pRec)).FaMem = pRec + uintptr((uint64(unsafe.Sizeof(UnpackedRecord{}))+uint64(7))&libc.Uint64FromInt32(libc.CplInt32(7)))
for i = 0; i < nCol; i++ {
(*Mem)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(pRec)).FaMem + uintptr(i)*56)).Fflags = U16(MEM_Null)
(*Mem)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(pRec)).FaMem + uintptr(i)*56)).Fdb = db
}
} else {
Xsqlite3DbFreeNN(tls, db, pRec)
pRec = uintptr(0)
}
}
if pRec == uintptr(0) {
return uintptr(0)
}
*(*uintptr)(unsafe.Pointer((*ValueNewStat4Ctx)(unsafe.Pointer(p)).FppRec)) = pRec
}
(*UnpackedRecord)(unsafe.Pointer(pRec)).FnField = U16((*ValueNewStat4Ctx)(unsafe.Pointer(p)).FiVal + 1)
return (*UnpackedRecord)(unsafe.Pointer(pRec)).FaMem + uintptr((*ValueNewStat4Ctx)(unsafe.Pointer(p)).FiVal)*56
}
return Xsqlite3ValueNew(tls, db)
}
func valueFromFunction(tls *libc.TLS, db uintptr, p uintptr, enc U8, aff U8, ppVal uintptr, pCtx uintptr) int32 {
bp := tls.Alloc(64)
defer tls.Free(64)
var apVal uintptr
var nVal int32
var pFunc uintptr
var pVal uintptr
var rc int32
var pList uintptr
var i int32
apVal = uintptr(0)
nVal = 0
pFunc = uintptr(0)
pVal = uintptr(0)
rc = SQLITE_OK
pList = uintptr(0)
pList = *(*uintptr)(unsafe.Pointer(p + 32))
if !(pList != 0) {
goto __1
}
nVal = (*ExprList)(unsafe.Pointer(pList)).FnExpr
__1:
;
pFunc = Xsqlite3FindFunction(tls, db, *(*uintptr)(unsafe.Pointer(p + 8)), nVal, enc, uint8(0))
if !((*FuncDef)(unsafe.Pointer(pFunc)).FfuncFlags&U32(SQLITE_FUNC_CONSTANT|SQLITE_FUNC_SLOCHNG) == U32(0) ||
(*FuncDef)(unsafe.Pointer(pFunc)).FfuncFlags&U32(SQLITE_FUNC_NEEDCOLL) != 0) {
goto __2
}
return SQLITE_OK
__2:
;
if !(pList != 0) {
goto __3
}
apVal = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(uintptr(0)))*uint64(nVal))
if !(apVal == uintptr(0)) {
goto __4
}
rc = SQLITE_NOMEM
goto value_from_function_out
__4:
;
i = 0
__5:
if !(i < nVal) {
goto __7
}
rc = Xsqlite3ValueFromExpr(tls, db, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(i)*32)).FpExpr, enc, aff, apVal+uintptr(i)*8)
if !(*(*uintptr)(unsafe.Pointer(apVal + uintptr(i)*8)) == uintptr(0) || rc != SQLITE_OK) {
goto __8
}
goto value_from_function_out
__8:
;
goto __6
__6:
i++
goto __5
goto __7
__7:
;
__3:
;
pVal = valueNew(tls, db, pCtx)
if !(pVal == uintptr(0)) {
goto __9
}
rc = SQLITE_NOMEM
goto value_from_function_out
__9:
;
libc.X__builtin___memset_chk(tls, bp+8, 0, uint64(unsafe.Sizeof(Sqlite3_context{})), libc.X__builtin_object_size(tls, bp+8, 0))
(*Sqlite3_context)(unsafe.Pointer(bp + 8)).FpOut = pVal
(*Sqlite3_context)(unsafe.Pointer(bp + 8)).FpFunc = pFunc
(*Sqlite3_context)(unsafe.Pointer(bp + 8)).Fenc = (*Sqlite3)(unsafe.Pointer(db)).Fenc
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*FuncDef)(unsafe.Pointer(pFunc)).FxSFunc})).f(tls, bp+8, nVal, apVal)
if !((*Sqlite3_context)(unsafe.Pointer(bp+8)).FisError != 0) {
goto __10
}
rc = (*Sqlite3_context)(unsafe.Pointer(bp + 8)).FisError
Xsqlite3ErrorMsg(tls, (*ValueNewStat4Ctx)(unsafe.Pointer(pCtx)).FpParse, ts+3658, libc.VaList(bp, Xsqlite3_value_text(tls, pVal)))
goto __11
__10:
Xsqlite3ValueApplyAffinity(tls, pVal, aff, uint8(SQLITE_UTF8))
__11:
;
value_from_function_out:
if !(rc != SQLITE_OK) {
goto __12
}
pVal = uintptr(0)
(*Parse)(unsafe.Pointer((*ValueNewStat4Ctx)(unsafe.Pointer(pCtx)).FpParse)).Frc = rc
__12:
;
if !(apVal != 0) {
goto __13
}
i = 0
__14:
if !(i < nVal) {
goto __16
}
Xsqlite3ValueFree(tls, *(*uintptr)(unsafe.Pointer(apVal + uintptr(i)*8)))
goto __15
__15:
i++
goto __14
goto __16
__16:
;
Xsqlite3DbFreeNN(tls, db, apVal)
__13:
;
*(*uintptr)(unsafe.Pointer(ppVal)) = pVal
return rc
}
func valueFromExpr(tls *libc.TLS, db uintptr, pExpr uintptr, enc U8, affinity U8, ppVal uintptr, pCtx uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var op int32
var zVal uintptr
var negInt int32
var zNeg uintptr
var rc int32
var aff U8
var nVal int32
zVal = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
negInt = 1
zNeg = ts + 1547
rc = SQLITE_OK
__1:
if !(libc.AssignInt32(&op, int32((*Expr)(unsafe.Pointer(pExpr)).Fop)) == TK_UPLUS || op == TK_SPAN) {
goto __2
}
pExpr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
goto __1
__2:
;
if !(op == TK_REGISTER) {
goto __3
}
op = int32((*Expr)(unsafe.Pointer(pExpr)).Fop2)
__3:
;
if !(op == TK_CAST) {
goto __4
}
aff = U8(Xsqlite3AffinityType(tls, *(*uintptr)(unsafe.Pointer(pExpr + 8)), uintptr(0)))
rc = valueFromExpr(tls, db, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, enc, aff, ppVal, pCtx)
if !(*(*uintptr)(unsafe.Pointer(ppVal)) != 0) {
goto __5
}
Xsqlite3VdbeMemCast(tls, *(*uintptr)(unsafe.Pointer(ppVal)), aff, enc)
Xsqlite3ValueApplyAffinity(tls, *(*uintptr)(unsafe.Pointer(ppVal)), affinity, enc)
__5:
;
return rc
__4:
;
if !(op == TK_UMINUS &&
(int32((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pExpr)).FpLeft)).Fop) == TK_INTEGER || int32((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pExpr)).FpLeft)).Fop) == TK_FLOAT)) {
goto __6
}
pExpr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
op = int32((*Expr)(unsafe.Pointer(pExpr)).Fop)
negInt = -1
zNeg = ts + 5335
__6:
;
if !(op == TK_STRING || op == TK_FLOAT || op == TK_INTEGER) {
goto __7
}
*(*uintptr)(unsafe.Pointer(bp + 16)) = valueNew(tls, db, pCtx)
if !(*(*uintptr)(unsafe.Pointer(bp + 16)) == uintptr(0)) {
goto __9
}
goto no_mem
__9:
;
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_IntValue) != U32(0)) {
goto __10
}
Xsqlite3VdbeMemSetInt64(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), I64(*(*int32)(unsafe.Pointer(pExpr + 8)))*I64(negInt))
goto __11
__10:
zVal = Xsqlite3MPrintf(tls, db, ts+5337, libc.VaList(bp, zNeg, *(*uintptr)(unsafe.Pointer(pExpr + 8))))
if !(zVal == uintptr(0)) {
goto __12
}
goto no_mem
__12:
;
Xsqlite3ValueSetStr(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), -1, zVal, uint8(SQLITE_UTF8), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3OomClear})))
__11:
;
if !((op == TK_INTEGER || op == TK_FLOAT) && int32(affinity) == SQLITE_AFF_BLOB) {
goto __13
}
Xsqlite3ValueApplyAffinity(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), uint8(SQLITE_AFF_NUMERIC), uint8(SQLITE_UTF8))
goto __14
__13:
Xsqlite3ValueApplyAffinity(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), affinity, uint8(SQLITE_UTF8))
__14:
;
if !(int32((*Sqlite3_value)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).Fflags)&(MEM_Int|MEM_IntReal|MEM_Real) != 0) {
goto __15
}
*(*U16)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)) + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Str))
__15:
;
if !(int32(enc) != SQLITE_UTF8) {
goto __16
}
rc = Xsqlite3VdbeChangeEncoding(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), int32(enc))
__16:
;
goto __8
__7:
if !(op == TK_UMINUS) {
goto __17
}
if !(SQLITE_OK == valueFromExpr(tls, db, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, enc, affinity, bp+16, pCtx) &&
*(*uintptr)(unsafe.Pointer(bp + 16)) != uintptr(0)) {
goto __19
}
Xsqlite3VdbeMemNumerify(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
if !(int32((*Sqlite3_value)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).Fflags)&MEM_Real != 0) {
goto __20
}
*(*float64)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))) = -*(*float64)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16))))
goto __21
__20:
if !(*(*I64)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))) == int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32)) {
goto __22
}
*(*float64)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))) = -float64(int64(-1) - (int64(0xffffffff) | int64(0x7fffffff)<<32))
(*Sqlite3_value)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).Fflags = U16(int32((*Sqlite3_value)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Real)
goto __23
__22:
*(*I64)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))) = -*(*I64)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16))))
__23:
;
__21:
;
Xsqlite3ValueApplyAffinity(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), affinity, enc)
__19:
;
goto __18
__17:
if !(op == TK_NULL) {
goto __24
}
*(*uintptr)(unsafe.Pointer(bp + 16)) = valueNew(tls, db, pCtx)
if !(*(*uintptr)(unsafe.Pointer(bp + 16)) == uintptr(0)) {
goto __26
}
goto no_mem
__26:
;
Xsqlite3VdbeMemSetNull(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
goto __25
__24:
if !(op == TK_BLOB) {
goto __27
}
*(*uintptr)(unsafe.Pointer(bp + 16)) = valueNew(tls, db, pCtx)
if !!(*(*uintptr)(unsafe.Pointer(bp + 16)) != 0) {
goto __29
}
goto no_mem
__29:
;
zVal = *(*uintptr)(unsafe.Pointer(pExpr + 8)) + 2
nVal = Xsqlite3Strlen30(tls, zVal) - 1
Xsqlite3VdbeMemSetStr(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), Xsqlite3HexToBlob(tls, db, zVal, nVal), int64(nVal/2),
uint8(0), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3OomClear})))
goto __28
__27:
if !(op == TK_FUNCTION && pCtx != uintptr(0)) {
goto __30
}
rc = valueFromFunction(tls, db, pExpr, enc, affinity, bp+16, pCtx)
goto __31
__30:
if !(op == TK_TRUEFALSE) {
goto __32
}
*(*uintptr)(unsafe.Pointer(bp + 16)) = valueNew(tls, db, pCtx)
if !(*(*uintptr)(unsafe.Pointer(bp + 16)) != 0) {
goto __33
}
(*Sqlite3_value)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).Fflags = U16(MEM_Int)
*(*I64)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))) = I64(libc.Bool32(int32(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 8)) + 4))) == 0))
__33:
;
__32:
;
__31:
;
__28:
;
__25:
;
__18:
;
__8:
;
*(*uintptr)(unsafe.Pointer(ppVal)) = *(*uintptr)(unsafe.Pointer(bp + 16))
return rc
no_mem:
if !(pCtx == uintptr(0) || (*Parse)(unsafe.Pointer((*ValueNewStat4Ctx)(unsafe.Pointer(pCtx)).FpParse)).FnErr == 0) {
goto __34
}
Xsqlite3OomFault(tls, db)
__34:
;
Xsqlite3DbFree(tls, db, zVal)
if !(pCtx == uintptr(0)) {
goto __35
}
Xsqlite3ValueFree(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
__35:
;
return SQLITE_NOMEM
}
// Create a new sqlite3_value object, containing the value of pExpr.
//
// This only works for very simple expressions that consist of one constant
// token (i.e. "5", "5.1", "'a string'"). If the expression can
// be converted directly into a value, then the value is allocated and
// a pointer written to *ppVal. The caller is responsible for deallocating
// the value by passing it to sqlite3ValueFree() later on. If the expression
// cannot be converted to a value, then *ppVal is set to NULL.
func Xsqlite3ValueFromExpr(tls *libc.TLS, db uintptr, pExpr uintptr, enc U8, affinity U8, ppVal uintptr) int32 {
if pExpr != 0 {
return valueFromExpr(tls, db, pExpr, enc, affinity, ppVal, uintptr(0))
}
return 0
}
func stat4ValueFromExpr(tls *libc.TLS, pParse uintptr, pExpr uintptr, affinity U8, pAlloc uintptr, ppVal uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
pExpr = Xsqlite3ExprSkipCollate(tls, pExpr)
if !(pExpr != 0) {
*(*uintptr)(unsafe.Pointer(bp)) = valueNew(tls, db, pAlloc)
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
Xsqlite3VdbeMemSetNull(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
} else if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_VARIABLE && (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_EnableQPSG) == uint64(0) {
var v uintptr
var iBindVar int32 = int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn)
Xsqlite3VdbeSetVarmask(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, iBindVar)
if libc.AssignUintptr(&v, (*Parse)(unsafe.Pointer(pParse)).FpReprepare) != uintptr(0) {
*(*uintptr)(unsafe.Pointer(bp)) = valueNew(tls, db, pAlloc)
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
rc = Xsqlite3VdbeMemCopy(tls, *(*uintptr)(unsafe.Pointer(bp)), (*Vdbe)(unsafe.Pointer(v)).FaVar+uintptr(iBindVar-1)*56)
Xsqlite3ValueApplyAffinity(tls, *(*uintptr)(unsafe.Pointer(bp)), affinity, (*Sqlite3)(unsafe.Pointer(db)).Fenc)
(*Sqlite3_value)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Fdb = (*Parse)(unsafe.Pointer(pParse)).Fdb
}
}
} else {
rc = valueFromExpr(tls, db, pExpr, (*Sqlite3)(unsafe.Pointer(db)).Fenc, affinity, bp, pAlloc)
}
*(*uintptr)(unsafe.Pointer(ppVal)) = *(*uintptr)(unsafe.Pointer(bp))
return rc
}
// This function is used to allocate and populate UnpackedRecord
// structures intended to be compared against sample index keys stored
// in the sqlite_stat4 table.
//
// A single call to this function populates zero or more fields of the
// record starting with field iVal (fields are numbered from left to
// right starting with 0). A single field is populated if:
//
// - (pExpr==0). In this case the value is assumed to be an SQL NULL,
//
// - The expression is a bound variable, and this is a reprepare, or
//
// - The sqlite3ValueFromExpr() function is able to extract a value
// from the expression (i.e. the expression is a literal value).
//
// Or, if pExpr is a TK_VECTOR, one field is populated for each of the
// vector components that match either of the two latter criteria listed
// above.
//
// Before any value is appended to the record, the affinity of the
// corresponding column within index pIdx is applied to it. Before
// this function returns, output parameter *pnExtract is set to the
// number of values appended to the record.
//
// When this function is called, *ppRec must either point to an object
// allocated by an earlier call to this function, or must be NULL. If it
// is NULL and a value can be successfully extracted, a new UnpackedRecord
// is allocated (and *ppRec set to point to it) before returning.
//
// Unless an error is encountered, SQLITE_OK is returned. It is not an
// error if a value cannot be extracted from pExpr. If an error does
// occur, an SQLite error code is returned.
func Xsqlite3Stat4ProbeSetValue(tls *libc.TLS, pParse uintptr, pIdx uintptr, ppRec uintptr, pExpr uintptr, nElem int32, iVal int32, pnExtract uintptr) int32 {
bp := tls.Alloc(40)
defer tls.Free(40)
var rc int32 = SQLITE_OK
var nExtract int32 = 0
if pExpr == uintptr(0) || int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_SELECT {
var i int32
(*ValueNewStat4Ctx)(unsafe.Pointer(bp)).FpParse = pParse
(*ValueNewStat4Ctx)(unsafe.Pointer(bp)).FpIdx = pIdx
(*ValueNewStat4Ctx)(unsafe.Pointer(bp)).FppRec = ppRec
for i = 0; i < nElem; i++ {
*(*uintptr)(unsafe.Pointer(bp + 32)) = uintptr(0)
var pElem uintptr = func() uintptr {
if pExpr != 0 {
return Xsqlite3VectorFieldSubexpr(tls, pExpr, i)
}
return uintptr(0)
}()
var aff U8 = U8(Xsqlite3IndexColumnAffinity(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pIdx, iVal+i))
(*ValueNewStat4Ctx)(unsafe.Pointer(bp)).FiVal = iVal + i
rc = stat4ValueFromExpr(tls, pParse, pElem, aff, bp, bp+32)
if !(*(*uintptr)(unsafe.Pointer(bp + 32)) != 0) {
break
}
nExtract++
}
}
*(*int32)(unsafe.Pointer(pnExtract)) = nExtract
return rc
}
// Attempt to extract a value from expression pExpr using the methods
// as described for sqlite3Stat4ProbeSetValue() above.
//
// If successful, set *ppVal to point to a new value object and return
// SQLITE_OK. If no value can be extracted, but no other error occurs
// (e.g. OOM), return SQLITE_OK and set *ppVal to NULL. Or, if an error
// does occur, return an SQLite error code. The final value of *ppVal
// is undefined in this case.
func Xsqlite3Stat4ValueFromExpr(tls *libc.TLS, pParse uintptr, pExpr uintptr, affinity U8, ppVal uintptr) int32 {
return stat4ValueFromExpr(tls, pParse, pExpr, affinity, uintptr(0), ppVal)
}
// Extract the iCol-th column from the nRec-byte record in pRec. Write
// the column value into *ppVal. If *ppVal is initially NULL then a new
// sqlite3_value object is allocated.
//
// If *ppVal is initially NULL then the caller is responsible for
// ensuring that the value written into *ppVal is eventually freed.
func Xsqlite3Stat4Column(tls *libc.TLS, db uintptr, pRec uintptr, nRec int32, iCol int32, ppVal uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*U32)(unsafe.Pointer(bp + 4)) = U32(0)
var iHdr int32
var iField int32
var szField int32 = 0
var i int32
var a uintptr = pRec
var pMem uintptr = *(*uintptr)(unsafe.Pointer(ppVal))
iHdr = int32(func() uint8 {
if int32(*(*U8)(unsafe.Pointer(a))) < int32(U8(0x80)) {
return uint8(func() int32 { *(*int32)(unsafe.Pointer(bp)) = int32(U32(*(*U8)(unsafe.Pointer(a)))); return 1 }())
}
return Xsqlite3GetVarint32(tls, a, bp)
}())
if *(*int32)(unsafe.Pointer(bp)) > nRec || iHdr >= *(*int32)(unsafe.Pointer(bp)) {
return Xsqlite3CorruptError(tls, 82270)
}
iField = *(*int32)(unsafe.Pointer(bp))
for i = 0; i <= iCol; i++ {
iHdr = iHdr + int32(func() uint8 {
if int32(*(*U8)(unsafe.Pointer(a + uintptr(iHdr)))) < int32(U8(0x80)) {
return uint8(func() int32 {
*(*U32)(unsafe.Pointer(bp + 4)) = U32(*(*U8)(unsafe.Pointer(a + uintptr(iHdr))))
return 1
}())
}
return Xsqlite3GetVarint32(tls, a+uintptr(iHdr), bp+4)
}())
if iHdr > *(*int32)(unsafe.Pointer(bp)) {
return Xsqlite3CorruptError(tls, 82276)
}
szField = int32(Xsqlite3VdbeSerialTypeLen(tls, *(*U32)(unsafe.Pointer(bp + 4))))
iField = iField + szField
}
if iField > nRec {
return Xsqlite3CorruptError(tls, 82282)
}
if pMem == uintptr(0) {
pMem = libc.AssignPtrUintptr(ppVal, Xsqlite3ValueNew(tls, db))
if pMem == uintptr(0) {
return SQLITE_NOMEM
}
}
Xsqlite3VdbeSerialGet(tls, a+uintptr(iField-szField), *(*U32)(unsafe.Pointer(bp + 4)), pMem)
(*Mem)(unsafe.Pointer(pMem)).Fenc = (*Sqlite3)(unsafe.Pointer(db)).Fenc
return SQLITE_OK
}
// Unless it is NULL, the argument must be an UnpackedRecord object returned
// by an earlier call to sqlite3Stat4ProbeSetValue(). This call deletes
// the object.
func Xsqlite3Stat4ProbeFree(tls *libc.TLS, pRec uintptr) {
if pRec != 0 {
var i int32
var nCol int32 = int32((*KeyInfo)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(pRec)).FpKeyInfo)).FnAllField)
var aMem uintptr = (*UnpackedRecord)(unsafe.Pointer(pRec)).FaMem
var db uintptr = (*Mem)(unsafe.Pointer(aMem)).Fdb
for i = 0; i < nCol; i++ {
Xsqlite3VdbeMemRelease(tls, aMem+uintptr(i)*56)
}
Xsqlite3KeyInfoUnref(tls, (*UnpackedRecord)(unsafe.Pointer(pRec)).FpKeyInfo)
Xsqlite3DbFreeNN(tls, db, pRec)
}
}
// Change the string value of an sqlite3_value object
func Xsqlite3ValueSetStr(tls *libc.TLS, v uintptr, n int32, z uintptr, enc U8, xDel uintptr) {
if v != 0 {
Xsqlite3VdbeMemSetStr(tls, v, z, int64(n), enc, xDel)
}
}
// Free an sqlite3_value object
func Xsqlite3ValueFree(tls *libc.TLS, v uintptr) {
if !(v != 0) {
return
}
Xsqlite3VdbeMemRelease(tls, v)
Xsqlite3DbFreeNN(tls, (*Mem)(unsafe.Pointer(v)).Fdb, v)
}
func valueBytes(tls *libc.TLS, pVal uintptr, enc U8) int32 {
if valueToText(tls, pVal, enc) != uintptr(0) {
return (*Sqlite3_value)(unsafe.Pointer(pVal)).Fn
}
return 0
}
func Xsqlite3ValueBytes(tls *libc.TLS, pVal uintptr, enc U8) int32 {
var p uintptr = pVal
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&MEM_Str != 0 && int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fenc) == int32(enc) {
return (*Mem)(unsafe.Pointer(p)).Fn
}
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&MEM_Str != 0 && int32(enc) != SQLITE_UTF8 && int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fenc) != SQLITE_UTF8 {
return (*Mem)(unsafe.Pointer(p)).Fn
}
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&MEM_Blob != 0 {
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&MEM_Zero != 0 {
return (*Mem)(unsafe.Pointer(p)).Fn + *(*int32)(unsafe.Pointer(p))
} else {
return (*Mem)(unsafe.Pointer(p)).Fn
}
}
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&MEM_Null != 0 {
return 0
}
return valueBytes(tls, pVal, enc)
}
// Create a new virtual database engine.
func Xsqlite3VdbeCreate(tls *libc.TLS, pParse uintptr) uintptr {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var p uintptr
p = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(Vdbe{})))
if p == uintptr(0) {
return uintptr(0)
}
libc.X__builtin___memset_chk(tls, p+136, 0, uint64(unsafe.Sizeof(Vdbe{}))-uint64(uintptr(0)+136), libc.X__builtin_object_size(tls, p+136, 0))
(*Vdbe)(unsafe.Pointer(p)).Fdb = db
if (*Sqlite3)(unsafe.Pointer(db)).FpVdbe != 0 {
(*Vdbe1)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FpVdbe)).FppVPrev = p + 16
}
(*Vdbe)(unsafe.Pointer(p)).FpVNext = (*Sqlite3)(unsafe.Pointer(db)).FpVdbe
(*Vdbe)(unsafe.Pointer(p)).FppVPrev = db + 8
(*Sqlite3)(unsafe.Pointer(db)).FpVdbe = p
(*Vdbe)(unsafe.Pointer(p)).FpParse = pParse
(*Parse)(unsafe.Pointer(pParse)).FpVdbe = p
Xsqlite3VdbeAddOp2(tls, p, OP_Init, 0, 1)
return p
}
// Return the Parse object that owns a Vdbe object.
func Xsqlite3VdbeParser(tls *libc.TLS, p uintptr) uintptr {
return (*Vdbe)(unsafe.Pointer(p)).FpParse
}
// Change the error string stored in Vdbe.zErrMsg
func Xsqlite3VdbeError(tls *libc.TLS, p uintptr, zFormat uintptr, va uintptr) {
var ap Va_list
_ = ap
Xsqlite3DbFree(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, (*Vdbe)(unsafe.Pointer(p)).FzErrMsg)
ap = va
(*Vdbe)(unsafe.Pointer(p)).FzErrMsg = Xsqlite3VMPrintf(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, zFormat, ap)
_ = ap
}
// Remember the SQL string for a prepared statement.
func Xsqlite3VdbeSetSql(tls *libc.TLS, p uintptr, z uintptr, n int32, prepFlags U8) {
if p == uintptr(0) {
return
}
(*Vdbe)(unsafe.Pointer(p)).FprepFlags = prepFlags
if int32(prepFlags)&SQLITE_PREPARE_SAVESQL == 0 {
(*Vdbe)(unsafe.Pointer(p)).Fexpmask = U32(0)
}
(*Vdbe)(unsafe.Pointer(p)).FzSql = Xsqlite3DbStrNDup(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, z, uint64(n))
}
// Swap byte-code between two VDBE structures.
//
// This happens after pB was previously run and returned
// SQLITE_SCHEMA. The statement was then reprepared in pA.
// This routine transfers the new bytecode in pA over to pB
// so that pB can be run again. The old pB byte code is
// moved back to pA so that it will be cleaned up when pA is
// finalized.
func Xsqlite3VdbeSwap(tls *libc.TLS, pA uintptr, pB uintptr) {
var tmp Vdbe
var pTmp uintptr
var ppTmp uintptr
var zTmp uintptr
tmp = *(*Vdbe)(unsafe.Pointer(pA))
*(*Vdbe)(unsafe.Pointer(pA)) = *(*Vdbe)(unsafe.Pointer(pB))
*(*Vdbe)(unsafe.Pointer(pB)) = tmp
pTmp = (*Vdbe)(unsafe.Pointer(pA)).FpVNext
(*Vdbe)(unsafe.Pointer(pA)).FpVNext = (*Vdbe)(unsafe.Pointer(pB)).FpVNext
(*Vdbe)(unsafe.Pointer(pB)).FpVNext = pTmp
ppTmp = (*Vdbe)(unsafe.Pointer(pA)).FppVPrev
(*Vdbe)(unsafe.Pointer(pA)).FppVPrev = (*Vdbe)(unsafe.Pointer(pB)).FppVPrev
(*Vdbe)(unsafe.Pointer(pB)).FppVPrev = ppTmp
zTmp = (*Vdbe)(unsafe.Pointer(pA)).FzSql
(*Vdbe)(unsafe.Pointer(pA)).FzSql = (*Vdbe)(unsafe.Pointer(pB)).FzSql
(*Vdbe)(unsafe.Pointer(pB)).FzSql = zTmp
(*Vdbe)(unsafe.Pointer(pB)).Fexpmask = (*Vdbe)(unsafe.Pointer(pA)).Fexpmask
(*Vdbe)(unsafe.Pointer(pB)).FprepFlags = (*Vdbe)(unsafe.Pointer(pA)).FprepFlags
libc.X__builtin___memcpy_chk(tls, pB+212, pA+212, uint64(unsafe.Sizeof([9]U32{})), libc.X__builtin_object_size(tls, pB+212, 0))
*(*U32)(unsafe.Pointer(pB + 212 + 5*4))++
}
func growOpArray(tls *libc.TLS, v uintptr, nOp int32) int32 {
var pNew uintptr
var p uintptr = (*Vdbe)(unsafe.Pointer(v)).FpParse
var nNew Sqlite3_int64 = func() int64 {
if (*Vdbe)(unsafe.Pointer(v)).FnOpAlloc != 0 {
return int64(2) * Sqlite3_int64((*Vdbe)(unsafe.Pointer(v)).FnOpAlloc)
}
return int64(uint64(1024) / uint64(unsafe.Sizeof(Op{})))
}()
_ = nOp
if nNew > Sqlite3_int64(*(*int32)(unsafe.Pointer((*Parse)(unsafe.Pointer(p)).Fdb + 136 + 5*4))) {
Xsqlite3OomFault(tls, (*Parse)(unsafe.Pointer(p)).Fdb)
return SQLITE_NOMEM
}
pNew = Xsqlite3DbRealloc(tls, (*Parse)(unsafe.Pointer(p)).Fdb, (*Vdbe)(unsafe.Pointer(v)).FaOp, uint64(nNew)*uint64(unsafe.Sizeof(Op{})))
if pNew != 0 {
(*Parse)(unsafe.Pointer(p)).FszOpAlloc = Xsqlite3DbMallocSize(tls, (*Parse)(unsafe.Pointer(p)).Fdb, pNew)
(*Vdbe)(unsafe.Pointer(v)).FnOpAlloc = int32(uint64((*Parse)(unsafe.Pointer(p)).FszOpAlloc) / uint64(unsafe.Sizeof(Op{})))
(*Vdbe)(unsafe.Pointer(v)).FaOp = pNew
}
return func() int32 {
if pNew != 0 {
return SQLITE_OK
}
return SQLITE_NOMEM
}()
}
func growOp3(tls *libc.TLS, p uintptr, op int32, p1 int32, p2 int32, p3 int32) int32 {
if growOpArray(tls, p, 1) != 0 {
return 1
}
return Xsqlite3VdbeAddOp3(tls, p, op, p1, p2, p3)
}
func Xsqlite3VdbeAddOp3(tls *libc.TLS, p uintptr, op int32, p1 int32, p2 int32, p3 int32) int32 {
var i int32
var pOp uintptr
i = (*Vdbe)(unsafe.Pointer(p)).FnOp
if (*Vdbe)(unsafe.Pointer(p)).FnOpAlloc <= i {
return growOp3(tls, p, op, p1, p2, p3)
}
(*Vdbe)(unsafe.Pointer(p)).FnOp++
pOp = (*Vdbe)(unsafe.Pointer(p)).FaOp + uintptr(i)*24
(*VdbeOp)(unsafe.Pointer(pOp)).Fopcode = U8(op)
(*VdbeOp)(unsafe.Pointer(pOp)).Fp5 = U16(0)
(*VdbeOp)(unsafe.Pointer(pOp)).Fp1 = p1
(*VdbeOp)(unsafe.Pointer(pOp)).Fp2 = p2
(*VdbeOp)(unsafe.Pointer(pOp)).Fp3 = p3
*(*uintptr)(unsafe.Pointer(pOp + 16)) = uintptr(0)
(*VdbeOp)(unsafe.Pointer(pOp)).Fp4type = int8(P4_NOTUSED)
return i
}
func Xsqlite3VdbeAddOp0(tls *libc.TLS, p uintptr, op int32) int32 {
return Xsqlite3VdbeAddOp3(tls, p, op, 0, 0, 0)
}
func Xsqlite3VdbeAddOp1(tls *libc.TLS, p uintptr, op int32, p1 int32) int32 {
return Xsqlite3VdbeAddOp3(tls, p, op, p1, 0, 0)
}
func Xsqlite3VdbeAddOp2(tls *libc.TLS, p uintptr, op int32, p1 int32, p2 int32) int32 {
return Xsqlite3VdbeAddOp3(tls, p, op, p1, p2, 0)
}
// Generate code for an unconditional jump to instruction iDest
func Xsqlite3VdbeGoto(tls *libc.TLS, p uintptr, iDest int32) int32 {
return Xsqlite3VdbeAddOp3(tls, p, OP_Goto, 0, iDest, 0)
}
// Generate code to cause the string zStr to be loaded into
// register iDest
func Xsqlite3VdbeLoadString(tls *libc.TLS, p uintptr, iDest int32, zStr uintptr) int32 {
return Xsqlite3VdbeAddOp4(tls, p, OP_String8, 0, iDest, 0, zStr, 0)
}
// Generate code that initializes multiple registers to string or integer
// constants. The registers begin with iDest and increase consecutively.
// One register is initialized for each characgter in zTypes[]. For each
// "s" character in zTypes[], the register is a string if the argument is
// not NULL, or OP_Null if the value is a null pointer. For each "i" character
// in zTypes[], the register is initialized to an integer.
//
// If the input string does not end with "X" then an OP_ResultRow instruction
// is generated for the values inserted.
func Xsqlite3VdbeMultiLoad(tls *libc.TLS, p uintptr, iDest int32, zTypes uintptr, va uintptr) {
var ap Va_list
_ = ap
var i int32
var c int8
var z uintptr
ap = va
i = 0
__1:
if !(int32(libc.AssignInt8(&c, *(*int8)(unsafe.Pointer(zTypes + uintptr(i))))) != 0) {
goto __3
}
if !(int32(c) == 's') {
goto __4
}
z = libc.VaUintptr(&ap)
Xsqlite3VdbeAddOp4(tls, p, func() int32 {
if z == uintptr(0) {
return OP_Null
}
return OP_String8
}(), 0, iDest+i, 0, z, 0)
goto __5
__4:
if !(int32(c) == 'i') {
goto __6
}
Xsqlite3VdbeAddOp2(tls, p, OP_Integer, libc.VaInt32(&ap), iDest+i)
goto __7
__6:
goto skip_op_resultrow
__7:
;
__5:
;
goto __2
__2:
i++
goto __1
goto __3
__3:
;
Xsqlite3VdbeAddOp2(tls, p, OP_ResultRow, iDest, i)
skip_op_resultrow:
_ = ap
}
// Add an opcode that includes the p4 value as a pointer.
func Xsqlite3VdbeAddOp4(tls *libc.TLS, p uintptr, op int32, p1 int32, p2 int32, p3 int32, zP4 uintptr, p4type int32) int32 {
var addr int32 = Xsqlite3VdbeAddOp3(tls, p, op, p1, p2, p3)
Xsqlite3VdbeChangeP4(tls, p, addr, zP4, p4type)
return addr
}
// Add an OP_Function or OP_PureFunc opcode.
//
// The eCallCtx argument is information (typically taken from Expr.op2)
// that describes the calling context of the function. 0 means a general
// function call. NC_IsCheck means called by a check constraint,
// NC_IdxExpr means called as part of an index expression. NC_PartIdx
// means in the WHERE clause of a partial index. NC_GenCol means called
// while computing a generated column value. 0 is the usual case.
func Xsqlite3VdbeAddFunctionCall(tls *libc.TLS, pParse uintptr, p1 int32, p2 int32, p3 int32, nArg int32, pFunc uintptr, eCallCtx int32) int32 {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var nByte int32
var addr int32
var pCtx uintptr
nByte = int32(uint64(unsafe.Sizeof(Sqlite3_context{})) + uint64(nArg-1)*uint64(unsafe.Sizeof(uintptr(0))))
pCtx = Xsqlite3DbMallocRawNN(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(nByte))
if pCtx == uintptr(0) {
freeEphemeralFunction(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pFunc)
return 0
}
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut = uintptr(0)
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FpFunc = pFunc
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FpVdbe = uintptr(0)
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FisError = 0
(*Sqlite3_context)(unsafe.Pointer(pCtx)).Fargc = U8(nArg)
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FiOp = Xsqlite3VdbeCurrentAddr(tls, v)
addr = Xsqlite3VdbeAddOp4(tls, v, func() int32 {
if eCallCtx != 0 {
return OP_PureFunc
}
return OP_Function
}(),
p1, p2, p3, pCtx, -15)
Xsqlite3VdbeChangeP5(tls, v, uint16(eCallCtx&NC_SelfRef))
Xsqlite3MayAbort(tls, pParse)
return addr
}
// Add an opcode that includes the p4 value with a P4_INT64 or
// P4_REAL type.
func Xsqlite3VdbeAddOp4Dup8(tls *libc.TLS, p uintptr, op int32, p1 int32, p2 int32, p3 int32, zP4 uintptr, p4type int32) int32 {
var p4copy uintptr = Xsqlite3DbMallocRawNN(tls, Xsqlite3VdbeDb(tls, p), uint64(8))
if p4copy != 0 {
libc.X__builtin___memcpy_chk(tls, p4copy, zP4, uint64(8), libc.X__builtin_object_size(tls, p4copy, 0))
}
return Xsqlite3VdbeAddOp4(tls, p, op, p1, p2, p3, p4copy, p4type)
}
// Return the address of the current EXPLAIN QUERY PLAN baseline.
// 0 means "none".
func Xsqlite3VdbeExplainParent(tls *libc.TLS, pParse uintptr) int32 {
var pOp uintptr
if (*Parse)(unsafe.Pointer(pParse)).FaddrExplain == 0 {
return 0
}
pOp = Xsqlite3VdbeGetOp(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, (*Parse)(unsafe.Pointer(pParse)).FaddrExplain)
return (*VdbeOp)(unsafe.Pointer(pOp)).Fp2
}
// Add a new OP_Explain opcode.
//
// If the bPush flag is true, then make this opcode the parent for
// subsequent Explains until sqlite3VdbeExplainPop() is called.
func Xsqlite3VdbeExplain(tls *libc.TLS, pParse uintptr, bPush U8, zFmt uintptr, va uintptr) int32 {
var addr int32 = 0
if int32((*Parse)(unsafe.Pointer(pParse)).Fexplain) == 2 {
var zMsg uintptr
var v uintptr
var ap Va_list
_ = ap
var iThis int32
ap = va
zMsg = Xsqlite3VMPrintf(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, zFmt, ap)
_ = ap
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
iThis = (*Vdbe)(unsafe.Pointer(v)).FnOp
addr = Xsqlite3VdbeAddOp4(tls, v, OP_Explain, iThis, (*Parse)(unsafe.Pointer(pParse)).FaddrExplain, 0,
zMsg, -6)
if bPush != 0 {
(*Parse)(unsafe.Pointer(pParse)).FaddrExplain = iThis
}
}
return addr
}
// Pop the EXPLAIN QUERY PLAN stack one level.
func Xsqlite3VdbeExplainPop(tls *libc.TLS, pParse uintptr) {
(*Parse)(unsafe.Pointer(pParse)).FaddrExplain = Xsqlite3VdbeExplainParent(tls, pParse)
}
// Add an OP_ParseSchema opcode. This routine is broken out from
// sqlite3VdbeAddOp4() since it needs to also needs to mark all btrees
// as having been used.
//
// The zWhere string must have been obtained from sqlite3_malloc().
// This routine will take ownership of the allocated memory.
func Xsqlite3VdbeAddParseSchemaOp(tls *libc.TLS, p uintptr, iDb int32, zWhere uintptr, p5 U16) {
var j int32
Xsqlite3VdbeAddOp4(tls, p, OP_ParseSchema, iDb, 0, 0, zWhere, -6)
Xsqlite3VdbeChangeP5(tls, p, p5)
for j = 0; j < (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).FnDb; j++ {
Xsqlite3VdbeUsesBtree(tls, p, j)
}
Xsqlite3MayAbort(tls, (*Vdbe)(unsafe.Pointer(p)).FpParse)
}
// Add an opcode that includes the p4 value as an integer.
func Xsqlite3VdbeAddOp4Int(tls *libc.TLS, p uintptr, op int32, p1 int32, p2 int32, p3 int32, p4 int32) int32 {
var addr int32 = Xsqlite3VdbeAddOp3(tls, p, op, p1, p2, p3)
if int32((*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).FmallocFailed) == 0 {
var pOp uintptr = (*Vdbe)(unsafe.Pointer(p)).FaOp + uintptr(addr)*24
(*VdbeOp)(unsafe.Pointer(pOp)).Fp4type = int8(-3)
*(*int32)(unsafe.Pointer(pOp + 16)) = p4
}
return addr
}
// Insert the end of a co-routine
func Xsqlite3VdbeEndCoroutine(tls *libc.TLS, v uintptr, regYield int32) {
Xsqlite3VdbeAddOp1(tls, v, OP_EndCoroutine, regYield)
(*Parse)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(v)).FpParse)).FnTempReg = U8(0)
(*Parse)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(v)).FpParse)).FnRangeReg = 0
}
// Create a new symbolic label for an instruction that has yet to be
// coded. The symbolic label is really just a negative number. The
// label can be used as the P2 value of an operation. Later, when
// the label is resolved to a specific address, the VDBE will scan
// through its operation list and change all values of P2 which match
// the label into the resolved address.
//
// The VDBE knows that a P2 value is a label because labels are
// always negative and P2 values are suppose to be non-negative.
// Hence, a negative P2 value is a label that has yet to be resolved.
// (Later:) This is only true for opcodes that have the OPFLG_JUMP
// property.
//
// Variable usage notes:
//
// Parse.aLabel[x] Stores the address that the x-th label resolves
// into. For testing (SQLITE_DEBUG), unresolved
// labels stores -1, but that is not required.
// Parse.nLabelAlloc Number of slots allocated to Parse.aLabel[]
// Parse.nLabel The *negative* of the number of labels that have
// been issued. The negative is stored because
// that gives a performance improvement over storing
// the equivalent positive value.
func Xsqlite3VdbeMakeLabel(tls *libc.TLS, pParse uintptr) int32 {
return libc.PreDecInt32(&(*Parse)(unsafe.Pointer(pParse)).FnLabel, 1)
}
func resizeResolveLabel(tls *libc.TLS, p uintptr, v uintptr, j int32) {
var nNewSize int32 = 10 - (*Parse)(unsafe.Pointer(p)).FnLabel
(*Parse)(unsafe.Pointer(p)).FaLabel = Xsqlite3DbReallocOrFree(tls, (*Parse)(unsafe.Pointer(p)).Fdb, (*Parse)(unsafe.Pointer(p)).FaLabel,
uint64(nNewSize)*uint64(unsafe.Sizeof(int32(0))))
if (*Parse)(unsafe.Pointer(p)).FaLabel == uintptr(0) {
(*Parse)(unsafe.Pointer(p)).FnLabelAlloc = 0
} else {
if nNewSize >= 100 && nNewSize/100 > (*Parse)(unsafe.Pointer(p)).FnLabelAlloc/100 {
Xsqlite3ProgressCheck(tls, p)
}
(*Parse)(unsafe.Pointer(p)).FnLabelAlloc = nNewSize
*(*int32)(unsafe.Pointer((*Parse)(unsafe.Pointer(p)).FaLabel + uintptr(j)*4)) = (*Vdbe)(unsafe.Pointer(v)).FnOp
}
}
func Xsqlite3VdbeResolveLabel(tls *libc.TLS, v uintptr, x int32) {
var p uintptr = (*Vdbe)(unsafe.Pointer(v)).FpParse
var j int32 = ^x
if (*Parse)(unsafe.Pointer(p)).FnLabelAlloc+(*Parse)(unsafe.Pointer(p)).FnLabel < 0 {
resizeResolveLabel(tls, p, v, j)
} else {
*(*int32)(unsafe.Pointer((*Parse)(unsafe.Pointer(p)).FaLabel + uintptr(j)*4)) = (*Vdbe)(unsafe.Pointer(v)).FnOp
}
}
// Mark the VDBE as one that can only be run one time.
func Xsqlite3VdbeRunOnlyOnce(tls *libc.TLS, p uintptr) {
Xsqlite3VdbeAddOp2(tls, p, OP_Expire, 1, 1)
}
// Mark the VDBE as one that can be run multiple times.
func Xsqlite3VdbeReusable(tls *libc.TLS, p uintptr) {
var i int32
for i = 1; i < (*Vdbe)(unsafe.Pointer(p)).FnOp; i++ {
if int32((*Op)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FaOp+uintptr(i)*24)).Fopcode) == OP_Expire {
(*Op)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FaOp + 1*24)).Fopcode = U8(OP_Noop)
break
}
}
}
func resolveP2Values(tls *libc.TLS, p uintptr, pMaxFuncArgs uintptr) {
var nMaxArgs int32
var pOp uintptr
var pParse uintptr
var aLabel uintptr
var n int32
nMaxArgs = *(*int32)(unsafe.Pointer(pMaxFuncArgs))
pParse = (*Vdbe)(unsafe.Pointer(p)).FpParse
aLabel = (*Parse)(unsafe.Pointer(pParse)).FaLabel
libc.SetBitFieldPtr8Uint32(p+200, Bft(1), 6, 0x40)
libc.SetBitFieldPtr8Uint32(p+200, Bft(0), 7, 0x80)
pOp = (*Vdbe)(unsafe.Pointer(p)).FaOp + uintptr((*Vdbe)(unsafe.Pointer(p)).FnOp-1)*24
__1:
if !(1 != 0) {
goto __2
}
if !(int32((*Op)(unsafe.Pointer(pOp)).Fopcode) <= SQLITE_MX_JUMP_OPCODE) {
goto __3
}
switch int32((*Op)(unsafe.Pointer(pOp)).Fopcode) {
case OP_Transaction:
goto __5
case OP_AutoCommit:
goto __6
case OP_Savepoint:
goto __7
case OP_Checkpoint:
goto __8
case OP_Vacuum:
goto __9
case OP_JournalMode:
goto __10
case OP_Init:
goto __11
case OP_VUpdate:
goto __12
case OP_VFilter:
goto __13
default:
goto __14
}
goto __4
__5:
if !((*Op)(unsafe.Pointer(pOp)).Fp2 != 0) {
goto __15
}
libc.SetBitFieldPtr8Uint32(p+200, Bft(0), 6, 0x40)
__15:
;
__6:
__7:
libc.SetBitFieldPtr8Uint32(p+200, Bft(1), 7, 0x80)
goto __4
__8:
__9:
__10:
libc.SetBitFieldPtr8Uint32(p+200, Bft(0), 6, 0x40)
libc.SetBitFieldPtr8Uint32(p+200, Bft(1), 7, 0x80)
goto __4
__11:
;
goto resolve_p2_values_loop_exit
__12:
if !((*Op)(unsafe.Pointer(pOp)).Fp2 > nMaxArgs) {
goto __16
}
nMaxArgs = (*Op)(unsafe.Pointer(pOp)).Fp2
__16:
;
goto __4
__13:
;
n = (*Op)(unsafe.Pointer(pOp + libc.UintptrFromInt32(-1)*24)).Fp1
if !(n > nMaxArgs) {
goto __17
}
nMaxArgs = n
__17:
;
__14:
if !((*Op)(unsafe.Pointer(pOp)).Fp2 < 0) {
goto __18
}
(*Op)(unsafe.Pointer(pOp)).Fp2 = *(*int32)(unsafe.Pointer(aLabel + uintptr(^(*Op)(unsafe.Pointer(pOp)).Fp2)*4))
__18:
;
goto __4
__4:
;
__3:
;
pOp -= 24
goto __1
__2:
;
resolve_p2_values_loop_exit:
if !(aLabel != 0) {
goto __19
}
Xsqlite3DbNNFreeNN(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, (*Parse)(unsafe.Pointer(pParse)).FaLabel)
(*Parse)(unsafe.Pointer(pParse)).FaLabel = uintptr(0)
__19:
;
(*Parse)(unsafe.Pointer(pParse)).FnLabel = 0
*(*int32)(unsafe.Pointer(pMaxFuncArgs)) = nMaxArgs
}
// Return the address of the next instruction to be inserted.
func Xsqlite3VdbeCurrentAddr(tls *libc.TLS, p uintptr) int32 {
return (*Vdbe)(unsafe.Pointer(p)).FnOp
}
// This function returns a pointer to the array of opcodes associated with
// the Vdbe passed as the first argument. It is the callers responsibility
// to arrange for the returned array to be eventually freed using the
// vdbeFreeOpArray() function.
//
// Before returning, *pnOp is set to the number of entries in the returned
// array. Also, *pnMaxArg is set to the larger of its current value and
// the number of entries in the Vdbe.apArg[] array required to execute the
// returned program.
func Xsqlite3VdbeTakeOpArray(tls *libc.TLS, p uintptr, pnOp uintptr, pnMaxArg uintptr) uintptr {
var aOp uintptr = (*Vdbe)(unsafe.Pointer(p)).FaOp
resolveP2Values(tls, p, pnMaxArg)
*(*int32)(unsafe.Pointer(pnOp)) = (*Vdbe)(unsafe.Pointer(p)).FnOp
(*Vdbe)(unsafe.Pointer(p)).FaOp = uintptr(0)
return aOp
}
// Add a whole list of operations to the operation stack. Return a
// pointer to the first operation inserted.
//
// Non-zero P2 arguments to jump instructions are automatically adjusted
// so that the jump target is relative to the first operation inserted.
func Xsqlite3VdbeAddOpList(tls *libc.TLS, p uintptr, nOp int32, aOp uintptr, iLineno int32) uintptr {
var i int32
var pOut uintptr
var pFirst uintptr
if (*Vdbe)(unsafe.Pointer(p)).FnOp+nOp > (*Vdbe)(unsafe.Pointer(p)).FnOpAlloc && growOpArray(tls, p, nOp) != 0 {
return uintptr(0)
}
pFirst = libc.AssignUintptr(&pOut, (*Vdbe)(unsafe.Pointer(p)).FaOp+uintptr((*Vdbe)(unsafe.Pointer(p)).FnOp)*24)
i = 0
__1:
if !(i < nOp) {
goto __3
}
{
(*VdbeOp)(unsafe.Pointer(pOut)).Fopcode = (*VdbeOpList)(unsafe.Pointer(aOp)).Fopcode
(*VdbeOp)(unsafe.Pointer(pOut)).Fp1 = int32((*VdbeOpList)(unsafe.Pointer(aOp)).Fp1)
(*VdbeOp)(unsafe.Pointer(pOut)).Fp2 = int32((*VdbeOpList)(unsafe.Pointer(aOp)).Fp2)
if int32(Xsqlite3OpcodeProperty[(*VdbeOpList)(unsafe.Pointer(aOp)).Fopcode])&OPFLG_JUMP != 0 && int32((*VdbeOpList)(unsafe.Pointer(aOp)).Fp2) > 0 {
*(*int32)(unsafe.Pointer(pOut + 8)) += (*Vdbe)(unsafe.Pointer(p)).FnOp
}
(*VdbeOp)(unsafe.Pointer(pOut)).Fp3 = int32((*VdbeOpList)(unsafe.Pointer(aOp)).Fp3)
(*VdbeOp)(unsafe.Pointer(pOut)).Fp4type = int8(P4_NOTUSED)
*(*uintptr)(unsafe.Pointer(pOut + 16)) = uintptr(0)
(*VdbeOp)(unsafe.Pointer(pOut)).Fp5 = U16(0)
_ = iLineno
}
goto __2
__2:
i++
aOp += 4
pOut += 24
goto __1
goto __3
__3:
;
*(*int32)(unsafe.Pointer(p + 144)) += nOp
return pFirst
}
// Change the value of the opcode, or P1, P2, P3, or P5 operands
// for a specific instruction.
func Xsqlite3VdbeChangeOpcode(tls *libc.TLS, p uintptr, addr int32, iNewOpcode U8) {
(*VdbeOp)(unsafe.Pointer(Xsqlite3VdbeGetOp(tls, p, addr))).Fopcode = iNewOpcode
}
func Xsqlite3VdbeChangeP1(tls *libc.TLS, p uintptr, addr int32, val int32) {
(*VdbeOp)(unsafe.Pointer(Xsqlite3VdbeGetOp(tls, p, addr))).Fp1 = val
}
func Xsqlite3VdbeChangeP2(tls *libc.TLS, p uintptr, addr int32, val int32) {
(*VdbeOp)(unsafe.Pointer(Xsqlite3VdbeGetOp(tls, p, addr))).Fp2 = val
}
func Xsqlite3VdbeChangeP3(tls *libc.TLS, p uintptr, addr int32, val int32) {
(*VdbeOp)(unsafe.Pointer(Xsqlite3VdbeGetOp(tls, p, addr))).Fp3 = val
}
func Xsqlite3VdbeChangeP5(tls *libc.TLS, p uintptr, p5 U16) {
if (*Vdbe)(unsafe.Pointer(p)).FnOp > 0 {
(*Op)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FaOp + uintptr((*Vdbe)(unsafe.Pointer(p)).FnOp-1)*24)).Fp5 = p5
}
}
// If the previous opcode is an OP_Column that delivers results
// into register iDest, then add the OPFLAG_TYPEOFARG flag to that
// opcode.
func Xsqlite3VdbeTypeofColumn(tls *libc.TLS, p uintptr, iDest int32) {
var pOp uintptr = Xsqlite3VdbeGetLastOp(tls, p)
if (*VdbeOp)(unsafe.Pointer(pOp)).Fp3 == iDest && int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_Column {
*(*U16)(unsafe.Pointer(pOp + 2)) |= U16(OPFLAG_TYPEOFARG)
}
}
// Change the P2 operand of instruction addr so that it points to
// the address of the next instruction to be coded.
func Xsqlite3VdbeJumpHere(tls *libc.TLS, p uintptr, addr int32) {
Xsqlite3VdbeChangeP2(tls, p, addr, (*Vdbe)(unsafe.Pointer(p)).FnOp)
}
// Change the P2 operand of the jump instruction at addr so that
// the jump lands on the next opcode. Or if the jump instruction was
// the previous opcode (and is thus a no-op) then simply back up
// the next instruction counter by one slot so that the jump is
// overwritten by the next inserted opcode.
//
// This routine is an optimization of sqlite3VdbeJumpHere() that
// strives to omit useless byte-code like this:
//
// 7 Once 0 8 0
// 8 ...
func Xsqlite3VdbeJumpHereOrPopInst(tls *libc.TLS, p uintptr, addr int32) {
if addr == (*Vdbe)(unsafe.Pointer(p)).FnOp-1 {
(*Vdbe)(unsafe.Pointer(p)).FnOp--
} else {
Xsqlite3VdbeChangeP2(tls, p, addr, (*Vdbe)(unsafe.Pointer(p)).FnOp)
}
}
func freeEphemeralFunction(tls *libc.TLS, db uintptr, pDef uintptr) {
if (*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_EPHEM) != U32(0) {
Xsqlite3DbNNFreeNN(tls, db, pDef)
}
}
func freeP4Mem(tls *libc.TLS, db uintptr, p uintptr) {
if (*Mem)(unsafe.Pointer(p)).FszMalloc != 0 {
Xsqlite3DbFree(tls, db, (*Mem)(unsafe.Pointer(p)).FzMalloc)
}
Xsqlite3DbNNFreeNN(tls, db, p)
}
func freeP4FuncCtx(tls *libc.TLS, db uintptr, p uintptr) {
freeEphemeralFunction(tls, db, (*Sqlite3_context)(unsafe.Pointer(p)).FpFunc)
Xsqlite3DbNNFreeNN(tls, db, p)
}
func freeP4(tls *libc.TLS, db uintptr, p4type int32, p4 uintptr) {
switch p4type {
case -15:
{
freeP4FuncCtx(tls, db, p4)
break
}
case -12:
fallthrough
case -13:
fallthrough
case -6:
fallthrough
case -14:
{
if p4 != 0 {
Xsqlite3DbNNFreeNN(tls, db, p4)
}
break
}
case -8:
{
if (*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed == uintptr(0) {
Xsqlite3KeyInfoUnref(tls, p4)
}
break
}
case -7:
{
freeEphemeralFunction(tls, db, p4)
break
}
case -10:
{
if (*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed == uintptr(0) {
Xsqlite3ValueFree(tls, p4)
} else {
freeP4Mem(tls, db, p4)
}
break
}
case -11:
{
if (*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed == uintptr(0) {
Xsqlite3VtabUnlock(tls, p4)
}
break
}
}
}
func vdbeFreeOpArray(tls *libc.TLS, db uintptr, aOp uintptr, nOp int32) {
if aOp != 0 {
var pOp uintptr = aOp + uintptr(nOp-1)*24
for 1 != 0 {
if int32((*Op)(unsafe.Pointer(pOp)).Fp4type) <= -6 {
freeP4(tls, db, int32((*Op)(unsafe.Pointer(pOp)).Fp4type), *(*uintptr)(unsafe.Pointer(pOp + 16)))
}
if pOp == aOp {
break
}
pOp -= 24
}
Xsqlite3DbNNFreeNN(tls, db, aOp)
}
}
// Link the SubProgram object passed as the second argument into the linked
// list at Vdbe.pSubProgram. This list is used to delete all sub-program
// objects when the VM is no longer required.
func Xsqlite3VdbeLinkSubProgram(tls *libc.TLS, pVdbe uintptr, p uintptr) {
(*SubProgram)(unsafe.Pointer(p)).FpNext = (*Vdbe)(unsafe.Pointer(pVdbe)).FpProgram
(*Vdbe)(unsafe.Pointer(pVdbe)).FpProgram = p
}
// Return true if the given Vdbe has any SubPrograms.
func Xsqlite3VdbeHasSubProgram(tls *libc.TLS, pVdbe uintptr) int32 {
return libc.Bool32((*Vdbe)(unsafe.Pointer(pVdbe)).FpProgram != uintptr(0))
}
// Change the opcode at addr into OP_Noop
func Xsqlite3VdbeChangeToNoop(tls *libc.TLS, p uintptr, addr int32) int32 {
var pOp uintptr
if (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).FmallocFailed != 0 {
return 0
}
pOp = (*Vdbe)(unsafe.Pointer(p)).FaOp + uintptr(addr)*24
freeP4(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, int32((*VdbeOp)(unsafe.Pointer(pOp)).Fp4type), *(*uintptr)(unsafe.Pointer(pOp + 16)))
(*VdbeOp)(unsafe.Pointer(pOp)).Fp4type = int8(P4_NOTUSED)
*(*uintptr)(unsafe.Pointer(pOp + 16)) = uintptr(0)
(*VdbeOp)(unsafe.Pointer(pOp)).Fopcode = U8(OP_Noop)
return 1
}
// If the last opcode is "op" and it is not a jump destination,
// then remove it. Return true if and only if an opcode was removed.
func Xsqlite3VdbeDeletePriorOpcode(tls *libc.TLS, p uintptr, op U8) int32 {
if (*Vdbe)(unsafe.Pointer(p)).FnOp > 0 && int32((*Op)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FaOp+uintptr((*Vdbe)(unsafe.Pointer(p)).FnOp-1)*24)).Fopcode) == int32(op) {
return Xsqlite3VdbeChangeToNoop(tls, p, (*Vdbe)(unsafe.Pointer(p)).FnOp-1)
} else {
return 0
}
return int32(0)
}
func vdbeChangeP4Full(tls *libc.TLS, p uintptr, pOp uintptr, zP4 uintptr, n int32) {
if (*Op)(unsafe.Pointer(pOp)).Fp4type != 0 {
freeP4(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, int32((*Op)(unsafe.Pointer(pOp)).Fp4type), *(*uintptr)(unsafe.Pointer(pOp + 16)))
(*Op)(unsafe.Pointer(pOp)).Fp4type = int8(0)
*(*uintptr)(unsafe.Pointer(pOp + 16)) = uintptr(0)
}
if n < 0 {
Xsqlite3VdbeChangeP4(tls, p, int32((int64(pOp)-int64((*Vdbe)(unsafe.Pointer(p)).FaOp))/24), zP4, n)
} else {
if n == 0 {
n = Xsqlite3Strlen30(tls, zP4)
}
*(*uintptr)(unsafe.Pointer(pOp + 16)) = Xsqlite3DbStrNDup(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, zP4, uint64(n))
(*Op)(unsafe.Pointer(pOp)).Fp4type = int8(-6)
}
}
func Xsqlite3VdbeChangeP4(tls *libc.TLS, p uintptr, addr int32, zP4 uintptr, n int32) {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = zP4
var pOp uintptr
var db uintptr
db = (*Vdbe)(unsafe.Pointer(p)).Fdb
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
if n != -11 {
freeP4(tls, db, n, *(*uintptr)(unsafe.Pointer(bp)))
}
return
}
if addr < 0 {
addr = (*Vdbe)(unsafe.Pointer(p)).FnOp - 1
}
pOp = (*Vdbe)(unsafe.Pointer(p)).FaOp + uintptr(addr)*24
if n >= 0 || (*Op)(unsafe.Pointer(pOp)).Fp4type != 0 {
vdbeChangeP4Full(tls, p, pOp, *(*uintptr)(unsafe.Pointer(bp)), n)
return
}
if n == -3 {
*(*int32)(unsafe.Pointer(pOp + 16)) = int32(*(*uintptr)(unsafe.Pointer(bp)))
(*Op)(unsafe.Pointer(pOp)).Fp4type = int8(-3)
} else if *(*uintptr)(unsafe.Pointer(bp)) != uintptr(0) {
*(*uintptr)(unsafe.Pointer(pOp + 16)) = *(*uintptr)(unsafe.Pointer(bp))
(*Op)(unsafe.Pointer(pOp)).Fp4type = int8(n)
if n == -11 {
Xsqlite3VtabLock(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
}
}
// Change the P4 operand of the most recently coded instruction
// to the value defined by the arguments. This is a high-speed
// version of sqlite3VdbeChangeP4().
//
// The P4 operand must not have been previously defined. And the new
// P4 must not be P4_INT32. Use sqlite3VdbeChangeP4() in either of
// those cases.
func Xsqlite3VdbeAppendP4(tls *libc.TLS, p uintptr, pP4 uintptr, n int32) {
var pOp uintptr
if (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).FmallocFailed != 0 {
freeP4(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, n, pP4)
} else {
pOp = (*Vdbe)(unsafe.Pointer(p)).FaOp + uintptr((*Vdbe)(unsafe.Pointer(p)).FnOp-1)*24
(*VdbeOp)(unsafe.Pointer(pOp)).Fp4type = int8(n)
*(*uintptr)(unsafe.Pointer(pOp + 16)) = pP4
}
}
// Set the P4 on the most recently added opcode to the KeyInfo for the
// index given.
func Xsqlite3VdbeSetP4KeyInfo(tls *libc.TLS, pParse uintptr, pIdx uintptr) {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var pKeyInfo uintptr
pKeyInfo = Xsqlite3KeyInfoOfIndex(tls, pParse, pIdx)
if pKeyInfo != 0 {
Xsqlite3VdbeAppendP4(tls, v, pKeyInfo, -8)
}
}
// Return the opcode for a given address. The address must be non-negative.
// See sqlite3VdbeGetLastOp() to get the most recently added opcode.
//
// If a memory allocation error has occurred prior to the calling of this
// routine, then a pointer to a dummy VdbeOp will be returned. That opcode
// is readable but not writable, though it is cast to a writable value.
// The return of a dummy opcode allows the call to continue functioning
// after an OOM fault without having to check to see if the return from
// this routine is a valid pointer. But because the dummy.opcode is 0,
// dummy will never be written to. This is verified by code inspection and
// by running with Valgrind.
func Xsqlite3VdbeGetOp(tls *libc.TLS, p uintptr, addr int32) uintptr {
if (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).FmallocFailed != 0 {
return uintptr(unsafe.Pointer(&dummy))
} else {
return (*Vdbe)(unsafe.Pointer(p)).FaOp + uintptr(addr)*24
}
return uintptr(0)
}
var dummy VdbeOp
// Return the most recently added opcode
func Xsqlite3VdbeGetLastOp(tls *libc.TLS, p uintptr) uintptr {
return Xsqlite3VdbeGetOp(tls, p, (*Vdbe)(unsafe.Pointer(p)).FnOp-1)
}
// Compute a string that describes the P4 parameter for an opcode.
// Use zTemp for any required temporary buffer space.
func Xsqlite3VdbeDisplayP4(tls *libc.TLS, db uintptr, pOp uintptr) uintptr {
bp := tls.Alloc(176)
defer tls.Free(176)
var zP4 uintptr = uintptr(0)
Xsqlite3StrAccumInit(tls, bp+144, uintptr(0), uintptr(0), 0, SQLITE_MAX_LENGTH)
switch int32((*Op)(unsafe.Pointer(pOp)).Fp4type) {
case -8:
{
var j int32
var pKeyInfo uintptr = *(*uintptr)(unsafe.Pointer(pOp + 16))
Xsqlite3_str_appendf(tls, bp+144, ts+5342, libc.VaList(bp, int32((*KeyInfo)(unsafe.Pointer(pKeyInfo)).FnKeyField)))
for j = 0; j < int32((*KeyInfo)(unsafe.Pointer(pKeyInfo)).FnKeyField); j++ {
var pColl uintptr = *(*uintptr)(unsafe.Pointer(pKeyInfo + 32 + uintptr(j)*8))
var zColl uintptr
if pColl != 0 {
zColl = (*CollSeq)(unsafe.Pointer(pColl)).FzName
} else {
zColl = ts + 1547
}
if libc.Xstrcmp(tls, zColl, ts+1092) == 0 {
zColl = ts + 5347
}
Xsqlite3_str_appendf(tls, bp+144, ts+5349,
libc.VaList(bp+8, func() uintptr {
if int32(*(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer(pKeyInfo)).FaSortFlags + uintptr(j))))&KEYINFO_ORDER_DESC != 0 {
return ts + 5335
}
return ts + 1547
}(),
func() uintptr {
if int32(*(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer(pKeyInfo)).FaSortFlags + uintptr(j))))&KEYINFO_ORDER_BIGNULL != 0 {
return ts + 5357
}
return ts + 1547
}(),
zColl))
}
Xsqlite3_str_append(tls, bp+144, ts+5360, 1)
break
}
case -2:
{
var pColl uintptr = *(*uintptr)(unsafe.Pointer(pOp + 16))
Xsqlite3_str_appendf(tls, bp+144, ts+5362, libc.VaList(bp+32, (*CollSeq)(unsafe.Pointer(pColl)).FzName,
encnames[(*CollSeq)(unsafe.Pointer(pColl)).Fenc]))
break
}
case -7:
{
var pDef uintptr = *(*uintptr)(unsafe.Pointer(pOp + 16))
Xsqlite3_str_appendf(tls, bp+144, ts+5371, libc.VaList(bp+48, (*FuncDef)(unsafe.Pointer(pDef)).FzName, int32((*FuncDef)(unsafe.Pointer(pDef)).FnArg)))
break
}
case -15:
{
var pDef uintptr = (*Sqlite3_context)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pOp + 16)))).FpFunc
Xsqlite3_str_appendf(tls, bp+144, ts+5371, libc.VaList(bp+64, (*FuncDef)(unsafe.Pointer(pDef)).FzName, int32((*FuncDef)(unsafe.Pointer(pDef)).FnArg)))
break
}
case -13:
{
Xsqlite3_str_appendf(tls, bp+144, ts+1327, libc.VaList(bp+80, *(*I64)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pOp + 16))))))
break
}
case -3:
{
Xsqlite3_str_appendf(tls, bp+144, ts+5378, libc.VaList(bp+88, *(*int32)(unsafe.Pointer(pOp + 16))))
break
}
case -12:
{
Xsqlite3_str_appendf(tls, bp+144, ts+1321, libc.VaList(bp+96, *(*float64)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pOp + 16))))))
break
}
case -10:
{
var pMem uintptr = *(*uintptr)(unsafe.Pointer(pOp + 16))
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Str != 0 {
zP4 = (*Mem)(unsafe.Pointer(pMem)).Fz
} else if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&(MEM_Int|MEM_IntReal) != 0 {
Xsqlite3_str_appendf(tls, bp+144, ts+1327, libc.VaList(bp+104, *(*I64)(unsafe.Pointer(pMem))))
} else if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Real != 0 {
Xsqlite3_str_appendf(tls, bp+144, ts+1321, libc.VaList(bp+112, *(*float64)(unsafe.Pointer(pMem))))
} else if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Null != 0 {
zP4 = ts + 1548
} else {
zP4 = ts + 5381
}
break
}
case -11:
{
var pVtab uintptr = (*VTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pOp + 16)))).FpVtab
Xsqlite3_str_appendf(tls, bp+144, ts+5388, libc.VaList(bp+120, pVtab))
break
}
case -14:
{
var i U32
var ai uintptr = *(*uintptr)(unsafe.Pointer(pOp + 16))
var n U32 = *(*U32)(unsafe.Pointer(ai))
for i = U32(1); i <= n; i++ {
Xsqlite3_str_appendf(tls, bp+144, ts+5396, libc.VaList(bp+128, func() int32 {
if i == U32(1) {
return '['
}
return ','
}(), *(*U32)(unsafe.Pointer(ai + uintptr(i)*4))))
}
Xsqlite3_str_append(tls, bp+144, ts+5401, 1)
break
}
case -4:
{
zP4 = ts + 5403
break
}
case -5:
{
zP4 = (*Table)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pOp + 16)))).FzName
break
}
default:
{
zP4 = *(*uintptr)(unsafe.Pointer(pOp + 16))
}
}
if zP4 != 0 {
Xsqlite3_str_appendall(tls, bp+144, zP4)
}
if int32((*StrAccum)(unsafe.Pointer(bp+144)).FaccError)&SQLITE_NOMEM != 0 {
Xsqlite3OomFault(tls, db)
}
return Xsqlite3StrAccumFinish(tls, bp+144)
}
var encnames = [4]uintptr{ts + 5411, ts + 5413, ts + 5415, ts + 5420}
// Declare to the Vdbe that the BTree object at db->aDb[i] is used.
//
// The prepared statements need to know in advance the complete set of
// attached databases that will be use. A mask of these databases
// is maintained in p->btreeMask. The p->lockMask value is the subset of
// p->btreeMask of databases that will require a lock.
func Xsqlite3VdbeUsesBtree(tls *libc.TLS, p uintptr, i int32) {
*(*YDbMask)(unsafe.Pointer(p + 204)) |= YDbMask(1) << i
if i != 1 && Xsqlite3BtreeSharable(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).FaDb+uintptr(i)*32)).FpBt) != 0 {
*(*YDbMask)(unsafe.Pointer(p + 208)) |= YDbMask(1) << i
}
}
// If SQLite is compiled to support shared-cache mode and to be threadsafe,
// this routine obtains the mutex associated with each BtShared structure
// that may be accessed by the VM passed as an argument. In doing so it also
// sets the BtShared.db member of each of the BtShared structures, ensuring
// that the correct busy-handler callback is invoked if required.
//
// If SQLite is not threadsafe but does support shared-cache mode, then
// sqlite3BtreeEnter() is invoked to set the BtShared.db variables
// of all of BtShared structures accessible via the database handle
// associated with the VM.
//
// If SQLite is not threadsafe and does not support shared-cache mode, this
// function is a no-op.
//
// The p->btreeMask field is a bitmask of all btrees that the prepared
// statement p will ever use. Let N be the number of bits in p->btreeMask
// corresponding to btrees that use shared cache. Then the runtime of
// this routine is N*N. But as N is rarely more than 1, this should not
// be a problem.
func Xsqlite3VdbeEnter(tls *libc.TLS, p uintptr) {
var i int32
var db uintptr
var aDb uintptr
var nDb int32
if (*Vdbe)(unsafe.Pointer(p)).FlockMask == YDbMask(0) {
return
}
db = (*Vdbe)(unsafe.Pointer(p)).Fdb
aDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb
nDb = (*Sqlite3)(unsafe.Pointer(db)).FnDb
for i = 0; i < nDb; i++ {
if i != 1 && (*Vdbe)(unsafe.Pointer(p)).FlockMask&(YDbMask(1)<<i) != YDbMask(0) && (*Db)(unsafe.Pointer(aDb+uintptr(i)*32)).FpBt != uintptr(0) {
Xsqlite3BtreeEnter(tls, (*Db)(unsafe.Pointer(aDb+uintptr(i)*32)).FpBt)
}
}
}
func vdbeLeave(tls *libc.TLS, p uintptr) {
var i int32
var db uintptr
var aDb uintptr
var nDb int32
db = (*Vdbe)(unsafe.Pointer(p)).Fdb
aDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb
nDb = (*Sqlite3)(unsafe.Pointer(db)).FnDb
for i = 0; i < nDb; i++ {
if i != 1 && (*Vdbe)(unsafe.Pointer(p)).FlockMask&(YDbMask(1)<<i) != YDbMask(0) && (*Db)(unsafe.Pointer(aDb+uintptr(i)*32)).FpBt != uintptr(0) {
Xsqlite3BtreeLeave(tls, (*Db)(unsafe.Pointer(aDb+uintptr(i)*32)).FpBt)
}
}
}
func Xsqlite3VdbeLeave(tls *libc.TLS, p uintptr) {
if (*Vdbe)(unsafe.Pointer(p)).FlockMask == YDbMask(0) {
return
}
vdbeLeave(tls, p)
}
func initMemArray(tls *libc.TLS, p uintptr, N int32, db uintptr, flags U16) {
if N > 0 {
for __ccgo := true; __ccgo; __ccgo = libc.PreDecInt32(&N, 1) > 0 {
(*Mem)(unsafe.Pointer(p)).Fflags = flags
(*Mem)(unsafe.Pointer(p)).Fdb = db
(*Mem)(unsafe.Pointer(p)).FszMalloc = 0
p += 56
}
}
}
func releaseMemArray(tls *libc.TLS, p uintptr, N int32) {
if p != 0 && N != 0 {
var pEnd uintptr = p + uintptr(N)*56
var db uintptr = (*Mem)(unsafe.Pointer(p)).Fdb
if (*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed != 0 {
for __ccgo := true; __ccgo; __ccgo = libc.PreIncUintptr(&p, 56) < pEnd {
if (*Mem)(unsafe.Pointer(p)).FszMalloc != 0 {
Xsqlite3DbFree(tls, db, (*Mem)(unsafe.Pointer(p)).FzMalloc)
}
}
return
}
for __ccgo1 := true; __ccgo1; __ccgo1 = libc.PreIncUintptr(&p, 56) < pEnd {
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&(MEM_Agg|MEM_Dyn) != 0 {
Xsqlite3VdbeMemRelease(tls, p)
(*Mem)(unsafe.Pointer(p)).Fflags = U16(MEM_Undefined)
} else if (*Mem)(unsafe.Pointer(p)).FszMalloc != 0 {
Xsqlite3DbNNFreeNN(tls, db, (*Mem)(unsafe.Pointer(p)).FzMalloc)
(*Mem)(unsafe.Pointer(p)).FszMalloc = 0
(*Mem)(unsafe.Pointer(p)).Fflags = U16(MEM_Undefined)
}
}
}
}
// This is a destructor on a Mem object (which is really an sqlite3_value)
// that deletes the Frame object that is attached to it as a blob.
//
// This routine does not delete the Frame right away. It merely adds the
// frame to a list of frames to be deleted when the Vdbe halts.
func Xsqlite3VdbeFrameMemDel(tls *libc.TLS, pArg uintptr) {
var pFrame uintptr = pArg
(*VdbeFrame)(unsafe.Pointer(pFrame)).FpParent = (*Vdbe)(unsafe.Pointer((*VdbeFrame)(unsafe.Pointer(pFrame)).Fv)).FpDelFrame
(*Vdbe)(unsafe.Pointer((*VdbeFrame)(unsafe.Pointer(pFrame)).Fv)).FpDelFrame = pFrame
}
// Locate the next opcode to be displayed in EXPLAIN or EXPLAIN
// QUERY PLAN output.
//
// Return SQLITE_ROW on success. Return SQLITE_DONE if there are no
// more opcodes to be displayed.
func Xsqlite3VdbeNextOpcode(tls *libc.TLS, p uintptr, pSub uintptr, eMode int32, piPc uintptr, piAddr uintptr, paOp uintptr) int32 {
var nRow int32
var nSub int32 = 0
var apSub uintptr = uintptr(0)
var i int32
var rc int32 = SQLITE_OK
var aOp uintptr = uintptr(0)
var iPc int32
nRow = (*Vdbe)(unsafe.Pointer(p)).FnOp
if pSub != uintptr(0) {
if int32((*Mem)(unsafe.Pointer(pSub)).Fflags)&MEM_Blob != 0 {
nSub = int32(uint64((*Mem)(unsafe.Pointer(pSub)).Fn) / uint64(unsafe.Sizeof(uintptr(0))))
apSub = (*Mem)(unsafe.Pointer(pSub)).Fz
}
for i = 0; i < nSub; i++ {
nRow = nRow + (*SubProgram)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(apSub + uintptr(i)*8)))).FnOp
}
}
iPc = *(*int32)(unsafe.Pointer(piPc))
for 1 != 0 {
i = libc.PostIncInt32(&iPc, 1)
if i >= nRow {
(*Vdbe)(unsafe.Pointer(p)).Frc = SQLITE_OK
rc = SQLITE_DONE
break
}
if i < (*Vdbe)(unsafe.Pointer(p)).FnOp {
aOp = (*Vdbe)(unsafe.Pointer(p)).FaOp
} else {
var j int32
i = i - (*Vdbe)(unsafe.Pointer(p)).FnOp
for j = 0; i >= (*SubProgram)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(apSub + uintptr(j)*8)))).FnOp; j++ {
i = i - (*SubProgram)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(apSub + uintptr(j)*8)))).FnOp
}
aOp = (*SubProgram)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(apSub + uintptr(j)*8)))).FaOp
}
if pSub != uintptr(0) && int32((*Op)(unsafe.Pointer(aOp+uintptr(i)*24)).Fp4type) == -4 {
var nByte int32 = int32(uint64(nSub+1) * uint64(unsafe.Sizeof(uintptr(0))))
var j int32
for j = 0; j < nSub; j++ {
if *(*uintptr)(unsafe.Pointer(apSub + uintptr(j)*8)) == *(*uintptr)(unsafe.Pointer(aOp + uintptr(i)*24 + 16)) {
break
}
}
if j == nSub {
(*Vdbe)(unsafe.Pointer(p)).Frc = Xsqlite3VdbeMemGrow(tls, pSub, nByte, libc.Bool32(nSub != 0))
if (*Vdbe)(unsafe.Pointer(p)).Frc != SQLITE_OK {
rc = SQLITE_ERROR
break
}
apSub = (*Mem)(unsafe.Pointer(pSub)).Fz
*(*uintptr)(unsafe.Pointer(apSub + uintptr(libc.PostIncInt32(&nSub, 1))*8)) = *(*uintptr)(unsafe.Pointer(aOp + uintptr(i)*24 + 16))
(*Mem)(unsafe.Pointer(pSub)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pSub)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Blob)
(*Mem)(unsafe.Pointer(pSub)).Fn = int32(uint64(nSub) * uint64(unsafe.Sizeof(uintptr(0))))
nRow = nRow + (*SubProgram)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(aOp + uintptr(i)*24 + 16)))).FnOp
}
}
if eMode == 0 {
break
}
{
if int32((*Op)(unsafe.Pointer(aOp+uintptr(i)*24)).Fopcode) == OP_Explain {
break
}
if int32((*Op)(unsafe.Pointer(aOp+uintptr(i)*24)).Fopcode) == OP_Init && iPc > 1 {
break
}
}
}
*(*int32)(unsafe.Pointer(piPc)) = iPc
*(*int32)(unsafe.Pointer(piAddr)) = i
*(*uintptr)(unsafe.Pointer(paOp)) = aOp
return rc
}
// Delete a VdbeFrame object and its contents. VdbeFrame objects are
// allocated by the OP_Program opcode in sqlite3VdbeExec().
func Xsqlite3VdbeFrameDelete(tls *libc.TLS, p uintptr) {
var i int32
var aMem uintptr = p + 112
var apCsr uintptr = aMem + uintptr((*VdbeFrame)(unsafe.Pointer(p)).FnChildMem)*56
for i = 0; i < (*VdbeFrame)(unsafe.Pointer(p)).FnChildCsr; i++ {
if *(*uintptr)(unsafe.Pointer(apCsr + uintptr(i)*8)) != 0 {
Xsqlite3VdbeFreeCursorNN(tls, (*VdbeFrame)(unsafe.Pointer(p)).Fv, *(*uintptr)(unsafe.Pointer(apCsr + uintptr(i)*8)))
}
}
releaseMemArray(tls, aMem, (*VdbeFrame)(unsafe.Pointer(p)).FnChildMem)
Xsqlite3VdbeDeleteAuxData(tls, (*Vdbe)(unsafe.Pointer((*VdbeFrame)(unsafe.Pointer(p)).Fv)).Fdb, p+64, -1, 0)
Xsqlite3DbFree(tls, (*Vdbe)(unsafe.Pointer((*VdbeFrame)(unsafe.Pointer(p)).Fv)).Fdb, p)
}
// Give a listing of the program in the virtual machine.
//
// The interface is the same as sqlite3VdbeExec(). But instead of
// running the code, it invokes the callback once for each instruction.
// This feature is used to implement "EXPLAIN".
//
// When p->explain==1, each instruction is listed. When
// p->explain==2, only OP_Explain instructions are listed and these
// are shown in a different format. p->explain==2 is used to implement
// EXPLAIN QUERY PLAN.
// 2018-04-24: In p->explain==2 mode, the OP_Init opcodes of triggers
// are also shown, so that the boundaries between the main program and
// each trigger are clear.
//
// When p->explain==1, first the main program is listed, then each of
// the trigger subprograms are listed one by one.
func Xsqlite3VdbeList(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var pSub uintptr = uintptr(0)
var db uintptr = (*Vdbe)(unsafe.Pointer(p)).Fdb
var rc int32 = SQLITE_OK
var pMem uintptr = (*Vdbe)(unsafe.Pointer(p)).FaMem + 1*56
var bListSubprogs int32 = libc.Bool32(int32(*(*uint8)(unsafe.Pointer(p + 200))&0xc>>2) == 1 || (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_TriggerEQP) != uint64(0))
var pOp uintptr
releaseMemArray(tls, pMem, 8)
if (*Vdbe)(unsafe.Pointer(p)).Frc == SQLITE_NOMEM {
Xsqlite3OomFault(tls, db)
return SQLITE_ERROR
}
if bListSubprogs != 0 {
pSub = (*Vdbe)(unsafe.Pointer(p)).FaMem + 9*56
} else {
pSub = uintptr(0)
}
rc = Xsqlite3VdbeNextOpcode(tls, p, pSub, libc.Bool32(int32(*(*uint8)(unsafe.Pointer(p + 200))&0xc>>2) == 2), p+48, bp, bp+8)
if rc == SQLITE_OK {
pOp = *(*uintptr)(unsafe.Pointer(bp + 8)) + uintptr(*(*int32)(unsafe.Pointer(bp)))*24
if *(*int32)(unsafe.Pointer(db + 432)) != 0 {
(*Vdbe)(unsafe.Pointer(p)).Frc = SQLITE_INTERRUPT
rc = SQLITE_ERROR
Xsqlite3VdbeError(tls, p, Xsqlite3ErrStr(tls, (*Vdbe)(unsafe.Pointer(p)).Frc), 0)
} else {
var zP4 uintptr = Xsqlite3VdbeDisplayP4(tls, db, pOp)
if int32(*(*uint8)(unsafe.Pointer(p + 200))&0xc>>2) == 2 {
Xsqlite3VdbeMemSetInt64(tls, pMem, int64((*Op)(unsafe.Pointer(pOp)).Fp1))
Xsqlite3VdbeMemSetInt64(tls, pMem+uintptr(1)*56, int64((*Op)(unsafe.Pointer(pOp)).Fp2))
Xsqlite3VdbeMemSetInt64(tls, pMem+uintptr(2)*56, int64((*Op)(unsafe.Pointer(pOp)).Fp3))
Xsqlite3VdbeMemSetStr(tls, pMem+uintptr(3)*56, zP4, int64(-1), uint8(SQLITE_UTF8), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
(*Vdbe)(unsafe.Pointer(p)).FnResColumn = U16(4)
} else {
Xsqlite3VdbeMemSetInt64(tls, pMem+uintptr(0)*56, int64(*(*int32)(unsafe.Pointer(bp))))
Xsqlite3VdbeMemSetStr(tls, pMem+uintptr(1)*56, Xsqlite3OpcodeName(tls, int32((*Op)(unsafe.Pointer(pOp)).Fopcode)),
int64(-1), uint8(SQLITE_UTF8), uintptr(0))
Xsqlite3VdbeMemSetInt64(tls, pMem+uintptr(2)*56, int64((*Op)(unsafe.Pointer(pOp)).Fp1))
Xsqlite3VdbeMemSetInt64(tls, pMem+uintptr(3)*56, int64((*Op)(unsafe.Pointer(pOp)).Fp2))
Xsqlite3VdbeMemSetInt64(tls, pMem+uintptr(4)*56, int64((*Op)(unsafe.Pointer(pOp)).Fp3))
Xsqlite3VdbeMemSetInt64(tls, pMem+uintptr(6)*56, int64((*Op)(unsafe.Pointer(pOp)).Fp5))
Xsqlite3VdbeMemSetNull(tls, pMem+uintptr(7)*56)
Xsqlite3VdbeMemSetStr(tls, pMem+uintptr(5)*56, zP4, int64(-1), uint8(SQLITE_UTF8), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
(*Vdbe)(unsafe.Pointer(p)).FnResColumn = U16(8)
}
(*Vdbe)(unsafe.Pointer(p)).FpResultRow = pMem
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
(*Vdbe)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
rc = SQLITE_ERROR
} else {
(*Vdbe)(unsafe.Pointer(p)).Frc = SQLITE_OK
rc = SQLITE_ROW
}
}
}
return rc
}
// An instance of this object describes bulk memory available for use
// by subcomponents of a prepared statement. Space is allocated out
// of a ReusableSpace object by the allocSpace() routine below.
type ReusableSpace = struct {
FpSpace uintptr
FnFree Sqlite3_int64
FnNeeded Sqlite3_int64
}
func allocSpace(tls *libc.TLS, p uintptr, pBuf uintptr, nByte Sqlite3_int64) uintptr {
if pBuf == uintptr(0) {
nByte = nByte
if nByte <= (*ReusableSpace)(unsafe.Pointer(p)).FnFree {
*(*Sqlite3_int64)(unsafe.Pointer(p + 8)) -= nByte
pBuf = (*ReusableSpace)(unsafe.Pointer(p)).FpSpace + uintptr((*ReusableSpace)(unsafe.Pointer(p)).FnFree)
} else {
*(*Sqlite3_int64)(unsafe.Pointer(p + 16)) += nByte
}
}
return pBuf
}
// Rewind the VDBE back to the beginning in preparation for
// running it.
func Xsqlite3VdbeRewind(tls *libc.TLS, p uintptr) {
(*Vdbe)(unsafe.Pointer(p)).FeVdbeState = U8(VDBE_READY_STATE)
(*Vdbe)(unsafe.Pointer(p)).Fpc = -1
(*Vdbe)(unsafe.Pointer(p)).Frc = SQLITE_OK
(*Vdbe)(unsafe.Pointer(p)).FerrorAction = U8(OE_Abort)
(*Vdbe)(unsafe.Pointer(p)).FnChange = int64(0)
(*Vdbe)(unsafe.Pointer(p)).FcacheCtr = U32(1)
(*Vdbe)(unsafe.Pointer(p)).FminWriteFileFormat = U8(255)
(*Vdbe)(unsafe.Pointer(p)).FiStatement = 0
(*Vdbe)(unsafe.Pointer(p)).FnFkConstraint = int64(0)
}
// Prepare a virtual machine for execution for the first time after
// creating the virtual machine. This involves things such
// as allocating registers and initializing the program counter.
// After the VDBE has be prepped, it can be executed by one or more
// calls to sqlite3VdbeExec().
//
// This function may be called exactly once on each virtual machine.
// After this routine is called the VM has been "packaged" and is ready
// to run. After this routine is called, further calls to
// sqlite3VdbeAddOp() functions are prohibited. This routine disconnects
// the Vdbe from the Parse object that helped generate it so that the
// the Vdbe becomes an independent entity and the Parse object can be
// destroyed.
//
// Use the sqlite3VdbeRewind() procedure to restore a virtual machine back
// to its initial state after it has been run.
func Xsqlite3VdbeMakeReady(tls *libc.TLS, p uintptr, pParse uintptr) {
bp := tls.Alloc(32)
defer tls.Free(32)
var db uintptr
var nVar int32
var nMem int32
var nCursor int32
var n int32
(*Vdbe)(unsafe.Pointer(p)).FpVList = (*Parse)(unsafe.Pointer(pParse)).FpVList
(*Parse)(unsafe.Pointer(pParse)).FpVList = uintptr(0)
db = (*Vdbe)(unsafe.Pointer(p)).Fdb
nVar = int32((*Parse)(unsafe.Pointer(pParse)).FnVar)
nMem = (*Parse)(unsafe.Pointer(pParse)).FnMem
nCursor = (*Parse)(unsafe.Pointer(pParse)).FnTab
*(*int32)(unsafe.Pointer(bp)) = (*Parse)(unsafe.Pointer(pParse)).FnMaxArg
nMem = nMem + nCursor
if nCursor == 0 && nMem > 0 {
nMem++
}
n = int32(uint64(unsafe.Sizeof(Op{})) * uint64((*Vdbe)(unsafe.Pointer(p)).FnOp))
(*ReusableSpace)(unsafe.Pointer(bp + 8)).FpSpace = (*Vdbe)(unsafe.Pointer(p)).FaOp + uintptr(n)
(*ReusableSpace)(unsafe.Pointer(bp + 8)).FnFree = Sqlite3_int64(((*Parse)(unsafe.Pointer(pParse)).FszOpAlloc - n) & libc.CplInt32(7))
resolveP2Values(tls, p, bp)
libc.SetBitFieldPtr8Uint32(p+200, Bft(U8(libc.Bool32((*Parse)(unsafe.Pointer(pParse)).FisMultiWrite != 0 && (*Parse)(unsafe.Pointer(pParse)).FmayAbort != 0))), 5, 0x20)
if (*Parse)(unsafe.Pointer(pParse)).Fexplain != 0 {
var iFirst int32
var mx int32
var i int32
if nMem < 10 {
nMem = 10
}
libc.SetBitFieldPtr8Uint32(p+200, Bft((*Parse)(unsafe.Pointer(pParse)).Fexplain), 2, 0xc)
if int32((*Parse)(unsafe.Pointer(pParse)).Fexplain) == 2 {
Xsqlite3VdbeSetNumCols(tls, p, 4)
iFirst = 8
mx = 12
} else {
Xsqlite3VdbeSetNumCols(tls, p, 8)
iFirst = 0
mx = 8
}
for i = iFirst; i < mx; i++ {
Xsqlite3VdbeSetColName(tls, p, i-iFirst, COLNAME_NAME,
azColName[i], uintptr(0))
}
}
libc.SetBitFieldPtr8Uint32(p+200, Bft(0), 0, 0x3)
(*ReusableSpace)(unsafe.Pointer(bp + 8)).FnNeeded = int64(0)
(*Vdbe)(unsafe.Pointer(p)).FaMem = allocSpace(tls, bp+8, uintptr(0), int64(uint64(nMem)*uint64(unsafe.Sizeof(Mem{}))))
(*Vdbe)(unsafe.Pointer(p)).FaVar = allocSpace(tls, bp+8, uintptr(0), int64(uint64(nVar)*uint64(unsafe.Sizeof(Mem{}))))
(*Vdbe)(unsafe.Pointer(p)).FapArg = allocSpace(tls, bp+8, uintptr(0), int64(uint64(*(*int32)(unsafe.Pointer(bp)))*uint64(unsafe.Sizeof(uintptr(0)))))
(*Vdbe)(unsafe.Pointer(p)).FapCsr = allocSpace(tls, bp+8, uintptr(0), int64(uint64(nCursor)*uint64(unsafe.Sizeof(uintptr(0)))))
if (*ReusableSpace)(unsafe.Pointer(bp+8)).FnNeeded != 0 {
(*ReusableSpace)(unsafe.Pointer(bp + 8)).FpSpace = libc.AssignPtrUintptr(p+256, Xsqlite3DbMallocRawNN(tls, db, uint64((*ReusableSpace)(unsafe.Pointer(bp+8)).FnNeeded)))
(*ReusableSpace)(unsafe.Pointer(bp + 8)).FnFree = (*ReusableSpace)(unsafe.Pointer(bp + 8)).FnNeeded
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
(*Vdbe)(unsafe.Pointer(p)).FaMem = allocSpace(tls, bp+8, (*Vdbe)(unsafe.Pointer(p)).FaMem, int64(uint64(nMem)*uint64(unsafe.Sizeof(Mem{}))))
(*Vdbe)(unsafe.Pointer(p)).FaVar = allocSpace(tls, bp+8, (*Vdbe)(unsafe.Pointer(p)).FaVar, int64(uint64(nVar)*uint64(unsafe.Sizeof(Mem{}))))
(*Vdbe)(unsafe.Pointer(p)).FapArg = allocSpace(tls, bp+8, (*Vdbe)(unsafe.Pointer(p)).FapArg, int64(uint64(*(*int32)(unsafe.Pointer(bp)))*uint64(unsafe.Sizeof(uintptr(0)))))
(*Vdbe)(unsafe.Pointer(p)).FapCsr = allocSpace(tls, bp+8, (*Vdbe)(unsafe.Pointer(p)).FapCsr, int64(uint64(nCursor)*uint64(unsafe.Sizeof(uintptr(0)))))
}
}
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
(*Vdbe)(unsafe.Pointer(p)).FnVar = int16(0)
(*Vdbe)(unsafe.Pointer(p)).FnCursor = 0
(*Vdbe)(unsafe.Pointer(p)).FnMem = 0
} else {
(*Vdbe)(unsafe.Pointer(p)).FnCursor = nCursor
(*Vdbe)(unsafe.Pointer(p)).FnVar = YnVar(nVar)
initMemArray(tls, (*Vdbe)(unsafe.Pointer(p)).FaVar, nVar, db, uint16(MEM_Null))
(*Vdbe)(unsafe.Pointer(p)).FnMem = nMem
initMemArray(tls, (*Vdbe)(unsafe.Pointer(p)).FaMem, nMem, db, uint16(MEM_Undefined))
libc.X__builtin___memset_chk(tls, (*Vdbe)(unsafe.Pointer(p)).FapCsr, 0, uint64(nCursor)*uint64(unsafe.Sizeof(uintptr(0))), libc.X__builtin_object_size(tls, (*Vdbe)(unsafe.Pointer(p)).FapCsr, 0))
}
Xsqlite3VdbeRewind(tls, p)
}
var azColName = [12]uintptr{
ts + 5425, ts + 5430, ts + 5437, ts + 5440, ts + 5443, ts + 5446, ts + 5449, ts + 5452,
ts + 5460, ts + 5463, ts + 5470, ts + 5478,
}
// Close a VDBE cursor and release all the resources that cursor
// happens to hold.
func Xsqlite3VdbeFreeCursor(tls *libc.TLS, p uintptr, pCx uintptr) {
if pCx != 0 {
Xsqlite3VdbeFreeCursorNN(tls, p, pCx)
}
}
func Xsqlite3VdbeFreeCursorNN(tls *libc.TLS, p uintptr, pCx uintptr) {
switch int32((*VdbeCursor)(unsafe.Pointer(pCx)).FeCurType) {
case CURTYPE_SORTER:
{
Xsqlite3VdbeSorterClose(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, pCx)
break
}
case CURTYPE_BTREE:
{
Xsqlite3BtreeCloseCursor(tls, *(*uintptr)(unsafe.Pointer(pCx + 48)))
break
}
case CURTYPE_VTAB:
{
var pVCur uintptr = *(*uintptr)(unsafe.Pointer(pCx + 48))
var pModule uintptr = (*Sqlite3_vtab)(unsafe.Pointer((*Sqlite3_vtab_cursor)(unsafe.Pointer(pVCur)).FpVtab)).FpModule
(*Sqlite3_vtab)(unsafe.Pointer((*Sqlite3_vtab_cursor)(unsafe.Pointer(pVCur)).FpVtab)).FnRef--
(*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer(pModule)).FxClose})).f(tls, pVCur)
break
}
}
}
func closeCursorsInFrame(tls *libc.TLS, p uintptr) {
var i int32
for i = 0; i < (*Vdbe)(unsafe.Pointer(p)).FnCursor; i++ {
var pC uintptr = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr(i)*8))
if pC != 0 {
Xsqlite3VdbeFreeCursorNN(tls, p, pC)
*(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr(i)*8)) = uintptr(0)
}
}
}
// Copy the values stored in the VdbeFrame structure to its Vdbe. This
// is used, for example, when a trigger sub-program is halted to restore
// control to the main program.
func Xsqlite3VdbeFrameRestore(tls *libc.TLS, pFrame uintptr) int32 {
var v uintptr = (*VdbeFrame)(unsafe.Pointer(pFrame)).Fv
closeCursorsInFrame(tls, v)
(*Vdbe)(unsafe.Pointer(v)).FaOp = (*VdbeFrame)(unsafe.Pointer(pFrame)).FaOp
(*Vdbe)(unsafe.Pointer(v)).FnOp = (*VdbeFrame)(unsafe.Pointer(pFrame)).FnOp
(*Vdbe)(unsafe.Pointer(v)).FaMem = (*VdbeFrame)(unsafe.Pointer(pFrame)).FaMem
(*Vdbe)(unsafe.Pointer(v)).FnMem = (*VdbeFrame)(unsafe.Pointer(pFrame)).FnMem
(*Vdbe)(unsafe.Pointer(v)).FapCsr = (*VdbeFrame)(unsafe.Pointer(pFrame)).FapCsr
(*Vdbe)(unsafe.Pointer(v)).FnCursor = (*VdbeFrame)(unsafe.Pointer(pFrame)).FnCursor
(*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(v)).Fdb)).FlastRowid = (*VdbeFrame)(unsafe.Pointer(pFrame)).FlastRowid
(*Vdbe)(unsafe.Pointer(v)).FnChange = (*VdbeFrame)(unsafe.Pointer(pFrame)).FnChange
(*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(v)).Fdb)).FnChange = (*VdbeFrame)(unsafe.Pointer(pFrame)).FnDbChange
Xsqlite3VdbeDeleteAuxData(tls, (*Vdbe)(unsafe.Pointer(v)).Fdb, v+296, -1, 0)
(*Vdbe)(unsafe.Pointer(v)).FpAuxData = (*VdbeFrame)(unsafe.Pointer(pFrame)).FpAuxData
(*VdbeFrame)(unsafe.Pointer(pFrame)).FpAuxData = uintptr(0)
return (*VdbeFrame)(unsafe.Pointer(pFrame)).Fpc
}
func closeAllCursors(tls *libc.TLS, p uintptr) {
if (*Vdbe)(unsafe.Pointer(p)).FpFrame != 0 {
var pFrame uintptr
for pFrame = (*Vdbe)(unsafe.Pointer(p)).FpFrame; (*VdbeFrame)(unsafe.Pointer(pFrame)).FpParent != 0; pFrame = (*VdbeFrame)(unsafe.Pointer(pFrame)).FpParent {
}
Xsqlite3VdbeFrameRestore(tls, pFrame)
(*Vdbe)(unsafe.Pointer(p)).FpFrame = uintptr(0)
(*Vdbe)(unsafe.Pointer(p)).FnFrame = 0
}
closeCursorsInFrame(tls, p)
releaseMemArray(tls, (*Vdbe)(unsafe.Pointer(p)).FaMem, (*Vdbe)(unsafe.Pointer(p)).FnMem)
for (*Vdbe)(unsafe.Pointer(p)).FpDelFrame != 0 {
var pDel uintptr = (*Vdbe)(unsafe.Pointer(p)).FpDelFrame
(*Vdbe)(unsafe.Pointer(p)).FpDelFrame = (*VdbeFrame)(unsafe.Pointer(pDel)).FpParent
Xsqlite3VdbeFrameDelete(tls, pDel)
}
if (*Vdbe)(unsafe.Pointer(p)).FpAuxData != 0 {
Xsqlite3VdbeDeleteAuxData(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, p+296, -1, 0)
}
}
// Set the number of result columns that will be returned by this SQL
// statement. This is now set at compile time, rather than during
// execution of the vdbe program so that sqlite3_column_count() can
// be called on an SQL statement before sqlite3_step().
func Xsqlite3VdbeSetNumCols(tls *libc.TLS, p uintptr, nResColumn int32) {
var n int32
var db uintptr = (*Vdbe)(unsafe.Pointer(p)).Fdb
if (*Vdbe)(unsafe.Pointer(p)).FnResColumn != 0 {
releaseMemArray(tls, (*Vdbe)(unsafe.Pointer(p)).FaColName, int32((*Vdbe)(unsafe.Pointer(p)).FnResColumn)*COLNAME_N)
Xsqlite3DbFree(tls, db, (*Vdbe)(unsafe.Pointer(p)).FaColName)
}
n = nResColumn * COLNAME_N
(*Vdbe)(unsafe.Pointer(p)).FnResColumn = U16(nResColumn)
(*Vdbe)(unsafe.Pointer(p)).FaColName = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(Mem{}))*uint64(n))
if (*Vdbe)(unsafe.Pointer(p)).FaColName == uintptr(0) {
return
}
initMemArray(tls, (*Vdbe)(unsafe.Pointer(p)).FaColName, n, db, uint16(MEM_Null))
}
// Set the name of the idx'th column to be returned by the SQL statement.
// zName must be a pointer to a nul terminated string.
//
// This call must be made after a call to sqlite3VdbeSetNumCols().
//
// The final parameter, xDel, must be one of SQLITE_DYNAMIC, SQLITE_STATIC
// or SQLITE_TRANSIENT. If it is SQLITE_DYNAMIC, then the buffer pointed
// to by zName will be freed by sqlite3DbFree() when the vdbe is destroyed.
func Xsqlite3VdbeSetColName(tls *libc.TLS, p uintptr, idx int32, var1 int32, zName uintptr, xDel uintptr) int32 {
var rc int32
var pColName uintptr
if (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).FmallocFailed != 0 {
return SQLITE_NOMEM
}
pColName = (*Vdbe)(unsafe.Pointer(p)).FaColName + uintptr(idx+var1*int32((*Vdbe)(unsafe.Pointer(p)).FnResColumn))*56
rc = Xsqlite3VdbeMemSetStr(tls, pColName, zName, int64(-1), uint8(SQLITE_UTF8), xDel)
return rc
}
func vdbeCommit(tls *libc.TLS, db uintptr, p uintptr) int32 {
bp := tls.Alloc(72)
defer tls.Free(72)
var i int32
var nTrans int32 = 0
var rc int32 = SQLITE_OK
var needXcommit int32 = 0
rc = Xsqlite3VtabSync(tls, db, p)
for i = 0; rc == SQLITE_OK && i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if Xsqlite3BtreeTxnState(tls, pBt) == SQLITE_TXN_WRITE {
var pPager uintptr
needXcommit = 1
Xsqlite3BtreeEnter(tls, pBt)
pPager = Xsqlite3BtreePager(tls, pBt)
if int32((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).Fsafety_level) != PAGER_SYNCHRONOUS_OFF &&
aMJNeeded[Xsqlite3PagerGetJournalMode(tls, pPager)] != 0 &&
Xsqlite3PagerIsMemdb(tls, pPager) == 0 {
nTrans++
}
rc = Xsqlite3PagerExclusiveLock(tls, pPager)
Xsqlite3BtreeLeave(tls, pBt)
}
}
if rc != SQLITE_OK {
return rc
}
if needXcommit != 0 && (*Sqlite3)(unsafe.Pointer(db)).FxCommitCallback != 0 {
rc = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxCommitCallback})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpCommitArg)
if rc != 0 {
return SQLITE_CONSTRAINT | int32(2)<<8
}
}
if 0 == Xsqlite3Strlen30(tls, Xsqlite3BtreeGetFilename(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpBt)) ||
nTrans <= 1 {
for i = 0; rc == SQLITE_OK && i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if pBt != 0 {
rc = Xsqlite3BtreeCommitPhaseOne(tls, pBt, uintptr(0))
}
}
for i = 0; rc == SQLITE_OK && i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if pBt != 0 {
rc = Xsqlite3BtreeCommitPhaseTwo(tls, pBt, 0)
}
}
if rc == SQLITE_OK {
Xsqlite3VtabCommit(tls, db)
}
} else {
var pVfs uintptr = (*Sqlite3)(unsafe.Pointer(db)).FpVfs
var zSuper uintptr = uintptr(0)
var zMainFile uintptr = Xsqlite3BtreeGetFilename(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpBt)
*(*uintptr)(unsafe.Pointer(bp + 64)) = uintptr(0)
var offset I64 = int64(0)
var retryCount int32 = 0
var nMainFile int32
nMainFile = Xsqlite3Strlen30(tls, zMainFile)
zSuper = Xsqlite3MPrintf(tls, db, ts+5485, libc.VaList(bp, 0, zMainFile, 0))
if zSuper == uintptr(0) {
return SQLITE_NOMEM
}
zSuper += uintptr(4)
for __ccgo := true; __ccgo; __ccgo = rc == SQLITE_OK && *(*int32)(unsafe.Pointer(bp + 60)) != 0 {
if retryCount != 0 {
if retryCount > 100 {
Xsqlite3_log(tls, SQLITE_FULL, ts+5497, libc.VaList(bp+24, zSuper))
Xsqlite3OsDelete(tls, pVfs, zSuper, 0)
break
} else if retryCount == 1 {
Xsqlite3_log(tls, SQLITE_FULL, ts+5511, libc.VaList(bp+32, zSuper))
}
}
retryCount++
Xsqlite3_randomness(tls, int32(unsafe.Sizeof(U32(0))), bp+56)
Xsqlite3_snprintf(tls, 13, zSuper+uintptr(nMainFile), ts+5526,
libc.VaList(bp+40, *(*U32)(unsafe.Pointer(bp + 56))>>8&U32(0xffffff), *(*U32)(unsafe.Pointer(bp + 56))&U32(0xff)))
rc = Xsqlite3OsAccess(tls, pVfs, zSuper, SQLITE_ACCESS_EXISTS, bp+60)
}
if rc == SQLITE_OK {
rc = Xsqlite3OsOpenMalloc(tls, pVfs, zSuper, bp+64,
SQLITE_OPEN_READWRITE|SQLITE_OPEN_CREATE|SQLITE_OPEN_EXCLUSIVE|SQLITE_OPEN_SUPER_JOURNAL, uintptr(0))
}
if rc != SQLITE_OK {
Xsqlite3DbFree(tls, db, zSuper-uintptr(4))
return rc
}
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if Xsqlite3BtreeTxnState(tls, pBt) == SQLITE_TXN_WRITE {
var zFile uintptr = Xsqlite3BtreeGetJournalname(tls, pBt)
if zFile == uintptr(0) {
continue
}
rc = Xsqlite3OsWrite(tls, *(*uintptr)(unsafe.Pointer(bp + 64)), zFile, Xsqlite3Strlen30(tls, zFile)+1, offset)
offset = offset + I64(Xsqlite3Strlen30(tls, zFile)+1)
if rc != SQLITE_OK {
Xsqlite3OsCloseFree(tls, *(*uintptr)(unsafe.Pointer(bp + 64)))
Xsqlite3OsDelete(tls, pVfs, zSuper, 0)
Xsqlite3DbFree(tls, db, zSuper-uintptr(4))
return rc
}
}
}
if 0 == Xsqlite3OsDeviceCharacteristics(tls, *(*uintptr)(unsafe.Pointer(bp + 64)))&SQLITE_IOCAP_SEQUENTIAL &&
SQLITE_OK != libc.AssignInt32(&rc, Xsqlite3OsSync(tls, *(*uintptr)(unsafe.Pointer(bp + 64)), SQLITE_SYNC_NORMAL)) {
Xsqlite3OsCloseFree(tls, *(*uintptr)(unsafe.Pointer(bp + 64)))
Xsqlite3OsDelete(tls, pVfs, zSuper, 0)
Xsqlite3DbFree(tls, db, zSuper-uintptr(4))
return rc
}
for i = 0; rc == SQLITE_OK && i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if pBt != 0 {
rc = Xsqlite3BtreeCommitPhaseOne(tls, pBt, zSuper)
}
}
Xsqlite3OsCloseFree(tls, *(*uintptr)(unsafe.Pointer(bp + 64)))
if rc != SQLITE_OK {
Xsqlite3DbFree(tls, db, zSuper-uintptr(4))
return rc
}
rc = Xsqlite3OsDelete(tls, pVfs, zSuper, 1)
Xsqlite3DbFree(tls, db, zSuper-uintptr(4))
zSuper = uintptr(0)
if rc != 0 {
return rc
}
Xsqlite3BeginBenignMalloc(tls)
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if pBt != 0 {
Xsqlite3BtreeCommitPhaseTwo(tls, pBt, 1)
}
}
Xsqlite3EndBenignMalloc(tls)
Xsqlite3VtabCommit(tls, db)
}
return rc
}
var aMJNeeded = [6]U8{
U8(1),
U8(1),
U8(0),
U8(1),
U8(0),
U8(0),
}
func vdbeCloseStatement(tls *libc.TLS, p uintptr, eOp int32) int32 {
var db uintptr = (*Vdbe)(unsafe.Pointer(p)).Fdb
var rc int32 = SQLITE_OK
var i int32
var iSavepoint int32 = (*Vdbe)(unsafe.Pointer(p)).FiStatement - 1
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var rc2 int32 = SQLITE_OK
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if pBt != 0 {
if eOp == SAVEPOINT_ROLLBACK {
rc2 = Xsqlite3BtreeSavepoint(tls, pBt, SAVEPOINT_ROLLBACK, iSavepoint)
}
if rc2 == SQLITE_OK {
rc2 = Xsqlite3BtreeSavepoint(tls, pBt, SAVEPOINT_RELEASE, iSavepoint)
}
if rc == SQLITE_OK {
rc = rc2
}
}
}
(*Sqlite3)(unsafe.Pointer(db)).FnStatement--
(*Vdbe)(unsafe.Pointer(p)).FiStatement = 0
if rc == SQLITE_OK {
if eOp == SAVEPOINT_ROLLBACK {
rc = Xsqlite3VtabSavepoint(tls, db, SAVEPOINT_ROLLBACK, iSavepoint)
}
if rc == SQLITE_OK {
rc = Xsqlite3VtabSavepoint(tls, db, SAVEPOINT_RELEASE, iSavepoint)
}
}
if eOp == SAVEPOINT_ROLLBACK {
(*Sqlite3)(unsafe.Pointer(db)).FnDeferredCons = (*Vdbe)(unsafe.Pointer(p)).FnStmtDefCons
(*Sqlite3)(unsafe.Pointer(db)).FnDeferredImmCons = (*Vdbe)(unsafe.Pointer(p)).FnStmtDefImmCons
}
return rc
}
func Xsqlite3VdbeCloseStatement(tls *libc.TLS, p uintptr, eOp int32) int32 {
if (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).FnStatement != 0 && (*Vdbe)(unsafe.Pointer(p)).FiStatement != 0 {
return vdbeCloseStatement(tls, p, eOp)
}
return SQLITE_OK
}
// This function is called when a transaction opened by the database
// handle associated with the VM passed as an argument is about to be
// committed. If there are outstanding deferred foreign key constraint
// violations, return SQLITE_ERROR. Otherwise, SQLITE_OK.
//
// If there are outstanding FK violations and this function returns
// SQLITE_ERROR, set the result of the VM to SQLITE_CONSTRAINT_FOREIGNKEY
// and write an error message to it. Then return SQLITE_ERROR.
func Xsqlite3VdbeCheckFk(tls *libc.TLS, p uintptr, deferred int32) int32 {
var db uintptr = (*Vdbe)(unsafe.Pointer(p)).Fdb
if deferred != 0 && (*Sqlite3)(unsafe.Pointer(db)).FnDeferredCons+(*Sqlite3)(unsafe.Pointer(db)).FnDeferredImmCons > int64(0) ||
!(deferred != 0) && (*Vdbe)(unsafe.Pointer(p)).FnFkConstraint > int64(0) {
(*Vdbe)(unsafe.Pointer(p)).Frc = SQLITE_CONSTRAINT | int32(3)<<8
(*Vdbe)(unsafe.Pointer(p)).FerrorAction = U8(OE_Abort)
Xsqlite3VdbeError(tls, p, ts+5539, 0)
if int32((*Vdbe)(unsafe.Pointer(p)).FprepFlags)&SQLITE_PREPARE_SAVESQL == 0 {
return SQLITE_ERROR
}
return SQLITE_CONSTRAINT | int32(3)<<8
}
return SQLITE_OK
}
// This routine is called the when a VDBE tries to halt. If the VDBE
// has made changes and is in autocommit mode, then commit those
// changes. If a rollback is needed, then do the rollback.
//
// This routine is the only way to move the sqlite3eOpenState of a VM from
// SQLITE_STATE_RUN to SQLITE_STATE_HALT. It is harmless to
// call this on a VM that is in the SQLITE_STATE_HALT state.
//
// Return an error code. If the commit could not complete because of
// lock contention, return SQLITE_BUSY. If SQLITE_BUSY is returned, it
// means the close did not happen and needs to be repeated.
func Xsqlite3VdbeHalt(tls *libc.TLS, p uintptr) int32 {
var rc int32
var db uintptr = (*Vdbe)(unsafe.Pointer(p)).Fdb
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
(*Vdbe)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
}
closeAllCursors(tls, p)
if Bft(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x80>>7)) != 0 {
var mrc int32
var eStatementOp int32 = 0
var isSpecialError int32
Xsqlite3VdbeEnter(tls, p)
if (*Vdbe)(unsafe.Pointer(p)).Frc != 0 {
mrc = (*Vdbe)(unsafe.Pointer(p)).Frc & 0xff
isSpecialError = libc.Bool32(mrc == SQLITE_NOMEM ||
mrc == SQLITE_IOERR ||
mrc == SQLITE_INTERRUPT ||
mrc == SQLITE_FULL)
} else {
mrc = libc.AssignInt32(&isSpecialError, 0)
}
if isSpecialError != 0 {
if !(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x40>>6) != 0) || mrc != SQLITE_INTERRUPT {
if (mrc == SQLITE_NOMEM || mrc == SQLITE_FULL) && Bft(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x20>>5)) != 0 {
eStatementOp = SAVEPOINT_ROLLBACK
} else {
Xsqlite3RollbackAll(tls, db, SQLITE_ABORT|int32(2)<<8)
Xsqlite3CloseSavepoints(tls, db)
(*Sqlite3)(unsafe.Pointer(db)).FautoCommit = U8(1)
(*Vdbe)(unsafe.Pointer(p)).FnChange = int64(0)
}
}
}
if (*Vdbe)(unsafe.Pointer(p)).Frc == SQLITE_OK || int32((*Vdbe)(unsafe.Pointer(p)).FerrorAction) == OE_Fail && !(isSpecialError != 0) {
Xsqlite3VdbeCheckFk(tls, p, 0)
}
if !((*Sqlite3)(unsafe.Pointer(db)).FnVTrans > 0 && (*Sqlite3)(unsafe.Pointer(db)).FaVTrans == uintptr(0)) &&
(*Sqlite3)(unsafe.Pointer(db)).FautoCommit != 0 &&
(*Sqlite3)(unsafe.Pointer(db)).FnVdbeWrite == libc.Bool32(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x40>>6) == 0) {
if (*Vdbe)(unsafe.Pointer(p)).Frc == SQLITE_OK || int32((*Vdbe)(unsafe.Pointer(p)).FerrorAction) == OE_Fail && !(isSpecialError != 0) {
rc = Xsqlite3VdbeCheckFk(tls, p, 1)
if rc != SQLITE_OK {
if Bft(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x40>>6)) != 0 {
Xsqlite3VdbeLeave(tls, p)
return SQLITE_ERROR
}
rc = SQLITE_CONSTRAINT | int32(3)<<8
} else if (*Sqlite3)(unsafe.Pointer(db)).Fflags&(uint64(0x00002)<<32) != 0 {
rc = SQLITE_CORRUPT
*(*U64)(unsafe.Pointer(db + 48)) &= libc.CplUint64(uint64(0x00002) << 32)
} else {
rc = vdbeCommit(tls, db, p)
}
if rc == SQLITE_BUSY && Bft(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x40>>6)) != 0 {
Xsqlite3VdbeLeave(tls, p)
return SQLITE_BUSY
} else if rc != SQLITE_OK {
(*Vdbe)(unsafe.Pointer(p)).Frc = rc
Xsqlite3RollbackAll(tls, db, SQLITE_OK)
(*Vdbe)(unsafe.Pointer(p)).FnChange = int64(0)
} else {
(*Sqlite3)(unsafe.Pointer(db)).FnDeferredCons = int64(0)
(*Sqlite3)(unsafe.Pointer(db)).FnDeferredImmCons = int64(0)
*(*U64)(unsafe.Pointer(db + 48)) &= libc.CplUint64(uint64(SQLITE_DeferFKs))
Xsqlite3CommitInternalChanges(tls, db)
}
} else {
Xsqlite3RollbackAll(tls, db, SQLITE_OK)
(*Vdbe)(unsafe.Pointer(p)).FnChange = int64(0)
}
(*Sqlite3)(unsafe.Pointer(db)).FnStatement = 0
} else if eStatementOp == 0 {
if (*Vdbe)(unsafe.Pointer(p)).Frc == SQLITE_OK || int32((*Vdbe)(unsafe.Pointer(p)).FerrorAction) == OE_Fail {
eStatementOp = SAVEPOINT_RELEASE
} else if int32((*Vdbe)(unsafe.Pointer(p)).FerrorAction) == OE_Abort {
eStatementOp = SAVEPOINT_ROLLBACK
} else {
Xsqlite3RollbackAll(tls, db, SQLITE_ABORT|int32(2)<<8)
Xsqlite3CloseSavepoints(tls, db)
(*Sqlite3)(unsafe.Pointer(db)).FautoCommit = U8(1)
(*Vdbe)(unsafe.Pointer(p)).FnChange = int64(0)
}
}
if eStatementOp != 0 {
rc = Xsqlite3VdbeCloseStatement(tls, p, eStatementOp)
if rc != 0 {
if (*Vdbe)(unsafe.Pointer(p)).Frc == SQLITE_OK || (*Vdbe)(unsafe.Pointer(p)).Frc&0xff == SQLITE_CONSTRAINT {
(*Vdbe)(unsafe.Pointer(p)).Frc = rc
Xsqlite3DbFree(tls, db, (*Vdbe)(unsafe.Pointer(p)).FzErrMsg)
(*Vdbe)(unsafe.Pointer(p)).FzErrMsg = uintptr(0)
}
Xsqlite3RollbackAll(tls, db, SQLITE_ABORT|int32(2)<<8)
Xsqlite3CloseSavepoints(tls, db)
(*Sqlite3)(unsafe.Pointer(db)).FautoCommit = U8(1)
(*Vdbe)(unsafe.Pointer(p)).FnChange = int64(0)
}
}
if Bft(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x10>>4)) != 0 {
if eStatementOp != SAVEPOINT_ROLLBACK {
Xsqlite3VdbeSetChanges(tls, db, (*Vdbe)(unsafe.Pointer(p)).FnChange)
} else {
Xsqlite3VdbeSetChanges(tls, db, int64(0))
}
(*Vdbe)(unsafe.Pointer(p)).FnChange = int64(0)
}
Xsqlite3VdbeLeave(tls, p)
}
(*Sqlite3)(unsafe.Pointer(db)).FnVdbeActive--
if !(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x40>>6) != 0) {
(*Sqlite3)(unsafe.Pointer(db)).FnVdbeWrite--
}
if Bft(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x80>>7)) != 0 {
(*Sqlite3)(unsafe.Pointer(db)).FnVdbeRead--
}
(*Vdbe)(unsafe.Pointer(p)).FeVdbeState = U8(VDBE_HALT_STATE)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
(*Vdbe)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
}
if (*Sqlite3)(unsafe.Pointer(db)).FautoCommit != 0 {
Xsqlite3ConnectionUnlocked(tls, db)
}
return func() int32 {
if (*Vdbe)(unsafe.Pointer(p)).Frc == SQLITE_BUSY {
return SQLITE_BUSY
}
return SQLITE_OK
}()
}
// Each VDBE holds the result of the most recent sqlite3_step() call
// in p->rc. This routine sets that result back to SQLITE_OK.
func Xsqlite3VdbeResetStepResult(tls *libc.TLS, p uintptr) {
(*Vdbe)(unsafe.Pointer(p)).Frc = SQLITE_OK
}
// Copy the error code and error message belonging to the VDBE passed
// as the first argument to its database handle (so that they will be
// returned by calls to sqlite3_errcode() and sqlite3_errmsg()).
//
// This function does not clear the VDBE error code or message, just
// copies them to the database handle.
func Xsqlite3VdbeTransferError(tls *libc.TLS, p uintptr) int32 {
var db uintptr = (*Vdbe)(unsafe.Pointer(p)).Fdb
var rc int32 = (*Vdbe)(unsafe.Pointer(p)).Frc
if (*Vdbe)(unsafe.Pointer(p)).FzErrMsg != 0 {
(*Sqlite3)(unsafe.Pointer(db)).FbBenignMalloc++
Xsqlite3BeginBenignMalloc(tls)
if (*Sqlite3)(unsafe.Pointer(db)).FpErr == uintptr(0) {
(*Sqlite3)(unsafe.Pointer(db)).FpErr = Xsqlite3ValueNew(tls, db)
}
Xsqlite3ValueSetStr(tls, (*Sqlite3)(unsafe.Pointer(db)).FpErr, -1, (*Vdbe)(unsafe.Pointer(p)).FzErrMsg, uint8(SQLITE_UTF8), libc.UintptrFromInt32(-1))
Xsqlite3EndBenignMalloc(tls)
(*Sqlite3)(unsafe.Pointer(db)).FbBenignMalloc--
} else if (*Sqlite3)(unsafe.Pointer(db)).FpErr != 0 {
Xsqlite3ValueSetNull(tls, (*Sqlite3)(unsafe.Pointer(db)).FpErr)
}
(*Sqlite3)(unsafe.Pointer(db)).FerrCode = rc
(*Sqlite3)(unsafe.Pointer(db)).FerrByteOffset = -1
return rc
}
// Clean up a VDBE after execution but do not delete the VDBE just yet.
// Write any error messages into *pzErrMsg. Return the result code.
//
// After this routine is run, the VDBE should be ready to be executed
// again.
//
// To look at it another way, this routine resets the state of the
// virtual machine from VDBE_RUN_STATE or VDBE_HALT_STATE back to
// VDBE_READY_STATE.
func Xsqlite3VdbeReset(tls *libc.TLS, p uintptr) int32 {
var db uintptr
db = (*Vdbe)(unsafe.Pointer(p)).Fdb
if int32((*Vdbe)(unsafe.Pointer(p)).FeVdbeState) == VDBE_RUN_STATE {
Xsqlite3VdbeHalt(tls, p)
}
if (*Vdbe)(unsafe.Pointer(p)).Fpc >= 0 {
if (*Sqlite3)(unsafe.Pointer(db)).FpErr != 0 || (*Vdbe)(unsafe.Pointer(p)).FzErrMsg != 0 {
Xsqlite3VdbeTransferError(tls, p)
} else {
(*Sqlite3)(unsafe.Pointer(db)).FerrCode = (*Vdbe)(unsafe.Pointer(p)).Frc
}
}
if (*Vdbe)(unsafe.Pointer(p)).FzErrMsg != 0 {
Xsqlite3DbFree(tls, db, (*Vdbe)(unsafe.Pointer(p)).FzErrMsg)
(*Vdbe)(unsafe.Pointer(p)).FzErrMsg = uintptr(0)
}
(*Vdbe)(unsafe.Pointer(p)).FpResultRow = uintptr(0)
return (*Vdbe)(unsafe.Pointer(p)).Frc & (*Sqlite3)(unsafe.Pointer(db)).FerrMask
}
// Clean up and delete a VDBE after execution. Return an integer which is
// the result code. Write any error message text into *pzErrMsg.
func Xsqlite3VdbeFinalize(tls *libc.TLS, p uintptr) int32 {
var rc int32 = SQLITE_OK
if int32((*Vdbe)(unsafe.Pointer(p)).FeVdbeState) >= VDBE_READY_STATE {
rc = Xsqlite3VdbeReset(tls, p)
}
Xsqlite3VdbeDelete(tls, p)
return rc
}
// If parameter iOp is less than zero, then invoke the destructor for
// all auxiliary data pointers currently cached by the VM passed as
// the first argument.
//
// Or, if iOp is greater than or equal to zero, then the destructor is
// only invoked for those auxiliary data pointers created by the user
// function invoked by the OP_Function opcode at instruction iOp of
// VM pVdbe, and only then if:
//
// - the associated function parameter is the 32nd or later (counting
// from left to right), or
//
// - the corresponding bit in argument mask is clear (where the first
// function parameter corresponds to bit 0 etc.).
func Xsqlite3VdbeDeleteAuxData(tls *libc.TLS, db uintptr, pp uintptr, iOp int32, mask int32) {
for *(*uintptr)(unsafe.Pointer(pp)) != 0 {
var pAux uintptr = *(*uintptr)(unsafe.Pointer(pp))
if iOp < 0 ||
(*AuxData)(unsafe.Pointer(pAux)).FiAuxOp == iOp &&
(*AuxData)(unsafe.Pointer(pAux)).FiAuxArg >= 0 &&
((*AuxData)(unsafe.Pointer(pAux)).FiAuxArg > 31 || !(uint32(mask)&(uint32(1)<<(*AuxData)(unsafe.Pointer(pAux)).FiAuxArg) != 0)) {
if (*AuxData)(unsafe.Pointer(pAux)).FxDeleteAux != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*AuxData)(unsafe.Pointer(pAux)).FxDeleteAux})).f(tls, (*AuxData)(unsafe.Pointer(pAux)).FpAux)
}
*(*uintptr)(unsafe.Pointer(pp)) = (*AuxData)(unsafe.Pointer(pAux)).FpNextAux
Xsqlite3DbFree(tls, db, pAux)
} else {
pp = pAux + 24
}
}
}
func sqlite3VdbeClearObject(tls *libc.TLS, db uintptr, p uintptr) {
var pSub uintptr
var pNext uintptr
if (*Vdbe)(unsafe.Pointer(p)).FaColName != 0 {
releaseMemArray(tls, (*Vdbe)(unsafe.Pointer(p)).FaColName, int32((*Vdbe)(unsafe.Pointer(p)).FnResColumn)*COLNAME_N)
Xsqlite3DbNNFreeNN(tls, db, (*Vdbe)(unsafe.Pointer(p)).FaColName)
}
for pSub = (*Vdbe)(unsafe.Pointer(p)).FpProgram; pSub != 0; pSub = pNext {
pNext = (*SubProgram)(unsafe.Pointer(pSub)).FpNext
vdbeFreeOpArray(tls, db, (*SubProgram)(unsafe.Pointer(pSub)).FaOp, (*SubProgram)(unsafe.Pointer(pSub)).FnOp)
Xsqlite3DbFree(tls, db, pSub)
}
if int32((*Vdbe)(unsafe.Pointer(p)).FeVdbeState) != VDBE_INIT_STATE {
releaseMemArray(tls, (*Vdbe)(unsafe.Pointer(p)).FaVar, int32((*Vdbe)(unsafe.Pointer(p)).FnVar))
if (*Vdbe)(unsafe.Pointer(p)).FpVList != 0 {
Xsqlite3DbNNFreeNN(tls, db, (*Vdbe)(unsafe.Pointer(p)).FpVList)
}
if (*Vdbe)(unsafe.Pointer(p)).FpFree != 0 {
Xsqlite3DbNNFreeNN(tls, db, (*Vdbe)(unsafe.Pointer(p)).FpFree)
}
}
vdbeFreeOpArray(tls, db, (*Vdbe)(unsafe.Pointer(p)).FaOp, (*Vdbe)(unsafe.Pointer(p)).FnOp)
if (*Vdbe)(unsafe.Pointer(p)).FzSql != 0 {
Xsqlite3DbNNFreeNN(tls, db, (*Vdbe)(unsafe.Pointer(p)).FzSql)
}
}
// Delete an entire VDBE.
func Xsqlite3VdbeDelete(tls *libc.TLS, p uintptr) {
var db uintptr
db = (*Vdbe)(unsafe.Pointer(p)).Fdb
sqlite3VdbeClearObject(tls, db, p)
if (*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed == uintptr(0) {
*(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FppVPrev)) = (*Vdbe)(unsafe.Pointer(p)).FpVNext
if (*Vdbe)(unsafe.Pointer(p)).FpVNext != 0 {
(*Vdbe)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FpVNext)).FppVPrev = (*Vdbe)(unsafe.Pointer(p)).FppVPrev
}
}
Xsqlite3DbNNFreeNN(tls, db, p)
}
// The cursor "p" has a pending seek operation that has not yet been
// carried out. Seek the cursor now. If an error occurs, return
// the appropriate error code.
func Xsqlite3VdbeFinishMoveto(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32
rc = Xsqlite3BtreeTableMoveto(tls, *(*uintptr)(unsafe.Pointer(p + 48)), (*VdbeCursor)(unsafe.Pointer(p)).FmovetoTarget, 0, bp)
if rc != 0 {
return rc
}
if *(*int32)(unsafe.Pointer(bp)) != 0 {
return Xsqlite3CorruptError(tls, 86058)
}
(*VdbeCursor)(unsafe.Pointer(p)).FdeferredMoveto = U8(0)
(*VdbeCursor)(unsafe.Pointer(p)).FcacheStatus = U32(CACHE_STALE)
return SQLITE_OK
}
// Something has moved cursor "p" out of place. Maybe the row it was
// pointed to was deleted out from under it. Or maybe the btree was
// rebalanced. Whatever the cause, try to restore "p" to the place it
// is supposed to be pointing. If the row was deleted out from under the
// cursor, set the cursor to point to a NULL row.
func Xsqlite3VdbeHandleMovedCursor(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32
rc = Xsqlite3BtreeCursorRestore(tls, *(*uintptr)(unsafe.Pointer(p + 48)), bp)
(*VdbeCursor)(unsafe.Pointer(p)).FcacheStatus = U32(CACHE_STALE)
if *(*int32)(unsafe.Pointer(bp)) != 0 {
(*VdbeCursor)(unsafe.Pointer(p)).FnullRow = U8(1)
}
return rc
}
// Check to ensure that the cursor is valid. Restore the cursor
// if need be. Return any I/O error from the restore operation.
func Xsqlite3VdbeCursorRestore(tls *libc.TLS, p uintptr) int32 {
if Xsqlite3BtreeCursorHasMoved(tls, *(*uintptr)(unsafe.Pointer(p + 48))) != 0 {
return Xsqlite3VdbeHandleMovedCursor(tls, p)
}
return SQLITE_OK
}
// The sizes for serial types less than 128
var Xsqlite3SmallTypeSizes = [128]U8{
U8(0), U8(1), U8(2), U8(3), U8(4), U8(6), U8(8), U8(8), U8(0), U8(0),
U8(0), U8(0), U8(0), U8(0), U8(1), U8(1), U8(2), U8(2), U8(3), U8(3),
U8(4), U8(4), U8(5), U8(5), U8(6), U8(6), U8(7), U8(7), U8(8), U8(8),
U8(9), U8(9), U8(10), U8(10), U8(11), U8(11), U8(12), U8(12), U8(13), U8(13),
U8(14), U8(14), U8(15), U8(15), U8(16), U8(16), U8(17), U8(17), U8(18), U8(18),
U8(19), U8(19), U8(20), U8(20), U8(21), U8(21), U8(22), U8(22), U8(23), U8(23),
U8(24), U8(24), U8(25), U8(25), U8(26), U8(26), U8(27), U8(27), U8(28), U8(28),
U8(29), U8(29), U8(30), U8(30), U8(31), U8(31), U8(32), U8(32), U8(33), U8(33),
U8(34), U8(34), U8(35), U8(35), U8(36), U8(36), U8(37), U8(37), U8(38), U8(38),
U8(39), U8(39), U8(40), U8(40), U8(41), U8(41), U8(42), U8(42), U8(43), U8(43),
U8(44), U8(44), U8(45), U8(45), U8(46), U8(46), U8(47), U8(47), U8(48), U8(48),
U8(49), U8(49), U8(50), U8(50), U8(51), U8(51), U8(52), U8(52), U8(53), U8(53),
U8(54), U8(54), U8(55), U8(55), U8(56), U8(56), U8(57), U8(57),
}
// Return the length of the data corresponding to the supplied serial-type.
func Xsqlite3VdbeSerialTypeLen(tls *libc.TLS, serial_type U32) U32 {
if serial_type >= U32(128) {
return (serial_type - U32(12)) / U32(2)
} else {
return U32(Xsqlite3SmallTypeSizes[serial_type])
}
return U32(0)
}
func Xsqlite3VdbeOneByteSerialTypeLen(tls *libc.TLS, serial_type U8) U8 {
return Xsqlite3SmallTypeSizes[serial_type]
}
func serialGet(tls *libc.TLS, buf uintptr, serial_type U32, pMem uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*U64)(unsafe.Pointer(bp)) = U64(U32(*(*uint8)(unsafe.Pointer(buf)))<<24 | U32(int32(*(*uint8)(unsafe.Pointer(buf + 1)))<<16) | U32(int32(*(*uint8)(unsafe.Pointer(buf + 2)))<<8) | U32(*(*uint8)(unsafe.Pointer(buf + 3))))
var y U32 = U32(*(*uint8)(unsafe.Pointer(buf + uintptr(4))))<<24 | U32(int32(*(*uint8)(unsafe.Pointer(buf + uintptr(4) + 1)))<<16) | U32(int32(*(*uint8)(unsafe.Pointer(buf + uintptr(4) + 2)))<<8) | U32(*(*uint8)(unsafe.Pointer(buf + uintptr(4) + 3)))
*(*U64)(unsafe.Pointer(bp)) = *(*U64)(unsafe.Pointer(bp))<<32 + U64(y)
if serial_type == U32(6) {
*(*I64)(unsafe.Pointer(pMem)) = *(*I64)(unsafe.Pointer(bp))
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Int)
} else {
libc.X__builtin___memcpy_chk(tls, pMem, bp, uint64(unsafe.Sizeof(U64(0))), libc.X__builtin_object_size(tls, pMem, 0))
(*Mem)(unsafe.Pointer(pMem)).Fflags = func() uint16 {
if *(*U64)(unsafe.Pointer(bp))&(uint64(0x7ff)<<52) == uint64(0x7ff)<<52 && *(*U64)(unsafe.Pointer(bp))&(uint64(1)<<52-uint64(1)) != uint64(0) {
return uint16(MEM_Null)
}
return uint16(MEM_Real)
}()
}
}
func Xsqlite3VdbeSerialGet(tls *libc.TLS, buf uintptr, serial_type U32, pMem uintptr) {
switch serial_type {
case U32(10):
{
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Null | MEM_Zero)
(*Mem)(unsafe.Pointer(pMem)).Fn = 0
*(*int32)(unsafe.Pointer(pMem)) = 0
return
}
case U32(11):
fallthrough
case U32(0):
{
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Null)
return
}
case U32(1):
{
*(*I64)(unsafe.Pointer(pMem)) = I64(I8(*(*uint8)(unsafe.Pointer(buf))))
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Int)
return
}
case U32(2):
{
*(*I64)(unsafe.Pointer(pMem)) = I64(256*int32(I8(*(*uint8)(unsafe.Pointer(buf)))) | int32(*(*uint8)(unsafe.Pointer(buf + 1))))
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Int)
return
}
case U32(3):
{
*(*I64)(unsafe.Pointer(pMem)) = I64(65536*int32(I8(*(*uint8)(unsafe.Pointer(buf)))) | int32(*(*uint8)(unsafe.Pointer(buf + 1)))<<8 | int32(*(*uint8)(unsafe.Pointer(buf + 2))))
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Int)
return
}
case U32(4):
{
*(*I64)(unsafe.Pointer(pMem)) = I64(16777216*int32(I8(*(*uint8)(unsafe.Pointer(buf)))) | int32(*(*uint8)(unsafe.Pointer(buf + 1)))<<16 | int32(*(*uint8)(unsafe.Pointer(buf + 2)))<<8 | int32(*(*uint8)(unsafe.Pointer(buf + 3))))
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Int)
return
}
case U32(5):
{
*(*I64)(unsafe.Pointer(pMem)) = I64(U32(*(*uint8)(unsafe.Pointer(buf + uintptr(2))))<<24|U32(int32(*(*uint8)(unsafe.Pointer(buf + uintptr(2) + 1)))<<16)|U32(int32(*(*uint8)(unsafe.Pointer(buf + uintptr(2) + 2)))<<8)|U32(*(*uint8)(unsafe.Pointer(buf + uintptr(2) + 3)))) + int64(1)<<32*I64(256*int32(I8(*(*uint8)(unsafe.Pointer(buf))))|int32(*(*uint8)(unsafe.Pointer(buf + 1))))
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Int)
return
}
case U32(6):
fallthrough
case U32(7):
{
serialGet(tls, buf, serial_type, pMem)
return
}
case U32(8):
fallthrough
case U32(9):
{
*(*I64)(unsafe.Pointer(pMem)) = I64(serial_type - U32(8))
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Int)
return
}
default:
{
(*Mem)(unsafe.Pointer(pMem)).Fz = buf
(*Mem)(unsafe.Pointer(pMem)).Fn = int32((serial_type - U32(12)) / U32(2))
(*Mem)(unsafe.Pointer(pMem)).Fflags = aFlag[serial_type&U32(1)]
return
}
}
return
}
var aFlag = [2]U16{U16(MEM_Blob | MEM_Ephem), U16(MEM_Str | MEM_Ephem)}
// This routine is used to allocate sufficient space for an UnpackedRecord
// structure large enough to be used with sqlite3VdbeRecordUnpack() if
// the first argument is a pointer to KeyInfo structure pKeyInfo.
//
// The space is either allocated using sqlite3DbMallocRaw() or from within
// the unaligned buffer passed via the second and third arguments (presumably
// stack space). If the former, then *ppFree is set to a pointer that should
// be eventually freed by the caller using sqlite3DbFree(). Or, if the
// allocation comes from the pSpace/szSpace buffer, *ppFree is set to NULL
// before returning.
//
// If an OOM error occurs, NULL is returned.
func Xsqlite3VdbeAllocUnpackedRecord(tls *libc.TLS, pKeyInfo uintptr) uintptr {
var p uintptr
var nByte int32
nByte = int32(uint64(unsafe.Sizeof(UnpackedRecord{})) + uint64(unsafe.Sizeof(Mem{}))*uint64(int32((*KeyInfo)(unsafe.Pointer(pKeyInfo)).FnKeyField)+1))
p = Xsqlite3DbMallocRaw(tls, (*KeyInfo)(unsafe.Pointer(pKeyInfo)).Fdb, uint64(nByte))
if !(p != 0) {
return uintptr(0)
}
(*UnpackedRecord)(unsafe.Pointer(p)).FaMem = p + 40
(*UnpackedRecord)(unsafe.Pointer(p)).FpKeyInfo = pKeyInfo
(*UnpackedRecord)(unsafe.Pointer(p)).FnField = U16(int32((*KeyInfo)(unsafe.Pointer(pKeyInfo)).FnKeyField) + 1)
return p
}
// Given the nKey-byte encoding of a record in pKey[], populate the
// UnpackedRecord structure indicated by the fourth argument with the
// contents of the decoded record.
func Xsqlite3VdbeRecordUnpack(tls *libc.TLS, pKeyInfo uintptr, nKey int32, pKey uintptr, p uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var aKey uintptr = pKey
var d U32
var idx U32
var u U16
var pMem uintptr = (*UnpackedRecord)(unsafe.Pointer(p)).FaMem
(*UnpackedRecord)(unsafe.Pointer(p)).Fdefault_rc = int8(0)
idx = U32(func() uint8 {
if int32(*(*uint8)(unsafe.Pointer(aKey))) < int32(U8(0x80)) {
return uint8(func() int32 { *(*U32)(unsafe.Pointer(bp)) = U32(*(*uint8)(unsafe.Pointer(aKey))); return 1 }())
}
return Xsqlite3GetVarint32(tls, aKey, bp)
}())
d = *(*U32)(unsafe.Pointer(bp))
u = U16(0)
for idx < *(*U32)(unsafe.Pointer(bp)) && d <= U32(nKey) {
idx = idx + U32(func() uint8 {
if int32(*(*uint8)(unsafe.Pointer(aKey + uintptr(idx)))) < int32(U8(0x80)) {
return uint8(func() int32 {
*(*U32)(unsafe.Pointer(bp + 4)) = U32(*(*uint8)(unsafe.Pointer(aKey + uintptr(idx))))
return 1
}())
}
return Xsqlite3GetVarint32(tls, aKey+uintptr(idx), bp+4)
}())
(*Mem)(unsafe.Pointer(pMem)).Fenc = (*KeyInfo)(unsafe.Pointer(pKeyInfo)).Fenc
(*Mem)(unsafe.Pointer(pMem)).Fdb = (*KeyInfo)(unsafe.Pointer(pKeyInfo)).Fdb
(*Mem)(unsafe.Pointer(pMem)).FszMalloc = 0
(*Mem)(unsafe.Pointer(pMem)).Fz = uintptr(0)
Xsqlite3VdbeSerialGet(tls, aKey+uintptr(d), *(*U32)(unsafe.Pointer(bp + 4)), pMem)
d = d + Xsqlite3VdbeSerialTypeLen(tls, *(*U32)(unsafe.Pointer(bp + 4)))
pMem += 56
if int32(libc.PreIncUint16(&u, 1)) >= int32((*UnpackedRecord)(unsafe.Pointer(p)).FnField) {
break
}
}
if d > U32(nKey) && u != 0 {
Xsqlite3VdbeMemSetNull(tls, pMem-uintptr(1)*56)
}
(*UnpackedRecord)(unsafe.Pointer(p)).FnField = u
}
func vdbeCompareMemString(tls *libc.TLS, pMem1 uintptr, pMem2 uintptr, pColl uintptr, prcErr uintptr) int32 {
bp := tls.Alloc(112)
defer tls.Free(112)
if int32((*Mem)(unsafe.Pointer(pMem1)).Fenc) == int32((*CollSeq)(unsafe.Pointer(pColl)).Fenc) {
return (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*CollSeq)(unsafe.Pointer(pColl)).FxCmp})).f(tls, (*CollSeq)(unsafe.Pointer(pColl)).FpUser, (*Mem)(unsafe.Pointer(pMem1)).Fn, (*Mem)(unsafe.Pointer(pMem1)).Fz, (*Mem)(unsafe.Pointer(pMem2)).Fn, (*Mem)(unsafe.Pointer(pMem2)).Fz)
} else {
var rc int32
var v1 uintptr
var v2 uintptr
Xsqlite3VdbeMemInit(tls, bp, (*Mem)(unsafe.Pointer(pMem1)).Fdb, uint16(MEM_Null))
Xsqlite3VdbeMemInit(tls, bp+56, (*Mem)(unsafe.Pointer(pMem1)).Fdb, uint16(MEM_Null))
Xsqlite3VdbeMemShallowCopy(tls, bp, pMem1, MEM_Ephem)
Xsqlite3VdbeMemShallowCopy(tls, bp+56, pMem2, MEM_Ephem)
v1 = Xsqlite3ValueText(tls, bp, (*CollSeq)(unsafe.Pointer(pColl)).Fenc)
v2 = Xsqlite3ValueText(tls, bp+56, (*CollSeq)(unsafe.Pointer(pColl)).Fenc)
if v1 == uintptr(0) || v2 == uintptr(0) {
if prcErr != 0 {
*(*U8)(unsafe.Pointer(prcErr)) = U8(SQLITE_NOMEM)
}
rc = 0
} else {
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*CollSeq)(unsafe.Pointer(pColl)).FxCmp})).f(tls, (*CollSeq)(unsafe.Pointer(pColl)).FpUser, (*Mem)(unsafe.Pointer(bp)).Fn, v1, (*Mem)(unsafe.Pointer(bp+56)).Fn, v2)
}
Xsqlite3VdbeMemReleaseMalloc(tls, bp)
Xsqlite3VdbeMemReleaseMalloc(tls, bp+56)
return rc
}
return int32(0)
}
func isAllZero(tls *libc.TLS, z uintptr, n int32) int32 {
var i int32
for i = 0; i < n; i++ {
if *(*int8)(unsafe.Pointer(z + uintptr(i))) != 0 {
return 0
}
}
return 1
}
// Compare two blobs. Return negative, zero, or positive if the first
// is less than, equal to, or greater than the second, respectively.
// If one blob is a prefix of the other, then the shorter is the lessor.
func Xsqlite3BlobCompare(tls *libc.TLS, pB1 uintptr, pB2 uintptr) int32 {
var c int32
var n1 int32 = (*Mem)(unsafe.Pointer(pB1)).Fn
var n2 int32 = (*Mem)(unsafe.Pointer(pB2)).Fn
if (int32((*Mem)(unsafe.Pointer(pB1)).Fflags)|int32((*Mem)(unsafe.Pointer(pB2)).Fflags))&MEM_Zero != 0 {
if int32((*Mem)(unsafe.Pointer(pB1)).Fflags)&int32((*Mem)(unsafe.Pointer(pB2)).Fflags)&MEM_Zero != 0 {
return *(*int32)(unsafe.Pointer(pB1)) - *(*int32)(unsafe.Pointer(pB2))
} else if int32((*Mem)(unsafe.Pointer(pB1)).Fflags)&MEM_Zero != 0 {
if !(isAllZero(tls, (*Mem)(unsafe.Pointer(pB2)).Fz, (*Mem)(unsafe.Pointer(pB2)).Fn) != 0) {
return -1
}
return *(*int32)(unsafe.Pointer(pB1)) - n2
} else {
if !(isAllZero(tls, (*Mem)(unsafe.Pointer(pB1)).Fz, (*Mem)(unsafe.Pointer(pB1)).Fn) != 0) {
return +1
}
return n1 - *(*int32)(unsafe.Pointer(pB2))
}
}
c = libc.Xmemcmp(tls, (*Mem)(unsafe.Pointer(pB1)).Fz, (*Mem)(unsafe.Pointer(pB2)).Fz, func() uint64 {
if n1 > n2 {
return uint64(n2)
}
return uint64(n1)
}())
if c != 0 {
return c
}
return n1 - n2
}
// Do a comparison between a 64-bit signed integer and a 64-bit floating-point
// number. Return negative, zero, or positive if the first (i64) is less than,
// equal to, or greater than the second (double).
func Xsqlite3IntFloatCompare(tls *libc.TLS, i I64, r float64) int32 {
if uint64(unsafe.Sizeof(float64(0))) > uint64(8) {
var x float64 = float64(i)
if x < r {
return -1
}
if x > r {
return +1
}
return 0
} else {
var y I64
var s float64
if r < -9223372036854775808.0 {
return +1
}
if r >= 9223372036854775808.0 {
return -1
}
y = I64(r)
if i < y {
return -1
}
if i > y {
return +1
}
s = float64(i)
if s < r {
return -1
}
if s > r {
return +1
}
return 0
}
return int32(0)
}
// Compare the values contained by the two memory cells, returning
// negative, zero or positive if pMem1 is less than, equal to, or greater
// than pMem2. Sorting order is NULL's first, followed by numbers (integers
// and reals) sorted numerically, followed by text ordered by the collating
// sequence pColl and finally blob's ordered by memcmp().
//
// Two NULL values are considered equal by this function.
func Xsqlite3MemCompare(tls *libc.TLS, pMem1 uintptr, pMem2 uintptr, pColl uintptr) int32 {
var f1 int32
var f2 int32
var combined_flags int32
f1 = int32((*Mem)(unsafe.Pointer(pMem1)).Fflags)
f2 = int32((*Mem)(unsafe.Pointer(pMem2)).Fflags)
combined_flags = f1 | f2
if combined_flags&MEM_Null != 0 {
return f2&MEM_Null - f1&MEM_Null
}
if combined_flags&(MEM_Int|MEM_Real|MEM_IntReal) != 0 {
if f1&f2&(MEM_Int|MEM_IntReal) != 0 {
if *(*I64)(unsafe.Pointer(pMem1)) < *(*I64)(unsafe.Pointer(pMem2)) {
return -1
}
if *(*I64)(unsafe.Pointer(pMem1)) > *(*I64)(unsafe.Pointer(pMem2)) {
return +1
}
return 0
}
if f1&f2&MEM_Real != 0 {
if *(*float64)(unsafe.Pointer(pMem1)) < *(*float64)(unsafe.Pointer(pMem2)) {
return -1
}
if *(*float64)(unsafe.Pointer(pMem1)) > *(*float64)(unsafe.Pointer(pMem2)) {
return +1
}
return 0
}
if f1&(MEM_Int|MEM_IntReal) != 0 {
if f2&MEM_Real != 0 {
return Xsqlite3IntFloatCompare(tls, *(*I64)(unsafe.Pointer(pMem1)), *(*float64)(unsafe.Pointer(pMem2)))
} else if f2&(MEM_Int|MEM_IntReal) != 0 {
if *(*I64)(unsafe.Pointer(pMem1)) < *(*I64)(unsafe.Pointer(pMem2)) {
return -1
}
if *(*I64)(unsafe.Pointer(pMem1)) > *(*I64)(unsafe.Pointer(pMem2)) {
return +1
}
return 0
} else {
return -1
}
}
if f1&MEM_Real != 0 {
if f2&(MEM_Int|MEM_IntReal) != 0 {
return -Xsqlite3IntFloatCompare(tls, *(*I64)(unsafe.Pointer(pMem2)), *(*float64)(unsafe.Pointer(pMem1)))
} else {
return -1
}
}
return +1
}
if combined_flags&MEM_Str != 0 {
if f1&MEM_Str == 0 {
return 1
}
if f2&MEM_Str == 0 {
return -1
}
if pColl != 0 {
return vdbeCompareMemString(tls, pMem1, pMem2, pColl, uintptr(0))
}
}
return Xsqlite3BlobCompare(tls, pMem1, pMem2)
}
func vdbeRecordDecodeInt(tls *libc.TLS, serial_type U32, aKey uintptr) I64 {
bp := tls.Alloc(16)
defer tls.Free(16)
switch serial_type {
case U32(0):
fallthrough
case U32(1):
return I64(I8(*(*U8)(unsafe.Pointer(aKey))))
case U32(2):
return I64(256*int32(I8(*(*U8)(unsafe.Pointer(aKey)))) | int32(*(*U8)(unsafe.Pointer(aKey + 1))))
case U32(3):
return I64(65536*int32(I8(*(*U8)(unsafe.Pointer(aKey)))) | int32(*(*U8)(unsafe.Pointer(aKey + 1)))<<8 | int32(*(*U8)(unsafe.Pointer(aKey + 2))))
case U32(4):
{
*(*U32)(unsafe.Pointer(bp)) = U32(*(*U8)(unsafe.Pointer(aKey)))<<24 | U32(int32(*(*U8)(unsafe.Pointer(aKey + 1)))<<16) | U32(int32(*(*U8)(unsafe.Pointer(aKey + 2)))<<8) | U32(*(*U8)(unsafe.Pointer(aKey + 3)))
return I64(*(*int32)(unsafe.Pointer(bp)))
}
case U32(5):
{
return I64(U32(*(*U8)(unsafe.Pointer(aKey + uintptr(2))))<<24|U32(int32(*(*U8)(unsafe.Pointer(aKey + uintptr(2) + 1)))<<16)|U32(int32(*(*U8)(unsafe.Pointer(aKey + uintptr(2) + 2)))<<8)|U32(*(*U8)(unsafe.Pointer(aKey + uintptr(2) + 3)))) + int64(1)<<32*I64(256*int32(I8(*(*U8)(unsafe.Pointer(aKey))))|int32(*(*U8)(unsafe.Pointer(aKey + 1))))
}
case U32(6):
{
*(*U64)(unsafe.Pointer(bp + 8)) = U64(U32(*(*U8)(unsafe.Pointer(aKey)))<<24 | U32(int32(*(*U8)(unsafe.Pointer(aKey + 1)))<<16) | U32(int32(*(*U8)(unsafe.Pointer(aKey + 2)))<<8) | U32(*(*U8)(unsafe.Pointer(aKey + 3))))
*(*U64)(unsafe.Pointer(bp + 8)) = *(*U64)(unsafe.Pointer(bp + 8))<<32 | U64(U32(*(*U8)(unsafe.Pointer(aKey + uintptr(4))))<<24|U32(int32(*(*U8)(unsafe.Pointer(aKey + uintptr(4) + 1)))<<16)|U32(int32(*(*U8)(unsafe.Pointer(aKey + uintptr(4) + 2)))<<8)|U32(*(*U8)(unsafe.Pointer(aKey + uintptr(4) + 3))))
return *(*I64)(unsafe.Pointer(bp + 8))
}
}
return I64(serial_type - U32(8))
}
// This function compares the two table rows or index records
// specified by {nKey1, pKey1} and pPKey2. It returns a negative, zero
// or positive integer if key1 is less than, equal to or
// greater than key2. The {nKey1, pKey1} key must be a blob
// created by the OP_MakeRecord opcode of the VDBE. The pPKey2
// key must be a parsed key such as obtained from
// sqlite3VdbeParseRecord.
//
// If argument bSkip is non-zero, it is assumed that the caller has already
// determined that the first fields of the keys are equal.
//
// Key1 and Key2 do not have to contain the same number of fields. If all
// fields that appear in both keys are equal, then pPKey2->default_rc is
// returned.
//
// If database corruption is discovered, set pPKey2->errCode to
// SQLITE_CORRUPT and return 0. If an OOM error is encountered,
// pPKey2->errCode is set to SQLITE_NOMEM and, if it is not NULL, the
// malloc-failed flag set on database handle (pPKey2->pKeyInfo->db).
func Xsqlite3VdbeRecordCompareWithSkip(tls *libc.TLS, nKey1 int32, pKey1 uintptr, pPKey2 uintptr, bSkip int32) int32 {
bp := tls.Alloc(68)
defer tls.Free(68)
var d1 U32
var i int32
var idx1 U32
var rc int32 = 0
var pRhs uintptr = (*UnpackedRecord)(unsafe.Pointer(pPKey2)).FaMem
var pKeyInfo uintptr
var aKey1 uintptr = pKey1
if bSkip != 0 {
*(*U32)(unsafe.Pointer(bp)) = U32(*(*uint8)(unsafe.Pointer(aKey1 + 1)))
if *(*U32)(unsafe.Pointer(bp)) < U32(0x80) {
idx1 = U32(2)
} else {
idx1 = U32(1 + int32(Xsqlite3GetVarint32(tls, aKey1+1, bp)))
}
*(*U32)(unsafe.Pointer(bp + 4)) = U32(*(*uint8)(unsafe.Pointer(aKey1)))
d1 = *(*U32)(unsafe.Pointer(bp + 4)) + Xsqlite3VdbeSerialTypeLen(tls, *(*U32)(unsafe.Pointer(bp)))
i = 1
pRhs += 56
} else {
if libc.AssignPtrUint32(bp+4, U32(*(*uint8)(unsafe.Pointer(aKey1)))) < U32(0x80) {
idx1 = U32(1)
} else {
idx1 = U32(Xsqlite3GetVarint32(tls, aKey1, bp+4))
}
d1 = *(*U32)(unsafe.Pointer(bp + 4))
i = 0
}
if d1 > uint32(nKey1) {
(*UnpackedRecord)(unsafe.Pointer(pPKey2)).FerrCode = U8(Xsqlite3CorruptError(tls, 86985))
return 0
}
for 1 != 0 {
if int32((*Mem)(unsafe.Pointer(pRhs)).Fflags)&(MEM_Int|MEM_IntReal) != 0 {
*(*U32)(unsafe.Pointer(bp + 64)) = U32(*(*uint8)(unsafe.Pointer(aKey1 + uintptr(idx1))))
if *(*U32)(unsafe.Pointer(bp + 64)) >= U32(10) {
if *(*U32)(unsafe.Pointer(bp + 64)) == U32(10) {
rc = -1
} else {
rc = +1
}
} else if *(*U32)(unsafe.Pointer(bp + 64)) == U32(0) {
rc = -1
} else if *(*U32)(unsafe.Pointer(bp + 64)) == U32(7) {
Xsqlite3VdbeSerialGet(tls, aKey1+uintptr(d1), *(*U32)(unsafe.Pointer(bp + 64)), bp+8)
rc = -Xsqlite3IntFloatCompare(tls, *(*I64)(unsafe.Pointer(pRhs)), *(*float64)(unsafe.Pointer(bp + 8)))
} else {
var lhs I64 = vdbeRecordDecodeInt(tls, *(*U32)(unsafe.Pointer(bp + 64)), aKey1+uintptr(d1))
var rhs I64 = *(*I64)(unsafe.Pointer(pRhs))
if lhs < rhs {
rc = -1
} else if lhs > rhs {
rc = +1
}
}
} else if int32((*Mem)(unsafe.Pointer(pRhs)).Fflags)&MEM_Real != 0 {
*(*U32)(unsafe.Pointer(bp + 64)) = U32(*(*uint8)(unsafe.Pointer(aKey1 + uintptr(idx1))))
if *(*U32)(unsafe.Pointer(bp + 64)) >= U32(10) {
if *(*U32)(unsafe.Pointer(bp + 64)) == U32(10) {
rc = -1
} else {
rc = +1
}
} else if *(*U32)(unsafe.Pointer(bp + 64)) == U32(0) {
rc = -1
} else {
Xsqlite3VdbeSerialGet(tls, aKey1+uintptr(d1), *(*U32)(unsafe.Pointer(bp + 64)), bp+8)
if *(*U32)(unsafe.Pointer(bp + 64)) == U32(7) {
if *(*float64)(unsafe.Pointer(bp + 8)) < *(*float64)(unsafe.Pointer(pRhs)) {
rc = -1
} else if *(*float64)(unsafe.Pointer(bp + 8)) > *(*float64)(unsafe.Pointer(pRhs)) {
rc = +1
}
} else {
rc = Xsqlite3IntFloatCompare(tls, *(*I64)(unsafe.Pointer(bp + 8)), *(*float64)(unsafe.Pointer(pRhs)))
}
}
} else if int32((*Mem)(unsafe.Pointer(pRhs)).Fflags)&MEM_Str != 0 {
*(*U32)(unsafe.Pointer(bp + 64)) = U32(*(*uint8)(unsafe.Pointer(aKey1 + uintptr(idx1))))
if *(*U32)(unsafe.Pointer(bp + 64)) >= U32(0x80) {
Xsqlite3GetVarint32(tls, aKey1+uintptr(idx1), bp+64)
}
if *(*U32)(unsafe.Pointer(bp + 64)) < U32(12) {
rc = -1
} else if !(*(*U32)(unsafe.Pointer(bp + 64))&U32(0x01) != 0) {
rc = +1
} else {
(*Mem)(unsafe.Pointer(bp + 8)).Fn = int32((*(*U32)(unsafe.Pointer(bp + 64)) - U32(12)) / U32(2))
if d1+U32((*Mem)(unsafe.Pointer(bp+8)).Fn) > uint32(nKey1) ||
int32((*KeyInfo)(unsafe.Pointer(libc.AssignUintptr(&pKeyInfo, (*UnpackedRecord)(unsafe.Pointer(pPKey2)).FpKeyInfo))).FnAllField) <= i {
(*UnpackedRecord)(unsafe.Pointer(pPKey2)).FerrCode = U8(Xsqlite3CorruptError(tls, 87062))
return 0
} else if *(*uintptr)(unsafe.Pointer(pKeyInfo + 32 + uintptr(i)*8)) != 0 {
(*Mem)(unsafe.Pointer(bp + 8)).Fenc = (*KeyInfo)(unsafe.Pointer(pKeyInfo)).Fenc
(*Mem)(unsafe.Pointer(bp + 8)).Fdb = (*KeyInfo)(unsafe.Pointer(pKeyInfo)).Fdb
(*Mem)(unsafe.Pointer(bp + 8)).Fflags = U16(MEM_Str)
(*Mem)(unsafe.Pointer(bp + 8)).Fz = aKey1 + uintptr(d1)
rc = vdbeCompareMemString(tls,
bp+8, pRhs, *(*uintptr)(unsafe.Pointer(pKeyInfo + 32 + uintptr(i)*8)), pPKey2+31)
} else {
var nCmp int32 = func() int32 {
if (*Mem)(unsafe.Pointer(bp+8)).Fn < (*Mem)(unsafe.Pointer(pRhs)).Fn {
return (*Mem)(unsafe.Pointer(bp + 8)).Fn
}
return (*Mem)(unsafe.Pointer(pRhs)).Fn
}()
rc = libc.Xmemcmp(tls, aKey1+uintptr(d1), (*Mem)(unsafe.Pointer(pRhs)).Fz, uint64(nCmp))
if rc == 0 {
rc = (*Mem)(unsafe.Pointer(bp+8)).Fn - (*Mem)(unsafe.Pointer(pRhs)).Fn
}
}
}
} else if int32((*Mem)(unsafe.Pointer(pRhs)).Fflags)&MEM_Blob != 0 {
*(*U32)(unsafe.Pointer(bp + 64)) = U32(*(*uint8)(unsafe.Pointer(aKey1 + uintptr(idx1))))
if *(*U32)(unsafe.Pointer(bp + 64)) >= U32(0x80) {
Xsqlite3GetVarint32(tls, aKey1+uintptr(idx1), bp+64)
}
if *(*U32)(unsafe.Pointer(bp + 64)) < U32(12) || *(*U32)(unsafe.Pointer(bp + 64))&U32(0x01) != 0 {
rc = -1
} else {
var nStr int32 = int32((*(*U32)(unsafe.Pointer(bp + 64)) - U32(12)) / U32(2))
if d1+U32(nStr) > uint32(nKey1) {
(*UnpackedRecord)(unsafe.Pointer(pPKey2)).FerrCode = U8(Xsqlite3CorruptError(tls, 87092))
return 0
} else if int32((*Mem)(unsafe.Pointer(pRhs)).Fflags)&MEM_Zero != 0 {
if !(isAllZero(tls, aKey1+uintptr(d1), nStr) != 0) {
rc = 1
} else {
rc = nStr - *(*int32)(unsafe.Pointer(pRhs))
}
} else {
var nCmp int32 = func() int32 {
if nStr < (*Mem)(unsafe.Pointer(pRhs)).Fn {
return nStr
}
return (*Mem)(unsafe.Pointer(pRhs)).Fn
}()
rc = libc.Xmemcmp(tls, aKey1+uintptr(d1), (*Mem)(unsafe.Pointer(pRhs)).Fz, uint64(nCmp))
if rc == 0 {
rc = nStr - (*Mem)(unsafe.Pointer(pRhs)).Fn
}
}
}
} else {
*(*U32)(unsafe.Pointer(bp + 64)) = U32(*(*uint8)(unsafe.Pointer(aKey1 + uintptr(idx1))))
rc = libc.Bool32(*(*U32)(unsafe.Pointer(bp + 64)) != U32(0) && *(*U32)(unsafe.Pointer(bp + 64)) != U32(10))
}
if rc != 0 {
var sortFlags int32 = int32(*(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(pPKey2)).FpKeyInfo)).FaSortFlags + uintptr(i))))
if sortFlags != 0 {
if sortFlags&KEYINFO_ORDER_BIGNULL == 0 ||
sortFlags&KEYINFO_ORDER_DESC !=
libc.Bool32(*(*U32)(unsafe.Pointer(bp + 64)) == U32(0) || int32((*Mem)(unsafe.Pointer(pRhs)).Fflags)&MEM_Null != 0) {
rc = -rc
}
}
return rc
}
i++
if i == int32((*UnpackedRecord)(unsafe.Pointer(pPKey2)).FnField) {
break
}
pRhs += 56
d1 = d1 + Xsqlite3VdbeSerialTypeLen(tls, *(*U32)(unsafe.Pointer(bp + 64)))
if d1 > uint32(nKey1) {
break
}
idx1 = idx1 + U32(Xsqlite3VarintLen(tls, uint64(*(*U32)(unsafe.Pointer(bp + 64)))))
if idx1 >= *(*U32)(unsafe.Pointer(bp + 4)) {
(*UnpackedRecord)(unsafe.Pointer(pPKey2)).FerrCode = U8(Xsqlite3CorruptError(tls, 87136))
return 0
}
}
(*UnpackedRecord)(unsafe.Pointer(pPKey2)).FeqSeen = U8(1)
return int32((*UnpackedRecord)(unsafe.Pointer(pPKey2)).Fdefault_rc)
}
func Xsqlite3VdbeRecordCompare(tls *libc.TLS, nKey1 int32, pKey1 uintptr, pPKey2 uintptr) int32 {
return Xsqlite3VdbeRecordCompareWithSkip(tls, nKey1, pKey1, pPKey2, 0)
}
func vdbeRecordCompareInt(tls *libc.TLS, nKey1 int32, pKey1 uintptr, pPKey2 uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var aKey uintptr = pKey1 + uintptr(int32(*(*U8)(unsafe.Pointer(pKey1)))&0x3F)
var serial_type int32 = int32(*(*U8)(unsafe.Pointer(pKey1 + 1)))
var res int32
var v I64
var lhs I64
switch serial_type {
case 1:
{
lhs = I64(I8(*(*U8)(unsafe.Pointer(aKey))))
break
}
case 2:
{
lhs = I64(256*int32(I8(*(*U8)(unsafe.Pointer(aKey)))) | int32(*(*U8)(unsafe.Pointer(aKey + 1))))
break
}
case 3:
{
lhs = I64(65536*int32(I8(*(*U8)(unsafe.Pointer(aKey)))) | int32(*(*U8)(unsafe.Pointer(aKey + 1)))<<8 | int32(*(*U8)(unsafe.Pointer(aKey + 2))))
break
}
case 4:
{
*(*U32)(unsafe.Pointer(bp)) = U32(*(*U8)(unsafe.Pointer(aKey)))<<24 | U32(int32(*(*U8)(unsafe.Pointer(aKey + 1)))<<16) | U32(int32(*(*U8)(unsafe.Pointer(aKey + 2)))<<8) | U32(*(*U8)(unsafe.Pointer(aKey + 3)))
lhs = I64(*(*int32)(unsafe.Pointer(bp)))
break
}
case 5:
{
lhs = I64(U32(*(*U8)(unsafe.Pointer(aKey + uintptr(2))))<<24|U32(int32(*(*U8)(unsafe.Pointer(aKey + uintptr(2) + 1)))<<16)|U32(int32(*(*U8)(unsafe.Pointer(aKey + uintptr(2) + 2)))<<8)|U32(*(*U8)(unsafe.Pointer(aKey + uintptr(2) + 3)))) + int64(1)<<32*I64(256*int32(I8(*(*U8)(unsafe.Pointer(aKey))))|int32(*(*U8)(unsafe.Pointer(aKey + 1))))
break
}
case 6:
{
*(*U64)(unsafe.Pointer(bp + 8)) = U64(U32(*(*U8)(unsafe.Pointer(aKey)))<<24 | U32(int32(*(*U8)(unsafe.Pointer(aKey + 1)))<<16) | U32(int32(*(*U8)(unsafe.Pointer(aKey + 2)))<<8) | U32(*(*U8)(unsafe.Pointer(aKey + 3))))
*(*U64)(unsafe.Pointer(bp + 8)) = *(*U64)(unsafe.Pointer(bp + 8))<<32 | U64(U32(*(*U8)(unsafe.Pointer(aKey + uintptr(4))))<<24|U32(int32(*(*U8)(unsafe.Pointer(aKey + uintptr(4) + 1)))<<16)|U32(int32(*(*U8)(unsafe.Pointer(aKey + uintptr(4) + 2)))<<8)|U32(*(*U8)(unsafe.Pointer(aKey + uintptr(4) + 3))))
lhs = *(*I64)(unsafe.Pointer(bp + 8))
break
}
case 8:
lhs = int64(0)
break
case 9:
lhs = int64(1)
break
case 0:
fallthrough
case 7:
return Xsqlite3VdbeRecordCompare(tls, nKey1, pKey1, pPKey2)
default:
return Xsqlite3VdbeRecordCompare(tls, nKey1, pKey1, pPKey2)
}
v = *(*I64)(unsafe.Pointer(pPKey2 + 16))
if v > lhs {
res = int32((*UnpackedRecord)(unsafe.Pointer(pPKey2)).Fr1)
} else if v < lhs {
res = int32((*UnpackedRecord)(unsafe.Pointer(pPKey2)).Fr2)
} else if int32((*UnpackedRecord)(unsafe.Pointer(pPKey2)).FnField) > 1 {
res = Xsqlite3VdbeRecordCompareWithSkip(tls, nKey1, pKey1, pPKey2, 1)
} else {
res = int32((*UnpackedRecord)(unsafe.Pointer(pPKey2)).Fdefault_rc)
(*UnpackedRecord)(unsafe.Pointer(pPKey2)).FeqSeen = U8(1)
}
return res
}
func vdbeRecordCompareString(tls *libc.TLS, nKey1 int32, pKey1 uintptr, pPKey2 uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var aKey1 uintptr
var res int32
var nCmp int32
var nStr int32
var szHdr int32
aKey1 = pKey1
*(*int32)(unsafe.Pointer(bp)) = int32(int8(*(*U8)(unsafe.Pointer(aKey1 + 1))))
vrcs_restart:
if !(*(*int32)(unsafe.Pointer(bp)) < 12) {
goto __1
}
if !(*(*int32)(unsafe.Pointer(bp)) < 0) {
goto __3
}
Xsqlite3GetVarint32(tls, aKey1+1, bp)
if !(*(*int32)(unsafe.Pointer(bp)) >= 12) {
goto __4
}
goto vrcs_restart
__4:
;
__3:
;
res = int32((*UnpackedRecord)(unsafe.Pointer(pPKey2)).Fr1)
goto __2
__1:
if !!(*(*int32)(unsafe.Pointer(bp))&0x01 != 0) {
goto __5
}
res = int32((*UnpackedRecord)(unsafe.Pointer(pPKey2)).Fr2)
goto __6
__5:
szHdr = int32(*(*U8)(unsafe.Pointer(aKey1)))
nStr = (*(*int32)(unsafe.Pointer(bp)) - 12) / 2
if !(szHdr+nStr > nKey1) {
goto __7
}
(*UnpackedRecord)(unsafe.Pointer(pPKey2)).FerrCode = U8(Xsqlite3CorruptError(tls, 87299))
return 0
__7:
;
nCmp = func() int32 {
if (*UnpackedRecord)(unsafe.Pointer(pPKey2)).Fn < nStr {
return (*UnpackedRecord)(unsafe.Pointer(pPKey2)).Fn
}
return nStr
}()
res = libc.Xmemcmp(tls, aKey1+uintptr(szHdr), *(*uintptr)(unsafe.Pointer(pPKey2 + 16)), uint64(nCmp))
if !(res > 0) {
goto __8
}
res = int32((*UnpackedRecord)(unsafe.Pointer(pPKey2)).Fr2)
goto __9
__8:
if !(res < 0) {
goto __10
}
res = int32((*UnpackedRecord)(unsafe.Pointer(pPKey2)).Fr1)
goto __11
__10:
res = nStr - (*UnpackedRecord)(unsafe.Pointer(pPKey2)).Fn
if !(res == 0) {
goto __12
}
if !(int32((*UnpackedRecord)(unsafe.Pointer(pPKey2)).FnField) > 1) {
goto __14
}
res = Xsqlite3VdbeRecordCompareWithSkip(tls, nKey1, pKey1, pPKey2, 1)
goto __15
__14:
res = int32((*UnpackedRecord)(unsafe.Pointer(pPKey2)).Fdefault_rc)
(*UnpackedRecord)(unsafe.Pointer(pPKey2)).FeqSeen = U8(1)
__15:
;
goto __13
__12:
if !(res > 0) {
goto __16
}
res = int32((*UnpackedRecord)(unsafe.Pointer(pPKey2)).Fr2)
goto __17
__16:
res = int32((*UnpackedRecord)(unsafe.Pointer(pPKey2)).Fr1)
__17:
;
__13:
;
__11:
;
__9:
;
__6:
;
__2:
;
return res
}
// Return a pointer to an sqlite3VdbeRecordCompare() compatible function
// suitable for comparing serialized records to the unpacked record passed
// as the only argument.
func Xsqlite3VdbeFindCompare(tls *libc.TLS, p uintptr) RecordCompare {
if int32((*KeyInfo)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(p)).FpKeyInfo)).FnAllField) <= 13 {
var flags int32 = int32((*Mem)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(p)).FaMem)).Fflags)
if *(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(p)).FpKeyInfo)).FaSortFlags)) != 0 {
if int32(*(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(p)).FpKeyInfo)).FaSortFlags)))&KEYINFO_ORDER_BIGNULL != 0 {
return *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, int32, uintptr, uintptr) int32
}{Xsqlite3VdbeRecordCompare}))
}
(*UnpackedRecord)(unsafe.Pointer(p)).Fr1 = int8(1)
(*UnpackedRecord)(unsafe.Pointer(p)).Fr2 = int8(-1)
} else {
(*UnpackedRecord)(unsafe.Pointer(p)).Fr1 = int8(-1)
(*UnpackedRecord)(unsafe.Pointer(p)).Fr2 = int8(1)
}
if flags&MEM_Int != 0 {
*(*I64)(unsafe.Pointer(p + 16)) = *(*I64)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(p)).FaMem))
return *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, int32, uintptr, uintptr) int32
}{vdbeRecordCompareInt}))
}
if flags&(MEM_Real|MEM_IntReal|MEM_Null|MEM_Blob) == 0 &&
*(*uintptr)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(p)).FpKeyInfo + 32)) == uintptr(0) {
*(*uintptr)(unsafe.Pointer(p + 16)) = (*Mem)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(p)).FaMem)).Fz
(*UnpackedRecord)(unsafe.Pointer(p)).Fn = (*Mem)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(p)).FaMem)).Fn
return *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, int32, uintptr, uintptr) int32
}{vdbeRecordCompareString}))
}
}
return *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, int32, uintptr, uintptr) int32
}{Xsqlite3VdbeRecordCompare}))
}
// pCur points at an index entry created using the OP_MakeRecord opcode.
// Read the rowid (the last field in the record) and store it in *rowid.
// Return SQLITE_OK if everything works, or an error code otherwise.
//
// pCur might be pointing to text obtained from a corrupt database file.
// So the content cannot be trusted. Do appropriate checks on the content.
func Xsqlite3VdbeIdxRowid(tls *libc.TLS, db uintptr, pCur uintptr, rowid uintptr) int32 {
bp := tls.Alloc(120)
defer tls.Free(120)
var nCellKey I64
var rc int32
var lenRowid U32
nCellKey = int64(0)
nCellKey = I64(Xsqlite3BtreePayloadSize(tls, pCur))
Xsqlite3VdbeMemInit(tls, bp, db, uint16(0))
rc = Xsqlite3VdbeMemFromBtreeZeroOffset(tls, pCur, U32(nCellKey), bp)
if !(rc != 0) {
goto __1
}
return rc
__1:
;
*(*U32)(unsafe.Pointer(bp + 56)) = U32(*(*U8)(unsafe.Pointer((*Mem)(unsafe.Pointer(bp)).Fz)))
if !(*(*U32)(unsafe.Pointer(bp + 56)) >= U32(0x80)) {
goto __2
}
Xsqlite3GetVarint32(tls, (*Mem)(unsafe.Pointer(bp)).Fz, bp+56)
__2:
;
if !(*(*U32)(unsafe.Pointer(bp + 56)) < U32(3) || *(*U32)(unsafe.Pointer(bp + 56)) > uint32((*Mem)(unsafe.Pointer(bp)).Fn)) {
goto __3
}
goto idx_rowid_corruption
__3:
;
*(*U32)(unsafe.Pointer(bp + 60)) = U32(*(*U8)(unsafe.Pointer((*Mem)(unsafe.Pointer(bp)).Fz + uintptr(*(*U32)(unsafe.Pointer(bp + 56))-U32(1)))))
if !(*(*U32)(unsafe.Pointer(bp + 60)) >= U32(0x80)) {
goto __4
}
Xsqlite3GetVarint32(tls, (*Mem)(unsafe.Pointer(bp)).Fz+uintptr(*(*U32)(unsafe.Pointer(bp + 56))-U32(1)), bp+60)
__4:
;
if !(*(*U32)(unsafe.Pointer(bp + 60)) < U32(1) || *(*U32)(unsafe.Pointer(bp + 60)) > U32(9) || *(*U32)(unsafe.Pointer(bp + 60)) == U32(7)) {
goto __5
}
goto idx_rowid_corruption
__5:
;
lenRowid = U32(Xsqlite3SmallTypeSizes[*(*U32)(unsafe.Pointer(bp + 60))])
if !(U32((*Mem)(unsafe.Pointer(bp)).Fn) < *(*U32)(unsafe.Pointer(bp + 56))+lenRowid) {
goto __6
}
goto idx_rowid_corruption
__6:
;
Xsqlite3VdbeSerialGet(tls, (*Mem)(unsafe.Pointer(bp)).Fz+uintptr(U32((*Mem)(unsafe.Pointer(bp)).Fn)-lenRowid), *(*U32)(unsafe.Pointer(bp + 60)), bp+64)
*(*I64)(unsafe.Pointer(rowid)) = *(*I64)(unsafe.Pointer(bp + 64))
Xsqlite3VdbeMemReleaseMalloc(tls, bp)
return SQLITE_OK
idx_rowid_corruption:
;
Xsqlite3VdbeMemReleaseMalloc(tls, bp)
return Xsqlite3CorruptError(tls, 87457)
}
// Compare the key of the index entry that cursor pC is pointing to against
// the key string in pUnpacked. Write into *pRes a number
// that is negative, zero, or positive if pC is less than, equal to,
// or greater than pUnpacked. Return SQLITE_OK on success.
//
// pUnpacked is either created without a rowid or is truncated so that it
// omits the rowid at the end. The rowid at the end of the index entry
// is ignored as well. Hence, this routine only compares the prefixes
// of the keys prior to the final rowid, not the entire key.
func Xsqlite3VdbeIdxKeyCompare(tls *libc.TLS, db uintptr, pC uintptr, pUnpacked uintptr, res uintptr) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
var nCellKey I64 = int64(0)
var rc int32
var pCur uintptr
pCur = *(*uintptr)(unsafe.Pointer(pC + 48))
nCellKey = I64(Xsqlite3BtreePayloadSize(tls, pCur))
if nCellKey <= int64(0) || nCellKey > int64(0x7fffffff) {
*(*int32)(unsafe.Pointer(res)) = 0
return Xsqlite3CorruptError(tls, 87490)
}
Xsqlite3VdbeMemInit(tls, bp, db, uint16(0))
rc = Xsqlite3VdbeMemFromBtreeZeroOffset(tls, pCur, U32(nCellKey), bp)
if rc != 0 {
return rc
}
*(*int32)(unsafe.Pointer(res)) = Xsqlite3VdbeRecordCompareWithSkip(tls, (*Mem)(unsafe.Pointer(bp)).Fn, (*Mem)(unsafe.Pointer(bp)).Fz, pUnpacked, 0)
Xsqlite3VdbeMemReleaseMalloc(tls, bp)
return SQLITE_OK
}
// This routine sets the value to be returned by subsequent calls to
// sqlite3_changes() on the database handle 'db'.
func Xsqlite3VdbeSetChanges(tls *libc.TLS, db uintptr, nChange I64) {
(*Sqlite3)(unsafe.Pointer(db)).FnChange = nChange
*(*I64)(unsafe.Pointer(db + 128)) += nChange
}
// Set a flag in the vdbe to update the change counter when it is finalised
// or reset.
func Xsqlite3VdbeCountChanges(tls *libc.TLS, v uintptr) {
libc.SetBitFieldPtr8Uint32(v+200, Bft(1), 4, 0x10)
}
// Mark every prepared statement associated with a database connection
// as expired.
//
// An expired statement means that recompilation of the statement is
// recommend. Statements expire when things happen that make their
// programs obsolete. Removing user-defined functions or collating
// sequences, or changing an authorization function are the types of
// things that make prepared statements obsolete.
//
// If iCode is 1, then expiration is advisory. The statement should
// be reprepared before being restarted, but if it is already running
// it is allowed to run to completion.
//
// Internally, this function just sets the Vdbe.expired flag on all
// prepared statements. The flag is set to 1 for an immediate expiration
// and set to 2 for an advisory expiration.
func Xsqlite3ExpirePreparedStatements(tls *libc.TLS, db uintptr, iCode int32) {
var p uintptr
for p = (*Sqlite3)(unsafe.Pointer(db)).FpVdbe; p != 0; p = (*Vdbe)(unsafe.Pointer(p)).FpVNext {
libc.SetBitFieldPtr8Uint32(p+200, Bft(iCode+1), 0, 0x3)
}
}
// Return the database associated with the Vdbe.
func Xsqlite3VdbeDb(tls *libc.TLS, v uintptr) uintptr {
return (*Vdbe)(unsafe.Pointer(v)).Fdb
}
// Return the SQLITE_PREPARE flags for a Vdbe.
func Xsqlite3VdbePrepareFlags(tls *libc.TLS, v uintptr) U8 {
return (*Vdbe)(unsafe.Pointer(v)).FprepFlags
}
// Return a pointer to an sqlite3_value structure containing the value bound
// parameter iVar of VM v. Except, if the value is an SQL NULL, return
// 0 instead. Unless it is NULL, apply affinity aff (one of the SQLITE_AFF_*
// constants) to the value before returning it.
//
// The returned value must be freed by the caller using sqlite3ValueFree().
func Xsqlite3VdbeGetBoundValue(tls *libc.TLS, v uintptr, iVar int32, aff U8) uintptr {
if v != 0 {
var pMem uintptr = (*Vdbe)(unsafe.Pointer(v)).FaVar + uintptr(iVar-1)*56
if 0 == int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Null {
var pRet uintptr = Xsqlite3ValueNew(tls, (*Vdbe)(unsafe.Pointer(v)).Fdb)
if pRet != 0 {
Xsqlite3VdbeMemCopy(tls, pRet, pMem)
Xsqlite3ValueApplyAffinity(tls, pRet, aff, uint8(SQLITE_UTF8))
}
return pRet
}
}
return uintptr(0)
}
// Configure SQL variable iVar so that binding a new value to it signals
// to sqlite3_reoptimize() that re-preparing the statement may result
// in a better query plan.
func Xsqlite3VdbeSetVarmask(tls *libc.TLS, v uintptr, iVar int32) {
if iVar >= 32 {
*(*U32)(unsafe.Pointer(v + 284)) |= 0x80000000
} else {
*(*U32)(unsafe.Pointer(v + 284)) |= U32(1) << (iVar - 1)
}
}
// Cause a function to throw an error if it was call from OP_PureFunc
// rather than OP_Function.
//
// OP_PureFunc means that the function must be deterministic, and should
// throw an error if it is given inputs that would make it non-deterministic.
// This routine is invoked by date/time functions that use non-deterministic
// features such as 'now'.
func Xsqlite3NotPureFunc(tls *libc.TLS, pCtx uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var pOp uintptr
if (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpVdbe == uintptr(0) {
return 1
}
pOp = (*Vdbe)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(pCtx)).FpVdbe)).FaOp + uintptr((*Sqlite3_context)(unsafe.Pointer(pCtx)).FiOp)*24
if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_PureFunc {
var zContext uintptr
var zMsg uintptr
if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fp5)&NC_IsCheck != 0 {
zContext = ts + 5569
} else if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fp5)&NC_GenCol != 0 {
zContext = ts + 5588
} else {
zContext = ts + 5607
}
zMsg = Xsqlite3_mprintf(tls, ts+5616,
libc.VaList(bp, (*FuncDef)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(pCtx)).FpFunc)).FzName, zContext))
Xsqlite3_result_error(tls, pCtx, zMsg, -1)
Xsqlite3_free(tls, zMsg)
return 0
}
return 1
}
// Transfer error message text from an sqlite3_vtab.zErrMsg (text stored
// in memory obtained from sqlite3_malloc) into a Vdbe.zErrMsg (text stored
// in memory obtained from sqlite3DbMalloc).
func Xsqlite3VtabImportErrmsg(tls *libc.TLS, p uintptr, pVtab uintptr) {
if (*Sqlite3_vtab)(unsafe.Pointer(pVtab)).FzErrMsg != 0 {
var db uintptr = (*Vdbe)(unsafe.Pointer(p)).Fdb
Xsqlite3DbFree(tls, db, (*Vdbe)(unsafe.Pointer(p)).FzErrMsg)
(*Vdbe)(unsafe.Pointer(p)).FzErrMsg = Xsqlite3DbStrDup(tls, db, (*Sqlite3_vtab)(unsafe.Pointer(pVtab)).FzErrMsg)
Xsqlite3_free(tls, (*Sqlite3_vtab)(unsafe.Pointer(pVtab)).FzErrMsg)
(*Sqlite3_vtab)(unsafe.Pointer(pVtab)).FzErrMsg = uintptr(0)
}
}
func vdbeFreeUnpacked(tls *libc.TLS, db uintptr, nField int32, p uintptr) {
if p != 0 {
var i int32
for i = 0; i < nField; i++ {
var pMem uintptr = (*UnpackedRecord)(unsafe.Pointer(p)).FaMem + uintptr(i)*56
if (*Mem)(unsafe.Pointer(pMem)).FzMalloc != 0 {
Xsqlite3VdbeMemReleaseMalloc(tls, pMem)
}
}
Xsqlite3DbNNFreeNN(tls, db, p)
}
}
// Invoke the pre-update hook. If this is an UPDATE or DELETE pre-update call,
// then cursor passed as the second argument should point to the row about
// to be update or deleted. If the application calls sqlite3_preupdate_old(),
// the required value will be read from the row the cursor points to.
func Xsqlite3VdbePreUpdateHook(tls *libc.TLS, v uintptr, pCsr uintptr, op int32, zDb uintptr, pTab uintptr, iKey1 I64, iReg int32, iBlobWrite int32) {
bp := tls.Alloc(136)
defer tls.Free(136)
var db uintptr = (*Vdbe)(unsafe.Pointer(v)).Fdb
var iKey2 I64
var zTbl uintptr = (*Table)(unsafe.Pointer(pTab)).FzName
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(PreUpdate{})), libc.X__builtin_object_size(tls, bp, 0))
if libc.Bool32((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) == 0 {
iKey1 = libc.AssignInt64(&iKey2, int64(0))
(*PreUpdate)(unsafe.Pointer(bp)).FpPk = Xsqlite3PrimaryKeyIndex(tls, pTab)
} else {
if op == SQLITE_UPDATE {
iKey2 = *(*I64)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(v)).FaMem + uintptr(iReg)*56))
} else {
iKey2 = iKey1
}
}
(*PreUpdate)(unsafe.Pointer(bp)).Fv = v
(*PreUpdate)(unsafe.Pointer(bp)).FpCsr = pCsr
(*PreUpdate)(unsafe.Pointer(bp)).Fop = op
(*PreUpdate)(unsafe.Pointer(bp)).FiNewReg = iReg
(*PreUpdate)(unsafe.Pointer(bp)).Fkeyinfo.Fdb = db
(*PreUpdate)(unsafe.Pointer(bp)).Fkeyinfo.Fenc = (*Sqlite3)(unsafe.Pointer(db)).Fenc
(*PreUpdate)(unsafe.Pointer(bp)).Fkeyinfo.FnKeyField = U16((*Table)(unsafe.Pointer(pTab)).FnCol)
(*PreUpdate)(unsafe.Pointer(bp)).Fkeyinfo.FaSortFlags = uintptr(unsafe.Pointer(&fakeSortOrder))
(*PreUpdate)(unsafe.Pointer(bp)).FiKey1 = iKey1
(*PreUpdate)(unsafe.Pointer(bp)).FiKey2 = iKey2
(*PreUpdate)(unsafe.Pointer(bp)).FpTab = pTab
(*PreUpdate)(unsafe.Pointer(bp)).FiBlobWrite = iBlobWrite
(*Sqlite3)(unsafe.Pointer(db)).FpPreUpdate = bp
(*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, Sqlite3_int64, Sqlite3_int64)
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxPreUpdateCallback})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpPreUpdateArg, db, op, zDb, zTbl, iKey1, iKey2)
(*Sqlite3)(unsafe.Pointer(db)).FpPreUpdate = uintptr(0)
Xsqlite3DbFree(tls, db, (*PreUpdate)(unsafe.Pointer(bp)).FaRecord)
vdbeFreeUnpacked(tls, db, int32((*PreUpdate)(unsafe.Pointer(bp)).Fkeyinfo.FnKeyField)+1, (*PreUpdate)(unsafe.Pointer(bp)).FpUnpacked)
vdbeFreeUnpacked(tls, db, int32((*PreUpdate)(unsafe.Pointer(bp)).Fkeyinfo.FnKeyField)+1, (*PreUpdate)(unsafe.Pointer(bp)).FpNewUnpacked)
if (*PreUpdate)(unsafe.Pointer(bp)).FaNew != 0 {
var i int32
for i = 0; i < int32((*VdbeCursor)(unsafe.Pointer(pCsr)).FnField); i++ {
Xsqlite3VdbeMemRelease(tls, (*PreUpdate)(unsafe.Pointer(bp)).FaNew+uintptr(i)*56)
}
Xsqlite3DbNNFreeNN(tls, db, (*PreUpdate)(unsafe.Pointer(bp)).FaNew)
}
}
var fakeSortOrder U8 = U8(0)
// Return TRUE (non-zero) of the statement supplied as an argument needs
// to be recompiled. A statement needs to be recompiled whenever the
// execution environment changes in a way that would alter the program
// that sqlite3_prepare() generates. For example, if new functions or
// collating sequences are registered or if an authorizer function is
// added or changed.
func Xsqlite3_expired(tls *libc.TLS, pStmt uintptr) int32 {
var p uintptr = pStmt
return libc.Bool32(p == uintptr(0) || Bft(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x3>>0)) != 0)
}
func vdbeSafety(tls *libc.TLS, p uintptr) int32 {
if (*Vdbe)(unsafe.Pointer(p)).Fdb == uintptr(0) {
Xsqlite3_log(tls, SQLITE_MISUSE, ts+5652, 0)
return 1
} else {
return 0
}
return int32(0)
}
func vdbeSafetyNotNull(tls *libc.TLS, p uintptr) int32 {
if p == uintptr(0) {
Xsqlite3_log(tls, SQLITE_MISUSE, ts+5697, 0)
return 1
} else {
return vdbeSafety(tls, p)
}
return int32(0)
}
func invokeProfileCallback(tls *libc.TLS, db uintptr, p uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
Xsqlite3OsCurrentTimeInt64(tls, (*Sqlite3)(unsafe.Pointer(db)).FpVfs, bp)
*(*Sqlite3_int64)(unsafe.Pointer(bp + 8)) = (*(*Sqlite3_int64)(unsafe.Pointer(bp)) - (*Vdbe)(unsafe.Pointer(p)).FstartTime) * int64(1000000)
if (*Sqlite3)(unsafe.Pointer(db)).FxProfile != 0 {
(*struct {
f func(*libc.TLS, uintptr, uintptr, U64)
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxProfile})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpProfileArg, (*Vdbe)(unsafe.Pointer(p)).FzSql, uint64(*(*Sqlite3_int64)(unsafe.Pointer(bp + 8))))
}
if int32((*Sqlite3)(unsafe.Pointer(db)).FmTrace)&SQLITE_TRACE_PROFILE != 0 {
(*struct {
f func(*libc.TLS, U32, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{*(*uintptr)(unsafe.Pointer(db + 248))})).f(tls, uint32(SQLITE_TRACE_PROFILE), (*Sqlite3)(unsafe.Pointer(db)).FpTraceArg, p, bp+8)
}
(*Vdbe)(unsafe.Pointer(p)).FstartTime = int64(0)
}
// The following routine destroys a virtual machine that is created by
// the sqlite3_compile() routine. The integer returned is an SQLITE_
// success/failure code that describes the result of executing the virtual
// machine.
//
// This routine sets the error code and string returned by
// sqlite3_errcode(), sqlite3_errmsg() and sqlite3_errmsg16().
func Xsqlite3_finalize(tls *libc.TLS, pStmt uintptr) int32 {
var rc int32
if pStmt == uintptr(0) {
rc = SQLITE_OK
} else {
var v uintptr = pStmt
var db uintptr = (*Vdbe)(unsafe.Pointer(v)).Fdb
if vdbeSafety(tls, v) != 0 {
return Xsqlite3MisuseError(tls, 87854)
}
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if (*Vdbe)(unsafe.Pointer(v)).FstartTime > int64(0) {
invokeProfileCallback(tls, db, v)
}
rc = Xsqlite3VdbeReset(tls, v)
Xsqlite3VdbeDelete(tls, v)
rc = Xsqlite3ApiExit(tls, db, rc)
Xsqlite3LeaveMutexAndCloseZombie(tls, db)
}
return rc
}
// Terminate the current execution of an SQL statement and reset it
// back to its starting state so that it can be reused. A success code from
// the prior execution is returned.
//
// This routine sets the error code and string returned by
// sqlite3_errcode(), sqlite3_errmsg() and sqlite3_errmsg16().
func Xsqlite3_reset(tls *libc.TLS, pStmt uintptr) int32 {
var rc int32
if pStmt == uintptr(0) {
rc = SQLITE_OK
} else {
var v uintptr = pStmt
var db uintptr = (*Vdbe)(unsafe.Pointer(v)).Fdb
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if (*Vdbe)(unsafe.Pointer(v)).FstartTime > int64(0) {
invokeProfileCallback(tls, db, v)
}
rc = Xsqlite3VdbeReset(tls, v)
Xsqlite3VdbeRewind(tls, v)
rc = Xsqlite3ApiExit(tls, db, rc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
}
return rc
}
// Set all the parameters in the compiled SQL statement to NULL.
func Xsqlite3_clear_bindings(tls *libc.TLS, pStmt uintptr) int32 {
var i int32
var rc int32 = SQLITE_OK
var p uintptr = pStmt
var mutex uintptr = (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(pStmt)).Fdb)).Fmutex
Xsqlite3_mutex_enter(tls, mutex)
for i = 0; i < int32((*Vdbe)(unsafe.Pointer(p)).FnVar); i++ {
Xsqlite3VdbeMemRelease(tls, (*Vdbe)(unsafe.Pointer(p)).FaVar+uintptr(i)*56)
(*Mem)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FaVar + uintptr(i)*56)).Fflags = U16(MEM_Null)
}
if (*Vdbe)(unsafe.Pointer(p)).Fexpmask != 0 {
libc.SetBitFieldPtr8Uint32(p+200, Bft(1), 0, 0x3)
}
Xsqlite3_mutex_leave(tls, mutex)
return rc
}
// *************************** sqlite3_value_ *******************************
//
// The following routines extract information from a Mem or sqlite3_value
// structure.
func Xsqlite3_value_blob(tls *libc.TLS, pVal uintptr) uintptr {
var p uintptr = pVal
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&(MEM_Blob|MEM_Str) != 0 {
if func() int32 {
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&MEM_Zero != 0 {
return Xsqlite3VdbeMemExpandBlob(tls, p)
}
return 0
}() != SQLITE_OK {
return uintptr(0)
}
*(*U16)(unsafe.Pointer(p + 20)) |= U16(MEM_Blob)
if (*Mem)(unsafe.Pointer(p)).Fn != 0 {
return (*Mem)(unsafe.Pointer(p)).Fz
}
return uintptr(0)
} else {
return Xsqlite3_value_text(tls, pVal)
}
return uintptr(0)
}
func Xsqlite3_value_bytes(tls *libc.TLS, pVal uintptr) int32 {
return Xsqlite3ValueBytes(tls, pVal, uint8(SQLITE_UTF8))
}
func Xsqlite3_value_bytes16(tls *libc.TLS, pVal uintptr) int32 {
return Xsqlite3ValueBytes(tls, pVal, uint8(SQLITE_UTF16LE))
}
func Xsqlite3_value_double(tls *libc.TLS, pVal uintptr) float64 {
return Xsqlite3VdbeRealValue(tls, pVal)
}
func Xsqlite3_value_int(tls *libc.TLS, pVal uintptr) int32 {
return int32(Xsqlite3VdbeIntValue(tls, pVal))
}
func Xsqlite3_value_int64(tls *libc.TLS, pVal uintptr) Sqlite_int64 {
return Xsqlite3VdbeIntValue(tls, pVal)
}
func Xsqlite3_value_subtype(tls *libc.TLS, pVal uintptr) uint32 {
var pMem uintptr = pVal
return func() uint32 {
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Subtype != 0 {
return uint32((*Mem)(unsafe.Pointer(pMem)).FeSubtype)
}
return uint32(0)
}()
}
func Xsqlite3_value_pointer(tls *libc.TLS, pVal uintptr, zPType uintptr) uintptr {
var p uintptr = pVal
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&(MEM_TypeMask|MEM_Term|MEM_Subtype) == MEM_Null|MEM_Term|MEM_Subtype &&
zPType != uintptr(0) &&
int32((*Mem)(unsafe.Pointer(p)).FeSubtype) == 'p' &&
libc.Xstrcmp(tls, *(*uintptr)(unsafe.Pointer(p)), zPType) == 0 {
return (*Mem)(unsafe.Pointer(p)).Fz
} else {
return uintptr(0)
}
return uintptr(0)
}
func Xsqlite3_value_text(tls *libc.TLS, pVal uintptr) uintptr {
return Xsqlite3ValueText(tls, pVal, uint8(SQLITE_UTF8))
}
func Xsqlite3_value_text16(tls *libc.TLS, pVal uintptr) uintptr {
return Xsqlite3ValueText(tls, pVal, uint8(SQLITE_UTF16LE))
}
func Xsqlite3_value_text16be(tls *libc.TLS, pVal uintptr) uintptr {
return Xsqlite3ValueText(tls, pVal, uint8(SQLITE_UTF16BE))
}
func Xsqlite3_value_text16le(tls *libc.TLS, pVal uintptr) uintptr {
return Xsqlite3ValueText(tls, pVal, uint8(SQLITE_UTF16LE))
}
// EVIDENCE-OF: R-12793-43283 Every value in SQLite has one of five
// fundamental datatypes: 64-bit signed integer 64-bit IEEE floating
// point number string BLOB NULL
func Xsqlite3_value_type(tls *libc.TLS, pVal uintptr) int32 {
return int32(aType[int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fflags)&MEM_AffMask])
}
var aType = [64]U8{
U8(SQLITE_BLOB),
U8(SQLITE_NULL),
U8(SQLITE_TEXT),
U8(SQLITE_NULL),
U8(SQLITE_INTEGER),
U8(SQLITE_NULL),
U8(SQLITE_INTEGER),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_INTEGER),
U8(SQLITE_NULL),
U8(SQLITE_INTEGER),
U8(SQLITE_NULL),
U8(SQLITE_BLOB),
U8(SQLITE_NULL),
U8(SQLITE_TEXT),
U8(SQLITE_NULL),
U8(SQLITE_INTEGER),
U8(SQLITE_NULL),
U8(SQLITE_INTEGER),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_INTEGER),
U8(SQLITE_NULL),
U8(SQLITE_INTEGER),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_TEXT),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_BLOB),
U8(SQLITE_NULL),
U8(SQLITE_TEXT),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
U8(SQLITE_FLOAT),
U8(SQLITE_NULL),
}
func Xsqlite3_value_encoding(tls *libc.TLS, pVal uintptr) int32 {
return int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fenc)
}
// Return true if a parameter to xUpdate represents an unchanged column
func Xsqlite3_value_nochange(tls *libc.TLS, pVal uintptr) int32 {
return libc.Bool32(int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fflags)&(MEM_Null|MEM_Zero) == MEM_Null|MEM_Zero)
}
// Return true if a parameter value originated from an sqlite3_bind()
func Xsqlite3_value_frombind(tls *libc.TLS, pVal uintptr) int32 {
return libc.Bool32(int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fflags)&MEM_FromBind != 0)
}
// Make a copy of an sqlite3_value object
func Xsqlite3_value_dup(tls *libc.TLS, pOrig uintptr) uintptr {
var pNew uintptr
if pOrig == uintptr(0) {
return uintptr(0)
}
pNew = Xsqlite3_malloc(tls, int32(unsafe.Sizeof(Sqlite3_value{})))
if pNew == uintptr(0) {
return uintptr(0)
}
libc.X__builtin___memset_chk(tls, pNew, 0, uint64(unsafe.Sizeof(Sqlite3_value{})), libc.X__builtin_object_size(tls, pNew, 0))
libc.X__builtin___memcpy_chk(tls, pNew, pOrig, uint64(uintptr(0)+24), libc.X__builtin_object_size(tls, pNew, 0))
*(*U16)(unsafe.Pointer(pNew + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Dyn))
(*Sqlite3_value)(unsafe.Pointer(pNew)).Fdb = uintptr(0)
if int32((*Sqlite3_value)(unsafe.Pointer(pNew)).Fflags)&(MEM_Str|MEM_Blob) != 0 {
*(*U16)(unsafe.Pointer(pNew + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Static | MEM_Dyn))
*(*U16)(unsafe.Pointer(pNew + 20)) |= U16(MEM_Ephem)
if Xsqlite3VdbeMemMakeWriteable(tls, pNew) != SQLITE_OK {
Xsqlite3ValueFree(tls, pNew)
pNew = uintptr(0)
}
} else if int32((*Sqlite3_value)(unsafe.Pointer(pNew)).Fflags)&MEM_Null != 0 {
*(*U16)(unsafe.Pointer(pNew + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Term | MEM_Subtype))
}
return pNew
}
// Destroy an sqlite3_value object previously obtained from
// sqlite3_value_dup().
func Xsqlite3_value_free(tls *libc.TLS, pOld uintptr) {
Xsqlite3ValueFree(tls, pOld)
}
func setResultStrOrError(tls *libc.TLS, pCtx uintptr, z uintptr, n int32, enc U8, xDel uintptr) {
var pOut uintptr = (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut
var rc int32 = Xsqlite3VdbeMemSetStr(tls, pOut, z, int64(n), enc, xDel)
if rc != 0 {
if rc == SQLITE_TOOBIG {
Xsqlite3_result_error_toobig(tls, pCtx)
} else {
Xsqlite3_result_error_nomem(tls, pCtx)
}
return
}
Xsqlite3VdbeChangeEncoding(tls, pOut, int32((*Sqlite3_context)(unsafe.Pointer(pCtx)).Fenc))
if Xsqlite3VdbeMemTooBig(tls, pOut) != 0 {
Xsqlite3_result_error_toobig(tls, pCtx)
}
}
func invokeValueDestructor(tls *libc.TLS, p uintptr, xDel uintptr, pCtx uintptr) int32 {
if xDel == uintptr(0) {
} else if xDel == libc.UintptrFromInt32(-1) {
} else {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{xDel})).f(tls, p)
}
Xsqlite3_result_error_toobig(tls, pCtx)
return SQLITE_TOOBIG
}
func Xsqlite3_result_blob(tls *libc.TLS, pCtx uintptr, z uintptr, n int32, xDel uintptr) {
setResultStrOrError(tls, pCtx, z, n, uint8(0), xDel)
}
func Xsqlite3_result_blob64(tls *libc.TLS, pCtx uintptr, z uintptr, n Sqlite3_uint64, xDel uintptr) {
if n > uint64(0x7fffffff) {
invokeValueDestructor(tls, z, xDel, pCtx)
} else {
setResultStrOrError(tls, pCtx, z, int32(n), uint8(0), xDel)
}
}
func Xsqlite3_result_double(tls *libc.TLS, pCtx uintptr, rVal float64) {
Xsqlite3VdbeMemSetDouble(tls, (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut, rVal)
}
func Xsqlite3_result_error(tls *libc.TLS, pCtx uintptr, z uintptr, n int32) {
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FisError = SQLITE_ERROR
Xsqlite3VdbeMemSetStr(tls, (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut, z, int64(n), uint8(SQLITE_UTF8), libc.UintptrFromInt32(-1))
}
func Xsqlite3_result_error16(tls *libc.TLS, pCtx uintptr, z uintptr, n int32) {
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FisError = SQLITE_ERROR
Xsqlite3VdbeMemSetStr(tls, (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut, z, int64(n), uint8(SQLITE_UTF16LE), libc.UintptrFromInt32(-1))
}
func Xsqlite3_result_int(tls *libc.TLS, pCtx uintptr, iVal int32) {
Xsqlite3VdbeMemSetInt64(tls, (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut, I64(iVal))
}
func Xsqlite3_result_int64(tls *libc.TLS, pCtx uintptr, iVal I64) {
Xsqlite3VdbeMemSetInt64(tls, (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut, iVal)
}
func Xsqlite3_result_null(tls *libc.TLS, pCtx uintptr) {
Xsqlite3VdbeMemSetNull(tls, (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut)
}
func Xsqlite3_result_pointer(tls *libc.TLS, pCtx uintptr, pPtr uintptr, zPType uintptr, xDestructor uintptr) {
var pOut uintptr = (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut
Xsqlite3VdbeMemRelease(tls, pOut)
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(MEM_Null)
Xsqlite3VdbeMemSetPointer(tls, pOut, pPtr, zPType, xDestructor)
}
func Xsqlite3_result_subtype(tls *libc.TLS, pCtx uintptr, eSubtype uint32) {
var pOut uintptr = (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut
(*Mem)(unsafe.Pointer(pOut)).FeSubtype = U8(eSubtype & uint32(0xff))
*(*U16)(unsafe.Pointer(pOut + 20)) |= U16(MEM_Subtype)
}
func Xsqlite3_result_text(tls *libc.TLS, pCtx uintptr, z uintptr, n int32, xDel uintptr) {
setResultStrOrError(tls, pCtx, z, n, uint8(SQLITE_UTF8), xDel)
}
func Xsqlite3_result_text64(tls *libc.TLS, pCtx uintptr, z uintptr, n Sqlite3_uint64, xDel uintptr, enc uint8) {
if int32(enc) != SQLITE_UTF8 {
if int32(enc) == SQLITE_UTF16 {
enc = uint8(SQLITE_UTF16LE)
}
n = n & libc.CplUint64(uint64(1))
}
if n > uint64(0x7fffffff) {
invokeValueDestructor(tls, z, xDel, pCtx)
} else {
setResultStrOrError(tls, pCtx, z, int32(n), enc, xDel)
}
}
func Xsqlite3_result_text16(tls *libc.TLS, pCtx uintptr, z uintptr, n int32, xDel uintptr) {
setResultStrOrError(tls, pCtx, z, int32(U64(n)&libc.CplUint64(uint64(1))), uint8(SQLITE_UTF16LE), xDel)
}
func Xsqlite3_result_text16be(tls *libc.TLS, pCtx uintptr, z uintptr, n int32, xDel uintptr) {
setResultStrOrError(tls, pCtx, z, int32(U64(n)&libc.CplUint64(uint64(1))), uint8(SQLITE_UTF16BE), xDel)
}
func Xsqlite3_result_text16le(tls *libc.TLS, pCtx uintptr, z uintptr, n int32, xDel uintptr) {
setResultStrOrError(tls, pCtx, z, int32(U64(n)&libc.CplUint64(uint64(1))), uint8(SQLITE_UTF16LE), xDel)
}
func Xsqlite3_result_value(tls *libc.TLS, pCtx uintptr, pValue uintptr) {
var pOut uintptr = (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut
Xsqlite3VdbeMemCopy(tls, pOut, pValue)
Xsqlite3VdbeChangeEncoding(tls, pOut, int32((*Sqlite3_context)(unsafe.Pointer(pCtx)).Fenc))
if Xsqlite3VdbeMemTooBig(tls, pOut) != 0 {
Xsqlite3_result_error_toobig(tls, pCtx)
}
}
func Xsqlite3_result_zeroblob(tls *libc.TLS, pCtx uintptr, n int32) {
Xsqlite3_result_zeroblob64(tls, pCtx, func() uint64 {
if n > 0 {
return uint64(n)
}
return uint64(0)
}())
}
func Xsqlite3_result_zeroblob64(tls *libc.TLS, pCtx uintptr, n U64) int32 {
var pOut uintptr = (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut
if n > U64(*(*int32)(unsafe.Pointer((*Mem)(unsafe.Pointer(pOut)).Fdb + 136))) {
Xsqlite3_result_error_toobig(tls, pCtx)
return SQLITE_TOOBIG
}
Xsqlite3VdbeMemSetZeroBlob(tls, (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut, int32(n))
return SQLITE_OK
}
func Xsqlite3_result_error_code(tls *libc.TLS, pCtx uintptr, errCode int32) {
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FisError = func() int32 {
if errCode != 0 {
return errCode
}
return -1
}()
if int32((*Mem)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut)).Fflags)&MEM_Null != 0 {
setResultStrOrError(tls, pCtx, Xsqlite3ErrStr(tls, errCode), -1, uint8(SQLITE_UTF8),
uintptr(0))
}
}
// Force an SQLITE_TOOBIG error.
func Xsqlite3_result_error_toobig(tls *libc.TLS, pCtx uintptr) {
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FisError = SQLITE_TOOBIG
Xsqlite3VdbeMemSetStr(tls, (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut, ts+5737, int64(-1),
uint8(SQLITE_UTF8), uintptr(0))
}
// An SQLITE_NOMEM error.
func Xsqlite3_result_error_nomem(tls *libc.TLS, pCtx uintptr) {
Xsqlite3VdbeMemSetNull(tls, (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut)
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FisError = SQLITE_NOMEM
Xsqlite3OomFault(tls, (*Mem)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut)).Fdb)
}
// Force the INT64 value currently stored as the result to be
// a MEM_IntReal value. See the SQLITE_TESTCTRL_RESULT_INTREAL
// test-control.
func Xsqlite3ResultIntReal(tls *libc.TLS, pCtx uintptr) {
if int32((*Mem)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut)).Fflags)&MEM_Int != 0 {
*(*U16)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Int))
*(*U16)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut + 20)) |= U16(MEM_IntReal)
}
}
func doWalCallbacks(tls *libc.TLS, db uintptr) int32 {
var rc int32 = SQLITE_OK
var i int32
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if pBt != 0 {
var nEntry int32
Xsqlite3BtreeEnter(tls, pBt)
nEntry = Xsqlite3PagerWalCallback(tls, Xsqlite3BtreePager(tls, pBt))
Xsqlite3BtreeLeave(tls, pBt)
if nEntry > 0 && (*Sqlite3)(unsafe.Pointer(db)).FxWalCallback != 0 && rc == SQLITE_OK {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxWalCallback})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpWalArg, db, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FzDbSName, nEntry)
}
}
}
return rc
}
func sqlite3Step(tls *libc.TLS, p uintptr) int32 {
var db uintptr
var rc int32
db = (*Vdbe)(unsafe.Pointer(p)).Fdb
if !(int32((*Vdbe)(unsafe.Pointer(p)).FeVdbeState) != VDBE_RUN_STATE) {
goto __1
}
restart_step:
if !(int32((*Vdbe)(unsafe.Pointer(p)).FeVdbeState) == VDBE_READY_STATE) {
goto __2
}
if !(Bft(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x3>>0)) != 0) {
goto __4
}
(*Vdbe)(unsafe.Pointer(p)).Frc = SQLITE_SCHEMA
rc = SQLITE_ERROR
if !(int32((*Vdbe)(unsafe.Pointer(p)).FprepFlags)&SQLITE_PREPARE_SAVESQL != 0) {
goto __5
}
rc = Xsqlite3VdbeTransferError(tls, p)
__5:
;
goto end_of_step
__4:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FnVdbeActive == 0) {
goto __6
}
*(*int32)(unsafe.Pointer(db + 432)) = 0
__6:
;
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmTrace)&(SQLITE_TRACE_PROFILE|SQLITE_TRACE_XPROFILE) != 0 &&
!(int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) != 0) && (*Vdbe)(unsafe.Pointer(p)).FzSql != 0) {
goto __7
}
Xsqlite3OsCurrentTimeInt64(tls, (*Sqlite3)(unsafe.Pointer(db)).FpVfs, p+184)
goto __8
__7:
;
__8:
;
(*Sqlite3)(unsafe.Pointer(db)).FnVdbeActive++
if !(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x40>>6) == 0) {
goto __9
}
(*Sqlite3)(unsafe.Pointer(db)).FnVdbeWrite++
__9:
;
if !(Bft(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x80>>7)) != 0) {
goto __10
}
(*Sqlite3)(unsafe.Pointer(db)).FnVdbeRead++
__10:
;
(*Vdbe)(unsafe.Pointer(p)).Fpc = 0
(*Vdbe)(unsafe.Pointer(p)).FeVdbeState = U8(VDBE_RUN_STATE)
goto __3
__2:
if !(int32((*Vdbe)(unsafe.Pointer(p)).FeVdbeState) == VDBE_HALT_STATE) {
goto __11
}
Xsqlite3_reset(tls, p)
goto restart_step
__11:
;
__3:
;
__1:
;
if !(Bft(int32(*(*uint8)(unsafe.Pointer(p + 200))&0xc>>2)) != 0) {
goto __12
}
rc = Xsqlite3VdbeList(tls, p)
goto __13
__12:
(*Sqlite3)(unsafe.Pointer(db)).FnVdbeExec++
rc = Xsqlite3VdbeExec(tls, p)
(*Sqlite3)(unsafe.Pointer(db)).FnVdbeExec--
__13:
;
if !(rc == SQLITE_ROW) {
goto __14
}
(*Sqlite3)(unsafe.Pointer(db)).FerrCode = SQLITE_ROW
return SQLITE_ROW
goto __15
__14:
if !((*Vdbe)(unsafe.Pointer(p)).FstartTime > int64(0)) {
goto __16
}
invokeProfileCallback(tls, db, p)
__16:
;
(*Vdbe)(unsafe.Pointer(p)).FpResultRow = uintptr(0)
if !(rc == SQLITE_DONE && (*Sqlite3)(unsafe.Pointer(db)).FautoCommit != 0) {
goto __17
}
(*Vdbe)(unsafe.Pointer(p)).Frc = doWalCallbacks(tls, db)
if !((*Vdbe)(unsafe.Pointer(p)).Frc != SQLITE_OK) {
goto __19
}
rc = SQLITE_ERROR
__19:
;
goto __18
__17:
if !(rc != SQLITE_DONE && int32((*Vdbe)(unsafe.Pointer(p)).FprepFlags)&SQLITE_PREPARE_SAVESQL != 0) {
goto __20
}
rc = Xsqlite3VdbeTransferError(tls, p)
__20:
;
__18:
;
__15:
;
(*Sqlite3)(unsafe.Pointer(db)).FerrCode = rc
if !(SQLITE_NOMEM == Xsqlite3ApiExit(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, (*Vdbe)(unsafe.Pointer(p)).Frc)) {
goto __21
}
(*Vdbe)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
if !(int32((*Vdbe)(unsafe.Pointer(p)).FprepFlags)&SQLITE_PREPARE_SAVESQL != 0) {
goto __22
}
rc = (*Vdbe)(unsafe.Pointer(p)).Frc
__22:
;
__21:
;
end_of_step:
;
return rc & (*Sqlite3)(unsafe.Pointer(db)).FerrMask
}
// This is the top-level implementation of sqlite3_step(). Call
// sqlite3Step() to do most of the work. If a schema error occurs,
// call sqlite3Reprepare() and try again.
func Xsqlite3_step(tls *libc.TLS, pStmt uintptr) int32 {
var rc int32 = SQLITE_OK
var v uintptr = pStmt
var cnt int32 = 0
var db uintptr
if vdbeSafetyNotNull(tls, v) != 0 {
return Xsqlite3MisuseError(tls, 88544)
}
db = (*Vdbe)(unsafe.Pointer(v)).Fdb
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
for libc.AssignInt32(&rc, sqlite3Step(tls, v)) == SQLITE_SCHEMA &&
libc.PostIncInt32(&cnt, 1) < SQLITE_MAX_SCHEMA_RETRY {
var savedPc int32 = (*Vdbe)(unsafe.Pointer(v)).Fpc
rc = Xsqlite3Reprepare(tls, v)
if rc != SQLITE_OK {
var zErr uintptr = Xsqlite3_value_text(tls, (*Sqlite3)(unsafe.Pointer(db)).FpErr)
Xsqlite3DbFree(tls, db, (*Vdbe)(unsafe.Pointer(v)).FzErrMsg)
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
(*Vdbe)(unsafe.Pointer(v)).FzErrMsg = Xsqlite3DbStrDup(tls, db, zErr)
(*Vdbe)(unsafe.Pointer(v)).Frc = libc.AssignInt32(&rc, Xsqlite3ApiExit(tls, db, rc))
} else {
(*Vdbe)(unsafe.Pointer(v)).FzErrMsg = uintptr(0)
(*Vdbe)(unsafe.Pointer(v)).Frc = libc.AssignInt32(&rc, SQLITE_NOMEM)
}
break
}
Xsqlite3_reset(tls, pStmt)
if savedPc >= 0 {
(*Vdbe)(unsafe.Pointer(v)).FminWriteFileFormat = U8(254)
}
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Extract the user data from a sqlite3_context structure and return a
// pointer to it.
func Xsqlite3_user_data(tls *libc.TLS, p uintptr) uintptr {
return (*FuncDef)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(p)).FpFunc)).FpUserData
}
// Extract the user data from a sqlite3_context structure and return a
// pointer to it.
//
// IMPLEMENTATION-OF: R-46798-50301 The sqlite3_context_db_handle() interface
// returns a copy of the pointer to the database connection (the 1st
// parameter) of the sqlite3_create_function() and
// sqlite3_create_function16() routines that originally registered the
// application defined function.
func Xsqlite3_context_db_handle(tls *libc.TLS, p uintptr) uintptr {
return (*Mem)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(p)).FpOut)).Fdb
}
// If this routine is invoked from within an xColumn method of a virtual
// table, then it returns true if and only if the the call is during an
// UPDATE operation and the value of the column will not be modified
// by the UPDATE.
//
// If this routine is called from any context other than within the
// xColumn method of a virtual table, then the return value is meaningless
// and arbitrary.
//
// Virtual table implements might use this routine to optimize their
// performance by substituting a NULL result, or some other light-weight
// value, as a signal to the xUpdate routine that the column is unchanged.
func Xsqlite3_vtab_nochange(tls *libc.TLS, p uintptr) int32 {
return Xsqlite3_value_nochange(tls, (*Sqlite3_context)(unsafe.Pointer(p)).FpOut)
}
// The destructor function for a ValueList object. This needs to be
// a separate function, unknowable to the application, to ensure that
// calls to sqlite3_vtab_in_first()/sqlite3_vtab_in_next() that are not
// preceeded by activation of IN processing via sqlite3_vtab_int() do not
// try to access a fake ValueList object inserted by a hostile extension.
func Xsqlite3VdbeValueListFree(tls *libc.TLS, pToDelete uintptr) {
Xsqlite3_free(tls, pToDelete)
}
func valueFromValueList(tls *libc.TLS, pVal uintptr, ppOut uintptr, bNext int32) int32 {
bp := tls.Alloc(68)
defer tls.Free(68)
var rc int32
var pRhs uintptr
*(*uintptr)(unsafe.Pointer(ppOut)) = uintptr(0)
if pVal == uintptr(0) {
return SQLITE_MISUSE
}
if int32((*Sqlite3_value)(unsafe.Pointer(pVal)).Fflags)&MEM_Dyn == 0 || (*Sqlite3_value)(unsafe.Pointer(pVal)).FxDel != *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3VdbeValueListFree})) {
return SQLITE_ERROR
} else {
pRhs = (*Sqlite3_value)(unsafe.Pointer(pVal)).Fz
}
if bNext != 0 {
rc = Xsqlite3BtreeNext(tls, (*ValueList)(unsafe.Pointer(pRhs)).FpCsr, 0)
} else {
*(*int32)(unsafe.Pointer(bp)) = 0
rc = Xsqlite3BtreeFirst(tls, (*ValueList)(unsafe.Pointer(pRhs)).FpCsr, bp)
if Xsqlite3BtreeEof(tls, (*ValueList)(unsafe.Pointer(pRhs)).FpCsr) != 0 {
rc = SQLITE_DONE
}
}
if rc == SQLITE_OK {
var sz U32
libc.X__builtin___memset_chk(tls, bp+8, 0, uint64(unsafe.Sizeof(Mem{})), libc.X__builtin_object_size(tls, bp+8, 0))
sz = Xsqlite3BtreePayloadSize(tls, (*ValueList)(unsafe.Pointer(pRhs)).FpCsr)
rc = Xsqlite3VdbeMemFromBtreeZeroOffset(tls, (*ValueList)(unsafe.Pointer(pRhs)).FpCsr, uint32(int32(sz)), bp+8)
if rc == SQLITE_OK {
var zBuf uintptr = (*Mem)(unsafe.Pointer(bp + 8)).Fz
var pOut uintptr = (*ValueList)(unsafe.Pointer(pRhs)).FpOut
var iOff int32 = 1 + int32(func() uint8 {
if int32(*(*U8)(unsafe.Pointer(zBuf + 1))) < int32(U8(0x80)) {
return uint8(func() int32 { *(*U32)(unsafe.Pointer(bp + 64)) = U32(*(*U8)(unsafe.Pointer(zBuf + 1))); return 1 }())
}
return Xsqlite3GetVarint32(tls, zBuf+1, bp+64)
}())
Xsqlite3VdbeSerialGet(tls, zBuf+uintptr(iOff), *(*U32)(unsafe.Pointer(bp + 64)), pOut)
(*Sqlite3_value)(unsafe.Pointer(pOut)).Fenc = (*Sqlite3)(unsafe.Pointer((*Sqlite3_value)(unsafe.Pointer(pOut)).Fdb)).Fenc
if int32((*Sqlite3_value)(unsafe.Pointer(pOut)).Fflags)&MEM_Ephem != 0 && Xsqlite3VdbeMemMakeWriteable(tls, pOut) != 0 {
rc = SQLITE_NOMEM
} else {
*(*uintptr)(unsafe.Pointer(ppOut)) = pOut
}
}
Xsqlite3VdbeMemRelease(tls, bp+8)
}
return rc
}
// Set the iterator value pVal to point to the first value in the set.
// Set (*ppOut) to point to this value before returning.
func Xsqlite3_vtab_in_first(tls *libc.TLS, pVal uintptr, ppOut uintptr) int32 {
return valueFromValueList(tls, pVal, ppOut, 0)
}
// Set the iterator value pVal to point to the next value in the set.
// Set (*ppOut) to point to this value before returning.
func Xsqlite3_vtab_in_next(tls *libc.TLS, pVal uintptr, ppOut uintptr) int32 {
return valueFromValueList(tls, pVal, ppOut, 1)
}
// Return the current time for a statement. If the current time
// is requested more than once within the same run of a single prepared
// statement, the exact same time is returned for each invocation regardless
// of the amount of time that elapses between invocations. In other words,
// the time returned is always the time of the first call.
func Xsqlite3StmtCurrentTime(tls *libc.TLS, p uintptr) Sqlite3_int64 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
*(*Sqlite3_int64)(unsafe.Pointer(bp)) = int64(0)
var piTime uintptr
if (*Sqlite3_context)(unsafe.Pointer(p)).FpVdbe != uintptr(0) {
piTime = (*Sqlite3_context)(unsafe.Pointer(p)).FpVdbe + 72
} else {
piTime = bp
}
if *(*Sqlite3_int64)(unsafe.Pointer(piTime)) == int64(0) {
rc = Xsqlite3OsCurrentTimeInt64(tls, (*Sqlite3)(unsafe.Pointer((*Mem)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(p)).FpOut)).Fdb)).FpVfs, piTime)
if rc != 0 {
*(*Sqlite3_int64)(unsafe.Pointer(piTime)) = int64(0)
}
}
return *(*Sqlite3_int64)(unsafe.Pointer(piTime))
}
func createAggContext(tls *libc.TLS, p uintptr, nByte int32) uintptr {
var pMem uintptr = (*Sqlite3_context)(unsafe.Pointer(p)).FpMem
if nByte <= 0 {
Xsqlite3VdbeMemSetNull(tls, pMem)
(*Mem)(unsafe.Pointer(pMem)).Fz = uintptr(0)
} else {
Xsqlite3VdbeMemClearAndResize(tls, pMem, nByte)
(*Mem)(unsafe.Pointer(pMem)).Fflags = U16(MEM_Agg)
*(*uintptr)(unsafe.Pointer(pMem)) = (*Sqlite3_context)(unsafe.Pointer(p)).FpFunc
if (*Mem)(unsafe.Pointer(pMem)).Fz != 0 {
libc.X__builtin___memset_chk(tls, (*Mem)(unsafe.Pointer(pMem)).Fz, 0, uint64(nByte), libc.X__builtin_object_size(tls, (*Mem)(unsafe.Pointer(pMem)).Fz, 0))
}
}
return (*Mem)(unsafe.Pointer(pMem)).Fz
}
// Allocate or return the aggregate context for a user function. A new
// context is allocated on the first call. Subsequent calls return the
// same context that was returned on prior calls.
func Xsqlite3_aggregate_context(tls *libc.TLS, p uintptr, nByte int32) uintptr {
if int32((*Mem)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(p)).FpMem)).Fflags)&MEM_Agg == 0 {
return createAggContext(tls, p, nByte)
} else {
return (*Mem)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(p)).FpMem)).Fz
}
return uintptr(0)
}
// Return the auxiliary data pointer, if any, for the iArg'th argument to
// the user-function defined by pCtx.
//
// The left-most argument is 0.
//
// Undocumented behavior: If iArg is negative then access a cache of
// auxiliary data pointers that is available to all functions within a
// single prepared statement. The iArg values must match.
func Xsqlite3_get_auxdata(tls *libc.TLS, pCtx uintptr, iArg int32) uintptr {
var pAuxData uintptr
if (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpVdbe == uintptr(0) {
return uintptr(0)
}
for pAuxData = (*Vdbe)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(pCtx)).FpVdbe)).FpAuxData; pAuxData != 0; pAuxData = (*AuxData)(unsafe.Pointer(pAuxData)).FpNextAux {
if (*AuxData)(unsafe.Pointer(pAuxData)).FiAuxArg == iArg && ((*AuxData)(unsafe.Pointer(pAuxData)).FiAuxOp == (*Sqlite3_context)(unsafe.Pointer(pCtx)).FiOp || iArg < 0) {
return (*AuxData)(unsafe.Pointer(pAuxData)).FpAux
}
}
return uintptr(0)
}
// Set the auxiliary data pointer and delete function, for the iArg'th
// argument to the user-function defined by pCtx. Any previous value is
// deleted by calling the delete function specified when it was set.
//
// The left-most argument is 0.
//
// Undocumented behavior: If iArg is negative then make the data available
// to all functions within the current prepared statement using iArg as an
// access code.
func Xsqlite3_set_auxdata(tls *libc.TLS, pCtx uintptr, iArg int32, pAux uintptr, xDelete uintptr) {
var pAuxData uintptr
var pVdbe uintptr
pVdbe = (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpVdbe
if !(pVdbe == uintptr(0)) {
goto __1
}
goto failed
__1:
;
pAuxData = (*Vdbe)(unsafe.Pointer(pVdbe)).FpAuxData
__2:
if !(pAuxData != 0) {
goto __4
}
if !((*AuxData)(unsafe.Pointer(pAuxData)).FiAuxArg == iArg && ((*AuxData)(unsafe.Pointer(pAuxData)).FiAuxOp == (*Sqlite3_context)(unsafe.Pointer(pCtx)).FiOp || iArg < 0)) {
goto __5
}
goto __4
__5:
;
goto __3
__3:
pAuxData = (*AuxData)(unsafe.Pointer(pAuxData)).FpNextAux
goto __2
goto __4
__4:
;
if !(pAuxData == uintptr(0)) {
goto __6
}
pAuxData = Xsqlite3DbMallocZero(tls, (*Vdbe)(unsafe.Pointer(pVdbe)).Fdb, uint64(unsafe.Sizeof(AuxData{})))
if !!(pAuxData != 0) {
goto __8
}
goto failed
__8:
;
(*AuxData)(unsafe.Pointer(pAuxData)).FiAuxOp = (*Sqlite3_context)(unsafe.Pointer(pCtx)).FiOp
(*AuxData)(unsafe.Pointer(pAuxData)).FiAuxArg = iArg
(*AuxData)(unsafe.Pointer(pAuxData)).FpNextAux = (*Vdbe)(unsafe.Pointer(pVdbe)).FpAuxData
(*Vdbe)(unsafe.Pointer(pVdbe)).FpAuxData = pAuxData
if !((*Sqlite3_context)(unsafe.Pointer(pCtx)).FisError == 0) {
goto __9
}
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FisError = -1
__9:
;
goto __7
__6:
if !((*AuxData)(unsafe.Pointer(pAuxData)).FxDeleteAux != 0) {
goto __10
}
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*AuxData)(unsafe.Pointer(pAuxData)).FxDeleteAux})).f(tls, (*AuxData)(unsafe.Pointer(pAuxData)).FpAux)
__10:
;
__7:
;
(*AuxData)(unsafe.Pointer(pAuxData)).FpAux = pAux
(*AuxData)(unsafe.Pointer(pAuxData)).FxDeleteAux = xDelete
return
failed:
if !(xDelete != 0) {
goto __11
}
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{xDelete})).f(tls, pAux)
__11:
}
// Return the number of times the Step function of an aggregate has been
// called.
//
// This function is deprecated. Do not use it for new code. It is
// provide only to avoid breaking legacy code. New aggregate function
// implementations should keep their own counts within their aggregate
// context.
func Xsqlite3_aggregate_count(tls *libc.TLS, p uintptr) int32 {
return (*Mem)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(p)).FpMem)).Fn
}
// Return the number of columns in the result set for the statement pStmt.
func Xsqlite3_column_count(tls *libc.TLS, pStmt uintptr) int32 {
var pVm uintptr = pStmt
if pVm != 0 {
return int32((*Vdbe)(unsafe.Pointer(pVm)).FnResColumn)
}
return 0
}
// Return the number of values available from the current row of the
// currently executing statement pStmt.
func Xsqlite3_data_count(tls *libc.TLS, pStmt uintptr) int32 {
var pVm uintptr = pStmt
if pVm == uintptr(0) || (*Vdbe)(unsafe.Pointer(pVm)).FpResultRow == uintptr(0) {
return 0
}
return int32((*Vdbe)(unsafe.Pointer(pVm)).FnResColumn)
}
func columnNullValue(tls *libc.TLS) uintptr {
return uintptr(unsafe.Pointer(&nullMem))
}
var nullMem = Mem{
Fflags: U16(MEM_Null),
}
func columnMem(tls *libc.TLS, pStmt uintptr, i int32) uintptr {
var pVm uintptr
var pOut uintptr
pVm = pStmt
if pVm == uintptr(0) {
return columnNullValue(tls)
}
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(pVm)).Fdb)).Fmutex)
if (*Vdbe)(unsafe.Pointer(pVm)).FpResultRow != uintptr(0) && i < int32((*Vdbe)(unsafe.Pointer(pVm)).FnResColumn) && i >= 0 {
pOut = (*Vdbe)(unsafe.Pointer(pVm)).FpResultRow + uintptr(i)*56
} else {
Xsqlite3Error(tls, (*Vdbe)(unsafe.Pointer(pVm)).Fdb, SQLITE_RANGE)
pOut = columnNullValue(tls)
}
return pOut
}
func columnMallocFailure(tls *libc.TLS, pStmt uintptr) {
var p uintptr = pStmt
if p != 0 {
(*Vdbe)(unsafe.Pointer(p)).Frc = Xsqlite3ApiExit(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, (*Vdbe)(unsafe.Pointer(p)).Frc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fmutex)
}
}
// *************************** sqlite3_column_ *******************************
//
// The following routines are used to access elements of the current row
// in the result set.
func Xsqlite3_column_blob(tls *libc.TLS, pStmt uintptr, i int32) uintptr {
var val uintptr
val = Xsqlite3_value_blob(tls, columnMem(tls, pStmt, i))
columnMallocFailure(tls, pStmt)
return val
}
func Xsqlite3_column_bytes(tls *libc.TLS, pStmt uintptr, i int32) int32 {
var val int32 = Xsqlite3_value_bytes(tls, columnMem(tls, pStmt, i))
columnMallocFailure(tls, pStmt)
return val
}
func Xsqlite3_column_bytes16(tls *libc.TLS, pStmt uintptr, i int32) int32 {
var val int32 = Xsqlite3_value_bytes16(tls, columnMem(tls, pStmt, i))
columnMallocFailure(tls, pStmt)
return val
}
func Xsqlite3_column_double(tls *libc.TLS, pStmt uintptr, i int32) float64 {
var val float64 = Xsqlite3_value_double(tls, columnMem(tls, pStmt, i))
columnMallocFailure(tls, pStmt)
return val
}
func Xsqlite3_column_int(tls *libc.TLS, pStmt uintptr, i int32) int32 {
var val int32 = Xsqlite3_value_int(tls, columnMem(tls, pStmt, i))
columnMallocFailure(tls, pStmt)
return val
}
func Xsqlite3_column_int64(tls *libc.TLS, pStmt uintptr, i int32) Sqlite_int64 {
var val Sqlite_int64 = Xsqlite3_value_int64(tls, columnMem(tls, pStmt, i))
columnMallocFailure(tls, pStmt)
return val
}
func Xsqlite3_column_text(tls *libc.TLS, pStmt uintptr, i int32) uintptr {
var val uintptr = Xsqlite3_value_text(tls, columnMem(tls, pStmt, i))
columnMallocFailure(tls, pStmt)
return val
}
func Xsqlite3_column_value(tls *libc.TLS, pStmt uintptr, i int32) uintptr {
var pOut uintptr = columnMem(tls, pStmt, i)
if int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&MEM_Static != 0 {
*(*U16)(unsafe.Pointer(pOut + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Static))
*(*U16)(unsafe.Pointer(pOut + 20)) |= U16(MEM_Ephem)
}
columnMallocFailure(tls, pStmt)
return pOut
}
func Xsqlite3_column_text16(tls *libc.TLS, pStmt uintptr, i int32) uintptr {
var val uintptr = Xsqlite3_value_text16(tls, columnMem(tls, pStmt, i))
columnMallocFailure(tls, pStmt)
return val
}
func Xsqlite3_column_type(tls *libc.TLS, pStmt uintptr, i int32) int32 {
var iType int32 = Xsqlite3_value_type(tls, columnMem(tls, pStmt, i))
columnMallocFailure(tls, pStmt)
return iType
}
func columnName(tls *libc.TLS, pStmt uintptr, N int32, useUtf16 int32, useType int32) uintptr {
var ret uintptr
var p uintptr
var n int32
var db uintptr
ret = uintptr(0)
p = pStmt
db = (*Vdbe)(unsafe.Pointer(p)).Fdb
n = Xsqlite3_column_count(tls, pStmt)
if N < n && N >= 0 {
N = N + useType*n
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if useUtf16 != 0 {
ret = Xsqlite3_value_text16(tls, (*Vdbe)(unsafe.Pointer(p)).FaColName+uintptr(N)*56)
} else {
ret = Xsqlite3_value_text(tls, (*Vdbe)(unsafe.Pointer(p)).FaColName+uintptr(N)*56)
}
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
Xsqlite3OomClear(tls, db)
ret = uintptr(0)
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
}
return ret
}
// Return the name of the Nth column of the result set returned by SQL
// statement pStmt.
func Xsqlite3_column_name(tls *libc.TLS, pStmt uintptr, N int32) uintptr {
return columnName(tls, pStmt, N, 0, COLNAME_NAME)
}
func Xsqlite3_column_name16(tls *libc.TLS, pStmt uintptr, N int32) uintptr {
return columnName(tls, pStmt, N, 1, COLNAME_NAME)
}
// Return the column declaration type (if applicable) of the 'i'th column
// of the result set of SQL statement pStmt.
func Xsqlite3_column_decltype(tls *libc.TLS, pStmt uintptr, N int32) uintptr {
return columnName(tls, pStmt, N, 0, COLNAME_DECLTYPE)
}
func Xsqlite3_column_decltype16(tls *libc.TLS, pStmt uintptr, N int32) uintptr {
return columnName(tls, pStmt, N, 1, COLNAME_DECLTYPE)
}
// Return the name of the database from which a result column derives.
// NULL is returned if the result column is an expression or constant or
// anything else which is not an unambiguous reference to a database column.
func Xsqlite3_column_database_name(tls *libc.TLS, pStmt uintptr, N int32) uintptr {
return columnName(tls, pStmt, N, 0, COLNAME_DATABASE)
}
func Xsqlite3_column_database_name16(tls *libc.TLS, pStmt uintptr, N int32) uintptr {
return columnName(tls, pStmt, N, 1, COLNAME_DATABASE)
}
// Return the name of the table from which a result column derives.
// NULL is returned if the result column is an expression or constant or
// anything else which is not an unambiguous reference to a database column.
func Xsqlite3_column_table_name(tls *libc.TLS, pStmt uintptr, N int32) uintptr {
return columnName(tls, pStmt, N, 0, COLNAME_TABLE)
}
func Xsqlite3_column_table_name16(tls *libc.TLS, pStmt uintptr, N int32) uintptr {
return columnName(tls, pStmt, N, 1, COLNAME_TABLE)
}
// Return the name of the table column from which a result column derives.
// NULL is returned if the result column is an expression or constant or
// anything else which is not an unambiguous reference to a database column.
func Xsqlite3_column_origin_name(tls *libc.TLS, pStmt uintptr, N int32) uintptr {
return columnName(tls, pStmt, N, 0, COLNAME_COLUMN)
}
func Xsqlite3_column_origin_name16(tls *libc.TLS, pStmt uintptr, N int32) uintptr {
return columnName(tls, pStmt, N, 1, COLNAME_COLUMN)
}
func vdbeUnbind(tls *libc.TLS, p uintptr, i uint32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pVar uintptr
if vdbeSafetyNotNull(tls, p) != 0 {
return Xsqlite3MisuseError(tls, 89208)
}
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fmutex)
if int32((*Vdbe)(unsafe.Pointer(p)).FeVdbeState) != VDBE_READY_STATE {
Xsqlite3Error(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, SQLITE_MISUSE)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fmutex)
Xsqlite3_log(tls, SQLITE_MISUSE,
ts+5760, libc.VaList(bp, (*Vdbe)(unsafe.Pointer(p)).FzSql))
return Xsqlite3MisuseError(tls, 89216)
}
if i >= uint32((*Vdbe)(unsafe.Pointer(p)).FnVar) {
Xsqlite3Error(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, SQLITE_RANGE)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fmutex)
return SQLITE_RANGE
}
pVar = (*Vdbe)(unsafe.Pointer(p)).FaVar + uintptr(i)*56
Xsqlite3VdbeMemRelease(tls, pVar)
(*Mem)(unsafe.Pointer(pVar)).Fflags = U16(MEM_Null)
(*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).FerrCode = SQLITE_OK
if (*Vdbe)(unsafe.Pointer(p)).Fexpmask != U32(0) && (*Vdbe)(unsafe.Pointer(p)).Fexpmask&func() uint32 {
if i >= uint32(31) {
return 0x80000000
}
return U32(1) << i
}() != U32(0) {
libc.SetBitFieldPtr8Uint32(p+200, Bft(1), 0, 0x3)
}
return SQLITE_OK
}
func bindText(tls *libc.TLS, pStmt uintptr, i int32, zData uintptr, nData I64, xDel uintptr, encoding U8) int32 {
var p uintptr = pStmt
var pVar uintptr
var rc int32
rc = vdbeUnbind(tls, p, U32(i-1))
if rc == SQLITE_OK {
if zData != uintptr(0) {
pVar = (*Vdbe)(unsafe.Pointer(p)).FaVar + uintptr(i-1)*56
rc = Xsqlite3VdbeMemSetStr(tls, pVar, zData, nData, encoding, xDel)
if rc == SQLITE_OK && int32(encoding) != 0 {
rc = Xsqlite3VdbeChangeEncoding(tls, pVar, int32((*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fenc))
}
if rc != 0 {
Xsqlite3Error(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, rc)
rc = Xsqlite3ApiExit(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, rc)
}
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fmutex)
} else if xDel != uintptr(0) && xDel != libc.UintptrFromInt32(-1) {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{xDel})).f(tls, zData)
}
return rc
}
// Bind a blob value to an SQL statement variable.
func Xsqlite3_bind_blob(tls *libc.TLS, pStmt uintptr, i int32, zData uintptr, nData int32, xDel uintptr) int32 {
return bindText(tls, pStmt, i, zData, int64(nData), xDel, uint8(0))
}
func Xsqlite3_bind_blob64(tls *libc.TLS, pStmt uintptr, i int32, zData uintptr, nData Sqlite3_uint64, xDel uintptr) int32 {
return bindText(tls, pStmt, i, zData, int64(nData), xDel, uint8(0))
}
func Xsqlite3_bind_double(tls *libc.TLS, pStmt uintptr, i int32, rValue float64) int32 {
var rc int32
var p uintptr = pStmt
rc = vdbeUnbind(tls, p, U32(i-1))
if rc == SQLITE_OK {
Xsqlite3VdbeMemSetDouble(tls, (*Vdbe)(unsafe.Pointer(p)).FaVar+uintptr(i-1)*56, rValue)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fmutex)
}
return rc
}
func Xsqlite3_bind_int(tls *libc.TLS, p uintptr, i int32, iValue int32) int32 {
return Xsqlite3_bind_int64(tls, p, i, I64(iValue))
}
func Xsqlite3_bind_int64(tls *libc.TLS, pStmt uintptr, i int32, iValue Sqlite_int64) int32 {
var rc int32
var p uintptr = pStmt
rc = vdbeUnbind(tls, p, U32(i-1))
if rc == SQLITE_OK {
Xsqlite3VdbeMemSetInt64(tls, (*Vdbe)(unsafe.Pointer(p)).FaVar+uintptr(i-1)*56, iValue)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fmutex)
}
return rc
}
func Xsqlite3_bind_null(tls *libc.TLS, pStmt uintptr, i int32) int32 {
var rc int32
var p uintptr = pStmt
rc = vdbeUnbind(tls, p, U32(i-1))
if rc == SQLITE_OK {
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fmutex)
}
return rc
}
func Xsqlite3_bind_pointer(tls *libc.TLS, pStmt uintptr, i int32, pPtr uintptr, zPTtype uintptr, xDestructor uintptr) int32 {
var rc int32
var p uintptr = pStmt
rc = vdbeUnbind(tls, p, U32(i-1))
if rc == SQLITE_OK {
Xsqlite3VdbeMemSetPointer(tls, (*Vdbe)(unsafe.Pointer(p)).FaVar+uintptr(i-1)*56, pPtr, zPTtype, xDestructor)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fmutex)
} else if xDestructor != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{xDestructor})).f(tls, pPtr)
}
return rc
}
func Xsqlite3_bind_text(tls *libc.TLS, pStmt uintptr, i int32, zData uintptr, nData int32, xDel uintptr) int32 {
return bindText(tls, pStmt, i, zData, int64(nData), xDel, uint8(SQLITE_UTF8))
}
func Xsqlite3_bind_text64(tls *libc.TLS, pStmt uintptr, i int32, zData uintptr, nData Sqlite3_uint64, xDel uintptr, enc uint8) int32 {
if int32(enc) != SQLITE_UTF8 {
if int32(enc) == SQLITE_UTF16 {
enc = uint8(SQLITE_UTF16LE)
}
nData = nData & libc.Uint64FromInt32(libc.CplInt32(int32(U16(1))))
}
return bindText(tls, pStmt, i, zData, int64(nData), xDel, enc)
}
func Xsqlite3_bind_text16(tls *libc.TLS, pStmt uintptr, i int32, zData uintptr, n int32, xDel uintptr) int32 {
return bindText(tls, pStmt, i, zData, int64(U64(n)&libc.CplUint64(uint64(1))), xDel, uint8(SQLITE_UTF16LE))
}
func Xsqlite3_bind_value(tls *libc.TLS, pStmt uintptr, i int32, pValue uintptr) int32 {
var rc int32
switch Xsqlite3_value_type(tls, pValue) {
case SQLITE_INTEGER:
{
rc = Xsqlite3_bind_int64(tls, pStmt, i, *(*I64)(unsafe.Pointer(pValue)))
break
}
case SQLITE_FLOAT:
{
rc = Xsqlite3_bind_double(tls, pStmt, i,
func() float64 {
if int32((*Sqlite3_value)(unsafe.Pointer(pValue)).Fflags)&MEM_Real != 0 {
return *(*float64)(unsafe.Pointer(pValue))
}
return float64(*(*I64)(unsafe.Pointer(pValue)))
}())
break
}
case SQLITE_BLOB:
{
if int32((*Sqlite3_value)(unsafe.Pointer(pValue)).Fflags)&MEM_Zero != 0 {
rc = Xsqlite3_bind_zeroblob(tls, pStmt, i, *(*int32)(unsafe.Pointer(pValue)))
} else {
rc = Xsqlite3_bind_blob(tls, pStmt, i, (*Sqlite3_value)(unsafe.Pointer(pValue)).Fz, (*Sqlite3_value)(unsafe.Pointer(pValue)).Fn, libc.UintptrFromInt32(-1))
}
break
}
case SQLITE_TEXT:
{
rc = bindText(tls, pStmt, i, (*Sqlite3_value)(unsafe.Pointer(pValue)).Fz, int64((*Sqlite3_value)(unsafe.Pointer(pValue)).Fn), libc.UintptrFromInt32(-1),
(*Sqlite3_value)(unsafe.Pointer(pValue)).Fenc)
break
}
default:
{
rc = Xsqlite3_bind_null(tls, pStmt, i)
break
}
}
return rc
}
func Xsqlite3_bind_zeroblob(tls *libc.TLS, pStmt uintptr, i int32, n int32) int32 {
var rc int32
var p uintptr = pStmt
rc = vdbeUnbind(tls, p, U32(i-1))
if rc == SQLITE_OK {
Xsqlite3VdbeMemSetZeroBlob(tls, (*Vdbe)(unsafe.Pointer(p)).FaVar+uintptr(i-1)*56, n)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fmutex)
}
return rc
}
func Xsqlite3_bind_zeroblob64(tls *libc.TLS, pStmt uintptr, i int32, n Sqlite3_uint64) int32 {
var rc int32
var p uintptr = pStmt
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fmutex)
if n > U64(*(*int32)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb + 136))) {
rc = SQLITE_TOOBIG
} else {
rc = Xsqlite3_bind_zeroblob(tls, pStmt, i, int32(n))
}
rc = Xsqlite3ApiExit(tls, (*Vdbe)(unsafe.Pointer(p)).Fdb, rc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fmutex)
return rc
}
// Return the number of wildcards that can be potentially bound to.
// This routine is added to support DBD::SQLite.
func Xsqlite3_bind_parameter_count(tls *libc.TLS, pStmt uintptr) int32 {
var p uintptr = pStmt
if p != 0 {
return int32((*Vdbe)(unsafe.Pointer(p)).FnVar)
}
return 0
}
// Return the name of a wildcard parameter. Return NULL if the index
// is out of range or if the wildcard is unnamed.
//
// The result is always UTF-8.
func Xsqlite3_bind_parameter_name(tls *libc.TLS, pStmt uintptr, i int32) uintptr {
var p uintptr = pStmt
if p == uintptr(0) {
return uintptr(0)
}
return Xsqlite3VListNumToName(tls, (*Vdbe)(unsafe.Pointer(p)).FpVList, i)
}
// Given a wildcard parameter name, return the index of the variable
// with that name. If there is no variable with the given name,
// return 0.
func Xsqlite3VdbeParameterIndex(tls *libc.TLS, p uintptr, zName uintptr, nName int32) int32 {
if p == uintptr(0) || zName == uintptr(0) {
return 0
}
return Xsqlite3VListNameToNum(tls, (*Vdbe)(unsafe.Pointer(p)).FpVList, zName, nName)
}
func Xsqlite3_bind_parameter_index(tls *libc.TLS, pStmt uintptr, zName uintptr) int32 {
return Xsqlite3VdbeParameterIndex(tls, pStmt, zName, Xsqlite3Strlen30(tls, zName))
}
// Transfer all bindings from the first statement over to the second.
func Xsqlite3TransferBindings(tls *libc.TLS, pFromStmt uintptr, pToStmt uintptr) int32 {
var pFrom uintptr = pFromStmt
var pTo uintptr = pToStmt
var i int32
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(pTo)).Fdb)).Fmutex)
for i = 0; i < int32((*Vdbe)(unsafe.Pointer(pFrom)).FnVar); i++ {
Xsqlite3VdbeMemMove(tls, (*Vdbe)(unsafe.Pointer(pTo)).FaVar+uintptr(i)*56, (*Vdbe)(unsafe.Pointer(pFrom)).FaVar+uintptr(i)*56)
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(pTo)).Fdb)).Fmutex)
return SQLITE_OK
}
// Deprecated external interface. Internal/core SQLite code
// should call sqlite3TransferBindings.
//
// It is misuse to call this routine with statements from different
// database connections. But as this is a deprecated interface, we
// will not bother to check for that condition.
//
// If the two statements contain a different number of bindings, then
// an SQLITE_ERROR is returned. Nothing else can go wrong, so otherwise
// SQLITE_OK is returned.
func Xsqlite3_transfer_bindings(tls *libc.TLS, pFromStmt uintptr, pToStmt uintptr) int32 {
var pFrom uintptr = pFromStmt
var pTo uintptr = pToStmt
if int32((*Vdbe)(unsafe.Pointer(pFrom)).FnVar) != int32((*Vdbe)(unsafe.Pointer(pTo)).FnVar) {
return SQLITE_ERROR
}
if (*Vdbe)(unsafe.Pointer(pTo)).Fexpmask != 0 {
libc.SetBitFieldPtr8Uint32(pTo+200, Bft(1), 0, 0x3)
}
if (*Vdbe)(unsafe.Pointer(pFrom)).Fexpmask != 0 {
libc.SetBitFieldPtr8Uint32(pFrom+200, Bft(1), 0, 0x3)
}
return Xsqlite3TransferBindings(tls, pFromStmt, pToStmt)
}
// Return the sqlite3* database handle to which the prepared statement given
// in the argument belongs. This is the same database handle that was
// the first argument to the sqlite3_prepare() that was used to create
// the statement in the first place.
func Xsqlite3_db_handle(tls *libc.TLS, pStmt uintptr) uintptr {
if pStmt != 0 {
return (*Vdbe)(unsafe.Pointer(pStmt)).Fdb
}
return uintptr(0)
}
// Return true if the prepared statement is guaranteed to not modify the
// database.
func Xsqlite3_stmt_readonly(tls *libc.TLS, pStmt uintptr) int32 {
if pStmt != 0 {
return int32(*(*uint8)(unsafe.Pointer(pStmt + 200)) & 0x40 >> 6)
}
return 1
}
// Return 1 if the statement is an EXPLAIN and return 2 if the
// statement is an EXPLAIN QUERY PLAN
func Xsqlite3_stmt_isexplain(tls *libc.TLS, pStmt uintptr) int32 {
if pStmt != 0 {
return int32(*(*uint8)(unsafe.Pointer(pStmt + 200)) & 0xc >> 2)
}
return 0
}
// Return true if the prepared statement is in need of being reset.
func Xsqlite3_stmt_busy(tls *libc.TLS, pStmt uintptr) int32 {
var v uintptr = pStmt
return libc.Bool32(v != uintptr(0) && int32((*Vdbe)(unsafe.Pointer(v)).FeVdbeState) == VDBE_RUN_STATE)
}
// Return a pointer to the next prepared statement after pStmt associated
// with database connection pDb. If pStmt is NULL, return the first
// prepared statement for the database connection. Return NULL if there
// are no more.
func Xsqlite3_next_stmt(tls *libc.TLS, pDb uintptr, pStmt uintptr) uintptr {
var pNext uintptr
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(pDb)).Fmutex)
if pStmt == uintptr(0) {
pNext = (*Sqlite3)(unsafe.Pointer(pDb)).FpVdbe
} else {
pNext = (*Vdbe)(unsafe.Pointer(pStmt)).FpVNext
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(pDb)).Fmutex)
return pNext
}
// Return the value of a status counter for a prepared statement
func Xsqlite3_stmt_status(tls *libc.TLS, pStmt uintptr, op int32, resetFlag int32) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pVdbe uintptr = pStmt
if op == SQLITE_STMTSTATUS_MEMUSED {
var db uintptr = (*Vdbe)(unsafe.Pointer(pVdbe)).Fdb
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
*(*U32)(unsafe.Pointer(bp)) = U32(0)
(*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed = bp
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpEnd = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpStart
Xsqlite3VdbeDelete(tls, pVdbe)
(*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpEnd = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpTrueEnd
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
} else {
*(*U32)(unsafe.Pointer(bp)) = *(*U32)(unsafe.Pointer(pVdbe + 212 + uintptr(op)*4))
if resetFlag != 0 {
*(*U32)(unsafe.Pointer(pVdbe + 212 + uintptr(op)*4)) = U32(0)
}
}
return int32(*(*U32)(unsafe.Pointer(bp)))
}
// Return the SQL associated with a prepared statement
func Xsqlite3_sql(tls *libc.TLS, pStmt uintptr) uintptr {
var p uintptr = pStmt
if p != 0 {
return (*Vdbe)(unsafe.Pointer(p)).FzSql
}
return uintptr(0)
}
// Return the SQL associated with a prepared statement with
// bound parameters expanded. Space to hold the returned string is
// obtained from sqlite3_malloc(). The caller is responsible for
// freeing the returned string by passing it to sqlite3_free().
//
// The SQLITE_TRACE_SIZE_LIMIT puts an upper bound on the size of
// expanded bound parameters.
func Xsqlite3_expanded_sql(tls *libc.TLS, pStmt uintptr) uintptr {
var z uintptr = uintptr(0)
var zSql uintptr = Xsqlite3_sql(tls, pStmt)
if zSql != 0 {
var p uintptr = pStmt
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fmutex)
z = Xsqlite3VdbeExpandSql(tls, p, zSql)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).Fmutex)
}
return z
}
func vdbeUnpackRecord(tls *libc.TLS, pKeyInfo uintptr, nKey int32, pKey uintptr) uintptr {
var pRet uintptr
pRet = Xsqlite3VdbeAllocUnpackedRecord(tls, pKeyInfo)
if pRet != 0 {
libc.X__builtin___memset_chk(tls, (*UnpackedRecord)(unsafe.Pointer(pRet)).FaMem, 0, uint64(unsafe.Sizeof(Mem{}))*uint64(int32((*KeyInfo)(unsafe.Pointer(pKeyInfo)).FnKeyField)+1), libc.X__builtin_object_size(tls, (*UnpackedRecord)(unsafe.Pointer(pRet)).FaMem, 0))
Xsqlite3VdbeRecordUnpack(tls, pKeyInfo, nKey, pKey, pRet)
}
return pRet
}
// This function is called from within a pre-update callback to retrieve
// a field of the row currently being updated or deleted.
func Xsqlite3_preupdate_old(tls *libc.TLS, db uintptr, iIdx int32, ppValue uintptr) int32 {
var p uintptr
var pMem uintptr
var rc int32
var nRec U32
var aRec uintptr
p = (*Sqlite3)(unsafe.Pointer(db)).FpPreUpdate
rc = SQLITE_OK
if !(!(p != 0) || (*PreUpdate)(unsafe.Pointer(p)).Fop == SQLITE_INSERT) {
goto __1
}
rc = Xsqlite3MisuseError(tls, 89707)
goto preupdate_old_out
__1:
;
if !((*PreUpdate)(unsafe.Pointer(p)).FpPk != 0) {
goto __2
}
iIdx = int32(Xsqlite3TableColumnToIndex(tls, (*PreUpdate)(unsafe.Pointer(p)).FpPk, int16(iIdx)))
__2:
;
if !(iIdx >= int32((*VdbeCursor)(unsafe.Pointer((*PreUpdate)(unsafe.Pointer(p)).FpCsr)).FnField) || iIdx < 0) {
goto __3
}
rc = SQLITE_RANGE
goto preupdate_old_out
__3:
;
if !((*PreUpdate)(unsafe.Pointer(p)).FpUnpacked == uintptr(0)) {
goto __4
}
nRec = Xsqlite3BtreePayloadSize(tls, *(*uintptr)(unsafe.Pointer((*PreUpdate)(unsafe.Pointer(p)).FpCsr + 48)))
aRec = Xsqlite3DbMallocRaw(tls, db, uint64(nRec))
if !!(aRec != 0) {
goto __5
}
goto preupdate_old_out
__5:
;
rc = Xsqlite3BtreePayload(tls, *(*uintptr)(unsafe.Pointer((*PreUpdate)(unsafe.Pointer(p)).FpCsr + 48)), uint32(0), nRec, aRec)
if !(rc == SQLITE_OK) {
goto __6
}
(*PreUpdate)(unsafe.Pointer(p)).FpUnpacked = vdbeUnpackRecord(tls, p+32, int32(nRec), aRec)
if !!(int32((*PreUpdate)(unsafe.Pointer(p)).FpUnpacked) != 0) {
goto __7
}
rc = SQLITE_NOMEM
__7:
;
__6:
;
if !(rc != SQLITE_OK) {
goto __8
}
Xsqlite3DbFree(tls, db, aRec)
goto preupdate_old_out
__8:
;
(*PreUpdate)(unsafe.Pointer(p)).FaRecord = aRec
__4:
;
pMem = libc.AssignPtrUintptr(ppValue, (*UnpackedRecord)(unsafe.Pointer((*PreUpdate)(unsafe.Pointer(p)).FpUnpacked)).FaMem+uintptr(iIdx)*56)
if !(iIdx == int32((*Table)(unsafe.Pointer((*PreUpdate)(unsafe.Pointer(p)).FpTab)).FiPKey)) {
goto __9
}
Xsqlite3VdbeMemSetInt64(tls, pMem, (*PreUpdate)(unsafe.Pointer(p)).FiKey1)
goto __10
__9:
if !(iIdx >= int32((*UnpackedRecord)(unsafe.Pointer((*PreUpdate)(unsafe.Pointer(p)).FpUnpacked)).FnField)) {
goto __11
}
*(*uintptr)(unsafe.Pointer(ppValue)) = columnNullValue(tls)
goto __12
__11:
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer((*PreUpdate)(unsafe.Pointer(p)).FpTab)).FaCol+uintptr(iIdx)*24)).Faffinity) == SQLITE_AFF_REAL) {
goto __13
}
if !(int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&(MEM_Int|MEM_IntReal) != 0) {
goto __14
}
Xsqlite3VdbeMemRealify(tls, pMem)
__14:
;
__13:
;
__12:
;
__10:
;
preupdate_old_out:
Xsqlite3Error(tls, db, rc)
return Xsqlite3ApiExit(tls, db, rc)
}
// This function is called from within a pre-update callback to retrieve
// the number of columns in the row being updated, deleted or inserted.
func Xsqlite3_preupdate_count(tls *libc.TLS, db uintptr) int32 {
var p uintptr = (*Sqlite3)(unsafe.Pointer(db)).FpPreUpdate
return func() int32 {
if p != 0 {
return int32((*PreUpdate)(unsafe.Pointer(p)).Fkeyinfo.FnKeyField)
}
return 0
}()
}
// This function is designed to be called from within a pre-update callback
// only. It returns zero if the change that caused the callback was made
// immediately by a user SQL statement. Or, if the change was made by a
// trigger program, it returns the number of trigger programs currently
// on the stack (1 for a top-level trigger, 2 for a trigger fired by a
// top-level trigger etc.).
//
// For the purposes of the previous paragraph, a foreign key CASCADE, SET NULL
// or SET DEFAULT action is considered a trigger.
func Xsqlite3_preupdate_depth(tls *libc.TLS, db uintptr) int32 {
var p uintptr = (*Sqlite3)(unsafe.Pointer(db)).FpPreUpdate
return func() int32 {
if p != 0 {
return (*Vdbe)(unsafe.Pointer((*PreUpdate)(unsafe.Pointer(p)).Fv)).FnFrame
}
return 0
}()
}
// This function is designed to be called from within a pre-update callback
// only.
func Xsqlite3_preupdate_blobwrite(tls *libc.TLS, db uintptr) int32 {
var p uintptr = (*Sqlite3)(unsafe.Pointer(db)).FpPreUpdate
return func() int32 {
if p != 0 {
return (*PreUpdate)(unsafe.Pointer(p)).FiBlobWrite
}
return -1
}()
}
// This function is called from within a pre-update callback to retrieve
// a field of the row currently being updated or inserted.
func Xsqlite3_preupdate_new(tls *libc.TLS, db uintptr, iIdx int32, ppValue uintptr) int32 {
var p uintptr
var rc int32
var pMem uintptr
var pData uintptr
var pUnpack uintptr
p = (*Sqlite3)(unsafe.Pointer(db)).FpPreUpdate
rc = SQLITE_OK
if !(!(p != 0) || (*PreUpdate)(unsafe.Pointer(p)).Fop == SQLITE_DELETE) {
goto __1
}
rc = Xsqlite3MisuseError(tls, 89809)
goto preupdate_new_out
__1:
;
if !((*PreUpdate)(unsafe.Pointer(p)).FpPk != 0 && (*PreUpdate)(unsafe.Pointer(p)).Fop != SQLITE_UPDATE) {
goto __2
}
iIdx = int32(Xsqlite3TableColumnToIndex(tls, (*PreUpdate)(unsafe.Pointer(p)).FpPk, int16(iIdx)))
__2:
;
if !(iIdx >= int32((*VdbeCursor)(unsafe.Pointer((*PreUpdate)(unsafe.Pointer(p)).FpCsr)).FnField) || iIdx < 0) {
goto __3
}
rc = SQLITE_RANGE
goto preupdate_new_out
__3:
;
if !((*PreUpdate)(unsafe.Pointer(p)).Fop == SQLITE_INSERT) {
goto __4
}
pUnpack = (*PreUpdate)(unsafe.Pointer(p)).FpNewUnpacked
if !!(pUnpack != 0) {
goto __6
}
pData = (*Vdbe)(unsafe.Pointer((*PreUpdate)(unsafe.Pointer(p)).Fv)).FaMem + uintptr((*PreUpdate)(unsafe.Pointer(p)).FiNewReg)*56
rc = func() int32 {
if int32((*Mem)(unsafe.Pointer(pData)).Fflags)&MEM_Zero != 0 {
return Xsqlite3VdbeMemExpandBlob(tls, pData)
}
return 0
}()
if !(rc != SQLITE_OK) {
goto __7
}
goto preupdate_new_out
__7:
;
pUnpack = vdbeUnpackRecord(tls, p+32, (*Mem)(unsafe.Pointer(pData)).Fn, (*Mem)(unsafe.Pointer(pData)).Fz)
if !!(pUnpack != 0) {
goto __8
}
rc = SQLITE_NOMEM
goto preupdate_new_out
__8:
;
(*PreUpdate)(unsafe.Pointer(p)).FpNewUnpacked = pUnpack
__6:
;
pMem = (*UnpackedRecord)(unsafe.Pointer(pUnpack)).FaMem + uintptr(iIdx)*56
if !(iIdx == int32((*Table)(unsafe.Pointer((*PreUpdate)(unsafe.Pointer(p)).FpTab)).FiPKey)) {
goto __9
}
Xsqlite3VdbeMemSetInt64(tls, pMem, (*PreUpdate)(unsafe.Pointer(p)).FiKey2)
goto __10
__9:
if !(iIdx >= int32((*UnpackedRecord)(unsafe.Pointer(pUnpack)).FnField)) {
goto __11
}
pMem = columnNullValue(tls)
__11:
;
__10:
;
goto __5
__4:
;
if !!(int32((*PreUpdate)(unsafe.Pointer(p)).FaNew) != 0) {
goto __12
}
(*PreUpdate)(unsafe.Pointer(p)).FaNew = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Mem{}))*uint64((*VdbeCursor)(unsafe.Pointer((*PreUpdate)(unsafe.Pointer(p)).FpCsr)).FnField))
if !!(int32((*PreUpdate)(unsafe.Pointer(p)).FaNew) != 0) {
goto __13
}
rc = SQLITE_NOMEM
goto preupdate_new_out
__13:
;
__12:
;
pMem = (*PreUpdate)(unsafe.Pointer(p)).FaNew + uintptr(iIdx)*56
if !(int32((*Mem)(unsafe.Pointer(pMem)).Fflags) == 0) {
goto __14
}
if !(iIdx == int32((*Table)(unsafe.Pointer((*PreUpdate)(unsafe.Pointer(p)).FpTab)).FiPKey)) {
goto __15
}
Xsqlite3VdbeMemSetInt64(tls, pMem, (*PreUpdate)(unsafe.Pointer(p)).FiKey2)
goto __16
__15:
rc = Xsqlite3VdbeMemCopy(tls, pMem, (*Vdbe)(unsafe.Pointer((*PreUpdate)(unsafe.Pointer(p)).Fv)).FaMem+uintptr((*PreUpdate)(unsafe.Pointer(p)).FiNewReg+1+iIdx)*56)
if !(rc != SQLITE_OK) {
goto __17
}
goto preupdate_new_out
__17:
;
__16:
;
__14:
;
__5:
;
*(*uintptr)(unsafe.Pointer(ppValue)) = pMem
preupdate_new_out:
Xsqlite3Error(tls, db, rc)
return Xsqlite3ApiExit(tls, db, rc)
}
func findNextHostParameter(tls *libc.TLS, zSql uintptr, pnToken uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var nTotal int32 = 0
var n int32
*(*int32)(unsafe.Pointer(pnToken)) = 0
for *(*int8)(unsafe.Pointer(zSql)) != 0 {
n = Xsqlite3GetToken(tls, zSql, bp)
if *(*int32)(unsafe.Pointer(bp)) == TK_VARIABLE {
*(*int32)(unsafe.Pointer(pnToken)) = n
break
}
nTotal = nTotal + n
zSql += uintptr(n)
}
return nTotal
}
// This function returns a pointer to a nul-terminated string in memory
// obtained from sqlite3DbMalloc(). If sqlite3.nVdbeExec is 1, then the
// string contains a copy of zRawSql but with host parameters expanded to
// their current bindings. Or, if sqlite3.nVdbeExec is greater than 1,
// then the returned string holds a copy of zRawSql with "-- " prepended
// to each line of text.
//
// If the SQLITE_TRACE_SIZE_LIMIT macro is defined to an integer, then
// then long strings and blobs are truncated to that many bytes. This
// can be used to prevent unreasonably large trace strings when dealing
// with large (multi-megabyte) strings and blobs.
//
// The calling function is responsible for making sure the memory returned
// is eventually freed.
//
// ALGORITHM: Scan the input string looking for host parameters in any of
// these forms: ?, ?N, $A, @A, :A. Take care to avoid text within
// string literals, quoted identifier names, and comments. For text forms,
// the host parameter index is found by scanning the prepared
// statement for the corresponding OP_Variable opcode. Once the host
// parameter index is known, locate the value in p->aVar[]. Then render
// the value as a literal in place of the host parameter name.
func Xsqlite3VdbeExpandSql(tls *libc.TLS, p uintptr, zRawSql uintptr) uintptr {
bp := tls.Alloc(144)
defer tls.Free(144)
var db uintptr
*(*int32)(unsafe.Pointer(bp + 84)) = 0
var nextIndex int32 = 1
var n int32
var i int32
var pVar uintptr
db = (*Vdbe)(unsafe.Pointer(p)).Fdb
Xsqlite3StrAccumInit(tls, bp+48, uintptr(0), uintptr(0), 0, *(*int32)(unsafe.Pointer(db + 136)))
if (*Sqlite3)(unsafe.Pointer(db)).FnVdbeExec > 1 {
for *(*int8)(unsafe.Pointer(zRawSql)) != 0 {
var zStart uintptr = zRawSql
for int32(*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zRawSql, 1)))) != '\n' && *(*int8)(unsafe.Pointer(zRawSql)) != 0 {
}
Xsqlite3_str_append(tls, bp+48, ts+5800, 3)
Xsqlite3_str_append(tls, bp+48, zStart, int32((int64(zRawSql)-int64(zStart))/1))
}
} else if int32((*Vdbe)(unsafe.Pointer(p)).FnVar) == 0 {
Xsqlite3_str_append(tls, bp+48, zRawSql, Xsqlite3Strlen30(tls, zRawSql))
} else {
for *(*int8)(unsafe.Pointer(zRawSql)) != 0 {
n = findNextHostParameter(tls, zRawSql, bp+80)
Xsqlite3_str_append(tls, bp+48, zRawSql, n)
zRawSql += uintptr(n)
if *(*int32)(unsafe.Pointer(bp + 80)) == 0 {
break
}
if int32(*(*int8)(unsafe.Pointer(zRawSql))) == '?' {
if *(*int32)(unsafe.Pointer(bp + 80)) > 1 {
Xsqlite3GetInt32(tls, zRawSql+1, bp+84)
} else {
*(*int32)(unsafe.Pointer(bp + 84)) = nextIndex
}
} else {
*(*int32)(unsafe.Pointer(bp + 84)) = Xsqlite3VdbeParameterIndex(tls, p, zRawSql, *(*int32)(unsafe.Pointer(bp + 80)))
}
zRawSql += uintptr(*(*int32)(unsafe.Pointer(bp + 80)))
nextIndex = func() int32 {
if *(*int32)(unsafe.Pointer(bp + 84))+1 > nextIndex {
return *(*int32)(unsafe.Pointer(bp + 84)) + 1
}
return nextIndex
}()
pVar = (*Vdbe)(unsafe.Pointer(p)).FaVar + uintptr(*(*int32)(unsafe.Pointer(bp + 84))-1)*56
if int32((*Mem)(unsafe.Pointer(pVar)).Fflags)&MEM_Null != 0 {
Xsqlite3_str_append(tls, bp+48, ts+1548, 4)
} else if int32((*Mem)(unsafe.Pointer(pVar)).Fflags)&(MEM_Int|MEM_IntReal) != 0 {
Xsqlite3_str_appendf(tls, bp+48, ts+1327, libc.VaList(bp, *(*I64)(unsafe.Pointer(pVar))))
} else if int32((*Mem)(unsafe.Pointer(pVar)).Fflags)&MEM_Real != 0 {
Xsqlite3_str_appendf(tls, bp+48, ts+5328, libc.VaList(bp+8, *(*float64)(unsafe.Pointer(pVar))))
} else if int32((*Mem)(unsafe.Pointer(pVar)).Fflags)&MEM_Str != 0 {
var nOut int32
var enc U8 = (*Sqlite3)(unsafe.Pointer(db)).Fenc
if int32(enc) != SQLITE_UTF8 {
libc.X__builtin___memset_chk(tls, bp+88, 0, uint64(unsafe.Sizeof(Mem{})), libc.X__builtin_object_size(tls, bp+88, 0))
(*Mem)(unsafe.Pointer(bp + 88)).Fdb = db
Xsqlite3VdbeMemSetStr(tls, bp+88, (*Mem)(unsafe.Pointer(pVar)).Fz, int64((*Mem)(unsafe.Pointer(pVar)).Fn), enc, uintptr(0))
if SQLITE_NOMEM == Xsqlite3VdbeChangeEncoding(tls, bp+88, SQLITE_UTF8) {
(*StrAccum)(unsafe.Pointer(bp + 48)).FaccError = U8(SQLITE_NOMEM)
(*StrAccum)(unsafe.Pointer(bp + 48)).FnAlloc = U32(0)
}
pVar = bp + 88
}
nOut = (*Mem)(unsafe.Pointer(pVar)).Fn
Xsqlite3_str_appendf(tls, bp+48, ts+5804, libc.VaList(bp+16, nOut, (*Mem)(unsafe.Pointer(pVar)).Fz))
if int32(enc) != SQLITE_UTF8 {
Xsqlite3VdbeMemRelease(tls, bp+88)
}
} else if int32((*Mem)(unsafe.Pointer(pVar)).Fflags)&MEM_Zero != 0 {
Xsqlite3_str_appendf(tls, bp+48, ts+5811, libc.VaList(bp+32, *(*int32)(unsafe.Pointer(pVar))))
} else {
var nOut int32
Xsqlite3_str_append(tls, bp+48, ts+5824, 2)
nOut = (*Mem)(unsafe.Pointer(pVar)).Fn
for i = 0; i < nOut; i++ {
Xsqlite3_str_appendf(tls, bp+48, ts+5827, libc.VaList(bp+40, int32(*(*int8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pVar)).Fz + uintptr(i))))&0xff))
}
Xsqlite3_str_append(tls, bp+48, ts+5832, 1)
}
}
}
if (*StrAccum)(unsafe.Pointer(bp+48)).FaccError != 0 {
Xsqlite3_str_reset(tls, bp+48)
}
return Xsqlite3StrAccumFinish(tls, bp+48)
}
func allocateCursor(tls *libc.TLS, p uintptr, iCur int32, nField int32, eCurType U8) uintptr {
var pMem uintptr
if iCur > 0 {
pMem = (*Vdbe)(unsafe.Pointer(p)).FaMem + uintptr((*Vdbe)(unsafe.Pointer(p)).FnMem-iCur)*56
} else {
pMem = (*Vdbe)(unsafe.Pointer(p)).FaMem
}
var nByte int32
var pCx uintptr = uintptr(0)
nByte = int32(uint64(unsafe.Sizeof(VdbeCursor{})) + uint64(2)*uint64(unsafe.Sizeof(U32(0)))*uint64(nField) + func() uint64 {
if int32(eCurType) == CURTYPE_BTREE {
return uint64(Xsqlite3BtreeCursorSize(tls))
}
return uint64(0)
}())
if *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr(iCur)*8)) != 0 {
Xsqlite3VdbeFreeCursorNN(tls, p, *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr(iCur)*8)))
*(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr(iCur)*8)) = uintptr(0)
}
if (*Mem)(unsafe.Pointer(pMem)).FszMalloc < nByte {
if (*Mem)(unsafe.Pointer(pMem)).FszMalloc > 0 {
Xsqlite3DbFreeNN(tls, (*Mem)(unsafe.Pointer(pMem)).Fdb, (*Mem)(unsafe.Pointer(pMem)).FzMalloc)
}
(*Mem)(unsafe.Pointer(pMem)).Fz = libc.AssignPtrUintptr(pMem+40, Xsqlite3DbMallocRaw(tls, (*Mem)(unsafe.Pointer(pMem)).Fdb, uint64(nByte)))
if (*Mem)(unsafe.Pointer(pMem)).FzMalloc == uintptr(0) {
(*Mem)(unsafe.Pointer(pMem)).FszMalloc = 0
return uintptr(0)
}
(*Mem)(unsafe.Pointer(pMem)).FszMalloc = nByte
}
*(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr(iCur)*8)) = libc.AssignUintptr(&pCx, (*Mem)(unsafe.Pointer(pMem)).FzMalloc)
libc.X__builtin___memset_chk(tls, pCx, 0, uint64(uintptr(0)+40), libc.X__builtin_object_size(tls, pCx, 0))
(*VdbeCursor)(unsafe.Pointer(pCx)).FeCurType = eCurType
(*VdbeCursor)(unsafe.Pointer(pCx)).FnField = I16(nField)
(*VdbeCursor)(unsafe.Pointer(pCx)).FaOffset = pCx + 112 + uintptr(nField)*4
if int32(eCurType) == CURTYPE_BTREE {
*(*uintptr)(unsafe.Pointer(pCx + 48)) = (*Mem)(unsafe.Pointer(pMem)).Fz + uintptr(uint64(unsafe.Sizeof(VdbeCursor{}))+uint64(2)*uint64(unsafe.Sizeof(U32(0)))*uint64(nField))
Xsqlite3BtreeCursorZero(tls, *(*uintptr)(unsafe.Pointer(pCx + 48)))
}
return pCx
}
func alsoAnInt(tls *libc.TLS, pRec uintptr, rValue float64, piValue uintptr) int32 {
var iValue I64
iValue = Xsqlite3RealToI64(tls, rValue)
if Xsqlite3RealSameAsInt(tls, rValue, iValue) != 0 {
*(*I64)(unsafe.Pointer(piValue)) = iValue
return 1
}
return libc.Bool32(0 == Xsqlite3Atoi64(tls, (*Mem)(unsafe.Pointer(pRec)).Fz, piValue, (*Mem)(unsafe.Pointer(pRec)).Fn, (*Mem)(unsafe.Pointer(pRec)).Fenc))
}
func applyNumericAffinity(tls *libc.TLS, pRec uintptr, bTryForInt int32) {
bp := tls.Alloc(8)
defer tls.Free(8)
var enc U8 = (*Mem)(unsafe.Pointer(pRec)).Fenc
var rc int32
rc = Xsqlite3AtoF(tls, (*Mem)(unsafe.Pointer(pRec)).Fz, bp, (*Mem)(unsafe.Pointer(pRec)).Fn, enc)
if rc <= 0 {
return
}
if rc == 1 && alsoAnInt(tls, pRec, *(*float64)(unsafe.Pointer(bp)), pRec) != 0 {
*(*U16)(unsafe.Pointer(pRec + 20)) |= U16(MEM_Int)
} else {
*(*float64)(unsafe.Pointer(pRec)) = *(*float64)(unsafe.Pointer(bp))
*(*U16)(unsafe.Pointer(pRec + 20)) |= U16(MEM_Real)
if bTryForInt != 0 {
Xsqlite3VdbeIntegerAffinity(tls, pRec)
}
}
*(*U16)(unsafe.Pointer(pRec + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Str))
}
func applyAffinity(tls *libc.TLS, pRec uintptr, affinity int8, enc U8) {
if int32(affinity) >= SQLITE_AFF_NUMERIC {
if int32((*Mem)(unsafe.Pointer(pRec)).Fflags)&MEM_Int == 0 {
if int32((*Mem)(unsafe.Pointer(pRec)).Fflags)&(MEM_Real|MEM_IntReal) == 0 {
if int32((*Mem)(unsafe.Pointer(pRec)).Fflags)&MEM_Str != 0 {
applyNumericAffinity(tls, pRec, 1)
}
} else if int32(affinity) <= SQLITE_AFF_REAL {
Xsqlite3VdbeIntegerAffinity(tls, pRec)
}
}
} else if int32(affinity) == SQLITE_AFF_TEXT {
if 0 == int32((*Mem)(unsafe.Pointer(pRec)).Fflags)&MEM_Str {
if int32((*Mem)(unsafe.Pointer(pRec)).Fflags)&(MEM_Real|MEM_Int|MEM_IntReal) != 0 {
Xsqlite3VdbeMemStringify(tls, pRec, enc, uint8(1))
}
}
*(*U16)(unsafe.Pointer(pRec + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Real | MEM_Int | MEM_IntReal))
}
}
// Try to convert the type of a function argument or a result column
// into a numeric representation. Use either INTEGER or REAL whichever
// is appropriate. But only do the conversion if it is possible without
// loss of information and return the revised type of the argument.
func Xsqlite3_value_numeric_type(tls *libc.TLS, pVal uintptr) int32 {
var eType int32 = Xsqlite3_value_type(tls, pVal)
if eType == SQLITE_TEXT {
var pMem uintptr = pVal
applyNumericAffinity(tls, pMem, 0)
eType = Xsqlite3_value_type(tls, pVal)
}
return eType
}
// Exported version of applyAffinity(). This one works on sqlite3_value*,
// not the internal Mem* type.
func Xsqlite3ValueApplyAffinity(tls *libc.TLS, pVal uintptr, affinity U8, enc U8) {
applyAffinity(tls, pVal, int8(affinity), enc)
}
func computeNumericType(tls *libc.TLS, pMem uintptr) U16 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
if func() int32 {
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&MEM_Zero != 0 {
return Xsqlite3VdbeMemExpandBlob(tls, pMem)
}
return 0
}() != 0 {
*(*I64)(unsafe.Pointer(pMem)) = int64(0)
return U16(MEM_Int)
}
rc = Xsqlite3AtoF(tls, (*Mem)(unsafe.Pointer(pMem)).Fz, pMem, (*Mem)(unsafe.Pointer(pMem)).Fn, (*Mem)(unsafe.Pointer(pMem)).Fenc)
if rc <= 0 {
if rc == 0 && Xsqlite3Atoi64(tls, (*Mem)(unsafe.Pointer(pMem)).Fz, bp, (*Mem)(unsafe.Pointer(pMem)).Fn, (*Mem)(unsafe.Pointer(pMem)).Fenc) <= 1 {
*(*I64)(unsafe.Pointer(pMem)) = *(*Sqlite3_int64)(unsafe.Pointer(bp))
return U16(MEM_Int)
} else {
return U16(MEM_Real)
}
} else if rc == 1 && Xsqlite3Atoi64(tls, (*Mem)(unsafe.Pointer(pMem)).Fz, bp, (*Mem)(unsafe.Pointer(pMem)).Fn, (*Mem)(unsafe.Pointer(pMem)).Fenc) == 0 {
*(*I64)(unsafe.Pointer(pMem)) = *(*Sqlite3_int64)(unsafe.Pointer(bp))
return U16(MEM_Int)
}
return U16(MEM_Real)
}
func numericType(tls *libc.TLS, pMem uintptr) U16 {
if int32((*Mem)(unsafe.Pointer(pMem)).Fflags)&(MEM_Int|MEM_Real|MEM_IntReal|MEM_Null) != 0 {
return U16(int32((*Mem)(unsafe.Pointer(pMem)).Fflags) & (MEM_Int | MEM_Real | MEM_IntReal | MEM_Null))
}
return computeNumericType(tls, pMem)
return U16(0)
}
func out2PrereleaseWithClear(tls *libc.TLS, pOut uintptr) uintptr {
Xsqlite3VdbeMemSetNull(tls, pOut)
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(MEM_Int)
return pOut
}
func out2Prerelease(tls *libc.TLS, p uintptr, pOp uintptr) uintptr {
var pOut uintptr
pOut = (*Vdbe)(unsafe.Pointer(p)).FaMem + uintptr((*VdbeOp)(unsafe.Pointer(pOp)).Fp2)*56
if int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&(MEM_Agg|MEM_Dyn) != 0 {
return out2PrereleaseWithClear(tls, pOut)
} else {
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(MEM_Int)
return pOut
}
return uintptr(0)
}
func filterHash(tls *libc.TLS, aMem uintptr, pOp uintptr) U64 {
var i int32
var mx int32
var h U64 = uint64(0)
i = (*Op)(unsafe.Pointer(pOp)).Fp3
mx = i + *(*int32)(unsafe.Pointer(pOp + 16))
for ; i < mx; i++ {
var p uintptr = aMem + uintptr(i)*56
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&(MEM_Int|MEM_IntReal) != 0 {
h = h + U64(*(*I64)(unsafe.Pointer(p)))
} else if int32((*Mem)(unsafe.Pointer(p)).Fflags)&MEM_Real != 0 {
h = h + U64(Xsqlite3VdbeIntValue(tls, p))
} else if int32((*Mem)(unsafe.Pointer(p)).Fflags)&(MEM_Str|MEM_Blob) != 0 {
h = h + U64((*Mem)(unsafe.Pointer(p)).Fn)
if int32((*Mem)(unsafe.Pointer(p)).Fflags)&MEM_Zero != 0 {
h = h + U64(*(*int32)(unsafe.Pointer(p)))
}
}
}
return h
}
func vdbeMemTypeName(tls *libc.TLS, pMem uintptr) uintptr {
return azTypes[Xsqlite3_value_type(tls, pMem)-1]
}
var azTypes = [5]uintptr{
ts + 1108,
ts + 1120,
ts + 1125,
ts + 1103,
ts + 1548,
}
// Execute as much of a VDBE program as we can.
// This is the core of sqlite3_step().
func Xsqlite3VdbeExec(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(1048)
defer tls.Free(1048)
var aOp uintptr
var pOp uintptr
var rc int32
var db uintptr
var resetSchemaOnFault U8
var encoding U8
var iCompare int32
var nVmStep U64
var nProgressLimit U64
var aMem uintptr
var pIn1 uintptr
var pIn2 uintptr
var pIn3 uintptr
var pOut uintptr
var iPrior U32
var pCaller uintptr
var pcDest int32
var pFrame uintptr
var pcx int32
var cnt int32
var nullFlag U16
var pVar uintptr
var n int32
var p1 int32
var p2 int32
var n1 int32
var nByte I64
var flags1 U16
var flags2 U16
var type1 U16
var type2 U16
var iA I64
var rA float64
var rB float64
var iB1 I64
var op U8
var res int32
var res2 int32
var affinity int8
var flags11 U16
var flags3 U16
var n2 int32
var i int32
var p11 int32
var p21 int32
var pKeyInfo uintptr
var idx U32
var pColl uintptr
var bRev int32
var aPermute uintptr
var v1 int32
var v2 int32
var iAddr U32
var c int32
var c1 int32
var pC uintptr
var typeMask U16
var serialType U32
var pC1 uintptr
var pC2 uintptr
var iMap U32
var p22 U32
var pC3 uintptr
var pCrsr uintptr
var aOffset uintptr
var len int32
var i1 int32
var pDest uintptr
var zData uintptr
var zHdr uintptr
var zEndHdr uintptr
var offset64 U64
var pReg uintptr
var pTab uintptr
var aCol uintptr
var i2 int32
var zAffinity uintptr
var i3 I64
var uu U64
var i4 U32
var pRec uintptr
var nData U64
var nHdr int32
var nByte1 I64
var nZero I64
var nVarint int32
var serial_type U32
var pData0 uintptr
var pLast uintptr
var nField int32
var zAffinity1 uintptr
var len1 U32
var zHdr1 uintptr
var zPayload uintptr
var pCrsr1 uintptr
var isSchemaChange int32
var isTransaction int32
var p12 int32
var zName uintptr
var nName int32
var pNew uintptr
var pSavepoint uintptr
var pTmp uintptr
var iSavepoint int32
var ii int32
var desiredAutoCommit int32
var iRollback int32
var pBt uintptr
var pDb uintptr
var iDb int32
var iCookie int32
var pDb1 uintptr
var nField1 int32
var pKeyInfo1 uintptr
var p23 U32
var iDb1 int32
var wrFlag int32
var pX uintptr
var pCur uintptr
var pDb2 uintptr
var pOrig uintptr
var pCx uintptr
var pCx1 uintptr
var pKeyInfo2 uintptr
var pCx2 uintptr
var pC4 uintptr
var pCx3 uintptr
var c2 int32
var flags31 U16
var newType U16
var oc int32
var pC5 uintptr
var nField2 int32
var iKey I64
var eqOnly int32
var pC6 uintptr
var nStep int32
var pC7 uintptr
var pCur1 uintptr
var pC8 uintptr
var alreadyExists int32
var ii1 int32
var pC9 uintptr
var pIdxKey uintptr
var pC10 uintptr
var pCrsr2 uintptr
var iKey1 U64
var pC11 uintptr
var cnt1 int32
var pMem uintptr
var pFrame1 uintptr
var pData uintptr
var pKey uintptr
var pC12 uintptr
var seekResult int32
var zDb uintptr
var pTab1 uintptr
var pDest1 uintptr
var pSrc uintptr
var iKey2 I64
var pC13 uintptr
var zDb1 uintptr
var pTab2 uintptr
var opflags int32
var pC14 uintptr
var nKeyCol int32
var pC15 uintptr
var pC16 uintptr
var pCrsr3 uintptr
var n3 U32
var pC17 uintptr
var pVtab uintptr
var pModule uintptr
var pC18 uintptr
var pC19 uintptr
var pCrsr4 uintptr
var pC20 uintptr
var pCrsr5 uintptr
var sz I64
var pC21 uintptr
var pCrsr6 uintptr
var pC22 uintptr
var pC23 uintptr
var pC24 uintptr
var pC25 uintptr
var pCrsr7 uintptr
var pC26 uintptr
var pTabCur uintptr
var pC27 uintptr
var nCellKey I64
var pCur2 uintptr
var pC28 uintptr
var res11 int32
var iDb2 int32
var pC29 uintptr
var pDb3 uintptr
var iDb3 int32
var zSchema uintptr
var zSql uintptr
var nRoot int32
var aRoot uintptr
var pnErr uintptr
var iSet int32
var exists int32
var nMem int32
var nByte2 int32
var pRt uintptr
var pMem1 uintptr
var pEnd uintptr
var pFrame2 uintptr
var pProgram uintptr
var t1 uintptr
var pFrame3 uintptr
var pIn uintptr
var pFrame4 uintptr
var n4 int32
var pCtx uintptr
var i5 int32
var pCtx1 uintptr
var pMem2 uintptr
var pMem3 uintptr
var i6 int32
var pMem4 uintptr
var pBt1 uintptr
var pPager uintptr
var eNew int32
var eOld int32
var zFilename uintptr
var pBt2 uintptr
var pC30 uintptr
var pC31 uintptr
var z1 uintptr
var p13 int32
var isWriteLock U8
var pVTab uintptr
var zTab uintptr
var pCur3 uintptr
var pVtab1 uintptr
var pModule1 uintptr
var pC32 uintptr
var pRhs uintptr
var nArg int32
var iQuery int32
var pModule2 uintptr
var pQuery uintptr
var pArgc uintptr
var pVCur1 uintptr
var pVtab2 uintptr
var pCur4 uintptr
var res12 int32
var i7 int32
var apArg uintptr
var pVtab3 uintptr
var pModule3 uintptr
var pDest2 uintptr
var pCur5 uintptr
var pVtab4 uintptr
var pModule4 uintptr
var res13 int32
var pCur6 uintptr
var pVtab5 uintptr
var pName uintptr
var isLegacy int32
var vtabOnConflict U8
var pVtab6 uintptr
var pModule5 uintptr
var nArg1 int32
var i8 int32
var apArg1 uintptr
var pX1 uintptr
var newMax uint32
var pBt3 uintptr
var i9 int32
var pCtx2 uintptr
var h U64
var h1 U64
var z2 uintptr
var z3 uintptr
var i10 int32
var zTrace uintptr
aOp = (*Vdbe)(unsafe.Pointer(p)).FaOp
pOp = aOp
rc = SQLITE_OK
db = (*Vdbe)(unsafe.Pointer(p)).Fdb
resetSchemaOnFault = U8(0)
encoding = (*Sqlite3)(unsafe.Pointer(db)).Fenc
iCompare = 0
nVmStep = uint64(0)
aMem = (*Vdbe)(unsafe.Pointer(p)).FaMem
pIn1 = uintptr(0)
pIn2 = uintptr(0)
pIn3 = uintptr(0)
pOut = uintptr(0)
if !((*Vdbe)(unsafe.Pointer(p)).FlockMask != YDbMask(0)) {
goto __1
}
Xsqlite3VdbeEnter(tls, p)
__1:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FxProgress != 0) {
goto __2
}
iPrior = *(*U32)(unsafe.Pointer(p + 212 + 4*4))
nProgressLimit = U64((*Sqlite3)(unsafe.Pointer(db)).FnProgressOps - iPrior%(*Sqlite3)(unsafe.Pointer(db)).FnProgressOps)
goto __3
__2:
nProgressLimit = uint64(0xffffffff) | uint64(0xffffffff)<<32
__3:
;
if !((*Vdbe)(unsafe.Pointer(p)).Frc == SQLITE_NOMEM) {
goto __4
}
goto no_mem
__4:
;
(*Vdbe)(unsafe.Pointer(p)).Frc = SQLITE_OK
(*Vdbe)(unsafe.Pointer(p)).FiCurrentTime = int64(0)
(*Sqlite3)(unsafe.Pointer(db)).FbusyHandler.FnBusy = 0
if !(*(*int32)(unsafe.Pointer(db + 432)) != 0) {
goto __5
}
goto abort_due_to_interrupt
__5:
;
pOp = aOp + uintptr((*Vdbe)(unsafe.Pointer(p)).Fpc)*24
__6:
if !(1 != 0) {
goto __8
}
nVmStep++
switch int32((*Op)(unsafe.Pointer(pOp)).Fopcode) {
case OP_Goto:
goto __10
case OP_Gosub:
goto __11
case OP_Return:
goto __12
case OP_InitCoroutine:
goto __13
case OP_EndCoroutine:
goto __14
case OP_Yield:
goto __15
case OP_HaltIfNull:
goto __16
case OP_Halt:
goto __17
case OP_Integer:
goto __18
case OP_Int64:
goto __19
case OP_Real:
goto __20
case OP_String8:
goto __21
case OP_String:
goto __22
case OP_BeginSubrtn:
goto __23
case OP_Null:
goto __24
case OP_SoftNull:
goto __25
case OP_Blob:
goto __26
case OP_Variable:
goto __27
case OP_Move:
goto __28
case OP_Copy:
goto __29
case OP_SCopy:
goto __30
case OP_IntCopy:
goto __31
case OP_FkCheck:
goto __32
case OP_ResultRow:
goto __33
case OP_Concat:
goto __34
case OP_Add:
goto __35
case OP_Subtract:
goto __36
case OP_Multiply:
goto __37
case OP_Divide:
goto __38
case OP_Remainder:
goto __39
case OP_CollSeq:
goto __40
case OP_BitAnd:
goto __41
case OP_BitOr:
goto __42
case OP_ShiftLeft:
goto __43
case OP_ShiftRight:
goto __44
case OP_AddImm:
goto __45
case OP_MustBeInt:
goto __46
case OP_RealAffinity:
goto __47
case OP_Cast:
goto __48
case OP_Eq:
goto __49
case OP_Ne:
goto __50
case OP_Lt:
goto __51
case OP_Le:
goto __52
case OP_Gt:
goto __53
case OP_Ge:
goto __54
case OP_ElseEq:
goto __55
case OP_Permutation:
goto __56
case OP_Compare:
goto __57
case OP_Jump:
goto __58
case OP_And:
goto __59
case OP_Or:
goto __60
case OP_IsTrue:
goto __61
case OP_Not:
goto __62
case OP_BitNot:
goto __63
case OP_Once:
goto __64
case OP_If:
goto __65
case OP_IfNot:
goto __66
case OP_IsNull:
goto __67
case OP_IsType:
goto __68
case OP_ZeroOrNull:
goto __69
case OP_NotNull:
goto __70
case OP_IfNullRow:
goto __71
case OP_Offset:
goto __72
case OP_Column:
goto __73
case OP_TypeCheck:
goto __74
case OP_Affinity:
goto __75
case OP_MakeRecord:
goto __76
case OP_Count:
goto __77
case OP_Savepoint:
goto __78
case OP_AutoCommit:
goto __79
case OP_Transaction:
goto __80
case OP_ReadCookie:
goto __81
case OP_SetCookie:
goto __82
case OP_ReopenIdx:
goto __83
case OP_OpenRead:
goto __84
case OP_OpenWrite:
goto __85
case OP_OpenDup:
goto __86
case OP_OpenAutoindex:
goto __87
case OP_OpenEphemeral:
goto __88
case OP_SorterOpen:
goto __89
case OP_SequenceTest:
goto __90
case OP_OpenPseudo:
goto __91
case OP_Close:
goto __92
case OP_SeekLT:
goto __93
case OP_SeekLE:
goto __94
case OP_SeekGE:
goto __95
case OP_SeekGT:
goto __96
case OP_SeekScan:
goto __97
case OP_SeekHit:
goto __98
case OP_IfNotOpen:
goto __99
case OP_IfNoHope:
goto __100
case OP_NoConflict:
goto __101
case OP_NotFound:
goto __102
case OP_Found:
goto __103
case OP_SeekRowid:
goto __104
case OP_NotExists:
goto __105
case OP_Sequence:
goto __106
case OP_NewRowid:
goto __107
case OP_Insert:
goto __108
case OP_RowCell:
goto __109
case OP_Delete:
goto __110
case OP_ResetCount:
goto __111
case OP_SorterCompare:
goto __112
case OP_SorterData:
goto __113
case OP_RowData:
goto __114
case OP_Rowid:
goto __115
case OP_NullRow:
goto __116
case OP_SeekEnd:
goto __117
case OP_Last:
goto __118
case OP_IfSmaller:
goto __119
case OP_SorterSort:
goto __120
case OP_Sort:
goto __121
case OP_Rewind:
goto __122
case OP_SorterNext:
goto __123
case OP_Prev:
goto __124
case OP_Next:
goto __125
case OP_IdxInsert:
goto __126
case OP_SorterInsert:
goto __127
case OP_IdxDelete:
goto __128
case OP_DeferredSeek:
goto __129
case OP_IdxRowid:
goto __130
case OP_FinishSeek:
goto __131
case OP_IdxLE:
goto __132
case OP_IdxGT:
goto __133
case OP_IdxLT:
goto __134
case OP_IdxGE:
goto __135
case OP_Destroy:
goto __136
case OP_Clear:
goto __137
case OP_ResetSorter:
goto __138
case OP_CreateBtree:
goto __139
case OP_SqlExec:
goto __140
case OP_ParseSchema:
goto __141
case OP_LoadAnalysis:
goto __142
case OP_DropTable:
goto __143
case OP_DropIndex:
goto __144
case OP_DropTrigger:
goto __145
case OP_IntegrityCk:
goto __146
case OP_RowSetAdd:
goto __147
case OP_RowSetRead:
goto __148
case OP_RowSetTest:
goto __149
case OP_Program:
goto __150
case OP_Param:
goto __151
case OP_FkCounter:
goto __152
case OP_FkIfZero:
goto __153
case OP_MemMax:
goto __154
case OP_IfPos:
goto __155
case OP_OffsetLimit:
goto __156
case OP_IfNotZero:
goto __157
case OP_DecrJumpZero:
goto __158
case OP_AggInverse:
goto __159
case OP_AggStep:
goto __160
case OP_AggStep1:
goto __161
case OP_AggValue:
goto __162
case OP_AggFinal:
goto __163
case OP_Checkpoint:
goto __164
case OP_JournalMode:
goto __165
case OP_Vacuum:
goto __166
case OP_IncrVacuum:
goto __167
case OP_Expire:
goto __168
case OP_CursorLock:
goto __169
case OP_CursorUnlock:
goto __170
case OP_TableLock:
goto __171
case OP_VBegin:
goto __172
case OP_VCreate:
goto __173
case OP_VDestroy:
goto __174
case OP_VOpen:
goto __175
case OP_VInitIn:
goto __176
case OP_VFilter:
goto __177
case OP_VColumn:
goto __178
case OP_VNext:
goto __179
case OP_VRename:
goto __180
case OP_VUpdate:
goto __181
case OP_Pagecount:
goto __182
case OP_MaxPgcnt:
goto __183
case OP_PureFunc:
goto __184
case OP_Function:
goto __185
case OP_ClrSubtype:
goto __186
case OP_FilterAdd:
goto __187
case OP_Filter:
goto __188
case OP_Trace:
goto __189
case OP_Init:
goto __190
default:
goto __191
}
goto __9
__10:
jump_to_p2_and_check_for_interrupt:
pOp = aOp + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2-1)*24
check_for_interrupt:
if !(*(*int32)(unsafe.Pointer(db + 432)) != 0) {
goto __192
}
goto abort_due_to_interrupt
__192:
;
__193:
if !(nVmStep >= nProgressLimit && (*Sqlite3)(unsafe.Pointer(db)).FxProgress != uintptr(0)) {
goto __194
}
nProgressLimit = nProgressLimit + U64((*Sqlite3)(unsafe.Pointer(db)).FnProgressOps)
if !((*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxProgress})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpProgressArg) != 0) {
goto __195
}
nProgressLimit = uint64(0xffffffff) | uint64(0xffffffff)<<32
rc = SQLITE_INTERRUPT
goto abort_due_to_error
__195:
;
goto __193
__194:
;
goto __9
__11:
;
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
(*Mem)(unsafe.Pointer(pIn1)).Fflags = U16(MEM_Int)
*(*I64)(unsafe.Pointer(pIn1)) = I64(int32((int64(pOp) - int64(aOp)) / 24))
goto jump_to_p2_and_check_for_interrupt
__12:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Int != 0) {
goto __196
}
if !((*Op)(unsafe.Pointer(pOp)).Fp3 != 0) {
goto __198
}
__198:
;
pOp = aOp + uintptr(*(*I64)(unsafe.Pointer(pIn1)))*24
goto __197
__196:
if !((*Op)(unsafe.Pointer(pOp)).Fp3 != 0) {
goto __199
}
__199:
;
__197:
;
goto __9
__13:
;
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
*(*I64)(unsafe.Pointer(pOut)) = I64((*Op)(unsafe.Pointer(pOp)).Fp3 - 1)
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(MEM_Int)
if !((*Op)(unsafe.Pointer(pOp)).Fp2 == 0) {
goto __200
}
goto __9
__200:
;
jump_to_p2:
;
pOp = aOp + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2-1)*24
goto __9
__14:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
pCaller = aOp + uintptr(*(*I64)(unsafe.Pointer(pIn1)))*24
pOp = aOp + uintptr((*VdbeOp)(unsafe.Pointer(pCaller)).Fp2-1)*24
(*Mem)(unsafe.Pointer(pIn1)).Fflags = U16(MEM_Undefined)
goto __9
__15:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
(*Mem)(unsafe.Pointer(pIn1)).Fflags = U16(MEM_Int)
pcDest = int32(*(*I64)(unsafe.Pointer(pIn1)))
*(*I64)(unsafe.Pointer(pIn1)) = I64(int32((int64(pOp) - int64(aOp)) / 24))
pOp = aOp + uintptr(pcDest)*24
goto __9
__16:
pIn3 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
if !(int32((*Mem)(unsafe.Pointer(pIn3)).Fflags)&MEM_Null == 0) {
goto __201
}
goto __9
__201:
;
__17:
;
if !((*Vdbe)(unsafe.Pointer(p)).FpFrame != 0 && (*Op)(unsafe.Pointer(pOp)).Fp1 == SQLITE_OK) {
goto __202
}
pFrame = (*Vdbe)(unsafe.Pointer(p)).FpFrame
(*Vdbe)(unsafe.Pointer(p)).FpFrame = (*VdbeFrame)(unsafe.Pointer(pFrame)).FpParent
(*Vdbe)(unsafe.Pointer(p)).FnFrame--
Xsqlite3VdbeSetChanges(tls, db, (*Vdbe)(unsafe.Pointer(p)).FnChange)
pcx = Xsqlite3VdbeFrameRestore(tls, pFrame)
if !((*Op)(unsafe.Pointer(pOp)).Fp2 == OE_Ignore) {
goto __203
}
pcx = (*Op)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FaOp+uintptr(pcx)*24)).Fp2 - 1
__203:
;
aOp = (*Vdbe)(unsafe.Pointer(p)).FaOp
aMem = (*Vdbe)(unsafe.Pointer(p)).FaMem
pOp = aOp + uintptr(pcx)*24
goto __9
__202:
;
(*Vdbe)(unsafe.Pointer(p)).Frc = (*Op)(unsafe.Pointer(pOp)).Fp1
(*Vdbe)(unsafe.Pointer(p)).FerrorAction = U8((*Op)(unsafe.Pointer(pOp)).Fp2)
if !((*Vdbe)(unsafe.Pointer(p)).Frc != 0) {
goto __204
}
if !((*Op)(unsafe.Pointer(pOp)).Fp5 != 0) {
goto __205
}
Xsqlite3VdbeError(tls, p, ts+5834, libc.VaList(bp, azType[int32((*Op)(unsafe.Pointer(pOp)).Fp5)-1]))
if !(*(*uintptr)(unsafe.Pointer(pOp + 16)) != 0) {
goto __207
}
(*Vdbe)(unsafe.Pointer(p)).FzErrMsg = Xsqlite3MPrintf(tls, db, ts+5855, libc.VaList(bp+8, (*Vdbe)(unsafe.Pointer(p)).FzErrMsg, *(*uintptr)(unsafe.Pointer(pOp + 16))))
__207:
;
goto __206
__205:
Xsqlite3VdbeError(tls, p, ts+3658, libc.VaList(bp+24, *(*uintptr)(unsafe.Pointer(pOp + 16))))
__206:
;
pcx = int32((int64(pOp) - int64(aOp)) / 24)
Xsqlite3_log(tls, (*Op)(unsafe.Pointer(pOp)).Fp1, ts+5862, libc.VaList(bp+32, pcx, (*Vdbe)(unsafe.Pointer(p)).FzSql, (*Vdbe)(unsafe.Pointer(p)).FzErrMsg))
__204:
;
rc = Xsqlite3VdbeHalt(tls, p)
if !(rc == SQLITE_BUSY) {
goto __208
}
(*Vdbe)(unsafe.Pointer(p)).Frc = SQLITE_BUSY
goto __209
__208:
;
if (*Vdbe)(unsafe.Pointer(p)).Frc != 0 {
rc = SQLITE_ERROR
} else {
rc = SQLITE_DONE
}
__209:
;
goto vdbe_return
__18:
pOut = out2Prerelease(tls, p, pOp)
*(*I64)(unsafe.Pointer(pOut)) = I64((*Op)(unsafe.Pointer(pOp)).Fp1)
goto __9
__19:
pOut = out2Prerelease(tls, p, pOp)
*(*I64)(unsafe.Pointer(pOut)) = *(*I64)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pOp + 16))))
goto __9
__20:
pOut = out2Prerelease(tls, p, pOp)
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(MEM_Real)
*(*float64)(unsafe.Pointer(pOut)) = *(*float64)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pOp + 16))))
goto __9
__21:
;
pOut = out2Prerelease(tls, p, pOp)
(*Op)(unsafe.Pointer(pOp)).Fp1 = Xsqlite3Strlen30(tls, *(*uintptr)(unsafe.Pointer(pOp + 16)))
if !(int32(encoding) != SQLITE_UTF8) {
goto __210
}
rc = Xsqlite3VdbeMemSetStr(tls, pOut, *(*uintptr)(unsafe.Pointer(pOp + 16)), int64(-1), uint8(SQLITE_UTF8), uintptr(0))
if !(rc != 0) {
goto __211
}
goto too_big
__211:
;
if !(SQLITE_OK != Xsqlite3VdbeChangeEncoding(tls, pOut, int32(encoding))) {
goto __212
}
goto no_mem
__212:
;
(*Mem)(unsafe.Pointer(pOut)).FszMalloc = 0
*(*U16)(unsafe.Pointer(pOut + 20)) |= U16(MEM_Static)
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp4type) == -6) {
goto __213
}
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(pOp + 16)))
__213:
;
(*Op)(unsafe.Pointer(pOp)).Fp4type = int8(-6)
*(*uintptr)(unsafe.Pointer(pOp + 16)) = (*Mem)(unsafe.Pointer(pOut)).Fz
(*Op)(unsafe.Pointer(pOp)).Fp1 = (*Mem)(unsafe.Pointer(pOut)).Fn
__210:
;
if !((*Op)(unsafe.Pointer(pOp)).Fp1 > *(*int32)(unsafe.Pointer(db + 136))) {
goto __214
}
goto too_big
__214:
;
(*Op)(unsafe.Pointer(pOp)).Fopcode = U8(OP_String)
__22:
;
pOut = out2Prerelease(tls, p, pOp)
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(MEM_Str | MEM_Static | MEM_Term)
(*Mem)(unsafe.Pointer(pOut)).Fz = *(*uintptr)(unsafe.Pointer(pOp + 16))
(*Mem)(unsafe.Pointer(pOut)).Fn = (*Op)(unsafe.Pointer(pOp)).Fp1
(*Mem)(unsafe.Pointer(pOut)).Fenc = encoding
goto __9
__23:
__24:
pOut = out2Prerelease(tls, p, pOp)
cnt = (*Op)(unsafe.Pointer(pOp)).Fp3 - (*Op)(unsafe.Pointer(pOp)).Fp2
(*Mem)(unsafe.Pointer(pOut)).Fflags = libc.AssignUint16(&nullFlag, func() uint16 {
if (*Op)(unsafe.Pointer(pOp)).Fp1 != 0 {
return uint16(MEM_Null | MEM_Cleared)
}
return uint16(MEM_Null)
}())
(*Mem)(unsafe.Pointer(pOut)).Fn = 0
__215:
if !(cnt > 0) {
goto __216
}
pOut += 56
Xsqlite3VdbeMemSetNull(tls, pOut)
(*Mem)(unsafe.Pointer(pOut)).Fflags = nullFlag
(*Mem)(unsafe.Pointer(pOut)).Fn = 0
cnt--
goto __215
__216:
;
goto __9
__25:
;
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&libc.CplInt32(MEM_Undefined|MEM_AffMask) | MEM_Null)
goto __9
__26:
;
pOut = out2Prerelease(tls, p, pOp)
if !(*(*uintptr)(unsafe.Pointer(pOp + 16)) == uintptr(0)) {
goto __217
}
Xsqlite3VdbeMemSetZeroBlob(tls, pOut, (*Op)(unsafe.Pointer(pOp)).Fp1)
if !(Xsqlite3VdbeMemExpandBlob(tls, pOut) != 0) {
goto __219
}
goto no_mem
__219:
;
goto __218
__217:
Xsqlite3VdbeMemSetStr(tls, pOut, *(*uintptr)(unsafe.Pointer(pOp + 16)), int64((*Op)(unsafe.Pointer(pOp)).Fp1), uint8(0), uintptr(0))
__218:
;
(*Mem)(unsafe.Pointer(pOut)).Fenc = encoding
goto __9
__27:
;
pVar = (*Vdbe)(unsafe.Pointer(p)).FaVar + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1-1)*56
if !(Xsqlite3VdbeMemTooBig(tls, pVar) != 0) {
goto __220
}
goto too_big
__220:
;
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
if !(int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&(MEM_Agg|MEM_Dyn) != 0) {
goto __221
}
Xsqlite3VdbeMemSetNull(tls, pOut)
__221:
;
libc.X__builtin___memcpy_chk(tls, pOut, pVar, uint64(uintptr(0)+24), libc.X__builtin_object_size(tls, pOut, 0))
*(*U16)(unsafe.Pointer(pOut + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Dyn | MEM_Ephem))
*(*U16)(unsafe.Pointer(pOut + 20)) |= U16(MEM_Static | MEM_FromBind)
goto __9
__28:
n = (*Op)(unsafe.Pointer(pOp)).Fp3
p1 = (*Op)(unsafe.Pointer(pOp)).Fp1
p2 = (*Op)(unsafe.Pointer(pOp)).Fp2
pIn1 = aMem + uintptr(p1)*56
pOut = aMem + uintptr(p2)*56
__222:
;
Xsqlite3VdbeMemMove(tls, pOut, pIn1)
if !(int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&MEM_Ephem != 0 && Xsqlite3VdbeMemMakeWriteable(tls, pOut) != 0) {
goto __225
}
goto no_mem
__225:
;
pIn1 += 56
pOut += 56
goto __223
__223:
if libc.PreDecInt32(&n, 1) != 0 {
goto __222
}
goto __224
__224:
;
goto __9
__29:
n1 = (*Op)(unsafe.Pointer(pOp)).Fp3
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
__226:
if !(1 != 0) {
goto __227
}
Xsqlite3VdbeMemShallowCopy(tls, pOut, pIn1, MEM_Ephem)
if !(int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&MEM_Ephem != 0 && Xsqlite3VdbeMemMakeWriteable(tls, pOut) != 0) {
goto __228
}
goto no_mem
__228:
;
if !(int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&MEM_Subtype != 0 && int32((*Op)(unsafe.Pointer(pOp)).Fp5)&0x0002 != 0) {
goto __229
}
*(*U16)(unsafe.Pointer(pOut + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Subtype))
__229:
;
if !(libc.PostDecInt32(&n1, 1) == 0) {
goto __230
}
goto __227
__230:
;
pOut += 56
pIn1 += 56
goto __226
__227:
;
goto __9
__30:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
Xsqlite3VdbeMemShallowCopy(tls, pOut, pIn1, MEM_Ephem)
goto __9
__31:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
Xsqlite3VdbeMemSetInt64(tls, pOut, *(*I64)(unsafe.Pointer(pIn1)))
goto __9
__32:
if !(libc.AssignInt32(&rc, Xsqlite3VdbeCheckFk(tls, p, 0)) != SQLITE_OK) {
goto __231
}
goto abort_due_to_error
__231:
;
goto __9
__33:
;
(*Vdbe)(unsafe.Pointer(p)).FcacheCtr = (*Vdbe)(unsafe.Pointer(p)).FcacheCtr + U32(2) | U32(1)
(*Vdbe)(unsafe.Pointer(p)).FpResultRow = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __232
}
goto no_mem
__232:
;
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmTrace)&SQLITE_TRACE_ROW != 0) {
goto __233
}
(*struct {
f func(*libc.TLS, U32, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{*(*uintptr)(unsafe.Pointer(db + 248))})).f(tls, uint32(SQLITE_TRACE_ROW), (*Sqlite3)(unsafe.Pointer(db)).FpTraceArg, p, uintptr(0))
__233:
;
(*Vdbe)(unsafe.Pointer(p)).Fpc = int32((int64(pOp)-int64(aOp))/24) + 1
rc = SQLITE_ROW
goto vdbe_return
__34:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
pIn2 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
flags1 = (*Mem)(unsafe.Pointer(pIn1)).Fflags
if !((int32(flags1)|int32((*Mem)(unsafe.Pointer(pIn2)).Fflags))&MEM_Null != 0) {
goto __234
}
Xsqlite3VdbeMemSetNull(tls, pOut)
goto __9
__234:
;
if !(int32(flags1)&(MEM_Str|MEM_Blob) == 0) {
goto __235
}
if !(Xsqlite3VdbeMemStringify(tls, pIn1, encoding, uint8(0)) != 0) {
goto __237
}
goto no_mem
__237:
;
flags1 = U16(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags) & libc.CplInt32(MEM_Str))
goto __236
__235:
if !(int32(flags1)&MEM_Zero != 0) {
goto __238
}
if !(Xsqlite3VdbeMemExpandBlob(tls, pIn1) != 0) {
goto __239
}
goto no_mem
__239:
;
flags1 = U16(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags) & libc.CplInt32(MEM_Str))
__238:
;
__236:
;
flags2 = (*Mem)(unsafe.Pointer(pIn2)).Fflags
if !(int32(flags2)&(MEM_Str|MEM_Blob) == 0) {
goto __240
}
if !(Xsqlite3VdbeMemStringify(tls, pIn2, encoding, uint8(0)) != 0) {
goto __242
}
goto no_mem
__242:
;
flags2 = U16(int32((*Mem)(unsafe.Pointer(pIn2)).Fflags) & libc.CplInt32(MEM_Str))
goto __241
__240:
if !(int32(flags2)&MEM_Zero != 0) {
goto __243
}
if !(Xsqlite3VdbeMemExpandBlob(tls, pIn2) != 0) {
goto __244
}
goto no_mem
__244:
;
flags2 = U16(int32((*Mem)(unsafe.Pointer(pIn2)).Fflags) & libc.CplInt32(MEM_Str))
__243:
;
__241:
;
nByte = I64((*Mem)(unsafe.Pointer(pIn1)).Fn + (*Mem)(unsafe.Pointer(pIn2)).Fn)
if !(nByte > I64(*(*int32)(unsafe.Pointer(db + 136)))) {
goto __245
}
goto too_big
__245:
;
if !(Xsqlite3VdbeMemGrow(tls, pOut, int32(nByte)+2, libc.Bool32(pOut == pIn2)) != 0) {
goto __246
}
goto no_mem
__246:
;
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Str)
if !(pOut != pIn2) {
goto __247
}
libc.X__builtin___memcpy_chk(tls, (*Mem)(unsafe.Pointer(pOut)).Fz, (*Mem)(unsafe.Pointer(pIn2)).Fz, uint64((*Mem)(unsafe.Pointer(pIn2)).Fn), libc.X__builtin_object_size(tls, (*Mem)(unsafe.Pointer(pOut)).Fz, 0))
(*Mem)(unsafe.Pointer(pIn2)).Fflags = flags2
__247:
;
libc.X__builtin___memcpy_chk(tls, (*Mem)(unsafe.Pointer(pOut)).Fz+uintptr((*Mem)(unsafe.Pointer(pIn2)).Fn), (*Mem)(unsafe.Pointer(pIn1)).Fz, uint64((*Mem)(unsafe.Pointer(pIn1)).Fn), libc.X__builtin_object_size(tls, (*Mem)(unsafe.Pointer(pOut)).Fz+uintptr((*Mem)(unsafe.Pointer(pIn2)).Fn), 0))
(*Mem)(unsafe.Pointer(pIn1)).Fflags = flags1
if !(int32(encoding) > SQLITE_UTF8) {
goto __248
}
nByte = nByte & int64(libc.CplInt32(1))
__248:
;
*(*int8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pOut)).Fz + uintptr(nByte))) = int8(0)
*(*int8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pOut)).Fz + uintptr(nByte+int64(1)))) = int8(0)
*(*U16)(unsafe.Pointer(pOut + 20)) |= U16(MEM_Term)
(*Mem)(unsafe.Pointer(pOut)).Fn = int32(nByte)
(*Mem)(unsafe.Pointer(pOut)).Fenc = encoding
goto __9
__35:
__36:
__37:
__38:
__39:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
type1 = (*Mem)(unsafe.Pointer(pIn1)).Fflags
pIn2 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
type2 = (*Mem)(unsafe.Pointer(pIn2)).Fflags
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
if !(int32(type1)&int32(type2)&MEM_Int != 0) {
goto __249
}
int_math:
iA = *(*I64)(unsafe.Pointer(pIn1))
*(*I64)(unsafe.Pointer(bp + 208)) = *(*I64)(unsafe.Pointer(pIn2))
switch int32((*Op)(unsafe.Pointer(pOp)).Fopcode) {
case OP_Add:
goto __252
case OP_Subtract:
goto __253
case OP_Multiply:
goto __254
case OP_Divide:
goto __255
default:
goto __256
}
goto __251
__252:
if !(Xsqlite3AddInt64(tls, bp+208, iA) != 0) {
goto __257
}
goto fp_math
__257:
;
goto __251
__253:
if !(Xsqlite3SubInt64(tls, bp+208, iA) != 0) {
goto __258
}
goto fp_math
__258:
;
goto __251
__254:
if !(Xsqlite3MulInt64(tls, bp+208, iA) != 0) {
goto __259
}
goto fp_math
__259:
;
goto __251
__255:
if !(iA == int64(0)) {
goto __260
}
goto arithmetic_result_is_null
__260:
;
if !(iA == int64(-1) && *(*I64)(unsafe.Pointer(bp + 208)) == int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32)) {
goto __261
}
goto fp_math
__261:
;
*(*I64)(unsafe.Pointer(bp + 208)) /= iA
goto __251
__256:
if !(iA == int64(0)) {
goto __262
}
goto arithmetic_result_is_null
__262:
;
if !(iA == int64(-1)) {
goto __263
}
iA = int64(1)
__263:
;
*(*I64)(unsafe.Pointer(bp + 208)) %= iA
goto __251
__251:
;
*(*I64)(unsafe.Pointer(pOut)) = *(*I64)(unsafe.Pointer(bp + 208))
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Int)
goto __250
__249:
if !((int32(type1)|int32(type2))&MEM_Null != 0) {
goto __264
}
goto arithmetic_result_is_null
goto __265
__264:
type1 = numericType(tls, pIn1)
type2 = numericType(tls, pIn2)
if !(int32(type1)&int32(type2)&MEM_Int != 0) {
goto __266
}
goto int_math
__266:
;
fp_math:
rA = Xsqlite3VdbeRealValue(tls, pIn1)
rB = Xsqlite3VdbeRealValue(tls, pIn2)
switch int32((*Op)(unsafe.Pointer(pOp)).Fopcode) {
case OP_Add:
goto __268
case OP_Subtract:
goto __269
case OP_Multiply:
goto __270
case OP_Divide:
goto __271
default:
goto __272
}
goto __267
__268:
rB = rB + rA
goto __267
__269:
rB = rB - rA
goto __267
__270:
rB = rB * rA
goto __267
__271:
if !(rA == float64(0)) {
goto __273
}
goto arithmetic_result_is_null
__273:
;
rB = rB / rA
goto __267
__272:
iA = Xsqlite3VdbeIntValue(tls, pIn1)
*(*I64)(unsafe.Pointer(bp + 208)) = Xsqlite3VdbeIntValue(tls, pIn2)
if !(iA == int64(0)) {
goto __274
}
goto arithmetic_result_is_null
__274:
;
if !(iA == int64(-1)) {
goto __275
}
iA = int64(1)
__275:
;
rB = float64(*(*I64)(unsafe.Pointer(bp + 208)) % iA)
goto __267
__267:
;
if !(Xsqlite3IsNaN(tls, rB) != 0) {
goto __276
}
goto arithmetic_result_is_null
__276:
;
*(*float64)(unsafe.Pointer(pOut)) = rB
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Real)
__265:
;
__250:
;
goto __9
arithmetic_result_is_null:
Xsqlite3VdbeMemSetNull(tls, pOut)
goto __9
__40:
;
if !((*Op)(unsafe.Pointer(pOp)).Fp1 != 0) {
goto __277
}
Xsqlite3VdbeMemSetInt64(tls, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56, int64(0))
__277:
;
goto __9
__41:
__42:
__43:
__44:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
pIn2 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
if !((int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)|int32((*Mem)(unsafe.Pointer(pIn2)).Fflags))&MEM_Null != 0) {
goto __278
}
Xsqlite3VdbeMemSetNull(tls, pOut)
goto __9
__278:
;
*(*I64)(unsafe.Pointer(bp + 224)) = Xsqlite3VdbeIntValue(tls, pIn2)
iB1 = Xsqlite3VdbeIntValue(tls, pIn1)
op = (*Op)(unsafe.Pointer(pOp)).Fopcode
if !(int32(op) == OP_BitAnd) {
goto __279
}
*(*I64)(unsafe.Pointer(bp + 224)) &= iB1
goto __280
__279:
if !(int32(op) == OP_BitOr) {
goto __281
}
*(*I64)(unsafe.Pointer(bp + 224)) |= iB1
goto __282
__281:
if !(iB1 != int64(0)) {
goto __283
}
if !(iB1 < int64(0)) {
goto __284
}
op = U8(2*OP_ShiftLeft + 1 - int32(op))
if iB1 > int64(-64) {
iB1 = -iB1
} else {
iB1 = int64(64)
}
__284:
;
if !(iB1 >= int64(64)) {
goto __285
}
if *(*I64)(unsafe.Pointer(bp + 224)) >= int64(0) || int32(op) == OP_ShiftLeft {
*(*I64)(unsafe.Pointer(bp + 224)) = int64(0)
} else {
*(*I64)(unsafe.Pointer(bp + 224)) = int64(-1)
}
goto __286
__285:
libc.X__builtin___memcpy_chk(tls, bp+216, bp+224, uint64(unsafe.Sizeof(U64(0))), libc.X__builtin_object_size(tls, bp+216, 0))
if !(int32(op) == OP_ShiftLeft) {
goto __287
}
*(*U64)(unsafe.Pointer(bp + 216)) <<= iB1
goto __288
__287:
*(*U64)(unsafe.Pointer(bp + 216)) >>= iB1
if !(*(*I64)(unsafe.Pointer(bp + 224)) < int64(0)) {
goto __289
}
*(*U64)(unsafe.Pointer(bp + 216)) |= (uint64(0xffffffff)<<32 | uint64(0xffffffff)) << (int64(64) - iB1)
__289:
;
__288:
;
libc.X__builtin___memcpy_chk(tls, bp+224, bp+216, uint64(unsafe.Sizeof(I64(0))), libc.X__builtin_object_size(tls, bp+224, 0))
__286:
;
__283:
;
__282:
;
__280:
;
*(*I64)(unsafe.Pointer(pOut)) = *(*I64)(unsafe.Pointer(bp + 224))
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Int)
goto __9
__45:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
Xsqlite3VdbeMemIntegerify(tls, pIn1)
*(*I64)(unsafe.Pointer(pIn1)) += I64((*Op)(unsafe.Pointer(pOp)).Fp2)
goto __9
__46:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Int == 0) {
goto __290
}
applyAffinity(tls, pIn1, int8(SQLITE_AFF_NUMERIC), encoding)
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Int == 0) {
goto __291
}
if !((*Op)(unsafe.Pointer(pOp)).Fp2 == 0) {
goto __292
}
rc = SQLITE_MISMATCH
goto abort_due_to_error
goto __293
__292:
goto jump_to_p2
__293:
;
__291:
;
__290:
;
(*Mem)(unsafe.Pointer(pIn1)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Int)
goto __9
__47:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&(MEM_Int|MEM_IntReal) != 0) {
goto __294
}
Xsqlite3VdbeMemRealify(tls, pIn1)
__294:
;
goto __9
__48:
;
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
rc = func() int32 {
if int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Zero != 0 {
return Xsqlite3VdbeMemExpandBlob(tls, pIn1)
}
return 0
}()
if !(rc != 0) {
goto __295
}
goto abort_due_to_error
__295:
;
rc = Xsqlite3VdbeMemCast(tls, pIn1, uint8((*Op)(unsafe.Pointer(pOp)).Fp2), encoding)
if !(rc != 0) {
goto __296
}
goto abort_due_to_error
__296:
;
goto __9
__49:
__50:
__51:
__52:
__53:
__54:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
pIn3 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
flags11 = (*Mem)(unsafe.Pointer(pIn1)).Fflags
flags3 = (*Mem)(unsafe.Pointer(pIn3)).Fflags
if !(int32(flags11)&int32(flags3)&MEM_Int != 0) {
goto __297
}
if !(*(*I64)(unsafe.Pointer(pIn3)) > *(*I64)(unsafe.Pointer(pIn1))) {
goto __298
}
if !(*(*uint8)(unsafe.Pointer(Xsqlite3aGTb + uintptr((*Op)(unsafe.Pointer(pOp)).Fopcode))) != 0) {
goto __300
}
goto jump_to_p2
__300:
;
iCompare = +1
goto __299
__298:
if !(*(*I64)(unsafe.Pointer(pIn3)) < *(*I64)(unsafe.Pointer(pIn1))) {
goto __301
}
if !(*(*uint8)(unsafe.Pointer(Xsqlite3aLTb + uintptr((*Op)(unsafe.Pointer(pOp)).Fopcode))) != 0) {
goto __303
}
goto jump_to_p2
__303:
;
iCompare = -1
goto __302
__301:
if !(*(*uint8)(unsafe.Pointer(Xsqlite3aEQb + uintptr((*Op)(unsafe.Pointer(pOp)).Fopcode))) != 0) {
goto __304
}
goto jump_to_p2
__304:
;
iCompare = 0
__302:
;
__299:
;
goto __9
__297:
;
if !((int32(flags11)|int32(flags3))&MEM_Null != 0) {
goto __305
}
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp5)&SQLITE_NULLEQ != 0) {
goto __307
}
if !(int32(flags11)&int32(flags3)&MEM_Null != 0 &&
int32(flags3)&MEM_Cleared == 0) {
goto __309
}
res = 0
goto __310
__309:
res = func() int32 {
if int32(flags3)&MEM_Null != 0 {
return -1
}
return +1
}()
__310:
;
goto __308
__307:
;
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp5)&SQLITE_JUMPIFNULL != 0) {
goto __311
}
goto jump_to_p2
__311:
;
iCompare = 1
goto __9
__308:
;
goto __306
__305:
affinity = int8(int32((*Op)(unsafe.Pointer(pOp)).Fp5) & SQLITE_AFF_MASK)
if !(int32(affinity) >= SQLITE_AFF_NUMERIC) {
goto __312
}
if !((int32(flags11)|int32(flags3))&MEM_Str != 0) {
goto __314
}
if !(int32(flags11)&(MEM_Int|MEM_IntReal|MEM_Real|MEM_Str) == MEM_Str) {
goto __315
}
applyNumericAffinity(tls, pIn1, 0)
flags3 = (*Mem)(unsafe.Pointer(pIn3)).Fflags
__315:
;
if !(int32(flags3)&(MEM_Int|MEM_IntReal|MEM_Real|MEM_Str) == MEM_Str) {
goto __316
}
applyNumericAffinity(tls, pIn3, 0)
__316:
;
__314:
;
goto __313
__312:
if !(int32(affinity) == SQLITE_AFF_TEXT && (int32(flags11)|int32(flags3))&MEM_Str != 0) {
goto __317
}
if !(int32(flags11)&MEM_Str == 0 && int32(flags11)&(MEM_Int|MEM_Real|MEM_IntReal) != 0) {
goto __318
}
Xsqlite3VdbeMemStringify(tls, pIn1, encoding, uint8(1))
flags11 = U16(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&libc.CplInt32(MEM_TypeMask) | int32(flags11)&MEM_TypeMask)
if !(pIn1 == pIn3) {
goto __319
}
flags3 = U16(int32(flags11) | MEM_Str)
__319:
;
__318:
;
if !(int32(flags3)&MEM_Str == 0 && int32(flags3)&(MEM_Int|MEM_Real|MEM_IntReal) != 0) {
goto __320
}
Xsqlite3VdbeMemStringify(tls, pIn3, encoding, uint8(1))
flags3 = U16(int32((*Mem)(unsafe.Pointer(pIn3)).Fflags)&libc.CplInt32(MEM_TypeMask) | int32(flags3)&MEM_TypeMask)
__320:
;
__317:
;
__313:
;
res = Xsqlite3MemCompare(tls, pIn3, pIn1, *(*uintptr)(unsafe.Pointer(pOp + 16)))
__306:
;
if !(res < 0) {
goto __321
}
res2 = int32(*(*uint8)(unsafe.Pointer(Xsqlite3aLTb + uintptr((*Op)(unsafe.Pointer(pOp)).Fopcode))))
goto __322
__321:
if !(res == 0) {
goto __323
}
res2 = int32(*(*uint8)(unsafe.Pointer(Xsqlite3aEQb + uintptr((*Op)(unsafe.Pointer(pOp)).Fopcode))))
goto __324
__323:
res2 = int32(*(*uint8)(unsafe.Pointer(Xsqlite3aGTb + uintptr((*Op)(unsafe.Pointer(pOp)).Fopcode))))
__324:
;
__322:
;
iCompare = res
(*Mem)(unsafe.Pointer(pIn3)).Fflags = flags3
(*Mem)(unsafe.Pointer(pIn1)).Fflags = flags11
if !(res2 != 0) {
goto __325
}
goto jump_to_p2
__325:
;
goto __9
__55:
;
if !(iCompare == 0) {
goto __326
}
goto jump_to_p2
__326:
;
goto __9
__56:
;
goto __9
__57:
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp5)&OPFLAG_PERMUTE == 0) {
goto __327
}
aPermute = uintptr(0)
goto __328
__327:
;
aPermute = *(*uintptr)(unsafe.Pointer(pOp + libc.UintptrFromInt32(-1)*24 + 16)) + uintptr(1)*4
__328:
;
n2 = (*Op)(unsafe.Pointer(pOp)).Fp3
pKeyInfo = *(*uintptr)(unsafe.Pointer(pOp + 16))
p11 = (*Op)(unsafe.Pointer(pOp)).Fp1
p21 = (*Op)(unsafe.Pointer(pOp)).Fp2
i = 0
__329:
if !(i < n2) {
goto __331
}
if aPermute != 0 {
idx = *(*U32)(unsafe.Pointer(aPermute + uintptr(i)*4))
} else {
idx = U32(i)
}
pColl = *(*uintptr)(unsafe.Pointer(pKeyInfo + 32 + uintptr(i)*8))
bRev = int32(*(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer(pKeyInfo)).FaSortFlags + uintptr(i)))) & KEYINFO_ORDER_DESC
iCompare = Xsqlite3MemCompare(tls, aMem+uintptr(U32(p11)+idx)*56, aMem+uintptr(U32(p21)+idx)*56, pColl)
if !(iCompare != 0) {
goto __332
}
if !(int32(*(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer(pKeyInfo)).FaSortFlags + uintptr(i))))&KEYINFO_ORDER_BIGNULL != 0 &&
(int32((*Mem)(unsafe.Pointer(aMem+uintptr(U32(p11)+idx)*56)).Fflags)&MEM_Null != 0 || int32((*Mem)(unsafe.Pointer(aMem+uintptr(U32(p21)+idx)*56)).Fflags)&MEM_Null != 0)) {
goto __333
}
iCompare = -iCompare
__333:
;
if !(bRev != 0) {
goto __334
}
iCompare = -iCompare
__334:
;
goto __331
__332:
;
goto __330
__330:
i++
goto __329
goto __331
__331:
;
goto __9
__58:
;
if !(iCompare < 0) {
goto __335
}
pOp = aOp + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1-1)*24
goto __336
__335:
if !(iCompare == 0) {
goto __337
}
pOp = aOp + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2-1)*24
goto __338
__337:
;
pOp = aOp + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3-1)*24
__338:
;
__336:
;
goto __9
__59:
__60:
v1 = Xsqlite3VdbeBooleanValue(tls, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56, 2)
v2 = Xsqlite3VdbeBooleanValue(tls, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56, 2)
if !(int32((*Op)(unsafe.Pointer(pOp)).Fopcode) == OP_And) {
goto __339
}
v1 = int32(and_logic[v1*3+v2])
goto __340
__339:
v1 = int32(or_logic[v1*3+v2])
__340:
;
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
if !(v1 == 2) {
goto __341
}
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Null)
goto __342
__341:
*(*I64)(unsafe.Pointer(pOut)) = I64(v1)
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Int)
__342:
;
goto __9
__61:
;
Xsqlite3VdbeMemSetInt64(tls, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56,
int64(Xsqlite3VdbeBooleanValue(tls, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56, (*Op)(unsafe.Pointer(pOp)).Fp3)^*(*int32)(unsafe.Pointer(pOp + 16))))
goto __9
__62:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Null == 0) {
goto __343
}
Xsqlite3VdbeMemSetInt64(tls, pOut, libc.BoolInt64(!(Xsqlite3VdbeBooleanValue(tls, pIn1, 0) != 0)))
goto __344
__343:
Xsqlite3VdbeMemSetNull(tls, pOut)
__344:
;
goto __9
__63:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
Xsqlite3VdbeMemSetNull(tls, pOut)
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Null == 0) {
goto __345
}
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(MEM_Int)
*(*I64)(unsafe.Pointer(pOut)) = ^Xsqlite3VdbeIntValue(tls, pIn1)
__345:
;
goto __9
__64:
;
if !((*Vdbe)(unsafe.Pointer(p)).FpFrame != 0) {
goto __346
}
iAddr = U32(int32((int64(pOp) - int64((*Vdbe)(unsafe.Pointer(p)).FaOp)) / 24))
if !(int32(*(*U8)(unsafe.Pointer((*VdbeFrame)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FpFrame)).FaOnce + uintptr(iAddr/U32(8)))))&(int32(1)<<(iAddr&U32(7))) != 0) {
goto __348
}
goto jump_to_p2
__348:
;
*(*U8)(unsafe.Pointer((*VdbeFrame)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FpFrame)).FaOnce + uintptr(iAddr/U32(8)))) |= U8(int32(1) << (iAddr & U32(7)))
goto __347
__346:
if !((*Op)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FaOp)).Fp1 == (*Op)(unsafe.Pointer(pOp)).Fp1) {
goto __349
}
goto jump_to_p2
__349:
;
__347:
;
(*Op)(unsafe.Pointer(pOp)).Fp1 = (*Op)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FaOp)).Fp1
goto __9
__65:
c = Xsqlite3VdbeBooleanValue(tls, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56, (*Op)(unsafe.Pointer(pOp)).Fp3)
if !(c != 0) {
goto __350
}
goto jump_to_p2
__350:
;
goto __9
__66:
c1 = libc.BoolInt32(!(Xsqlite3VdbeBooleanValue(tls, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56, libc.BoolInt32(!((*Op)(unsafe.Pointer(pOp)).Fp3 != 0))) != 0))
if !(c1 != 0) {
goto __351
}
goto jump_to_p2
__351:
;
goto __9
__67:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Null != 0) {
goto __352
}
goto jump_to_p2
__352:
;
goto __9
__68:
;
if !((*Op)(unsafe.Pointer(pOp)).Fp1 >= 0) {
goto __353
}
pC = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !((*Op)(unsafe.Pointer(pOp)).Fp3 < int32((*VdbeCursor)(unsafe.Pointer(pC)).FnHdrParsed)) {
goto __355
}
serialType = *(*U32)(unsafe.Pointer(pC + 112 + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*4))
if !(serialType >= U32(12)) {
goto __357
}
if !(serialType&U32(1) != 0) {
goto __359
}
typeMask = U16(0x04)
goto __360
__359:
typeMask = U16(0x08)
__360:
;
goto __358
__357:
;
typeMask = U16(aMask[serialType])
__358:
;
goto __356
__355:
typeMask = U16(int32(1) << (*(*int32)(unsafe.Pointer(pOp + 16)) - 1))
__356:
;
goto __354
__353:
;
typeMask = U16(int32(1) << (Xsqlite3_value_type(tls, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56) - 1))
__354:
;
if !(int32(typeMask)&int32((*Op)(unsafe.Pointer(pOp)).Fp5) != 0) {
goto __361
}
goto jump_to_p2
__361:
;
goto __9
__69:
if !(int32((*Mem)(unsafe.Pointer(aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56)).Fflags)&MEM_Null != 0 ||
int32((*Mem)(unsafe.Pointer(aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56)).Fflags)&MEM_Null != 0) {
goto __362
}
Xsqlite3VdbeMemSetNull(tls, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56)
goto __363
__362:
Xsqlite3VdbeMemSetInt64(tls, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56, int64(0))
__363:
;
goto __9
__70:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Null == 0) {
goto __364
}
goto jump_to_p2
__364:
;
goto __9
__71:
;
pC1 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !(pC1 != 0 && (*VdbeCursor)(unsafe.Pointer(pC1)).FnullRow != 0) {
goto __365
}
Xsqlite3VdbeMemSetNull(tls, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56)
goto jump_to_p2
__365:
;
goto __9
__72:
;
pC2 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
pOut = (*Vdbe)(unsafe.Pointer(p)).FaMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
if !(pC2 == uintptr(0) || int32((*VdbeCursor)(unsafe.Pointer(pC2)).FeCurType) != CURTYPE_BTREE) {
goto __366
}
Xsqlite3VdbeMemSetNull(tls, pOut)
goto __367
__366:
if !((*VdbeCursor)(unsafe.Pointer(pC2)).FdeferredMoveto != 0) {
goto __368
}
rc = Xsqlite3VdbeFinishMoveto(tls, pC2)
if !(rc != 0) {
goto __369
}
goto abort_due_to_error
__369:
;
__368:
;
if !(Xsqlite3BtreeEof(tls, *(*uintptr)(unsafe.Pointer(pC2 + 48))) != 0) {
goto __370
}
Xsqlite3VdbeMemSetNull(tls, pOut)
goto __371
__370:
Xsqlite3VdbeMemSetInt64(tls, pOut, Xsqlite3BtreeOffset(tls, *(*uintptr)(unsafe.Pointer(pC2 + 48))))
__371:
;
__367:
;
goto __9
__73:
;
pC3 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
p22 = U32((*Op)(unsafe.Pointer(pOp)).Fp2)
op_column_restart:
;
aOffset = (*VdbeCursor)(unsafe.Pointer(pC3)).FaOffset
if !((*VdbeCursor)(unsafe.Pointer(pC3)).FcacheStatus != (*Vdbe)(unsafe.Pointer(p)).FcacheCtr) {
goto __372
}
if !((*VdbeCursor)(unsafe.Pointer(pC3)).FnullRow != 0) {
goto __374
}
if !(int32((*VdbeCursor)(unsafe.Pointer(pC3)).FeCurType) == CURTYPE_PSEUDO && (*VdbeCursor)(unsafe.Pointer(pC3)).FseekResult > 0) {
goto __376
}
pReg = aMem + uintptr((*VdbeCursor)(unsafe.Pointer(pC3)).FseekResult)*56
(*VdbeCursor)(unsafe.Pointer(pC3)).FpayloadSize = libc.AssignPtrUint32(pC3+108, U32((*Mem)(unsafe.Pointer(pReg)).Fn))
(*VdbeCursor)(unsafe.Pointer(pC3)).FaRow = (*Mem)(unsafe.Pointer(pReg)).Fz
goto __377
__376:
pDest = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
Xsqlite3VdbeMemSetNull(tls, pDest)
goto op_column_out
__377:
;
goto __375
__374:
pCrsr = *(*uintptr)(unsafe.Pointer(pC3 + 48))
if !((*VdbeCursor)(unsafe.Pointer(pC3)).FdeferredMoveto != 0) {
goto __378
}
if !(*(*uintptr)(unsafe.Pointer(pC3 + 16)) != 0 && libc.AssignUint32(&iMap, *(*U32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pC3 + 16)) + uintptr(U32(1)+p22)*4))) > U32(0)) {
goto __380
}
pC3 = (*VdbeCursor)(unsafe.Pointer(pC3)).FpAltCursor
p22 = iMap - U32(1)
goto op_column_restart
__380:
;
rc = Xsqlite3VdbeFinishMoveto(tls, pC3)
if !(rc != 0) {
goto __381
}
goto abort_due_to_error
__381:
;
goto __379
__378:
if !(Xsqlite3BtreeCursorHasMoved(tls, pCrsr) != 0) {
goto __382
}
rc = Xsqlite3VdbeHandleMovedCursor(tls, pC3)
if !(rc != 0) {
goto __383
}
goto abort_due_to_error
__383:
;
goto op_column_restart
__382:
;
__379:
;
(*VdbeCursor)(unsafe.Pointer(pC3)).FpayloadSize = Xsqlite3BtreePayloadSize(tls, pCrsr)
(*VdbeCursor)(unsafe.Pointer(pC3)).FaRow = Xsqlite3BtreePayloadFetch(tls, pCrsr, pC3+108)
__375:
;
(*VdbeCursor)(unsafe.Pointer(pC3)).FcacheStatus = (*Vdbe)(unsafe.Pointer(p)).FcacheCtr
if !(libc.AssignPtrUint32(aOffset, U32(*(*U8)(unsafe.Pointer((*VdbeCursor)(unsafe.Pointer(pC3)).FaRow)))) < U32(0x80)) {
goto __384
}
(*VdbeCursor)(unsafe.Pointer(pC3)).FiHdrOffset = U32(1)
goto __385
__384:
(*VdbeCursor)(unsafe.Pointer(pC3)).FiHdrOffset = U32(Xsqlite3GetVarint32(tls, (*VdbeCursor)(unsafe.Pointer(pC3)).FaRow, aOffset))
__385:
;
(*VdbeCursor)(unsafe.Pointer(pC3)).FnHdrParsed = U16(0)
if !((*VdbeCursor)(unsafe.Pointer(pC3)).FszRow < *(*U32)(unsafe.Pointer(aOffset))) {
goto __386
}
(*VdbeCursor)(unsafe.Pointer(pC3)).FaRow = uintptr(0)
(*VdbeCursor)(unsafe.Pointer(pC3)).FszRow = U32(0)
if !(*(*U32)(unsafe.Pointer(aOffset)) > U32(98307) || *(*U32)(unsafe.Pointer(aOffset)) > (*VdbeCursor)(unsafe.Pointer(pC3)).FpayloadSize) {
goto __388
}
goto op_column_corrupt
__388:
;
goto __387
__386:
zData = (*VdbeCursor)(unsafe.Pointer(pC3)).FaRow
goto op_column_read_header
__387:
;
goto __373
__372:
if !(Xsqlite3BtreeCursorHasMoved(tls, *(*uintptr)(unsafe.Pointer(pC3 + 48))) != 0) {
goto __389
}
rc = Xsqlite3VdbeHandleMovedCursor(tls, pC3)
if !(rc != 0) {
goto __390
}
goto abort_due_to_error
__390:
;
goto op_column_restart
__389:
;
__373:
;
if !(U32((*VdbeCursor)(unsafe.Pointer(pC3)).FnHdrParsed) <= p22) {
goto __391
}
if !((*VdbeCursor)(unsafe.Pointer(pC3)).FiHdrOffset < *(*U32)(unsafe.Pointer(aOffset))) {
goto __393
}
if !((*VdbeCursor)(unsafe.Pointer(pC3)).FaRow == uintptr(0)) {
goto __395
}
libc.X__builtin___memset_chk(tls, bp+232, 0, uint64(unsafe.Sizeof(Mem{})), libc.X__builtin_object_size(tls, bp+232, 0))
rc = Xsqlite3VdbeMemFromBtreeZeroOffset(tls, *(*uintptr)(unsafe.Pointer(pC3 + 48)), *(*U32)(unsafe.Pointer(aOffset)), bp+232)
if !(rc != SQLITE_OK) {
goto __397
}
goto abort_due_to_error
__397:
;
zData = (*Mem)(unsafe.Pointer(bp + 232)).Fz
goto __396
__395:
zData = (*VdbeCursor)(unsafe.Pointer(pC3)).FaRow
__396:
;
op_column_read_header:
i1 = int32((*VdbeCursor)(unsafe.Pointer(pC3)).FnHdrParsed)
offset64 = U64(*(*U32)(unsafe.Pointer(aOffset + uintptr(i1)*4)))
zHdr = zData + uintptr((*VdbeCursor)(unsafe.Pointer(pC3)).FiHdrOffset)
zEndHdr = zData + uintptr(*(*U32)(unsafe.Pointer(aOffset)))
__398:
if !(libc.AssignPtrUint32(pC3+112+uintptr(i1)*4, libc.AssignPtrUint32(bp+288, U32(*(*U8)(unsafe.Pointer(zHdr))))) < U32(0x80)) {
goto __401
}
zHdr++
offset64 = offset64 + U64(Xsqlite3VdbeOneByteSerialTypeLen(tls, uint8(*(*U32)(unsafe.Pointer(bp + 288)))))
goto __402
__401:
zHdr += uintptr(Xsqlite3GetVarint32(tls, zHdr, bp+288))
*(*U32)(unsafe.Pointer(pC3 + 112 + uintptr(i1)*4)) = *(*U32)(unsafe.Pointer(bp + 288))
offset64 = offset64 + U64(Xsqlite3VdbeSerialTypeLen(tls, *(*U32)(unsafe.Pointer(bp + 288))))
__402:
;
*(*U32)(unsafe.Pointer(aOffset + uintptr(libc.PreIncInt32(&i1, 1))*4)) = U32(offset64 & uint64(0xffffffff))
goto __399
__399:
if U32(i1) <= p22 && zHdr < zEndHdr {
goto __398
}
goto __400
__400:
;
if !(zHdr >= zEndHdr && (zHdr > zEndHdr || offset64 != U64((*VdbeCursor)(unsafe.Pointer(pC3)).FpayloadSize)) ||
offset64 > U64((*VdbeCursor)(unsafe.Pointer(pC3)).FpayloadSize)) {
goto __403
}
if !(*(*U32)(unsafe.Pointer(aOffset)) == U32(0)) {
goto __404
}
i1 = 0
zHdr = zEndHdr
goto __405
__404:
if !((*VdbeCursor)(unsafe.Pointer(pC3)).FaRow == uintptr(0)) {
goto __406
}
Xsqlite3VdbeMemRelease(tls, bp+232)
__406:
;
goto op_column_corrupt
__405:
;
__403:
;
(*VdbeCursor)(unsafe.Pointer(pC3)).FnHdrParsed = U16(i1)
(*VdbeCursor)(unsafe.Pointer(pC3)).FiHdrOffset = U32((int64(zHdr) - int64(zData)) / 1)
if !((*VdbeCursor)(unsafe.Pointer(pC3)).FaRow == uintptr(0)) {
goto __407
}
Xsqlite3VdbeMemRelease(tls, bp+232)
__407:
;
goto __394
__393:
*(*U32)(unsafe.Pointer(bp + 288)) = U32(0)
__394:
;
if !(U32((*VdbeCursor)(unsafe.Pointer(pC3)).FnHdrParsed) <= p22) {
goto __408
}
pDest = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp4type) == -10) {
goto __409
}
Xsqlite3VdbeMemShallowCopy(tls, pDest, *(*uintptr)(unsafe.Pointer(pOp + 16)), MEM_Static)
goto __410
__409:
Xsqlite3VdbeMemSetNull(tls, pDest)
__410:
;
goto op_column_out
__408:
;
goto __392
__391:
*(*U32)(unsafe.Pointer(bp + 288)) = *(*U32)(unsafe.Pointer(pC3 + 112 + uintptr(p22)*4))
__392:
;
pDest = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
if !(int32((*Mem)(unsafe.Pointer(pDest)).Fflags)&(MEM_Agg|MEM_Dyn) != 0) {
goto __411
}
Xsqlite3VdbeMemSetNull(tls, pDest)
__411:
;
if !((*VdbeCursor)(unsafe.Pointer(pC3)).FszRow >= *(*U32)(unsafe.Pointer(aOffset + uintptr(p22+U32(1))*4))) {
goto __412
}
zData = (*VdbeCursor)(unsafe.Pointer(pC3)).FaRow + uintptr(*(*U32)(unsafe.Pointer(aOffset + uintptr(p22)*4)))
if !(*(*U32)(unsafe.Pointer(bp + 288)) < U32(12)) {
goto __414
}
Xsqlite3VdbeSerialGet(tls, zData, *(*U32)(unsafe.Pointer(bp + 288)), pDest)
goto __415
__414:
(*Mem)(unsafe.Pointer(pDest)).Fn = libc.AssignInt32(&len, int32((*(*U32)(unsafe.Pointer(bp + 288))-U32(12))/U32(2)))
(*Mem)(unsafe.Pointer(pDest)).Fenc = encoding
if !((*Mem)(unsafe.Pointer(pDest)).FszMalloc < len+2) {
goto __416
}
if !(len > *(*int32)(unsafe.Pointer(db + 136))) {
goto __418
}
goto too_big
__418:
;
(*Mem)(unsafe.Pointer(pDest)).Fflags = U16(MEM_Null)
if !(Xsqlite3VdbeMemGrow(tls, pDest, len+2, 0) != 0) {
goto __419
}
goto no_mem
__419:
;
goto __417
__416:
(*Mem)(unsafe.Pointer(pDest)).Fz = (*Mem)(unsafe.Pointer(pDest)).FzMalloc
__417:
;
libc.X__builtin___memcpy_chk(tls, (*Mem)(unsafe.Pointer(pDest)).Fz, zData, uint64(len), libc.X__builtin_object_size(tls, (*Mem)(unsafe.Pointer(pDest)).Fz, 0))
*(*int8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pDest)).Fz + uintptr(len))) = int8(0)
*(*int8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pDest)).Fz + uintptr(len+1))) = int8(0)
(*Mem)(unsafe.Pointer(pDest)).Fflags = aFlag1[*(*U32)(unsafe.Pointer(bp + 288))&U32(1)]
__415:
;
goto __413
__412:
(*Mem)(unsafe.Pointer(pDest)).Fenc = encoding
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp5)&(OPFLAG_LENGTHARG|OPFLAG_TYPEOFARG) != 0 &&
(*(*U32)(unsafe.Pointer(bp + 288)) >= U32(12) && *(*U32)(unsafe.Pointer(bp + 288))&U32(1) == U32(0) || int32((*Op)(unsafe.Pointer(pOp)).Fp5)&OPFLAG_TYPEOFARG != 0) ||
libc.AssignInt32(&len, int32(Xsqlite3VdbeSerialTypeLen(tls, *(*U32)(unsafe.Pointer(bp + 288))))) == 0) {
goto __420
}
Xsqlite3VdbeSerialGet(tls, uintptr(unsafe.Pointer(&Xsqlite3CtypeMap)), *(*U32)(unsafe.Pointer(bp + 288)), pDest)
goto __421
__420:
if !(len > *(*int32)(unsafe.Pointer(db + 136))) {
goto __422
}
goto too_big
__422:
;
rc = Xsqlite3VdbeMemFromBtree(tls, *(*uintptr)(unsafe.Pointer(pC3 + 48)), *(*U32)(unsafe.Pointer(aOffset + uintptr(p22)*4)), uint32(len), pDest)
if !(rc != SQLITE_OK) {
goto __423
}
goto abort_due_to_error
__423:
;
Xsqlite3VdbeSerialGet(tls, (*Mem)(unsafe.Pointer(pDest)).Fz, *(*U32)(unsafe.Pointer(bp + 288)), pDest)
*(*U16)(unsafe.Pointer(pDest + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Ephem))
__421:
;
__413:
;
op_column_out:
;
goto __9
op_column_corrupt:
if !((*Op)(unsafe.Pointer(aOp)).Fp3 > 0) {
goto __424
}
pOp = aOp + uintptr((*Op)(unsafe.Pointer(aOp)).Fp3-1)*24
goto __9
goto __425
__424:
rc = Xsqlite3CorruptError(tls, 93317)
goto abort_due_to_error
__425:
;
__74:
;
pTab = *(*uintptr)(unsafe.Pointer(pOp + 16))
aCol = (*Table)(unsafe.Pointer(pTab)).FaCol
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
i2 = 0
__426:
if !(i2 < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __428
}
if !(int32((*Column)(unsafe.Pointer(aCol+uintptr(i2)*24)).FcolFlags)&COLFLAG_GENERATED != 0) {
goto __429
}
if !(int32((*Column)(unsafe.Pointer(aCol+uintptr(i2)*24)).FcolFlags)&COLFLAG_VIRTUAL != 0) {
goto __430
}
goto __427
__430:
;
if !((*Op)(unsafe.Pointer(pOp)).Fp3 != 0) {
goto __431
}
pIn1 += 56
goto __427
__431:
;
__429:
;
applyAffinity(tls, pIn1, (*Column)(unsafe.Pointer(aCol+uintptr(i2)*24)).Faffinity, encoding)
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Null == 0) {
goto __432
}
switch int32(*(*uint8)(unsafe.Pointer(aCol + uintptr(i2)*24 + 8)) & 0xf0 >> 4) {
case COLTYPE_BLOB:
goto __434
case COLTYPE_INTEGER:
goto __435
case COLTYPE_INT:
goto __436
case COLTYPE_TEXT:
goto __437
case COLTYPE_REAL:
goto __438
default:
goto __439
}
goto __433
__434:
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Blob == 0) {
goto __440
}
goto vdbe_type_error
__440:
;
goto __433
__435:
__436:
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Int == 0) {
goto __441
}
goto vdbe_type_error
__441:
;
goto __433
__437:
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Str == 0) {
goto __442
}
goto vdbe_type_error
__442:
;
goto __433
__438:
;
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Int != 0) {
goto __443
}
if !(*(*I64)(unsafe.Pointer(pIn1)) <= 140737488355327 && *(*I64)(unsafe.Pointer(pIn1)) >= -140737488355328) {
goto __445
}
*(*U16)(unsafe.Pointer(pIn1 + 20)) |= U16(MEM_IntReal)
*(*U16)(unsafe.Pointer(pIn1 + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Int))
goto __446
__445:
*(*float64)(unsafe.Pointer(pIn1)) = float64(*(*I64)(unsafe.Pointer(pIn1)))
*(*U16)(unsafe.Pointer(pIn1 + 20)) |= U16(MEM_Real)
*(*U16)(unsafe.Pointer(pIn1 + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Int))
__446:
;
goto __444
__443:
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&(MEM_Real|MEM_IntReal) == 0) {
goto __447
}
goto vdbe_type_error
__447:
;
__444:
;
goto __433
__439:
goto __433
__433:
;
__432:
;
pIn1 += 56
goto __427
__427:
i2++
goto __426
goto __428
__428:
;
goto __9
vdbe_type_error:
Xsqlite3VdbeError(tls, p, ts+5886,
libc.VaList(bp+56, vdbeMemTypeName(tls, pIn1), Xsqlite3StdType[(int32(*(*uint8)(unsafe.Pointer(aCol + uintptr(i2)*24 + 8))&0xf0>>4)-1)&0xf<<28>>28],
(*Table)(unsafe.Pointer(pTab)).FzName, (*Column)(unsafe.Pointer(aCol+uintptr(i2)*24)).FzCnName))
rc = SQLITE_CONSTRAINT | int32(12)<<8
goto abort_due_to_error
__75:
zAffinity = *(*uintptr)(unsafe.Pointer(pOp + 16))
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
__448:
if !(1 != 0) {
goto __449
}
applyAffinity(tls, pIn1, *(*int8)(unsafe.Pointer(zAffinity)), encoding)
if !(int32(*(*int8)(unsafe.Pointer(zAffinity))) == SQLITE_AFF_REAL && int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Int != 0) {
goto __450
}
if !(*(*I64)(unsafe.Pointer(pIn1)) <= 140737488355327 && *(*I64)(unsafe.Pointer(pIn1)) >= -140737488355328) {
goto __451
}
*(*U16)(unsafe.Pointer(pIn1 + 20)) |= U16(MEM_IntReal)
*(*U16)(unsafe.Pointer(pIn1 + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Int))
goto __452
__451:
*(*float64)(unsafe.Pointer(pIn1)) = float64(*(*I64)(unsafe.Pointer(pIn1)))
*(*U16)(unsafe.Pointer(pIn1 + 20)) |= U16(MEM_Real)
*(*U16)(unsafe.Pointer(pIn1 + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Int))
__452:
;
__450:
;
zAffinity++
if !(int32(*(*int8)(unsafe.Pointer(zAffinity))) == 0) {
goto __453
}
goto __449
__453:
;
pIn1 += 56
goto __448
__449:
;
goto __9
__76:
nData = uint64(0)
nHdr = 0
nZero = int64(0)
nField = (*Op)(unsafe.Pointer(pOp)).Fp1
zAffinity1 = *(*uintptr)(unsafe.Pointer(pOp + 16))
pData0 = aMem + uintptr(nField)*56
nField = (*Op)(unsafe.Pointer(pOp)).Fp2
pLast = pData0 + uintptr(nField-1)*56
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
if !(zAffinity1 != 0) {
goto __454
}
pRec = pData0
__455:
applyAffinity(tls, pRec, *(*int8)(unsafe.Pointer(zAffinity1)), encoding)
if !(int32(*(*int8)(unsafe.Pointer(zAffinity1))) == SQLITE_AFF_REAL && int32((*Mem)(unsafe.Pointer(pRec)).Fflags)&MEM_Int != 0) {
goto __458
}
*(*U16)(unsafe.Pointer(pRec + 20)) |= U16(MEM_IntReal)
*(*U16)(unsafe.Pointer(pRec + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Int))
__458:
;
zAffinity1++
pRec += 56
goto __456
__456:
if *(*int8)(unsafe.Pointer(zAffinity1)) != 0 {
goto __455
}
goto __457
__457:
;
__454:
;
pRec = pLast
__459:
;
if !(int32((*Mem)(unsafe.Pointer(pRec)).Fflags)&MEM_Null != 0) {
goto __462
}
if !(int32((*Mem)(unsafe.Pointer(pRec)).Fflags)&MEM_Zero != 0) {
goto __464
}
(*Mem)(unsafe.Pointer(pRec)).FuTemp = U32(10)
goto __465
__464:
(*Mem)(unsafe.Pointer(pRec)).FuTemp = U32(0)
__465:
;
nHdr++
goto __463
__462:
if !(int32((*Mem)(unsafe.Pointer(pRec)).Fflags)&(MEM_Int|MEM_IntReal) != 0) {
goto __466
}
i3 = *(*I64)(unsafe.Pointer(pRec))
if !(i3 < int64(0)) {
goto __468
}
uu = U64(^i3)
goto __469
__468:
uu = U64(i3)
__469:
;
nHdr++
if !(uu <= uint64(127)) {
goto __470
}
if !(i3&int64(1) == i3 && int32((*Vdbe)(unsafe.Pointer(p)).FminWriteFileFormat) >= 4) {
goto __472
}
(*Mem)(unsafe.Pointer(pRec)).FuTemp = U32(8) + U32(uu)
goto __473
__472:
nData++
(*Mem)(unsafe.Pointer(pRec)).FuTemp = U32(1)
__473:
;
goto __471
__470:
if !(uu <= uint64(32767)) {
goto __474
}
nData = nData + uint64(2)
(*Mem)(unsafe.Pointer(pRec)).FuTemp = U32(2)
goto __475
__474:
if !(uu <= uint64(8388607)) {
goto __476
}
nData = nData + uint64(3)
(*Mem)(unsafe.Pointer(pRec)).FuTemp = U32(3)
goto __477
__476:
if !(uu <= uint64(2147483647)) {
goto __478
}
nData = nData + uint64(4)
(*Mem)(unsafe.Pointer(pRec)).FuTemp = U32(4)
goto __479
__478:
if !(uu <= uint64(140737488355327)) {
goto __480
}
nData = nData + uint64(6)
(*Mem)(unsafe.Pointer(pRec)).FuTemp = U32(5)
goto __481
__480:
nData = nData + uint64(8)
if !(int32((*Mem)(unsafe.Pointer(pRec)).Fflags)&MEM_IntReal != 0) {
goto __482
}
*(*float64)(unsafe.Pointer(pRec)) = float64(*(*I64)(unsafe.Pointer(pRec)))
*(*U16)(unsafe.Pointer(pRec + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_IntReal))
*(*U16)(unsafe.Pointer(pRec + 20)) |= U16(MEM_Real)
(*Mem)(unsafe.Pointer(pRec)).FuTemp = U32(7)
goto __483
__482:
(*Mem)(unsafe.Pointer(pRec)).FuTemp = U32(6)
__483:
;
__481:
;
__479:
;
__477:
;
__475:
;
__471:
;
goto __467
__466:
if !(int32((*Mem)(unsafe.Pointer(pRec)).Fflags)&MEM_Real != 0) {
goto __484
}
nHdr++
nData = nData + uint64(8)
(*Mem)(unsafe.Pointer(pRec)).FuTemp = U32(7)
goto __485
__484:
;
len1 = U32((*Mem)(unsafe.Pointer(pRec)).Fn)
serial_type = len1*U32(2) + U32(12) + U32(libc.Bool32(int32((*Mem)(unsafe.Pointer(pRec)).Fflags)&MEM_Str != 0))
if !(int32((*Mem)(unsafe.Pointer(pRec)).Fflags)&MEM_Zero != 0) {
goto __486
}
serial_type = serial_type + U32(*(*int32)(unsafe.Pointer(pRec))*2)
if !(nData != 0) {
goto __487
}
if !(Xsqlite3VdbeMemExpandBlob(tls, pRec) != 0) {
goto __489
}
goto no_mem
__489:
;
len1 = len1 + U32(*(*int32)(unsafe.Pointer(pRec)))
goto __488
__487:
nZero = nZero + I64(*(*int32)(unsafe.Pointer(pRec)))
__488:
;
__486:
;
nData = nData + U64(len1)
nHdr = nHdr + Xsqlite3VarintLen(tls, uint64(serial_type))
(*Mem)(unsafe.Pointer(pRec)).FuTemp = serial_type
__485:
;
__467:
;
__463:
;
if !(pRec == pData0) {
goto __490
}
goto __461
__490:
;
pRec -= 56
goto __460
__460:
if 1 != 0 {
goto __459
}
goto __461
__461:
;
if !(nHdr <= 126) {
goto __491
}
nHdr = nHdr + 1
goto __492
__491:
nVarint = Xsqlite3VarintLen(tls, uint64(nHdr))
nHdr = nHdr + nVarint
if !(nVarint < Xsqlite3VarintLen(tls, uint64(nHdr))) {
goto __493
}
nHdr++
__493:
;
__492:
;
nByte1 = I64(U64(nHdr) + nData)
if !(nByte1+nZero <= I64((*Mem)(unsafe.Pointer(pOut)).FszMalloc)) {
goto __494
}
(*Mem)(unsafe.Pointer(pOut)).Fz = (*Mem)(unsafe.Pointer(pOut)).FzMalloc
goto __495
__494:
if !(nByte1+nZero > I64(*(*int32)(unsafe.Pointer(db + 136)))) {
goto __496
}
goto too_big
__496:
;
if !(Xsqlite3VdbeMemClearAndResize(tls, pOut, int32(nByte1)) != 0) {
goto __497
}
goto no_mem
__497:
;
__495:
;
(*Mem)(unsafe.Pointer(pOut)).Fn = int32(nByte1)
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(MEM_Blob)
if !(nZero != 0) {
goto __498
}
*(*int32)(unsafe.Pointer(pOut)) = int32(nZero)
*(*U16)(unsafe.Pointer(pOut + 20)) |= U16(MEM_Zero)
__498:
;
zHdr1 = (*Mem)(unsafe.Pointer(pOut)).Fz
zPayload = zHdr1 + uintptr(nHdr)
if !(nHdr < 0x80) {
goto __499
}
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&zHdr1, 1))) = U8(nHdr)
goto __500
__499:
zHdr1 += uintptr(Xsqlite3PutVarint(tls, zHdr1, uint64(nHdr)))
__500:
;
pRec = pData0
__501:
if !(1 != 0) {
goto __502
}
serial_type = (*Mem)(unsafe.Pointer(pRec)).FuTemp
if !(serial_type <= U32(7)) {
goto __503
}
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&zHdr1, 1))) = U8(serial_type)
if !(serial_type == U32(0)) {
goto __505
}
goto __506
__505:
if !(serial_type == U32(7)) {
goto __507
}
libc.X__builtin___memcpy_chk(tls, bp+296, pRec, uint64(unsafe.Sizeof(U64(0))), libc.X__builtin_object_size(tls, bp+296, 0))
goto __508
__507:
*(*U64)(unsafe.Pointer(bp + 296)) = U64(*(*I64)(unsafe.Pointer(pRec)))
__508:
;
len1 = libc.AssignUint32(&i4, U32(Xsqlite3SmallTypeSizes[serial_type]))
__509:
if !(1 != 0) {
goto __510
}
*(*U8)(unsafe.Pointer(zPayload + uintptr(libc.PreDecUint32(&i4, 1)))) = U8(*(*U64)(unsafe.Pointer(bp + 296)) & uint64(0xFF))
if !(i4 == U32(0)) {
goto __511
}
goto __510
__511:
;
*(*U64)(unsafe.Pointer(bp + 296)) >>= 8
goto __509
__510:
;
zPayload += uintptr(len1)
__506:
;
goto __504
__503:
if !(serial_type < U32(0x80)) {
goto __512
}
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&zHdr1, 1))) = U8(serial_type)
if !(serial_type >= U32(14) && (*Mem)(unsafe.Pointer(pRec)).Fn > 0) {
goto __514
}
libc.X__builtin___memcpy_chk(tls, zPayload, (*Mem)(unsafe.Pointer(pRec)).Fz, uint64((*Mem)(unsafe.Pointer(pRec)).Fn), libc.X__builtin_object_size(tls, zPayload, 0))
zPayload += uintptr((*Mem)(unsafe.Pointer(pRec)).Fn)
__514:
;
goto __513
__512:
zHdr1 += uintptr(Xsqlite3PutVarint(tls, zHdr1, uint64(serial_type)))
if !((*Mem)(unsafe.Pointer(pRec)).Fn != 0) {
goto __515
}
libc.X__builtin___memcpy_chk(tls, zPayload, (*Mem)(unsafe.Pointer(pRec)).Fz, uint64((*Mem)(unsafe.Pointer(pRec)).Fn), libc.X__builtin_object_size(tls, zPayload, 0))
zPayload += uintptr((*Mem)(unsafe.Pointer(pRec)).Fn)
__515:
;
__513:
;
__504:
;
if !(pRec == pLast) {
goto __516
}
goto __502
__516:
;
pRec += 56
goto __501
__502:
;
goto __9
__77:
;
pCrsr1 = *(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8)) + 48))
if !((*Op)(unsafe.Pointer(pOp)).Fp3 != 0) {
goto __517
}
*(*I64)(unsafe.Pointer(bp + 304)) = Xsqlite3BtreeRowCountEst(tls, pCrsr1)
goto __518
__517:
*(*I64)(unsafe.Pointer(bp + 304)) = int64(0)
rc = Xsqlite3BtreeCount(tls, db, pCrsr1, bp+304)
if !(rc != 0) {
goto __519
}
goto abort_due_to_error
__519:
;
__518:
;
pOut = out2Prerelease(tls, p, pOp)
*(*I64)(unsafe.Pointer(pOut)) = *(*I64)(unsafe.Pointer(bp + 304))
goto check_for_interrupt
__78:
p12 = (*Op)(unsafe.Pointer(pOp)).Fp1
zName = *(*uintptr)(unsafe.Pointer(pOp + 16))
if !(p12 == SAVEPOINT_BEGIN) {
goto __520
}
if !((*Sqlite3)(unsafe.Pointer(db)).FnVdbeWrite > 0) {
goto __522
}
Xsqlite3VdbeError(tls, p, ts+5927, 0)
rc = SQLITE_BUSY
goto __523
__522:
nName = Xsqlite3Strlen30(tls, zName)
rc = Xsqlite3VtabSavepoint(tls, db, SAVEPOINT_BEGIN,
(*Sqlite3)(unsafe.Pointer(db)).FnStatement+(*Sqlite3)(unsafe.Pointer(db)).FnSavepoint)
if !(rc != SQLITE_OK) {
goto __524
}
goto abort_due_to_error
__524:
;
pNew = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(Savepoint{}))+uint64(nName)+uint64(1))
if !(pNew != 0) {
goto __525
}
(*Savepoint)(unsafe.Pointer(pNew)).FzName = pNew + 1*32
libc.X__builtin___memcpy_chk(tls, (*Savepoint)(unsafe.Pointer(pNew)).FzName, zName, uint64(nName+1), libc.X__builtin_object_size(tls, (*Savepoint)(unsafe.Pointer(pNew)).FzName, 0))
if !((*Sqlite3)(unsafe.Pointer(db)).FautoCommit != 0) {
goto __526
}
(*Sqlite3)(unsafe.Pointer(db)).FautoCommit = U8(0)
(*Sqlite3)(unsafe.Pointer(db)).FisTransactionSavepoint = U8(1)
goto __527
__526:
(*Sqlite3)(unsafe.Pointer(db)).FnSavepoint++
__527:
;
(*Savepoint)(unsafe.Pointer(pNew)).FpNext = (*Sqlite3)(unsafe.Pointer(db)).FpSavepoint
(*Sqlite3)(unsafe.Pointer(db)).FpSavepoint = pNew
(*Savepoint)(unsafe.Pointer(pNew)).FnDeferredCons = (*Sqlite3)(unsafe.Pointer(db)).FnDeferredCons
(*Savepoint)(unsafe.Pointer(pNew)).FnDeferredImmCons = (*Sqlite3)(unsafe.Pointer(db)).FnDeferredImmCons
__525:
;
__523:
;
goto __521
__520:
;
iSavepoint = 0
pSavepoint = (*Sqlite3)(unsafe.Pointer(db)).FpSavepoint
__528:
if !(pSavepoint != 0 && Xsqlite3StrICmp(tls, (*Savepoint)(unsafe.Pointer(pSavepoint)).FzName, zName) != 0) {
goto __530
}
iSavepoint++
goto __529
__529:
pSavepoint = (*Savepoint)(unsafe.Pointer(pSavepoint)).FpNext
goto __528
goto __530
__530:
;
if !!(pSavepoint != 0) {
goto __531
}
Xsqlite3VdbeError(tls, p, ts+5978, libc.VaList(bp+88, zName))
rc = SQLITE_ERROR
goto __532
__531:
if !((*Sqlite3)(unsafe.Pointer(db)).FnVdbeWrite > 0 && p12 == SAVEPOINT_RELEASE) {
goto __533
}
Xsqlite3VdbeError(tls, p,
ts+6000, 0)
rc = SQLITE_BUSY
goto __534
__533:
isTransaction = libc.Bool32((*Savepoint)(unsafe.Pointer(pSavepoint)).FpNext == uintptr(0) && (*Sqlite3)(unsafe.Pointer(db)).FisTransactionSavepoint != 0)
if !(isTransaction != 0 && p12 == SAVEPOINT_RELEASE) {
goto __535
}
if !(libc.AssignInt32(&rc, Xsqlite3VdbeCheckFk(tls, p, 1)) != SQLITE_OK) {
goto __537
}
goto vdbe_return
__537:
;
(*Sqlite3)(unsafe.Pointer(db)).FautoCommit = U8(1)
if !(Xsqlite3VdbeHalt(tls, p) == SQLITE_BUSY) {
goto __538
}
(*Vdbe)(unsafe.Pointer(p)).Fpc = int32((int64(pOp) - int64(aOp)) / 24)
(*Sqlite3)(unsafe.Pointer(db)).FautoCommit = U8(0)
(*Vdbe)(unsafe.Pointer(p)).Frc = libc.AssignInt32(&rc, SQLITE_BUSY)
goto vdbe_return
__538:
;
rc = (*Vdbe)(unsafe.Pointer(p)).Frc
if !(rc != 0) {
goto __539
}
(*Sqlite3)(unsafe.Pointer(db)).FautoCommit = U8(0)
goto __540
__539:
(*Sqlite3)(unsafe.Pointer(db)).FisTransactionSavepoint = U8(0)
__540:
;
goto __536
__535:
iSavepoint = (*Sqlite3)(unsafe.Pointer(db)).FnSavepoint - iSavepoint - 1
if !(p12 == SAVEPOINT_ROLLBACK) {
goto __541
}
isSchemaChange = libc.Bool32((*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_SchemaChange) != U32(0))
ii = 0
__543:
if !(ii < (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __545
}
rc = Xsqlite3BtreeTripAllCursors(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(ii)*32)).FpBt,
SQLITE_ABORT|int32(2)<<8,
libc.Bool32(isSchemaChange == 0))
if !(rc != SQLITE_OK) {
goto __546
}
goto abort_due_to_error
__546:
;
goto __544
__544:
ii++
goto __543
goto __545
__545:
;
goto __542
__541:
;
isSchemaChange = 0
__542:
;
ii = 0
__547:
if !(ii < (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __549
}
rc = Xsqlite3BtreeSavepoint(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(ii)*32)).FpBt, p12, iSavepoint)
if !(rc != SQLITE_OK) {
goto __550
}
goto abort_due_to_error
__550:
;
goto __548
__548:
ii++
goto __547
goto __549
__549:
;
if !(isSchemaChange != 0) {
goto __551
}
Xsqlite3ExpirePreparedStatements(tls, db, 0)
Xsqlite3ResetAllSchemasOfConnection(tls, db)
*(*U32)(unsafe.Pointer(db + 44)) |= U32(DBFLAG_SchemaChange)
__551:
;
__536:
;
if !(rc != 0) {
goto __552
}
goto abort_due_to_error
__552:
;
__553:
if !((*Sqlite3)(unsafe.Pointer(db)).FpSavepoint != pSavepoint) {
goto __554
}
pTmp = (*Sqlite3)(unsafe.Pointer(db)).FpSavepoint
(*Sqlite3)(unsafe.Pointer(db)).FpSavepoint = (*Savepoint)(unsafe.Pointer(pTmp)).FpNext
Xsqlite3DbFree(tls, db, pTmp)
(*Sqlite3)(unsafe.Pointer(db)).FnSavepoint--
goto __553
__554:
;
if !(p12 == SAVEPOINT_RELEASE) {
goto __555
}
(*Sqlite3)(unsafe.Pointer(db)).FpSavepoint = (*Savepoint)(unsafe.Pointer(pSavepoint)).FpNext
Xsqlite3DbFree(tls, db, pSavepoint)
if !!(isTransaction != 0) {
goto __557
}
(*Sqlite3)(unsafe.Pointer(db)).FnSavepoint--
__557:
;
goto __556
__555:
;
(*Sqlite3)(unsafe.Pointer(db)).FnDeferredCons = (*Savepoint)(unsafe.Pointer(pSavepoint)).FnDeferredCons
(*Sqlite3)(unsafe.Pointer(db)).FnDeferredImmCons = (*Savepoint)(unsafe.Pointer(pSavepoint)).FnDeferredImmCons
__556:
;
if !(!(isTransaction != 0) || p12 == SAVEPOINT_ROLLBACK) {
goto __558
}
rc = Xsqlite3VtabSavepoint(tls, db, p12, iSavepoint)
if !(rc != SQLITE_OK) {
goto __559
}
goto abort_due_to_error
__559:
;
__558:
;
__534:
;
__532:
;
__521:
;
if !(rc != 0) {
goto __560
}
goto abort_due_to_error
__560:
;
if !(int32((*Vdbe)(unsafe.Pointer(p)).FeVdbeState) == VDBE_HALT_STATE) {
goto __561
}
rc = SQLITE_DONE
goto vdbe_return
__561:
;
goto __9
__79:
desiredAutoCommit = (*Op)(unsafe.Pointer(pOp)).Fp1
iRollback = (*Op)(unsafe.Pointer(pOp)).Fp2
if !(desiredAutoCommit != int32((*Sqlite3)(unsafe.Pointer(db)).FautoCommit)) {
goto __562
}
if !(iRollback != 0) {
goto __564
}
Xsqlite3RollbackAll(tls, db, SQLITE_ABORT|int32(2)<<8)
(*Sqlite3)(unsafe.Pointer(db)).FautoCommit = U8(1)
goto __565
__564:
if !(desiredAutoCommit != 0 && (*Sqlite3)(unsafe.Pointer(db)).FnVdbeWrite > 0) {
goto __566
}
Xsqlite3VdbeError(tls, p,
ts+6054, 0)
rc = SQLITE_BUSY
goto abort_due_to_error
goto __567
__566:
if !(libc.AssignInt32(&rc, Xsqlite3VdbeCheckFk(tls, p, 1)) != SQLITE_OK) {
goto __568
}
goto vdbe_return
goto __569
__568:
(*Sqlite3)(unsafe.Pointer(db)).FautoCommit = U8(desiredAutoCommit)
__569:
;
__567:
;
__565:
;
if !(Xsqlite3VdbeHalt(tls, p) == SQLITE_BUSY) {
goto __570
}
(*Vdbe)(unsafe.Pointer(p)).Fpc = int32((int64(pOp) - int64(aOp)) / 24)
(*Sqlite3)(unsafe.Pointer(db)).FautoCommit = U8(1 - desiredAutoCommit)
(*Vdbe)(unsafe.Pointer(p)).Frc = libc.AssignInt32(&rc, SQLITE_BUSY)
goto vdbe_return
__570:
;
Xsqlite3CloseSavepoints(tls, db)
if !((*Vdbe)(unsafe.Pointer(p)).Frc == SQLITE_OK) {
goto __571
}
rc = SQLITE_DONE
goto __572
__571:
rc = SQLITE_ERROR
__572:
;
goto vdbe_return
goto __563
__562:
Xsqlite3VdbeError(tls, p,
func() uintptr {
if !(desiredAutoCommit != 0) {
return ts + 6109
}
return func() uintptr {
if iRollback != 0 {
return ts + 6157
}
return ts + 6200
}()
}(), 0)
rc = SQLITE_ERROR
goto abort_due_to_error
__563:
;
__80:
*(*int32)(unsafe.Pointer(bp + 312)) = 0
if !((*Op)(unsafe.Pointer(pOp)).Fp2 != 0 && (*Sqlite3)(unsafe.Pointer(db)).Fflags&(uint64(SQLITE_QueryOnly)|uint64(0x00002)<<32) != uint64(0)) {
goto __573
}
if !((*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_QueryOnly) != 0) {
goto __574
}
rc = SQLITE_READONLY
goto __575
__574:
rc = SQLITE_CORRUPT
__575:
;
goto abort_due_to_error
__573:
;
pDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*32
pBt = (*Db)(unsafe.Pointer(pDb)).FpBt
if !(pBt != 0) {
goto __576
}
rc = Xsqlite3BtreeBeginTrans(tls, pBt, (*Op)(unsafe.Pointer(pOp)).Fp2, bp+312)
if !(rc != SQLITE_OK) {
goto __577
}
if !(rc&0xff == SQLITE_BUSY) {
goto __578
}
(*Vdbe)(unsafe.Pointer(p)).Fpc = int32((int64(pOp) - int64(aOp)) / 24)
(*Vdbe)(unsafe.Pointer(p)).Frc = rc
goto vdbe_return
__578:
;
goto abort_due_to_error
__577:
;
if !(Bft(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x20>>5)) != 0 &&
(*Op)(unsafe.Pointer(pOp)).Fp2 != 0 &&
(int32((*Sqlite3)(unsafe.Pointer(db)).FautoCommit) == 0 || (*Sqlite3)(unsafe.Pointer(db)).FnVdbeRead > 1)) {
goto __579
}
if !((*Vdbe)(unsafe.Pointer(p)).FiStatement == 0) {
goto __580
}
(*Sqlite3)(unsafe.Pointer(db)).FnStatement++
(*Vdbe)(unsafe.Pointer(p)).FiStatement = (*Sqlite3)(unsafe.Pointer(db)).FnSavepoint + (*Sqlite3)(unsafe.Pointer(db)).FnStatement
__580:
;
rc = Xsqlite3VtabSavepoint(tls, db, SAVEPOINT_BEGIN, (*Vdbe)(unsafe.Pointer(p)).FiStatement-1)
if !(rc == SQLITE_OK) {
goto __581
}
rc = Xsqlite3BtreeBeginStmt(tls, pBt, (*Vdbe)(unsafe.Pointer(p)).FiStatement)
__581:
;
(*Vdbe)(unsafe.Pointer(p)).FnStmtDefCons = (*Sqlite3)(unsafe.Pointer(db)).FnDeferredCons
(*Vdbe)(unsafe.Pointer(p)).FnStmtDefImmCons = (*Sqlite3)(unsafe.Pointer(db)).FnDeferredImmCons
__579:
;
__576:
;
if !(rc == SQLITE_OK &&
(*Op)(unsafe.Pointer(pOp)).Fp5 != 0 &&
(*(*int32)(unsafe.Pointer(bp + 312)) != (*Op)(unsafe.Pointer(pOp)).Fp3 || (*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).FiGeneration != *(*int32)(unsafe.Pointer(pOp + 16)))) {
goto __582
}
Xsqlite3DbFree(tls, db, (*Vdbe)(unsafe.Pointer(p)).FzErrMsg)
(*Vdbe)(unsafe.Pointer(p)).FzErrMsg = Xsqlite3DbStrDup(tls, db, ts+6241)
if !((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*32)).FpSchema)).Fschema_cookie != *(*int32)(unsafe.Pointer(bp + 312))) {
goto __583
}
Xsqlite3ResetOneSchema(tls, db, (*Op)(unsafe.Pointer(pOp)).Fp1)
__583:
;
libc.SetBitFieldPtr8Uint32(p+200, Bft(1), 0, 0x3)
rc = SQLITE_SCHEMA
libc.SetBitFieldPtr8Uint32(p+200, Bft(0), 4, 0x10)
__582:
;
if !(rc != 0) {
goto __584
}
goto abort_due_to_error
__584:
;
goto __9
__81:
;
iDb = (*Op)(unsafe.Pointer(pOp)).Fp1
iCookie = (*Op)(unsafe.Pointer(pOp)).Fp3
Xsqlite3BtreeGetMeta(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpBt, iCookie, bp+316)
pOut = out2Prerelease(tls, p, pOp)
*(*I64)(unsafe.Pointer(pOut)) = I64(*(*int32)(unsafe.Pointer(bp + 316)))
goto __9
__82:
;
pDb1 = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*32
rc = Xsqlite3BtreeUpdateMeta(tls, (*Db)(unsafe.Pointer(pDb1)).FpBt, (*Op)(unsafe.Pointer(pOp)).Fp2, uint32((*Op)(unsafe.Pointer(pOp)).Fp3))
if !((*Op)(unsafe.Pointer(pOp)).Fp2 == BTREE_SCHEMA_VERSION) {
goto __585
}
*(*U32)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb1)).FpSchema)) = *(*U32)(unsafe.Pointer(pOp + 12)) - U32((*Op)(unsafe.Pointer(pOp)).Fp5)
*(*U32)(unsafe.Pointer(db + 44)) |= U32(DBFLAG_SchemaChange)
Xsqlite3FkClearTriggerCache(tls, db, (*Op)(unsafe.Pointer(pOp)).Fp1)
goto __586
__585:
if !((*Op)(unsafe.Pointer(pOp)).Fp2 == BTREE_FILE_FORMAT) {
goto __587
}
(*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb1)).FpSchema)).Ffile_format = U8((*Op)(unsafe.Pointer(pOp)).Fp3)
__587:
;
__586:
;
if !((*Op)(unsafe.Pointer(pOp)).Fp1 == 1) {
goto __588
}
Xsqlite3ExpirePreparedStatements(tls, db, 0)
libc.SetBitFieldPtr8Uint32(p+200, Bft(0), 0, 0x3)
__588:
;
if !(rc != 0) {
goto __589
}
goto abort_due_to_error
__589:
;
goto __9
__83:
;
pCur = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !(pCur != 0 && (*VdbeCursor)(unsafe.Pointer(pCur)).FpgnoRoot == U32((*Op)(unsafe.Pointer(pOp)).Fp2)) {
goto __590
}
Xsqlite3BtreeClearCursor(tls, *(*uintptr)(unsafe.Pointer(pCur + 48)))
goto open_cursor_set_hints
__590:
;
__84:
__85:
;
if !(int32(*(*uint8)(unsafe.Pointer(p + 200))&0x3>>0) == 1) {
goto __591
}
rc = SQLITE_ABORT | int32(2)<<8
goto abort_due_to_error
__591:
;
nField1 = 0
pKeyInfo1 = uintptr(0)
p23 = U32((*Op)(unsafe.Pointer(pOp)).Fp2)
iDb1 = (*Op)(unsafe.Pointer(pOp)).Fp3
pDb2 = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb1)*32
pX = (*Db)(unsafe.Pointer(pDb2)).FpBt
if !(int32((*Op)(unsafe.Pointer(pOp)).Fopcode) == OP_OpenWrite) {
goto __592
}
wrFlag = BTREE_WRCSR | int32((*Op)(unsafe.Pointer(pOp)).Fp5)&OPFLAG_FORDELETE
if !(int32((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb2)).FpSchema)).Ffile_format) < int32((*Vdbe)(unsafe.Pointer(p)).FminWriteFileFormat)) {
goto __594
}
(*Vdbe)(unsafe.Pointer(p)).FminWriteFileFormat = (*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb2)).FpSchema)).Ffile_format
__594:
;
goto __593
__592:
wrFlag = 0
__593:
;
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp5)&OPFLAG_P2ISREG != 0) {
goto __595
}
pIn2 = aMem + uintptr(p23)*56
Xsqlite3VdbeMemIntegerify(tls, pIn2)
p23 = U32(int32(*(*I64)(unsafe.Pointer(pIn2))))
__595:
;
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp4type) == -8) {
goto __596
}
pKeyInfo1 = *(*uintptr)(unsafe.Pointer(pOp + 16))
nField1 = int32((*KeyInfo)(unsafe.Pointer(pKeyInfo1)).FnAllField)
goto __597
__596:
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp4type) == -3) {
goto __598
}
nField1 = *(*int32)(unsafe.Pointer(pOp + 16))
__598:
;
__597:
;
pCur = allocateCursor(tls, p, (*Op)(unsafe.Pointer(pOp)).Fp1, nField1, uint8(CURTYPE_BTREE))
if !(pCur == uintptr(0)) {
goto __599
}
goto no_mem
__599:
;
(*VdbeCursor)(unsafe.Pointer(pCur)).FiDb = I8(iDb1)
(*VdbeCursor)(unsafe.Pointer(pCur)).FnullRow = U8(1)
libc.SetBitFieldPtr8Uint32(pCur+8, Bool(1), 2, 0x4)
(*VdbeCursor)(unsafe.Pointer(pCur)).FpgnoRoot = p23
rc = Xsqlite3BtreeCursor(tls, pX, p23, wrFlag, pKeyInfo1, *(*uintptr)(unsafe.Pointer(pCur + 48)))
(*VdbeCursor)(unsafe.Pointer(pCur)).FpKeyInfo = pKeyInfo1
(*VdbeCursor)(unsafe.Pointer(pCur)).FisTable = U8(libc.Bool32(int32((*Op)(unsafe.Pointer(pOp)).Fp4type) != -8))
open_cursor_set_hints:
;
Xsqlite3BtreeCursorHintFlags(tls, *(*uintptr)(unsafe.Pointer(pCur + 48)),
uint32(int32((*Op)(unsafe.Pointer(pOp)).Fp5)&(OPFLAG_BULKCSR|OPFLAG_SEEKEQ)))
if !(rc != 0) {
goto __600
}
goto abort_due_to_error
__600:
;
goto __9
__86:
pOrig = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*8))
pCx = allocateCursor(tls, p, (*Op)(unsafe.Pointer(pOp)).Fp1, int32((*VdbeCursor)(unsafe.Pointer(pOrig)).FnField), uint8(CURTYPE_BTREE))
if !(pCx == uintptr(0)) {
goto __601
}
goto no_mem
__601:
;
(*VdbeCursor)(unsafe.Pointer(pCx)).FnullRow = U8(1)
libc.SetBitFieldPtr8Uint32(pCx+8, Bool(1), 0, 0x1)
(*VdbeCursor)(unsafe.Pointer(pCx)).FpKeyInfo = (*VdbeCursor)(unsafe.Pointer(pOrig)).FpKeyInfo
(*VdbeCursor)(unsafe.Pointer(pCx)).FisTable = (*VdbeCursor)(unsafe.Pointer(pOrig)).FisTable
(*VdbeCursor)(unsafe.Pointer(pCx)).FpgnoRoot = (*VdbeCursor)(unsafe.Pointer(pOrig)).FpgnoRoot
libc.SetBitFieldPtr8Uint32(pCx+8, Bool(int32(*(*uint8)(unsafe.Pointer(pOrig + 8))&0x4>>2)), 2, 0x4)
*(*uintptr)(unsafe.Pointer(pCx + 16)) = *(*uintptr)(unsafe.Pointer(pOrig + 16))
libc.SetBitFieldPtr8Uint32(pCx+8, Bool(1), 3, 0x8)
libc.SetBitFieldPtr8Uint32(pOrig+8, Bool(1), 3, 0x8)
rc = Xsqlite3BtreeCursor(tls, *(*uintptr)(unsafe.Pointer(pCx + 16)), (*VdbeCursor)(unsafe.Pointer(pCx)).FpgnoRoot, BTREE_WRCSR,
(*VdbeCursor)(unsafe.Pointer(pCx)).FpKeyInfo, *(*uintptr)(unsafe.Pointer(pCx + 48)))
goto __9
__87:
__88:
;
if !((*Op)(unsafe.Pointer(pOp)).Fp3 > 0) {
goto __602
}
(*Mem)(unsafe.Pointer(aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56)).Fn = 0
(*Mem)(unsafe.Pointer(aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56)).Fz = ts + 1547
__602:
;
pCx1 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !(pCx1 != 0 && !(int32(*(*uint8)(unsafe.Pointer(pCx1 + 8))&0x8>>3) != 0) && (*Op)(unsafe.Pointer(pOp)).Fp2 <= int32((*VdbeCursor)(unsafe.Pointer(pCx1)).FnField)) {
goto __603
}
(*VdbeCursor)(unsafe.Pointer(pCx1)).FseqCount = int64(0)
(*VdbeCursor)(unsafe.Pointer(pCx1)).FcacheStatus = U32(CACHE_STALE)
rc = Xsqlite3BtreeClearTable(tls, *(*uintptr)(unsafe.Pointer(pCx1 + 16)), int32((*VdbeCursor)(unsafe.Pointer(pCx1)).FpgnoRoot), uintptr(0))
goto __604
__603:
pCx1 = allocateCursor(tls, p, (*Op)(unsafe.Pointer(pOp)).Fp1, (*Op)(unsafe.Pointer(pOp)).Fp2, uint8(CURTYPE_BTREE))
if !(pCx1 == uintptr(0)) {
goto __605
}
goto no_mem
__605:
;
libc.SetBitFieldPtr8Uint32(pCx1+8, Bool(1), 0, 0x1)
rc = Xsqlite3BtreeOpen(tls, (*Sqlite3)(unsafe.Pointer(db)).FpVfs, uintptr(0), db, pCx1+16,
BTREE_OMIT_JOURNAL|BTREE_SINGLE|int32((*Op)(unsafe.Pointer(pOp)).Fp5),
vfsFlags)
if !(rc == SQLITE_OK) {
goto __606
}
rc = Xsqlite3BtreeBeginTrans(tls, *(*uintptr)(unsafe.Pointer(pCx1 + 16)), 1, uintptr(0))
if !(rc == SQLITE_OK) {
goto __607
}
if !(libc.AssignPtrUintptr(pCx1+56, libc.AssignUintptr(&pKeyInfo2, *(*uintptr)(unsafe.Pointer(pOp + 16)))) != uintptr(0)) {
goto __608
}
rc = Xsqlite3BtreeCreateTable(tls, *(*uintptr)(unsafe.Pointer(pCx1 + 16)), pCx1+68,
BTREE_BLOBKEY|int32((*Op)(unsafe.Pointer(pOp)).Fp5))
if !(rc == SQLITE_OK) {
goto __610
}
rc = Xsqlite3BtreeCursor(tls, *(*uintptr)(unsafe.Pointer(pCx1 + 16)), (*VdbeCursor)(unsafe.Pointer(pCx1)).FpgnoRoot, BTREE_WRCSR,
pKeyInfo2, *(*uintptr)(unsafe.Pointer(pCx1 + 48)))
__610:
;
(*VdbeCursor)(unsafe.Pointer(pCx1)).FisTable = U8(0)
goto __609
__608:
(*VdbeCursor)(unsafe.Pointer(pCx1)).FpgnoRoot = Pgno(SCHEMA_ROOT)
rc = Xsqlite3BtreeCursor(tls, *(*uintptr)(unsafe.Pointer(pCx1 + 16)), uint32(SCHEMA_ROOT), BTREE_WRCSR,
uintptr(0), *(*uintptr)(unsafe.Pointer(pCx1 + 48)))
(*VdbeCursor)(unsafe.Pointer(pCx1)).FisTable = U8(1)
__609:
;
__607:
;
libc.SetBitFieldPtr8Uint32(pCx1+8, Bool(libc.Bool32(int32((*Op)(unsafe.Pointer(pOp)).Fp5) != BTREE_UNORDERED)), 2, 0x4)
if !(rc != 0) {
goto __611
}
Xsqlite3BtreeClose(tls, *(*uintptr)(unsafe.Pointer(pCx1 + 16)))
__611:
;
__606:
;
__604:
;
if !(rc != 0) {
goto __612
}
goto abort_due_to_error
__612:
;
(*VdbeCursor)(unsafe.Pointer(pCx1)).FnullRow = U8(1)
goto __9
__89:
;
pCx2 = allocateCursor(tls, p, (*Op)(unsafe.Pointer(pOp)).Fp1, (*Op)(unsafe.Pointer(pOp)).Fp2, uint8(CURTYPE_SORTER))
if !(pCx2 == uintptr(0)) {
goto __613
}
goto no_mem
__613:
;
(*VdbeCursor)(unsafe.Pointer(pCx2)).FpKeyInfo = *(*uintptr)(unsafe.Pointer(pOp + 16))
rc = Xsqlite3VdbeSorterInit(tls, db, (*Op)(unsafe.Pointer(pOp)).Fp3, pCx2)
if !(rc != 0) {
goto __614
}
goto abort_due_to_error
__614:
;
goto __9
__90:
;
pC4 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !(libc.PostIncInt64(&(*VdbeCursor)(unsafe.Pointer(pC4)).FseqCount, 1) == int64(0)) {
goto __615
}
goto jump_to_p2
__615:
;
goto __9
__91:
;
pCx3 = allocateCursor(tls, p, (*Op)(unsafe.Pointer(pOp)).Fp1, (*Op)(unsafe.Pointer(pOp)).Fp3, uint8(CURTYPE_PSEUDO))
if !(pCx3 == uintptr(0)) {
goto __616
}
goto no_mem
__616:
;
(*VdbeCursor)(unsafe.Pointer(pCx3)).FnullRow = U8(1)
(*VdbeCursor)(unsafe.Pointer(pCx3)).FseekResult = (*Op)(unsafe.Pointer(pOp)).Fp2
(*VdbeCursor)(unsafe.Pointer(pCx3)).FisTable = U8(1)
*(*uintptr)(unsafe.Pointer(pCx3 + 48)) = Xsqlite3BtreeFakeValidCursor(tls)
goto __9
__92:
;
Xsqlite3VdbeFreeCursor(tls, p, *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8)))
*(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8)) = uintptr(0)
goto __9
__93:
__94:
__95:
__96:
;
pC5 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
oc = int32((*Op)(unsafe.Pointer(pOp)).Fopcode)
eqOnly = 0
(*VdbeCursor)(unsafe.Pointer(pC5)).FnullRow = U8(0)
(*VdbeCursor)(unsafe.Pointer(pC5)).FdeferredMoveto = U8(0)
(*VdbeCursor)(unsafe.Pointer(pC5)).FcacheStatus = U32(CACHE_STALE)
if !((*VdbeCursor)(unsafe.Pointer(pC5)).FisTable != 0) {
goto __617
}
pIn3 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
flags31 = (*Mem)(unsafe.Pointer(pIn3)).Fflags
if !(int32(flags31)&(MEM_Int|MEM_Real|MEM_IntReal|MEM_Str) == MEM_Str) {
goto __619
}
applyNumericAffinity(tls, pIn3, 0)
__619:
;
iKey = Xsqlite3VdbeIntValue(tls, pIn3)
newType = (*Mem)(unsafe.Pointer(pIn3)).Fflags
(*Mem)(unsafe.Pointer(pIn3)).Fflags = flags31
if !(int32(newType)&(MEM_Int|MEM_IntReal) == 0) {
goto __620
}
if !(int32(newType)&MEM_Real == 0) {
goto __621
}
if !(int32(newType)&MEM_Null != 0 || oc >= OP_SeekGE) {
goto __622
}
goto jump_to_p2
goto __623
__622:
rc = Xsqlite3BtreeLast(tls, *(*uintptr)(unsafe.Pointer(pC5 + 48)), bp+320)
if !(rc != SQLITE_OK) {
goto __624
}
goto abort_due_to_error
__624:
;
goto seek_not_found
__623:
;
__621:
;
c2 = Xsqlite3IntFloatCompare(tls, iKey, *(*float64)(unsafe.Pointer(pIn3)))
if !(c2 > 0) {
goto __625
}
if !(oc&0x0001 == OP_SeekGT&0x0001) {
goto __627
}
oc--
__627:
;
goto __626
__625:
if !(c2 < 0) {
goto __628
}
if !(oc&0x0001 == OP_SeekLT&0x0001) {
goto __629
}
oc++
__629:
;
__628:
;
__626:
;
__620:
;
rc = Xsqlite3BtreeTableMoveto(tls, *(*uintptr)(unsafe.Pointer(pC5 + 48)), int64(U64(iKey)), 0, bp+320)
(*VdbeCursor)(unsafe.Pointer(pC5)).FmovetoTarget = iKey
if !(rc != SQLITE_OK) {
goto __630
}
goto abort_due_to_error
__630:
;
goto __618
__617:
if !(Xsqlite3BtreeCursorHasHint(tls, *(*uintptr)(unsafe.Pointer(pC5 + 48)), uint32(BTREE_SEEK_EQ)) != 0) {
goto __631
}
eqOnly = 1
__631:
;
nField2 = *(*int32)(unsafe.Pointer(pOp + 16))
(*UnpackedRecord)(unsafe.Pointer(bp + 328)).FpKeyInfo = (*VdbeCursor)(unsafe.Pointer(pC5)).FpKeyInfo
(*UnpackedRecord)(unsafe.Pointer(bp + 328)).FnField = U16(nField2)
(*UnpackedRecord)(unsafe.Pointer(bp + 328)).Fdefault_rc = func() int8 {
if 1&(oc-OP_SeekLT) != 0 {
return int8(-1)
}
return +int8(1)
}()
(*UnpackedRecord)(unsafe.Pointer(bp + 328)).FaMem = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
(*UnpackedRecord)(unsafe.Pointer(bp + 328)).FeqSeen = U8(0)
rc = Xsqlite3BtreeIndexMoveto(tls, *(*uintptr)(unsafe.Pointer(pC5 + 48)), bp+328, bp+320)
if !(rc != SQLITE_OK) {
goto __632
}
goto abort_due_to_error
__632:
;
if !(eqOnly != 0 && int32((*UnpackedRecord)(unsafe.Pointer(bp+328)).FeqSeen) == 0) {
goto __633
}
goto seek_not_found
__633:
;
__618:
;
if !(oc >= OP_SeekGE) {
goto __634
}
if !(*(*int32)(unsafe.Pointer(bp + 320)) < 0 || *(*int32)(unsafe.Pointer(bp + 320)) == 0 && oc == OP_SeekGT) {
goto __636
}
*(*int32)(unsafe.Pointer(bp + 320)) = 0
rc = Xsqlite3BtreeNext(tls, *(*uintptr)(unsafe.Pointer(pC5 + 48)), 0)
if !(rc != SQLITE_OK) {
goto __638
}
if !(rc == SQLITE_DONE) {
goto __639
}
rc = SQLITE_OK
*(*int32)(unsafe.Pointer(bp + 320)) = 1
goto __640
__639:
goto abort_due_to_error
__640:
;
__638:
;
goto __637
__636:
*(*int32)(unsafe.Pointer(bp + 320)) = 0
__637:
;
goto __635
__634:
;
if !(*(*int32)(unsafe.Pointer(bp + 320)) > 0 || *(*int32)(unsafe.Pointer(bp + 320)) == 0 && oc == OP_SeekLT) {
goto __641
}
*(*int32)(unsafe.Pointer(bp + 320)) = 0
rc = Xsqlite3BtreePrevious(tls, *(*uintptr)(unsafe.Pointer(pC5 + 48)), 0)
if !(rc != SQLITE_OK) {
goto __643
}
if !(rc == SQLITE_DONE) {
goto __644
}
rc = SQLITE_OK
*(*int32)(unsafe.Pointer(bp + 320)) = 1
goto __645
__644:
goto abort_due_to_error
__645:
;
__643:
;
goto __642
__641:
*(*int32)(unsafe.Pointer(bp + 320)) = Xsqlite3BtreeEof(tls, *(*uintptr)(unsafe.Pointer(pC5 + 48)))
__642:
;
__635:
;
seek_not_found:
;
if !(*(*int32)(unsafe.Pointer(bp + 320)) != 0) {
goto __646
}
goto jump_to_p2
goto __647
__646:
if !(eqOnly != 0) {
goto __648
}
pOp += 24
__648:
;
__647:
;
goto __9
__97:
;
pC6 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp+1*24)).Fp1)*8))
if !!(Xsqlite3BtreeCursorIsValidNN(tls, *(*uintptr)(unsafe.Pointer(pC6 + 48))) != 0) {
goto __649
}
goto __9
__649:
;
nStep = (*Op)(unsafe.Pointer(pOp)).Fp1
(*UnpackedRecord)(unsafe.Pointer(bp + 368)).FpKeyInfo = (*VdbeCursor)(unsafe.Pointer(pC6)).FpKeyInfo
(*UnpackedRecord)(unsafe.Pointer(bp + 368)).FnField = U16(*(*int32)(unsafe.Pointer(pOp + 1*24 + 16)))
(*UnpackedRecord)(unsafe.Pointer(bp + 368)).Fdefault_rc = int8(0)
(*UnpackedRecord)(unsafe.Pointer(bp + 368)).FaMem = aMem + uintptr((*Op)(unsafe.Pointer(pOp+1*24)).Fp3)*56
*(*int32)(unsafe.Pointer(bp + 408)) = 0
__650:
if !(1 != 0) {
goto __651
}
rc = Xsqlite3VdbeIdxKeyCompare(tls, db, pC6, bp+368, bp+408)
if !(rc != 0) {
goto __652
}
goto abort_due_to_error
__652:
;
if !(*(*int32)(unsafe.Pointer(bp + 408)) > 0 && int32((*Op)(unsafe.Pointer(pOp)).Fp5) == 0) {
goto __653
}
seekscan_search_fail:
;
pOp += 24
goto jump_to_p2
__653:
;
if !(*(*int32)(unsafe.Pointer(bp + 408)) >= 0) {
goto __654
}
goto jump_to_p2
goto __651
__654:
;
if !(nStep <= 0) {
goto __655
}
goto __651
__655:
;
nStep--
rc = Xsqlite3BtreeNext(tls, *(*uintptr)(unsafe.Pointer(pC6 + 48)), 0)
if !(rc != 0) {
goto __656
}
if !(rc == SQLITE_DONE) {
goto __657
}
rc = SQLITE_OK
goto seekscan_search_fail
goto __658
__657:
goto abort_due_to_error
__658:
;
__656:
;
goto __650
__651:
;
goto __9
__98:
;
pC7 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !(int32((*VdbeCursor)(unsafe.Pointer(pC7)).FseekHit) < (*Op)(unsafe.Pointer(pOp)).Fp2) {
goto __659
}
(*VdbeCursor)(unsafe.Pointer(pC7)).FseekHit = U16((*Op)(unsafe.Pointer(pOp)).Fp2)
goto __660
__659:
if !(int32((*VdbeCursor)(unsafe.Pointer(pC7)).FseekHit) > (*Op)(unsafe.Pointer(pOp)).Fp3) {
goto __661
}
(*VdbeCursor)(unsafe.Pointer(pC7)).FseekHit = U16((*Op)(unsafe.Pointer(pOp)).Fp3)
__661:
;
__660:
;
goto __9
__99:
;
pCur1 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !(pCur1 == uintptr(0) || (*VdbeCursor)(unsafe.Pointer(pCur1)).FnullRow != 0) {
goto __662
}
goto jump_to_p2_and_check_for_interrupt
__662:
;
goto __9
__100:
;
pC8 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !(int32((*VdbeCursor)(unsafe.Pointer(pC8)).FseekHit) >= *(*int32)(unsafe.Pointer(pOp + 16))) {
goto __663
}
goto __9
__663:
;
__101:
__102:
__103:
;
pC9 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
(*UnpackedRecord)(unsafe.Pointer(bp + 416)).FaMem = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
(*UnpackedRecord)(unsafe.Pointer(bp + 416)).FnField = U16(*(*int32)(unsafe.Pointer(pOp + 16)))
if !(int32((*UnpackedRecord)(unsafe.Pointer(bp+416)).FnField) > 0) {
goto __664
}
(*UnpackedRecord)(unsafe.Pointer(bp + 416)).FpKeyInfo = (*VdbeCursor)(unsafe.Pointer(pC9)).FpKeyInfo
(*UnpackedRecord)(unsafe.Pointer(bp + 416)).Fdefault_rc = int8(0)
rc = Xsqlite3BtreeIndexMoveto(tls, *(*uintptr)(unsafe.Pointer(pC9 + 48)), bp+416, pC9+36)
goto __665
__664:
;
rc = func() int32 {
if int32((*Mem)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(bp+416)).FaMem)).Fflags)&MEM_Zero != 0 {
return Xsqlite3VdbeMemExpandBlob(tls, (*UnpackedRecord)(unsafe.Pointer(bp+416)).FaMem)
}
return 0
}()
if !(rc != 0) {
goto __666
}
goto no_mem
__666:
;
pIdxKey = Xsqlite3VdbeAllocUnpackedRecord(tls, (*VdbeCursor)(unsafe.Pointer(pC9)).FpKeyInfo)
if !(pIdxKey == uintptr(0)) {
goto __667
}
goto no_mem
__667:
;
Xsqlite3VdbeRecordUnpack(tls, (*VdbeCursor)(unsafe.Pointer(pC9)).FpKeyInfo, (*Mem)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(bp+416)).FaMem)).Fn, (*Mem)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(bp+416)).FaMem)).Fz, pIdxKey)
(*UnpackedRecord)(unsafe.Pointer(pIdxKey)).Fdefault_rc = int8(0)
rc = Xsqlite3BtreeIndexMoveto(tls, *(*uintptr)(unsafe.Pointer(pC9 + 48)), pIdxKey, pC9+36)
Xsqlite3DbFreeNN(tls, db, pIdxKey)
__665:
;
if !(rc != SQLITE_OK) {
goto __668
}
goto abort_due_to_error
__668:
;
alreadyExists = libc.Bool32((*VdbeCursor)(unsafe.Pointer(pC9)).FseekResult == 0)
(*VdbeCursor)(unsafe.Pointer(pC9)).FnullRow = U8(1 - alreadyExists)
(*VdbeCursor)(unsafe.Pointer(pC9)).FdeferredMoveto = U8(0)
(*VdbeCursor)(unsafe.Pointer(pC9)).FcacheStatus = U32(CACHE_STALE)
if !(int32((*Op)(unsafe.Pointer(pOp)).Fopcode) == OP_Found) {
goto __669
}
if !(alreadyExists != 0) {
goto __671
}
goto jump_to_p2
__671:
;
goto __670
__669:
if !!(alreadyExists != 0) {
goto __672
}
goto jump_to_p2
__672:
;
if !(int32((*Op)(unsafe.Pointer(pOp)).Fopcode) == OP_NoConflict) {
goto __673
}
ii1 = 0
__674:
if !(ii1 < int32((*UnpackedRecord)(unsafe.Pointer(bp+416)).FnField)) {
goto __676
}
if !(int32((*Mem)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(bp+416)).FaMem+uintptr(ii1)*56)).Fflags)&MEM_Null != 0) {
goto __677
}
goto jump_to_p2
__677:
;
goto __675
__675:
ii1++
goto __674
goto __676
__676:
;
__673:
;
if !(int32((*Op)(unsafe.Pointer(pOp)).Fopcode) == OP_IfNoHope) {
goto __678
}
(*VdbeCursor)(unsafe.Pointer(pC9)).FseekHit = U16(*(*int32)(unsafe.Pointer(pOp + 16)))
__678:
;
__670:
;
goto __9
__104:
pIn3 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
if !(int32((*Mem)(unsafe.Pointer(pIn3)).Fflags)&(MEM_Int|MEM_IntReal) == 0) {
goto __679
}
*(*Mem)(unsafe.Pointer(bp + 456)) = *(*Mem)(unsafe.Pointer(pIn3))
applyAffinity(tls, bp+456, int8(SQLITE_AFF_NUMERIC), encoding)
if !(int32((*Mem)(unsafe.Pointer(bp+456)).Fflags)&MEM_Int == 0) {
goto __680
}
goto jump_to_p2
__680:
;
iKey1 = U64(*(*I64)(unsafe.Pointer(bp + 456)))
goto notExistsWithKey
__679:
;
__105:
pIn3 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
iKey1 = U64(*(*I64)(unsafe.Pointer(pIn3)))
notExistsWithKey:
pC10 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
pCrsr2 = *(*uintptr)(unsafe.Pointer(pC10 + 48))
*(*int32)(unsafe.Pointer(bp + 512)) = 0
rc = Xsqlite3BtreeTableMoveto(tls, pCrsr2, int64(iKey1), 0, bp+512)
(*VdbeCursor)(unsafe.Pointer(pC10)).FmovetoTarget = I64(iKey1)
(*VdbeCursor)(unsafe.Pointer(pC10)).FnullRow = U8(0)
(*VdbeCursor)(unsafe.Pointer(pC10)).FcacheStatus = U32(CACHE_STALE)
(*VdbeCursor)(unsafe.Pointer(pC10)).FdeferredMoveto = U8(0)
(*VdbeCursor)(unsafe.Pointer(pC10)).FseekResult = *(*int32)(unsafe.Pointer(bp + 512))
if !(*(*int32)(unsafe.Pointer(bp + 512)) != 0) {
goto __681
}
if !((*Op)(unsafe.Pointer(pOp)).Fp2 == 0) {
goto __682
}
rc = Xsqlite3CorruptError(tls, 95560)
goto __683
__682:
goto jump_to_p2
__683:
;
__681:
;
if !(rc != 0) {
goto __684
}
goto abort_due_to_error
__684:
;
goto __9
__106:
;
pOut = out2Prerelease(tls, p, pOp)
*(*I64)(unsafe.Pointer(pOut)) = libc.PostIncInt64(&(*VdbeCursor)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8)))).FseqCount, 1)
goto __9
__107:
*(*I64)(unsafe.Pointer(bp + 520)) = int64(0)
*(*int32)(unsafe.Pointer(bp + 516)) = 0
pOut = out2Prerelease(tls, p, pOp)
pC11 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !!(int32(*(*uint8)(unsafe.Pointer(pC11 + 8))&0x2>>1) != 0) {
goto __685
}
rc = Xsqlite3BtreeLast(tls, *(*uintptr)(unsafe.Pointer(pC11 + 48)), bp+516)
if !(rc != SQLITE_OK) {
goto __686
}
goto abort_due_to_error
__686:
;
if !(*(*int32)(unsafe.Pointer(bp + 516)) != 0) {
goto __687
}
*(*I64)(unsafe.Pointer(bp + 520)) = int64(1)
goto __688
__687:
;
*(*I64)(unsafe.Pointer(bp + 520)) = Xsqlite3BtreeIntegerKey(tls, *(*uintptr)(unsafe.Pointer(pC11 + 48)))
if !(*(*I64)(unsafe.Pointer(bp + 520)) >= int64(uint64(0x7fffffff)<<32|uint64(0xffffffff))) {
goto __689
}
libc.SetBitFieldPtr8Uint32(pC11+8, Bool(1), 1, 0x2)
goto __690
__689:
*(*I64)(unsafe.Pointer(bp + 520))++
__690:
;
__688:
;
__685:
;
if !((*Op)(unsafe.Pointer(pOp)).Fp3 != 0) {
goto __691
}
if !((*Vdbe)(unsafe.Pointer(p)).FpFrame != 0) {
goto __692
}
pFrame1 = (*Vdbe)(unsafe.Pointer(p)).FpFrame
__694:
if !((*VdbeFrame)(unsafe.Pointer(pFrame1)).FpParent != 0) {
goto __696
}
goto __695
__695:
pFrame1 = (*VdbeFrame)(unsafe.Pointer(pFrame1)).FpParent
goto __694
goto __696
__696:
;
pMem = (*VdbeFrame)(unsafe.Pointer(pFrame1)).FaMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
goto __693
__692:
;
pMem = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
__693:
;
Xsqlite3VdbeMemIntegerify(tls, pMem)
if !(*(*I64)(unsafe.Pointer(pMem)) == int64(uint64(0x7fffffff)<<32|uint64(0xffffffff)) || Bool(int32(*(*uint8)(unsafe.Pointer(pC11 + 8))&0x2>>1)) != 0) {
goto __697
}
rc = SQLITE_FULL
goto abort_due_to_error
__697:
;
if !(*(*I64)(unsafe.Pointer(bp + 520)) < *(*I64)(unsafe.Pointer(pMem))+int64(1)) {
goto __698
}
*(*I64)(unsafe.Pointer(bp + 520)) = *(*I64)(unsafe.Pointer(pMem)) + int64(1)
__698:
;
*(*I64)(unsafe.Pointer(pMem)) = *(*I64)(unsafe.Pointer(bp + 520))
__691:
;
if !(Bool(int32(*(*uint8)(unsafe.Pointer(pC11 + 8))&0x2>>1)) != 0) {
goto __699
}
cnt1 = 0
__700:
Xsqlite3_randomness(tls, int32(unsafe.Sizeof(I64(0))), bp+520)
*(*I64)(unsafe.Pointer(bp + 520)) &= int64(uint64(0x7fffffff)<<32|uint64(0xffffffff)) >> 1
*(*I64)(unsafe.Pointer(bp + 520))++
goto __701
__701:
if libc.AssignInt32(&rc, Xsqlite3BtreeTableMoveto(tls, *(*uintptr)(unsafe.Pointer(pC11 + 48)), int64(U64(*(*I64)(unsafe.Pointer(bp + 520)))),
0, bp+516)) == SQLITE_OK &&
*(*int32)(unsafe.Pointer(bp + 516)) == 0 &&
libc.PreIncInt32(&cnt1, 1) < 100 {
goto __700
}
goto __702
__702:
;
if !(rc != 0) {
goto __703
}
goto abort_due_to_error
__703:
;
if !(*(*int32)(unsafe.Pointer(bp + 516)) == 0) {
goto __704
}
rc = SQLITE_FULL
goto abort_due_to_error
__704:
;
__699:
;
(*VdbeCursor)(unsafe.Pointer(pC11)).FdeferredMoveto = U8(0)
(*VdbeCursor)(unsafe.Pointer(pC11)).FcacheStatus = U32(CACHE_STALE)
*(*I64)(unsafe.Pointer(pOut)) = *(*I64)(unsafe.Pointer(bp + 520))
goto __9
__108:
pData = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
pC12 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
pKey = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
(*BtreePayload)(unsafe.Pointer(bp + 528)).FnKey = *(*I64)(unsafe.Pointer(pKey))
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp4type) == -5 && ((*Sqlite3)(unsafe.Pointer(db)).FxPreUpdateCallback != 0 || (*Sqlite3)(unsafe.Pointer(db)).FxUpdateCallback != 0)) {
goto __705
}
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr((*VdbeCursor)(unsafe.Pointer(pC12)).FiDb)*32)).FzDbSName
pTab1 = *(*uintptr)(unsafe.Pointer(pOp + 16))
goto __706
__705:
pTab1 = uintptr(0)
zDb = uintptr(0)
__706:
;
if !(pTab1 != 0) {
goto __707
}
if !((*Sqlite3)(unsafe.Pointer(db)).FxPreUpdateCallback != 0 && !(int32((*Op)(unsafe.Pointer(pOp)).Fp5)&OPFLAG_ISUPDATE != 0)) {
goto __708
}
Xsqlite3VdbePreUpdateHook(tls, p, pC12, SQLITE_INSERT, zDb, pTab1, (*BtreePayload)(unsafe.Pointer(bp+528)).FnKey, (*Op)(unsafe.Pointer(pOp)).Fp2, -1)
__708:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FxUpdateCallback == uintptr(0) || (*Table)(unsafe.Pointer(pTab1)).FaCol == uintptr(0)) {
goto __709
}
pTab1 = uintptr(0)
__709:
;
__707:
;
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp5)&OPFLAG_ISNOOP != 0) {
goto __710
}
goto __9
__710:
;
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp5)&OPFLAG_NCHANGE != 0) {
goto __711
}
(*Vdbe)(unsafe.Pointer(p)).FnChange++
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp5)&OPFLAG_LASTROWID != 0) {
goto __712
}
(*Sqlite3)(unsafe.Pointer(db)).FlastRowid = (*BtreePayload)(unsafe.Pointer(bp + 528)).FnKey
__712:
;
__711:
;
(*BtreePayload)(unsafe.Pointer(bp + 528)).FpData = (*Mem)(unsafe.Pointer(pData)).Fz
(*BtreePayload)(unsafe.Pointer(bp + 528)).FnData = (*Mem)(unsafe.Pointer(pData)).Fn
seekResult = func() int32 {
if int32((*Op)(unsafe.Pointer(pOp)).Fp5)&OPFLAG_USESEEKRESULT != 0 {
return (*VdbeCursor)(unsafe.Pointer(pC12)).FseekResult
}
return 0
}()
if !(int32((*Mem)(unsafe.Pointer(pData)).Fflags)&MEM_Zero != 0) {
goto __713
}
(*BtreePayload)(unsafe.Pointer(bp + 528)).FnZero = *(*int32)(unsafe.Pointer(pData))
goto __714
__713:
(*BtreePayload)(unsafe.Pointer(bp + 528)).FnZero = 0
__714:
;
(*BtreePayload)(unsafe.Pointer(bp + 528)).FpKey = uintptr(0)
rc = Xsqlite3BtreeInsert(tls, *(*uintptr)(unsafe.Pointer(pC12 + 48)), bp+528,
int32((*Op)(unsafe.Pointer(pOp)).Fp5)&(OPFLAG_APPEND|OPFLAG_SAVEPOSITION|OPFLAG_PREFORMAT),
seekResult)
(*VdbeCursor)(unsafe.Pointer(pC12)).FdeferredMoveto = U8(0)
(*VdbeCursor)(unsafe.Pointer(pC12)).FcacheStatus = U32(CACHE_STALE)
if !(rc != 0) {
goto __715
}
goto abort_due_to_error
__715:
;
if !(pTab1 != 0) {
goto __716
}
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr, Sqlite_int64)
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxUpdateCallback})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpUpdateArg,
func() int32 {
if int32((*Op)(unsafe.Pointer(pOp)).Fp5)&OPFLAG_ISUPDATE != 0 {
return SQLITE_UPDATE
}
return SQLITE_INSERT
}(),
zDb, (*Table)(unsafe.Pointer(pTab1)).FzName, (*BtreePayload)(unsafe.Pointer(bp+528)).FnKey)
__716:
;
goto __9
__109:
;
pDest1 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
pSrc = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*8))
if (*Op)(unsafe.Pointer(pOp)).Fp3 != 0 {
iKey2 = *(*I64)(unsafe.Pointer(aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56))
} else {
iKey2 = int64(0)
}
rc = Xsqlite3BtreeTransferRow(tls, *(*uintptr)(unsafe.Pointer(pDest1 + 48)), *(*uintptr)(unsafe.Pointer(pSrc + 48)), iKey2)
if !(rc != SQLITE_OK) {
goto __717
}
goto abort_due_to_error
__717:
;
goto __9
__110:
opflags = (*Op)(unsafe.Pointer(pOp)).Fp2
pC13 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp4type) == -5 && ((*Sqlite3)(unsafe.Pointer(db)).FxPreUpdateCallback != 0 || (*Sqlite3)(unsafe.Pointer(db)).FxUpdateCallback != 0)) {
goto __718
}
zDb1 = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr((*VdbeCursor)(unsafe.Pointer(pC13)).FiDb)*32)).FzDbSName
pTab2 = *(*uintptr)(unsafe.Pointer(pOp + 16))
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp5)&OPFLAG_SAVEPOSITION != 0 && (*VdbeCursor)(unsafe.Pointer(pC13)).FisTable != 0) {
goto __720
}
(*VdbeCursor)(unsafe.Pointer(pC13)).FmovetoTarget = Xsqlite3BtreeIntegerKey(tls, *(*uintptr)(unsafe.Pointer(pC13 + 48)))
__720:
;
goto __719
__718:
zDb1 = uintptr(0)
pTab2 = uintptr(0)
__719:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FxPreUpdateCallback != 0 && pTab2 != 0) {
goto __721
}
Xsqlite3VdbePreUpdateHook(tls, p, pC13,
func() int32 {
if opflags&OPFLAG_ISUPDATE != 0 {
return SQLITE_UPDATE
}
return SQLITE_DELETE
}(),
zDb1, pTab2, (*VdbeCursor)(unsafe.Pointer(pC13)).FmovetoTarget,
(*Op)(unsafe.Pointer(pOp)).Fp3, -1)
__721:
;
if !(opflags&OPFLAG_ISNOOP != 0) {
goto __722
}
goto __9
__722:
;
rc = Xsqlite3BtreeDelete(tls, *(*uintptr)(unsafe.Pointer(pC13 + 48)), uint8((*Op)(unsafe.Pointer(pOp)).Fp5))
(*VdbeCursor)(unsafe.Pointer(pC13)).FcacheStatus = U32(CACHE_STALE)
(*VdbeCursor)(unsafe.Pointer(pC13)).FseekResult = 0
if !(rc != 0) {
goto __723
}
goto abort_due_to_error
__723:
;
if !(opflags&OPFLAG_NCHANGE != 0) {
goto __724
}
(*Vdbe)(unsafe.Pointer(p)).FnChange++
if !((*Sqlite3)(unsafe.Pointer(db)).FxUpdateCallback != 0 && pTab2 != uintptr(0) && (*Table)(unsafe.Pointer(pTab2)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __725
}
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr, Sqlite_int64)
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxUpdateCallback})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpUpdateArg, SQLITE_DELETE, zDb1, (*Table)(unsafe.Pointer(pTab2)).FzName,
(*VdbeCursor)(unsafe.Pointer(pC13)).FmovetoTarget)
__725:
;
__724:
;
goto __9
__111:
Xsqlite3VdbeSetChanges(tls, db, (*Vdbe)(unsafe.Pointer(p)).FnChange)
(*Vdbe)(unsafe.Pointer(p)).FnChange = int64(0)
goto __9
__112:
pC14 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
pIn3 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
nKeyCol = *(*int32)(unsafe.Pointer(pOp + 16))
*(*int32)(unsafe.Pointer(bp + 576)) = 0
rc = Xsqlite3VdbeSorterCompare(tls, pC14, pIn3, nKeyCol, bp+576)
if !(rc != 0) {
goto __726
}
goto abort_due_to_error
__726:
;
if !(*(*int32)(unsafe.Pointer(bp + 576)) != 0) {
goto __727
}
goto jump_to_p2
__727:
;
goto __9
__113:
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
pC15 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
rc = Xsqlite3VdbeSorterRowkey(tls, pC15, pOut)
if !(rc != 0) {
goto __728
}
goto abort_due_to_error
__728:
;
(*VdbeCursor)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*8)))).FcacheStatus = U32(CACHE_STALE)
goto __9
__114:
pOut = out2Prerelease(tls, p, pOp)
pC16 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
pCrsr3 = *(*uintptr)(unsafe.Pointer(pC16 + 48))
n3 = Xsqlite3BtreePayloadSize(tls, pCrsr3)
if !(n3 > U32(*(*int32)(unsafe.Pointer(db + 136)))) {
goto __729
}
goto too_big
__729:
;
rc = Xsqlite3VdbeMemFromBtreeZeroOffset(tls, pCrsr3, n3, pOut)
if !(rc != 0) {
goto __730
}
goto abort_due_to_error
__730:
;
if !!((*Op)(unsafe.Pointer(pOp)).Fp3 != 0) {
goto __731
}
if !(int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&MEM_Ephem != 0 && Xsqlite3VdbeMemMakeWriteable(tls, pOut) != 0) {
goto __732
}
goto no_mem
__732:
;
__731:
;
goto __9
__115:
pOut = out2Prerelease(tls, p, pOp)
pC17 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !((*VdbeCursor)(unsafe.Pointer(pC17)).FnullRow != 0) {
goto __733
}
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(MEM_Null)
goto __9
goto __734
__733:
if !((*VdbeCursor)(unsafe.Pointer(pC17)).FdeferredMoveto != 0) {
goto __735
}
*(*I64)(unsafe.Pointer(bp + 584)) = (*VdbeCursor)(unsafe.Pointer(pC17)).FmovetoTarget
goto __736
__735:
if !(int32((*VdbeCursor)(unsafe.Pointer(pC17)).FeCurType) == CURTYPE_VTAB) {
goto __737
}
pVtab = (*Sqlite3_vtab_cursor)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pC17 + 48)))).FpVtab
pModule = (*Sqlite3_vtab)(unsafe.Pointer(pVtab)).FpModule
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer(pModule)).FxRowid})).f(tls, *(*uintptr)(unsafe.Pointer(pC17 + 48)), bp+584)
Xsqlite3VtabImportErrmsg(tls, p, pVtab)
if !(rc != 0) {
goto __739
}
goto abort_due_to_error
__739:
;
goto __738
__737:
;
rc = Xsqlite3VdbeCursorRestore(tls, pC17)
if !(rc != 0) {
goto __740
}
goto abort_due_to_error
__740:
;
if !((*VdbeCursor)(unsafe.Pointer(pC17)).FnullRow != 0) {
goto __741
}
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(MEM_Null)
goto __9
__741:
;
*(*I64)(unsafe.Pointer(bp + 584)) = Xsqlite3BtreeIntegerKey(tls, *(*uintptr)(unsafe.Pointer(pC17 + 48)))
__738:
;
__736:
;
__734:
;
*(*I64)(unsafe.Pointer(pOut)) = *(*I64)(unsafe.Pointer(bp + 584))
goto __9
__116:
;
pC18 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !(pC18 == uintptr(0)) {
goto __742
}
pC18 = allocateCursor(tls, p, (*Op)(unsafe.Pointer(pOp)).Fp1, 1, uint8(CURTYPE_PSEUDO))
if !(pC18 == uintptr(0)) {
goto __743
}
goto no_mem
__743:
;
(*VdbeCursor)(unsafe.Pointer(pC18)).FseekResult = 0
(*VdbeCursor)(unsafe.Pointer(pC18)).FisTable = U8(1)
libc.SetBitFieldPtr8Uint32(pC18+8, Bool(1), 3, 0x8)
*(*uintptr)(unsafe.Pointer(pC18 + 48)) = Xsqlite3BtreeFakeValidCursor(tls)
__742:
;
(*VdbeCursor)(unsafe.Pointer(pC18)).FnullRow = U8(1)
(*VdbeCursor)(unsafe.Pointer(pC18)).FcacheStatus = U32(CACHE_STALE)
if !(int32((*VdbeCursor)(unsafe.Pointer(pC18)).FeCurType) == CURTYPE_BTREE) {
goto __744
}
Xsqlite3BtreeClearCursor(tls, *(*uintptr)(unsafe.Pointer(pC18 + 48)))
__744:
;
goto __9
__117:
__118:
;
pC19 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
pCrsr4 = *(*uintptr)(unsafe.Pointer(pC19 + 48))
*(*int32)(unsafe.Pointer(bp + 592)) = 0
if !(int32((*Op)(unsafe.Pointer(pOp)).Fopcode) == OP_SeekEnd) {
goto __745
}
(*VdbeCursor)(unsafe.Pointer(pC19)).FseekResult = -1
if !(Xsqlite3BtreeCursorIsValidNN(tls, pCrsr4) != 0) {
goto __746
}
goto __9
__746:
;
__745:
;
rc = Xsqlite3BtreeLast(tls, pCrsr4, bp+592)
(*VdbeCursor)(unsafe.Pointer(pC19)).FnullRow = U8(*(*int32)(unsafe.Pointer(bp + 592)))
(*VdbeCursor)(unsafe.Pointer(pC19)).FdeferredMoveto = U8(0)
(*VdbeCursor)(unsafe.Pointer(pC19)).FcacheStatus = U32(CACHE_STALE)
if !(rc != 0) {
goto __747
}
goto abort_due_to_error
__747:
;
if !((*Op)(unsafe.Pointer(pOp)).Fp2 > 0) {
goto __748
}
if !(*(*int32)(unsafe.Pointer(bp + 592)) != 0) {
goto __749
}
goto jump_to_p2
__749:
;
__748:
;
goto __9
__119:
;
pC20 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
pCrsr5 = *(*uintptr)(unsafe.Pointer(pC20 + 48))
rc = Xsqlite3BtreeFirst(tls, pCrsr5, bp+596)
if !(rc != 0) {
goto __750
}
goto abort_due_to_error
__750:
;
if !(*(*int32)(unsafe.Pointer(bp + 596)) == 0) {
goto __751
}
sz = Xsqlite3BtreeRowCountEst(tls, pCrsr5)
if !(sz >= int64(0) && int32(Xsqlite3LogEst(tls, U64(sz))) < (*Op)(unsafe.Pointer(pOp)).Fp3) {
goto __752
}
*(*int32)(unsafe.Pointer(bp + 596)) = 1
__752:
;
__751:
;
if !(*(*int32)(unsafe.Pointer(bp + 596)) != 0) {
goto __753
}
goto jump_to_p2
__753:
;
goto __9
__120:
__121:
*(*U32)(unsafe.Pointer(p + 212 + 2*4))++
__122:
;
pC21 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
*(*int32)(unsafe.Pointer(bp + 600)) = 1
if !(int32((*VdbeCursor)(unsafe.Pointer(pC21)).FeCurType) == CURTYPE_SORTER) {
goto __754
}
rc = Xsqlite3VdbeSorterRewind(tls, pC21, bp+600)
goto __755
__754:
;
pCrsr6 = *(*uintptr)(unsafe.Pointer(pC21 + 48))
rc = Xsqlite3BtreeFirst(tls, pCrsr6, bp+600)
(*VdbeCursor)(unsafe.Pointer(pC21)).FdeferredMoveto = U8(0)
(*VdbeCursor)(unsafe.Pointer(pC21)).FcacheStatus = U32(CACHE_STALE)
__755:
;
if !(rc != 0) {
goto __756
}
goto abort_due_to_error
__756:
;
(*VdbeCursor)(unsafe.Pointer(pC21)).FnullRow = U8(*(*int32)(unsafe.Pointer(bp + 600)))
if !((*Op)(unsafe.Pointer(pOp)).Fp2 > 0) {
goto __757
}
if !(*(*int32)(unsafe.Pointer(bp + 600)) != 0) {
goto __758
}
goto jump_to_p2
__758:
;
__757:
;
goto __9
__123:
pC22 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
rc = Xsqlite3VdbeSorterNext(tls, db, pC22)
goto next_tail
__124:
;
pC22 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
rc = Xsqlite3BtreePrevious(tls, *(*uintptr)(unsafe.Pointer(pC22 + 48)), (*Op)(unsafe.Pointer(pOp)).Fp3)
goto next_tail
__125:
;
pC22 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
rc = Xsqlite3BtreeNext(tls, *(*uintptr)(unsafe.Pointer(pC22 + 48)), (*Op)(unsafe.Pointer(pOp)).Fp3)
next_tail:
(*VdbeCursor)(unsafe.Pointer(pC22)).FcacheStatus = U32(CACHE_STALE)
if !(rc == SQLITE_OK) {
goto __759
}
(*VdbeCursor)(unsafe.Pointer(pC22)).FnullRow = U8(0)
*(*U32)(unsafe.Pointer(p + 212 + uintptr((*Op)(unsafe.Pointer(pOp)).Fp5)*4))++
goto jump_to_p2_and_check_for_interrupt
__759:
;
if !(rc != SQLITE_DONE) {
goto __760
}
goto abort_due_to_error
__760:
;
rc = SQLITE_OK
(*VdbeCursor)(unsafe.Pointer(pC22)).FnullRow = U8(1)
goto check_for_interrupt
__126:
;
pC23 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
pIn2 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp5)&OPFLAG_NCHANGE != 0) {
goto __761
}
(*Vdbe)(unsafe.Pointer(p)).FnChange++
__761:
;
rc = func() int32 {
if int32((*Mem)(unsafe.Pointer(pIn2)).Fflags)&MEM_Zero != 0 {
return Xsqlite3VdbeMemExpandBlob(tls, pIn2)
}
return 0
}()
if !(rc != 0) {
goto __762
}
goto abort_due_to_error
__762:
;
(*BtreePayload)(unsafe.Pointer(bp + 608)).FnKey = Sqlite3_int64((*Mem)(unsafe.Pointer(pIn2)).Fn)
(*BtreePayload)(unsafe.Pointer(bp + 608)).FpKey = (*Mem)(unsafe.Pointer(pIn2)).Fz
(*BtreePayload)(unsafe.Pointer(bp + 608)).FaMem = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
(*BtreePayload)(unsafe.Pointer(bp + 608)).FnMem = U16(*(*int32)(unsafe.Pointer(pOp + 16)))
rc = Xsqlite3BtreeInsert(tls, *(*uintptr)(unsafe.Pointer(pC23 + 48)), bp+608,
int32((*Op)(unsafe.Pointer(pOp)).Fp5)&(OPFLAG_APPEND|OPFLAG_SAVEPOSITION|OPFLAG_PREFORMAT),
func() int32 {
if int32((*Op)(unsafe.Pointer(pOp)).Fp5)&OPFLAG_USESEEKRESULT != 0 {
return (*VdbeCursor)(unsafe.Pointer(pC23)).FseekResult
}
return 0
}())
(*VdbeCursor)(unsafe.Pointer(pC23)).FcacheStatus = U32(CACHE_STALE)
if !(rc != 0) {
goto __763
}
goto abort_due_to_error
__763:
;
goto __9
__127:
;
pC24 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
pIn2 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
rc = func() int32 {
if int32((*Mem)(unsafe.Pointer(pIn2)).Fflags)&MEM_Zero != 0 {
return Xsqlite3VdbeMemExpandBlob(tls, pIn2)
}
return 0
}()
if !(rc != 0) {
goto __764
}
goto abort_due_to_error
__764:
;
rc = Xsqlite3VdbeSorterWrite(tls, pC24, pIn2)
if !(rc != 0) {
goto __765
}
goto abort_due_to_error
__765:
;
goto __9
__128:
;
pC25 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
pCrsr7 = *(*uintptr)(unsafe.Pointer(pC25 + 48))
(*UnpackedRecord)(unsafe.Pointer(bp + 656)).FpKeyInfo = (*VdbeCursor)(unsafe.Pointer(pC25)).FpKeyInfo
(*UnpackedRecord)(unsafe.Pointer(bp + 656)).FnField = U16((*Op)(unsafe.Pointer(pOp)).Fp3)
(*UnpackedRecord)(unsafe.Pointer(bp + 656)).Fdefault_rc = int8(0)
(*UnpackedRecord)(unsafe.Pointer(bp + 656)).FaMem = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
rc = Xsqlite3BtreeIndexMoveto(tls, pCrsr7, bp+656, bp+696)
if !(rc != 0) {
goto __766
}
goto abort_due_to_error
__766:
;
if !(*(*int32)(unsafe.Pointer(bp + 696)) == 0) {
goto __767
}
rc = Xsqlite3BtreeDelete(tls, pCrsr7, uint8(BTREE_AUXDELETE))
if !(rc != 0) {
goto __769
}
goto abort_due_to_error
__769:
;
goto __768
__767:
if !((*Op)(unsafe.Pointer(pOp)).Fp5 != 0 && !(Xsqlite3WritableSchema(tls, db) != 0)) {
goto __770
}
rc = Xsqlite3ReportError(tls, SQLITE_CORRUPT|int32(3)<<8, 96635, ts+6269)
goto abort_due_to_error
__770:
;
__768:
;
(*VdbeCursor)(unsafe.Pointer(pC25)).FcacheStatus = U32(CACHE_STALE)
(*VdbeCursor)(unsafe.Pointer(pC25)).FseekResult = 0
goto __9
__129:
__130:
;
pC26 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
rc = Xsqlite3VdbeCursorRestore(tls, pC26)
if !(rc != SQLITE_OK) {
goto __771
}
goto abort_due_to_error
__771:
;
if !!(int32((*VdbeCursor)(unsafe.Pointer(pC26)).FnullRow) != 0) {
goto __772
}
*(*I64)(unsafe.Pointer(bp + 704)) = int64(0)
rc = Xsqlite3VdbeIdxRowid(tls, db, *(*uintptr)(unsafe.Pointer(pC26 + 48)), bp+704)
if !(rc != SQLITE_OK) {
goto __774
}
goto abort_due_to_error
__774:
;
if !(int32((*Op)(unsafe.Pointer(pOp)).Fopcode) == OP_DeferredSeek) {
goto __775
}
pTabCur = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*8))
(*VdbeCursor)(unsafe.Pointer(pTabCur)).FnullRow = U8(0)
(*VdbeCursor)(unsafe.Pointer(pTabCur)).FmovetoTarget = *(*I64)(unsafe.Pointer(bp + 704))
(*VdbeCursor)(unsafe.Pointer(pTabCur)).FdeferredMoveto = U8(1)
(*VdbeCursor)(unsafe.Pointer(pTabCur)).FcacheStatus = U32(CACHE_STALE)
*(*uintptr)(unsafe.Pointer(pTabCur + 16)) = *(*uintptr)(unsafe.Pointer(pOp + 16))
(*VdbeCursor)(unsafe.Pointer(pTabCur)).FpAltCursor = pC26
goto __776
__775:
pOut = out2Prerelease(tls, p, pOp)
*(*I64)(unsafe.Pointer(pOut)) = *(*I64)(unsafe.Pointer(bp + 704))
__776:
;
goto __773
__772:
;
Xsqlite3VdbeMemSetNull(tls, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56)
__773:
;
goto __9
__131:
;
pC27 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !((*VdbeCursor)(unsafe.Pointer(pC27)).FdeferredMoveto != 0) {
goto __777
}
rc = Xsqlite3VdbeFinishMoveto(tls, pC27)
if !(rc != 0) {
goto __778
}
goto abort_due_to_error
__778:
;
__777:
;
goto __9
__132:
__133:
__134:
__135:
;
pC28 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
(*UnpackedRecord)(unsafe.Pointer(bp + 768)).FpKeyInfo = (*VdbeCursor)(unsafe.Pointer(pC28)).FpKeyInfo
(*UnpackedRecord)(unsafe.Pointer(bp + 768)).FnField = U16(*(*int32)(unsafe.Pointer(pOp + 16)))
if !(int32((*Op)(unsafe.Pointer(pOp)).Fopcode) < OP_IdxLT) {
goto __779
}
(*UnpackedRecord)(unsafe.Pointer(bp + 768)).Fdefault_rc = int8(-1)
goto __780
__779:
;
(*UnpackedRecord)(unsafe.Pointer(bp + 768)).Fdefault_rc = int8(0)
__780:
;
(*UnpackedRecord)(unsafe.Pointer(bp + 768)).FaMem = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
nCellKey = int64(0)
pCur2 = *(*uintptr)(unsafe.Pointer(pC28 + 48))
nCellKey = I64(Xsqlite3BtreePayloadSize(tls, pCur2))
if !(nCellKey <= int64(0) || nCellKey > int64(0x7fffffff)) {
goto __781
}
rc = Xsqlite3CorruptError(tls, 96840)
goto abort_due_to_error
__781:
;
Xsqlite3VdbeMemInit(tls, bp+712, db, uint16(0))
rc = Xsqlite3VdbeMemFromBtreeZeroOffset(tls, pCur2, U32(nCellKey), bp+712)
if !(rc != 0) {
goto __782
}
goto abort_due_to_error
__782:
;
res11 = Xsqlite3VdbeRecordCompareWithSkip(tls, (*Mem)(unsafe.Pointer(bp+712)).Fn, (*Mem)(unsafe.Pointer(bp+712)).Fz, bp+768, 0)
Xsqlite3VdbeMemReleaseMalloc(tls, bp+712)
if !(int32((*Op)(unsafe.Pointer(pOp)).Fopcode)&1 == OP_IdxLT&1) {
goto __783
}
res11 = -res11
goto __784
__783:
;
res11++
__784:
;
if !(res11 > 0) {
goto __785
}
goto jump_to_p2
__785:
;
goto __9
__136:
;
pOut = out2Prerelease(tls, p, pOp)
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(MEM_Null)
if !((*Sqlite3)(unsafe.Pointer(db)).FnVdbeRead > (*Sqlite3)(unsafe.Pointer(db)).FnVDestroy+1) {
goto __786
}
rc = SQLITE_LOCKED
(*Vdbe)(unsafe.Pointer(p)).FerrorAction = U8(OE_Abort)
goto abort_due_to_error
goto __787
__786:
iDb2 = (*Op)(unsafe.Pointer(pOp)).Fp3
*(*int32)(unsafe.Pointer(bp + 808)) = 0
rc = Xsqlite3BtreeDropTable(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb2)*32)).FpBt, (*Op)(unsafe.Pointer(pOp)).Fp1, bp+808)
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(MEM_Int)
*(*I64)(unsafe.Pointer(pOut)) = I64(*(*int32)(unsafe.Pointer(bp + 808)))
if !(rc != 0) {
goto __788
}
goto abort_due_to_error
__788:
;
if !(*(*int32)(unsafe.Pointer(bp + 808)) != 0) {
goto __789
}
Xsqlite3RootPageMoved(tls, db, iDb2, uint32(*(*int32)(unsafe.Pointer(bp + 808))), uint32((*Op)(unsafe.Pointer(pOp)).Fp1))
resetSchemaOnFault = U8(iDb2 + 1)
__789:
;
__787:
;
goto __9
__137:
;
*(*I64)(unsafe.Pointer(bp + 816)) = int64(0)
rc = Xsqlite3BtreeClearTable(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*32)).FpBt, int32(U32((*Op)(unsafe.Pointer(pOp)).Fp1)), bp+816)
if !((*Op)(unsafe.Pointer(pOp)).Fp3 != 0) {
goto __790
}
*(*I64)(unsafe.Pointer(p + 56)) += *(*I64)(unsafe.Pointer(bp + 816))
if !((*Op)(unsafe.Pointer(pOp)).Fp3 > 0) {
goto __791
}
*(*I64)(unsafe.Pointer(aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56)) += *(*I64)(unsafe.Pointer(bp + 816))
__791:
;
__790:
;
if !(rc != 0) {
goto __792
}
goto abort_due_to_error
__792:
;
goto __9
__138:
;
pC29 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !(int32((*VdbeCursor)(unsafe.Pointer(pC29)).FeCurType) == CURTYPE_SORTER) {
goto __793
}
Xsqlite3VdbeSorterReset(tls, db, *(*uintptr)(unsafe.Pointer(pC29 + 48)))
goto __794
__793:
;
rc = Xsqlite3BtreeClearTableOfCursor(tls, *(*uintptr)(unsafe.Pointer(pC29 + 48)))
if !(rc != 0) {
goto __795
}
goto abort_due_to_error
__795:
;
__794:
;
goto __9
__139:
;
pOut = out2Prerelease(tls, p, pOp)
*(*Pgno)(unsafe.Pointer(bp + 824)) = Pgno(0)
pDb3 = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*32
rc = Xsqlite3BtreeCreateTable(tls, (*Db)(unsafe.Pointer(pDb3)).FpBt, bp+824, (*Op)(unsafe.Pointer(pOp)).Fp3)
if !(rc != 0) {
goto __796
}
goto abort_due_to_error
__796:
;
*(*I64)(unsafe.Pointer(pOut)) = I64(*(*Pgno)(unsafe.Pointer(bp + 824)))
goto __9
__140:
;
(*Sqlite3)(unsafe.Pointer(db)).FnSqlExec++
rc = Xsqlite3_exec(tls, db, *(*uintptr)(unsafe.Pointer(pOp + 16)), uintptr(0), uintptr(0), uintptr(0))
(*Sqlite3)(unsafe.Pointer(db)).FnSqlExec--
if !(rc != 0) {
goto __797
}
goto abort_due_to_error
__797:
;
goto __9
__141:
iDb3 = (*Op)(unsafe.Pointer(pOp)).Fp1
if !(*(*uintptr)(unsafe.Pointer(pOp + 16)) == uintptr(0)) {
goto __798
}
Xsqlite3SchemaClear(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb3)*32)).FpSchema)
*(*U32)(unsafe.Pointer(db + 44)) &= libc.Uint32FromInt32(libc.CplInt32(DBFLAG_SchemaKnownOk))
rc = Xsqlite3InitOne(tls, db, iDb3, p+168, uint32((*Op)(unsafe.Pointer(pOp)).Fp5))
*(*U32)(unsafe.Pointer(db + 44)) |= U32(DBFLAG_SchemaChange)
libc.SetBitFieldPtr8Uint32(p+200, Bft(0), 0, 0x3)
goto __799
__798:
zSchema = ts + 6286
(*InitData)(unsafe.Pointer(bp + 832)).Fdb = db
(*InitData)(unsafe.Pointer(bp + 832)).FiDb = iDb3
(*InitData)(unsafe.Pointer(bp + 832)).FpzErrMsg = p + 168
(*InitData)(unsafe.Pointer(bp + 832)).FmInitFlags = U32(0)
(*InitData)(unsafe.Pointer(bp + 832)).FmxPage = Xsqlite3BtreeLastPage(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb3)*32)).FpBt)
zSql = Xsqlite3MPrintf(tls, db,
ts+6300,
libc.VaList(bp+96, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb3)*32)).FzDbSName, zSchema, *(*uintptr)(unsafe.Pointer(pOp + 16))))
if !(zSql == uintptr(0)) {
goto __800
}
rc = SQLITE_NOMEM
goto __801
__800:
;
(*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy = U8(1)
(*InitData)(unsafe.Pointer(bp + 832)).Frc = SQLITE_OK
(*InitData)(unsafe.Pointer(bp + 832)).FnInitRow = U32(0)
rc = Xsqlite3_exec(tls, db, zSql, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32
}{Xsqlite3InitCallback})), bp+832, uintptr(0))
if !(rc == SQLITE_OK) {
goto __802
}
rc = (*InitData)(unsafe.Pointer(bp + 832)).Frc
__802:
;
if !(rc == SQLITE_OK && (*InitData)(unsafe.Pointer(bp+832)).FnInitRow == U32(0)) {
goto __803
}
rc = Xsqlite3CorruptError(tls, 97092)
__803:
;
Xsqlite3DbFreeNN(tls, db, zSql)
(*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy = U8(0)
__801:
;
__799:
;
if !(rc != 0) {
goto __804
}
Xsqlite3ResetAllSchemasOfConnection(tls, db)
if !(rc == SQLITE_NOMEM) {
goto __805
}
goto no_mem
__805:
;
goto abort_due_to_error
__804:
;
goto __9
__142:
;
rc = Xsqlite3AnalysisLoad(tls, db, (*Op)(unsafe.Pointer(pOp)).Fp1)
if !(rc != 0) {
goto __806
}
goto abort_due_to_error
__806:
;
goto __9
__143:
;
Xsqlite3UnlinkAndDeleteTable(tls, db, (*Op)(unsafe.Pointer(pOp)).Fp1, *(*uintptr)(unsafe.Pointer(pOp + 16)))
goto __9
__144:
;
Xsqlite3UnlinkAndDeleteIndex(tls, db, (*Op)(unsafe.Pointer(pOp)).Fp1, *(*uintptr)(unsafe.Pointer(pOp + 16)))
goto __9
__145:
;
Xsqlite3UnlinkAndDeleteTrigger(tls, db, (*Op)(unsafe.Pointer(pOp)).Fp1, *(*uintptr)(unsafe.Pointer(pOp + 16)))
goto __9
__146:
;
nRoot = (*Op)(unsafe.Pointer(pOp)).Fp2
aRoot = *(*uintptr)(unsafe.Pointer(pOp + 16))
pnErr = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
rc = Xsqlite3BtreeIntegrityCheck(tls, db, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr((*Op)(unsafe.Pointer(pOp)).Fp5)*32)).FpBt, aRoot+1*4, nRoot,
int32(*(*I64)(unsafe.Pointer(pnErr)))+1, bp+872, bp+880)
Xsqlite3VdbeMemSetNull(tls, pIn1)
if !(*(*int32)(unsafe.Pointer(bp + 872)) == 0) {
goto __807
}
goto __808
__807:
if !(rc != 0) {
goto __809
}
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 880)))
goto abort_due_to_error
goto __810
__809:
*(*I64)(unsafe.Pointer(pnErr)) -= I64(*(*int32)(unsafe.Pointer(bp + 872)) - 1)
Xsqlite3VdbeMemSetStr(tls, pIn1, *(*uintptr)(unsafe.Pointer(bp + 880)), int64(-1), uint8(SQLITE_UTF8), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
__810:
;
__808:
;
Xsqlite3VdbeChangeEncoding(tls, pIn1, int32(encoding))
goto check_for_interrupt
__147:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
pIn2 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Blob == 0) {
goto __811
}
if !(Xsqlite3VdbeMemSetRowSet(tls, pIn1) != 0) {
goto __812
}
goto no_mem
__812:
;
__811:
;
Xsqlite3RowSetInsert(tls, (*Mem)(unsafe.Pointer(pIn1)).Fz, *(*I64)(unsafe.Pointer(pIn2)))
goto __9
__148:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Blob == 0 ||
Xsqlite3RowSetNext(tls, (*Mem)(unsafe.Pointer(pIn1)).Fz, bp+888) == 0) {
goto __813
}
Xsqlite3VdbeMemSetNull(tls, pIn1)
goto jump_to_p2_and_check_for_interrupt
goto __814
__813:
;
Xsqlite3VdbeMemSetInt64(tls, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56, *(*I64)(unsafe.Pointer(bp + 888)))
__814:
;
goto check_for_interrupt
__149:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
pIn3 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
iSet = *(*int32)(unsafe.Pointer(pOp + 16))
if !(int32((*Mem)(unsafe.Pointer(pIn1)).Fflags)&MEM_Blob == 0) {
goto __815
}
if !(Xsqlite3VdbeMemSetRowSet(tls, pIn1) != 0) {
goto __816
}
goto no_mem
__816:
;
__815:
;
if !(iSet != 0) {
goto __817
}
exists = Xsqlite3RowSetTest(tls, (*Mem)(unsafe.Pointer(pIn1)).Fz, iSet, *(*I64)(unsafe.Pointer(pIn3)))
if !(exists != 0) {
goto __818
}
goto jump_to_p2
__818:
;
__817:
;
if !(iSet >= 0) {
goto __819
}
Xsqlite3RowSetInsert(tls, (*Mem)(unsafe.Pointer(pIn1)).Fz, *(*I64)(unsafe.Pointer(pIn3)))
__819:
;
goto __9
__150:
pProgram = *(*uintptr)(unsafe.Pointer(pOp + 16))
pRt = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
if !((*Op)(unsafe.Pointer(pOp)).Fp5 != 0) {
goto __820
}
t1 = (*SubProgram)(unsafe.Pointer(pProgram)).Ftoken
pFrame2 = (*Vdbe)(unsafe.Pointer(p)).FpFrame
__821:
if !(pFrame2 != 0 && (*VdbeFrame)(unsafe.Pointer(pFrame2)).Ftoken != t1) {
goto __823
}
goto __822
__822:
pFrame2 = (*VdbeFrame)(unsafe.Pointer(pFrame2)).FpParent
goto __821
goto __823
__823:
;
if !(pFrame2 != 0) {
goto __824
}
goto __9
__824:
;
__820:
;
if !((*Vdbe)(unsafe.Pointer(p)).FnFrame >= *(*int32)(unsafe.Pointer(db + 136 + 10*4))) {
goto __825
}
rc = SQLITE_ERROR
Xsqlite3VdbeError(tls, p, ts+6343, 0)
goto abort_due_to_error
__825:
;
if !(int32((*Mem)(unsafe.Pointer(pRt)).Fflags)&MEM_Blob == 0) {
goto __826
}
nMem = (*SubProgram)(unsafe.Pointer(pProgram)).FnMem + (*SubProgram)(unsafe.Pointer(pProgram)).FnCsr
if !((*SubProgram)(unsafe.Pointer(pProgram)).FnCsr == 0) {
goto __828
}
nMem++
__828:
;
nByte2 = int32((uint64(unsafe.Sizeof(VdbeFrame{}))+uint64(7))&libc.Uint64FromInt32(libc.CplInt32(7)) +
uint64(nMem)*uint64(unsafe.Sizeof(Mem{})) +
uint64((*SubProgram)(unsafe.Pointer(pProgram)).FnCsr)*uint64(unsafe.Sizeof(uintptr(0))) +
uint64(((*SubProgram)(unsafe.Pointer(pProgram)).FnOp+7)/8))
pFrame2 = Xsqlite3DbMallocZero(tls, db, uint64(nByte2))
if !!(pFrame2 != 0) {
goto __829
}
goto no_mem
__829:
;
Xsqlite3VdbeMemRelease(tls, pRt)
(*Mem)(unsafe.Pointer(pRt)).Fflags = U16(MEM_Blob | MEM_Dyn)
(*Mem)(unsafe.Pointer(pRt)).Fz = pFrame2
(*Mem)(unsafe.Pointer(pRt)).Fn = nByte2
(*Mem)(unsafe.Pointer(pRt)).FxDel = *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3VdbeFrameMemDel}))
(*VdbeFrame)(unsafe.Pointer(pFrame2)).Fv = p
(*VdbeFrame)(unsafe.Pointer(pFrame2)).FnChildMem = nMem
(*VdbeFrame)(unsafe.Pointer(pFrame2)).FnChildCsr = (*SubProgram)(unsafe.Pointer(pProgram)).FnCsr
(*VdbeFrame)(unsafe.Pointer(pFrame2)).Fpc = int32((int64(pOp) - int64(aOp)) / 24)
(*VdbeFrame)(unsafe.Pointer(pFrame2)).FaMem = (*Vdbe)(unsafe.Pointer(p)).FaMem
(*VdbeFrame)(unsafe.Pointer(pFrame2)).FnMem = (*Vdbe)(unsafe.Pointer(p)).FnMem
(*VdbeFrame)(unsafe.Pointer(pFrame2)).FapCsr = (*Vdbe)(unsafe.Pointer(p)).FapCsr
(*VdbeFrame)(unsafe.Pointer(pFrame2)).FnCursor = (*Vdbe)(unsafe.Pointer(p)).FnCursor
(*VdbeFrame)(unsafe.Pointer(pFrame2)).FaOp = (*Vdbe)(unsafe.Pointer(p)).FaOp
(*VdbeFrame)(unsafe.Pointer(pFrame2)).FnOp = (*Vdbe)(unsafe.Pointer(p)).FnOp
(*VdbeFrame)(unsafe.Pointer(pFrame2)).Ftoken = (*SubProgram)(unsafe.Pointer(pProgram)).Ftoken
pEnd = pFrame2 + 112 + uintptr((*VdbeFrame)(unsafe.Pointer(pFrame2)).FnChildMem)*56
pMem1 = pFrame2 + 112
__830:
if !(pMem1 != pEnd) {
goto __832
}
(*Mem)(unsafe.Pointer(pMem1)).Fflags = U16(MEM_Undefined)
(*Mem)(unsafe.Pointer(pMem1)).Fdb = db
goto __831
__831:
pMem1 += 56
goto __830
goto __832
__832:
;
goto __827
__826:
pFrame2 = (*Mem)(unsafe.Pointer(pRt)).Fz
__827:
;
(*Vdbe)(unsafe.Pointer(p)).FnFrame++
(*VdbeFrame)(unsafe.Pointer(pFrame2)).FpParent = (*Vdbe)(unsafe.Pointer(p)).FpFrame
(*VdbeFrame)(unsafe.Pointer(pFrame2)).FlastRowid = (*Sqlite3)(unsafe.Pointer(db)).FlastRowid
(*VdbeFrame)(unsafe.Pointer(pFrame2)).FnChange = (*Vdbe)(unsafe.Pointer(p)).FnChange
(*VdbeFrame)(unsafe.Pointer(pFrame2)).FnDbChange = (*Sqlite3)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).Fdb)).FnChange
(*VdbeFrame)(unsafe.Pointer(pFrame2)).FpAuxData = (*Vdbe)(unsafe.Pointer(p)).FpAuxData
(*Vdbe)(unsafe.Pointer(p)).FpAuxData = uintptr(0)
(*Vdbe)(unsafe.Pointer(p)).FnChange = int64(0)
(*Vdbe)(unsafe.Pointer(p)).FpFrame = pFrame2
(*Vdbe)(unsafe.Pointer(p)).FaMem = libc.AssignUintptr(&aMem, pFrame2+112)
(*Vdbe)(unsafe.Pointer(p)).FnMem = (*VdbeFrame)(unsafe.Pointer(pFrame2)).FnChildMem
(*Vdbe)(unsafe.Pointer(p)).FnCursor = int32(U16((*VdbeFrame)(unsafe.Pointer(pFrame2)).FnChildCsr))
(*Vdbe)(unsafe.Pointer(p)).FapCsr = aMem + uintptr((*Vdbe)(unsafe.Pointer(p)).FnMem)*56
(*VdbeFrame)(unsafe.Pointer(pFrame2)).FaOnce = (*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*SubProgram)(unsafe.Pointer(pProgram)).FnCsr)*8
libc.X__builtin___memset_chk(tls, (*VdbeFrame)(unsafe.Pointer(pFrame2)).FaOnce, 0, uint64(((*SubProgram)(unsafe.Pointer(pProgram)).FnOp+7)/8), libc.X__builtin_object_size(tls, (*VdbeFrame)(unsafe.Pointer(pFrame2)).FaOnce, 0))
(*Vdbe)(unsafe.Pointer(p)).FaOp = libc.AssignUintptr(&aOp, (*SubProgram)(unsafe.Pointer(pProgram)).FaOp)
(*Vdbe)(unsafe.Pointer(p)).FnOp = (*SubProgram)(unsafe.Pointer(pProgram)).FnOp
pOp = aOp + libc.UintptrFromInt32(-1)*24
goto check_for_interrupt
__151:
pOut = out2Prerelease(tls, p, pOp)
pFrame3 = (*Vdbe)(unsafe.Pointer(p)).FpFrame
pIn = (*VdbeFrame)(unsafe.Pointer(pFrame3)).FaMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1+(*Op)(unsafe.Pointer((*VdbeFrame)(unsafe.Pointer(pFrame3)).FaOp+uintptr((*VdbeFrame)(unsafe.Pointer(pFrame3)).Fpc)*24)).Fp1)*56
Xsqlite3VdbeMemShallowCopy(tls, pOut, pIn, MEM_Ephem)
goto __9
__152:
if !((*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_DeferFKs) != 0) {
goto __833
}
*(*I64)(unsafe.Pointer(db + 792)) += I64((*Op)(unsafe.Pointer(pOp)).Fp2)
goto __834
__833:
if !((*Op)(unsafe.Pointer(pOp)).Fp1 != 0) {
goto __835
}
*(*I64)(unsafe.Pointer(db + 784)) += I64((*Op)(unsafe.Pointer(pOp)).Fp2)
goto __836
__835:
*(*I64)(unsafe.Pointer(p + 80)) += I64((*Op)(unsafe.Pointer(pOp)).Fp2)
__836:
;
__834:
;
goto __9
__153:
if !((*Op)(unsafe.Pointer(pOp)).Fp1 != 0) {
goto __837
}
if !((*Sqlite3)(unsafe.Pointer(db)).FnDeferredCons == int64(0) && (*Sqlite3)(unsafe.Pointer(db)).FnDeferredImmCons == int64(0)) {
goto __839
}
goto jump_to_p2
__839:
;
goto __838
__837:
;
if !((*Vdbe)(unsafe.Pointer(p)).FnFkConstraint == int64(0) && (*Sqlite3)(unsafe.Pointer(db)).FnDeferredImmCons == int64(0)) {
goto __840
}
goto jump_to_p2
__840:
;
__838:
;
goto __9
__154:
if !((*Vdbe)(unsafe.Pointer(p)).FpFrame != 0) {
goto __841
}
pFrame4 = (*Vdbe)(unsafe.Pointer(p)).FpFrame
__843:
if !((*VdbeFrame)(unsafe.Pointer(pFrame4)).FpParent != 0) {
goto __845
}
goto __844
__844:
pFrame4 = (*VdbeFrame)(unsafe.Pointer(pFrame4)).FpParent
goto __843
goto __845
__845:
;
pIn1 = (*VdbeFrame)(unsafe.Pointer(pFrame4)).FaMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
goto __842
__841:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
__842:
;
Xsqlite3VdbeMemIntegerify(tls, pIn1)
pIn2 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
Xsqlite3VdbeMemIntegerify(tls, pIn2)
if !(*(*I64)(unsafe.Pointer(pIn1)) < *(*I64)(unsafe.Pointer(pIn2))) {
goto __846
}
*(*I64)(unsafe.Pointer(pIn1)) = *(*I64)(unsafe.Pointer(pIn2))
__846:
;
goto __9
__155:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
if !(*(*I64)(unsafe.Pointer(pIn1)) > int64(0)) {
goto __847
}
*(*I64)(unsafe.Pointer(pIn1)) -= I64((*Op)(unsafe.Pointer(pOp)).Fp3)
goto jump_to_p2
__847:
;
goto __9
__156:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
pIn3 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
pOut = out2Prerelease(tls, p, pOp)
*(*I64)(unsafe.Pointer(bp + 896)) = *(*I64)(unsafe.Pointer(pIn1))
if !(*(*I64)(unsafe.Pointer(bp + 896)) <= int64(0) || Xsqlite3AddInt64(tls, bp+896, func() int64 {
if *(*I64)(unsafe.Pointer(pIn3)) > int64(0) {
return *(*I64)(unsafe.Pointer(pIn3))
}
return int64(0)
}()) != 0) {
goto __848
}
*(*I64)(unsafe.Pointer(pOut)) = int64(-1)
goto __849
__848:
*(*I64)(unsafe.Pointer(pOut)) = *(*I64)(unsafe.Pointer(bp + 896))
__849:
;
goto __9
__157:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
if !(*(*I64)(unsafe.Pointer(pIn1)) != 0) {
goto __850
}
if !(*(*I64)(unsafe.Pointer(pIn1)) > int64(0)) {
goto __851
}
*(*I64)(unsafe.Pointer(pIn1))--
__851:
;
goto jump_to_p2
__850:
;
goto __9
__158:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
if !(*(*I64)(unsafe.Pointer(pIn1)) > int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32)) {
goto __852
}
*(*I64)(unsafe.Pointer(pIn1))--
__852:
;
if !(*(*I64)(unsafe.Pointer(pIn1)) == int64(0)) {
goto __853
}
goto jump_to_p2
__853:
;
goto __9
__159:
__160:
;
n4 = int32((*Op)(unsafe.Pointer(pOp)).Fp5)
pCtx = Xsqlite3DbMallocRawNN(tls, db, uint64(n4)*uint64(unsafe.Sizeof(uintptr(0)))+(uint64(unsafe.Sizeof(Sqlite3_context{}))+uint64(unsafe.Sizeof(Mem{}))-uint64(unsafe.Sizeof(uintptr(0)))))
if !(pCtx == uintptr(0)) {
goto __854
}
goto no_mem
__854:
;
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FpMem = uintptr(0)
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut = pCtx + 48 + uintptr(n4)*8
Xsqlite3VdbeMemInit(tls, (*Sqlite3_context)(unsafe.Pointer(pCtx)).FpOut, db, uint16(MEM_Null))
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FpFunc = *(*uintptr)(unsafe.Pointer(pOp + 16))
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FiOp = int32((int64(pOp) - int64(aOp)) / 24)
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FpVdbe = p
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FskipFlag = U8(0)
(*Sqlite3_context)(unsafe.Pointer(pCtx)).FisError = 0
(*Sqlite3_context)(unsafe.Pointer(pCtx)).Fenc = encoding
(*Sqlite3_context)(unsafe.Pointer(pCtx)).Fargc = U8(n4)
(*Op)(unsafe.Pointer(pOp)).Fp4type = int8(-15)
*(*uintptr)(unsafe.Pointer(pOp + 16)) = pCtx
(*Op)(unsafe.Pointer(pOp)).Fopcode = U8(OP_AggStep1)
__161:
;
pCtx1 = *(*uintptr)(unsafe.Pointer(pOp + 16))
pMem2 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
if !((*Sqlite3_context)(unsafe.Pointer(pCtx1)).FpMem != pMem2) {
goto __855
}
(*Sqlite3_context)(unsafe.Pointer(pCtx1)).FpMem = pMem2
i5 = int32((*Sqlite3_context)(unsafe.Pointer(pCtx1)).Fargc) - 1
__856:
if !(i5 >= 0) {
goto __858
}
*(*uintptr)(unsafe.Pointer(pCtx1 + 48 + uintptr(i5)*8)) = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2+i5)*56
goto __857
__857:
i5--
goto __856
goto __858
__858:
;
__855:
;
(*Mem)(unsafe.Pointer(pMem2)).Fn++
if !((*Op)(unsafe.Pointer(pOp)).Fp1 != 0) {
goto __859
}
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*FuncDef)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(pCtx1)).FpFunc)).FxInverse})).f(tls, pCtx1, int32((*Sqlite3_context)(unsafe.Pointer(pCtx1)).Fargc), pCtx1+48)
goto __860
__859:
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*FuncDef)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(pCtx1)).FpFunc)).FxSFunc})).f(tls, pCtx1, int32((*Sqlite3_context)(unsafe.Pointer(pCtx1)).Fargc), pCtx1+48)
__860:
;
if !((*Sqlite3_context)(unsafe.Pointer(pCtx1)).FisError != 0) {
goto __861
}
if !((*Sqlite3_context)(unsafe.Pointer(pCtx1)).FisError > 0) {
goto __862
}
Xsqlite3VdbeError(tls, p, ts+3658, libc.VaList(bp+120, Xsqlite3_value_text(tls, (*Sqlite3_context)(unsafe.Pointer(pCtx1)).FpOut)))
rc = (*Sqlite3_context)(unsafe.Pointer(pCtx1)).FisError
__862:
;
if !((*Sqlite3_context)(unsafe.Pointer(pCtx1)).FskipFlag != 0) {
goto __863
}
i5 = (*Op)(unsafe.Pointer(pOp + libc.UintptrFromInt32(-1)*24)).Fp1
if !(i5 != 0) {
goto __864
}
Xsqlite3VdbeMemSetInt64(tls, aMem+uintptr(i5)*56, int64(1))
__864:
;
(*Sqlite3_context)(unsafe.Pointer(pCtx1)).FskipFlag = U8(0)
__863:
;
Xsqlite3VdbeMemRelease(tls, (*Sqlite3_context)(unsafe.Pointer(pCtx1)).FpOut)
(*Mem)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(pCtx1)).FpOut)).Fflags = U16(MEM_Null)
(*Sqlite3_context)(unsafe.Pointer(pCtx1)).FisError = 0
if !(rc != 0) {
goto __865
}
goto abort_due_to_error
__865:
;
__861:
;
goto __9
__162:
__163:
;
pMem3 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
if !((*Op)(unsafe.Pointer(pOp)).Fp3 != 0) {
goto __866
}
rc = Xsqlite3VdbeMemAggValue(tls, pMem3, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56, *(*uintptr)(unsafe.Pointer(pOp + 16)))
pMem3 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
goto __867
__866:
rc = Xsqlite3VdbeMemFinalize(tls, pMem3, *(*uintptr)(unsafe.Pointer(pOp + 16)))
__867:
;
if !(rc != 0) {
goto __868
}
Xsqlite3VdbeError(tls, p, ts+3658, libc.VaList(bp+128, Xsqlite3_value_text(tls, pMem3)))
goto abort_due_to_error
__868:
;
Xsqlite3VdbeChangeEncoding(tls, pMem3, int32(encoding))
goto __9
__164:
;
*(*int32)(unsafe.Pointer(bp + 904)) = 0
*(*int32)(unsafe.Pointer(bp + 904 + 1*4)) = libc.AssignPtrInt32(bp+904+2*4, -1)
rc = Xsqlite3Checkpoint(tls, db, (*Op)(unsafe.Pointer(pOp)).Fp1, (*Op)(unsafe.Pointer(pOp)).Fp2, bp+904+1*4, bp+904+2*4)
if !(rc != 0) {
goto __869
}
if !(rc != SQLITE_BUSY) {
goto __870
}
goto abort_due_to_error
__870:
;
rc = SQLITE_OK
*(*int32)(unsafe.Pointer(bp + 904)) = 1
__869:
;
i6 = 0
pMem4 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
__871:
if !(i6 < 3) {
goto __873
}
Xsqlite3VdbeMemSetInt64(tls, pMem4, I64(*(*int32)(unsafe.Pointer(bp + 904 + uintptr(i6)*4))))
goto __872
__872:
i6++
pMem4 += 56
goto __871
goto __873
__873:
;
goto __9
__165:
pOut = out2Prerelease(tls, p, pOp)
eNew = (*Op)(unsafe.Pointer(pOp)).Fp3
pBt1 = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*32)).FpBt
pPager = Xsqlite3BtreePager(tls, pBt1)
eOld = Xsqlite3PagerGetJournalMode(tls, pPager)
if !(eNew == -1) {
goto __874
}
eNew = eOld
__874:
;
if !!(Xsqlite3PagerOkToChangeJournalMode(tls, pPager) != 0) {
goto __875
}
eNew = eOld
__875:
;
zFilename = Xsqlite3PagerFilename(tls, pPager, 1)
if !(eNew == PAGER_JOURNALMODE_WAL &&
(Xsqlite3Strlen30(tls, zFilename) == 0 ||
!(Xsqlite3PagerWalSupported(tls, pPager) != 0))) {
goto __876
}
eNew = eOld
__876:
;
if !(eNew != eOld &&
(eOld == PAGER_JOURNALMODE_WAL || eNew == PAGER_JOURNALMODE_WAL)) {
goto __877
}
if !(!(int32((*Sqlite3)(unsafe.Pointer(db)).FautoCommit) != 0) || (*Sqlite3)(unsafe.Pointer(db)).FnVdbeRead > 1) {
goto __878
}
rc = SQLITE_ERROR
Xsqlite3VdbeError(tls, p,
ts+6380,
libc.VaList(bp+136, func() uintptr {
if eNew == PAGER_JOURNALMODE_WAL {
return ts + 6432
}
return ts + 6437
}()))
goto abort_due_to_error
goto __879
__878:
if !(eOld == PAGER_JOURNALMODE_WAL) {
goto __880
}
rc = Xsqlite3PagerCloseWal(tls, pPager, db)
if !(rc == SQLITE_OK) {
goto __882
}
Xsqlite3PagerSetJournalMode(tls, pPager, eNew)
__882:
;
goto __881
__880:
if !(eOld == PAGER_JOURNALMODE_MEMORY) {
goto __883
}
Xsqlite3PagerSetJournalMode(tls, pPager, PAGER_JOURNALMODE_OFF)
__883:
;
__881:
;
if !(rc == SQLITE_OK) {
goto __884
}
rc = Xsqlite3BtreeSetVersion(tls, pBt1, func() int32 {
if eNew == PAGER_JOURNALMODE_WAL {
return 2
}
return 1
}())
__884:
;
__879:
;
__877:
;
if !(rc != 0) {
goto __885
}
eNew = eOld
__885:
;
eNew = Xsqlite3PagerSetJournalMode(tls, pPager, eNew)
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(MEM_Str | MEM_Static | MEM_Term)
(*Mem)(unsafe.Pointer(pOut)).Fz = Xsqlite3JournalModename(tls, eNew)
(*Mem)(unsafe.Pointer(pOut)).Fn = Xsqlite3Strlen30(tls, (*Mem)(unsafe.Pointer(pOut)).Fz)
(*Mem)(unsafe.Pointer(pOut)).Fenc = U8(SQLITE_UTF8)
Xsqlite3VdbeChangeEncoding(tls, pOut, int32(encoding))
if !(rc != 0) {
goto __886
}
goto abort_due_to_error
__886:
;
goto __9
__166:
;
rc = Xsqlite3RunVacuum(tls, p+168, db, (*Op)(unsafe.Pointer(pOp)).Fp1,
func() uintptr {
if (*Op)(unsafe.Pointer(pOp)).Fp2 != 0 {
return aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56
}
return uintptr(0)
}())
if !(rc != 0) {
goto __887
}
goto abort_due_to_error
__887:
;
goto __9
__167:
;
pBt2 = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*32)).FpBt
rc = Xsqlite3BtreeIncrVacuum(tls, pBt2)
if !(rc != 0) {
goto __888
}
if !(rc != SQLITE_DONE) {
goto __889
}
goto abort_due_to_error
__889:
;
rc = SQLITE_OK
goto jump_to_p2
__888:
;
goto __9
__168:
;
if !!((*Op)(unsafe.Pointer(pOp)).Fp1 != 0) {
goto __890
}
Xsqlite3ExpirePreparedStatements(tls, db, (*Op)(unsafe.Pointer(pOp)).Fp2)
goto __891
__890:
libc.SetBitFieldPtr8Uint32(p+200, Bft((*Op)(unsafe.Pointer(pOp)).Fp2+1), 0, 0x3)
__891:
;
goto __9
__169:
;
pC30 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
Xsqlite3BtreeCursorPin(tls, *(*uintptr)(unsafe.Pointer(pC30 + 48)))
goto __9
__170:
;
pC31 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
Xsqlite3BtreeCursorUnpin(tls, *(*uintptr)(unsafe.Pointer(pC31 + 48)))
goto __9
__171:
isWriteLock = U8((*Op)(unsafe.Pointer(pOp)).Fp3)
if !(isWriteLock != 0 || uint64(0) == (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_ReadUncommit)) {
goto __892
}
p13 = (*Op)(unsafe.Pointer(pOp)).Fp1
rc = Xsqlite3BtreeLockTable(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(p13)*32)).FpBt, (*Op)(unsafe.Pointer(pOp)).Fp2, isWriteLock)
if !(rc != 0) {
goto __893
}
if !(rc&0xFF == SQLITE_LOCKED) {
goto __894
}
z1 = *(*uintptr)(unsafe.Pointer(pOp + 16))
Xsqlite3VdbeError(tls, p, ts+6444, libc.VaList(bp+144, z1))
__894:
;
goto abort_due_to_error
__893:
;
__892:
;
goto __9
__172:
pVTab = *(*uintptr)(unsafe.Pointer(pOp + 16))
rc = Xsqlite3VtabBegin(tls, db, pVTab)
if !(pVTab != 0) {
goto __895
}
Xsqlite3VtabImportErrmsg(tls, p, (*VTable)(unsafe.Pointer(pVTab)).FpVtab)
__895:
;
if !(rc != 0) {
goto __896
}
goto abort_due_to_error
__896:
;
goto __9
__173:
libc.X__builtin___memset_chk(tls, bp+920, 0, uint64(unsafe.Sizeof(Mem{})), libc.X__builtin_object_size(tls, bp+920, 0))
(*Mem)(unsafe.Pointer(bp + 920)).Fdb = db
rc = Xsqlite3VdbeMemCopy(tls, bp+920, aMem+uintptr((*Op)(unsafe.Pointer(pOp)).Fp2)*56)
zTab = Xsqlite3_value_text(tls, bp+920)
if !(zTab != 0) {
goto __897
}
rc = Xsqlite3VtabCallCreate(tls, db, (*Op)(unsafe.Pointer(pOp)).Fp1, zTab, p+168)
__897:
;
Xsqlite3VdbeMemRelease(tls, bp+920)
if !(rc != 0) {
goto __898
}
goto abort_due_to_error
__898:
;
goto __9
__174:
(*Sqlite3)(unsafe.Pointer(db)).FnVDestroy++
rc = Xsqlite3VtabCallDestroy(tls, db, (*Op)(unsafe.Pointer(pOp)).Fp1, *(*uintptr)(unsafe.Pointer(pOp + 16)))
(*Sqlite3)(unsafe.Pointer(db)).FnVDestroy--
if !(rc != 0) {
goto __899
}
goto abort_due_to_error
__899:
;
goto __9
__175:
;
pCur3 = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 976)) = uintptr(0)
pVtab1 = (*VTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pOp + 16)))).FpVtab
if !(pVtab1 == uintptr(0) || (*Sqlite3_vtab)(unsafe.Pointer(pVtab1)).FpModule == uintptr(0)) {
goto __900
}
rc = SQLITE_LOCKED
goto abort_due_to_error
__900:
;
pModule1 = (*Sqlite3_vtab)(unsafe.Pointer(pVtab1)).FpModule
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer(pModule1)).FxOpen})).f(tls, pVtab1, bp+976)
Xsqlite3VtabImportErrmsg(tls, p, pVtab1)
if !(rc != 0) {
goto __901
}
goto abort_due_to_error
__901:
;
(*Sqlite3_vtab_cursor)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 976)))).FpVtab = pVtab1
pCur3 = allocateCursor(tls, p, (*Op)(unsafe.Pointer(pOp)).Fp1, 0, uint8(CURTYPE_VTAB))
if !(pCur3 != 0) {
goto __902
}
*(*uintptr)(unsafe.Pointer(pCur3 + 48)) = *(*uintptr)(unsafe.Pointer(bp + 976))
(*Sqlite3_vtab)(unsafe.Pointer(pVtab1)).FnRef++
goto __903
__902:
;
(*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer(pModule1)).FxClose})).f(tls, *(*uintptr)(unsafe.Pointer(bp + 976)))
goto no_mem
__903:
;
goto __9
__176:
pC32 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
pRhs = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(ValueList{})))
if !(pRhs == uintptr(0)) {
goto __904
}
goto no_mem
__904:
;
(*ValueList)(unsafe.Pointer(pRhs)).FpCsr = *(*uintptr)(unsafe.Pointer(pC32 + 48))
(*ValueList)(unsafe.Pointer(pRhs)).FpOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
pOut = out2Prerelease(tls, p, pOp)
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(MEM_Null)
Xsqlite3VdbeMemSetPointer(tls, pOut, pRhs, ts+6473, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3VdbeValueListFree})))
goto __9
__177:
pQuery = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
pArgc = pQuery + 1*56
pCur4 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
pVCur1 = *(*uintptr)(unsafe.Pointer(pCur4 + 48))
pVtab2 = (*Sqlite3_vtab_cursor)(unsafe.Pointer(pVCur1)).FpVtab
pModule2 = (*Sqlite3_vtab)(unsafe.Pointer(pVtab2)).FpModule
nArg = int32(*(*I64)(unsafe.Pointer(pArgc)))
iQuery = int32(*(*I64)(unsafe.Pointer(pQuery)))
apArg = (*Vdbe)(unsafe.Pointer(p)).FapArg
i7 = 0
__905:
if !(i7 < nArg) {
goto __907
}
*(*uintptr)(unsafe.Pointer(apArg + uintptr(i7)*8)) = pArgc + uintptr(i7+1)*56
goto __906
__906:
i7++
goto __905
goto __907
__907:
;
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer(pModule2)).FxFilter})).f(tls, pVCur1, iQuery, *(*uintptr)(unsafe.Pointer(pOp + 16)), nArg, apArg)
Xsqlite3VtabImportErrmsg(tls, p, pVtab2)
if !(rc != 0) {
goto __908
}
goto abort_due_to_error
__908:
;
res12 = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer(pModule2)).FxEof})).f(tls, pVCur1)
(*VdbeCursor)(unsafe.Pointer(pCur4)).FnullRow = U8(0)
if !(res12 != 0) {
goto __909
}
goto jump_to_p2
__909:
;
goto __9
__178:
pCur5 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
pDest2 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
if !((*VdbeCursor)(unsafe.Pointer(pCur5)).FnullRow != 0) {
goto __910
}
Xsqlite3VdbeMemSetNull(tls, pDest2)
goto __9
__910:
;
pVtab3 = (*Sqlite3_vtab_cursor)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pCur5 + 48)))).FpVtab
pModule3 = (*Sqlite3_vtab)(unsafe.Pointer(pVtab3)).FpModule
libc.X__builtin___memset_chk(tls, bp+984, 0, uint64(unsafe.Sizeof(Sqlite3_context{})), libc.X__builtin_object_size(tls, bp+984, 0))
(*Sqlite3_context)(unsafe.Pointer(bp + 984)).FpOut = pDest2
(*Sqlite3_context)(unsafe.Pointer(bp + 984)).Fenc = encoding
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp5)&OPFLAG_NOCHNG != 0) {
goto __911
}
Xsqlite3VdbeMemSetNull(tls, pDest2)
(*Mem)(unsafe.Pointer(pDest2)).Fflags = U16(MEM_Null | MEM_Zero)
*(*int32)(unsafe.Pointer(pDest2)) = 0
goto __912
__911:
(*Mem)(unsafe.Pointer(pDest2)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pDest2)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Null)
__912:
;
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer(pModule3)).FxColumn})).f(tls, *(*uintptr)(unsafe.Pointer(pCur5 + 48)), bp+984, (*Op)(unsafe.Pointer(pOp)).Fp2)
Xsqlite3VtabImportErrmsg(tls, p, pVtab3)
if !((*Sqlite3_context)(unsafe.Pointer(bp+984)).FisError > 0) {
goto __913
}
Xsqlite3VdbeError(tls, p, ts+3658, libc.VaList(bp+152, Xsqlite3_value_text(tls, pDest2)))
rc = (*Sqlite3_context)(unsafe.Pointer(bp + 984)).FisError
__913:
;
Xsqlite3VdbeChangeEncoding(tls, pDest2, int32(encoding))
if !(rc != 0) {
goto __914
}
goto abort_due_to_error
__914:
;
goto __9
__179:
pCur6 = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FapCsr + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*8))
if !((*VdbeCursor)(unsafe.Pointer(pCur6)).FnullRow != 0) {
goto __915
}
goto __9
__915:
;
pVtab4 = (*Sqlite3_vtab_cursor)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pCur6 + 48)))).FpVtab
pModule4 = (*Sqlite3_vtab)(unsafe.Pointer(pVtab4)).FpModule
rc = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer(pModule4)).FxNext})).f(tls, *(*uintptr)(unsafe.Pointer(pCur6 + 48)))
Xsqlite3VtabImportErrmsg(tls, p, pVtab4)
if !(rc != 0) {
goto __916
}
goto abort_due_to_error
__916:
;
res13 = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer(pModule4)).FxEof})).f(tls, *(*uintptr)(unsafe.Pointer(pCur6 + 48)))
if !!(res13 != 0) {
goto __917
}
goto jump_to_p2_and_check_for_interrupt
__917:
;
goto check_for_interrupt
__180:
isLegacy = int32((*Sqlite3)(unsafe.Pointer(db)).Fflags & uint64(SQLITE_LegacyAlter))
*(*U64)(unsafe.Pointer(db + 48)) |= uint64(SQLITE_LegacyAlter)
pVtab5 = (*VTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pOp + 16)))).FpVtab
pName = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
rc = Xsqlite3VdbeChangeEncoding(tls, pName, SQLITE_UTF8)
if !(rc != 0) {
goto __918
}
goto abort_due_to_error
__918:
;
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer((*Sqlite3_vtab)(unsafe.Pointer(pVtab5)).FpModule)).FxRename})).f(tls, pVtab5, (*Mem)(unsafe.Pointer(pName)).Fz)
if !(isLegacy == 0) {
goto __919
}
*(*U64)(unsafe.Pointer(db + 48)) &= libc.CplUint64(uint64(SQLITE_LegacyAlter))
__919:
;
Xsqlite3VtabImportErrmsg(tls, p, pVtab5)
libc.SetBitFieldPtr8Uint32(p+200, Bft(0), 0, 0x3)
if !(rc != 0) {
goto __920
}
goto abort_due_to_error
__920:
;
goto __9
__181:
*(*Sqlite_int64)(unsafe.Pointer(bp + 1040)) = int64(0)
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __921
}
goto no_mem
__921:
;
pVtab6 = (*VTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pOp + 16)))).FpVtab
if !(pVtab6 == uintptr(0) || (*Sqlite3_vtab)(unsafe.Pointer(pVtab6)).FpModule == uintptr(0)) {
goto __922
}
rc = SQLITE_LOCKED
goto abort_due_to_error
__922:
;
pModule5 = (*Sqlite3_vtab)(unsafe.Pointer(pVtab6)).FpModule
nArg1 = (*Op)(unsafe.Pointer(pOp)).Fp2
if !((*Sqlite3_module)(unsafe.Pointer(pModule5)).FxUpdate != 0) {
goto __923
}
vtabOnConflict = (*Sqlite3)(unsafe.Pointer(db)).FvtabOnConflict
apArg1 = (*Vdbe)(unsafe.Pointer(p)).FapArg
pX1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
i8 = 0
__924:
if !(i8 < nArg1) {
goto __926
}
*(*uintptr)(unsafe.Pointer(apArg1 + uintptr(i8)*8)) = pX1
pX1 += 56
goto __925
__925:
i8++
goto __924
goto __926
__926:
;
(*Sqlite3)(unsafe.Pointer(db)).FvtabOnConflict = U8((*Op)(unsafe.Pointer(pOp)).Fp5)
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer(pModule5)).FxUpdate})).f(tls, pVtab6, nArg1, apArg1, bp+1040)
(*Sqlite3)(unsafe.Pointer(db)).FvtabOnConflict = vtabOnConflict
Xsqlite3VtabImportErrmsg(tls, p, pVtab6)
if !(rc == SQLITE_OK && (*Op)(unsafe.Pointer(pOp)).Fp1 != 0) {
goto __927
}
(*Sqlite3)(unsafe.Pointer(db)).FlastRowid = *(*Sqlite_int64)(unsafe.Pointer(bp + 1040))
__927:
;
if !(rc&0xff == SQLITE_CONSTRAINT && (*VTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pOp + 16)))).FbConstraint != 0) {
goto __928
}
if !(int32((*Op)(unsafe.Pointer(pOp)).Fp5) == OE_Ignore) {
goto __930
}
rc = SQLITE_OK
goto __931
__930:
(*Vdbe)(unsafe.Pointer(p)).FerrorAction = func() uint8 {
if int32((*Op)(unsafe.Pointer(pOp)).Fp5) == OE_Replace {
return uint8(OE_Abort)
}
return uint8((*Op)(unsafe.Pointer(pOp)).Fp5)
}()
__931:
;
goto __929
__928:
(*Vdbe)(unsafe.Pointer(p)).FnChange++
__929:
;
if !(rc != 0) {
goto __932
}
goto abort_due_to_error
__932:
;
__923:
;
goto __9
__182:
pOut = out2Prerelease(tls, p, pOp)
*(*I64)(unsafe.Pointer(pOut)) = I64(Xsqlite3BtreeLastPage(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*32)).FpBt))
goto __9
__183:
pOut = out2Prerelease(tls, p, pOp)
pBt3 = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*32)).FpBt
newMax = uint32(0)
if !((*Op)(unsafe.Pointer(pOp)).Fp3 != 0) {
goto __933
}
newMax = Xsqlite3BtreeLastPage(tls, pBt3)
if !(newMax < uint32((*Op)(unsafe.Pointer(pOp)).Fp3)) {
goto __934
}
newMax = uint32((*Op)(unsafe.Pointer(pOp)).Fp3)
__934:
;
__933:
;
*(*I64)(unsafe.Pointer(pOut)) = I64(Xsqlite3BtreeMaxPageCount(tls, pBt3, newMax))
goto __9
__184:
__185:
;
pCtx2 = *(*uintptr)(unsafe.Pointer(pOp + 16))
pOut = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp3)*56
if !((*Sqlite3_context)(unsafe.Pointer(pCtx2)).FpOut != pOut) {
goto __935
}
(*Sqlite3_context)(unsafe.Pointer(pCtx2)).FpVdbe = p
(*Sqlite3_context)(unsafe.Pointer(pCtx2)).FpOut = pOut
(*Sqlite3_context)(unsafe.Pointer(pCtx2)).Fenc = encoding
i9 = int32((*Sqlite3_context)(unsafe.Pointer(pCtx2)).Fargc) - 1
__936:
if !(i9 >= 0) {
goto __938
}
*(*uintptr)(unsafe.Pointer(pCtx2 + 48 + uintptr(i9)*8)) = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp2+i9)*56
goto __937
__937:
i9--
goto __936
goto __938
__938:
;
__935:
;
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Null)
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*FuncDef)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(pCtx2)).FpFunc)).FxSFunc})).f(tls, pCtx2, int32((*Sqlite3_context)(unsafe.Pointer(pCtx2)).Fargc), pCtx2+48)
if !((*Sqlite3_context)(unsafe.Pointer(pCtx2)).FisError != 0) {
goto __939
}
if !((*Sqlite3_context)(unsafe.Pointer(pCtx2)).FisError > 0) {
goto __940
}
Xsqlite3VdbeError(tls, p, ts+3658, libc.VaList(bp+160, Xsqlite3_value_text(tls, pOut)))
rc = (*Sqlite3_context)(unsafe.Pointer(pCtx2)).FisError
__940:
;
Xsqlite3VdbeDeleteAuxData(tls, db, p+296, (*Sqlite3_context)(unsafe.Pointer(pCtx2)).FiOp, (*Op)(unsafe.Pointer(pOp)).Fp1)
(*Sqlite3_context)(unsafe.Pointer(pCtx2)).FisError = 0
if !(rc != 0) {
goto __941
}
goto abort_due_to_error
__941:
;
__939:
;
goto __9
__186:
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
*(*U16)(unsafe.Pointer(pIn1 + 20)) &= libc.Uint16FromInt32(libc.CplInt32(MEM_Subtype))
goto __9
__187:
;
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
h = filterHash(tls, aMem, pOp)
h = h % U64((*Mem)(unsafe.Pointer(pIn1)).Fn)
*(*int8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pIn1)).Fz + uintptr(h/uint64(8)))) |= int8(int32(1) << (h & uint64(7)))
goto __9
__188:
;
pIn1 = aMem + uintptr((*Op)(unsafe.Pointer(pOp)).Fp1)*56
h1 = filterHash(tls, aMem, pOp)
h1 = h1 % U64((*Mem)(unsafe.Pointer(pIn1)).Fn)
if !(int32(*(*int8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pIn1)).Fz + uintptr(h1/uint64(8)))))&(int32(1)<<(h1&uint64(7))) == 0) {
goto __942
}
*(*U32)(unsafe.Pointer(p + 212 + 8*4))++
goto jump_to_p2
goto __943
__942:
*(*U32)(unsafe.Pointer(p + 212 + 7*4))++
__943:
;
goto __9
__189:
__190:
;
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmTrace)&(SQLITE_TRACE_STMT|SQLITE_TRACE_LEGACY) != 0 &&
int32((*Vdbe)(unsafe.Pointer(p)).FminWriteFileFormat) != 254 &&
libc.AssignUintptr(&zTrace, func() uintptr {
if *(*uintptr)(unsafe.Pointer(pOp + 16)) != 0 {
return *(*uintptr)(unsafe.Pointer(pOp + 16))
}
return (*Vdbe)(unsafe.Pointer(p)).FzSql
}()) != uintptr(0)) {
goto __944
}
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmTrace)&SQLITE_TRACE_LEGACY != 0) {
goto __945
}
z2 = Xsqlite3VdbeExpandSql(tls, p, zTrace)
(*struct {
f func(*libc.TLS, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{*(*uintptr)(unsafe.Pointer(db + 248))})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpTraceArg, z2)
Xsqlite3_free(tls, z2)
goto __946
__945:
if !((*Sqlite3)(unsafe.Pointer(db)).FnVdbeExec > 1) {
goto __947
}
z3 = Xsqlite3MPrintf(tls, db, ts+6483, libc.VaList(bp+168, zTrace))
(*struct {
f func(*libc.TLS, U32, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{*(*uintptr)(unsafe.Pointer(db + 248))})).f(tls, uint32(SQLITE_TRACE_STMT), (*Sqlite3)(unsafe.Pointer(db)).FpTraceArg, p, z3)
Xsqlite3DbFree(tls, db, z3)
goto __948
__947:
(*struct {
f func(*libc.TLS, U32, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{*(*uintptr)(unsafe.Pointer(db + 248))})).f(tls, uint32(SQLITE_TRACE_STMT), (*Sqlite3)(unsafe.Pointer(db)).FpTraceArg, p, zTrace)
__948:
;
__946:
;
__944:
;
if !((*Op)(unsafe.Pointer(pOp)).Fp1 >= Xsqlite3Config.FiOnceResetThreshold) {
goto __949
}
if !(int32((*Op)(unsafe.Pointer(pOp)).Fopcode) == OP_Trace) {
goto __950
}
goto __9
__950:
;
i10 = 1
__951:
if !(i10 < (*Vdbe)(unsafe.Pointer(p)).FnOp) {
goto __953
}
if !(int32((*Op)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FaOp+uintptr(i10)*24)).Fopcode) == OP_Once) {
goto __954
}
(*Op)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(p)).FaOp + uintptr(i10)*24)).Fp1 = 0
__954:
;
goto __952
__952:
i10++
goto __951
goto __953
__953:
;
(*Op)(unsafe.Pointer(pOp)).Fp1 = 0
__949:
;
(*Op)(unsafe.Pointer(pOp)).Fp1++
*(*U32)(unsafe.Pointer(p + 212 + 6*4))++
goto jump_to_p2
__191:
;
goto __9
__9:
;
goto __7
__7:
pOp += 24
goto __6
goto __8
__8:
;
abort_due_to_error:
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __955
}
rc = SQLITE_NOMEM
goto __956
__955:
if !(rc == SQLITE_IOERR|int32(33)<<8) {
goto __957
}
rc = Xsqlite3CorruptError(tls, 99031)
__957:
;
__956:
;
if !((*Vdbe)(unsafe.Pointer(p)).FzErrMsg == uintptr(0) && rc != SQLITE_IOERR|int32(12)<<8) {
goto __958
}
Xsqlite3VdbeError(tls, p, ts+3658, libc.VaList(bp+176, Xsqlite3ErrStr(tls, rc)))
__958:
;
(*Vdbe)(unsafe.Pointer(p)).Frc = rc
Xsqlite3SystemError(tls, db, rc)
Xsqlite3_log(tls, rc, ts+6489,
libc.VaList(bp+184, int32((int64(pOp)-int64(aOp))/24), (*Vdbe)(unsafe.Pointer(p)).FzSql, (*Vdbe)(unsafe.Pointer(p)).FzErrMsg))
if !(int32((*Vdbe)(unsafe.Pointer(p)).FeVdbeState) == VDBE_RUN_STATE) {
goto __959
}
Xsqlite3VdbeHalt(tls, p)
__959:
;
if !(rc == SQLITE_IOERR|int32(12)<<8) {
goto __960
}
Xsqlite3OomFault(tls, db)
__960:
;
if !(rc == SQLITE_CORRUPT && int32((*Sqlite3)(unsafe.Pointer(db)).FautoCommit) == 0) {
goto __961
}
*(*U64)(unsafe.Pointer(db + 48)) |= uint64(0x00002) << 32
__961:
;
rc = SQLITE_ERROR
if !(int32(resetSchemaOnFault) > 0) {
goto __962
}
Xsqlite3ResetOneSchema(tls, db, int32(resetSchemaOnFault)-1)
__962:
;
vdbe_return:
__963:
if !(nVmStep >= nProgressLimit && (*Sqlite3)(unsafe.Pointer(db)).FxProgress != uintptr(0)) {
goto __964
}
nProgressLimit = nProgressLimit + U64((*Sqlite3)(unsafe.Pointer(db)).FnProgressOps)
if !((*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxProgress})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpProgressArg) != 0) {
goto __965
}
nProgressLimit = uint64(0xffffffff) | uint64(0xffffffff)<<32
rc = SQLITE_INTERRUPT
goto abort_due_to_error
__965:
;
goto __963
__964:
;
*(*U32)(unsafe.Pointer(p + 212 + 4*4)) += U32(int32(nVmStep))
if !((*Vdbe)(unsafe.Pointer(p)).FlockMask != YDbMask(0)) {
goto __966
}
Xsqlite3VdbeLeave(tls, p)
__966:
;
return rc
too_big:
Xsqlite3VdbeError(tls, p, ts+5737, 0)
rc = SQLITE_TOOBIG
goto abort_due_to_error
no_mem:
Xsqlite3OomFault(tls, db)
Xsqlite3VdbeError(tls, p, ts+1483, 0)
rc = SQLITE_NOMEM
goto abort_due_to_error
abort_due_to_interrupt:
;
rc = SQLITE_INTERRUPT
goto abort_due_to_error
return int32(0)
}
var azType = [4]uintptr{ts + 6521, ts + 6530, ts + 6537,
ts + 6543}
var and_logic = [9]uint8{uint8(0), uint8(0), uint8(0), uint8(0), uint8(1), uint8(2), uint8(0), uint8(2), uint8(2)}
var or_logic = [9]uint8{uint8(0), uint8(1), uint8(2), uint8(1), uint8(1), uint8(1), uint8(2), uint8(1), uint8(2)}
var aMask = [12]uint8{
uint8(0x10), uint8(0x01), uint8(0x01), uint8(0x01), uint8(0x01), uint8(0x01), uint8(0x01), uint8(0x2),
uint8(0x01), uint8(0x01), uint8(0x10), uint8(0x10),
}
var aFlag1 = [2]U16{U16(MEM_Blob), U16(MEM_Str | MEM_Term)}
var vfsFlags int32 = SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE | SQLITE_OPEN_EXCLUSIVE | SQLITE_OPEN_DELETEONCLOSE | SQLITE_OPEN_TRANSIENT_DB
// Valid sqlite3_blob* handles point to Incrblob structures.
type Incrblob1 = struct {
FnByte int32
FiOffset int32
FiCol U16
F__ccgo_pad1 [6]byte
FpCsr uintptr
FpStmt uintptr
Fdb uintptr
FzDb uintptr
FpTab uintptr
}
// Valid sqlite3_blob* handles point to Incrblob structures.
type Incrblob = Incrblob1
func blobSeekToRow(tls *libc.TLS, p uintptr, iRow Sqlite3_int64, pzErr uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var rc int32
var zErr uintptr = uintptr(0)
var v uintptr = (*Incrblob)(unsafe.Pointer(p)).FpStmt
(*Mem)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(v)).FaMem + 1*56)).Fflags = U16(MEM_Int)
*(*I64)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(v)).FaMem + 1*56)) = iRow
if (*Vdbe)(unsafe.Pointer(v)).Fpc > 4 {
(*Vdbe)(unsafe.Pointer(v)).Fpc = 4
rc = Xsqlite3VdbeExec(tls, v)
} else {
rc = Xsqlite3_step(tls, (*Incrblob)(unsafe.Pointer(p)).FpStmt)
}
if rc == SQLITE_ROW {
var pC uintptr = *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(v)).FapCsr))
var type1 U32
if int32((*VdbeCursor)(unsafe.Pointer(pC)).FnHdrParsed) > int32((*Incrblob)(unsafe.Pointer(p)).FiCol) {
type1 = *(*U32)(unsafe.Pointer(pC + 112 + uintptr((*Incrblob)(unsafe.Pointer(p)).FiCol)*4))
} else {
type1 = uint32(0)
}
if type1 < U32(12) {
zErr = Xsqlite3MPrintf(tls, (*Incrblob)(unsafe.Pointer(p)).Fdb, ts+6555,
libc.VaList(bp, func() uintptr {
if type1 == U32(0) {
return ts + 6584
}
return func() uintptr {
if type1 == U32(7) {
return ts + 6589
}
return ts + 6594
}()
}()))
rc = SQLITE_ERROR
Xsqlite3_finalize(tls, (*Incrblob)(unsafe.Pointer(p)).FpStmt)
(*Incrblob)(unsafe.Pointer(p)).FpStmt = uintptr(0)
} else {
(*Incrblob)(unsafe.Pointer(p)).FiOffset = int32(*(*U32)(unsafe.Pointer(pC + 112 + uintptr(int32((*Incrblob)(unsafe.Pointer(p)).FiCol)+int32((*VdbeCursor)(unsafe.Pointer(pC)).FnField))*4)))
(*Incrblob)(unsafe.Pointer(p)).FnByte = int32(Xsqlite3VdbeSerialTypeLen(tls, type1))
(*Incrblob)(unsafe.Pointer(p)).FpCsr = *(*uintptr)(unsafe.Pointer(pC + 48))
Xsqlite3BtreeIncrblobCursor(tls, (*Incrblob)(unsafe.Pointer(p)).FpCsr)
}
}
if rc == SQLITE_ROW {
rc = SQLITE_OK
} else if (*Incrblob)(unsafe.Pointer(p)).FpStmt != 0 {
rc = Xsqlite3_finalize(tls, (*Incrblob)(unsafe.Pointer(p)).FpStmt)
(*Incrblob)(unsafe.Pointer(p)).FpStmt = uintptr(0)
if rc == SQLITE_OK {
zErr = Xsqlite3MPrintf(tls, (*Incrblob)(unsafe.Pointer(p)).Fdb, ts+6602, libc.VaList(bp+8, iRow))
rc = SQLITE_ERROR
} else {
zErr = Xsqlite3MPrintf(tls, (*Incrblob)(unsafe.Pointer(p)).Fdb, ts+3658, libc.VaList(bp+16, Xsqlite3_errmsg(tls, (*Incrblob)(unsafe.Pointer(p)).Fdb)))
}
}
*(*uintptr)(unsafe.Pointer(pzErr)) = zErr
return rc
}
// Open a blob handle.
func Xsqlite3_blob_open(tls *libc.TLS, db uintptr, zDb uintptr, zTable uintptr, zColumn uintptr, iRow Sqlite_int64, wrFlag int32, ppBlob uintptr) int32 {
bp := tls.Alloc(480)
defer tls.Free(480)
var nAttempt int32
var iCol int32
var rc int32
var pTab uintptr
var pBlob uintptr
var j int32
var pFKey uintptr
var j1 int32
var zFault uintptr
var pIdx uintptr
var v uintptr
var iDb int32
var aOp uintptr
nAttempt = 0
rc = SQLITE_OK
*(*uintptr)(unsafe.Pointer(bp + 472)) = uintptr(0)
pBlob = uintptr(0)
*(*uintptr)(unsafe.Pointer(ppBlob)) = uintptr(0)
wrFlag = libc.BoolInt32(!!(wrFlag != 0))
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
pBlob = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Incrblob{})))
__1:
if !(1 != 0) {
goto __2
}
Xsqlite3ParseObjectInit(tls, bp+48, db)
if !!(pBlob != 0) {
goto __3
}
goto blob_open_out
__3:
;
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 472)))
*(*uintptr)(unsafe.Pointer(bp + 472)) = uintptr(0)
Xsqlite3BtreeEnterAll(tls, db)
pTab = Xsqlite3LocateTable(tls, bp+48, uint32(0), zTable, zDb)
if !(pTab != 0 && int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __4
}
pTab = uintptr(0)
Xsqlite3ErrorMsg(tls, bp+48, ts+6622, libc.VaList(bp, zTable))
__4:
;
if !(pTab != 0 && !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0))) {
goto __5
}
pTab = uintptr(0)
Xsqlite3ErrorMsg(tls, bp+48, ts+6652, libc.VaList(bp+8, zTable))
__5:
;
if !(pTab != 0 && int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW) {
goto __6
}
pTab = uintptr(0)
Xsqlite3ErrorMsg(tls, bp+48, ts+6688, libc.VaList(bp+16, zTable))
__6:
;
if !!(pTab != 0) {
goto __7
}
if !((*Parse)(unsafe.Pointer(bp+48)).FzErrMsg != 0) {
goto __8
}
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 472)))
*(*uintptr)(unsafe.Pointer(bp + 472)) = (*Parse)(unsafe.Pointer(bp + 48)).FzErrMsg
(*Parse)(unsafe.Pointer(bp + 48)).FzErrMsg = uintptr(0)
__8:
;
rc = SQLITE_ERROR
Xsqlite3BtreeLeaveAll(tls, db)
goto blob_open_out
__7:
;
(*Incrblob)(unsafe.Pointer(pBlob)).FpTab = pTab
(*Incrblob)(unsafe.Pointer(pBlob)).FzDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema))*32)).FzDbSName
iCol = 0
__9:
if !(iCol < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __11
}
if !(Xsqlite3StrICmp(tls, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(iCol)*24)).FzCnName, zColumn) == 0) {
goto __12
}
goto __11
__12:
;
goto __10
__10:
iCol++
goto __9
goto __11
__11:
;
if !(iCol == int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __13
}
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 472)))
*(*uintptr)(unsafe.Pointer(bp + 472)) = Xsqlite3MPrintf(tls, db, ts+6709, libc.VaList(bp+24, zColumn))
rc = SQLITE_ERROR
Xsqlite3BtreeLeaveAll(tls, db)
goto blob_open_out
__13:
;
if !(wrFlag != 0) {
goto __14
}
zFault = uintptr(0)
if !((*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_ForeignKeys) != 0) {
goto __15
}
pFKey = *(*uintptr)(unsafe.Pointer(pTab + 64 + 8))
__16:
if !(pFKey != 0) {
goto __18
}
j = 0
__19:
if !(j < (*FKey)(unsafe.Pointer(pFKey)).FnCol) {
goto __21
}
if !((*sColMap)(unsafe.Pointer(pFKey+64+uintptr(j)*16)).FiFrom == iCol) {
goto __22
}
zFault = ts + 6730
__22:
;
goto __20
__20:
j++
goto __19
goto __21
__21:
;
goto __17
__17:
pFKey = (*FKey)(unsafe.Pointer(pFKey)).FpNextFrom
goto __16
goto __18
__18:
;
__15:
;
pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex
__23:
if !(pIdx != 0) {
goto __25
}
j1 = 0
__26:
if !(j1 < int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)) {
goto __28
}
if !(int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(j1)*2))) == iCol || int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(j1)*2))) == -2) {
goto __29
}
zFault = ts + 6742
__29:
;
goto __27
__27:
j1++
goto __26
goto __28
__28:
;
goto __24
__24:
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
goto __23
goto __25
__25:
;
if !(zFault != 0) {
goto __30
}
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 472)))
*(*uintptr)(unsafe.Pointer(bp + 472)) = Xsqlite3MPrintf(tls, db, ts+6750, libc.VaList(bp+32, zFault))
rc = SQLITE_ERROR
Xsqlite3BtreeLeaveAll(tls, db)
goto blob_open_out
__30:
;
__14:
;
(*Incrblob)(unsafe.Pointer(pBlob)).FpStmt = Xsqlite3VdbeCreate(tls, bp+48)
if !((*Incrblob)(unsafe.Pointer(pBlob)).FpStmt != 0) {
goto __31
}
v = (*Incrblob)(unsafe.Pointer(pBlob)).FpStmt
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
Xsqlite3VdbeAddOp4Int(tls, v, OP_Transaction, iDb, wrFlag,
(*Schema)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FpSchema)).Fschema_cookie,
(*Schema)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FpSchema)).FiGeneration)
Xsqlite3VdbeChangeP5(tls, v, uint16(1))
aOp = Xsqlite3VdbeAddOpList(tls, v, int32(uint64(unsafe.Sizeof(openBlob))/uint64(unsafe.Sizeof(VdbeOpList{}))), uintptr(unsafe.Pointer(&openBlob)), iLn)
Xsqlite3VdbeUsesBtree(tls, v, iDb)
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0) {
goto __32
}
(*VdbeOp)(unsafe.Pointer(aOp)).Fp1 = iDb
(*VdbeOp)(unsafe.Pointer(aOp)).Fp2 = int32((*Table)(unsafe.Pointer(pTab)).Ftnum)
(*VdbeOp)(unsafe.Pointer(aOp)).Fp3 = wrFlag
Xsqlite3VdbeChangeP4(tls, v, 2, (*Table)(unsafe.Pointer(pTab)).FzName, P4_TRANSIENT)
__32:
;
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0) {
goto __33
}
if !(wrFlag != 0) {
goto __34
}
(*VdbeOp)(unsafe.Pointer(aOp + 1*24)).Fopcode = U8(OP_OpenWrite)
__34:
;
(*VdbeOp)(unsafe.Pointer(aOp + 1*24)).Fp2 = int32((*Table)(unsafe.Pointer(pTab)).Ftnum)
(*VdbeOp)(unsafe.Pointer(aOp + 1*24)).Fp3 = iDb
(*VdbeOp)(unsafe.Pointer(aOp + 1*24)).Fp4type = int8(-3)
*(*int32)(unsafe.Pointer(aOp + 1*24 + 16)) = int32((*Table)(unsafe.Pointer(pTab)).FnCol) + 1
(*VdbeOp)(unsafe.Pointer(aOp + 3*24)).Fp2 = int32((*Table)(unsafe.Pointer(pTab)).FnCol)
(*Parse)(unsafe.Pointer(bp + 48)).FnVar = int16(0)
(*Parse)(unsafe.Pointer(bp + 48)).FnMem = 1
(*Parse)(unsafe.Pointer(bp + 48)).FnTab = 1
Xsqlite3VdbeMakeReady(tls, v, bp+48)
__33:
;
__31:
;
(*Incrblob)(unsafe.Pointer(pBlob)).FiCol = U16(iCol)
(*Incrblob)(unsafe.Pointer(pBlob)).Fdb = db
Xsqlite3BtreeLeaveAll(tls, db)
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __35
}
goto blob_open_out
__35:
;
rc = blobSeekToRow(tls, pBlob, iRow, bp+472)
if !(libc.PreIncInt32(&nAttempt, 1) >= SQLITE_MAX_SCHEMA_RETRY || rc != SQLITE_SCHEMA) {
goto __36
}
goto __2
__36:
;
Xsqlite3ParseObjectReset(tls, bp+48)
goto __1
__2:
;
blob_open_out:
if !(rc == SQLITE_OK && int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0) {
goto __37
}
*(*uintptr)(unsafe.Pointer(ppBlob)) = pBlob
goto __38
__37:
if !(pBlob != 0 && (*Incrblob)(unsafe.Pointer(pBlob)).FpStmt != 0) {
goto __39
}
Xsqlite3VdbeFinalize(tls, (*Incrblob)(unsafe.Pointer(pBlob)).FpStmt)
__39:
;
Xsqlite3DbFree(tls, db, pBlob)
__38:
;
Xsqlite3ErrorWithMsg(tls, db, rc, func() uintptr {
if *(*uintptr)(unsafe.Pointer(bp + 472)) != 0 {
return ts + 3658
}
return uintptr(0)
}(), libc.VaList(bp+40, *(*uintptr)(unsafe.Pointer(bp + 472))))
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 472)))
Xsqlite3ParseObjectReset(tls, bp+48)
rc = Xsqlite3ApiExit(tls, db, rc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
var iLn int32 = 0
var openBlob = [6]VdbeOpList{
{Fopcode: U8(OP_TableLock)},
{Fopcode: U8(OP_OpenRead)},
{Fopcode: U8(OP_NotExists), Fp2: int8(5), Fp3: int8(1)},
{Fopcode: U8(OP_Column), Fp3: int8(1)},
{Fopcode: U8(OP_ResultRow), Fp1: int8(1)},
{Fopcode: U8(OP_Halt)},
}
// Close a blob handle that was previously created using
// sqlite3_blob_open().
func Xsqlite3_blob_close(tls *libc.TLS, pBlob uintptr) int32 {
var p uintptr = pBlob
var rc int32
var db uintptr
if p != 0 {
var pStmt uintptr = (*Incrblob)(unsafe.Pointer(p)).FpStmt
db = (*Incrblob)(unsafe.Pointer(p)).Fdb
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
Xsqlite3DbFree(tls, db, p)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
rc = Xsqlite3_finalize(tls, pStmt)
} else {
rc = SQLITE_OK
}
return rc
}
func blobReadWrite(tls *libc.TLS, pBlob uintptr, z uintptr, n int32, iOffset int32, xCall uintptr) int32 {
var rc int32
var p uintptr = pBlob
var v uintptr
var db uintptr
if p == uintptr(0) {
return Xsqlite3MisuseError(tls, 99516)
}
db = (*Incrblob)(unsafe.Pointer(p)).Fdb
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
v = (*Incrblob)(unsafe.Pointer(p)).FpStmt
if n < 0 || iOffset < 0 || Sqlite3_int64(iOffset)+Sqlite3_int64(n) > Sqlite3_int64((*Incrblob)(unsafe.Pointer(p)).FnByte) {
rc = SQLITE_ERROR
} else if v == uintptr(0) {
rc = SQLITE_ABORT
} else {
Xsqlite3BtreeEnterCursor(tls, (*Incrblob)(unsafe.Pointer(p)).FpCsr)
if xCall == *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, U32, U32, uintptr) int32
}{Xsqlite3BtreePutData})) && (*Sqlite3)(unsafe.Pointer(db)).FxPreUpdateCallback != 0 {
var iKey Sqlite3_int64
iKey = Xsqlite3BtreeIntegerKey(tls, (*Incrblob)(unsafe.Pointer(p)).FpCsr)
Xsqlite3VdbePreUpdateHook(tls,
v, *(*uintptr)(unsafe.Pointer((*Vdbe)(unsafe.Pointer(v)).FapCsr)), SQLITE_DELETE, (*Incrblob)(unsafe.Pointer(p)).FzDb, (*Incrblob)(unsafe.Pointer(p)).FpTab, iKey, -1, int32((*Incrblob)(unsafe.Pointer(p)).FiCol))
}
rc = (*struct {
f func(*libc.TLS, uintptr, U32, U32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xCall})).f(tls, (*Incrblob)(unsafe.Pointer(p)).FpCsr, uint32(iOffset+(*Incrblob)(unsafe.Pointer(p)).FiOffset), uint32(n), z)
Xsqlite3BtreeLeaveCursor(tls, (*Incrblob)(unsafe.Pointer(p)).FpCsr)
if rc == SQLITE_ABORT {
Xsqlite3VdbeFinalize(tls, v)
(*Incrblob)(unsafe.Pointer(p)).FpStmt = uintptr(0)
} else {
(*Vdbe)(unsafe.Pointer(v)).Frc = rc
}
}
Xsqlite3Error(tls, db, rc)
rc = Xsqlite3ApiExit(tls, db, rc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Read data from a blob handle.
func Xsqlite3_blob_read(tls *libc.TLS, pBlob uintptr, z uintptr, n int32, iOffset int32) int32 {
return blobReadWrite(tls, pBlob, z, n, iOffset, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, U32, U32, uintptr) int32
}{Xsqlite3BtreePayloadChecked})))
}
// Write data to a blob handle.
func Xsqlite3_blob_write(tls *libc.TLS, pBlob uintptr, z uintptr, n int32, iOffset int32) int32 {
return blobReadWrite(tls, pBlob, z, n, iOffset, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, U32, U32, uintptr) int32
}{Xsqlite3BtreePutData})))
}
// Query a blob handle for the size of the data.
//
// The Incrblob.nByte field is fixed for the lifetime of the Incrblob
// so no mutex is required for access.
func Xsqlite3_blob_bytes(tls *libc.TLS, pBlob uintptr) int32 {
var p uintptr = pBlob
if p != 0 && (*Incrblob)(unsafe.Pointer(p)).FpStmt != 0 {
return (*Incrblob)(unsafe.Pointer(p)).FnByte
}
return 0
}
// Move an existing blob handle to point to a different row of the same
// database table.
//
// If an error occurs, or if the specified row does not exist or does not
// contain a blob or text value, then an error code is returned and the
// database handle error code and message set. If this happens, then all
// subsequent calls to sqlite3_blob_xxx() functions (except blob_close())
// immediately return SQLITE_ABORT.
func Xsqlite3_blob_reopen(tls *libc.TLS, pBlob uintptr, iRow Sqlite3_int64) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var rc int32
var p uintptr = pBlob
var db uintptr
if p == uintptr(0) {
return Xsqlite3MisuseError(tls, 99616)
}
db = (*Incrblob)(unsafe.Pointer(p)).Fdb
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if (*Incrblob)(unsafe.Pointer(p)).FpStmt == uintptr(0) {
rc = SQLITE_ABORT
} else {
(*Vdbe)(unsafe.Pointer((*Incrblob)(unsafe.Pointer(p)).FpStmt)).Frc = SQLITE_OK
rc = blobSeekToRow(tls, p, iRow, bp+8)
if rc != SQLITE_OK {
Xsqlite3ErrorWithMsg(tls, db, rc, func() uintptr {
if *(*uintptr)(unsafe.Pointer(bp + 8)) != 0 {
return ts + 3658
}
return uintptr(0)
}(), libc.VaList(bp, *(*uintptr)(unsafe.Pointer(bp + 8))))
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
}
rc = Xsqlite3ApiExit(tls, db, rc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Private objects used by the sorter
type MergeEngine1 = struct {
FnTree int32
F__ccgo_pad1 [4]byte
FpTask uintptr
FaTree uintptr
FaReadr uintptr
}
// Private objects used by the sorter
type MergeEngine = MergeEngine1
type PmaReader1 = struct {
FiReadOff I64
FiEof I64
FnAlloc int32
FnKey int32
FpFd uintptr
FaAlloc uintptr
FaKey uintptr
FaBuffer uintptr
FnBuffer int32
F__ccgo_pad1 [4]byte
FaMap uintptr
FpIncr uintptr
}
// Merge PMAs together
type PmaReader = PmaReader1
type PmaWriter1 = struct {
FeFWErr int32
F__ccgo_pad1 [4]byte
FaBuffer uintptr
FnBuffer int32
FiBufStart int32
FiBufEnd int32
F__ccgo_pad2 [4]byte
FiWriteOff I64
FpFd uintptr
}
// Incrementally read one PMA
type PmaWriter = PmaWriter1
type SorterRecord1 = struct {
FnVal int32
F__ccgo_pad1 [4]byte
Fu struct{ FpNext uintptr }
}
// Incrementally write one PMA
type SorterRecord = SorterRecord1
type SortSubtask1 = struct {
FpThread uintptr
FbDone int32
F__ccgo_pad1 [4]byte
FpSorter uintptr
FpUnpacked uintptr
Flist SorterList
FnPMA int32
F__ccgo_pad2 [4]byte
FxCompare SorterCompare
Ffile SorterFile
Ffile2 SorterFile
}
// A record being sorted
type SortSubtask = SortSubtask1
type SorterFile1 = struct {
FpFd uintptr
FiEof I64
}
// A sub-task in the sort process
type SorterFile = SorterFile1
type SorterList1 = struct {
FpList uintptr
FaMemory uintptr
FszPMA int32
F__ccgo_pad1 [4]byte
}
// Temporary file object wrapper
type SorterList = SorterList1
type IncrMerger1 = struct {
FpTask uintptr
FpMerger uintptr
FiStartOff I64
FmxSz int32
FbEof int32
FbUseThread int32
F__ccgo_pad1 [4]byte
FaFile [2]SorterFile
}
// In-memory list of records
type IncrMerger = IncrMerger1
// This object represents a single thread of control in a sort operation.
// Exactly VdbeSorter.nTask instances of this object are allocated
// as part of each VdbeSorter object. Instances are never allocated any
// other way. VdbeSorter.nTask is set to the number of worker threads allowed
// (see SQLITE_CONFIG_WORKER_THREADS) plus one (the main thread). Thus for
// single-threaded operation, there is exactly one instance of this object
// and for multi-threaded operation there are two or more instances.
//
// Essentially, this structure contains all those fields of the VdbeSorter
// structure for which each thread requires a separate instance. For example,
// each thread requries its own UnpackedRecord object to unpack records in
// as part of comparison operations.
//
// Before a background thread is launched, variable bDone is set to 0. Then,
// right before it exits, the thread itself sets bDone to 1. This is used for
// two purposes:
//
// 1. When flushing the contents of memory to a level-0 PMA on disk, to
// attempt to select a SortSubtask for which there is not already an
// active background thread (since doing so causes the main thread
// to block until it finishes).
//
// 2. If SQLITE_DEBUG_SORTER_THREADS is defined, to determine if a call
// to sqlite3ThreadJoin() is likely to block. Cases that are likely to
// block provoke debugging output.
//
// In both cases, the effects of the main thread seeing (bDone==0) even
// after the thread has finished are not dire. So we don't worry about
// memory barriers and such here.
type SorterCompare = uintptr
func vdbePmaReaderClear(tls *libc.TLS, pReadr uintptr) {
Xsqlite3_free(tls, (*PmaReader)(unsafe.Pointer(pReadr)).FaAlloc)
Xsqlite3_free(tls, (*PmaReader)(unsafe.Pointer(pReadr)).FaBuffer)
if (*PmaReader)(unsafe.Pointer(pReadr)).FaMap != 0 {
Xsqlite3OsUnfetch(tls, (*PmaReader)(unsafe.Pointer(pReadr)).FpFd, int64(0), (*PmaReader)(unsafe.Pointer(pReadr)).FaMap)
}
vdbeIncrFree(tls, (*PmaReader)(unsafe.Pointer(pReadr)).FpIncr)
libc.X__builtin___memset_chk(tls, pReadr, 0, uint64(unsafe.Sizeof(PmaReader{})), libc.X__builtin_object_size(tls, pReadr, 0))
}
func vdbePmaReadBlob(tls *libc.TLS, p uintptr, nByte int32, ppOut uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var iBuf int32
var nAvail int32
if (*PmaReader)(unsafe.Pointer(p)).FaMap != 0 {
*(*uintptr)(unsafe.Pointer(ppOut)) = (*PmaReader)(unsafe.Pointer(p)).FaMap + uintptr((*PmaReader)(unsafe.Pointer(p)).FiReadOff)
*(*I64)(unsafe.Pointer(p)) += I64(nByte)
return SQLITE_OK
}
iBuf = int32((*PmaReader)(unsafe.Pointer(p)).FiReadOff % I64((*PmaReader)(unsafe.Pointer(p)).FnBuffer))
if iBuf == 0 {
var nRead int32
var rc int32
if (*PmaReader)(unsafe.Pointer(p)).FiEof-(*PmaReader)(unsafe.Pointer(p)).FiReadOff > I64((*PmaReader)(unsafe.Pointer(p)).FnBuffer) {
nRead = (*PmaReader)(unsafe.Pointer(p)).FnBuffer
} else {
nRead = int32((*PmaReader)(unsafe.Pointer(p)).FiEof - (*PmaReader)(unsafe.Pointer(p)).FiReadOff)
}
rc = Xsqlite3OsRead(tls, (*PmaReader)(unsafe.Pointer(p)).FpFd, (*PmaReader)(unsafe.Pointer(p)).FaBuffer, nRead, (*PmaReader)(unsafe.Pointer(p)).FiReadOff)
if rc != SQLITE_OK {
return rc
}
}
nAvail = (*PmaReader)(unsafe.Pointer(p)).FnBuffer - iBuf
if nByte <= nAvail {
*(*uintptr)(unsafe.Pointer(ppOut)) = (*PmaReader)(unsafe.Pointer(p)).FaBuffer + uintptr(iBuf)
*(*I64)(unsafe.Pointer(p)) += I64(nByte)
} else {
var nRem int32
if (*PmaReader)(unsafe.Pointer(p)).FnAlloc < nByte {
var aNew uintptr
var nNew Sqlite3_int64 = func() int64 {
if int64(128) > int64(2)*Sqlite3_int64((*PmaReader)(unsafe.Pointer(p)).FnAlloc) {
return int64(128)
}
return int64(2) * Sqlite3_int64((*PmaReader)(unsafe.Pointer(p)).FnAlloc)
}()
for Sqlite3_int64(nByte) > nNew {
nNew = nNew * int64(2)
}
aNew = Xsqlite3Realloc(tls, (*PmaReader)(unsafe.Pointer(p)).FaAlloc, uint64(nNew))
if !(aNew != 0) {
return SQLITE_NOMEM
}
(*PmaReader)(unsafe.Pointer(p)).FnAlloc = int32(nNew)
(*PmaReader)(unsafe.Pointer(p)).FaAlloc = aNew
}
libc.X__builtin___memcpy_chk(tls, (*PmaReader)(unsafe.Pointer(p)).FaAlloc, (*PmaReader)(unsafe.Pointer(p)).FaBuffer+uintptr(iBuf), uint64(nAvail), libc.X__builtin_object_size(tls, (*PmaReader)(unsafe.Pointer(p)).FaAlloc, 0))
*(*I64)(unsafe.Pointer(p)) += I64(nAvail)
nRem = nByte - nAvail
for nRem > 0 {
var rc int32
var nCopy int32
nCopy = nRem
if nRem > (*PmaReader)(unsafe.Pointer(p)).FnBuffer {
nCopy = (*PmaReader)(unsafe.Pointer(p)).FnBuffer
}
rc = vdbePmaReadBlob(tls, p, nCopy, bp)
if rc != SQLITE_OK {
return rc
}
libc.X__builtin___memcpy_chk(tls, (*PmaReader)(unsafe.Pointer(p)).FaAlloc+uintptr(nByte-nRem), *(*uintptr)(unsafe.Pointer(bp)), uint64(nCopy), libc.X__builtin_object_size(tls, (*PmaReader)(unsafe.Pointer(p)).FaAlloc+uintptr(nByte-nRem), 0))
nRem = nRem - nCopy
}
*(*uintptr)(unsafe.Pointer(ppOut)) = (*PmaReader)(unsafe.Pointer(p)).FaAlloc
}
return SQLITE_OK
}
func vdbePmaReadVarint(tls *libc.TLS, p uintptr, pnOut uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var iBuf int32
if (*PmaReader)(unsafe.Pointer(p)).FaMap != 0 {
*(*I64)(unsafe.Pointer(p)) += I64(Xsqlite3GetVarint(tls, (*PmaReader)(unsafe.Pointer(p)).FaMap+uintptr((*PmaReader)(unsafe.Pointer(p)).FiReadOff), pnOut))
} else {
iBuf = int32((*PmaReader)(unsafe.Pointer(p)).FiReadOff % I64((*PmaReader)(unsafe.Pointer(p)).FnBuffer))
if iBuf != 0 && (*PmaReader)(unsafe.Pointer(p)).FnBuffer-iBuf >= 9 {
*(*I64)(unsafe.Pointer(p)) += I64(Xsqlite3GetVarint(tls, (*PmaReader)(unsafe.Pointer(p)).FaBuffer+uintptr(iBuf), pnOut))
} else {
var i int32 = 0
var rc int32
for __ccgo := true; __ccgo; __ccgo = int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))))&0x80 != 0 {
rc = vdbePmaReadBlob(tls, p, 1, bp)
if rc != 0 {
return rc
}
*(*U8)(unsafe.Pointer(bp + 8 + uintptr(libc.PostIncInt32(&i, 1)&0xf))) = *(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))))
}
Xsqlite3GetVarint(tls, bp+8, pnOut)
}
}
return SQLITE_OK
}
func vdbeSorterMapFile(tls *libc.TLS, pTask uintptr, pFile uintptr, pp uintptr) int32 {
var rc int32 = SQLITE_OK
if (*SorterFile)(unsafe.Pointer(pFile)).FiEof <= I64((*Sqlite3)(unsafe.Pointer((*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).Fdb)).FnMaxSorterMmap) {
var pFd uintptr = (*SorterFile)(unsafe.Pointer(pFile)).FpFd
if (*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(pFd)).FpMethods)).FiVersion >= 3 {
rc = Xsqlite3OsFetch(tls, pFd, int64(0), int32((*SorterFile)(unsafe.Pointer(pFile)).FiEof), pp)
}
}
return rc
}
func vdbePmaReaderSeek(tls *libc.TLS, pTask uintptr, pReadr uintptr, pFile uintptr, iOff I64) int32 {
var rc int32 = SQLITE_OK
if Xsqlite3FaultSim(tls, 201) != 0 {
return SQLITE_IOERR | int32(1)<<8
}
if (*PmaReader)(unsafe.Pointer(pReadr)).FaMap != 0 {
Xsqlite3OsUnfetch(tls, (*PmaReader)(unsafe.Pointer(pReadr)).FpFd, int64(0), (*PmaReader)(unsafe.Pointer(pReadr)).FaMap)
(*PmaReader)(unsafe.Pointer(pReadr)).FaMap = uintptr(0)
}
(*PmaReader)(unsafe.Pointer(pReadr)).FiReadOff = iOff
(*PmaReader)(unsafe.Pointer(pReadr)).FiEof = (*SorterFile)(unsafe.Pointer(pFile)).FiEof
(*PmaReader)(unsafe.Pointer(pReadr)).FpFd = (*SorterFile)(unsafe.Pointer(pFile)).FpFd
rc = vdbeSorterMapFile(tls, pTask, pFile, pReadr+64)
if rc == SQLITE_OK && (*PmaReader)(unsafe.Pointer(pReadr)).FaMap == uintptr(0) {
var pgsz int32 = (*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).Fpgsz
var iBuf int32 = int32((*PmaReader)(unsafe.Pointer(pReadr)).FiReadOff % I64(pgsz))
if (*PmaReader)(unsafe.Pointer(pReadr)).FaBuffer == uintptr(0) {
(*PmaReader)(unsafe.Pointer(pReadr)).FaBuffer = Xsqlite3Malloc(tls, uint64(pgsz))
if (*PmaReader)(unsafe.Pointer(pReadr)).FaBuffer == uintptr(0) {
rc = SQLITE_NOMEM
}
(*PmaReader)(unsafe.Pointer(pReadr)).FnBuffer = pgsz
}
if rc == SQLITE_OK && iBuf != 0 {
var nRead int32 = pgsz - iBuf
if (*PmaReader)(unsafe.Pointer(pReadr)).FiReadOff+I64(nRead) > (*PmaReader)(unsafe.Pointer(pReadr)).FiEof {
nRead = int32((*PmaReader)(unsafe.Pointer(pReadr)).FiEof - (*PmaReader)(unsafe.Pointer(pReadr)).FiReadOff)
}
rc = Xsqlite3OsRead(tls,
(*PmaReader)(unsafe.Pointer(pReadr)).FpFd, (*PmaReader)(unsafe.Pointer(pReadr)).FaBuffer+uintptr(iBuf), nRead, (*PmaReader)(unsafe.Pointer(pReadr)).FiReadOff)
}
}
return rc
}
func vdbePmaReaderNext(tls *libc.TLS, pReadr uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
*(*U64)(unsafe.Pointer(bp)) = uint64(0)
if (*PmaReader)(unsafe.Pointer(pReadr)).FiReadOff >= (*PmaReader)(unsafe.Pointer(pReadr)).FiEof {
var pIncr uintptr = (*PmaReader)(unsafe.Pointer(pReadr)).FpIncr
var bEof int32 = 1
if pIncr != 0 {
rc = vdbeIncrSwap(tls, pIncr)
if rc == SQLITE_OK && (*IncrMerger)(unsafe.Pointer(pIncr)).FbEof == 0 {
rc = vdbePmaReaderSeek(tls,
(*IncrMerger)(unsafe.Pointer(pIncr)).FpTask, pReadr, pIncr+40, (*IncrMerger)(unsafe.Pointer(pIncr)).FiStartOff)
bEof = 0
}
}
if bEof != 0 {
vdbePmaReaderClear(tls, pReadr)
return rc
}
}
if rc == SQLITE_OK {
rc = vdbePmaReadVarint(tls, pReadr, bp)
}
if rc == SQLITE_OK {
(*PmaReader)(unsafe.Pointer(pReadr)).FnKey = int32(*(*U64)(unsafe.Pointer(bp)))
rc = vdbePmaReadBlob(tls, pReadr, int32(*(*U64)(unsafe.Pointer(bp))), pReadr+40)
}
return rc
}
func vdbePmaReaderInit(tls *libc.TLS, pTask uintptr, pFile uintptr, iStart I64, pReadr uintptr, pnByte uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
rc = vdbePmaReaderSeek(tls, pTask, pReadr, pFile, iStart)
if rc == SQLITE_OK {
*(*U64)(unsafe.Pointer(bp)) = uint64(0)
rc = vdbePmaReadVarint(tls, pReadr, bp)
(*PmaReader)(unsafe.Pointer(pReadr)).FiEof = I64(U64((*PmaReader)(unsafe.Pointer(pReadr)).FiReadOff) + *(*U64)(unsafe.Pointer(bp)))
*(*I64)(unsafe.Pointer(pnByte)) += I64(*(*U64)(unsafe.Pointer(bp)))
}
if rc == SQLITE_OK {
rc = vdbePmaReaderNext(tls, pReadr)
}
return rc
}
func vdbeSorterCompareTail(tls *libc.TLS, pTask uintptr, pbKey2Cached uintptr, pKey1 uintptr, nKey1 int32, pKey2 uintptr, nKey2 int32) int32 {
var r2 uintptr = (*SortSubtask)(unsafe.Pointer(pTask)).FpUnpacked
if *(*int32)(unsafe.Pointer(pbKey2Cached)) == 0 {
Xsqlite3VdbeRecordUnpack(tls, (*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).FpKeyInfo, nKey2, pKey2, r2)
*(*int32)(unsafe.Pointer(pbKey2Cached)) = 1
}
return Xsqlite3VdbeRecordCompareWithSkip(tls, nKey1, pKey1, r2, 1)
}
func vdbeSorterCompare(tls *libc.TLS, pTask uintptr, pbKey2Cached uintptr, pKey1 uintptr, nKey1 int32, pKey2 uintptr, nKey2 int32) int32 {
var r2 uintptr = (*SortSubtask)(unsafe.Pointer(pTask)).FpUnpacked
if !(*(*int32)(unsafe.Pointer(pbKey2Cached)) != 0) {
Xsqlite3VdbeRecordUnpack(tls, (*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).FpKeyInfo, nKey2, pKey2, r2)
*(*int32)(unsafe.Pointer(pbKey2Cached)) = 1
}
return Xsqlite3VdbeRecordCompare(tls, nKey1, pKey1, r2)
}
func vdbeSorterCompareText(tls *libc.TLS, pTask uintptr, pbKey2Cached uintptr, pKey1 uintptr, nKey1 int32, pKey2 uintptr, nKey2 int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var p1 uintptr = pKey1
var p2 uintptr = pKey2
var v1 uintptr = p1 + uintptr(*(*U8)(unsafe.Pointer(p1)))
var v2 uintptr = p2 + uintptr(*(*U8)(unsafe.Pointer(p2)))
var res int32
*(*int32)(unsafe.Pointer(bp)) = int32(U32(*(*U8)(unsafe.Pointer(p1 + 1))))
if *(*int32)(unsafe.Pointer(bp)) >= 0x80 {
Xsqlite3GetVarint32(tls, p1+1, bp)
}
*(*int32)(unsafe.Pointer(bp + 4)) = int32(U32(*(*U8)(unsafe.Pointer(p2 + 1))))
if *(*int32)(unsafe.Pointer(bp + 4)) >= 0x80 {
Xsqlite3GetVarint32(tls, p2+1, bp+4)
}
res = libc.Xmemcmp(tls, v1, v2, uint64((func() int32 {
if *(*int32)(unsafe.Pointer(bp)) < *(*int32)(unsafe.Pointer(bp + 4)) {
return *(*int32)(unsafe.Pointer(bp))
}
return *(*int32)(unsafe.Pointer(bp + 4))
}()-13)/2))
if res == 0 {
res = *(*int32)(unsafe.Pointer(bp)) - *(*int32)(unsafe.Pointer(bp + 4))
}
if res == 0 {
if int32((*KeyInfo)(unsafe.Pointer((*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).FpKeyInfo)).FnKeyField) > 1 {
res = vdbeSorterCompareTail(tls,
pTask, pbKey2Cached, pKey1, nKey1, pKey2, nKey2)
}
} else {
if *(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer((*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).FpKeyInfo)).FaSortFlags)) != 0 {
res = res * -1
}
}
return res
}
func vdbeSorterCompareInt(tls *libc.TLS, pTask uintptr, pbKey2Cached uintptr, pKey1 uintptr, nKey1 int32, pKey2 uintptr, nKey2 int32) int32 {
var p1 uintptr = pKey1
var p2 uintptr = pKey2
var s1 int32 = int32(*(*U8)(unsafe.Pointer(p1 + 1)))
var s2 int32 = int32(*(*U8)(unsafe.Pointer(p2 + 1)))
var v1 uintptr = p1 + uintptr(*(*U8)(unsafe.Pointer(p1)))
var v2 uintptr = p2 + uintptr(*(*U8)(unsafe.Pointer(p2)))
var res int32
if s1 == s2 {
var n U8 = aLen[s1]
var i int32
res = 0
for i = 0; i < int32(n); i++ {
if libc.AssignInt32(&res, int32(*(*U8)(unsafe.Pointer(v1 + uintptr(i))))-int32(*(*U8)(unsafe.Pointer(v2 + uintptr(i))))) != 0 {
if (int32(*(*U8)(unsafe.Pointer(v1)))^int32(*(*U8)(unsafe.Pointer(v2))))&0x80 != 0 {
if int32(*(*U8)(unsafe.Pointer(v1)))&0x80 != 0 {
res = -1
} else {
res = +1
}
}
break
}
}
} else if s1 > 7 && s2 > 7 {
res = s1 - s2
} else {
if s2 > 7 {
res = +1
} else if s1 > 7 {
res = -1
} else {
res = s1 - s2
}
if res > 0 {
if int32(*(*U8)(unsafe.Pointer(v1)))&0x80 != 0 {
res = -1
}
} else {
if int32(*(*U8)(unsafe.Pointer(v2)))&0x80 != 0 {
res = +1
}
}
}
if res == 0 {
if int32((*KeyInfo)(unsafe.Pointer((*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).FpKeyInfo)).FnKeyField) > 1 {
res = vdbeSorterCompareTail(tls,
pTask, pbKey2Cached, pKey1, nKey1, pKey2, nKey2)
}
} else if *(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer((*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).FpKeyInfo)).FaSortFlags)) != 0 {
res = res * -1
}
return res
}
var aLen = [10]U8{U8(0), U8(1), U8(2), U8(3), U8(4), U8(6), U8(8), U8(0), U8(0), U8(0)}
// Initialize the temporary index cursor just opened as a sorter cursor.
//
// Usually, the sorter module uses the value of (pCsr->pKeyInfo->nKeyField)
// to determine the number of fields that should be compared from the
// records being sorted. However, if the value passed as argument nField
// is non-zero and the sorter is able to guarantee a stable sort, nField
// is used instead. This is used when sorting records for a CREATE INDEX
// statement. In this case, keys are always delivered to the sorter in
// order of the primary key, which happens to be make up the final part
// of the records being sorted. So if the sort is stable, there is never
// any reason to compare PK fields and they can be ignored for a small
// performance boost.
//
// The sorter can guarantee a stable sort when running in single-threaded
// mode, but not in multi-threaded mode.
//
// SQLITE_OK is returned if successful, or an SQLite error code otherwise.
func Xsqlite3VdbeSorterInit(tls *libc.TLS, db uintptr, nField int32, pCsr uintptr) int32 {
var pgsz int32
var i int32
var pSorter uintptr
var pKeyInfo uintptr
var szKeyInfo int32
var sz int32
var rc int32 = SQLITE_OK
var nWorker int32
if Xsqlite3TempInMemory(tls, db) != 0 || int32(Xsqlite3Config.FbCoreMutex) == 0 {
nWorker = 0
} else {
nWorker = *(*int32)(unsafe.Pointer(db + 136 + 11*4))
}
szKeyInfo = int32(uint64(unsafe.Sizeof(KeyInfo{})) + uint64(int32((*KeyInfo)(unsafe.Pointer((*VdbeCursor)(unsafe.Pointer(pCsr)).FpKeyInfo)).FnKeyField)-1)*uint64(unsafe.Sizeof(uintptr(0))))
sz = int32(uint64(unsafe.Sizeof(VdbeSorter{})) + uint64(nWorker)*uint64(unsafe.Sizeof(SortSubtask{})))
pSorter = Xsqlite3DbMallocZero(tls, db, uint64(sz+szKeyInfo))
*(*uintptr)(unsafe.Pointer(pCsr + 48)) = pSorter
if pSorter == uintptr(0) {
rc = SQLITE_NOMEM
} else {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpBt
(*VdbeSorter)(unsafe.Pointer(pSorter)).FpKeyInfo = libc.AssignUintptr(&pKeyInfo, pSorter+uintptr(sz))
libc.X__builtin___memcpy_chk(tls, pKeyInfo, (*VdbeCursor)(unsafe.Pointer(pCsr)).FpKeyInfo, uint64(szKeyInfo), libc.X__builtin_object_size(tls, pKeyInfo, 0))
(*KeyInfo)(unsafe.Pointer(pKeyInfo)).Fdb = uintptr(0)
if nField != 0 && nWorker == 0 {
(*KeyInfo)(unsafe.Pointer(pKeyInfo)).FnKeyField = U16(nField)
}
Xsqlite3BtreeEnter(tls, pBt)
(*VdbeSorter)(unsafe.Pointer(pSorter)).Fpgsz = libc.AssignInt32(&pgsz, Xsqlite3BtreeGetPageSize(tls, pBt))
Xsqlite3BtreeLeave(tls, pBt)
(*VdbeSorter)(unsafe.Pointer(pSorter)).FnTask = U8(nWorker + 1)
(*VdbeSorter)(unsafe.Pointer(pSorter)).FiPrev = U8(nWorker - 1)
(*VdbeSorter)(unsafe.Pointer(pSorter)).FbUseThreads = U8(libc.Bool32(int32((*VdbeSorter)(unsafe.Pointer(pSorter)).FnTask) > 1))
(*VdbeSorter)(unsafe.Pointer(pSorter)).Fdb = db
for i = 0; i < int32((*VdbeSorter)(unsafe.Pointer(pSorter)).FnTask); i++ {
var pTask uintptr = pSorter + 96 + uintptr(i)*104
(*SortSubtask)(unsafe.Pointer(pTask)).FpSorter = pSorter
}
if !(Xsqlite3TempInMemory(tls, db) != 0) {
var mxCache I64
var szPma U32 = Xsqlite3Config.FszPma
(*VdbeSorter)(unsafe.Pointer(pSorter)).FmnPmaSize = int32(szPma * U32(pgsz))
mxCache = I64((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpSchema)).Fcache_size)
if mxCache < int64(0) {
mxCache = mxCache * int64(-1024)
} else {
mxCache = mxCache * I64(pgsz)
}
mxCache = func() int64 {
if mxCache < int64(int32(1)<<29) {
return mxCache
}
return int64(int32(1) << 29)
}()
(*VdbeSorter)(unsafe.Pointer(pSorter)).FmxPmaSize = func() int32 {
if (*VdbeSorter)(unsafe.Pointer(pSorter)).FmnPmaSize > int32(mxCache) {
return (*VdbeSorter)(unsafe.Pointer(pSorter)).FmnPmaSize
}
return int32(mxCache)
}()
if int32(Xsqlite3Config.FbSmallMalloc) == 0 {
(*VdbeSorter)(unsafe.Pointer(pSorter)).FnMemory = pgsz
(*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory = Xsqlite3Malloc(tls, uint64(pgsz))
if !(int32((*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory) != 0) {
rc = SQLITE_NOMEM
}
}
}
if int32((*KeyInfo)(unsafe.Pointer(pKeyInfo)).FnAllField) < 13 &&
(*(*uintptr)(unsafe.Pointer(pKeyInfo + 32)) == uintptr(0) || *(*uintptr)(unsafe.Pointer(pKeyInfo + 32)) == (*Sqlite3)(unsafe.Pointer(db)).FpDfltColl) &&
int32(*(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer(pKeyInfo)).FaSortFlags)))&KEYINFO_ORDER_BIGNULL == 0 {
(*VdbeSorter)(unsafe.Pointer(pSorter)).FtypeMask = U8(SORTER_TYPE_INTEGER | SORTER_TYPE_TEXT)
}
}
return rc
}
func vdbeSorterRecordFree(tls *libc.TLS, db uintptr, pRecord uintptr) {
var p uintptr
var pNext uintptr
for p = pRecord; p != 0; p = pNext {
pNext = *(*uintptr)(unsafe.Pointer(p + 8))
Xsqlite3DbFree(tls, db, p)
}
}
func vdbeSortSubtaskCleanup(tls *libc.TLS, db uintptr, pTask uintptr) {
Xsqlite3DbFree(tls, db, (*SortSubtask)(unsafe.Pointer(pTask)).FpUnpacked)
if (*SortSubtask)(unsafe.Pointer(pTask)).Flist.FaMemory != 0 {
Xsqlite3_free(tls, (*SortSubtask)(unsafe.Pointer(pTask)).Flist.FaMemory)
} else {
vdbeSorterRecordFree(tls, uintptr(0), (*SortSubtask)(unsafe.Pointer(pTask)).Flist.FpList)
}
if (*SortSubtask)(unsafe.Pointer(pTask)).Ffile.FpFd != 0 {
Xsqlite3OsCloseFree(tls, (*SortSubtask)(unsafe.Pointer(pTask)).Ffile.FpFd)
}
if (*SortSubtask)(unsafe.Pointer(pTask)).Ffile2.FpFd != 0 {
Xsqlite3OsCloseFree(tls, (*SortSubtask)(unsafe.Pointer(pTask)).Ffile2.FpFd)
}
libc.X__builtin___memset_chk(tls, pTask, 0, uint64(unsafe.Sizeof(SortSubtask{})), libc.X__builtin_object_size(tls, pTask, 0))
}
func vdbeSorterJoinThread(tls *libc.TLS, pTask uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
if (*SortSubtask)(unsafe.Pointer(pTask)).FpThread != 0 {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(int64(SQLITE_ERROR))
Xsqlite3ThreadJoin(tls, (*SortSubtask)(unsafe.Pointer(pTask)).FpThread, bp)
rc = int32(*(*uintptr)(unsafe.Pointer(bp)))
(*SortSubtask)(unsafe.Pointer(pTask)).FbDone = 0
(*SortSubtask)(unsafe.Pointer(pTask)).FpThread = uintptr(0)
}
return rc
}
func vdbeSorterCreateThread(tls *libc.TLS, pTask uintptr, xTask uintptr, pIn uintptr) int32 {
return Xsqlite3ThreadCreate(tls, pTask, xTask, pIn)
}
func vdbeSorterJoinAll(tls *libc.TLS, pSorter uintptr, rcin int32) int32 {
var rc int32 = rcin
var i int32
for i = int32((*VdbeSorter)(unsafe.Pointer(pSorter)).FnTask) - 1; i >= 0; i-- {
var pTask uintptr = pSorter + 96 + uintptr(i)*104
var rc2 int32 = vdbeSorterJoinThread(tls, pTask)
if rc == SQLITE_OK {
rc = rc2
}
}
return rc
}
func vdbeMergeEngineNew(tls *libc.TLS, nReader int32) uintptr {
var N int32 = 2
var nByte int32
var pNew uintptr
for N < nReader {
N = N + N
}
nByte = int32(uint64(unsafe.Sizeof(MergeEngine{})) + uint64(N)*(uint64(unsafe.Sizeof(int32(0)))+uint64(unsafe.Sizeof(PmaReader{}))))
if Xsqlite3FaultSim(tls, 100) != 0 {
pNew = uintptr(0)
} else {
pNew = Xsqlite3MallocZero(tls, uint64(nByte))
}
if pNew != 0 {
(*MergeEngine)(unsafe.Pointer(pNew)).FnTree = N
(*MergeEngine)(unsafe.Pointer(pNew)).FpTask = uintptr(0)
(*MergeEngine)(unsafe.Pointer(pNew)).FaReadr = pNew + 1*32
(*MergeEngine)(unsafe.Pointer(pNew)).FaTree = (*MergeEngine)(unsafe.Pointer(pNew)).FaReadr + uintptr(N)*80
}
return pNew
}
func vdbeMergeEngineFree(tls *libc.TLS, pMerger uintptr) {
var i int32
if pMerger != 0 {
for i = 0; i < (*MergeEngine)(unsafe.Pointer(pMerger)).FnTree; i++ {
vdbePmaReaderClear(tls, (*MergeEngine)(unsafe.Pointer(pMerger)).FaReadr+uintptr(i)*80)
}
}
Xsqlite3_free(tls, pMerger)
}
func vdbeIncrFree(tls *libc.TLS, pIncr uintptr) {
if pIncr != 0 {
if (*IncrMerger)(unsafe.Pointer(pIncr)).FbUseThread != 0 {
vdbeSorterJoinThread(tls, (*IncrMerger)(unsafe.Pointer(pIncr)).FpTask)
if (*SorterFile)(unsafe.Pointer(pIncr+40)).FpFd != 0 {
Xsqlite3OsCloseFree(tls, (*SorterFile)(unsafe.Pointer(pIncr+40)).FpFd)
}
if (*SorterFile)(unsafe.Pointer(pIncr+40+1*16)).FpFd != 0 {
Xsqlite3OsCloseFree(tls, (*SorterFile)(unsafe.Pointer(pIncr+40+1*16)).FpFd)
}
}
vdbeMergeEngineFree(tls, (*IncrMerger)(unsafe.Pointer(pIncr)).FpMerger)
Xsqlite3_free(tls, pIncr)
}
}
// Reset a sorting cursor back to its original empty state.
func Xsqlite3VdbeSorterReset(tls *libc.TLS, db uintptr, pSorter uintptr) {
var i int32
vdbeSorterJoinAll(tls, pSorter, SQLITE_OK)
if (*VdbeSorter)(unsafe.Pointer(pSorter)).FpReader != 0 {
vdbePmaReaderClear(tls, (*VdbeSorter)(unsafe.Pointer(pSorter)).FpReader)
Xsqlite3DbFree(tls, db, (*VdbeSorter)(unsafe.Pointer(pSorter)).FpReader)
(*VdbeSorter)(unsafe.Pointer(pSorter)).FpReader = uintptr(0)
}
vdbeMergeEngineFree(tls, (*VdbeSorter)(unsafe.Pointer(pSorter)).FpMerger)
(*VdbeSorter)(unsafe.Pointer(pSorter)).FpMerger = uintptr(0)
for i = 0; i < int32((*VdbeSorter)(unsafe.Pointer(pSorter)).FnTask); i++ {
var pTask uintptr = pSorter + 96 + uintptr(i)*104
vdbeSortSubtaskCleanup(tls, db, pTask)
(*SortSubtask)(unsafe.Pointer(pTask)).FpSorter = pSorter
}
if (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory == uintptr(0) {
vdbeSorterRecordFree(tls, uintptr(0), (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList)
}
(*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList = uintptr(0)
(*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FszPMA = 0
(*VdbeSorter)(unsafe.Pointer(pSorter)).FbUsePMA = U8(0)
(*VdbeSorter)(unsafe.Pointer(pSorter)).FiMemory = 0
(*VdbeSorter)(unsafe.Pointer(pSorter)).FmxKeysize = 0
Xsqlite3DbFree(tls, db, (*VdbeSorter)(unsafe.Pointer(pSorter)).FpUnpacked)
(*VdbeSorter)(unsafe.Pointer(pSorter)).FpUnpacked = uintptr(0)
}
// Free any cursor components allocated by sqlite3VdbeSorterXXX routines.
func Xsqlite3VdbeSorterClose(tls *libc.TLS, db uintptr, pCsr uintptr) {
var pSorter uintptr
pSorter = *(*uintptr)(unsafe.Pointer(pCsr + 48))
if pSorter != 0 {
Xsqlite3VdbeSorterReset(tls, db, pSorter)
Xsqlite3_free(tls, (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory)
Xsqlite3DbFree(tls, db, pSorter)
*(*uintptr)(unsafe.Pointer(pCsr + 48)) = uintptr(0)
}
}
func vdbeSorterExtendFile(tls *libc.TLS, db uintptr, pFd uintptr, nByte I64) {
bp := tls.Alloc(24)
defer tls.Free(24)
*(*I64)(unsafe.Pointer(bp + 8)) = nByte
if *(*I64)(unsafe.Pointer(bp + 8)) <= I64((*Sqlite3)(unsafe.Pointer(db)).FnMaxSorterMmap) && (*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(pFd)).FpMethods)).FiVersion >= 3 {
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
*(*int32)(unsafe.Pointer(bp)) = 4 * 1024
Xsqlite3OsFileControlHint(tls, pFd, SQLITE_FCNTL_CHUNK_SIZE, bp)
Xsqlite3OsFileControlHint(tls, pFd, SQLITE_FCNTL_SIZE_HINT, bp+8)
Xsqlite3OsFetch(tls, pFd, int64(0), int32(*(*I64)(unsafe.Pointer(bp + 8))), bp+16)
if *(*uintptr)(unsafe.Pointer(bp + 16)) != 0 {
Xsqlite3OsUnfetch(tls, pFd, int64(0), *(*uintptr)(unsafe.Pointer(bp + 16)))
}
}
}
func vdbeSorterOpenTempFile(tls *libc.TLS, db uintptr, nExtend I64, ppFd uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
if Xsqlite3FaultSim(tls, 202) != 0 {
return SQLITE_IOERR | int32(13)<<8
}
*(*int32)(unsafe.Pointer(bp)) = Xsqlite3OsOpenMalloc(tls, (*Sqlite3)(unsafe.Pointer(db)).FpVfs, uintptr(0), ppFd,
SQLITE_OPEN_TEMP_JOURNAL|SQLITE_OPEN_READWRITE|SQLITE_OPEN_CREATE|SQLITE_OPEN_EXCLUSIVE|SQLITE_OPEN_DELETEONCLOSE, bp)
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
*(*I64)(unsafe.Pointer(bp + 8)) = int64(SQLITE_MAX_MMAP_SIZE)
Xsqlite3OsFileControlHint(tls, *(*uintptr)(unsafe.Pointer(ppFd)), SQLITE_FCNTL_MMAP_SIZE, bp+8)
if nExtend > int64(0) {
vdbeSorterExtendFile(tls, db, *(*uintptr)(unsafe.Pointer(ppFd)), nExtend)
}
}
return *(*int32)(unsafe.Pointer(bp))
}
func vdbeSortAllocUnpacked(tls *libc.TLS, pTask uintptr) int32 {
if (*SortSubtask)(unsafe.Pointer(pTask)).FpUnpacked == uintptr(0) {
(*SortSubtask)(unsafe.Pointer(pTask)).FpUnpacked = Xsqlite3VdbeAllocUnpackedRecord(tls, (*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).FpKeyInfo)
if (*SortSubtask)(unsafe.Pointer(pTask)).FpUnpacked == uintptr(0) {
return SQLITE_NOMEM
}
(*UnpackedRecord)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpUnpacked)).FnField = (*KeyInfo)(unsafe.Pointer((*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).FpKeyInfo)).FnKeyField
(*UnpackedRecord)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpUnpacked)).FerrCode = U8(0)
}
return SQLITE_OK
}
func vdbeSorterMerge(tls *libc.TLS, pTask uintptr, p1 uintptr, p2 uintptr) uintptr {
bp := tls.Alloc(12)
defer tls.Free(12)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var pp uintptr = bp
*(*int32)(unsafe.Pointer(bp + 8)) = 0
for {
var res int32
res = (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*SortSubtask)(unsafe.Pointer(pTask)).FxCompare})).f(tls,
pTask, bp+8, p1+uintptr(1)*16, (*SorterRecord)(unsafe.Pointer(p1)).FnVal, p2+uintptr(1)*16, (*SorterRecord)(unsafe.Pointer(p2)).FnVal)
if res <= 0 {
*(*uintptr)(unsafe.Pointer(pp)) = p1
pp = p1 + 8
p1 = *(*uintptr)(unsafe.Pointer(p1 + 8))
if p1 == uintptr(0) {
*(*uintptr)(unsafe.Pointer(pp)) = p2
break
}
} else {
*(*uintptr)(unsafe.Pointer(pp)) = p2
pp = p2 + 8
p2 = *(*uintptr)(unsafe.Pointer(p2 + 8))
*(*int32)(unsafe.Pointer(bp + 8)) = 0
if p2 == uintptr(0) {
*(*uintptr)(unsafe.Pointer(pp)) = p1
break
}
}
}
return *(*uintptr)(unsafe.Pointer(bp))
}
func vdbeSorterGetCompare(tls *libc.TLS, p uintptr) SorterCompare {
if int32((*VdbeSorter)(unsafe.Pointer(p)).FtypeMask) == SORTER_TYPE_INTEGER {
return *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr, int32) int32
}{vdbeSorterCompareInt}))
} else if int32((*VdbeSorter)(unsafe.Pointer(p)).FtypeMask) == SORTER_TYPE_TEXT {
return *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr, int32) int32
}{vdbeSorterCompareText}))
}
return *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr, int32) int32
}{vdbeSorterCompare}))
}
func vdbeSorterSort(tls *libc.TLS, pTask uintptr, pList uintptr) int32 {
bp := tls.Alloc(512)
defer tls.Free(512)
var i int32
var p uintptr
var rc int32
rc = vdbeSortAllocUnpacked(tls, pTask)
if rc != SQLITE_OK {
return rc
}
p = (*SorterList)(unsafe.Pointer(pList)).FpList
(*SortSubtask)(unsafe.Pointer(pTask)).FxCompare = vdbeSorterGetCompare(tls, (*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof([64]uintptr{})), libc.X__builtin_object_size(tls, bp, 0))
for p != 0 {
var pNext uintptr
if (*SorterList)(unsafe.Pointer(pList)).FaMemory != 0 {
if p == (*SorterList)(unsafe.Pointer(pList)).FaMemory {
pNext = uintptr(0)
} else {
pNext = (*SorterList)(unsafe.Pointer(pList)).FaMemory + uintptr(*(*int32)(unsafe.Pointer(p + 8)))
}
} else {
pNext = *(*uintptr)(unsafe.Pointer(p + 8))
}
*(*uintptr)(unsafe.Pointer(p + 8)) = uintptr(0)
for i = 0; *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) != 0; i++ {
p = vdbeSorterMerge(tls, pTask, p, *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)))
*(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) = uintptr(0)
}
*(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) = p
p = pNext
}
p = uintptr(0)
for i = 0; i < int32(uint64(unsafe.Sizeof([64]uintptr{}))/uint64(unsafe.Sizeof(uintptr(0)))); i++ {
if *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) == uintptr(0) {
continue
}
if p != 0 {
p = vdbeSorterMerge(tls, pTask, p, *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)))
} else {
p = *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8))
}
}
(*SorterList)(unsafe.Pointer(pList)).FpList = p
return int32((*UnpackedRecord)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpUnpacked)).FerrCode)
}
func vdbePmaWriterInit(tls *libc.TLS, pFd uintptr, p uintptr, nBuf int32, iStart I64) {
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(PmaWriter{})), libc.X__builtin_object_size(tls, p, 0))
(*PmaWriter)(unsafe.Pointer(p)).FaBuffer = Xsqlite3Malloc(tls, uint64(nBuf))
if !(int32((*PmaWriter)(unsafe.Pointer(p)).FaBuffer) != 0) {
(*PmaWriter)(unsafe.Pointer(p)).FeFWErr = SQLITE_NOMEM
} else {
(*PmaWriter)(unsafe.Pointer(p)).FiBufEnd = libc.AssignPtrInt32(p+20, int32(iStart%I64(nBuf)))
(*PmaWriter)(unsafe.Pointer(p)).FiWriteOff = iStart - I64((*PmaWriter)(unsafe.Pointer(p)).FiBufStart)
(*PmaWriter)(unsafe.Pointer(p)).FnBuffer = nBuf
(*PmaWriter)(unsafe.Pointer(p)).FpFd = pFd
}
}
func vdbePmaWriteBlob(tls *libc.TLS, p uintptr, pData uintptr, nData int32) {
var nRem int32 = nData
for nRem > 0 && (*PmaWriter)(unsafe.Pointer(p)).FeFWErr == 0 {
var nCopy int32 = nRem
if nCopy > (*PmaWriter)(unsafe.Pointer(p)).FnBuffer-(*PmaWriter)(unsafe.Pointer(p)).FiBufEnd {
nCopy = (*PmaWriter)(unsafe.Pointer(p)).FnBuffer - (*PmaWriter)(unsafe.Pointer(p)).FiBufEnd
}
libc.X__builtin___memcpy_chk(tls, (*PmaWriter)(unsafe.Pointer(p)).FaBuffer+uintptr((*PmaWriter)(unsafe.Pointer(p)).FiBufEnd), pData+uintptr(nData-nRem), uint64(nCopy), libc.X__builtin_object_size(tls, (*PmaWriter)(unsafe.Pointer(p)).FaBuffer+uintptr((*PmaWriter)(unsafe.Pointer(p)).FiBufEnd), 0))
*(*int32)(unsafe.Pointer(p + 24)) += nCopy
if (*PmaWriter)(unsafe.Pointer(p)).FiBufEnd == (*PmaWriter)(unsafe.Pointer(p)).FnBuffer {
(*PmaWriter)(unsafe.Pointer(p)).FeFWErr = Xsqlite3OsWrite(tls, (*PmaWriter)(unsafe.Pointer(p)).FpFd,
(*PmaWriter)(unsafe.Pointer(p)).FaBuffer+uintptr((*PmaWriter)(unsafe.Pointer(p)).FiBufStart), (*PmaWriter)(unsafe.Pointer(p)).FiBufEnd-(*PmaWriter)(unsafe.Pointer(p)).FiBufStart,
(*PmaWriter)(unsafe.Pointer(p)).FiWriteOff+I64((*PmaWriter)(unsafe.Pointer(p)).FiBufStart))
(*PmaWriter)(unsafe.Pointer(p)).FiBufStart = libc.AssignPtrInt32(p+24, 0)
*(*I64)(unsafe.Pointer(p + 32)) += I64((*PmaWriter)(unsafe.Pointer(p)).FnBuffer)
}
nRem = nRem - nCopy
}
}
func vdbePmaWriterFinish(tls *libc.TLS, p uintptr, piEof uintptr) int32 {
var rc int32
if (*PmaWriter)(unsafe.Pointer(p)).FeFWErr == 0 && (*PmaWriter)(unsafe.Pointer(p)).FaBuffer != 0 && (*PmaWriter)(unsafe.Pointer(p)).FiBufEnd > (*PmaWriter)(unsafe.Pointer(p)).FiBufStart {
(*PmaWriter)(unsafe.Pointer(p)).FeFWErr = Xsqlite3OsWrite(tls, (*PmaWriter)(unsafe.Pointer(p)).FpFd,
(*PmaWriter)(unsafe.Pointer(p)).FaBuffer+uintptr((*PmaWriter)(unsafe.Pointer(p)).FiBufStart), (*PmaWriter)(unsafe.Pointer(p)).FiBufEnd-(*PmaWriter)(unsafe.Pointer(p)).FiBufStart,
(*PmaWriter)(unsafe.Pointer(p)).FiWriteOff+I64((*PmaWriter)(unsafe.Pointer(p)).FiBufStart))
}
*(*I64)(unsafe.Pointer(piEof)) = (*PmaWriter)(unsafe.Pointer(p)).FiWriteOff + I64((*PmaWriter)(unsafe.Pointer(p)).FiBufEnd)
Xsqlite3_free(tls, (*PmaWriter)(unsafe.Pointer(p)).FaBuffer)
rc = (*PmaWriter)(unsafe.Pointer(p)).FeFWErr
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(PmaWriter{})), libc.X__builtin_object_size(tls, p, 0))
return rc
}
func vdbePmaWriteVarint(tls *libc.TLS, p uintptr, iVal U64) {
bp := tls.Alloc(10)
defer tls.Free(10)
var nByte int32
nByte = Xsqlite3PutVarint(tls, bp, iVal)
vdbePmaWriteBlob(tls, p, bp, nByte)
}
func vdbeSorterListToPMA(tls *libc.TLS, pTask uintptr, pList uintptr) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
var db uintptr = (*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).Fdb
var rc int32 = SQLITE_OK
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(PmaWriter{})), libc.X__builtin_object_size(tls, bp, 0))
if (*SortSubtask)(unsafe.Pointer(pTask)).Ffile.FpFd == uintptr(0) {
rc = vdbeSorterOpenTempFile(tls, db, int64(0), pTask+72)
}
if rc == SQLITE_OK {
vdbeSorterExtendFile(tls, db, (*SortSubtask)(unsafe.Pointer(pTask)).Ffile.FpFd, (*SortSubtask)(unsafe.Pointer(pTask)).Ffile.FiEof+I64((*SorterList)(unsafe.Pointer(pList)).FszPMA)+int64(9))
}
if rc == SQLITE_OK {
rc = vdbeSorterSort(tls, pTask, pList)
}
if rc == SQLITE_OK {
var p uintptr
var pNext uintptr = uintptr(0)
vdbePmaWriterInit(tls, (*SortSubtask)(unsafe.Pointer(pTask)).Ffile.FpFd, bp, (*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).Fpgsz,
(*SortSubtask)(unsafe.Pointer(pTask)).Ffile.FiEof)
(*SortSubtask)(unsafe.Pointer(pTask)).FnPMA++
vdbePmaWriteVarint(tls, bp, uint64((*SorterList)(unsafe.Pointer(pList)).FszPMA))
for p = (*SorterList)(unsafe.Pointer(pList)).FpList; p != 0; p = pNext {
pNext = *(*uintptr)(unsafe.Pointer(p + 8))
vdbePmaWriteVarint(tls, bp, uint64((*SorterRecord)(unsafe.Pointer(p)).FnVal))
vdbePmaWriteBlob(tls, bp, p+uintptr(1)*16, (*SorterRecord)(unsafe.Pointer(p)).FnVal)
if (*SorterList)(unsafe.Pointer(pList)).FaMemory == uintptr(0) {
Xsqlite3_free(tls, p)
}
}
(*SorterList)(unsafe.Pointer(pList)).FpList = p
rc = vdbePmaWriterFinish(tls, bp, pTask+72+8)
}
return rc
}
func vdbeMergeEngineStep(tls *libc.TLS, pMerger uintptr, pbEof uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32
var iPrev int32 = *(*int32)(unsafe.Pointer((*MergeEngine)(unsafe.Pointer(pMerger)).FaTree + 1*4))
var pTask uintptr = (*MergeEngine)(unsafe.Pointer(pMerger)).FpTask
rc = vdbePmaReaderNext(tls, (*MergeEngine)(unsafe.Pointer(pMerger)).FaReadr+uintptr(iPrev)*80)
if rc == SQLITE_OK {
var i int32
var pReadr1 uintptr
var pReadr2 uintptr
*(*int32)(unsafe.Pointer(bp)) = 0
pReadr1 = (*MergeEngine)(unsafe.Pointer(pMerger)).FaReadr + uintptr(iPrev&0xFFFE)*80
pReadr2 = (*MergeEngine)(unsafe.Pointer(pMerger)).FaReadr + uintptr(iPrev|0x0001)*80
for i = ((*MergeEngine)(unsafe.Pointer(pMerger)).FnTree + iPrev) / 2; i > 0; i = i / 2 {
var iRes int32
if (*PmaReader)(unsafe.Pointer(pReadr1)).FpFd == uintptr(0) {
iRes = +1
} else if (*PmaReader)(unsafe.Pointer(pReadr2)).FpFd == uintptr(0) {
iRes = -1
} else {
iRes = (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*SortSubtask)(unsafe.Pointer(pTask)).FxCompare})).f(tls, pTask, bp,
(*PmaReader)(unsafe.Pointer(pReadr1)).FaKey, (*PmaReader)(unsafe.Pointer(pReadr1)).FnKey, (*PmaReader)(unsafe.Pointer(pReadr2)).FaKey, (*PmaReader)(unsafe.Pointer(pReadr2)).FnKey)
}
if iRes < 0 || iRes == 0 && pReadr1 < pReadr2 {
*(*int32)(unsafe.Pointer((*MergeEngine)(unsafe.Pointer(pMerger)).FaTree + uintptr(i)*4)) = int32((int64(pReadr1) - int64((*MergeEngine)(unsafe.Pointer(pMerger)).FaReadr)) / 80)
pReadr2 = (*MergeEngine)(unsafe.Pointer(pMerger)).FaReadr + uintptr(*(*int32)(unsafe.Pointer((*MergeEngine)(unsafe.Pointer(pMerger)).FaTree + uintptr(i^0x0001)*4)))*80
*(*int32)(unsafe.Pointer(bp)) = 0
} else {
if (*PmaReader)(unsafe.Pointer(pReadr1)).FpFd != 0 {
*(*int32)(unsafe.Pointer(bp)) = 0
}
*(*int32)(unsafe.Pointer((*MergeEngine)(unsafe.Pointer(pMerger)).FaTree + uintptr(i)*4)) = int32((int64(pReadr2) - int64((*MergeEngine)(unsafe.Pointer(pMerger)).FaReadr)) / 80)
pReadr1 = (*MergeEngine)(unsafe.Pointer(pMerger)).FaReadr + uintptr(*(*int32)(unsafe.Pointer((*MergeEngine)(unsafe.Pointer(pMerger)).FaTree + uintptr(i^0x0001)*4)))*80
}
}
*(*int32)(unsafe.Pointer(pbEof)) = libc.Bool32((*PmaReader)(unsafe.Pointer((*MergeEngine)(unsafe.Pointer(pMerger)).FaReadr+uintptr(*(*int32)(unsafe.Pointer((*MergeEngine)(unsafe.Pointer(pMerger)).FaTree + 1*4)))*80)).FpFd == uintptr(0))
}
return func() int32 {
if rc == SQLITE_OK {
return int32((*UnpackedRecord)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpUnpacked)).FerrCode)
}
return rc
}()
}
func vdbeSorterFlushThread(tls *libc.TLS, pCtx uintptr) uintptr {
var pTask uintptr = pCtx
var rc int32
rc = vdbeSorterListToPMA(tls, pTask, pTask+32)
(*SortSubtask)(unsafe.Pointer(pTask)).FbDone = 1
return uintptr(int64(rc))
}
func vdbeSorterFlushPMA(tls *libc.TLS, pSorter uintptr) int32 {
var rc int32 = SQLITE_OK
var i int32
var pTask uintptr = uintptr(0)
var nWorker int32 = int32((*VdbeSorter)(unsafe.Pointer(pSorter)).FnTask) - 1
(*VdbeSorter)(unsafe.Pointer(pSorter)).FbUsePMA = U8(1)
for i = 0; i < nWorker; i++ {
var iTest int32 = (int32((*VdbeSorter)(unsafe.Pointer(pSorter)).FiPrev) + i + 1) % nWorker
pTask = pSorter + 96 + uintptr(iTest)*104
if (*SortSubtask)(unsafe.Pointer(pTask)).FbDone != 0 {
rc = vdbeSorterJoinThread(tls, pTask)
}
if rc != SQLITE_OK || (*SortSubtask)(unsafe.Pointer(pTask)).FpThread == uintptr(0) {
break
}
}
if rc == SQLITE_OK {
if i == nWorker {
rc = vdbeSorterListToPMA(tls, pSorter+96+uintptr(nWorker)*104, pSorter+56)
} else {
var aMem uintptr
var pCtx uintptr
aMem = (*SortSubtask)(unsafe.Pointer(pTask)).Flist.FaMemory
pCtx = pTask
(*VdbeSorter)(unsafe.Pointer(pSorter)).FiPrev = U8(int64((pTask - (pSorter + 96)) / 104))
(*SortSubtask)(unsafe.Pointer(pTask)).Flist = (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist
(*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList = uintptr(0)
(*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FszPMA = 0
if aMem != 0 {
(*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory = aMem
(*VdbeSorter)(unsafe.Pointer(pSorter)).FnMemory = Xsqlite3MallocSize(tls, aMem)
} else if (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory != 0 {
(*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory = Xsqlite3Malloc(tls, uint64((*VdbeSorter)(unsafe.Pointer(pSorter)).FnMemory))
if !(int32((*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory) != 0) {
return SQLITE_NOMEM
}
}
rc = vdbeSorterCreateThread(tls, pTask, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr) uintptr
}{vdbeSorterFlushThread})), pCtx)
}
}
return rc
}
// Add a record to the sorter.
func Xsqlite3VdbeSorterWrite(tls *libc.TLS, pCsr uintptr, pVal uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pSorter uintptr
var rc int32 = SQLITE_OK
var pNew uintptr
var bFlush int32
var nReq int32
var nPMA int32
pSorter = *(*uintptr)(unsafe.Pointer(pCsr + 48))
*(*int32)(unsafe.Pointer(bp)) = int32(U32(*(*U8)(unsafe.Pointer((*Mem)(unsafe.Pointer(pVal)).Fz + 1))))
if *(*int32)(unsafe.Pointer(bp)) >= 0x80 {
Xsqlite3GetVarint32(tls, (*Mem)(unsafe.Pointer(pVal)).Fz+1, bp)
}
if *(*int32)(unsafe.Pointer(bp)) > 0 && *(*int32)(unsafe.Pointer(bp)) < 10 && *(*int32)(unsafe.Pointer(bp)) != 7 {
*(*U8)(unsafe.Pointer(pSorter + 92)) &= U8(SORTER_TYPE_INTEGER)
} else if *(*int32)(unsafe.Pointer(bp)) > 10 && *(*int32)(unsafe.Pointer(bp))&0x01 != 0 {
*(*U8)(unsafe.Pointer(pSorter + 92)) &= U8(SORTER_TYPE_TEXT)
} else {
(*VdbeSorter)(unsafe.Pointer(pSorter)).FtypeMask = U8(0)
}
nReq = int32(uint64((*Mem)(unsafe.Pointer(pVal)).Fn) + uint64(unsafe.Sizeof(SorterRecord{})))
nPMA = (*Mem)(unsafe.Pointer(pVal)).Fn + Xsqlite3VarintLen(tls, uint64((*Mem)(unsafe.Pointer(pVal)).Fn))
if (*VdbeSorter)(unsafe.Pointer(pSorter)).FmxPmaSize != 0 {
if (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory != 0 {
bFlush = libc.Bool32((*VdbeSorter)(unsafe.Pointer(pSorter)).FiMemory != 0 && (*VdbeSorter)(unsafe.Pointer(pSorter)).FiMemory+nReq > (*VdbeSorter)(unsafe.Pointer(pSorter)).FmxPmaSize)
} else {
bFlush = libc.Bool32((*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FszPMA > (*VdbeSorter)(unsafe.Pointer(pSorter)).FmxPmaSize ||
(*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FszPMA > (*VdbeSorter)(unsafe.Pointer(pSorter)).FmnPmaSize && Xsqlite3HeapNearlyFull(tls) != 0)
}
if bFlush != 0 {
rc = vdbeSorterFlushPMA(tls, pSorter)
(*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FszPMA = 0
(*VdbeSorter)(unsafe.Pointer(pSorter)).FiMemory = 0
}
}
*(*int32)(unsafe.Pointer(pSorter + 56 + 16)) += nPMA
if nPMA > (*VdbeSorter)(unsafe.Pointer(pSorter)).FmxKeysize {
(*VdbeSorter)(unsafe.Pointer(pSorter)).FmxKeysize = nPMA
}
if (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory != 0 {
var nMin int32 = (*VdbeSorter)(unsafe.Pointer(pSorter)).FiMemory + nReq
if nMin > (*VdbeSorter)(unsafe.Pointer(pSorter)).FnMemory {
var aNew uintptr
var nNew Sqlite3_int64 = int64(2) * Sqlite3_int64((*VdbeSorter)(unsafe.Pointer(pSorter)).FnMemory)
var iListOff int32 = -1
if (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList != 0 {
iListOff = int32((int64((*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList) - int64((*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory)) / 1)
}
for nNew < Sqlite3_int64(nMin) {
nNew = nNew * int64(2)
}
if nNew > Sqlite3_int64((*VdbeSorter)(unsafe.Pointer(pSorter)).FmxPmaSize) {
nNew = Sqlite3_int64((*VdbeSorter)(unsafe.Pointer(pSorter)).FmxPmaSize)
}
if nNew < Sqlite3_int64(nMin) {
nNew = Sqlite3_int64(nMin)
}
aNew = Xsqlite3Realloc(tls, (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory, uint64(nNew))
if !(aNew != 0) {
return SQLITE_NOMEM
}
if iListOff >= 0 {
(*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList = aNew + uintptr(iListOff)
}
(*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory = aNew
(*VdbeSorter)(unsafe.Pointer(pSorter)).FnMemory = int32(nNew)
}
pNew = (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory + uintptr((*VdbeSorter)(unsafe.Pointer(pSorter)).FiMemory)
*(*int32)(unsafe.Pointer(pSorter + 80)) += (nReq + 7) & libc.CplInt32(7)
if (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList != 0 {
*(*int32)(unsafe.Pointer(pNew + 8)) = int32((int64((*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList) - int64((*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory)) / 1)
}
} else {
pNew = Xsqlite3Malloc(tls, uint64(nReq))
if pNew == uintptr(0) {
return SQLITE_NOMEM
}
*(*uintptr)(unsafe.Pointer(pNew + 8)) = (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList
}
libc.X__builtin___memcpy_chk(tls, pNew+uintptr(1)*16, (*Mem)(unsafe.Pointer(pVal)).Fz, uint64((*Mem)(unsafe.Pointer(pVal)).Fn), libc.X__builtin_object_size(tls, pNew+uintptr(1)*16, 0))
(*SorterRecord)(unsafe.Pointer(pNew)).FnVal = (*Mem)(unsafe.Pointer(pVal)).Fn
(*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList = pNew
return rc
}
func vdbeIncrPopulate(tls *libc.TLS, pIncr uintptr) int32 {
bp := tls.Alloc(52)
defer tls.Free(52)
var rc int32 = SQLITE_OK
var rc2 int32
var iStart I64 = (*IncrMerger)(unsafe.Pointer(pIncr)).FiStartOff
var pOut uintptr = pIncr + 40 + 1*16
var pTask uintptr = (*IncrMerger)(unsafe.Pointer(pIncr)).FpTask
var pMerger uintptr = (*IncrMerger)(unsafe.Pointer(pIncr)).FpMerger
vdbePmaWriterInit(tls, (*SorterFile)(unsafe.Pointer(pOut)).FpFd, bp, (*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).Fpgsz, iStart)
for rc == SQLITE_OK {
var pReader uintptr = (*MergeEngine)(unsafe.Pointer(pMerger)).FaReadr + uintptr(*(*int32)(unsafe.Pointer((*MergeEngine)(unsafe.Pointer(pMerger)).FaTree + 1*4)))*80
var nKey int32 = (*PmaReader)(unsafe.Pointer(pReader)).FnKey
var iEof I64 = (*PmaWriter)(unsafe.Pointer(bp)).FiWriteOff + I64((*PmaWriter)(unsafe.Pointer(bp)).FiBufEnd)
if (*PmaReader)(unsafe.Pointer(pReader)).FpFd == uintptr(0) {
break
}
if iEof+I64(nKey)+I64(Xsqlite3VarintLen(tls, uint64(nKey))) > iStart+I64((*IncrMerger)(unsafe.Pointer(pIncr)).FmxSz) {
break
}
vdbePmaWriteVarint(tls, bp, uint64(nKey))
vdbePmaWriteBlob(tls, bp, (*PmaReader)(unsafe.Pointer(pReader)).FaKey, nKey)
rc = vdbeMergeEngineStep(tls, (*IncrMerger)(unsafe.Pointer(pIncr)).FpMerger, bp+48)
}
rc2 = vdbePmaWriterFinish(tls, bp, pOut+8)
if rc == SQLITE_OK {
rc = rc2
}
return rc
}
func vdbeIncrPopulateThread(tls *libc.TLS, pCtx uintptr) uintptr {
var pIncr uintptr = pCtx
var pRet uintptr = uintptr(int64(vdbeIncrPopulate(tls, pIncr)))
(*SortSubtask)(unsafe.Pointer((*IncrMerger)(unsafe.Pointer(pIncr)).FpTask)).FbDone = 1
return pRet
}
func vdbeIncrBgPopulate(tls *libc.TLS, pIncr uintptr) int32 {
var p uintptr = pIncr
return vdbeSorterCreateThread(tls, (*IncrMerger)(unsafe.Pointer(pIncr)).FpTask, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr) uintptr
}{vdbeIncrPopulateThread})), p)
}
func vdbeIncrSwap(tls *libc.TLS, pIncr uintptr) int32 {
var rc int32 = SQLITE_OK
if (*IncrMerger)(unsafe.Pointer(pIncr)).FbUseThread != 0 {
rc = vdbeSorterJoinThread(tls, (*IncrMerger)(unsafe.Pointer(pIncr)).FpTask)
if rc == SQLITE_OK {
var f0 = *(*SorterFile)(unsafe.Pointer(pIncr + 40))
*(*SorterFile)(unsafe.Pointer(pIncr + 40)) = *(*SorterFile)(unsafe.Pointer(pIncr + 40 + 1*16))
*(*SorterFile)(unsafe.Pointer(pIncr + 40 + 1*16)) = f0
}
if rc == SQLITE_OK {
if (*SorterFile)(unsafe.Pointer(pIncr+40)).FiEof == (*IncrMerger)(unsafe.Pointer(pIncr)).FiStartOff {
(*IncrMerger)(unsafe.Pointer(pIncr)).FbEof = 1
} else {
rc = vdbeIncrBgPopulate(tls, pIncr)
}
}
} else {
rc = vdbeIncrPopulate(tls, pIncr)
*(*SorterFile)(unsafe.Pointer(pIncr + 40)) = *(*SorterFile)(unsafe.Pointer(pIncr + 40 + 1*16))
if (*SorterFile)(unsafe.Pointer(pIncr+40)).FiEof == (*IncrMerger)(unsafe.Pointer(pIncr)).FiStartOff {
(*IncrMerger)(unsafe.Pointer(pIncr)).FbEof = 1
}
}
return rc
}
func vdbeIncrMergerNew(tls *libc.TLS, pTask uintptr, pMerger uintptr, ppOut uintptr) int32 {
var rc int32 = SQLITE_OK
var pIncr uintptr = libc.AssignPtrUintptr(ppOut, func() uintptr {
if Xsqlite3FaultSim(tls, 100) != 0 {
return uintptr(0)
}
return Xsqlite3MallocZero(tls, uint64(unsafe.Sizeof(IncrMerger{})))
}())
if pIncr != 0 {
(*IncrMerger)(unsafe.Pointer(pIncr)).FpMerger = pMerger
(*IncrMerger)(unsafe.Pointer(pIncr)).FpTask = pTask
(*IncrMerger)(unsafe.Pointer(pIncr)).FmxSz = func() int32 {
if (*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).FmxKeysize+9 > (*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).FmxPmaSize/2 {
return (*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).FmxKeysize + 9
}
return (*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).FmxPmaSize / 2
}()
*(*I64)(unsafe.Pointer(pTask + 88 + 8)) += I64((*IncrMerger)(unsafe.Pointer(pIncr)).FmxSz)
} else {
vdbeMergeEngineFree(tls, pMerger)
rc = SQLITE_NOMEM
}
return rc
}
func vdbeIncrMergerSetThreads(tls *libc.TLS, pIncr uintptr) {
(*IncrMerger)(unsafe.Pointer(pIncr)).FbUseThread = 1
*(*I64)(unsafe.Pointer((*IncrMerger)(unsafe.Pointer(pIncr)).FpTask + 88 + 8)) -= I64((*IncrMerger)(unsafe.Pointer(pIncr)).FmxSz)
}
func vdbeMergeEngineCompare(tls *libc.TLS, pMerger uintptr, iOut int32) {
bp := tls.Alloc(4)
defer tls.Free(4)
var i1 int32
var i2 int32
var iRes int32
var p1 uintptr
var p2 uintptr
if iOut >= (*MergeEngine)(unsafe.Pointer(pMerger)).FnTree/2 {
i1 = (iOut - (*MergeEngine)(unsafe.Pointer(pMerger)).FnTree/2) * 2
i2 = i1 + 1
} else {
i1 = *(*int32)(unsafe.Pointer((*MergeEngine)(unsafe.Pointer(pMerger)).FaTree + uintptr(iOut*2)*4))
i2 = *(*int32)(unsafe.Pointer((*MergeEngine)(unsafe.Pointer(pMerger)).FaTree + uintptr(iOut*2+1)*4))
}
p1 = (*MergeEngine)(unsafe.Pointer(pMerger)).FaReadr + uintptr(i1)*80
p2 = (*MergeEngine)(unsafe.Pointer(pMerger)).FaReadr + uintptr(i2)*80
if (*PmaReader)(unsafe.Pointer(p1)).FpFd == uintptr(0) {
iRes = i2
} else if (*PmaReader)(unsafe.Pointer(p2)).FpFd == uintptr(0) {
iRes = i1
} else {
var pTask uintptr = (*MergeEngine)(unsafe.Pointer(pMerger)).FpTask
*(*int32)(unsafe.Pointer(bp)) = 0
var res int32
res = (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*SortSubtask)(unsafe.Pointer(pTask)).FxCompare})).f(tls,
pTask, bp, (*PmaReader)(unsafe.Pointer(p1)).FaKey, (*PmaReader)(unsafe.Pointer(p1)).FnKey, (*PmaReader)(unsafe.Pointer(p2)).FaKey, (*PmaReader)(unsafe.Pointer(p2)).FnKey)
if res <= 0 {
iRes = i1
} else {
iRes = i2
}
}
*(*int32)(unsafe.Pointer((*MergeEngine)(unsafe.Pointer(pMerger)).FaTree + uintptr(iOut)*4)) = iRes
}
func vdbeMergeEngineInit(tls *libc.TLS, pTask uintptr, pMerger uintptr, eMode int32) int32 {
var rc int32 = SQLITE_OK
var i int32
var nTree int32
(*MergeEngine)(unsafe.Pointer(pMerger)).FpTask = pTask
nTree = (*MergeEngine)(unsafe.Pointer(pMerger)).FnTree
for i = 0; i < nTree; i++ {
if SQLITE_MAX_WORKER_THREADS > 0 && eMode == INCRINIT_ROOT {
rc = vdbePmaReaderNext(tls, (*MergeEngine)(unsafe.Pointer(pMerger)).FaReadr+uintptr(nTree-i-1)*80)
} else {
rc = vdbePmaReaderIncrInit(tls, (*MergeEngine)(unsafe.Pointer(pMerger)).FaReadr+uintptr(i)*80, INCRINIT_NORMAL)
}
if rc != SQLITE_OK {
return rc
}
}
for i = (*MergeEngine)(unsafe.Pointer(pMerger)).FnTree - 1; i > 0; i-- {
vdbeMergeEngineCompare(tls, pMerger, i)
}
return int32((*UnpackedRecord)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpUnpacked)).FerrCode)
}
func vdbePmaReaderIncrMergeInit(tls *libc.TLS, pReadr uintptr, eMode int32) int32 {
var rc int32 = SQLITE_OK
var pIncr uintptr = (*PmaReader)(unsafe.Pointer(pReadr)).FpIncr
var pTask uintptr = (*IncrMerger)(unsafe.Pointer(pIncr)).FpTask
var db uintptr = (*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask)).FpSorter)).Fdb
rc = vdbeMergeEngineInit(tls, pTask, (*IncrMerger)(unsafe.Pointer(pIncr)).FpMerger, eMode)
if rc == SQLITE_OK {
var mxSz int32 = (*IncrMerger)(unsafe.Pointer(pIncr)).FmxSz
if (*IncrMerger)(unsafe.Pointer(pIncr)).FbUseThread != 0 {
rc = vdbeSorterOpenTempFile(tls, db, int64(mxSz), pIncr+40)
if rc == SQLITE_OK {
rc = vdbeSorterOpenTempFile(tls, db, int64(mxSz), pIncr+40+1*16)
}
} else {
if (*SortSubtask)(unsafe.Pointer(pTask)).Ffile2.FpFd == uintptr(0) {
rc = vdbeSorterOpenTempFile(tls, db, (*SortSubtask)(unsafe.Pointer(pTask)).Ffile2.FiEof, pTask+88)
(*SortSubtask)(unsafe.Pointer(pTask)).Ffile2.FiEof = int64(0)
}
if rc == SQLITE_OK {
(*SorterFile)(unsafe.Pointer(pIncr + 40 + 1*16)).FpFd = (*SortSubtask)(unsafe.Pointer(pTask)).Ffile2.FpFd
(*IncrMerger)(unsafe.Pointer(pIncr)).FiStartOff = (*SortSubtask)(unsafe.Pointer(pTask)).Ffile2.FiEof
*(*I64)(unsafe.Pointer(pTask + 88 + 8)) += I64(mxSz)
}
}
}
if rc == SQLITE_OK && (*IncrMerger)(unsafe.Pointer(pIncr)).FbUseThread != 0 {
rc = vdbeIncrPopulate(tls, pIncr)
}
if rc == SQLITE_OK && (SQLITE_MAX_WORKER_THREADS == 0 || eMode != INCRINIT_TASK) {
rc = vdbePmaReaderNext(tls, pReadr)
}
return rc
}
func vdbePmaReaderBgIncrInit(tls *libc.TLS, pCtx uintptr) uintptr {
var pReader uintptr = pCtx
var pRet uintptr = uintptr(int64(vdbePmaReaderIncrMergeInit(tls, pReader, INCRINIT_TASK)))
(*SortSubtask)(unsafe.Pointer((*IncrMerger)(unsafe.Pointer((*PmaReader)(unsafe.Pointer(pReader)).FpIncr)).FpTask)).FbDone = 1
return pRet
}
func vdbePmaReaderIncrInit(tls *libc.TLS, pReadr uintptr, eMode int32) int32 {
var pIncr uintptr = (*PmaReader)(unsafe.Pointer(pReadr)).FpIncr
var rc int32 = SQLITE_OK
if pIncr != 0 {
if (*IncrMerger)(unsafe.Pointer(pIncr)).FbUseThread != 0 {
var pCtx uintptr = pReadr
rc = vdbeSorterCreateThread(tls, (*IncrMerger)(unsafe.Pointer(pIncr)).FpTask, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr) uintptr
}{vdbePmaReaderBgIncrInit})), pCtx)
} else {
rc = vdbePmaReaderIncrMergeInit(tls, pReadr, eMode)
}
}
return rc
}
func vdbeMergeEngineLevel0(tls *libc.TLS, pTask uintptr, nPMA int32, piOffset uintptr, ppOut uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pNew uintptr
var iOff I64 = *(*I64)(unsafe.Pointer(piOffset))
var i int32
var rc int32 = SQLITE_OK
*(*uintptr)(unsafe.Pointer(ppOut)) = libc.AssignUintptr(&pNew, vdbeMergeEngineNew(tls, nPMA))
if pNew == uintptr(0) {
rc = SQLITE_NOMEM
}
for i = 0; i < nPMA && rc == SQLITE_OK; i++ {
*(*I64)(unsafe.Pointer(bp)) = int64(0)
var pReadr uintptr = (*MergeEngine)(unsafe.Pointer(pNew)).FaReadr + uintptr(i)*80
rc = vdbePmaReaderInit(tls, pTask, pTask+72, iOff, pReadr, bp)
iOff = (*PmaReader)(unsafe.Pointer(pReadr)).FiEof
}
if rc != SQLITE_OK {
vdbeMergeEngineFree(tls, pNew)
*(*uintptr)(unsafe.Pointer(ppOut)) = uintptr(0)
}
*(*I64)(unsafe.Pointer(piOffset)) = iOff
return rc
}
func vdbeSorterTreeDepth(tls *libc.TLS, nPMA int32) int32 {
var nDepth int32 = 0
var nDiv I64 = int64(SORTER_MAX_MERGE_COUNT)
for nDiv < I64(nPMA) {
nDiv = nDiv * int64(SORTER_MAX_MERGE_COUNT)
nDepth++
}
return nDepth
}
func vdbeSorterAddToTree(tls *libc.TLS, pTask uintptr, nDepth int32, iSeq int32, pRoot uintptr, pLeaf uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
var nDiv int32 = 1
var i int32
var p uintptr = pRoot
rc = vdbeIncrMergerNew(tls, pTask, pLeaf, bp)
for i = 1; i < nDepth; i++ {
nDiv = nDiv * SORTER_MAX_MERGE_COUNT
}
for i = 1; i < nDepth && rc == SQLITE_OK; i++ {
var iIter int32 = iSeq / nDiv % SORTER_MAX_MERGE_COUNT
var pReadr uintptr = (*MergeEngine)(unsafe.Pointer(p)).FaReadr + uintptr(iIter)*80
if (*PmaReader)(unsafe.Pointer(pReadr)).FpIncr == uintptr(0) {
var pNew uintptr = vdbeMergeEngineNew(tls, SORTER_MAX_MERGE_COUNT)
if pNew == uintptr(0) {
rc = SQLITE_NOMEM
} else {
rc = vdbeIncrMergerNew(tls, pTask, pNew, pReadr+72)
}
}
if rc == SQLITE_OK {
p = (*IncrMerger)(unsafe.Pointer((*PmaReader)(unsafe.Pointer(pReadr)).FpIncr)).FpMerger
nDiv = nDiv / SORTER_MAX_MERGE_COUNT
}
}
if rc == SQLITE_OK {
(*PmaReader)(unsafe.Pointer((*MergeEngine)(unsafe.Pointer(p)).FaReadr + uintptr(iSeq%SORTER_MAX_MERGE_COUNT)*80)).FpIncr = *(*uintptr)(unsafe.Pointer(bp))
} else {
vdbeIncrFree(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
return rc
}
func vdbeSorterMergeTreeBuild(tls *libc.TLS, pSorter uintptr, ppOut uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var pMain uintptr = uintptr(0)
var rc int32 = SQLITE_OK
var iTask int32
if int32((*VdbeSorter)(unsafe.Pointer(pSorter)).FnTask) > 1 {
pMain = vdbeMergeEngineNew(tls, int32((*VdbeSorter)(unsafe.Pointer(pSorter)).FnTask))
if pMain == uintptr(0) {
rc = SQLITE_NOMEM
}
}
for iTask = 0; rc == SQLITE_OK && iTask < int32((*VdbeSorter)(unsafe.Pointer(pSorter)).FnTask); iTask++ {
var pTask uintptr = pSorter + 96 + uintptr(iTask)*104
if SQLITE_MAX_WORKER_THREADS == 0 || (*SortSubtask)(unsafe.Pointer(pTask)).FnPMA != 0 {
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
var nDepth int32 = vdbeSorterTreeDepth(tls, (*SortSubtask)(unsafe.Pointer(pTask)).FnPMA)
*(*I64)(unsafe.Pointer(bp)) = int64(0)
if (*SortSubtask)(unsafe.Pointer(pTask)).FnPMA <= SORTER_MAX_MERGE_COUNT {
rc = vdbeMergeEngineLevel0(tls, pTask, (*SortSubtask)(unsafe.Pointer(pTask)).FnPMA, bp, bp+8)
} else {
var i int32
var iSeq int32 = 0
*(*uintptr)(unsafe.Pointer(bp + 8)) = vdbeMergeEngineNew(tls, SORTER_MAX_MERGE_COUNT)
if *(*uintptr)(unsafe.Pointer(bp + 8)) == uintptr(0) {
rc = SQLITE_NOMEM
}
for i = 0; i < (*SortSubtask)(unsafe.Pointer(pTask)).FnPMA && rc == SQLITE_OK; i = i + SORTER_MAX_MERGE_COUNT {
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
var nReader int32
nReader = func() int32 {
if (*SortSubtask)(unsafe.Pointer(pTask)).FnPMA-i < SORTER_MAX_MERGE_COUNT {
return (*SortSubtask)(unsafe.Pointer(pTask)).FnPMA - i
}
return SORTER_MAX_MERGE_COUNT
}()
rc = vdbeMergeEngineLevel0(tls, pTask, nReader, bp, bp+16)
if rc == SQLITE_OK {
rc = vdbeSorterAddToTree(tls, pTask, nDepth, libc.PostIncInt32(&iSeq, 1), *(*uintptr)(unsafe.Pointer(bp + 8)), *(*uintptr)(unsafe.Pointer(bp + 16)))
}
}
}
if rc == SQLITE_OK {
if pMain != uintptr(0) {
rc = vdbeIncrMergerNew(tls, pTask, *(*uintptr)(unsafe.Pointer(bp + 8)), (*MergeEngine)(unsafe.Pointer(pMain)).FaReadr+uintptr(iTask)*80+72)
} else {
pMain = *(*uintptr)(unsafe.Pointer(bp + 8))
}
} else {
vdbeMergeEngineFree(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
}
}
if rc != SQLITE_OK {
vdbeMergeEngineFree(tls, pMain)
pMain = uintptr(0)
}
*(*uintptr)(unsafe.Pointer(ppOut)) = pMain
return rc
}
func vdbeSorterSetupMerge(tls *libc.TLS, pSorter uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
var pTask0 uintptr = pSorter + 96
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var db uintptr = (*VdbeSorter)(unsafe.Pointer((*SortSubtask)(unsafe.Pointer(pTask0)).FpSorter)).Fdb
var i int32
var xCompare SorterCompare = vdbeSorterGetCompare(tls, pSorter)
for i = 0; i < int32((*VdbeSorter)(unsafe.Pointer(pSorter)).FnTask); i++ {
(*SortSubtask)(unsafe.Pointer(pSorter + 96 + uintptr(i)*104)).FxCompare = xCompare
}
rc = vdbeSorterMergeTreeBuild(tls, pSorter, bp)
if rc == SQLITE_OK {
if (*VdbeSorter)(unsafe.Pointer(pSorter)).FbUseThreads != 0 {
var iTask int32
var pReadr uintptr = uintptr(0)
var pLast uintptr = pSorter + 96 + uintptr(int32((*VdbeSorter)(unsafe.Pointer(pSorter)).FnTask)-1)*104
rc = vdbeSortAllocUnpacked(tls, pLast)
if rc == SQLITE_OK {
pReadr = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(PmaReader{})))
(*VdbeSorter)(unsafe.Pointer(pSorter)).FpReader = pReadr
if pReadr == uintptr(0) {
rc = SQLITE_NOMEM
}
}
if rc == SQLITE_OK {
rc = vdbeIncrMergerNew(tls, pLast, *(*uintptr)(unsafe.Pointer(bp)), pReadr+72)
if rc == SQLITE_OK {
vdbeIncrMergerSetThreads(tls, (*PmaReader)(unsafe.Pointer(pReadr)).FpIncr)
for iTask = 0; iTask < int32((*VdbeSorter)(unsafe.Pointer(pSorter)).FnTask)-1; iTask++ {
var pIncr uintptr
if libc.AssignUintptr(&pIncr, (*PmaReader)(unsafe.Pointer((*MergeEngine)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaReadr+uintptr(iTask)*80)).FpIncr) != 0 {
vdbeIncrMergerSetThreads(tls, pIncr)
}
}
for iTask = 0; rc == SQLITE_OK && iTask < int32((*VdbeSorter)(unsafe.Pointer(pSorter)).FnTask); iTask++ {
var p uintptr = (*MergeEngine)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaReadr + uintptr(iTask)*80
rc = vdbePmaReaderIncrInit(tls, p, INCRINIT_TASK)
}
}
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
}
if rc == SQLITE_OK {
rc = vdbePmaReaderIncrMergeInit(tls, pReadr, INCRINIT_ROOT)
}
} else {
rc = vdbeMergeEngineInit(tls, pTask0, *(*uintptr)(unsafe.Pointer(bp)), INCRINIT_NORMAL)
(*VdbeSorter)(unsafe.Pointer(pSorter)).FpMerger = *(*uintptr)(unsafe.Pointer(bp))
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
}
}
if rc != SQLITE_OK {
vdbeMergeEngineFree(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
return rc
}
// Once the sorter has been populated by calls to sqlite3VdbeSorterWrite,
// this function is called to prepare for iterating through the records
// in sorted order.
func Xsqlite3VdbeSorterRewind(tls *libc.TLS, pCsr uintptr, pbEof uintptr) int32 {
var pSorter uintptr
var rc int32 = SQLITE_OK
pSorter = *(*uintptr)(unsafe.Pointer(pCsr + 48))
if int32((*VdbeSorter)(unsafe.Pointer(pSorter)).FbUsePMA) == 0 {
if (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList != 0 {
*(*int32)(unsafe.Pointer(pbEof)) = 0
rc = vdbeSorterSort(tls, pSorter+96, pSorter+56)
} else {
*(*int32)(unsafe.Pointer(pbEof)) = 1
}
return rc
}
rc = vdbeSorterFlushPMA(tls, pSorter)
rc = vdbeSorterJoinAll(tls, pSorter, rc)
if rc == SQLITE_OK {
rc = vdbeSorterSetupMerge(tls, pSorter)
*(*int32)(unsafe.Pointer(pbEof)) = 0
}
return rc
}
// Advance to the next element in the sorter. Return value:
//
// SQLITE_OK success
// SQLITE_DONE end of data
// otherwise some kind of error.
func Xsqlite3VdbeSorterNext(tls *libc.TLS, db uintptr, pCsr uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pSorter uintptr
var rc int32
pSorter = *(*uintptr)(unsafe.Pointer(pCsr + 48))
if (*VdbeSorter)(unsafe.Pointer(pSorter)).FbUsePMA != 0 {
if (*VdbeSorter)(unsafe.Pointer(pSorter)).FbUseThreads != 0 {
rc = vdbePmaReaderNext(tls, (*VdbeSorter)(unsafe.Pointer(pSorter)).FpReader)
if rc == SQLITE_OK && (*PmaReader)(unsafe.Pointer((*VdbeSorter)(unsafe.Pointer(pSorter)).FpReader)).FpFd == uintptr(0) {
rc = SQLITE_DONE
}
} else {
*(*int32)(unsafe.Pointer(bp)) = 0
rc = vdbeMergeEngineStep(tls, (*VdbeSorter)(unsafe.Pointer(pSorter)).FpMerger, bp)
if rc == SQLITE_OK && *(*int32)(unsafe.Pointer(bp)) != 0 {
rc = SQLITE_DONE
}
}
} else {
var pFree uintptr = (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList
(*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList = *(*uintptr)(unsafe.Pointer(pFree + 8))
*(*uintptr)(unsafe.Pointer(pFree + 8)) = uintptr(0)
if (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FaMemory == uintptr(0) {
vdbeSorterRecordFree(tls, db, pFree)
}
if (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList != 0 {
rc = SQLITE_OK
} else {
rc = SQLITE_DONE
}
}
return rc
}
func vdbeSorterRowkey(tls *libc.TLS, pSorter uintptr, pnKey uintptr) uintptr {
var pKey uintptr
if (*VdbeSorter)(unsafe.Pointer(pSorter)).FbUsePMA != 0 {
var pReader uintptr
if (*VdbeSorter)(unsafe.Pointer(pSorter)).FbUseThreads != 0 {
pReader = (*VdbeSorter)(unsafe.Pointer(pSorter)).FpReader
} else {
pReader = (*MergeEngine)(unsafe.Pointer((*VdbeSorter)(unsafe.Pointer(pSorter)).FpMerger)).FaReadr + uintptr(*(*int32)(unsafe.Pointer((*MergeEngine)(unsafe.Pointer((*VdbeSorter)(unsafe.Pointer(pSorter)).FpMerger)).FaTree + 1*4)))*80
}
*(*int32)(unsafe.Pointer(pnKey)) = (*PmaReader)(unsafe.Pointer(pReader)).FnKey
pKey = (*PmaReader)(unsafe.Pointer(pReader)).FaKey
} else {
*(*int32)(unsafe.Pointer(pnKey)) = (*SorterRecord)(unsafe.Pointer((*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList)).FnVal
pKey = (*VdbeSorter)(unsafe.Pointer(pSorter)).Flist.FpList + uintptr(1)*16
}
return pKey
}
// Copy the current sorter key into the memory cell pOut.
func Xsqlite3VdbeSorterRowkey(tls *libc.TLS, pCsr uintptr, pOut uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pSorter uintptr
var pKey uintptr
pSorter = *(*uintptr)(unsafe.Pointer(pCsr + 48))
pKey = vdbeSorterRowkey(tls, pSorter, bp)
if Xsqlite3VdbeMemClearAndResize(tls, pOut, *(*int32)(unsafe.Pointer(bp))) != 0 {
return SQLITE_NOMEM
}
(*Mem)(unsafe.Pointer(pOut)).Fn = *(*int32)(unsafe.Pointer(bp))
(*Mem)(unsafe.Pointer(pOut)).Fflags = U16(int32((*Mem)(unsafe.Pointer(pOut)).Fflags)&libc.CplInt32(MEM_TypeMask|MEM_Zero) | MEM_Blob)
libc.X__builtin___memcpy_chk(tls, (*Mem)(unsafe.Pointer(pOut)).Fz, pKey, uint64(*(*int32)(unsafe.Pointer(bp))), libc.X__builtin_object_size(tls, (*Mem)(unsafe.Pointer(pOut)).Fz, 0))
return SQLITE_OK
}
// Compare the key in memory cell pVal with the key that the sorter cursor
// passed as the first argument currently points to. For the purposes of
// the comparison, ignore the rowid field at the end of each record.
//
// If the sorter cursor key contains any NULL values, consider it to be
// less than pVal. Even if pVal also contains NULL values.
//
// If an error occurs, return an SQLite error code (i.e. SQLITE_NOMEM).
// Otherwise, set *pRes to a negative, zero or positive value if the
// key in pVal is smaller than, equal to or larger than the current sorter
// key.
//
// This routine forms the core of the OP_SorterCompare opcode, which in
// turn is used to verify uniqueness when constructing a UNIQUE INDEX.
func Xsqlite3VdbeSorterCompare(tls *libc.TLS, pCsr uintptr, pVal uintptr, nKeyCol int32, pRes uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pSorter uintptr
var r2 uintptr
var pKeyInfo uintptr
var i int32
var pKey uintptr
pSorter = *(*uintptr)(unsafe.Pointer(pCsr + 48))
r2 = (*VdbeSorter)(unsafe.Pointer(pSorter)).FpUnpacked
pKeyInfo = (*VdbeCursor)(unsafe.Pointer(pCsr)).FpKeyInfo
if r2 == uintptr(0) {
r2 = libc.AssignPtrUintptr(pSorter+48, Xsqlite3VdbeAllocUnpackedRecord(tls, pKeyInfo))
if r2 == uintptr(0) {
return SQLITE_NOMEM
}
(*UnpackedRecord)(unsafe.Pointer(r2)).FnField = U16(nKeyCol)
}
pKey = vdbeSorterRowkey(tls, pSorter, bp)
Xsqlite3VdbeRecordUnpack(tls, pKeyInfo, *(*int32)(unsafe.Pointer(bp)), pKey, r2)
for i = 0; i < nKeyCol; i++ {
if int32((*Mem)(unsafe.Pointer((*UnpackedRecord)(unsafe.Pointer(r2)).FaMem+uintptr(i)*56)).Fflags)&MEM_Null != 0 {
*(*int32)(unsafe.Pointer(pRes)) = -1
return SQLITE_OK
}
}
*(*int32)(unsafe.Pointer(pRes)) = Xsqlite3VdbeRecordCompare(tls, (*Mem)(unsafe.Pointer(pVal)).Fn, (*Mem)(unsafe.Pointer(pVal)).Fz, r2)
return SQLITE_OK
}
// Forward references to internal structures
type MemJournal1 = struct {
FpMethod uintptr
FnChunkSize int32
FnSpill int32
FpFirst uintptr
Fendpoint FilePoint
Freadpoint FilePoint
Fflags int32
F__ccgo_pad1 [4]byte
FpVfs uintptr
FzJournal uintptr
}
// Forward references to internal structures
type MemJournal = MemJournal1
type FilePoint1 = struct {
FiOffset Sqlite3_int64
FpChunk uintptr
}
type FilePoint = FilePoint1
type FileChunk1 = struct {
FpNext uintptr
FzChunk [8]U8
}
type FileChunk = FileChunk1
func memjrnlRead(tls *libc.TLS, pJfd uintptr, zBuf uintptr, iAmt int32, iOfst Sqlite_int64) int32 {
var p uintptr = pJfd
var zOut uintptr = zBuf
var nRead int32 = iAmt
var iChunkOffset int32
var pChunk uintptr
if Sqlite_int64(iAmt)+iOfst > (*MemJournal)(unsafe.Pointer(p)).Fendpoint.FiOffset {
return SQLITE_IOERR | int32(2)<<8
}
if (*MemJournal)(unsafe.Pointer(p)).Freadpoint.FiOffset != iOfst || iOfst == int64(0) {
var iOff Sqlite3_int64 = int64(0)
for pChunk = (*MemJournal)(unsafe.Pointer(p)).FpFirst; pChunk != 0 && iOff+Sqlite3_int64((*MemJournal)(unsafe.Pointer(p)).FnChunkSize) <= iOfst; pChunk = (*FileChunk)(unsafe.Pointer(pChunk)).FpNext {
iOff = iOff + Sqlite3_int64((*MemJournal)(unsafe.Pointer(p)).FnChunkSize)
}
} else {
pChunk = (*MemJournal)(unsafe.Pointer(p)).Freadpoint.FpChunk
}
iChunkOffset = int32(iOfst % Sqlite_int64((*MemJournal)(unsafe.Pointer(p)).FnChunkSize))
for __ccgo := true; __ccgo; __ccgo = nRead >= 0 && libc.AssignUintptr(&pChunk, (*FileChunk)(unsafe.Pointer(pChunk)).FpNext) != uintptr(0) && nRead > 0 {
var iSpace int32 = (*MemJournal)(unsafe.Pointer(p)).FnChunkSize - iChunkOffset
var nCopy int32 = func() int32 {
if nRead < (*MemJournal)(unsafe.Pointer(p)).FnChunkSize-iChunkOffset {
return nRead
}
return (*MemJournal)(unsafe.Pointer(p)).FnChunkSize - iChunkOffset
}()
libc.X__builtin___memcpy_chk(tls, zOut, pChunk+8+uintptr(iChunkOffset), uint64(nCopy), libc.X__builtin_object_size(tls, zOut, 0))
zOut += uintptr(nCopy)
nRead = nRead - iSpace
iChunkOffset = 0
}
(*MemJournal)(unsafe.Pointer(p)).Freadpoint.FiOffset = func() int64 {
if pChunk != 0 {
return iOfst + Sqlite_int64(iAmt)
}
return int64(0)
}()
(*MemJournal)(unsafe.Pointer(p)).Freadpoint.FpChunk = pChunk
return SQLITE_OK
}
func memjrnlFreeChunks(tls *libc.TLS, pFirst uintptr) {
var pIter uintptr
var pNext uintptr
for pIter = pFirst; pIter != 0; pIter = pNext {
pNext = (*FileChunk)(unsafe.Pointer(pIter)).FpNext
Xsqlite3_free(tls, pIter)
}
}
func memjrnlCreateFile(tls *libc.TLS, p uintptr) int32 {
var rc int32
var pReal uintptr = p
var copy = *(*MemJournal)(unsafe.Pointer(p))
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(MemJournal{})), libc.X__builtin_object_size(tls, p, 0))
rc = Xsqlite3OsOpen(tls, copy.FpVfs, copy.FzJournal, pReal, copy.Fflags, uintptr(0))
if rc == SQLITE_OK {
var nChunk int32 = copy.FnChunkSize
var iOff I64 = int64(0)
var pIter uintptr
for pIter = copy.FpFirst; pIter != 0; pIter = (*FileChunk)(unsafe.Pointer(pIter)).FpNext {
if iOff+I64(nChunk) > copy.Fendpoint.FiOffset {
nChunk = int32(copy.Fendpoint.FiOffset - iOff)
}
rc = Xsqlite3OsWrite(tls, pReal, pIter+8, nChunk, iOff)
if rc != 0 {
break
}
iOff = iOff + I64(nChunk)
}
if rc == SQLITE_OK {
memjrnlFreeChunks(tls, copy.FpFirst)
}
}
if rc != SQLITE_OK {
Xsqlite3OsClose(tls, pReal)
*(*MemJournal)(unsafe.Pointer(p)) = copy
}
return rc
}
func memjrnlWrite(tls *libc.TLS, pJfd uintptr, zBuf uintptr, iAmt int32, iOfst Sqlite_int64) int32 {
var p uintptr = pJfd
var nWrite int32 = iAmt
var zWrite uintptr = zBuf
if (*MemJournal)(unsafe.Pointer(p)).FnSpill > 0 && Sqlite_int64(iAmt)+iOfst > Sqlite_int64((*MemJournal)(unsafe.Pointer(p)).FnSpill) {
var rc int32 = memjrnlCreateFile(tls, p)
if rc == SQLITE_OK {
rc = Xsqlite3OsWrite(tls, pJfd, zBuf, iAmt, iOfst)
}
return rc
} else {
if iOfst > int64(0) && iOfst != (*MemJournal)(unsafe.Pointer(p)).Fendpoint.FiOffset {
memjrnlTruncate(tls, pJfd, iOfst)
}
if iOfst == int64(0) && (*MemJournal)(unsafe.Pointer(p)).FpFirst != 0 {
libc.X__builtin___memcpy_chk(tls, (*MemJournal)(unsafe.Pointer(p)).FpFirst+8, zBuf, uint64(iAmt), libc.X__builtin_object_size(tls, (*MemJournal)(unsafe.Pointer(p)).FpFirst+8, 0))
} else {
for nWrite > 0 {
var pChunk uintptr = (*MemJournal)(unsafe.Pointer(p)).Fendpoint.FpChunk
var iChunkOffset int32 = int32((*MemJournal)(unsafe.Pointer(p)).Fendpoint.FiOffset % Sqlite3_int64((*MemJournal)(unsafe.Pointer(p)).FnChunkSize))
var iSpace int32 = func() int32 {
if nWrite < (*MemJournal)(unsafe.Pointer(p)).FnChunkSize-iChunkOffset {
return nWrite
}
return (*MemJournal)(unsafe.Pointer(p)).FnChunkSize - iChunkOffset
}()
if iChunkOffset == 0 {
var pNew uintptr = Xsqlite3_malloc(tls, int32(uint64(unsafe.Sizeof(FileChunk{}))+uint64((*MemJournal)(unsafe.Pointer(p)).FnChunkSize-8)))
if !(pNew != 0) {
return SQLITE_IOERR | int32(12)<<8
}
(*FileChunk)(unsafe.Pointer(pNew)).FpNext = uintptr(0)
if pChunk != 0 {
(*FileChunk)(unsafe.Pointer(pChunk)).FpNext = pNew
} else {
(*MemJournal)(unsafe.Pointer(p)).FpFirst = pNew
}
pChunk = libc.AssignPtrUintptr(p+24+8, pNew)
}
libc.X__builtin___memcpy_chk(tls, pChunk+8+uintptr(iChunkOffset), zWrite, uint64(iSpace), libc.X__builtin_object_size(tls, pChunk+8+uintptr(iChunkOffset), 0))
zWrite += uintptr(iSpace)
nWrite = nWrite - iSpace
*(*Sqlite3_int64)(unsafe.Pointer(p + 24)) += Sqlite3_int64(iSpace)
}
}
}
return SQLITE_OK
}
func memjrnlTruncate(tls *libc.TLS, pJfd uintptr, size Sqlite_int64) int32 {
var p uintptr = pJfd
if size < (*MemJournal)(unsafe.Pointer(p)).Fendpoint.FiOffset {
var pIter uintptr = uintptr(0)
if size == int64(0) {
memjrnlFreeChunks(tls, (*MemJournal)(unsafe.Pointer(p)).FpFirst)
(*MemJournal)(unsafe.Pointer(p)).FpFirst = uintptr(0)
} else {
var iOff I64 = I64((*MemJournal)(unsafe.Pointer(p)).FnChunkSize)
for pIter = (*MemJournal)(unsafe.Pointer(p)).FpFirst; pIter != 0 && iOff < size; pIter = (*FileChunk)(unsafe.Pointer(pIter)).FpNext {
iOff = iOff + I64((*MemJournal)(unsafe.Pointer(p)).FnChunkSize)
}
if pIter != 0 {
memjrnlFreeChunks(tls, (*FileChunk)(unsafe.Pointer(pIter)).FpNext)
(*FileChunk)(unsafe.Pointer(pIter)).FpNext = uintptr(0)
}
}
(*MemJournal)(unsafe.Pointer(p)).Fendpoint.FpChunk = pIter
(*MemJournal)(unsafe.Pointer(p)).Fendpoint.FiOffset = size
(*MemJournal)(unsafe.Pointer(p)).Freadpoint.FpChunk = uintptr(0)
(*MemJournal)(unsafe.Pointer(p)).Freadpoint.FiOffset = int64(0)
}
return SQLITE_OK
}
func memjrnlClose(tls *libc.TLS, pJfd uintptr) int32 {
var p uintptr = pJfd
memjrnlFreeChunks(tls, (*MemJournal)(unsafe.Pointer(p)).FpFirst)
return SQLITE_OK
}
func memjrnlSync(tls *libc.TLS, pJfd uintptr, flags int32) int32 {
_ = pJfd
_ = flags
return SQLITE_OK
}
func memjrnlFileSize(tls *libc.TLS, pJfd uintptr, pSize uintptr) int32 {
var p uintptr = pJfd
*(*Sqlite_int64)(unsafe.Pointer(pSize)) = (*MemJournal)(unsafe.Pointer(p)).Fendpoint.FiOffset
return SQLITE_OK
}
var sMemJournalMethods = sqlite3_io_methods{
FiVersion: 1,
FxClose: 0,
FxRead: 0,
FxWrite: 0,
FxTruncate: 0,
FxSync: 0,
FxFileSize: 0,
}
// Open a journal file.
//
// The behaviour of the journal file depends on the value of parameter
// nSpill. If nSpill is 0, then the journal file is always create and
// accessed using the underlying VFS. If nSpill is less than zero, then
// all content is always stored in main-memory. Finally, if nSpill is a
// positive value, then the journal file is initially created in-memory
// but may be flushed to disk later on. In this case the journal file is
// flushed to disk either when it grows larger than nSpill bytes in size,
// or when sqlite3JournalCreate() is called.
func Xsqlite3JournalOpen(tls *libc.TLS, pVfs uintptr, zName uintptr, pJfd uintptr, flags int32, nSpill int32) int32 {
var p uintptr = pJfd
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(MemJournal{})), libc.X__builtin_object_size(tls, p, 0))
if nSpill == 0 {
return Xsqlite3OsOpen(tls, pVfs, zName, pJfd, flags, uintptr(0))
}
if nSpill > 0 {
(*MemJournal)(unsafe.Pointer(p)).FnChunkSize = nSpill
} else {
(*MemJournal)(unsafe.Pointer(p)).FnChunkSize = int32(uint64(8+MEMJOURNAL_DFLT_FILECHUNKSIZE) - uint64(unsafe.Sizeof(FileChunk{})))
}
(*Sqlite3_file)(unsafe.Pointer(pJfd)).FpMethods = uintptr(unsafe.Pointer(&sMemJournalMethods))
(*MemJournal)(unsafe.Pointer(p)).FnSpill = nSpill
(*MemJournal)(unsafe.Pointer(p)).Fflags = flags
(*MemJournal)(unsafe.Pointer(p)).FzJournal = zName
(*MemJournal)(unsafe.Pointer(p)).FpVfs = pVfs
return SQLITE_OK
}
// Open an in-memory journal file.
func Xsqlite3MemJournalOpen(tls *libc.TLS, pJfd uintptr) {
Xsqlite3JournalOpen(tls, uintptr(0), uintptr(0), pJfd, 0, -1)
}
// The file-handle passed as the only argument is open on a journal file.
// Return true if this "journal file" is currently stored in heap memory,
// or false otherwise.
func Xsqlite3JournalIsInMemory(tls *libc.TLS, p uintptr) int32 {
return libc.Bool32((*Sqlite3_file)(unsafe.Pointer(p)).FpMethods == uintptr(unsafe.Pointer(&sMemJournalMethods)))
}
// Return the number of bytes required to store a JournalFile that uses vfs
// pVfs to create the underlying on-disk files.
func Xsqlite3JournalSize(tls *libc.TLS, pVfs uintptr) int32 {
return func() int32 {
if (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FszOsFile > int32(unsafe.Sizeof(MemJournal{})) {
return (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FszOsFile
}
return int32(unsafe.Sizeof(MemJournal{}))
}()
}
func walkWindowList(tls *libc.TLS, pWalker uintptr, pList uintptr, bOneOnly int32) int32 {
var pWin uintptr
for pWin = pList; pWin != 0; pWin = (*Window)(unsafe.Pointer(pWin)).FpNextWin {
var rc int32
rc = Xsqlite3WalkExprList(tls, pWalker, (*Window)(unsafe.Pointer(pWin)).FpOrderBy)
if rc != 0 {
return WRC_Abort
}
rc = Xsqlite3WalkExprList(tls, pWalker, (*Window)(unsafe.Pointer(pWin)).FpPartition)
if rc != 0 {
return WRC_Abort
}
rc = Xsqlite3WalkExpr(tls, pWalker, (*Window)(unsafe.Pointer(pWin)).FpFilter)
if rc != 0 {
return WRC_Abort
}
rc = Xsqlite3WalkExpr(tls, pWalker, (*Window)(unsafe.Pointer(pWin)).FpStart)
if rc != 0 {
return WRC_Abort
}
rc = Xsqlite3WalkExpr(tls, pWalker, (*Window)(unsafe.Pointer(pWin)).FpEnd)
if rc != 0 {
return WRC_Abort
}
if bOneOnly != 0 {
break
}
}
return WRC_Continue
}
func walkExpr(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
var rc int32
for 1 != 0 {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Walker)(unsafe.Pointer(pWalker)).FxExprCallback})).f(tls, pWalker, pExpr)
if rc != 0 {
return rc & WRC_Abort
}
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_TokenOnly|EP_Leaf) != U32(0)) {
if (*Expr)(unsafe.Pointer(pExpr)).FpLeft != 0 && walkExpr(tls, pWalker, (*Expr)(unsafe.Pointer(pExpr)).FpLeft) != 0 {
return WRC_Abort
}
if (*Expr)(unsafe.Pointer(pExpr)).FpRight != 0 {
pExpr = (*Expr)(unsafe.Pointer(pExpr)).FpRight
continue
} else if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_xIsSelect) != U32(0) {
if Xsqlite3WalkSelect(tls, pWalker, *(*uintptr)(unsafe.Pointer(pExpr + 32))) != 0 {
return WRC_Abort
}
} else {
if *(*uintptr)(unsafe.Pointer(pExpr + 32)) != 0 {
if Xsqlite3WalkExprList(tls, pWalker, *(*uintptr)(unsafe.Pointer(pExpr + 32))) != 0 {
return WRC_Abort
}
}
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc) != U32(0) {
if walkWindowList(tls, pWalker, *(*uintptr)(unsafe.Pointer(pExpr + 64)), 1) != 0 {
return WRC_Abort
}
}
}
}
break
}
return WRC_Continue
}
func Xsqlite3WalkExpr(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
if pExpr != 0 {
return walkExpr(tls, pWalker, pExpr)
}
return WRC_Continue
}
// Call sqlite3WalkExpr() for every expression in list p or until
// an abort request is seen.
func Xsqlite3WalkExprList(tls *libc.TLS, pWalker uintptr, p uintptr) int32 {
var i int32
var pItem uintptr
if p != 0 {
i = (*ExprList)(unsafe.Pointer(p)).FnExpr
pItem = p + 8
__1:
if !(i > 0) {
goto __3
}
{
if Xsqlite3WalkExpr(tls, pWalker, (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr) != 0 {
return WRC_Abort
}
}
goto __2
__2:
i--
pItem += 32
goto __1
goto __3
__3:
}
return WRC_Continue
}
// This is a no-op callback for Walker->xSelectCallback2. If this
// callback is set, then the Select->pWinDefn list is traversed.
func Xsqlite3WalkWinDefnDummyCallback(tls *libc.TLS, pWalker uintptr, p uintptr) {
_ = pWalker
_ = p
}
// Walk all expressions associated with SELECT statement p. Do
// not invoke the SELECT callback on p, but do (of course) invoke
// any expr callbacks and SELECT callbacks that come from subqueries.
// Return WRC_Abort or WRC_Continue.
func Xsqlite3WalkSelectExpr(tls *libc.TLS, pWalker uintptr, p uintptr) int32 {
if Xsqlite3WalkExprList(tls, pWalker, (*Select)(unsafe.Pointer(p)).FpEList) != 0 {
return WRC_Abort
}
if Xsqlite3WalkExpr(tls, pWalker, (*Select)(unsafe.Pointer(p)).FpWhere) != 0 {
return WRC_Abort
}
if Xsqlite3WalkExprList(tls, pWalker, (*Select)(unsafe.Pointer(p)).FpGroupBy) != 0 {
return WRC_Abort
}
if Xsqlite3WalkExpr(tls, pWalker, (*Select)(unsafe.Pointer(p)).FpHaving) != 0 {
return WRC_Abort
}
if Xsqlite3WalkExprList(tls, pWalker, (*Select)(unsafe.Pointer(p)).FpOrderBy) != 0 {
return WRC_Abort
}
if Xsqlite3WalkExpr(tls, pWalker, (*Select)(unsafe.Pointer(p)).FpLimit) != 0 {
return WRC_Abort
}
if (*Select)(unsafe.Pointer(p)).FpWinDefn != 0 {
var pParse uintptr
if (*Walker)(unsafe.Pointer(pWalker)).FxSelectCallback2 == *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3WalkWinDefnDummyCallback})) ||
libc.AssignUintptr(&pParse, (*Walker)(unsafe.Pointer(pWalker)).FpParse) != uintptr(0) && int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME ||
(*Walker)(unsafe.Pointer(pWalker)).FxSelectCallback2 == *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3SelectPopWith})) {
var rc int32 = walkWindowList(tls, pWalker, (*Select)(unsafe.Pointer(p)).FpWinDefn, 0)
return rc
}
}
return WRC_Continue
}
// Walk the parse trees associated with all subqueries in the
// FROM clause of SELECT statement p. Do not invoke the select
// callback on p, but do invoke it on each FROM clause subquery
// and on any subqueries further down in the tree. Return
// WRC_Abort or WRC_Continue;
func Xsqlite3WalkSelectFrom(tls *libc.TLS, pWalker uintptr, p uintptr) int32 {
var pSrc uintptr
var i int32
var pItem uintptr
pSrc = (*Select)(unsafe.Pointer(p)).FpSrc
if pSrc != 0 {
i = (*SrcList)(unsafe.Pointer(pSrc)).FnSrc
pItem = pSrc + 8
__1:
if !(i > 0) {
goto __3
}
{
if (*SrcItem)(unsafe.Pointer(pItem)).FpSelect != 0 && Xsqlite3WalkSelect(tls, pWalker, (*SrcItem)(unsafe.Pointer(pItem)).FpSelect) != 0 {
return WRC_Abort
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x4>>2)) != 0 &&
Xsqlite3WalkExprList(tls, pWalker, *(*uintptr)(unsafe.Pointer(pItem + 88))) != 0 {
return WRC_Abort
}
}
goto __2
__2:
i--
pItem += 104
goto __1
goto __3
__3:
}
return WRC_Continue
}
// Call sqlite3WalkExpr() for every expression in Select statement p.
// Invoke sqlite3WalkSelect() for subqueries in the FROM clause and
// on the compound select chain, p->pPrior.
//
// If it is not NULL, the xSelectCallback() callback is invoked before
// the walk of the expressions and FROM clause. The xSelectCallback2()
// method is invoked following the walk of the expressions and FROM clause,
// but only if both xSelectCallback and xSelectCallback2 are both non-NULL
// and if the expressions and FROM clause both return WRC_Continue;
//
// Return WRC_Continue under normal conditions. Return WRC_Abort if
// there is an abort request.
//
// If the Walker does not have an xSelectCallback() then this routine
// is a no-op returning WRC_Continue.
func Xsqlite3WalkSelect(tls *libc.TLS, pWalker uintptr, p uintptr) int32 {
var rc int32
if p == uintptr(0) {
return WRC_Continue
}
if (*Walker)(unsafe.Pointer(pWalker)).FxSelectCallback == uintptr(0) {
return WRC_Continue
}
for __ccgo := true; __ccgo; __ccgo = p != uintptr(0) {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Walker)(unsafe.Pointer(pWalker)).FxSelectCallback})).f(tls, pWalker, p)
if rc != 0 {
return rc & WRC_Abort
}
if Xsqlite3WalkSelectExpr(tls, pWalker, p) != 0 ||
Xsqlite3WalkSelectFrom(tls, pWalker, p) != 0 {
return WRC_Abort
}
if (*Walker)(unsafe.Pointer(pWalker)).FxSelectCallback2 != 0 {
(*struct {
f func(*libc.TLS, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Walker)(unsafe.Pointer(pWalker)).FxSelectCallback2})).f(tls, pWalker, p)
}
p = (*Select)(unsafe.Pointer(p)).FpPrior
}
return WRC_Continue
}
// Increase the walkerDepth when entering a subquery, and
// descrease when leaving the subquery.
func Xsqlite3WalkerDepthIncrease(tls *libc.TLS, pWalker uintptr, pSelect uintptr) int32 {
_ = pSelect
(*Walker)(unsafe.Pointer(pWalker)).FwalkerDepth++
return WRC_Continue
}
func Xsqlite3WalkerDepthDecrease(tls *libc.TLS, pWalker uintptr, pSelect uintptr) {
_ = pSelect
(*Walker)(unsafe.Pointer(pWalker)).FwalkerDepth--
}
// No-op routine for the parse-tree walker.
//
// When this routine is the Walker.xExprCallback then expression trees
// are walked without any actions being taken at each node. Presumably,
// when this routine is used for Walker.xExprCallback then
// Walker.xSelectCallback is set to do something useful for every
// subquery in the parser tree.
func Xsqlite3ExprWalkNoop(tls *libc.TLS, NotUsed uintptr, NotUsed2 uintptr) int32 {
_ = NotUsed
_ = NotUsed2
return WRC_Continue
}
// No-op routine for the parse-tree walker for SELECT statements.
// subquery in the parser tree.
func Xsqlite3SelectWalkNoop(tls *libc.TLS, NotUsed uintptr, NotUsed2 uintptr) int32 {
_ = NotUsed
_ = NotUsed2
return WRC_Continue
}
func incrAggDepth(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_AGG_FUNCTION {
*(*U8)(unsafe.Pointer(pExpr + 2)) += U8(*(*int32)(unsafe.Pointer(pWalker + 40)))
}
return WRC_Continue
}
func incrAggFunctionDepth(tls *libc.TLS, pExpr uintptr, N int32) {
bp := tls.Alloc(48)
defer tls.Free(48)
if N > 0 {
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{incrAggDepth}))
*(*int32)(unsafe.Pointer(bp + 40)) = N
Xsqlite3WalkExpr(tls, bp, pExpr)
}
}
func resolveAlias(tls *libc.TLS, pParse uintptr, pEList uintptr, iCol int32, pExpr uintptr, nSubquery int32) {
bp := tls.Alloc(72)
defer tls.Free(72)
var pOrig uintptr
var pDup uintptr
var db uintptr
pOrig = (*ExprList_item)(unsafe.Pointer(pEList + 8 + uintptr(iCol)*32)).FpExpr
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
pDup = Xsqlite3ExprDup(tls, db, pOrig, 0)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
Xsqlite3ExprDelete(tls, db, pDup)
pDup = uintptr(0)
} else {
incrAggFunctionDepth(tls, pDup, nSubquery)
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLLATE {
pDup = Xsqlite3ExprAddCollateString(tls, pParse, pDup, *(*uintptr)(unsafe.Pointer(pExpr + 8)))
}
libc.X__builtin___memcpy_chk(tls, bp, pDup, uint64(unsafe.Sizeof(Expr{})), libc.X__builtin_object_size(tls, bp, 0))
libc.X__builtin___memcpy_chk(tls, pDup, pExpr, uint64(unsafe.Sizeof(Expr{})), libc.X__builtin_object_size(tls, pDup, 0))
libc.X__builtin___memcpy_chk(tls, pExpr, bp, uint64(unsafe.Sizeof(Expr{})), libc.X__builtin_object_size(tls, pExpr, 0))
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc) != U32(0) {
if *(*uintptr)(unsafe.Pointer(pExpr + 64)) != uintptr(0) {
(*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 64)))).FpOwner = pExpr
}
}
Xsqlite3ExprDeferredDelete(tls, pParse, pDup)
}
}
// Subqueries stores the original database, table and column names for their
// result sets in ExprList.a[].zSpan, in the form "DATABASE.TABLE.COLUMN".
// Check to see if the zSpan given to this routine matches the zDb, zTab,
// and zCol. If any of zDb, zTab, and zCol are NULL then those fields will
// match anything.
func Xsqlite3MatchEName(tls *libc.TLS, pItem uintptr, zCol uintptr, zTab uintptr, zDb uintptr) int32 {
var n int32
var zSpan uintptr
if int32(*(*uint16)(unsafe.Pointer(pItem + 16 + 4))&0x3>>0) != ENAME_TAB {
return 0
}
zSpan = (*ExprList_item)(unsafe.Pointer(pItem)).FzEName
for n = 0; *(*int8)(unsafe.Pointer(zSpan + uintptr(n))) != 0 && int32(*(*int8)(unsafe.Pointer(zSpan + uintptr(n)))) != '.'; n++ {
}
if zDb != 0 && (Xsqlite3_strnicmp(tls, zSpan, zDb, n) != 0 || int32(*(*int8)(unsafe.Pointer(zDb + uintptr(n)))) != 0) {
return 0
}
zSpan += uintptr(n + 1)
for n = 0; *(*int8)(unsafe.Pointer(zSpan + uintptr(n))) != 0 && int32(*(*int8)(unsafe.Pointer(zSpan + uintptr(n)))) != '.'; n++ {
}
if zTab != 0 && (Xsqlite3_strnicmp(tls, zSpan, zTab, n) != 0 || int32(*(*int8)(unsafe.Pointer(zTab + uintptr(n)))) != 0) {
return 0
}
zSpan += uintptr(n + 1)
if zCol != 0 && Xsqlite3StrICmp(tls, zSpan, zCol) != 0 {
return 0
}
return 1
}
func areDoubleQuotedStringsEnabled(tls *libc.TLS, db uintptr, pTopNC uintptr) int32 {
if (*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy != 0 {
return 1
}
if (*NameContext)(unsafe.Pointer(pTopNC)).FncFlags&NC_IsDDL != 0 {
if Xsqlite3WritableSchema(tls, db) != 0 && (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_DqsDML) != uint64(0) {
return 1
}
return libc.Bool32((*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_DqsDDL) != uint64(0))
} else {
return libc.Bool32((*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_DqsDML) != uint64(0))
}
return int32(0)
}
// The argument is guaranteed to be a non-NULL Expr node of type TK_COLUMN.
// return the appropriate colUsed mask.
func Xsqlite3ExprColUsed(tls *libc.TLS, pExpr uintptr) Bitmask {
var n int32
var pExTab uintptr
n = int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn)
pExTab = *(*uintptr)(unsafe.Pointer(pExpr + 64))
if (*Table)(unsafe.Pointer(pExTab)).FtabFlags&U32(TF_HasGenerated) != U32(0) &&
int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pExTab)).FaCol+uintptr(n)*24)).FcolFlags)&COLFLAG_GENERATED != 0 {
if int32((*Table)(unsafe.Pointer(pExTab)).FnCol) >= int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8)) {
return libc.Uint64(libc.Uint64FromInt32(-1))
}
return uint64(1)<<int32((*Table)(unsafe.Pointer(pExTab)).FnCol) - uint64(1)
} else {
if n >= int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8)) {
n = int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8)) - 1
}
return uint64(1) << n
}
return Bitmask(0)
}
func extendFJMatch(tls *libc.TLS, pParse uintptr, ppList uintptr, pMatch uintptr, iColumn I16) {
var pNew uintptr = Xsqlite3ExprAlloc(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, TK_COLUMN, uintptr(0), 0)
if pNew != 0 {
(*Expr)(unsafe.Pointer(pNew)).FiTable = (*SrcItem)(unsafe.Pointer(pMatch)).FiCursor
(*Expr)(unsafe.Pointer(pNew)).FiColumn = iColumn
*(*uintptr)(unsafe.Pointer(pNew + 64)) = (*SrcItem)(unsafe.Pointer(pMatch)).FpTab
*(*U32)(unsafe.Pointer(pNew + 4)) |= U32(EP_CanBeNull)
*(*uintptr)(unsafe.Pointer(ppList)) = Xsqlite3ExprListAppend(tls, pParse, *(*uintptr)(unsafe.Pointer(ppList)), pNew)
}
}
func isValidSchemaTableName(tls *libc.TLS, zTab uintptr, pTab uintptr, pSchema uintptr) int32 {
var zLegacy uintptr
if Xsqlite3_strnicmp(tls, zTab, ts+6784, 7) != 0 {
return 0
}
zLegacy = (*Table)(unsafe.Pointer(pTab)).FzName
if libc.Xstrcmp(tls, zLegacy+uintptr(7), ts+6792+7) == 0 {
if Xsqlite3StrICmp(tls, zTab+uintptr(7), ts+6811+7) == 0 {
return 1
}
if pSchema == uintptr(0) {
return 0
}
if Xsqlite3StrICmp(tls, zTab+uintptr(7), ts+6286+7) == 0 {
return 1
}
if Xsqlite3StrICmp(tls, zTab+uintptr(7), ts+6830+7) == 0 {
return 1
}
} else {
if Xsqlite3StrICmp(tls, zTab+uintptr(7), ts+6830+7) == 0 {
return 1
}
}
return 0
}
func lookupName(tls *libc.TLS, pParse uintptr, zDb uintptr, zTab uintptr, zCol uintptr, pNC uintptr, pExpr uintptr) int32 {
bp := tls.Alloc(104)
defer tls.Free(104)
var i int32
var j int32
var cnt int32
var cntTab int32
var nSubquery int32
var db uintptr
var pItem uintptr
var pMatch uintptr
var pTopNC uintptr
var pSchema uintptr
var eNewExprOp int32
var pTab uintptr
var pCol uintptr
var hit int32
var hCol U8
var op int32
var pUpsert uintptr
var iCol int32
var hCol1 U8
var pOrig uintptr
var zAs uintptr
var pEList uintptr
var pSrcList uintptr
var zErr uintptr
cnt = 0
cntTab = 0
nSubquery = 0
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
pMatch = uintptr(0)
pTopNC = pNC
pSchema = uintptr(0)
eNewExprOp = TK_COLUMN
pTab = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 96)) = uintptr(0)
(*Expr)(unsafe.Pointer(pExpr)).FiTable = -1
if !(zDb != 0) {
goto __1
}
if !((*NameContext)(unsafe.Pointer(pNC)).FncFlags&(NC_PartIdx|NC_IsCheck) != 0) {
goto __2
}
zDb = uintptr(0)
goto __3
__2:
i = 0
__4:
if !(i < (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __6
}
if !(Xsqlite3StrICmp(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FzDbSName, zDb) == 0) {
goto __7
}
pSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpSchema
goto __6
__7:
;
goto __5
__5:
i++
goto __4
goto __6
__6:
;
if !(i == (*Sqlite3)(unsafe.Pointer(db)).FnDb && Xsqlite3StrICmp(tls, ts+6844, zDb) == 0) {
goto __8
}
pSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpSchema
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FzDbSName
__8:
;
__3:
;
__1:
;
__9:
pSrcList = (*NameContext)(unsafe.Pointer(pNC)).FpSrcList
if !(pSrcList != 0) {
goto __12
}
i = 0
pItem = pSrcList + 8
__13:
if !(i < (*SrcList)(unsafe.Pointer(pSrcList)).FnSrc) {
goto __15
}
pTab = (*SrcItem)(unsafe.Pointer(pItem)).FpTab
if !(uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x2000>>13)) != 0) {
goto __16
}
hit = 0
pEList = (*Select)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pItem)).FpSelect)).FpEList
j = 0
__17:
if !(j < (*ExprList)(unsafe.Pointer(pEList)).FnExpr) {
goto __19
}
if !!(Xsqlite3MatchEName(tls, pEList+8+uintptr(j)*32, zCol, zTab, zDb) != 0) {
goto __20
}
goto __18
__20:
;
if !(cnt > 0) {
goto __21
}
if !(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x400>>10) == 0 ||
Xsqlite3IdListIndex(tls, *(*uintptr)(unsafe.Pointer(pItem + 72)), zCol) < 0) {
goto __22
}
Xsqlite3ExprListDelete(tls, db, *(*uintptr)(unsafe.Pointer(bp + 96)))
*(*uintptr)(unsafe.Pointer(bp + 96)) = uintptr(0)
goto __23
__22:
if !(int32((*SrcItem)(unsafe.Pointer(pItem)).Ffg.Fjointype)&JT_RIGHT == 0) {
goto __24
}
goto __18
goto __25
__24:
if !(int32((*SrcItem)(unsafe.Pointer(pItem)).Ffg.Fjointype)&JT_LEFT == 0) {
goto __26
}
cnt = 0
Xsqlite3ExprListDelete(tls, db, *(*uintptr)(unsafe.Pointer(bp + 96)))
*(*uintptr)(unsafe.Pointer(bp + 96)) = uintptr(0)
goto __27
__26:
extendFJMatch(tls, pParse, bp+96, pMatch, (*Expr)(unsafe.Pointer(pExpr)).FiColumn)
__27:
;
__25:
;
__23:
;
__21:
;
cnt++
cntTab = 2
pMatch = pItem
(*Expr)(unsafe.Pointer(pExpr)).FiColumn = YnVar(j)
libc.SetBitFieldPtr16Uint32(pEList+8+uintptr(j)*32+16+4, uint32(1), 6, 0x40)
hit = 1
if !(uint32(int32(*(*uint16)(unsafe.Pointer(pEList + 8 + uintptr(j)*32 + 16 + 4))&0x80>>7)) != 0) {
goto __28
}
goto __19
__28:
;
goto __18
__18:
j++
goto __17
goto __19
__19:
;
if !(hit != 0 || zTab == uintptr(0)) {
goto __29
}
goto __14
__29:
;
__16:
;
if !(zTab != 0) {
goto __30
}
if !(zDb != 0) {
goto __31
}
if !((*Table)(unsafe.Pointer(pTab)).FpSchema != pSchema) {
goto __32
}
goto __14
__32:
;
if !(pSchema == uintptr(0) && libc.Xstrcmp(tls, zDb, ts+6849) != 0) {
goto __33
}
goto __14
__33:
;
__31:
;
if !((*SrcItem)(unsafe.Pointer(pItem)).FzAlias != uintptr(0)) {
goto __34
}
if !(Xsqlite3StrICmp(tls, zTab, (*SrcItem)(unsafe.Pointer(pItem)).FzAlias) != 0) {
goto __36
}
goto __14
__36:
;
goto __35
__34:
if !(Xsqlite3StrICmp(tls, zTab, (*Table)(unsafe.Pointer(pTab)).FzName) != 0) {
goto __37
}
if !((*Table)(unsafe.Pointer(pTab)).Ftnum != Pgno(1)) {
goto __38
}
goto __14
__38:
;
if !!(isValidSchemaTableName(tls, zTab, pTab, pSchema) != 0) {
goto __39
}
goto __14
__39:
;
__37:
;
__35:
;
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME && (*SrcItem)(unsafe.Pointer(pItem)).FzAlias != 0) {
goto __40
}
Xsqlite3RenameTokenRemap(tls, pParse, uintptr(0), pExpr+64)
__40:
;
__30:
;
hCol = Xsqlite3StrIHash(tls, zCol)
j = 0
pCol = (*Table)(unsafe.Pointer(pTab)).FaCol
__41:
if !(j < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __43
}
if !(int32((*Column)(unsafe.Pointer(pCol)).FhName) == int32(hCol) &&
Xsqlite3StrICmp(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName, zCol) == 0) {
goto __44
}
if !(cnt > 0) {
goto __45
}
if !(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x400>>10) == 0 ||
Xsqlite3IdListIndex(tls, *(*uintptr)(unsafe.Pointer(pItem + 72)), zCol) < 0) {
goto __46
}
Xsqlite3ExprListDelete(tls, db, *(*uintptr)(unsafe.Pointer(bp + 96)))
*(*uintptr)(unsafe.Pointer(bp + 96)) = uintptr(0)
goto __47
__46:
if !(int32((*SrcItem)(unsafe.Pointer(pItem)).Ffg.Fjointype)&JT_RIGHT == 0) {
goto __48
}
goto __42
goto __49
__48:
if !(int32((*SrcItem)(unsafe.Pointer(pItem)).Ffg.Fjointype)&JT_LEFT == 0) {
goto __50
}
cnt = 0
Xsqlite3ExprListDelete(tls, db, *(*uintptr)(unsafe.Pointer(bp + 96)))
*(*uintptr)(unsafe.Pointer(bp + 96)) = uintptr(0)
goto __51
__50:
extendFJMatch(tls, pParse, bp+96, pMatch, (*Expr)(unsafe.Pointer(pExpr)).FiColumn)
__51:
;
__49:
;
__47:
;
__45:
;
cnt++
pMatch = pItem
(*Expr)(unsafe.Pointer(pExpr)).FiColumn = func() int16 {
if j == int32((*Table)(unsafe.Pointer(pTab)).FiPKey) {
return int16(-1)
}
return I16(j)
}()
if !(uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x2000>>13)) != 0) {
goto __52
}
Xsqlite3SrcItemColumnUsed(tls, pItem, j)
__52:
;
goto __43
__44:
;
goto __42
__42:
j++
pCol += 24
goto __41
goto __43
__43:
;
if !(0 == cnt && (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_NoVisibleRowid) == U32(0)) {
goto __53
}
cntTab++
pMatch = pItem
__53:
;
goto __14
__14:
i++
pItem += 104
goto __13
goto __15
__15:
;
if !(pMatch != 0) {
goto __54
}
(*Expr)(unsafe.Pointer(pExpr)).FiTable = (*SrcItem)(unsafe.Pointer(pMatch)).FiCursor
*(*uintptr)(unsafe.Pointer(pExpr + 64)) = (*SrcItem)(unsafe.Pointer(pMatch)).FpTab
if !(int32((*SrcItem)(unsafe.Pointer(pMatch)).Ffg.Fjointype)&(JT_LEFT|JT_LTORJ) != 0) {
goto __55
}
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_CanBeNull)
__55:
;
pSchema = (*Table)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 64)))).FpSchema
__54:
;
__12:
;
if !(cnt == 0 && zDb == uintptr(0)) {
goto __56
}
pTab = uintptr(0)
if !((*Parse)(unsafe.Pointer(pParse)).FpTriggerTab != uintptr(0)) {
goto __57
}
op = int32((*Parse)(unsafe.Pointer(pParse)).FeTriggerOp)
if !((*Parse)(unsafe.Pointer(pParse)).FbReturning != 0) {
goto __58
}
if !((*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_UBaseReg != 0 &&
(zTab == uintptr(0) || Xsqlite3StrICmp(tls, zTab, (*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).FpTriggerTab)).FzName) == 0)) {
goto __60
}
(*Expr)(unsafe.Pointer(pExpr)).FiTable = libc.Bool32(op != TK_DELETE)
pTab = (*Parse)(unsafe.Pointer(pParse)).FpTriggerTab
__60:
;
goto __59
__58:
if !(op != TK_DELETE && zTab != 0 && Xsqlite3StrICmp(tls, ts+6851, zTab) == 0) {
goto __61
}
(*Expr)(unsafe.Pointer(pExpr)).FiTable = 1
pTab = (*Parse)(unsafe.Pointer(pParse)).FpTriggerTab
goto __62
__61:
if !(op != TK_INSERT && zTab != 0 && Xsqlite3StrICmp(tls, ts+6855, zTab) == 0) {
goto __63
}
(*Expr)(unsafe.Pointer(pExpr)).FiTable = 0
pTab = (*Parse)(unsafe.Pointer(pParse)).FpTriggerTab
__63:
;
__62:
;
__59:
;
__57:
;
if !((*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_UUpsert != 0 && zTab != uintptr(0)) {
goto __64
}
pUpsert = *(*uintptr)(unsafe.Pointer(pNC + 16))
if !(pUpsert != 0 && Xsqlite3StrICmp(tls, ts+6859, zTab) == 0) {
goto __65
}
pTab = (*SrcItem)(unsafe.Pointer((*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertSrc + 8)).FpTab
(*Expr)(unsafe.Pointer(pExpr)).FiTable = EXCLUDED_TABLE_NUMBER
__65:
;
__64:
;
if !(pTab != 0) {
goto __66
}
hCol1 = Xsqlite3StrIHash(tls, zCol)
pSchema = (*Table)(unsafe.Pointer(pTab)).FpSchema
cntTab++
iCol = 0
pCol = (*Table)(unsafe.Pointer(pTab)).FaCol
__67:
if !(iCol < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __69
}
if !(int32((*Column)(unsafe.Pointer(pCol)).FhName) == int32(hCol1) &&
Xsqlite3StrICmp(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName, zCol) == 0) {
goto __70
}
if !(iCol == int32((*Table)(unsafe.Pointer(pTab)).FiPKey)) {
goto __71
}
iCol = -1
__71:
;
goto __69
__70:
;
goto __68
__68:
iCol++
pCol += 24
goto __67
goto __69
__69:
;
if !(iCol >= int32((*Table)(unsafe.Pointer(pTab)).FnCol) && Xsqlite3IsRowid(tls, zCol) != 0 && (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_NoVisibleRowid) == U32(0)) {
goto __72
}
iCol = -1
__72:
;
if !(iCol < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __73
}
cnt++
pMatch = uintptr(0)
if !((*Expr)(unsafe.Pointer(pExpr)).FiTable == EXCLUDED_TABLE_NUMBER) {
goto __74
}
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __76
}
(*Expr)(unsafe.Pointer(pExpr)).FiColumn = YnVar(iCol)
*(*uintptr)(unsafe.Pointer(pExpr + 64)) = pTab
eNewExprOp = TK_COLUMN
goto __77
__76:
(*Expr)(unsafe.Pointer(pExpr)).FiTable = (*Upsert)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNC + 16)))).FregData + int32(Xsqlite3TableColumnToStorage(tls, pTab, int16(iCol)))
eNewExprOp = TK_REGISTER
__77:
;
goto __75
__74:
;
*(*uintptr)(unsafe.Pointer(pExpr + 64)) = pTab
if !((*Parse)(unsafe.Pointer(pParse)).FbReturning != 0) {
goto __78
}
eNewExprOp = TK_REGISTER
(*Expr)(unsafe.Pointer(pExpr)).Fop2 = U8(TK_COLUMN)
(*Expr)(unsafe.Pointer(pExpr)).FiColumn = YnVar(iCol)
(*Expr)(unsafe.Pointer(pExpr)).FiTable = *(*int32)(unsafe.Pointer(pNC + 16)) + (int32((*Table)(unsafe.Pointer(pTab)).FnCol)+1)*(*Expr)(unsafe.Pointer(pExpr)).FiTable + int32(Xsqlite3TableColumnToStorage(tls, pTab, int16(iCol))) + 1
goto __79
__78:
(*Expr)(unsafe.Pointer(pExpr)).FiColumn = I16(iCol)
eNewExprOp = TK_TRIGGER
if !(iCol < 0) {
goto __80
}
(*Expr)(unsafe.Pointer(pExpr)).FaffExpr = int8(SQLITE_AFF_INTEGER)
goto __81
__80:
if !((*Expr)(unsafe.Pointer(pExpr)).FiTable == 0) {
goto __82
}
*(*U32)(unsafe.Pointer(pParse + 212)) |= func() uint32 {
if iCol >= 32 {
return 0xffffffff
}
return U32(1) << iCol
}()
goto __83
__82:
;
*(*U32)(unsafe.Pointer(pParse + 216)) |= func() uint32 {
if iCol >= 32 {
return 0xffffffff
}
return U32(1) << iCol
}()
__83:
;
__81:
;
__79:
;
__75:
;
__73:
;
__66:
;
__56:
;
if !(cnt == 0 &&
cntTab == 1 &&
pMatch != 0 &&
(*NameContext)(unsafe.Pointer(pNC)).FncFlags&(NC_IdxExpr|NC_GenCol) == 0 &&
Xsqlite3IsRowid(tls, zCol) != 0 &&
(*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pMatch)).FpTab)).FtabFlags&U32(TF_NoVisibleRowid) == U32(0)) {
goto __84
}
cnt = 1
(*Expr)(unsafe.Pointer(pExpr)).FiColumn = int16(-1)
(*Expr)(unsafe.Pointer(pExpr)).FaffExpr = int8(SQLITE_AFF_INTEGER)
__84:
;
if !(cnt == 0 &&
(*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_UEList != 0 &&
zTab == uintptr(0)) {
goto __85
}
pEList = *(*uintptr)(unsafe.Pointer(pNC + 16))
j = 0
__86:
if !(j < (*ExprList)(unsafe.Pointer(pEList)).FnExpr) {
goto __88
}
zAs = (*ExprList_item)(unsafe.Pointer(pEList + 8 + uintptr(j)*32)).FzEName
if !(int32(*(*uint16)(unsafe.Pointer(pEList + 8 + uintptr(j)*32 + 16 + 4))&0x3>>0) == ENAME_NAME &&
Xsqlite3_stricmp(tls, zAs, zCol) == 0) {
goto __89
}
pOrig = (*ExprList_item)(unsafe.Pointer(pEList + 8 + uintptr(j)*32)).FpExpr
if !((*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_AllowAgg == 0 && (*Expr)(unsafe.Pointer(pOrig)).Fflags&U32(EP_Agg) != U32(0)) {
goto __90
}
Xsqlite3ErrorMsg(tls, pParse, ts+6868, libc.VaList(bp, zAs))
return WRC_Abort
__90:
;
if !((*Expr)(unsafe.Pointer(pOrig)).Fflags&U32(EP_Win) != U32(0) &&
((*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_AllowWin == 0 || pNC != pTopNC)) {
goto __91
}
Xsqlite3ErrorMsg(tls, pParse, ts+6899, libc.VaList(bp+8, zAs))
return WRC_Abort
__91:
;
if !(Xsqlite3ExprVectorSize(tls, pOrig) != 1) {
goto __92
}
Xsqlite3ErrorMsg(tls, pParse, ts+6936, 0)
return WRC_Abort
__92:
;
resolveAlias(tls, pParse, pEList, j, pExpr, nSubquery)
cnt = 1
pMatch = uintptr(0)
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __93
}
Xsqlite3RenameTokenRemap(tls, pParse, uintptr(0), pExpr)
__93:
;
goto lookupname_end
__89:
;
goto __87
__87:
j++
goto __86
goto __88
__88:
;
__85:
;
if !(cnt != 0) {
goto __94
}
goto __11
__94:
;
pNC = (*NameContext)(unsafe.Pointer(pNC)).FpNext
nSubquery++
goto __10
__10:
if pNC != 0 {
goto __9
}
goto __11
__11:
;
if !(cnt == 0 && zTab == uintptr(0)) {
goto __95
}
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_DblQuoted) != U32(0) &&
areDoubleQuotedStringsEnabled(tls, db, pTopNC) != 0) {
goto __96
}
Xsqlite3_log(tls, SQLITE_WARNING,
ts+6954, libc.VaList(bp+16, zCol))
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_STRING)
libc.X__builtin___memset_chk(tls, pExpr+64, 0, uint64(unsafe.Sizeof(struct{ FpTab uintptr }{})), libc.X__builtin_object_size(tls, pExpr+64, 0))
return WRC_Prune
__96:
;
if !(Xsqlite3ExprIdToTrueFalse(tls, pExpr) != 0) {
goto __97
}
return WRC_Prune
__97:
;
__95:
;
if !(cnt != 1) {
goto __98
}
if !(*(*uintptr)(unsafe.Pointer(bp + 96)) != 0) {
goto __99
}
if !((*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 96)))).FnExpr == cnt-1) {
goto __100
}
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Leaf) != U32(0)) {
goto __102
}
*(*U32)(unsafe.Pointer(pExpr + 4)) &= libc.Uint32FromInt32(libc.CplInt32(EP_Leaf))
goto __103
__102:
Xsqlite3ExprDelete(tls, db, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
(*Expr)(unsafe.Pointer(pExpr)).FpLeft = uintptr(0)
Xsqlite3ExprDelete(tls, db, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
(*Expr)(unsafe.Pointer(pExpr)).FpRight = uintptr(0)
__103:
;
extendFJMatch(tls, pParse, bp+96, pMatch, (*Expr)(unsafe.Pointer(pExpr)).FiColumn)
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_FUNCTION)
*(*uintptr)(unsafe.Pointer(pExpr + 8)) = ts + 6989
*(*uintptr)(unsafe.Pointer(pExpr + 32)) = *(*uintptr)(unsafe.Pointer(bp + 96))
cnt = 1
goto lookupname_end
goto __101
__100:
Xsqlite3ExprListDelete(tls, db, *(*uintptr)(unsafe.Pointer(bp + 96)))
*(*uintptr)(unsafe.Pointer(bp + 96)) = uintptr(0)
__101:
;
__99:
;
if cnt == 0 {
zErr = ts + 6998
} else {
zErr = ts + 7013
}
if !(zDb != 0) {
goto __104
}
Xsqlite3ErrorMsg(tls, pParse, ts+7035, libc.VaList(bp+24, zErr, zDb, zTab, zCol))
goto __105
__104:
if !(zTab != 0) {
goto __106
}
Xsqlite3ErrorMsg(tls, pParse, ts+7048, libc.VaList(bp+56, zErr, zTab, zCol))
goto __107
__106:
Xsqlite3ErrorMsg(tls, pParse, ts+7058, libc.VaList(bp+80, zErr, zCol))
__107:
;
__105:
;
Xsqlite3RecordErrorOffsetOfExpr(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pExpr)
(*Parse)(unsafe.Pointer(pParse)).FcheckSchema = U8(1)
(*NameContext)(unsafe.Pointer(pTopNC)).FnNcErr++
__98:
;
if !!((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_TokenOnly|EP_Leaf) != U32(0)) {
goto __108
}
Xsqlite3ExprDelete(tls, db, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
(*Expr)(unsafe.Pointer(pExpr)).FpLeft = uintptr(0)
Xsqlite3ExprDelete(tls, db, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
(*Expr)(unsafe.Pointer(pExpr)).FpRight = uintptr(0)
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_Leaf)
__108:
;
if !(int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn) >= 0 && pMatch != uintptr(0)) {
goto __109
}
*(*Bitmask)(unsafe.Pointer(pMatch + 80)) |= Xsqlite3ExprColUsed(tls, pExpr)
__109:
;
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(eNewExprOp)
lookupname_end:
if !(cnt == 1) {
goto __110
}
if !((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FxAuth != 0 &&
(int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLUMN || int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_TRIGGER)) {
goto __112
}
Xsqlite3AuthRead(tls, pParse, pExpr, pSchema, (*NameContext)(unsafe.Pointer(pNC)).FpSrcList)
__112:
;
__113:
;
(*NameContext)(unsafe.Pointer(pTopNC)).FnRef++
if !(pTopNC == pNC) {
goto __116
}
goto __115
__116:
;
pTopNC = (*NameContext)(unsafe.Pointer(pTopNC)).FpNext
goto __114
__114:
goto __113
goto __115
__115:
;
return WRC_Prune
goto __111
__110:
return WRC_Abort
__111:
;
return int32(0)
}
// Allocate and return a pointer to an expression to load the column iCol
// from datasource iSrc in SrcList pSrc.
func Xsqlite3CreateColumnExpr(tls *libc.TLS, db uintptr, pSrc uintptr, iSrc int32, iCol int32) uintptr {
var p uintptr = Xsqlite3ExprAlloc(tls, db, TK_COLUMN, uintptr(0), 0)
if p != 0 {
var pItem uintptr = pSrc + 8 + uintptr(iSrc)*104
var pTab uintptr
pTab = libc.AssignPtrUintptr(p+64, (*SrcItem)(unsafe.Pointer(pItem)).FpTab)
(*Expr)(unsafe.Pointer(p)).FiTable = (*SrcItem)(unsafe.Pointer(pItem)).FiCursor
if int32((*Table)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 64)))).FiPKey) == iCol {
(*Expr)(unsafe.Pointer(p)).FiColumn = int16(-1)
} else {
(*Expr)(unsafe.Pointer(p)).FiColumn = YnVar(iCol)
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasGenerated) != U32(0) &&
int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(iCol)*24)).FcolFlags)&COLFLAG_GENERATED != 0 {
(*SrcItem)(unsafe.Pointer(pItem)).FcolUsed = func() uint64 {
if int32((*Table)(unsafe.Pointer(pTab)).FnCol) >= 64 {
return libc.Uint64(libc.Uint64FromInt32(-1))
}
return uint64(1)<<int32((*Table)(unsafe.Pointer(pTab)).FnCol) - uint64(1)
}()
} else {
*(*Bitmask)(unsafe.Pointer(pItem + 80)) |= uint64(1) << func() int32 {
if iCol >= int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8)) {
return int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8)) - 1
}
return iCol
}()
}
}
}
return p
}
func notValidImpl(tls *libc.TLS, pParse uintptr, pNC uintptr, zMsg uintptr, pExpr uintptr, pError uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
var zIn uintptr = ts + 7065
if (*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_IdxExpr != 0 {
zIn = ts + 7093
} else if (*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_IsCheck != 0 {
zIn = ts + 7111
} else if (*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_GenCol != 0 {
zIn = ts + 7129
}
Xsqlite3ErrorMsg(tls, pParse, ts+7147, libc.VaList(bp, zMsg, zIn))
if pExpr != 0 {
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_NULL)
}
Xsqlite3RecordErrorOffsetOfExpr(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pError)
}
func exprProbability(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*float64)(unsafe.Pointer(bp)) = -1.0
if int32((*Expr)(unsafe.Pointer(p)).Fop) != TK_FLOAT {
return -1
}
Xsqlite3AtoF(tls, *(*uintptr)(unsafe.Pointer(p + 8)), bp, Xsqlite3Strlen30(tls, *(*uintptr)(unsafe.Pointer(p + 8))), uint8(SQLITE_UTF8))
if *(*float64)(unsafe.Pointer(bp)) > 1.0 {
return -1
}
return libc.Int32FromFloat64(*(*float64)(unsafe.Pointer(bp)) * 134217728.0)
}
func resolveExprStep(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
bp := tls.Alloc(96)
defer tls.Free(96)
var pNC uintptr
var pParse uintptr
pNC = *(*uintptr)(unsafe.Pointer(pWalker + 40))
pParse = (*NameContext)(unsafe.Pointer(pNC)).FpParse
switch int32((*Expr)(unsafe.Pointer(pExpr)).Fop) {
case TK_ROW:
{
var pSrcList uintptr = (*NameContext)(unsafe.Pointer(pNC)).FpSrcList
var pItem uintptr
pItem = pSrcList + 8
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_COLUMN)
*(*uintptr)(unsafe.Pointer(pExpr + 64)) = (*SrcItem)(unsafe.Pointer(pItem)).FpTab
(*Expr)(unsafe.Pointer(pExpr)).FiTable = (*SrcItem)(unsafe.Pointer(pItem)).FiCursor
(*Expr)(unsafe.Pointer(pExpr)).FiColumn--
(*Expr)(unsafe.Pointer(pExpr)).FaffExpr = int8(SQLITE_AFF_INTEGER)
break
}
case TK_NOTNULL:
fallthrough
case TK_ISNULL:
{
var p uintptr
var i int32
i = 0
p = pNC
__1:
if !(p != 0 && i < int32(uint64(unsafe.Sizeof([8]int32{}))/uint64(unsafe.Sizeof(int32(0))))) {
goto __3
}
{
*(*int32)(unsafe.Pointer(bp + 64 + uintptr(i)*4)) = (*NameContext)(unsafe.Pointer(p)).FnRef
}
goto __2
__2:
p = (*NameContext)(unsafe.Pointer(p)).FpNext
i++
goto __1
goto __3
__3:
;
Xsqlite3WalkExpr(tls, pWalker, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
if 0 == Xsqlite3ExprCanBeNull(tls, (*Expr)(unsafe.Pointer(pExpr)).FpLeft) && !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_NOTNULL {
*(*uintptr)(unsafe.Pointer(pExpr + 8)) = ts + 7167
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_IsTrue)
} else {
*(*uintptr)(unsafe.Pointer(pExpr + 8)) = ts + 7172
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_IsFalse)
}
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_TRUEFALSE)
i = 0
p = pNC
__4:
if !(p != 0 && i < int32(uint64(unsafe.Sizeof([8]int32{}))/uint64(unsafe.Sizeof(int32(0))))) {
goto __6
}
{
(*NameContext)(unsafe.Pointer(p)).FnRef = *(*int32)(unsafe.Pointer(bp + 64 + uintptr(i)*4))
}
goto __5
__5:
p = (*NameContext)(unsafe.Pointer(p)).FpNext
i++
goto __4
goto __6
__6:
;
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
(*Expr)(unsafe.Pointer(pExpr)).FpLeft = uintptr(0)
}
return WRC_Prune
}
case TK_ID:
fallthrough
case TK_DOT:
{
var zColumn uintptr
var zTable uintptr
var zDb uintptr
var pRight uintptr
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_ID {
zDb = uintptr(0)
zTable = uintptr(0)
zColumn = *(*uintptr)(unsafe.Pointer(pExpr + 8))
} else {
var pLeft uintptr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
if (*NameContext)(unsafe.Pointer(pNC)).FncFlags&(NC_IdxExpr|NC_GenCol) != 0 {
notValidImpl(tls, pParse, pNC, ts+7178, uintptr(0), pExpr)
}
pRight = (*Expr)(unsafe.Pointer(pExpr)).FpRight
if int32((*Expr)(unsafe.Pointer(pRight)).Fop) == TK_ID {
zDb = uintptr(0)
} else {
zDb = *(*uintptr)(unsafe.Pointer(pLeft + 8))
pLeft = (*Expr)(unsafe.Pointer(pRight)).FpLeft
pRight = (*Expr)(unsafe.Pointer(pRight)).FpRight
}
zTable = *(*uintptr)(unsafe.Pointer(pLeft + 8))
zColumn = *(*uintptr)(unsafe.Pointer(pRight + 8))
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
Xsqlite3RenameTokenRemap(tls, pParse, pExpr, pRight)
Xsqlite3RenameTokenRemap(tls, pParse, pExpr+64, pLeft)
}
}
return lookupName(tls, pParse, zDb, zTable, zColumn, pNC, pExpr)
}
case TK_FUNCTION:
{
var pList uintptr = *(*uintptr)(unsafe.Pointer(pExpr + 32))
var n int32
if pList != 0 {
n = (*ExprList)(unsafe.Pointer(pList)).FnExpr
} else {
n = 0
}
var no_such_func int32 = 0
var wrong_num_args int32 = 0
var is_agg int32 = 0
var zId uintptr
var pDef uintptr
var enc U8 = (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Fenc
var savedAllowFlags int32 = (*NameContext)(unsafe.Pointer(pNC)).FncFlags & (NC_AllowAgg | NC_AllowWin)
var pWin uintptr = func() uintptr {
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc) != U32(0) && int32((*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 64)))).FeFrmType) != TK_FILTER {
return *(*uintptr)(unsafe.Pointer(pExpr + 64))
}
return uintptr(0)
}()
zId = *(*uintptr)(unsafe.Pointer(pExpr + 8))
pDef = Xsqlite3FindFunction(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, zId, n, enc, uint8(0))
if pDef == uintptr(0) {
pDef = Xsqlite3FindFunction(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, zId, -2, enc, uint8(0))
if pDef == uintptr(0) {
no_such_func = 1
} else {
wrong_num_args = 1
}
} else {
is_agg = libc.Bool32((*FuncDef)(unsafe.Pointer(pDef)).FxFinalize != uintptr(0))
if (*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_UNLIKELY) != 0 {
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_Unlikely)
if n == 2 {
(*Expr)(unsafe.Pointer(pExpr)).FiTable = exprProbability(tls, (*ExprList_item)(unsafe.Pointer(pList+8+1*32)).FpExpr)
if (*Expr)(unsafe.Pointer(pExpr)).FiTable < 0 {
Xsqlite3ErrorMsg(tls, pParse,
ts+7195, libc.VaList(bp, pExpr))
(*NameContext)(unsafe.Pointer(pNC)).FnNcErr++
}
} else {
(*Expr)(unsafe.Pointer(pExpr)).FiTable = func() int32 {
if int32(*(*int8)(unsafe.Pointer((*FuncDef)(unsafe.Pointer(pDef)).FzName))) == 'u' {
return 8388608
}
return 125829120
}()
}
}
{
var auth int32 = Xsqlite3AuthCheck(tls, pParse, SQLITE_FUNCTION, uintptr(0), (*FuncDef)(unsafe.Pointer(pDef)).FzName, uintptr(0))
if auth != SQLITE_OK {
if auth == SQLITE_DENY {
Xsqlite3ErrorMsg(tls, pParse, ts+7259,
libc.VaList(bp+8, pExpr))
(*NameContext)(unsafe.Pointer(pNC)).FnNcErr++
}
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_NULL)
return WRC_Prune
}
}
if (*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_CONSTANT|SQLITE_FUNC_SLOCHNG) != 0 {
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_ConstFunc)
}
if (*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_CONSTANT) == U32(0) {
if (*NameContext)(unsafe.Pointer(pNC)).FncFlags&(NC_IdxExpr|NC_PartIdx|NC_GenCol) != 0 {
notValidImpl(tls, pParse, pNC, ts+7295, uintptr(0), pExpr)
}
} else {
(*Expr)(unsafe.Pointer(pExpr)).Fop2 = U8((*NameContext)(unsafe.Pointer(pNC)).FncFlags & NC_SelfRef)
if (*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_FromDDL != 0 {
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_FromDDL)
}
}
if (*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_INTERNAL) != U32(0) &&
int32((*Parse)(unsafe.Pointer(pParse)).Fnested) == 0 &&
(*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmDbFlags&U32(DBFLAG_InternalFunc) == U32(0) {
no_such_func = 1
pDef = uintptr(0)
} else if (*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_DIRECT|SQLITE_FUNC_UNSAFE) != U32(0) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
Xsqlite3ExprFunctionUsable(tls, pParse, pExpr, pDef)
}
}
if 0 == libc.Bool32(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
if pDef != 0 && (*FuncDef)(unsafe.Pointer(pDef)).FxValue == uintptr(0) && pWin != 0 {
Xsqlite3ErrorMsg(tls, pParse,
ts+7323, libc.VaList(bp+16, pExpr))
(*NameContext)(unsafe.Pointer(pNC)).FnNcErr++
} else if is_agg != 0 && (*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_AllowAgg == 0 ||
is_agg != 0 && (*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_WINDOW) != 0 && !(pWin != 0) ||
is_agg != 0 && pWin != 0 && (*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_AllowWin == 0 {
var zType uintptr
if (*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_WINDOW) != 0 || pWin != 0 {
zType = ts + 7366
} else {
zType = ts + 7373
}
Xsqlite3ErrorMsg(tls, pParse, ts+7383, libc.VaList(bp+24, zType, pExpr))
(*NameContext)(unsafe.Pointer(pNC)).FnNcErr++
is_agg = 0
} else if no_such_func != 0 && int32((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Finit.Fbusy) == 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+7411, libc.VaList(bp+40, pExpr))
(*NameContext)(unsafe.Pointer(pNC)).FnNcErr++
} else if wrong_num_args != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+7433,
libc.VaList(bp+48, pExpr))
(*NameContext)(unsafe.Pointer(pNC)).FnNcErr++
} else if is_agg == 0 && (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc) != U32(0) {
Xsqlite3ErrorMsg(tls, pParse,
ts+7477,
libc.VaList(bp+56, pExpr))
(*NameContext)(unsafe.Pointer(pNC)).FnNcErr++
}
if is_agg != 0 {
*(*int32)(unsafe.Pointer(pNC + 40)) &= ^(NC_AllowWin | func() int32 {
if !(pWin != 0) {
return NC_AllowAgg
}
return 0
}())
}
} else if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc) != U32(0) {
is_agg = 1
}
Xsqlite3WalkExprList(tls, pWalker, pList)
if is_agg != 0 {
if pWin != 0 {
var pSel uintptr = (*NameContext)(unsafe.Pointer(pNC)).FpWinSelect
if libc.Bool32(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) == 0 {
Xsqlite3WindowUpdate(tls, pParse, func() uintptr {
if pSel != 0 {
return (*Select)(unsafe.Pointer(pSel)).FpWinDefn
}
return uintptr(0)
}(), pWin, pDef)
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed != 0 {
break
}
}
Xsqlite3WalkExprList(tls, pWalker, (*Window)(unsafe.Pointer(pWin)).FpPartition)
Xsqlite3WalkExprList(tls, pWalker, (*Window)(unsafe.Pointer(pWin)).FpOrderBy)
Xsqlite3WalkExpr(tls, pWalker, (*Window)(unsafe.Pointer(pWin)).FpFilter)
Xsqlite3WindowLink(tls, pSel, pWin)
*(*int32)(unsafe.Pointer(pNC + 40)) |= NC_HasWin
} else {
var pNC2 uintptr
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_AGG_FUNCTION)
(*Expr)(unsafe.Pointer(pExpr)).Fop2 = U8(0)
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc) != U32(0) {
Xsqlite3WalkExpr(tls, pWalker, (*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 64)))).FpFilter)
}
pNC2 = pNC
for pNC2 != 0 &&
Xsqlite3ReferencesSrcList(tls, pParse, pExpr, (*NameContext)(unsafe.Pointer(pNC2)).FpSrcList) == 0 {
(*Expr)(unsafe.Pointer(pExpr)).Fop2++
pNC2 = (*NameContext)(unsafe.Pointer(pNC2)).FpNext
}
if pNC2 != 0 && pDef != 0 {
*(*int32)(unsafe.Pointer(pNC2 + 40)) |= int32(U32(NC_HasAgg) |
((*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags^U32(SQLITE_FUNC_ANYORDER))&
U32(SQLITE_FUNC_MINMAX|SQLITE_FUNC_ANYORDER))
}
}
*(*int32)(unsafe.Pointer(pNC + 40)) |= savedAllowFlags
}
return WRC_Prune
}
case TK_SELECT:
fallthrough
case TK_EXISTS:
fallthrough
case TK_IN:
{
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_xIsSelect) != U32(0) {
var nRef int32 = (*NameContext)(unsafe.Pointer(pNC)).FnRef
if (*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_SelfRef != 0 {
notValidImpl(tls, pParse, pNC, ts+7525, pExpr, pExpr)
} else {
Xsqlite3WalkSelect(tls, pWalker, *(*uintptr)(unsafe.Pointer(pExpr + 32)))
}
if nRef != (*NameContext)(unsafe.Pointer(pNC)).FnRef {
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_VarSelect)
*(*int32)(unsafe.Pointer(pNC + 40)) |= NC_VarSelect
}
}
break
}
case TK_VARIABLE:
{
if (*NameContext)(unsafe.Pointer(pNC)).FncFlags&(NC_IsCheck|NC_PartIdx|NC_IdxExpr|NC_GenCol) != 0 {
notValidImpl(tls, pParse, pNC, ts+7536, pExpr, pExpr)
}
break
}
case TK_IS:
fallthrough
case TK_ISNOT:
{
var pRight uintptr = Xsqlite3ExprSkipCollateAndLikely(tls, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
if pRight != 0 && (int32((*Expr)(unsafe.Pointer(pRight)).Fop) == TK_ID || int32((*Expr)(unsafe.Pointer(pRight)).Fop) == TK_TRUEFALSE) {
var rc int32 = resolveExprStep(tls, pWalker, pRight)
if rc == WRC_Abort {
return WRC_Abort
}
if int32((*Expr)(unsafe.Pointer(pRight)).Fop) == TK_TRUEFALSE {
(*Expr)(unsafe.Pointer(pExpr)).Fop2 = (*Expr)(unsafe.Pointer(pExpr)).Fop
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_TRUTH)
return WRC_Continue
}
}
}
fallthrough
case TK_BETWEEN:
fallthrough
case TK_EQ:
fallthrough
case TK_NE:
fallthrough
case TK_LT:
fallthrough
case TK_LE:
fallthrough
case TK_GT:
fallthrough
case TK_GE:
{
var nLeft int32
var nRight int32
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed != 0 {
break
}
nLeft = Xsqlite3ExprVectorSize(tls, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_BETWEEN {
nRight = Xsqlite3ExprVectorSize(tls, (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32))+8)).FpExpr)
if nRight == nLeft {
nRight = Xsqlite3ExprVectorSize(tls, (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32))+8+1*32)).FpExpr)
}
} else {
nRight = Xsqlite3ExprVectorSize(tls, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
}
if nLeft != nRight {
Xsqlite3ErrorMsg(tls, pParse, ts+6936, 0)
Xsqlite3RecordErrorOffsetOfExpr(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pExpr)
}
break
}
}
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return WRC_Abort
}
return WRC_Continue
}
func resolveAsName(tls *libc.TLS, pParse uintptr, pEList uintptr, pE uintptr) int32 {
var i int32
_ = pParse
if int32((*Expr)(unsafe.Pointer(pE)).Fop) == TK_ID {
var zCol uintptr
zCol = *(*uintptr)(unsafe.Pointer(pE + 8))
for i = 0; i < (*ExprList)(unsafe.Pointer(pEList)).FnExpr; i++ {
if int32(*(*uint16)(unsafe.Pointer(pEList + 8 + uintptr(i)*32 + 16 + 4))&0x3>>0) == ENAME_NAME &&
Xsqlite3_stricmp(tls, (*ExprList_item)(unsafe.Pointer(pEList+8+uintptr(i)*32)).FzEName, zCol) == 0 {
return i + 1
}
}
}
return 0
}
func resolveOrderByTermToExprList(tls *libc.TLS, pParse uintptr, pSelect uintptr, pE uintptr) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
var i int32
var pEList uintptr
var db uintptr
var rc int32
var savedSuppErr U8
pEList = (*Select)(unsafe.Pointer(pSelect)).FpEList
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp, 0))
(*NameContext)(unsafe.Pointer(bp)).FpParse = pParse
(*NameContext)(unsafe.Pointer(bp)).FpSrcList = (*Select)(unsafe.Pointer(pSelect)).FpSrc
*(*uintptr)(unsafe.Pointer(bp + 16)) = pEList
(*NameContext)(unsafe.Pointer(bp)).FncFlags = NC_AllowAgg | NC_UEList | NC_NoSelect
(*NameContext)(unsafe.Pointer(bp)).FnNcErr = 0
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
savedSuppErr = (*Sqlite3)(unsafe.Pointer(db)).FsuppressErr
(*Sqlite3)(unsafe.Pointer(db)).FsuppressErr = U8(1)
rc = Xsqlite3ResolveExprNames(tls, bp, pE)
(*Sqlite3)(unsafe.Pointer(db)).FsuppressErr = savedSuppErr
if rc != 0 {
return 0
}
for i = 0; i < (*ExprList)(unsafe.Pointer(pEList)).FnExpr; i++ {
if Xsqlite3ExprCompare(tls, uintptr(0), (*ExprList_item)(unsafe.Pointer(pEList+8+uintptr(i)*32)).FpExpr, pE, -1) < 2 {
return i + 1
}
}
return 0
}
func resolveOutOfRangeError(tls *libc.TLS, pParse uintptr, zType uintptr, i int32, mx int32, pError uintptr) {
bp := tls.Alloc(24)
defer tls.Free(24)
Xsqlite3ErrorMsg(tls, pParse,
ts+7547, libc.VaList(bp, i, zType, mx))
Xsqlite3RecordErrorOffsetOfExpr(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pError)
}
func resolveCompoundOrderBy(tls *libc.TLS, pParse uintptr, pSelect uintptr) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
var i int32
var pOrderBy uintptr
var pEList uintptr
var db uintptr
var moreToDo int32 = 1
pOrderBy = (*Select)(unsafe.Pointer(pSelect)).FpOrderBy
if pOrderBy == uintptr(0) {
return 0
}
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr > *(*int32)(unsafe.Pointer(db + 136 + 2*4)) {
Xsqlite3ErrorMsg(tls, pParse, ts+7603, 0)
return 1
}
for i = 0; i < (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr; i++ {
libc.SetBitFieldPtr16Uint32(pOrderBy+8+uintptr(i)*32+16+4, uint32(0), 2, 0x4)
}
(*Select)(unsafe.Pointer(pSelect)).FpNext = uintptr(0)
for (*Select)(unsafe.Pointer(pSelect)).FpPrior != 0 {
(*Select)(unsafe.Pointer((*Select)(unsafe.Pointer(pSelect)).FpPrior)).FpNext = pSelect
pSelect = (*Select)(unsafe.Pointer(pSelect)).FpPrior
}
for pSelect != 0 && moreToDo != 0 {
var pItem uintptr
moreToDo = 0
pEList = (*Select)(unsafe.Pointer(pSelect)).FpEList
i = 0
pItem = pOrderBy + 8
__1:
if !(i < (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr) {
goto __3
}
{
*(*int32)(unsafe.Pointer(bp + 8)) = -1
var pE uintptr
var pDup uintptr
if uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 16 + 4))&0x4>>2)) != 0 {
goto __2
}
pE = Xsqlite3ExprSkipCollateAndLikely(tls, (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr)
if pE == uintptr(0) {
goto __2
}
if Xsqlite3ExprIsInteger(tls, pE, bp+8) != 0 {
if *(*int32)(unsafe.Pointer(bp + 8)) <= 0 || *(*int32)(unsafe.Pointer(bp + 8)) > (*ExprList)(unsafe.Pointer(pEList)).FnExpr {
resolveOutOfRangeError(tls, pParse, ts+7637, i+1, (*ExprList)(unsafe.Pointer(pEList)).FnExpr, pE)
return 1
}
} else {
*(*int32)(unsafe.Pointer(bp + 8)) = resolveAsName(tls, pParse, pEList, pE)
if *(*int32)(unsafe.Pointer(bp + 8)) == 0 {
pDup = Xsqlite3ExprDup(tls, db, pE, 0)
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
*(*int32)(unsafe.Pointer(bp + 8)) = resolveOrderByTermToExprList(tls, pParse, pSelect, pDup)
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME && *(*int32)(unsafe.Pointer(bp + 8)) > 0 {
resolveOrderByTermToExprList(tls, pParse, pSelect, pE)
}
}
Xsqlite3ExprDelete(tls, db, pDup)
}
}
if *(*int32)(unsafe.Pointer(bp + 8)) > 0 {
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
var pNew uintptr = Xsqlite3Expr(tls, db, TK_INTEGER, uintptr(0))
if pNew == uintptr(0) {
return 1
}
*(*U32)(unsafe.Pointer(pNew + 4)) |= U32(EP_IntValue)
*(*int32)(unsafe.Pointer(pNew + 8)) = *(*int32)(unsafe.Pointer(bp + 8))
if (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr == pE {
(*ExprList_item)(unsafe.Pointer(pItem)).FpExpr = pNew
} else {
var pParent uintptr = (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr
for int32((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pParent)).FpLeft)).Fop) == TK_COLLATE {
pParent = (*Expr)(unsafe.Pointer(pParent)).FpLeft
}
(*Expr)(unsafe.Pointer(pParent)).FpLeft = pNew
}
Xsqlite3ExprDelete(tls, db, pE)
*(*U16)(unsafe.Pointer(pItem + 24)) = U16(*(*int32)(unsafe.Pointer(bp + 8)))
}
libc.SetBitFieldPtr16Uint32(pItem+16+4, uint32(1), 2, 0x4)
} else {
moreToDo = 1
}
}
goto __2
__2:
i++
pItem += 32
goto __1
goto __3
__3:
;
pSelect = (*Select)(unsafe.Pointer(pSelect)).FpNext
}
for i = 0; i < (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr; i++ {
if int32(*(*uint16)(unsafe.Pointer(pOrderBy + 8 + uintptr(i)*32 + 16 + 4))&0x4>>2) == 0 {
Xsqlite3ErrorMsg(tls, pParse,
ts+7643, libc.VaList(bp, i+1))
return 1
}
}
return 0
}
// Check every term in the ORDER BY or GROUP BY clause pOrderBy of
// the SELECT statement pSelect. If any term is reference to a
// result set expression (as determined by the ExprList.a.u.x.iOrderByCol
// field) then convert that term into a copy of the corresponding result set
// column.
//
// If any errors are detected, add an error message to pParse and
// return non-zero. Return zero if no errors are seen.
func Xsqlite3ResolveOrderGroupBy(tls *libc.TLS, pParse uintptr, pSelect uintptr, pOrderBy uintptr, zType uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var i int32
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pEList uintptr
var pItem uintptr
if pOrderBy == uintptr(0) || (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed != 0 || int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
return 0
}
if (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr > *(*int32)(unsafe.Pointer(db + 136 + 2*4)) {
Xsqlite3ErrorMsg(tls, pParse, ts+7704, libc.VaList(bp, zType))
return 1
}
pEList = (*Select)(unsafe.Pointer(pSelect)).FpEList
i = 0
pItem = pOrderBy + 8
__1:
if !(i < (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr) {
goto __3
}
{
if *(*U16)(unsafe.Pointer(pItem + 24)) != 0 {
if int32(*(*U16)(unsafe.Pointer(pItem + 24))) > (*ExprList)(unsafe.Pointer(pEList)).FnExpr {
resolveOutOfRangeError(tls, pParse, zType, i+1, (*ExprList)(unsafe.Pointer(pEList)).FnExpr, uintptr(0))
return 1
}
resolveAlias(tls, pParse, pEList, int32(*(*U16)(unsafe.Pointer(pItem + 24)))-1, (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr, 0)
}
}
goto __2
__2:
i++
pItem += 32
goto __1
goto __3
__3:
;
return 0
}
func resolveRemoveWindowsCb(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
_ = pWalker
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc) != U32(0) {
var pWin uintptr = *(*uintptr)(unsafe.Pointer(pExpr + 64))
Xsqlite3WindowUnlinkFromSelect(tls, pWin)
}
return WRC_Continue
}
func windowRemoveExprFromSelect(tls *libc.TLS, pSelect uintptr, pExpr uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
if (*Select)(unsafe.Pointer(pSelect)).FpWin != 0 {
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{resolveRemoveWindowsCb}))
*(*uintptr)(unsafe.Pointer(bp + 40)) = pSelect
Xsqlite3WalkExpr(tls, bp, pExpr)
}
}
func resolveOrderGroupBy(tls *libc.TLS, pNC uintptr, pSelect uintptr, pOrderBy uintptr, zType uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var i int32
var j int32
var pItem uintptr
var pParse uintptr
var nResult int32
nResult = (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(pSelect)).FpEList)).FnExpr
pParse = (*NameContext)(unsafe.Pointer(pNC)).FpParse
i = 0
pItem = pOrderBy + 8
__1:
if !(i < (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr) {
goto __3
}
{
var pE uintptr = (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr
var pE2 uintptr = Xsqlite3ExprSkipCollateAndLikely(tls, pE)
if pE2 == uintptr(0) {
goto __2
}
if int32(*(*int8)(unsafe.Pointer(zType))) != 'G' {
*(*int32)(unsafe.Pointer(bp)) = resolveAsName(tls, pParse, (*Select)(unsafe.Pointer(pSelect)).FpEList, pE2)
if *(*int32)(unsafe.Pointer(bp)) > 0 {
*(*U16)(unsafe.Pointer(pItem + 24)) = U16(*(*int32)(unsafe.Pointer(bp)))
goto __2
}
}
if Xsqlite3ExprIsInteger(tls, pE2, bp) != 0 {
if *(*int32)(unsafe.Pointer(bp)) < 1 || *(*int32)(unsafe.Pointer(bp)) > 0xffff {
resolveOutOfRangeError(tls, pParse, zType, i+1, nResult, pE2)
return 1
}
*(*U16)(unsafe.Pointer(pItem + 24)) = U16(*(*int32)(unsafe.Pointer(bp)))
goto __2
}
*(*U16)(unsafe.Pointer(pItem + 24)) = U16(0)
if Xsqlite3ResolveExprNames(tls, pNC, pE) != 0 {
return 1
}
for j = 0; j < (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(pSelect)).FpEList)).FnExpr; j++ {
if Xsqlite3ExprCompare(tls, uintptr(0), pE, (*ExprList_item)(unsafe.Pointer((*Select)(unsafe.Pointer(pSelect)).FpEList+8+uintptr(j)*32)).FpExpr, -1) == 0 {
windowRemoveExprFromSelect(tls, pSelect, pE)
*(*U16)(unsafe.Pointer(pItem + 24)) = U16(j + 1)
}
}
}
goto __2
__2:
i++
pItem += 32
goto __1
goto __3
__3:
;
return Xsqlite3ResolveOrderGroupBy(tls, pParse, pSelect, pOrderBy, zType)
}
func resolveSelectStep(tls *libc.TLS, pWalker uintptr, p uintptr) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
var pOuterNC uintptr
var isCompound int32
var nCompound int32
var pParse uintptr
var i int32
var pGroupBy uintptr
var pLeftmost uintptr
var db uintptr
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Resolved) != 0 {
return WRC_Prune
}
pOuterNC = *(*uintptr)(unsafe.Pointer(pWalker + 40))
pParse = (*Walker)(unsafe.Pointer(pWalker)).FpParse
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Expanded) == U32(0) {
Xsqlite3SelectPrep(tls, pParse, p, pOuterNC)
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return WRC_Abort
}
return WRC_Prune
}
isCompound = libc.Bool32((*Select)(unsafe.Pointer(p)).FpPrior != uintptr(0))
nCompound = 0
pLeftmost = p
for p != 0 {
*(*U32)(unsafe.Pointer(p + 4)) |= U32(SF_Resolved)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp, 0))
(*NameContext)(unsafe.Pointer(bp)).FpParse = pParse
(*NameContext)(unsafe.Pointer(bp)).FpWinSelect = p
if Xsqlite3ResolveExprNames(tls, bp, (*Select)(unsafe.Pointer(p)).FpLimit) != 0 {
return WRC_Abort
}
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Converted) != 0 {
var pSub uintptr = (*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc + 8)).FpSelect
(*Select)(unsafe.Pointer(pSub)).FpOrderBy = (*Select)(unsafe.Pointer(p)).FpOrderBy
(*Select)(unsafe.Pointer(p)).FpOrderBy = uintptr(0)
}
for i = 0; i < (*SrcList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc)).FnSrc; i++ {
var pItem uintptr = (*Select)(unsafe.Pointer(p)).FpSrc + 8 + uintptr(i)*104
if (*SrcItem)(unsafe.Pointer(pItem)).FpSelect != 0 && (*Select)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pItem)).FpSelect)).FselFlags&U32(SF_Resolved) == U32(0) {
var nRef int32
if pOuterNC != 0 {
nRef = (*NameContext)(unsafe.Pointer(pOuterNC)).FnRef
} else {
nRef = 0
}
var zSavedContext uintptr = (*Parse)(unsafe.Pointer(pParse)).FzAuthContext
if (*SrcItem)(unsafe.Pointer(pItem)).FzName != 0 {
(*Parse)(unsafe.Pointer(pParse)).FzAuthContext = (*SrcItem)(unsafe.Pointer(pItem)).FzName
}
Xsqlite3ResolveSelectNames(tls, pParse, (*SrcItem)(unsafe.Pointer(pItem)).FpSelect, pOuterNC)
(*Parse)(unsafe.Pointer(pParse)).FzAuthContext = zSavedContext
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return WRC_Abort
}
if pOuterNC != 0 {
libc.SetBitFieldPtr16Uint32(pItem+60+4, uint32(libc.Bool32((*NameContext)(unsafe.Pointer(pOuterNC)).FnRef > nRef)), 3, 0x8)
}
}
}
(*NameContext)(unsafe.Pointer(bp)).FncFlags = NC_AllowAgg | NC_AllowWin
(*NameContext)(unsafe.Pointer(bp)).FpSrcList = (*Select)(unsafe.Pointer(p)).FpSrc
(*NameContext)(unsafe.Pointer(bp)).FpNext = pOuterNC
if Xsqlite3ResolveExprListNames(tls, bp, (*Select)(unsafe.Pointer(p)).FpEList) != 0 {
return WRC_Abort
}
*(*int32)(unsafe.Pointer(bp + 40)) &= libc.CplInt32(NC_AllowWin)
pGroupBy = (*Select)(unsafe.Pointer(p)).FpGroupBy
if pGroupBy != 0 || (*NameContext)(unsafe.Pointer(bp)).FncFlags&NC_HasAgg != 0 {
*(*U32)(unsafe.Pointer(p + 4)) |= U32(SF_Aggregate | (*NameContext)(unsafe.Pointer(bp)).FncFlags&(NC_MinMaxAgg|NC_OrderAgg))
} else {
*(*int32)(unsafe.Pointer(bp + 40)) &= libc.CplInt32(NC_AllowAgg)
}
*(*uintptr)(unsafe.Pointer(bp + 16)) = (*Select)(unsafe.Pointer(p)).FpEList
*(*int32)(unsafe.Pointer(bp + 40)) |= NC_UEList
if (*Select)(unsafe.Pointer(p)).FpHaving != 0 {
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Aggregate) == U32(0) {
Xsqlite3ErrorMsg(tls, pParse, ts+7735, 0)
return WRC_Abort
}
if Xsqlite3ResolveExprNames(tls, bp, (*Select)(unsafe.Pointer(p)).FpHaving) != 0 {
return WRC_Abort
}
}
if Xsqlite3ResolveExprNames(tls, bp, (*Select)(unsafe.Pointer(p)).FpWhere) != 0 {
return WRC_Abort
}
for i = 0; i < (*SrcList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc)).FnSrc; i++ {
var pItem uintptr = (*Select)(unsafe.Pointer(p)).FpSrc + 8 + uintptr(i)*104
if uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x4>>2)) != 0 &&
Xsqlite3ResolveExprListNames(tls, bp, *(*uintptr)(unsafe.Pointer(pItem + 88))) != 0 {
return WRC_Abort
}
}
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
var pWin uintptr
for pWin = (*Select)(unsafe.Pointer(p)).FpWinDefn; pWin != 0; pWin = (*Window)(unsafe.Pointer(pWin)).FpNextWin {
if Xsqlite3ResolveExprListNames(tls, bp, (*Window)(unsafe.Pointer(pWin)).FpOrderBy) != 0 ||
Xsqlite3ResolveExprListNames(tls, bp, (*Window)(unsafe.Pointer(pWin)).FpPartition) != 0 {
return WRC_Abort
}
}
}
(*NameContext)(unsafe.Pointer(bp)).FpNext = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 40)) |= NC_AllowAgg | NC_AllowWin
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Converted) != 0 {
var pSub uintptr = (*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc + 8)).FpSelect
(*Select)(unsafe.Pointer(p)).FpOrderBy = (*Select)(unsafe.Pointer(pSub)).FpOrderBy
(*Select)(unsafe.Pointer(pSub)).FpOrderBy = uintptr(0)
}
if (*Select)(unsafe.Pointer(p)).FpOrderBy != uintptr(0) &&
isCompound <= nCompound &&
resolveOrderGroupBy(tls, bp, p, (*Select)(unsafe.Pointer(p)).FpOrderBy, ts+7637) != 0 {
return WRC_Abort
}
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return WRC_Abort
}
*(*int32)(unsafe.Pointer(bp + 40)) &= libc.CplInt32(NC_AllowWin)
if pGroupBy != 0 {
var pItem uintptr
if resolveOrderGroupBy(tls, bp, p, pGroupBy, ts+7774) != 0 || (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return WRC_Abort
}
i = 0
pItem = pGroupBy + 8
__1:
if !(i < (*ExprList)(unsafe.Pointer(pGroupBy)).FnExpr) {
goto __3
}
{
if (*Expr)(unsafe.Pointer((*ExprList_item)(unsafe.Pointer(pItem)).FpExpr)).Fflags&U32(EP_Agg) != U32(0) {
Xsqlite3ErrorMsg(tls, pParse,
ts+7780, 0)
return WRC_Abort
}
}
goto __2
__2:
i++
pItem += 32
goto __1
goto __3
__3:
}
if (*Select)(unsafe.Pointer(p)).FpNext != 0 && (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpEList)).FnExpr != (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpNext)).FpEList)).FnExpr {
Xsqlite3SelectWrongNumTermsError(tls, pParse, (*Select)(unsafe.Pointer(p)).FpNext)
return WRC_Abort
}
p = (*Select)(unsafe.Pointer(p)).FpPrior
nCompound++
}
if isCompound != 0 && resolveCompoundOrderBy(tls, pParse, pLeftmost) != 0 {
return WRC_Abort
}
return WRC_Prune
}
// This routine walks an expression tree and resolves references to
// table columns and result-set columns. At the same time, do error
// checking on function usage and set a flag if any aggregate functions
// are seen.
//
// To resolve table columns references we look for nodes (or subtrees) of the
// form X.Y.Z or Y.Z or just Z where
//
// X: The name of a database. Ex: "main" or "temp" or
// the symbolic name assigned to an ATTACH-ed database.
//
// Y: The name of a table in a FROM clause. Or in a trigger
// one of the special names "old" or "new".
//
// Z: The name of a column in table Y.
//
// The node at the root of the subtree is modified as follows:
//
// Expr.op Changed to TK_COLUMN
// Expr.pTab Points to the Table object for X.Y
// Expr.iColumn The column index in X.Y. -1 for the rowid.
// Expr.iTable The VDBE cursor number for X.Y
//
// To resolve result-set references, look for expression nodes of the
// form Z (with no X and Y prefix) where the Z matches the right-hand
// size of an AS clause in the result-set of a SELECT. The Z expression
// is replaced by a copy of the left-hand side of the result-set expression.
// Table-name and function resolution occurs on the substituted expression
// tree. For example, in:
//
// SELECT a+b AS x, c+d AS y FROM t1 ORDER BY x;
//
// The "x" term of the order by is replaced by "a+b" to render:
//
// SELECT a+b AS x, c+d AS y FROM t1 ORDER BY a+b;
//
// Function calls are checked to make sure that the function is
// defined and that the correct number of arguments are specified.
// If the function is an aggregate function, then the NC_HasAgg flag is
// set and the opcode is changed from TK_FUNCTION to TK_AGG_FUNCTION.
// If an expression contains aggregate functions then the EP_Agg
// property on the expression is set.
//
// An error message is left in pParse if anything is amiss. The number
// if errors is returned.
func Xsqlite3ResolveExprNames(tls *libc.TLS, pNC uintptr, pExpr uintptr) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
var savedHasAgg int32
if pExpr == uintptr(0) {
return SQLITE_OK
}
savedHasAgg = (*NameContext)(unsafe.Pointer(pNC)).FncFlags & (NC_HasAgg | NC_MinMaxAgg | NC_HasWin | NC_OrderAgg)
*(*int32)(unsafe.Pointer(pNC + 40)) &= libc.CplInt32(NC_HasAgg | NC_MinMaxAgg | NC_HasWin | NC_OrderAgg)
(*Walker)(unsafe.Pointer(bp)).FpParse = (*NameContext)(unsafe.Pointer(pNC)).FpParse
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{resolveExprStep}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = func() uintptr {
if (*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_NoSelect != 0 {
return uintptr(0)
}
return *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{resolveSelectStep}))
}()
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback2 = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 40)) = pNC
*(*int32)(unsafe.Pointer((*Walker)(unsafe.Pointer(bp)).FpParse + 316)) += (*Expr)(unsafe.Pointer(pExpr)).FnHeight
if Xsqlite3ExprCheckHeight(tls, (*Walker)(unsafe.Pointer(bp)).FpParse, (*Parse)(unsafe.Pointer((*Walker)(unsafe.Pointer(bp)).FpParse)).FnHeight) != 0 {
return SQLITE_ERROR
}
Xsqlite3WalkExpr(tls, bp, pExpr)
*(*int32)(unsafe.Pointer((*Walker)(unsafe.Pointer(bp)).FpParse + 316)) -= (*Expr)(unsafe.Pointer(pExpr)).FnHeight
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32((*NameContext)(unsafe.Pointer(pNC)).FncFlags & (NC_HasAgg | NC_HasWin))
*(*int32)(unsafe.Pointer(pNC + 40)) |= savedHasAgg
return libc.Bool32((*NameContext)(unsafe.Pointer(pNC)).FnNcErr > 0 || (*Parse)(unsafe.Pointer((*Walker)(unsafe.Pointer(bp)).FpParse)).FnErr > 0)
}
// Resolve all names for all expression in an expression list. This is
// just like sqlite3ResolveExprNames() except that it works for an expression
// list rather than a single expression.
func Xsqlite3ResolveExprListNames(tls *libc.TLS, pNC uintptr, pList uintptr) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
var i int32
var savedHasAgg int32 = 0
if pList == uintptr(0) {
return WRC_Continue
}
(*Walker)(unsafe.Pointer(bp)).FpParse = (*NameContext)(unsafe.Pointer(pNC)).FpParse
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{resolveExprStep}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{resolveSelectStep}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback2 = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 40)) = pNC
savedHasAgg = (*NameContext)(unsafe.Pointer(pNC)).FncFlags & (NC_HasAgg | NC_MinMaxAgg | NC_HasWin | NC_OrderAgg)
*(*int32)(unsafe.Pointer(pNC + 40)) &= libc.CplInt32(NC_HasAgg | NC_MinMaxAgg | NC_HasWin | NC_OrderAgg)
for i = 0; i < (*ExprList)(unsafe.Pointer(pList)).FnExpr; i++ {
var pExpr uintptr = (*ExprList_item)(unsafe.Pointer(pList + 8 + uintptr(i)*32)).FpExpr
if pExpr == uintptr(0) {
continue
}
*(*int32)(unsafe.Pointer((*Walker)(unsafe.Pointer(bp)).FpParse + 316)) += (*Expr)(unsafe.Pointer(pExpr)).FnHeight
if Xsqlite3ExprCheckHeight(tls, (*Walker)(unsafe.Pointer(bp)).FpParse, (*Parse)(unsafe.Pointer((*Walker)(unsafe.Pointer(bp)).FpParse)).FnHeight) != 0 {
return WRC_Abort
}
Xsqlite3WalkExpr(tls, bp, pExpr)
*(*int32)(unsafe.Pointer((*Walker)(unsafe.Pointer(bp)).FpParse + 316)) -= (*Expr)(unsafe.Pointer(pExpr)).FnHeight
if (*NameContext)(unsafe.Pointer(pNC)).FncFlags&(NC_HasAgg|NC_MinMaxAgg|NC_HasWin|NC_OrderAgg) != 0 {
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32((*NameContext)(unsafe.Pointer(pNC)).FncFlags & (NC_HasAgg | NC_HasWin))
savedHasAgg = savedHasAgg | (*NameContext)(unsafe.Pointer(pNC)).FncFlags&(NC_HasAgg|NC_MinMaxAgg|NC_HasWin|NC_OrderAgg)
*(*int32)(unsafe.Pointer(pNC + 40)) &= libc.CplInt32(NC_HasAgg | NC_MinMaxAgg | NC_HasWin | NC_OrderAgg)
}
if (*Parse)(unsafe.Pointer((*Walker)(unsafe.Pointer(bp)).FpParse)).FnErr > 0 {
return WRC_Abort
}
}
*(*int32)(unsafe.Pointer(pNC + 40)) |= savedHasAgg
return WRC_Continue
}
// Resolve all names in all expressions of a SELECT and in all
// decendents of the SELECT, including compounds off of p->pPrior,
// subqueries in expressions, and subqueries used as FROM clause
// terms.
//
// See sqlite3ResolveExprNames() for a description of the kinds of
// transformations that occur.
//
// All SELECT statements should have been expanded using
// sqlite3SelectExpand() prior to invoking this routine.
func Xsqlite3ResolveSelectNames(tls *libc.TLS, pParse uintptr, p uintptr, pOuterNC uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{resolveExprStep}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{resolveSelectStep}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback2 = uintptr(0)
(*Walker)(unsafe.Pointer(bp)).FpParse = pParse
*(*uintptr)(unsafe.Pointer(bp + 40)) = pOuterNC
Xsqlite3WalkSelect(tls, bp, p)
}
// Resolve names in expressions that can only reference a single table
// or which cannot reference any tables at all. Examples:
//
// "type" flag
// ------------
// (1) CHECK constraints NC_IsCheck
// (2) WHERE clauses on partial indices NC_PartIdx
// (3) Expressions in indexes on expressions NC_IdxExpr
// (4) Expression arguments to VACUUM INTO. 0
// (5) GENERATED ALWAYS as expressions NC_GenCol
//
// In all cases except (4), the Expr.iTable value for Expr.op==TK_COLUMN
// nodes of the expression is set to -1 and the Expr.iColumn value is
// set to the column number. In case (4), TK_COLUMN nodes cause an error.
//
// Any errors cause an error message to be set in pParse.
func Xsqlite3ResolveSelfReference(tls *libc.TLS, pParse uintptr, pTab uintptr, type1 int32, pExpr uintptr, pList uintptr) int32 {
bp := tls.Alloc(168)
defer tls.Free(168)
var rc int32
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp, 0))
libc.X__builtin___memset_chk(tls, bp+56, 0, uint64(unsafe.Sizeof(SrcList{})), libc.X__builtin_object_size(tls, bp+56, 0))
if pTab != 0 {
(*SrcList)(unsafe.Pointer(bp + 56)).FnSrc = 1
(*SrcItem)(unsafe.Pointer(bp + 56 + 8)).FzName = (*Table)(unsafe.Pointer(pTab)).FzName
(*SrcItem)(unsafe.Pointer(bp + 56 + 8)).FpTab = pTab
(*SrcItem)(unsafe.Pointer(bp + 56 + 8)).FiCursor = -1
if (*Table)(unsafe.Pointer(pTab)).FpSchema != (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FaDb+1*32)).FpSchema {
type1 = type1 | NC_FromDDL
}
}
(*NameContext)(unsafe.Pointer(bp)).FpParse = pParse
(*NameContext)(unsafe.Pointer(bp)).FpSrcList = bp + 56
(*NameContext)(unsafe.Pointer(bp)).FncFlags = type1 | NC_IsDDL
if libc.AssignInt32(&rc, Xsqlite3ResolveExprNames(tls, bp, pExpr)) != SQLITE_OK {
return rc
}
if pList != 0 {
rc = Xsqlite3ResolveExprListNames(tls, bp, pList)
}
return rc
}
// Return the affinity character for a single column of a table.
func Xsqlite3TableColumnAffinity(tls *libc.TLS, pTab uintptr, iCol int32) int8 {
if iCol < 0 || iCol >= int32((*Table)(unsafe.Pointer(pTab)).FnCol) {
return int8(SQLITE_AFF_INTEGER)
}
return (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(iCol)*24)).Faffinity
}
// Return the 'affinity' of the expression pExpr if any.
//
// If pExpr is a column, a reference to a column via an 'AS' alias,
// or a sub-select with a column as the return value, then the
// affinity of that column is returned. Otherwise, 0x00 is returned,
// indicating no affinity for the expression.
//
// i.e. the WHERE clause expressions in the following statements all
// have an affinity:
//
// CREATE TABLE t1(a);
// SELECT * FROM t1 WHERE a;
// SELECT a AS b FROM t1 WHERE b;
// SELECT * FROM t1 WHERE (select a from t1);
func Xsqlite3ExprAffinity(tls *libc.TLS, pExpr uintptr) int8 {
var op int32
op = int32((*Expr)(unsafe.Pointer(pExpr)).Fop)
for 1 != 0 {
if op == TK_COLUMN || op == TK_AGG_COLUMN && *(*uintptr)(unsafe.Pointer(pExpr + 64)) != uintptr(0) {
return Xsqlite3TableColumnAffinity(tls, *(*uintptr)(unsafe.Pointer(pExpr + 64)), int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn))
}
if op == TK_SELECT {
return Xsqlite3ExprAffinity(tls, (*ExprList_item)(unsafe.Pointer((*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FpEList+8)).FpExpr)
}
if op == TK_CAST {
return Xsqlite3AffinityType(tls, *(*uintptr)(unsafe.Pointer(pExpr + 8)), uintptr(0))
}
if op == TK_SELECT_COLUMN {
return Xsqlite3ExprAffinity(tls,
(*ExprList_item)(unsafe.Pointer((*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pExpr)).FpLeft + 32)))).FpEList+8+uintptr((*Expr)(unsafe.Pointer(pExpr)).FiColumn)*32)).FpExpr)
}
if op == TK_VECTOR {
return Xsqlite3ExprAffinity(tls, (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32))+8)).FpExpr)
}
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Skip|EP_IfNullRow) != U32(0) {
pExpr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
op = int32((*Expr)(unsafe.Pointer(pExpr)).Fop)
continue
}
if op != TK_REGISTER || libc.AssignInt32(&op, int32((*Expr)(unsafe.Pointer(pExpr)).Fop2)) == TK_REGISTER {
break
}
}
return (*Expr)(unsafe.Pointer(pExpr)).FaffExpr
}
// Make a guess at all the possible datatypes of the result that could
// be returned by an expression. Return a bitmask indicating the answer:
//
// 0x01 Numeric
// 0x02 Text
// 0x04 Blob
//
// If the expression must return NULL, then 0x00 is returned.
func Xsqlite3ExprDataType(tls *libc.TLS, pExpr uintptr) int32 {
for pExpr != 0 {
switch int32((*Expr)(unsafe.Pointer(pExpr)).Fop) {
case TK_COLLATE:
fallthrough
case TK_IF_NULL_ROW:
fallthrough
case TK_UPLUS:
{
pExpr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
break
}
case TK_NULL:
{
pExpr = uintptr(0)
break
}
case TK_STRING:
{
return 0x02
}
case TK_BLOB:
{
return 0x04
}
case TK_CONCAT:
{
return 0x06
}
case TK_VARIABLE:
fallthrough
case TK_AGG_FUNCTION:
fallthrough
case TK_FUNCTION:
{
return 0x07
}
case TK_COLUMN:
fallthrough
case TK_AGG_COLUMN:
fallthrough
case TK_SELECT:
fallthrough
case TK_CAST:
fallthrough
case TK_SELECT_COLUMN:
fallthrough
case TK_VECTOR:
{
var aff int32 = int32(Xsqlite3ExprAffinity(tls, pExpr))
if aff >= SQLITE_AFF_NUMERIC {
return 0x05
}
if aff == SQLITE_AFF_TEXT {
return 0x06
}
return 0x07
}
case TK_CASE:
{
var res int32 = 0
var ii int32
var pList uintptr = *(*uintptr)(unsafe.Pointer(pExpr + 32))
for ii = 1; ii < (*ExprList)(unsafe.Pointer(pList)).FnExpr; ii = ii + 2 {
res = res | Xsqlite3ExprDataType(tls, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(ii)*32)).FpExpr)
}
if (*ExprList)(unsafe.Pointer(pList)).FnExpr%2 != 0 {
res = res | Xsqlite3ExprDataType(tls, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr((*ExprList)(unsafe.Pointer(pList)).FnExpr-1)*32)).FpExpr)
}
return res
}
default:
{
return 0x01
}
}
}
return 0x00
}
// Set the collating sequence for expression pExpr to be the collating
// sequence named by pToken. Return a pointer to a new Expr node that
// implements the COLLATE operator.
//
// If a memory allocation error occurs, that fact is recorded in pParse->db
// and the pExpr parameter is returned unchanged.
func Xsqlite3ExprAddCollateToken(tls *libc.TLS, pParse uintptr, pExpr uintptr, pCollName uintptr, dequote int32) uintptr {
if (*Token)(unsafe.Pointer(pCollName)).Fn > uint32(0) {
var pNew uintptr = Xsqlite3ExprAlloc(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, TK_COLLATE, pCollName, dequote)
if pNew != 0 {
(*Expr)(unsafe.Pointer(pNew)).FpLeft = pExpr
*(*U32)(unsafe.Pointer(pNew + 4)) |= U32(EP_Collate | EP_Skip)
pExpr = pNew
}
}
return pExpr
}
func Xsqlite3ExprAddCollateString(tls *libc.TLS, pParse uintptr, pExpr uintptr, zC uintptr) uintptr {
bp := tls.Alloc(16)
defer tls.Free(16)
Xsqlite3TokenInit(tls, bp, zC)
return Xsqlite3ExprAddCollateToken(tls, pParse, pExpr, bp, 0)
}
// Skip over any TK_COLLATE operators.
func Xsqlite3ExprSkipCollate(tls *libc.TLS, pExpr uintptr) uintptr {
for pExpr != 0 && (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Skip) != U32(0) {
pExpr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
}
return pExpr
}
// Skip over any TK_COLLATE operators and/or any unlikely()
// or likelihood() or likely() functions at the root of an
// expression.
func Xsqlite3ExprSkipCollateAndLikely(tls *libc.TLS, pExpr uintptr) uintptr {
for pExpr != 0 && (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Skip|EP_Unlikely) != U32(0) {
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Unlikely) != U32(0) {
pExpr = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)) + 8)).FpExpr
} else {
pExpr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
}
}
return pExpr
}
// Return the collation sequence for the expression pExpr. If
// there is no defined collating sequence, return NULL.
//
// See also: sqlite3ExprNNCollSeq()
//
// The sqlite3ExprNNCollSeq() works the same exact that it returns the
// default collation if pExpr has no defined collation.
//
// The collating sequence might be determined by a COLLATE operator
// or by the presence of a column with a defined collating sequence.
// COLLATE operators take first precedence. Left operands take
// precedence over right operands.
func Xsqlite3ExprCollSeq(tls *libc.TLS, pParse uintptr, pExpr uintptr) uintptr {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pColl uintptr = uintptr(0)
var p uintptr = pExpr
for p != 0 {
var op int32 = int32((*Expr)(unsafe.Pointer(p)).Fop)
if op == TK_REGISTER {
op = int32((*Expr)(unsafe.Pointer(p)).Fop2)
}
if op == TK_AGG_COLUMN && *(*uintptr)(unsafe.Pointer(p + 64)) != uintptr(0) ||
op == TK_COLUMN || op == TK_TRIGGER {
var j int32
if libc.AssignInt32(&j, int32((*Expr)(unsafe.Pointer(p)).FiColumn)) >= 0 {
var zColl uintptr = Xsqlite3ColumnColl(tls, (*Table)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 64)))).FaCol+uintptr(j)*24)
pColl = Xsqlite3FindCollSeq(tls, db, (*Sqlite3)(unsafe.Pointer(db)).Fenc, zColl, 0)
}
break
}
if op == TK_CAST || op == TK_UPLUS {
p = (*Expr)(unsafe.Pointer(p)).FpLeft
continue
}
if op == TK_VECTOR {
p = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 32)) + 8)).FpExpr
continue
}
if op == TK_COLLATE {
pColl = Xsqlite3GetCollSeq(tls, pParse, (*Sqlite3)(unsafe.Pointer(db)).Fenc, uintptr(0), *(*uintptr)(unsafe.Pointer(p + 8)))
break
}
if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_Collate) != 0 {
if (*Expr)(unsafe.Pointer(p)).FpLeft != 0 && (*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(p)).FpLeft)).Fflags&U32(EP_Collate) != U32(0) {
p = (*Expr)(unsafe.Pointer(p)).FpLeft
} else {
var pNext uintptr = (*Expr)(unsafe.Pointer(p)).FpRight
if *(*uintptr)(unsafe.Pointer(p + 32)) != uintptr(0) && !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
var i int32
for i = 0; i < (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 32)))).FnExpr; i++ {
if (*Expr)(unsafe.Pointer((*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 32))+8+uintptr(i)*32)).FpExpr)).Fflags&U32(EP_Collate) != U32(0) {
pNext = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 32)) + 8 + uintptr(i)*32)).FpExpr
break
}
}
}
p = pNext
}
} else {
break
}
}
if Xsqlite3CheckCollSeq(tls, pParse, pColl) != 0 {
pColl = uintptr(0)
}
return pColl
}
// Return the collation sequence for the expression pExpr. If
// there is no defined collating sequence, return a pointer to the
// defautl collation sequence.
//
// See also: sqlite3ExprCollSeq()
//
// The sqlite3ExprCollSeq() routine works the same except that it
// returns NULL if there is no defined collation.
func Xsqlite3ExprNNCollSeq(tls *libc.TLS, pParse uintptr, pExpr uintptr) uintptr {
var p uintptr = Xsqlite3ExprCollSeq(tls, pParse, pExpr)
if p == uintptr(0) {
p = (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FpDfltColl
}
return p
}
// Return TRUE if the two expressions have equivalent collating sequences.
func Xsqlite3ExprCollSeqMatch(tls *libc.TLS, pParse uintptr, pE1 uintptr, pE2 uintptr) int32 {
var pColl1 uintptr = Xsqlite3ExprNNCollSeq(tls, pParse, pE1)
var pColl2 uintptr = Xsqlite3ExprNNCollSeq(tls, pParse, pE2)
return libc.Bool32(Xsqlite3StrICmp(tls, (*CollSeq)(unsafe.Pointer(pColl1)).FzName, (*CollSeq)(unsafe.Pointer(pColl2)).FzName) == 0)
}
// pExpr is an operand of a comparison operator. aff2 is the
// type affinity of the other operand. This routine returns the
// type affinity that should be used for the comparison operator.
func Xsqlite3CompareAffinity(tls *libc.TLS, pExpr uintptr, aff2 int8) int8 {
var aff1 int8 = Xsqlite3ExprAffinity(tls, pExpr)
if int32(aff1) > SQLITE_AFF_NONE && int32(aff2) > SQLITE_AFF_NONE {
if int32(aff1) >= SQLITE_AFF_NUMERIC || int32(aff2) >= SQLITE_AFF_NUMERIC {
return int8(SQLITE_AFF_NUMERIC)
} else {
return int8(SQLITE_AFF_BLOB)
}
} else {
return int8(func() int32 {
if int32(aff1) <= SQLITE_AFF_NONE {
return int32(aff2)
}
return int32(aff1)
}() | SQLITE_AFF_NONE)
}
return int8(0)
}
func comparisonAffinity(tls *libc.TLS, pExpr uintptr) int8 {
var aff int8
aff = Xsqlite3ExprAffinity(tls, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
if (*Expr)(unsafe.Pointer(pExpr)).FpRight != 0 {
aff = Xsqlite3CompareAffinity(tls, (*Expr)(unsafe.Pointer(pExpr)).FpRight, aff)
} else if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_xIsSelect) != U32(0) {
aff = Xsqlite3CompareAffinity(tls, (*ExprList_item)(unsafe.Pointer((*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FpEList+8)).FpExpr, aff)
} else if int32(aff) == 0 {
aff = int8(SQLITE_AFF_BLOB)
}
return aff
}
// pExpr is a comparison expression, eg. '=', '<', IN(...) etc.
// idx_affinity is the affinity of an indexed column. Return true
// if the index with affinity idx_affinity may be used to implement
// the comparison in pExpr.
func Xsqlite3IndexAffinityOk(tls *libc.TLS, pExpr uintptr, idx_affinity int8) int32 {
var aff int8 = comparisonAffinity(tls, pExpr)
if int32(aff) < SQLITE_AFF_TEXT {
return 1
}
if int32(aff) == SQLITE_AFF_TEXT {
return libc.Bool32(int32(idx_affinity) == SQLITE_AFF_TEXT)
}
return libc.Bool32(int32(idx_affinity) >= SQLITE_AFF_NUMERIC)
}
func binaryCompareP5(tls *libc.TLS, pExpr1 uintptr, pExpr2 uintptr, jumpIfNull int32) U8 {
var aff U8 = U8(Xsqlite3ExprAffinity(tls, pExpr2))
aff = U8(int32(U8(Xsqlite3CompareAffinity(tls, pExpr1, int8(aff)))) | int32(U8(jumpIfNull)))
return aff
}
// Return a pointer to the collation sequence that should be used by
// a binary comparison operator comparing pLeft and pRight.
//
// If the left hand expression has a collating sequence type, then it is
// used. Otherwise the collation sequence for the right hand expression
// is used, or the default (BINARY) if neither expression has a collating
// type.
//
// Argument pRight (but not pLeft) may be a null pointer. In this case,
// it is not considered.
func Xsqlite3BinaryCompareCollSeq(tls *libc.TLS, pParse uintptr, pLeft uintptr, pRight uintptr) uintptr {
var pColl uintptr
if (*Expr)(unsafe.Pointer(pLeft)).Fflags&U32(EP_Collate) != 0 {
pColl = Xsqlite3ExprCollSeq(tls, pParse, pLeft)
} else if pRight != 0 && (*Expr)(unsafe.Pointer(pRight)).Fflags&U32(EP_Collate) != U32(0) {
pColl = Xsqlite3ExprCollSeq(tls, pParse, pRight)
} else {
pColl = Xsqlite3ExprCollSeq(tls, pParse, pLeft)
if !(pColl != 0) {
pColl = Xsqlite3ExprCollSeq(tls, pParse, pRight)
}
}
return pColl
}
// Expresssion p is a comparison operator. Return a collation sequence
// appropriate for the comparison operator.
//
// This is normally just a wrapper around sqlite3BinaryCompareCollSeq().
// However, if the OP_Commuted flag is set, then the order of the operands
// is reversed in the sqlite3BinaryCompareCollSeq() call so that the
// correct collating sequence is found.
func Xsqlite3ExprCompareCollSeq(tls *libc.TLS, pParse uintptr, p uintptr) uintptr {
if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_Commuted) != U32(0) {
return Xsqlite3BinaryCompareCollSeq(tls, pParse, (*Expr)(unsafe.Pointer(p)).FpRight, (*Expr)(unsafe.Pointer(p)).FpLeft)
} else {
return Xsqlite3BinaryCompareCollSeq(tls, pParse, (*Expr)(unsafe.Pointer(p)).FpLeft, (*Expr)(unsafe.Pointer(p)).FpRight)
}
return uintptr(0)
}
func codeCompare(tls *libc.TLS, pParse uintptr, pLeft uintptr, pRight uintptr, opcode int32, in1 int32, in2 int32, dest int32, jumpIfNull int32, isCommuted int32) int32 {
var p5 int32
var addr int32
var p4 uintptr
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return 0
}
if isCommuted != 0 {
p4 = Xsqlite3BinaryCompareCollSeq(tls, pParse, pRight, pLeft)
} else {
p4 = Xsqlite3BinaryCompareCollSeq(tls, pParse, pLeft, pRight)
}
p5 = int32(binaryCompareP5(tls, pLeft, pRight, jumpIfNull))
addr = Xsqlite3VdbeAddOp4(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, opcode, in2, dest, in1,
p4, -2)
Xsqlite3VdbeChangeP5(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, uint16(U8(p5)))
return addr
}
// Return true if expression pExpr is a vector, or false otherwise.
//
// A vector is defined as any expression that results in two or more
// columns of result. Every TK_VECTOR node is an vector because the
// parser will not generate a TK_VECTOR with fewer than two entries.
// But a TK_SELECT might be either a vector or a scalar. It is only
// considered a vector if it has two or more result columns.
func Xsqlite3ExprIsVector(tls *libc.TLS, pExpr uintptr) int32 {
return libc.Bool32(Xsqlite3ExprVectorSize(tls, pExpr) > 1)
}
// If the expression passed as the only argument is of type TK_VECTOR
// return the number of expressions in the vector. Or, if the expression
// is a sub-select, return the number of columns in the sub-select. For
// any other type of expression, return 1.
func Xsqlite3ExprVectorSize(tls *libc.TLS, pExpr uintptr) int32 {
var op U8 = (*Expr)(unsafe.Pointer(pExpr)).Fop
if int32(op) == TK_REGISTER {
op = (*Expr)(unsafe.Pointer(pExpr)).Fop2
}
if int32(op) == TK_VECTOR {
return (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FnExpr
} else if int32(op) == TK_SELECT {
return (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FpEList)).FnExpr
} else {
return 1
}
return int32(0)
}
// Return a pointer to a subexpression of pVector that is the i-th
// column of the vector (numbered starting with 0). The caller must
// ensure that i is within range.
//
// If pVector is really a scalar (and "scalar" here includes subqueries
// that return a single column!) then return pVector unmodified.
//
// pVector retains ownership of the returned subexpression.
//
// If the vector is a (SELECT ...) then the expression returned is
// just the expression for the i-th term of the result set, and may
// not be ready for evaluation because the table cursor has not yet
// been positioned.
func Xsqlite3VectorFieldSubexpr(tls *libc.TLS, pVector uintptr, i int32) uintptr {
if Xsqlite3ExprIsVector(tls, pVector) != 0 {
if int32((*Expr)(unsafe.Pointer(pVector)).Fop) == TK_SELECT || int32((*Expr)(unsafe.Pointer(pVector)).Fop2) == TK_SELECT {
return (*ExprList_item)(unsafe.Pointer((*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pVector + 32)))).FpEList + 8 + uintptr(i)*32)).FpExpr
} else {
return (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pVector + 32)) + 8 + uintptr(i)*32)).FpExpr
}
}
return pVector
}
// Compute and return a new Expr object which when passed to
// sqlite3ExprCode() will generate all necessary code to compute
// the iField-th column of the vector expression pVector.
//
// It is ok for pVector to be a scalar (as long as iField==0).
// In that case, this routine works like sqlite3ExprDup().
//
// The caller owns the returned Expr object and is responsible for
// ensuring that the returned value eventually gets freed.
//
// The caller retains ownership of pVector. If pVector is a TK_SELECT,
// then the returned object will reference pVector and so pVector must remain
// valid for the life of the returned object. If pVector is a TK_VECTOR
// or a scalar expression, then it can be deleted as soon as this routine
// returns.
//
// A trick to cause a TK_SELECT pVector to be deleted together with
// the returned Expr object is to attach the pVector to the pRight field
// of the returned TK_SELECT_COLUMN Expr object.
func Xsqlite3ExprForVectorField(tls *libc.TLS, pParse uintptr, pVector uintptr, iField int32, nField int32) uintptr {
var pRet uintptr
if int32((*Expr)(unsafe.Pointer(pVector)).Fop) == TK_SELECT {
pRet = Xsqlite3PExpr(tls, pParse, TK_SELECT_COLUMN, uintptr(0), uintptr(0))
if pRet != 0 {
(*Expr)(unsafe.Pointer(pRet)).FiTable = nField
(*Expr)(unsafe.Pointer(pRet)).FiColumn = YnVar(iField)
(*Expr)(unsafe.Pointer(pRet)).FpLeft = pVector
}
} else {
if int32((*Expr)(unsafe.Pointer(pVector)).Fop) == TK_VECTOR {
var ppVector uintptr
ppVector = *(*uintptr)(unsafe.Pointer(pVector + 32)) + 8 + uintptr(iField)*32
pVector = *(*uintptr)(unsafe.Pointer(ppVector))
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
*(*uintptr)(unsafe.Pointer(ppVector)) = uintptr(0)
return pVector
}
}
pRet = Xsqlite3ExprDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pVector, 0)
}
return pRet
}
func exprCodeSubselect(tls *libc.TLS, pParse uintptr, pExpr uintptr) int32 {
var reg int32 = 0
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_SELECT {
reg = Xsqlite3CodeSubselect(tls, pParse, pExpr)
}
return reg
}
func exprVectorRegister(tls *libc.TLS, pParse uintptr, pVector uintptr, iField int32, regSelect int32, ppExpr uintptr, pRegFree uintptr) int32 {
var op U8 = (*Expr)(unsafe.Pointer(pVector)).Fop
if int32(op) == TK_REGISTER {
*(*uintptr)(unsafe.Pointer(ppExpr)) = Xsqlite3VectorFieldSubexpr(tls, pVector, iField)
return (*Expr)(unsafe.Pointer(pVector)).FiTable + iField
}
if int32(op) == TK_SELECT {
*(*uintptr)(unsafe.Pointer(ppExpr)) = (*ExprList_item)(unsafe.Pointer((*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pVector + 32)))).FpEList + 8 + uintptr(iField)*32)).FpExpr
return regSelect + iField
}
if int32(op) == TK_VECTOR {
*(*uintptr)(unsafe.Pointer(ppExpr)) = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pVector + 32)) + 8 + uintptr(iField)*32)).FpExpr
return Xsqlite3ExprCodeTemp(tls, pParse, *(*uintptr)(unsafe.Pointer(ppExpr)), pRegFree)
}
return 0
}
func codeVectorCompare(tls *libc.TLS, pParse uintptr, pExpr uintptr, dest int32, op U8, p5 U8) {
bp := tls.Alloc(28)
defer tls.Free(28)
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var pLeft uintptr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
var pRight uintptr = (*Expr)(unsafe.Pointer(pExpr)).FpRight
var nLeft int32 = Xsqlite3ExprVectorSize(tls, pLeft)
var i int32
var regLeft int32 = 0
var regRight int32 = 0
var opx U8 = op
var addrCmp int32 = 0
var addrDone int32 = Xsqlite3VdbeMakeLabel(tls, pParse)
var isCommuted int32 = libc.Bool32((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Commuted) != U32(0))
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return
}
if nLeft != Xsqlite3ExprVectorSize(tls, pRight) {
Xsqlite3ErrorMsg(tls, pParse, ts+6936, 0)
return
}
if int32(op) == TK_LE {
opx = U8(TK_LT)
}
if int32(op) == TK_GE {
opx = U8(TK_GT)
}
if int32(op) == TK_NE {
opx = U8(TK_EQ)
}
regLeft = exprCodeSubselect(tls, pParse, pLeft)
regRight = exprCodeSubselect(tls, pParse, pRight)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, dest)
for i = 0; 1 != 0; i++ {
*(*int32)(unsafe.Pointer(bp + 8)) = 0
*(*int32)(unsafe.Pointer(bp + 24)) = 0
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
var r1 int32
var r2 int32
if addrCmp != 0 {
Xsqlite3VdbeJumpHere(tls, v, addrCmp)
}
r1 = exprVectorRegister(tls, pParse, pLeft, i, regLeft, bp, bp+8)
r2 = exprVectorRegister(tls, pParse, pRight, i, regRight, bp+16, bp+24)
addrCmp = Xsqlite3VdbeCurrentAddr(tls, v)
codeCompare(tls, pParse, *(*uintptr)(unsafe.Pointer(bp)), *(*uintptr)(unsafe.Pointer(bp + 16)), int32(opx), r1, r2, addrDone, int32(p5), isCommuted)
Xsqlite3ReleaseTempReg(tls, pParse, *(*int32)(unsafe.Pointer(bp + 8)))
Xsqlite3ReleaseTempReg(tls, pParse, *(*int32)(unsafe.Pointer(bp + 24)))
if (int32(opx) == TK_LT || int32(opx) == TK_GT) && i < nLeft-1 {
addrCmp = Xsqlite3VdbeAddOp0(tls, v, OP_ElseEq)
}
if int32(p5) == SQLITE_NULLEQ {
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, dest)
} else {
Xsqlite3VdbeAddOp3(tls, v, OP_ZeroOrNull, r1, dest, r2)
}
if i == nLeft-1 {
break
}
if int32(opx) == TK_EQ {
Xsqlite3VdbeAddOp2(tls, v, OP_NotNull, dest, addrDone)
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, addrDone)
if i == nLeft-2 {
opx = op
}
}
}
Xsqlite3VdbeJumpHere(tls, v, addrCmp)
Xsqlite3VdbeResolveLabel(tls, v, addrDone)
if int32(op) == TK_NE {
Xsqlite3VdbeAddOp2(tls, v, OP_Not, dest, dest)
}
}
// Check that argument nHeight is less than or equal to the maximum
// expression depth allowed. If it is not, leave an error message in
// pParse.
func Xsqlite3ExprCheckHeight(tls *libc.TLS, pParse uintptr, nHeight int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
var mxHeight int32 = *(*int32)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb + 136 + 3*4))
if nHeight > mxHeight {
Xsqlite3ErrorMsg(tls, pParse,
ts+7839, libc.VaList(bp, mxHeight))
rc = SQLITE_ERROR
}
return rc
}
func heightOfExpr(tls *libc.TLS, p uintptr, pnHeight uintptr) {
if p != 0 {
if (*Expr)(unsafe.Pointer(p)).FnHeight > *(*int32)(unsafe.Pointer(pnHeight)) {
*(*int32)(unsafe.Pointer(pnHeight)) = (*Expr)(unsafe.Pointer(p)).FnHeight
}
}
}
func heightOfExprList(tls *libc.TLS, p uintptr, pnHeight uintptr) {
if p != 0 {
var i int32
for i = 0; i < (*ExprList)(unsafe.Pointer(p)).FnExpr; i++ {
heightOfExpr(tls, (*ExprList_item)(unsafe.Pointer(p+8+uintptr(i)*32)).FpExpr, pnHeight)
}
}
}
func heightOfSelect(tls *libc.TLS, pSelect uintptr, pnHeight uintptr) {
var p uintptr
for p = pSelect; p != 0; p = (*Select)(unsafe.Pointer(p)).FpPrior {
heightOfExpr(tls, (*Select)(unsafe.Pointer(p)).FpWhere, pnHeight)
heightOfExpr(tls, (*Select)(unsafe.Pointer(p)).FpHaving, pnHeight)
heightOfExpr(tls, (*Select)(unsafe.Pointer(p)).FpLimit, pnHeight)
heightOfExprList(tls, (*Select)(unsafe.Pointer(p)).FpEList, pnHeight)
heightOfExprList(tls, (*Select)(unsafe.Pointer(p)).FpGroupBy, pnHeight)
heightOfExprList(tls, (*Select)(unsafe.Pointer(p)).FpOrderBy, pnHeight)
}
}
func exprSetHeight(tls *libc.TLS, p uintptr) {
bp := tls.Alloc(4)
defer tls.Free(4)
if (*Expr)(unsafe.Pointer(p)).FpLeft != 0 {
*(*int32)(unsafe.Pointer(bp)) = (*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(p)).FpLeft)).FnHeight
} else {
*(*int32)(unsafe.Pointer(bp)) = 0
}
if (*Expr)(unsafe.Pointer(p)).FpRight != 0 && (*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(p)).FpRight)).FnHeight > *(*int32)(unsafe.Pointer(bp)) {
*(*int32)(unsafe.Pointer(bp)) = (*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(p)).FpRight)).FnHeight
}
if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_xIsSelect) != U32(0) {
heightOfSelect(tls, *(*uintptr)(unsafe.Pointer(p + 32)), bp)
} else if *(*uintptr)(unsafe.Pointer(p + 32)) != 0 {
heightOfExprList(tls, *(*uintptr)(unsafe.Pointer(p + 32)), bp)
*(*U32)(unsafe.Pointer(p + 4)) |= U32(EP_Collate|EP_Subquery|EP_HasFunc) & Xsqlite3ExprListFlags(tls, *(*uintptr)(unsafe.Pointer(p + 32)))
}
(*Expr)(unsafe.Pointer(p)).FnHeight = *(*int32)(unsafe.Pointer(bp)) + 1
}
// Set the Expr.nHeight variable using the exprSetHeight() function. If
// the height is greater than the maximum allowed expression depth,
// leave an error in pParse.
//
// Also propagate all EP_Propagate flags from the Expr.x.pList into
// Expr.flags.
func Xsqlite3ExprSetHeightAndFlags(tls *libc.TLS, pParse uintptr, p uintptr) {
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return
}
exprSetHeight(tls, p)
Xsqlite3ExprCheckHeight(tls, pParse, (*Expr)(unsafe.Pointer(p)).FnHeight)
}
// Return the maximum height of any expression tree referenced
// by the select statement passed as an argument.
func Xsqlite3SelectExprHeight(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
*(*int32)(unsafe.Pointer(bp)) = 0
heightOfSelect(tls, p, bp)
return *(*int32)(unsafe.Pointer(bp))
}
// This routine is the core allocator for Expr nodes.
//
// Construct a new expression node and return a pointer to it. Memory
// for this node and for the pToken argument is a single allocation
// obtained from sqlite3DbMalloc(). The calling function
// is responsible for making sure the node eventually gets freed.
//
// If dequote is true, then the token (if it exists) is dequoted.
// If dequote is false, no dequoting is performed. The deQuote
// parameter is ignored if pToken is NULL or if the token does not
// appear to be quoted. If the quotes were of the form "..." (double-quotes)
// then the EP_DblQuoted flag is set on the expression node.
//
// Special case: If op==TK_INTEGER and pToken points to a string that
// can be translated into a 32-bit integer, then the token is not
// stored in u.zToken. Instead, the integer values is written
// into u.iValue and the EP_IntValue flag is set. No extra storage
// is allocated to hold the integer text and the dequote flag is ignored.
func Xsqlite3ExprAlloc(tls *libc.TLS, db uintptr, op int32, pToken uintptr, dequote int32) uintptr {
bp := tls.Alloc(4)
defer tls.Free(4)
var pNew uintptr
var nExtra int32 = 0
*(*int32)(unsafe.Pointer(bp)) = 0
if pToken != 0 {
if op != TK_INTEGER || (*Token)(unsafe.Pointer(pToken)).Fz == uintptr(0) ||
Xsqlite3GetInt32(tls, (*Token)(unsafe.Pointer(pToken)).Fz, bp) == 0 {
nExtra = int32((*Token)(unsafe.Pointer(pToken)).Fn + uint32(1))
}
}
pNew = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(Expr{}))+uint64(nExtra))
if pNew != 0 {
libc.X__builtin___memset_chk(tls, pNew, 0, uint64(unsafe.Sizeof(Expr{})), libc.X__builtin_object_size(tls, pNew, 0))
(*Expr)(unsafe.Pointer(pNew)).Fop = U8(op)
(*Expr)(unsafe.Pointer(pNew)).FiAgg = int16(-1)
if pToken != 0 {
if nExtra == 0 {
*(*U32)(unsafe.Pointer(pNew + 4)) |= U32(EP_IntValue | EP_Leaf | func() int32 {
if *(*int32)(unsafe.Pointer(bp)) != 0 {
return EP_IsTrue
}
return EP_IsFalse
}())
*(*int32)(unsafe.Pointer(pNew + 8)) = *(*int32)(unsafe.Pointer(bp))
} else {
*(*uintptr)(unsafe.Pointer(pNew + 8)) = pNew + 1*72
if (*Token)(unsafe.Pointer(pToken)).Fn != 0 {
libc.X__builtin___memcpy_chk(tls, *(*uintptr)(unsafe.Pointer(pNew + 8)), (*Token)(unsafe.Pointer(pToken)).Fz, uint64((*Token)(unsafe.Pointer(pToken)).Fn), libc.X__builtin_object_size(tls, *(*uintptr)(unsafe.Pointer(pNew + 8)), 0))
}
*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNew + 8)) + uintptr((*Token)(unsafe.Pointer(pToken)).Fn))) = int8(0)
if dequote != 0 && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNew + 8)))))])&0x80 != 0 {
Xsqlite3DequoteExpr(tls, pNew)
}
}
}
(*Expr)(unsafe.Pointer(pNew)).FnHeight = 1
}
return pNew
}
// Allocate a new expression node from a zero-terminated token that has
// already been dequoted.
func Xsqlite3Expr(tls *libc.TLS, db uintptr, op int32, zToken uintptr) uintptr {
bp := tls.Alloc(16)
defer tls.Free(16)
(*Token)(unsafe.Pointer(bp)).Fz = zToken
(*Token)(unsafe.Pointer(bp)).Fn = uint32(Xsqlite3Strlen30(tls, zToken))
return Xsqlite3ExprAlloc(tls, db, op, bp, 0)
}
// Attach subtrees pLeft and pRight to the Expr node pRoot.
//
// If pRoot==NULL that means that a memory allocation error has occurred.
// In that case, delete the subtrees pLeft and pRight.
func Xsqlite3ExprAttachSubtrees(tls *libc.TLS, db uintptr, pRoot uintptr, pLeft uintptr, pRight uintptr) {
if pRoot == uintptr(0) {
Xsqlite3ExprDelete(tls, db, pLeft)
Xsqlite3ExprDelete(tls, db, pRight)
} else {
if pRight != 0 {
(*Expr)(unsafe.Pointer(pRoot)).FpRight = pRight
*(*U32)(unsafe.Pointer(pRoot + 4)) |= U32(EP_Collate|EP_Subquery|EP_HasFunc) & (*Expr)(unsafe.Pointer(pRight)).Fflags
(*Expr)(unsafe.Pointer(pRoot)).FnHeight = (*Expr)(unsafe.Pointer(pRight)).FnHeight + 1
} else {
(*Expr)(unsafe.Pointer(pRoot)).FnHeight = 1
}
if pLeft != 0 {
(*Expr)(unsafe.Pointer(pRoot)).FpLeft = pLeft
*(*U32)(unsafe.Pointer(pRoot + 4)) |= U32(EP_Collate|EP_Subquery|EP_HasFunc) & (*Expr)(unsafe.Pointer(pLeft)).Fflags
if (*Expr)(unsafe.Pointer(pLeft)).FnHeight >= (*Expr)(unsafe.Pointer(pRoot)).FnHeight {
(*Expr)(unsafe.Pointer(pRoot)).FnHeight = (*Expr)(unsafe.Pointer(pLeft)).FnHeight + 1
}
}
}
}
// Allocate an Expr node which joins as many as two subtrees.
//
// One or both of the subtrees can be NULL. Return a pointer to the new
// Expr node. Or, if an OOM error occurs, set pParse->db->mallocFailed,
// free the subtrees and return NULL.
func Xsqlite3PExpr(tls *libc.TLS, pParse uintptr, op int32, pLeft uintptr, pRight uintptr) uintptr {
var p uintptr
p = Xsqlite3DbMallocRawNN(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(Expr{})))
if p != 0 {
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(Expr{})), libc.X__builtin_object_size(tls, p, 0))
(*Expr)(unsafe.Pointer(p)).Fop = U8(op & 0xff)
(*Expr)(unsafe.Pointer(p)).FiAgg = int16(-1)
Xsqlite3ExprAttachSubtrees(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, p, pLeft, pRight)
Xsqlite3ExprCheckHeight(tls, pParse, (*Expr)(unsafe.Pointer(p)).FnHeight)
} else {
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pLeft)
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pRight)
}
return p
}
// Add pSelect to the Expr.x.pSelect field. Or, if pExpr is NULL (due
// do a memory allocation failure) then delete the pSelect object.
func Xsqlite3PExprAddSelect(tls *libc.TLS, pParse uintptr, pExpr uintptr, pSelect uintptr) {
if pExpr != 0 {
*(*uintptr)(unsafe.Pointer(pExpr + 32)) = pSelect
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_xIsSelect | EP_Subquery)
Xsqlite3ExprSetHeightAndFlags(tls, pParse, pExpr)
} else {
Xsqlite3SelectDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pSelect)
}
}
// Expression list pEList is a list of vector values. This function
// converts the contents of pEList to a VALUES(...) Select statement
// returning 1 row for each element of the list. For example, the
// expression list:
//
// ( (1,2), (3,4) (5,6) )
//
// is translated to the equivalent of:
//
// VALUES(1,2), (3,4), (5,6)
//
// Each of the vector values in pEList must contain exactly nElem terms.
// If a list element that is not a vector or does not contain nElem terms,
// an error message is left in pParse.
//
// This is used as part of processing IN(...) expressions with a list
// of vectors on the RHS. e.g. "... IN ((1,2), (3,4), (5,6))".
func Xsqlite3ExprListToValues(tls *libc.TLS, pParse uintptr, nElem int32, pEList uintptr) uintptr {
bp := tls.Alloc(24)
defer tls.Free(24)
var ii int32
var pRet uintptr = uintptr(0)
for ii = 0; ii < (*ExprList)(unsafe.Pointer(pEList)).FnExpr; ii++ {
var pSel uintptr
var pExpr uintptr = (*ExprList_item)(unsafe.Pointer(pEList + 8 + uintptr(ii)*32)).FpExpr
var nExprElem int32
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_VECTOR {
nExprElem = (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FnExpr
} else {
nExprElem = 1
}
if nExprElem != nElem {
Xsqlite3ErrorMsg(tls, pParse, ts+7887,
libc.VaList(bp, nExprElem, func() uintptr {
if nExprElem > 1 {
return ts + 7931
}
return ts + 1547
}(), nElem))
break
}
pSel = Xsqlite3SelectNew(tls, pParse, *(*uintptr)(unsafe.Pointer(pExpr + 32)), uintptr(0), uintptr(0), uintptr(0), uintptr(0), uintptr(0), uint32(SF_Values), uintptr(0))
*(*uintptr)(unsafe.Pointer(pExpr + 32)) = uintptr(0)
if pSel != 0 {
if pRet != 0 {
(*Select)(unsafe.Pointer(pSel)).Fop = U8(TK_ALL)
(*Select)(unsafe.Pointer(pSel)).FpPrior = pRet
}
pRet = pSel
}
}
if pRet != 0 && (*Select)(unsafe.Pointer(pRet)).FpPrior != 0 {
*(*U32)(unsafe.Pointer(pRet + 4)) |= U32(SF_MultiValue)
}
Xsqlite3ExprListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pEList)
return pRet
}
// Join two expressions using an AND operator. If either expression is
// NULL, then just return the other expression.
//
// If one side or the other of the AND is known to be false, then instead
// of returning an AND expression, just return a constant expression with
// a value of false.
func Xsqlite3ExprAnd(tls *libc.TLS, pParse uintptr, pLeft uintptr, pRight uintptr) uintptr {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if pLeft == uintptr(0) {
return pRight
} else if pRight == uintptr(0) {
return pLeft
} else if ((*Expr)(unsafe.Pointer(pLeft)).Fflags&U32(EP_OuterON|EP_IsFalse) == U32(EP_IsFalse) || (*Expr)(unsafe.Pointer(pRight)).Fflags&U32(EP_OuterON|EP_IsFalse) == U32(EP_IsFalse)) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
Xsqlite3ExprDeferredDelete(tls, pParse, pLeft)
Xsqlite3ExprDeferredDelete(tls, pParse, pRight)
return Xsqlite3Expr(tls, db, TK_INTEGER, ts+7933)
} else {
return Xsqlite3PExpr(tls, pParse, TK_AND, pLeft, pRight)
}
return uintptr(0)
}
// Construct a new expression node for a function with multiple
// arguments.
func Xsqlite3ExprFunction(tls *libc.TLS, pParse uintptr, pList uintptr, pToken uintptr, eDistinct int32) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var pNew uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
pNew = Xsqlite3ExprAlloc(tls, db, TK_FUNCTION, pToken, 1)
if pNew == uintptr(0) {
Xsqlite3ExprListDelete(tls, db, pList)
return uintptr(0)
}
*(*int32)(unsafe.Pointer(pNew + 52)) = int32((int64((*Token)(unsafe.Pointer(pToken)).Fz) - int64((*Parse)(unsafe.Pointer(pParse)).FzTail)) / 1)
if pList != 0 &&
(*ExprList)(unsafe.Pointer(pList)).FnExpr > *(*int32)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb + 136 + 6*4)) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) != 0) {
Xsqlite3ErrorMsg(tls, pParse, ts+7935, libc.VaList(bp, pToken))
}
*(*uintptr)(unsafe.Pointer(pNew + 32)) = pList
*(*U32)(unsafe.Pointer(pNew + 4)) |= U32(EP_HasFunc)
Xsqlite3ExprSetHeightAndFlags(tls, pParse, pNew)
if eDistinct == SF_Distinct {
*(*U32)(unsafe.Pointer(pNew + 4)) |= U32(EP_Distinct)
}
return pNew
}
// Check to see if a function is usable according to current access
// rules:
//
// SQLITE_FUNC_DIRECT - Only usable from top-level SQL
//
// SQLITE_FUNC_UNSAFE - Usable if TRUSTED_SCHEMA or from
// top-level SQL
//
// If the function is not usable, create an error.
func Xsqlite3ExprFunctionUsable(tls *libc.TLS, pParse uintptr, pExpr uintptr, pDef uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_FromDDL) != U32(0) {
if (*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_DIRECT) != U32(0) ||
(*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Fflags&uint64(SQLITE_TrustedSchema) == uint64(0) {
Xsqlite3ErrorMsg(tls, pParse, ts+7969, libc.VaList(bp, pExpr))
}
}
}
// Assign a variable number to an expression that encodes a wildcard
// in the original SQL statement.
//
// Wildcards consisting of a single "?" are assigned the next sequential
// variable number.
//
// Wildcards of the form "?nnn" are assigned the number "nnn". We make
// sure "nnn" is not too big to avoid a denial of service attack when
// the SQL statement comes from an external source.
//
// Wildcards of the form ":aaa", "@aaa", or "$aaa" are assigned the same number
// as the previous instance of the same wildcard. Or if this is the first
// instance of the wildcard, the next sequential variable number is
// assigned.
func Xsqlite3ExprAssignVarNumber(tls *libc.TLS, pParse uintptr, pExpr uintptr, n U32) {
bp := tls.Alloc(16)
defer tls.Free(16)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var z uintptr
var x YnVar
if pExpr == uintptr(0) {
return
}
z = *(*uintptr)(unsafe.Pointer(pExpr + 8))
if int32(*(*int8)(unsafe.Pointer(z + 1))) == 0 {
x = libc.PreIncInt16(&(*Parse)(unsafe.Pointer(pParse)).FnVar, 1)
} else {
var doAdd int32 = 0
if int32(*(*int8)(unsafe.Pointer(z))) == '?' {
var bOk int32
if n == U32(2) {
*(*I64)(unsafe.Pointer(bp + 8)) = I64(int32(*(*int8)(unsafe.Pointer(z + 1))) - '0')
bOk = 1
} else {
bOk = libc.Bool32(0 == Xsqlite3Atoi64(tls, z+1, bp+8, int32(n-U32(1)), uint8(SQLITE_UTF8)))
}
if bOk == 0 || *(*I64)(unsafe.Pointer(bp + 8)) < int64(1) || *(*I64)(unsafe.Pointer(bp + 8)) > I64(*(*int32)(unsafe.Pointer(db + 136 + 9*4))) {
Xsqlite3ErrorMsg(tls, pParse, ts+7989,
libc.VaList(bp, *(*int32)(unsafe.Pointer(db + 136 + 9*4))))
Xsqlite3RecordErrorOffsetOfExpr(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pExpr)
return
}
x = YnVar(*(*I64)(unsafe.Pointer(bp + 8)))
if int32(x) > int32((*Parse)(unsafe.Pointer(pParse)).FnVar) {
(*Parse)(unsafe.Pointer(pParse)).FnVar = YnVar(int32(x))
doAdd = 1
} else if Xsqlite3VListNumToName(tls, (*Parse)(unsafe.Pointer(pParse)).FpVList, int32(x)) == uintptr(0) {
doAdd = 1
}
} else {
x = YnVar(Xsqlite3VListNameToNum(tls, (*Parse)(unsafe.Pointer(pParse)).FpVList, z, int32(n)))
if int32(x) == 0 {
x = libc.PreIncInt16(&(*Parse)(unsafe.Pointer(pParse)).FnVar, 1)
doAdd = 1
}
}
if doAdd != 0 {
(*Parse)(unsafe.Pointer(pParse)).FpVList = Xsqlite3VListAdd(tls, db, (*Parse)(unsafe.Pointer(pParse)).FpVList, z, int32(n), int32(x))
}
}
(*Expr)(unsafe.Pointer(pExpr)).FiColumn = x
if int32(x) > *(*int32)(unsafe.Pointer(db + 136 + 9*4)) {
Xsqlite3ErrorMsg(tls, pParse, ts+8032, 0)
Xsqlite3RecordErrorOffsetOfExpr(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pExpr)
}
}
func sqlite3ExprDeleteNN(tls *libc.TLS, db uintptr, p uintptr) {
if !((*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_TokenOnly|EP_Leaf) != U32(0)) {
if (*Expr)(unsafe.Pointer(p)).FpLeft != 0 && int32((*Expr)(unsafe.Pointer(p)).Fop) != TK_SELECT_COLUMN {
sqlite3ExprDeleteNN(tls, db, (*Expr)(unsafe.Pointer(p)).FpLeft)
}
if (*Expr)(unsafe.Pointer(p)).FpRight != 0 {
sqlite3ExprDeleteNN(tls, db, (*Expr)(unsafe.Pointer(p)).FpRight)
} else if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_xIsSelect) != U32(0) {
Xsqlite3SelectDelete(tls, db, *(*uintptr)(unsafe.Pointer(p + 32)))
} else {
Xsqlite3ExprListDelete(tls, db, *(*uintptr)(unsafe.Pointer(p + 32)))
if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_WinFunc) != U32(0) {
Xsqlite3WindowDelete(tls, db, *(*uintptr)(unsafe.Pointer(p + 64)))
}
}
}
if !((*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_Static) != U32(0)) {
Xsqlite3DbNNFreeNN(tls, db, p)
}
}
func Xsqlite3ExprDelete(tls *libc.TLS, db uintptr, p uintptr) {
if p != 0 {
sqlite3ExprDeleteNN(tls, db, p)
}
}
// Clear both elements of an OnOrUsing object
func Xsqlite3ClearOnOrUsing(tls *libc.TLS, db uintptr, p uintptr) {
if p == uintptr(0) {
} else if (*OnOrUsing)(unsafe.Pointer(p)).FpOn != 0 {
sqlite3ExprDeleteNN(tls, db, (*OnOrUsing)(unsafe.Pointer(p)).FpOn)
} else if (*OnOrUsing)(unsafe.Pointer(p)).FpUsing != 0 {
Xsqlite3IdListDelete(tls, db, (*OnOrUsing)(unsafe.Pointer(p)).FpUsing)
}
}
// Arrange to cause pExpr to be deleted when the pParse is deleted.
// This is similar to sqlite3ExprDelete() except that the delete is
// deferred untilthe pParse is deleted.
//
// The pExpr might be deleted immediately on an OOM error.
//
// The deferred delete is (currently) implemented by adding the
// pExpr to the pParse->pConstExpr list with a register number of 0.
func Xsqlite3ExprDeferredDelete(tls *libc.TLS, pParse uintptr, pExpr uintptr) {
Xsqlite3ParserAddCleanup(tls, pParse,
*(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3ExprDelete})),
pExpr)
}
// Invoke sqlite3RenameExprUnmap() and sqlite3ExprDelete() on the
// expression.
func Xsqlite3ExprUnmapAndDelete(tls *libc.TLS, pParse uintptr, p uintptr) {
if p != 0 {
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
Xsqlite3RenameExprUnmap(tls, pParse, p)
}
sqlite3ExprDeleteNN(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, p)
}
}
func exprStructSize(tls *libc.TLS, p uintptr) int32 {
if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_TokenOnly) != U32(0) {
return int32(uintptr(0) + 16)
}
if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_Reduced) != U32(0) {
return int32(uintptr(0) + 44)
}
return int32(unsafe.Sizeof(Expr{}))
}
func dupedExprStructSize(tls *libc.TLS, p uintptr, flags int32) int32 {
var nSize int32
if 0 == flags || int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_SELECT_COLUMN ||
(*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_WinFunc) != U32(0) {
nSize = int32(unsafe.Sizeof(Expr{}))
} else {
if (*Expr)(unsafe.Pointer(p)).FpLeft != 0 || *(*uintptr)(unsafe.Pointer(p + 32)) != 0 {
nSize = int32(uint64(uintptr(0)+44) | uint64(EP_Reduced))
} else {
nSize = int32(uint64(uintptr(0)+16) | uint64(EP_TokenOnly))
}
}
return nSize
}
func dupedExprNodeSize(tls *libc.TLS, p uintptr, flags int32) int32 {
var nByte int32 = dupedExprStructSize(tls, p, flags) & 0xfff
if !((*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_IntValue) != U32(0)) && *(*uintptr)(unsafe.Pointer(p + 8)) != 0 {
nByte = int32(Size_t(nByte) + (libc.Xstrlen(tls, *(*uintptr)(unsafe.Pointer(p + 8)))&uint64(0x3fffffff) + uint64(1)))
}
return (nByte + 7) & libc.CplInt32(7)
}
func dupedExprSize(tls *libc.TLS, p uintptr, flags int32) int32 {
var nByte int32 = 0
if p != 0 {
nByte = dupedExprNodeSize(tls, p, flags)
if flags&EXPRDUP_REDUCE != 0 {
nByte = nByte + (dupedExprSize(tls, (*Expr)(unsafe.Pointer(p)).FpLeft, flags) + dupedExprSize(tls, (*Expr)(unsafe.Pointer(p)).FpRight, flags))
}
}
return nByte
}
func exprDup(tls *libc.TLS, db uintptr, p uintptr, dupFlags int32, pzBuffer uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var pNew uintptr
var staticFlag U32
if pzBuffer != 0 {
*(*uintptr)(unsafe.Pointer(bp)) = *(*uintptr)(unsafe.Pointer(pzBuffer))
staticFlag = U32(EP_Static)
} else {
*(*uintptr)(unsafe.Pointer(bp)) = Xsqlite3DbMallocRawNN(tls, db, uint64(dupedExprSize(tls, p, dupFlags)))
staticFlag = U32(0)
}
pNew = *(*uintptr)(unsafe.Pointer(bp))
if pNew != 0 {
var nStructSize uint32 = uint32(dupedExprStructSize(tls, p, dupFlags))
var nNewSize int32 = int32(nStructSize & uint32(0xfff))
var nToken int32
if !((*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_IntValue) != U32(0)) && *(*uintptr)(unsafe.Pointer(p + 8)) != 0 {
nToken = Xsqlite3Strlen30(tls, *(*uintptr)(unsafe.Pointer(p + 8))) + 1
} else {
nToken = 0
}
if dupFlags != 0 {
libc.X__builtin___memcpy_chk(tls, *(*uintptr)(unsafe.Pointer(bp)), p, uint64(nNewSize), libc.X__builtin_object_size(tls, *(*uintptr)(unsafe.Pointer(bp)), 0))
} else {
var nSize U32 = U32(exprStructSize(tls, p))
libc.X__builtin___memcpy_chk(tls, *(*uintptr)(unsafe.Pointer(bp)), p, uint64(nSize), libc.X__builtin_object_size(tls, *(*uintptr)(unsafe.Pointer(bp)), 0))
if uint64(nSize) < uint64(unsafe.Sizeof(Expr{})) {
libc.X__builtin___memset_chk(tls, *(*uintptr)(unsafe.Pointer(bp))+uintptr(nSize), 0, uint64(unsafe.Sizeof(Expr{}))-uint64(nSize), libc.X__builtin_object_size(tls, *(*uintptr)(unsafe.Pointer(bp))+uintptr(nSize), 0))
}
}
*(*U32)(unsafe.Pointer(pNew + 4)) &= libc.Uint32FromInt32(libc.CplInt32(EP_Reduced | EP_TokenOnly | EP_Static))
*(*U32)(unsafe.Pointer(pNew + 4)) |= nStructSize & uint32(EP_Reduced|EP_TokenOnly)
*(*U32)(unsafe.Pointer(pNew + 4)) |= staticFlag
if dupFlags != 0 {
}
if nToken != 0 {
var zToken uintptr = libc.AssignPtrUintptr(pNew+8, *(*uintptr)(unsafe.Pointer(bp))+uintptr(nNewSize))
libc.X__builtin___memcpy_chk(tls, zToken, *(*uintptr)(unsafe.Pointer(p + 8)), uint64(nToken), libc.X__builtin_object_size(tls, zToken, 0))
}
if U32(0) == ((*Expr)(unsafe.Pointer(p)).Fflags|(*Expr)(unsafe.Pointer(pNew)).Fflags)&U32(EP_TokenOnly|EP_Leaf) {
if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_xIsSelect) != U32(0) {
*(*uintptr)(unsafe.Pointer(pNew + 32)) = Xsqlite3SelectDup(tls, db, *(*uintptr)(unsafe.Pointer(p + 32)), dupFlags)
} else {
*(*uintptr)(unsafe.Pointer(pNew + 32)) = Xsqlite3ExprListDup(tls, db, *(*uintptr)(unsafe.Pointer(p + 32)), dupFlags)
}
}
if (*Expr)(unsafe.Pointer(pNew)).Fflags&U32(EP_Reduced|EP_TokenOnly|EP_WinFunc) != U32(0) {
*(*uintptr)(unsafe.Pointer(bp)) += uintptr(dupedExprNodeSize(tls, p, dupFlags))
if !((*Expr)(unsafe.Pointer(pNew)).Fflags&U32(EP_TokenOnly|EP_Leaf) != U32(0)) {
(*Expr)(unsafe.Pointer(pNew)).FpLeft = func() uintptr {
if (*Expr)(unsafe.Pointer(p)).FpLeft != 0 {
return exprDup(tls, db, (*Expr)(unsafe.Pointer(p)).FpLeft, EXPRDUP_REDUCE, bp)
}
return uintptr(0)
}()
(*Expr)(unsafe.Pointer(pNew)).FpRight = func() uintptr {
if (*Expr)(unsafe.Pointer(p)).FpRight != 0 {
return exprDup(tls, db, (*Expr)(unsafe.Pointer(p)).FpRight, EXPRDUP_REDUCE, bp)
}
return uintptr(0)
}()
}
if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_WinFunc) != U32(0) {
*(*uintptr)(unsafe.Pointer(pNew + 64)) = Xsqlite3WindowDup(tls, db, pNew, *(*uintptr)(unsafe.Pointer(p + 64)))
}
if pzBuffer != 0 {
*(*uintptr)(unsafe.Pointer(pzBuffer)) = *(*uintptr)(unsafe.Pointer(bp))
}
} else {
if !((*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_TokenOnly|EP_Leaf) != U32(0)) {
if int32((*Expr)(unsafe.Pointer(pNew)).Fop) == TK_SELECT_COLUMN {
(*Expr)(unsafe.Pointer(pNew)).FpLeft = (*Expr)(unsafe.Pointer(p)).FpLeft
} else {
(*Expr)(unsafe.Pointer(pNew)).FpLeft = Xsqlite3ExprDup(tls, db, (*Expr)(unsafe.Pointer(p)).FpLeft, 0)
}
(*Expr)(unsafe.Pointer(pNew)).FpRight = Xsqlite3ExprDup(tls, db, (*Expr)(unsafe.Pointer(p)).FpRight, 0)
}
}
}
return pNew
}
// Create and return a deep copy of the object passed as the second
// argument. If an OOM condition is encountered, NULL is returned
// and the db->mallocFailed flag set.
func Xsqlite3WithDup(tls *libc.TLS, db uintptr, p uintptr) uintptr {
var pRet uintptr = uintptr(0)
if p != 0 {
var nByte Sqlite3_int64 = Sqlite3_int64(uint64(unsafe.Sizeof(With{})) + uint64(unsafe.Sizeof(Cte{}))*uint64((*With)(unsafe.Pointer(p)).FnCte-1))
pRet = Xsqlite3DbMallocZero(tls, db, uint64(nByte))
if pRet != 0 {
var i int32
(*With)(unsafe.Pointer(pRet)).FnCte = (*With)(unsafe.Pointer(p)).FnCte
for i = 0; i < (*With)(unsafe.Pointer(p)).FnCte; i++ {
(*Cte)(unsafe.Pointer(pRet + 16 + uintptr(i)*48)).FpSelect = Xsqlite3SelectDup(tls, db, (*Cte)(unsafe.Pointer(p+16+uintptr(i)*48)).FpSelect, 0)
(*Cte)(unsafe.Pointer(pRet + 16 + uintptr(i)*48)).FpCols = Xsqlite3ExprListDup(tls, db, (*Cte)(unsafe.Pointer(p+16+uintptr(i)*48)).FpCols, 0)
(*Cte)(unsafe.Pointer(pRet + 16 + uintptr(i)*48)).FzName = Xsqlite3DbStrDup(tls, db, (*Cte)(unsafe.Pointer(p+16+uintptr(i)*48)).FzName)
(*Cte)(unsafe.Pointer(pRet + 16 + uintptr(i)*48)).FeM10d = (*Cte)(unsafe.Pointer(p + 16 + uintptr(i)*48)).FeM10d
}
}
}
return pRet
}
func gatherSelectWindowsCallback(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_FUNCTION && (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc) != U32(0) {
var pSelect uintptr = *(*uintptr)(unsafe.Pointer(pWalker + 40))
var pWin uintptr = *(*uintptr)(unsafe.Pointer(pExpr + 64))
Xsqlite3WindowLink(tls, pSelect, pWin)
}
return WRC_Continue
}
func gatherSelectWindowsSelectCallback(tls *libc.TLS, pWalker uintptr, p uintptr) int32 {
if p == *(*uintptr)(unsafe.Pointer(pWalker + 40)) {
return WRC_Continue
}
return WRC_Prune
}
func gatherSelectWindows(tls *libc.TLS, p uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{gatherSelectWindowsCallback}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{gatherSelectWindowsSelectCallback}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback2 = uintptr(0)
(*Walker)(unsafe.Pointer(bp)).FpParse = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 40)) = p
Xsqlite3WalkSelect(tls, bp, p)
}
// The following group of routines make deep copies of expressions,
// expression lists, ID lists, and select statements. The copies can
// be deleted (by being passed to their respective ...Delete() routines)
// without effecting the originals.
//
// The expression list, ID, and source lists return by sqlite3ExprListDup(),
// sqlite3IdListDup(), and sqlite3SrcListDup() can not be further expanded
// by subsequent calls to sqlite*ListAppend() routines.
//
// Any tables that the SrcList might point to are not duplicated.
//
// The flags parameter contains a combination of the EXPRDUP_XXX flags.
// If the EXPRDUP_REDUCE flag is set, then the structure returned is a
// truncated version of the usual Expr structure that will be stored as
// part of the in-memory representation of the database schema.
func Xsqlite3ExprDup(tls *libc.TLS, db uintptr, p uintptr, flags int32) uintptr {
if p != 0 {
return exprDup(tls, db, p, flags, uintptr(0))
}
return uintptr(0)
}
func Xsqlite3ExprListDup(tls *libc.TLS, db uintptr, p uintptr, flags int32) uintptr {
var pNew uintptr
var pItem uintptr
var pOldItem uintptr
var i int32
var pPriorSelectColOld uintptr = uintptr(0)
var pPriorSelectColNew uintptr = uintptr(0)
if p == uintptr(0) {
return uintptr(0)
}
pNew = Xsqlite3DbMallocRawNN(tls, db, uint64(Xsqlite3DbMallocSize(tls, db, p)))
if pNew == uintptr(0) {
return uintptr(0)
}
(*ExprList)(unsafe.Pointer(pNew)).FnExpr = (*ExprList)(unsafe.Pointer(p)).FnExpr
(*ExprList)(unsafe.Pointer(pNew)).FnAlloc = (*ExprList)(unsafe.Pointer(p)).FnAlloc
pItem = pNew + 8
pOldItem = p + 8
i = 0
__1:
if !(i < (*ExprList)(unsafe.Pointer(p)).FnExpr) {
goto __3
}
{
var pOldExpr uintptr = (*ExprList_item)(unsafe.Pointer(pOldItem)).FpExpr
var pNewExpr uintptr
(*ExprList_item)(unsafe.Pointer(pItem)).FpExpr = Xsqlite3ExprDup(tls, db, pOldExpr, flags)
if pOldExpr != 0 &&
int32((*Expr)(unsafe.Pointer(pOldExpr)).Fop) == TK_SELECT_COLUMN &&
libc.AssignUintptr(&pNewExpr, (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr) != uintptr(0) {
if (*Expr)(unsafe.Pointer(pNewExpr)).FpRight != 0 {
pPriorSelectColOld = (*Expr)(unsafe.Pointer(pOldExpr)).FpRight
pPriorSelectColNew = (*Expr)(unsafe.Pointer(pNewExpr)).FpRight
(*Expr)(unsafe.Pointer(pNewExpr)).FpLeft = (*Expr)(unsafe.Pointer(pNewExpr)).FpRight
} else {
if (*Expr)(unsafe.Pointer(pOldExpr)).FpLeft != pPriorSelectColOld {
pPriorSelectColOld = (*Expr)(unsafe.Pointer(pOldExpr)).FpLeft
pPriorSelectColNew = Xsqlite3ExprDup(tls, db, pPriorSelectColOld, flags)
(*Expr)(unsafe.Pointer(pNewExpr)).FpRight = pPriorSelectColNew
}
(*Expr)(unsafe.Pointer(pNewExpr)).FpLeft = pPriorSelectColNew
}
}
(*ExprList_item)(unsafe.Pointer(pItem)).FzEName = Xsqlite3DbStrDup(tls, db, (*ExprList_item)(unsafe.Pointer(pOldItem)).FzEName)
(*ExprList_item)(unsafe.Pointer(pItem)).Ffg = (*ExprList_item)(unsafe.Pointer(pOldItem)).Ffg
libc.SetBitFieldPtr16Uint32(pItem+16+4, uint32(0), 2, 0x4)
(*ExprList_item)(unsafe.Pointer(pItem)).Fu = (*ExprList_item)(unsafe.Pointer(pOldItem)).Fu
}
goto __2
__2:
i++
pItem += 32
pOldItem += 32
goto __1
goto __3
__3:
;
return pNew
}
// If cursors, triggers, views and subqueries are all omitted from
// the build, then none of the following routines, except for
// sqlite3SelectDup(), can be called. sqlite3SelectDup() is sometimes
// called with a NULL argument.
func Xsqlite3SrcListDup(tls *libc.TLS, db uintptr, p uintptr, flags int32) uintptr {
var pNew uintptr
var i int32
var nByte int32
if p == uintptr(0) {
return uintptr(0)
}
nByte = int32(uint64(unsafe.Sizeof(SrcList{})) + func() uint64 {
if (*SrcList)(unsafe.Pointer(p)).FnSrc > 0 {
return uint64(unsafe.Sizeof(SrcItem{})) * uint64((*SrcList)(unsafe.Pointer(p)).FnSrc-1)
}
return uint64(0)
}())
pNew = Xsqlite3DbMallocRawNN(tls, db, uint64(nByte))
if pNew == uintptr(0) {
return uintptr(0)
}
(*SrcList)(unsafe.Pointer(pNew)).FnSrc = int32(libc.AssignPtrUint32(pNew+4, U32((*SrcList)(unsafe.Pointer(p)).FnSrc)))
for i = 0; i < (*SrcList)(unsafe.Pointer(p)).FnSrc; i++ {
var pNewItem uintptr = pNew + 8 + uintptr(i)*104
var pOldItem uintptr = p + 8 + uintptr(i)*104
var pTab uintptr
(*SrcItem)(unsafe.Pointer(pNewItem)).FpSchema = (*SrcItem)(unsafe.Pointer(pOldItem)).FpSchema
(*SrcItem)(unsafe.Pointer(pNewItem)).FzDatabase = Xsqlite3DbStrDup(tls, db, (*SrcItem)(unsafe.Pointer(pOldItem)).FzDatabase)
(*SrcItem)(unsafe.Pointer(pNewItem)).FzName = Xsqlite3DbStrDup(tls, db, (*SrcItem)(unsafe.Pointer(pOldItem)).FzName)
(*SrcItem)(unsafe.Pointer(pNewItem)).FzAlias = Xsqlite3DbStrDup(tls, db, (*SrcItem)(unsafe.Pointer(pOldItem)).FzAlias)
(*SrcItem)(unsafe.Pointer(pNewItem)).Ffg = (*SrcItem)(unsafe.Pointer(pOldItem)).Ffg
(*SrcItem)(unsafe.Pointer(pNewItem)).FiCursor = (*SrcItem)(unsafe.Pointer(pOldItem)).FiCursor
(*SrcItem)(unsafe.Pointer(pNewItem)).FaddrFillSub = (*SrcItem)(unsafe.Pointer(pOldItem)).FaddrFillSub
(*SrcItem)(unsafe.Pointer(pNewItem)).FregReturn = (*SrcItem)(unsafe.Pointer(pOldItem)).FregReturn
if uint32(int32(*(*uint16)(unsafe.Pointer(pNewItem + 60 + 4))&0x2>>1)) != 0 {
*(*uintptr)(unsafe.Pointer(pNewItem + 88)) = Xsqlite3DbStrDup(tls, db, *(*uintptr)(unsafe.Pointer(pOldItem + 88)))
}
(*SrcItem)(unsafe.Pointer(pNewItem)).Fu2 = (*SrcItem)(unsafe.Pointer(pOldItem)).Fu2
if uint32(int32(*(*uint16)(unsafe.Pointer(pNewItem + 60 + 4))&0x100>>8)) != 0 {
(*CteUse)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNewItem + 96)))).FnUse++
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pNewItem + 60 + 4))&0x4>>2)) != 0 {
*(*uintptr)(unsafe.Pointer(pNewItem + 88)) = Xsqlite3ExprListDup(tls, db, *(*uintptr)(unsafe.Pointer(pOldItem + 88)), flags)
}
pTab = libc.AssignPtrUintptr(pNewItem+32, (*SrcItem)(unsafe.Pointer(pOldItem)).FpTab)
if pTab != 0 {
(*Table)(unsafe.Pointer(pTab)).FnTabRef++
}
(*SrcItem)(unsafe.Pointer(pNewItem)).FpSelect = Xsqlite3SelectDup(tls, db, (*SrcItem)(unsafe.Pointer(pOldItem)).FpSelect, flags)
if uint32(int32(*(*uint16)(unsafe.Pointer(pOldItem + 60 + 4))&0x400>>10)) != 0 {
*(*uintptr)(unsafe.Pointer(pNewItem + 72)) = Xsqlite3IdListDup(tls, db, *(*uintptr)(unsafe.Pointer(pOldItem + 72)))
} else {
*(*uintptr)(unsafe.Pointer(pNewItem + 72)) = Xsqlite3ExprDup(tls, db, *(*uintptr)(unsafe.Pointer(pOldItem + 72)), flags)
}
(*SrcItem)(unsafe.Pointer(pNewItem)).FcolUsed = (*SrcItem)(unsafe.Pointer(pOldItem)).FcolUsed
}
return pNew
}
func Xsqlite3IdListDup(tls *libc.TLS, db uintptr, p uintptr) uintptr {
var pNew uintptr
var i int32
if p == uintptr(0) {
return uintptr(0)
}
pNew = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(IdList{}))+uint64((*IdList)(unsafe.Pointer(p)).FnId-1)*uint64(unsafe.Sizeof(IdList_item{})))
if pNew == uintptr(0) {
return uintptr(0)
}
(*IdList)(unsafe.Pointer(pNew)).FnId = (*IdList)(unsafe.Pointer(p)).FnId
(*IdList)(unsafe.Pointer(pNew)).FeU4 = (*IdList)(unsafe.Pointer(p)).FeU4
for i = 0; i < (*IdList)(unsafe.Pointer(p)).FnId; i++ {
var pNewItem uintptr = pNew + 8 + uintptr(i)*16
var pOldItem uintptr = p + 8 + uintptr(i)*16
(*IdList_item)(unsafe.Pointer(pNewItem)).FzName = Xsqlite3DbStrDup(tls, db, (*IdList_item)(unsafe.Pointer(pOldItem)).FzName)
(*IdList_item)(unsafe.Pointer(pNewItem)).Fu4 = (*IdList_item)(unsafe.Pointer(pOldItem)).Fu4
}
return pNew
}
func Xsqlite3SelectDup(tls *libc.TLS, db uintptr, pDup uintptr, flags int32) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var pNext uintptr = uintptr(0)
var pp uintptr = bp
var p uintptr
for p = pDup; p != 0; p = (*Select)(unsafe.Pointer(p)).FpPrior {
var pNew uintptr = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(Select{})))
if pNew == uintptr(0) {
break
}
(*Select)(unsafe.Pointer(pNew)).FpEList = Xsqlite3ExprListDup(tls, db, (*Select)(unsafe.Pointer(p)).FpEList, flags)
(*Select)(unsafe.Pointer(pNew)).FpSrc = Xsqlite3SrcListDup(tls, db, (*Select)(unsafe.Pointer(p)).FpSrc, flags)
(*Select)(unsafe.Pointer(pNew)).FpWhere = Xsqlite3ExprDup(tls, db, (*Select)(unsafe.Pointer(p)).FpWhere, flags)
(*Select)(unsafe.Pointer(pNew)).FpGroupBy = Xsqlite3ExprListDup(tls, db, (*Select)(unsafe.Pointer(p)).FpGroupBy, flags)
(*Select)(unsafe.Pointer(pNew)).FpHaving = Xsqlite3ExprDup(tls, db, (*Select)(unsafe.Pointer(p)).FpHaving, flags)
(*Select)(unsafe.Pointer(pNew)).FpOrderBy = Xsqlite3ExprListDup(tls, db, (*Select)(unsafe.Pointer(p)).FpOrderBy, flags)
(*Select)(unsafe.Pointer(pNew)).Fop = (*Select)(unsafe.Pointer(p)).Fop
(*Select)(unsafe.Pointer(pNew)).FpNext = pNext
(*Select)(unsafe.Pointer(pNew)).FpPrior = uintptr(0)
(*Select)(unsafe.Pointer(pNew)).FpLimit = Xsqlite3ExprDup(tls, db, (*Select)(unsafe.Pointer(p)).FpLimit, flags)
(*Select)(unsafe.Pointer(pNew)).FiLimit = 0
(*Select)(unsafe.Pointer(pNew)).FiOffset = 0
(*Select)(unsafe.Pointer(pNew)).FselFlags = (*Select)(unsafe.Pointer(p)).FselFlags & libc.Uint32FromInt32(libc.CplInt32(SF_UsesEphemeral))
*(*int32)(unsafe.Pointer(pNew + 20)) = -1
*(*int32)(unsafe.Pointer(pNew + 20 + 1*4)) = -1
(*Select)(unsafe.Pointer(pNew)).FnSelectRow = (*Select)(unsafe.Pointer(p)).FnSelectRow
(*Select)(unsafe.Pointer(pNew)).FpWith = Xsqlite3WithDup(tls, db, (*Select)(unsafe.Pointer(p)).FpWith)
(*Select)(unsafe.Pointer(pNew)).FpWin = uintptr(0)
(*Select)(unsafe.Pointer(pNew)).FpWinDefn = Xsqlite3WindowListDup(tls, db, (*Select)(unsafe.Pointer(p)).FpWinDefn)
if (*Select)(unsafe.Pointer(p)).FpWin != 0 && int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0 {
gatherSelectWindows(tls, pNew)
}
(*Select)(unsafe.Pointer(pNew)).FselId = (*Select)(unsafe.Pointer(p)).FselId
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
(*Select)(unsafe.Pointer(pNew)).FpNext = uintptr(0)
Xsqlite3SelectDelete(tls, db, pNew)
break
}
*(*uintptr)(unsafe.Pointer(pp)) = pNew
pp = pNew + 80
pNext = pNew
}
return *(*uintptr)(unsafe.Pointer(bp))
}
var zeroItem = ExprList_item{}
func Xsqlite3ExprListAppendNew(tls *libc.TLS, db uintptr, pExpr uintptr) uintptr {
var pItem uintptr
var pList uintptr
pList = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(ExprList{}))+uint64(unsafe.Sizeof(ExprList_item{}))*uint64(4))
if pList == uintptr(0) {
Xsqlite3ExprDelete(tls, db, pExpr)
return uintptr(0)
}
(*ExprList)(unsafe.Pointer(pList)).FnAlloc = 4
(*ExprList)(unsafe.Pointer(pList)).FnExpr = 1
pItem = pList + 8
*(*ExprList_item)(unsafe.Pointer(pItem)) = zeroItem
(*ExprList_item)(unsafe.Pointer(pItem)).FpExpr = pExpr
return pList
}
func Xsqlite3ExprListAppendGrow(tls *libc.TLS, db uintptr, pList uintptr, pExpr uintptr) uintptr {
var pItem uintptr
var pNew uintptr
*(*int32)(unsafe.Pointer(pList + 4)) *= 2
pNew = Xsqlite3DbRealloc(tls, db, pList,
uint64(unsafe.Sizeof(ExprList{}))+uint64((*ExprList)(unsafe.Pointer(pList)).FnAlloc-1)*uint64(unsafe.Sizeof(ExprList_item{})))
if pNew == uintptr(0) {
Xsqlite3ExprListDelete(tls, db, pList)
Xsqlite3ExprDelete(tls, db, pExpr)
return uintptr(0)
} else {
pList = pNew
}
pItem = pList + 8 + uintptr(libc.PostIncInt32(&(*ExprList)(unsafe.Pointer(pList)).FnExpr, 1))*32
*(*ExprList_item)(unsafe.Pointer(pItem)) = zeroItem
(*ExprList_item)(unsafe.Pointer(pItem)).FpExpr = pExpr
return pList
}
func Xsqlite3ExprListAppend(tls *libc.TLS, pParse uintptr, pList uintptr, pExpr uintptr) uintptr {
var pItem uintptr
if pList == uintptr(0) {
return Xsqlite3ExprListAppendNew(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pExpr)
}
if (*ExprList)(unsafe.Pointer(pList)).FnAlloc < (*ExprList)(unsafe.Pointer(pList)).FnExpr+1 {
return Xsqlite3ExprListAppendGrow(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pList, pExpr)
}
pItem = pList + 8 + uintptr(libc.PostIncInt32(&(*ExprList)(unsafe.Pointer(pList)).FnExpr, 1))*32
*(*ExprList_item)(unsafe.Pointer(pItem)) = zeroItem
(*ExprList_item)(unsafe.Pointer(pItem)).FpExpr = pExpr
return pList
}
// pColumns and pExpr form a vector assignment which is part of the SET
// clause of an UPDATE statement. Like this:
//
// (a,b,c) = (expr1,expr2,expr3)
//
// Or: (a,b,c) = (SELECT x,y,z FROM ....)
//
// For each term of the vector assignment, append new entries to the
// expression list pList. In the case of a subquery on the RHS, append
// TK_SELECT_COLUMN expressions.
func Xsqlite3ExprListAppendVector(tls *libc.TLS, pParse uintptr, pList uintptr, pColumns uintptr, pExpr uintptr) uintptr {
bp := tls.Alloc(16)
defer tls.Free(16)
var db uintptr
var n int32
var i int32
var iFirst int32
var pSubExpr uintptr
var pFirst uintptr
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if pList != 0 {
iFirst = (*ExprList)(unsafe.Pointer(pList)).FnExpr
} else {
iFirst = 0
}
if !(pColumns == uintptr(0)) {
goto __1
}
goto vector_append_error
__1:
;
if !(pExpr == uintptr(0)) {
goto __2
}
goto vector_append_error
__2:
;
if !(int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_SELECT && (*IdList)(unsafe.Pointer(pColumns)).FnId != libc.AssignInt32(&n, Xsqlite3ExprVectorSize(tls, pExpr))) {
goto __3
}
Xsqlite3ErrorMsg(tls, pParse, ts+8055,
libc.VaList(bp, (*IdList)(unsafe.Pointer(pColumns)).FnId, n))
goto vector_append_error
__3:
;
i = 0
__4:
if !(i < (*IdList)(unsafe.Pointer(pColumns)).FnId) {
goto __6
}
pSubExpr = Xsqlite3ExprForVectorField(tls, pParse, pExpr, i, (*IdList)(unsafe.Pointer(pColumns)).FnId)
if !(pSubExpr == uintptr(0)) {
goto __7
}
goto __5
__7:
;
pList = Xsqlite3ExprListAppend(tls, pParse, pList, pSubExpr)
if !(pList != 0) {
goto __8
}
(*ExprList_item)(unsafe.Pointer(pList + 8 + uintptr((*ExprList)(unsafe.Pointer(pList)).FnExpr-1)*32)).FzEName = (*IdList_item)(unsafe.Pointer(pColumns + 8 + uintptr(i)*16)).FzName
(*IdList_item)(unsafe.Pointer(pColumns + 8 + uintptr(i)*16)).FzName = uintptr(0)
__8:
;
goto __5
__5:
i++
goto __4
goto __6
__6:
;
if !(!(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) && int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_SELECT && pList != uintptr(0)) {
goto __9
}
pFirst = (*ExprList_item)(unsafe.Pointer(pList + 8 + uintptr(iFirst)*32)).FpExpr
(*Expr)(unsafe.Pointer(pFirst)).FpRight = pExpr
pExpr = uintptr(0)
(*Expr)(unsafe.Pointer(pFirst)).FiTable = (*IdList)(unsafe.Pointer(pColumns)).FnId
__9:
;
vector_append_error:
Xsqlite3ExprUnmapAndDelete(tls, pParse, pExpr)
Xsqlite3IdListDelete(tls, db, pColumns)
return pList
}
// Set the sort order for the last element on the given ExprList.
func Xsqlite3ExprListSetSortOrder(tls *libc.TLS, p uintptr, iSortOrder int32, eNulls int32) {
var pItem uintptr
if p == uintptr(0) {
return
}
pItem = p + 8 + uintptr((*ExprList)(unsafe.Pointer(p)).FnExpr-1)*32
if iSortOrder == -1 {
iSortOrder = SQLITE_SO_ASC
}
(*ExprList_item)(unsafe.Pointer(pItem)).Ffg.FsortFlags = U8(iSortOrder)
if eNulls != -1 {
libc.SetBitFieldPtr16Uint32(pItem+16+4, uint32(1), 5, 0x20)
if iSortOrder != eNulls {
*(*U8)(unsafe.Pointer(pItem + 16)) |= U8(KEYINFO_ORDER_BIGNULL)
}
}
}
// Set the ExprList.a[].zEName element of the most recently added item
// on the expression list.
//
// pList might be NULL following an OOM error. But pName should never be
// NULL. If a memory allocation fails, the pParse->db->mallocFailed flag
// is set.
func Xsqlite3ExprListSetName(tls *libc.TLS, pParse uintptr, pList uintptr, pName uintptr, dequote int32) {
if pList != 0 {
var pItem uintptr
pItem = pList + 8 + uintptr((*ExprList)(unsafe.Pointer(pList)).FnExpr-1)*32
(*ExprList_item)(unsafe.Pointer(pItem)).FzEName = Xsqlite3DbStrNDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Token)(unsafe.Pointer(pName)).Fz, uint64((*Token)(unsafe.Pointer(pName)).Fn))
if dequote != 0 {
Xsqlite3Dequote(tls, (*ExprList_item)(unsafe.Pointer(pItem)).FzEName)
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
Xsqlite3RenameTokenMap(tls, pParse, (*ExprList_item)(unsafe.Pointer(pItem)).FzEName, pName)
}
}
}
}
// Set the ExprList.a[].zSpan element of the most recently added item
// on the expression list.
//
// pList might be NULL following an OOM error. But pSpan should never be
// NULL. If a memory allocation fails, the pParse->db->mallocFailed flag
// is set.
func Xsqlite3ExprListSetSpan(tls *libc.TLS, pParse uintptr, pList uintptr, zStart uintptr, zEnd uintptr) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if pList != 0 {
var pItem uintptr = pList + 8 + uintptr((*ExprList)(unsafe.Pointer(pList)).FnExpr-1)*32
if (*ExprList_item)(unsafe.Pointer(pItem)).FzEName == uintptr(0) {
(*ExprList_item)(unsafe.Pointer(pItem)).FzEName = Xsqlite3DbSpanDup(tls, db, zStart, zEnd)
libc.SetBitFieldPtr16Uint32(pItem+16+4, uint32(ENAME_SPAN), 0, 0x3)
}
}
}
// If the expression list pEList contains more than iLimit elements,
// leave an error message in pParse.
func Xsqlite3ExprListCheckLength(tls *libc.TLS, pParse uintptr, pEList uintptr, zObject uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var mx int32 = *(*int32)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb + 136 + 2*4))
if pEList != 0 && (*ExprList)(unsafe.Pointer(pEList)).FnExpr > mx {
Xsqlite3ErrorMsg(tls, pParse, ts+8085, libc.VaList(bp, zObject))
}
}
func exprListDeleteNN(tls *libc.TLS, db uintptr, pList uintptr) {
var i int32 = (*ExprList)(unsafe.Pointer(pList)).FnExpr
var pItem uintptr = pList + 8
for __ccgo := true; __ccgo; __ccgo = libc.PreDecInt32(&i, 1) > 0 {
Xsqlite3ExprDelete(tls, db, (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr)
if (*ExprList_item)(unsafe.Pointer(pItem)).FzEName != 0 {
Xsqlite3DbNNFreeNN(tls, db, (*ExprList_item)(unsafe.Pointer(pItem)).FzEName)
}
pItem += 32
}
Xsqlite3DbNNFreeNN(tls, db, pList)
}
func Xsqlite3ExprListDelete(tls *libc.TLS, db uintptr, pList uintptr) {
if pList != 0 {
exprListDeleteNN(tls, db, pList)
}
}
// Return the bitwise-OR of all Expr.flags fields in the given
// ExprList.
func Xsqlite3ExprListFlags(tls *libc.TLS, pList uintptr) U32 {
var i int32
var m U32 = U32(0)
for i = 0; i < (*ExprList)(unsafe.Pointer(pList)).FnExpr; i++ {
var pExpr uintptr = (*ExprList_item)(unsafe.Pointer(pList + 8 + uintptr(i)*32)).FpExpr
m = m | (*Expr)(unsafe.Pointer(pExpr)).Fflags
}
return m
}
// This is a SELECT-node callback for the expression walker that
// always "fails". By "fail" in this case, we mean set
// pWalker->eCode to zero and abort.
//
// This callback is used by multiple expression walkers.
func Xsqlite3SelectWalkFail(tls *libc.TLS, pWalker uintptr, NotUsed uintptr) int32 {
_ = NotUsed
(*Walker)(unsafe.Pointer(pWalker)).FeCode = U16(0)
return WRC_Abort
}
// Check the input string to see if it is "true" or "false" (in any case).
//
// If the string is.... Return
// "true" EP_IsTrue
// "false" EP_IsFalse
// anything else 0
func Xsqlite3IsTrueOrFalse(tls *libc.TLS, zIn uintptr) U32 {
if Xsqlite3StrICmp(tls, zIn, ts+7167) == 0 {
return U32(EP_IsTrue)
}
if Xsqlite3StrICmp(tls, zIn, ts+7172) == 0 {
return U32(EP_IsFalse)
}
return U32(0)
}
// If the input expression is an ID with the name "true" or "false"
// then convert it into an TK_TRUEFALSE term. Return non-zero if
// the conversion happened, and zero if the expression is unaltered.
func Xsqlite3ExprIdToTrueFalse(tls *libc.TLS, pExpr uintptr) int32 {
var v U32
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Quoted|EP_IntValue) != U32(0)) &&
libc.AssignUint32(&v, Xsqlite3IsTrueOrFalse(tls, *(*uintptr)(unsafe.Pointer(pExpr + 8)))) != U32(0) {
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_TRUEFALSE)
*(*U32)(unsafe.Pointer(pExpr + 4)) |= v
return 1
}
return 0
}
// The argument must be a TK_TRUEFALSE Expr node. Return 1 if it is TRUE
// and 0 if it is FALSE.
func Xsqlite3ExprTruthValue(tls *libc.TLS, pExpr uintptr) int32 {
pExpr = Xsqlite3ExprSkipCollate(tls, pExpr)
return libc.Bool32(int32(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 8)) + 4))) == 0)
}
// If pExpr is an AND or OR expression, try to simplify it by eliminating
// terms that are always true or false. Return the simplified expression.
// Or return the original expression if no simplification is possible.
//
// Examples:
//
// (x<10) AND true => (x<10)
// (x<10) AND false => false
// (x<10) AND (y=22 OR false) => (x<10) AND (y=22)
// (x<10) AND (y=22 OR true) => (x<10)
// (y=22) OR true => true
func Xsqlite3ExprSimplifiedAndOr(tls *libc.TLS, pExpr uintptr) uintptr {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_AND || int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_OR {
var pRight uintptr = Xsqlite3ExprSimplifiedAndOr(tls, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
var pLeft uintptr = Xsqlite3ExprSimplifiedAndOr(tls, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
if (*Expr)(unsafe.Pointer(pLeft)).Fflags&U32(EP_OuterON|EP_IsTrue) == U32(EP_IsTrue) || (*Expr)(unsafe.Pointer(pRight)).Fflags&U32(EP_OuterON|EP_IsFalse) == U32(EP_IsFalse) {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_AND {
pExpr = pRight
} else {
pExpr = pLeft
}
} else if (*Expr)(unsafe.Pointer(pRight)).Fflags&U32(EP_OuterON|EP_IsTrue) == U32(EP_IsTrue) || (*Expr)(unsafe.Pointer(pLeft)).Fflags&U32(EP_OuterON|EP_IsFalse) == U32(EP_IsFalse) {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_AND {
pExpr = pLeft
} else {
pExpr = pRight
}
}
}
return pExpr
}
func exprNodeIsConstant(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
if int32((*Walker)(unsafe.Pointer(pWalker)).FeCode) == 2 && (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON) != U32(0) {
(*Walker)(unsafe.Pointer(pWalker)).FeCode = U16(0)
return WRC_Abort
}
switch int32((*Expr)(unsafe.Pointer(pExpr)).Fop) {
case TK_FUNCTION:
if (int32((*Walker)(unsafe.Pointer(pWalker)).FeCode) >= 4 || (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_ConstFunc) != U32(0)) &&
!((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc) != U32(0)) {
if int32((*Walker)(unsafe.Pointer(pWalker)).FeCode) == 5 {
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_FromDDL)
}
return WRC_Continue
} else {
(*Walker)(unsafe.Pointer(pWalker)).FeCode = U16(0)
return WRC_Abort
}
fallthrough
case TK_ID:
if Xsqlite3ExprIdToTrueFalse(tls, pExpr) != 0 {
return WRC_Prune
}
fallthrough
case TK_COLUMN:
fallthrough
case TK_AGG_FUNCTION:
fallthrough
case TK_AGG_COLUMN:
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_FixedCol) != U32(0) && int32((*Walker)(unsafe.Pointer(pWalker)).FeCode) != 2 {
return WRC_Continue
}
if int32((*Walker)(unsafe.Pointer(pWalker)).FeCode) == 3 && (*Expr)(unsafe.Pointer(pExpr)).FiTable == *(*int32)(unsafe.Pointer(pWalker + 40)) {
return WRC_Continue
}
fallthrough
case TK_IF_NULL_ROW:
fallthrough
case TK_REGISTER:
fallthrough
case TK_DOT:
(*Walker)(unsafe.Pointer(pWalker)).FeCode = U16(0)
return WRC_Abort
case TK_VARIABLE:
if int32((*Walker)(unsafe.Pointer(pWalker)).FeCode) == 5 {
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_NULL)
} else if int32((*Walker)(unsafe.Pointer(pWalker)).FeCode) == 4 {
(*Walker)(unsafe.Pointer(pWalker)).FeCode = U16(0)
return WRC_Abort
}
fallthrough
default:
return WRC_Continue
}
return int32(0)
}
func exprIsConst(tls *libc.TLS, p uintptr, initFlag int32, iCur int32) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
(*Walker)(unsafe.Pointer(bp)).FeCode = U16(initFlag)
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{exprNodeIsConstant}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{Xsqlite3SelectWalkFail}))
*(*int32)(unsafe.Pointer(bp + 40)) = iCur
Xsqlite3WalkExpr(tls, bp, p)
return int32((*Walker)(unsafe.Pointer(bp)).FeCode)
}
// Walk an expression tree. Return non-zero if the expression is constant
// and 0 if it involves variables or function calls.
//
// For the purposes of this function, a double-quoted string (ex: "abc")
// is considered a variable but a single-quoted string (ex: 'abc') is
// a constant.
func Xsqlite3ExprIsConstant(tls *libc.TLS, p uintptr) int32 {
return exprIsConst(tls, p, 1, 0)
}
// Walk an expression tree. Return non-zero if
//
// (1) the expression is constant, and
// (2) the expression does originate in the ON or USING clause
// of a LEFT JOIN, and
// (3) the expression does not contain any EP_FixedCol TK_COLUMN
// operands created by the constant propagation optimization.
//
// When this routine returns true, it indicates that the expression
// can be added to the pParse->pConstExpr list and evaluated once when
// the prepared statement starts up. See sqlite3ExprCodeRunJustOnce().
func Xsqlite3ExprIsConstantNotJoin(tls *libc.TLS, p uintptr) int32 {
return exprIsConst(tls, p, 2, 0)
}
// Walk an expression tree. Return non-zero if the expression is constant
// for any single row of the table with cursor iCur. In other words, the
// expression must not refer to any non-deterministic function nor any
// table other than iCur.
func Xsqlite3ExprIsTableConstant(tls *libc.TLS, p uintptr, iCur int32) int32 {
return exprIsConst(tls, p, 3, iCur)
}
// Check pExpr to see if it is an invariant constraint on data source pSrc.
// This is an optimization. False negatives will perhaps cause slower
// queries, but false positives will yield incorrect answers. So when in
// doubt, return 0.
//
// To be an invariant constraint, the following must be true:
//
// (1) pExpr cannot refer to any table other than pSrc->iCursor.
//
// (2) pExpr cannot use subqueries or non-deterministic functions.
//
// (3) pSrc cannot be part of the left operand for a RIGHT JOIN.
// (Is there some way to relax this constraint?)
//
// (4) If pSrc is the right operand of a LEFT JOIN, then...
// (4a) pExpr must come from an ON clause..
// (4b) and specifically the ON clause associated with the LEFT JOIN.
//
// **
// ** (5) If pSrc is not the right operand of a LEFT JOIN or the left
// ** operand of a RIGHT JOIN, then pExpr must be from the WHERE
// ** clause, not an ON clause.
func Xsqlite3ExprIsTableConstraint(tls *libc.TLS, pExpr uintptr, pSrc uintptr) int32 {
if int32((*SrcItem)(unsafe.Pointer(pSrc)).Ffg.Fjointype)&JT_LTORJ != 0 {
return 0
}
if int32((*SrcItem)(unsafe.Pointer(pSrc)).Ffg.Fjointype)&JT_LEFT != 0 {
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON) != U32(0)) {
return 0
}
if *(*int32)(unsafe.Pointer(pExpr + 52)) != (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor {
return 0
}
} else {
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON) != U32(0) {
return 0
}
}
return Xsqlite3ExprIsTableConstant(tls, pExpr, (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor)
}
func exprNodeIsConstantOrGroupBy(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
var pGroupBy uintptr = *(*uintptr)(unsafe.Pointer(pWalker + 40))
var i int32
for i = 0; i < (*ExprList)(unsafe.Pointer(pGroupBy)).FnExpr; i++ {
var p uintptr = (*ExprList_item)(unsafe.Pointer(pGroupBy + 8 + uintptr(i)*32)).FpExpr
if Xsqlite3ExprCompare(tls, uintptr(0), pExpr, p, -1) < 2 {
var pColl uintptr = Xsqlite3ExprNNCollSeq(tls, (*Walker)(unsafe.Pointer(pWalker)).FpParse, p)
if Xsqlite3IsBinary(tls, pColl) != 0 {
return WRC_Prune
}
}
}
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_xIsSelect) != U32(0) {
(*Walker)(unsafe.Pointer(pWalker)).FeCode = U16(0)
return WRC_Abort
}
return exprNodeIsConstant(tls, pWalker, pExpr)
}
// Walk the expression tree passed as the first argument. Return non-zero
// if the expression consists entirely of constants or copies of terms
// in pGroupBy that sort with the BINARY collation sequence.
//
// This routine is used to determine if a term of the HAVING clause can
// be promoted into the WHERE clause. In order for such a promotion to work,
// the value of the HAVING clause term must be the same for all members of
// a "group". The requirement that the GROUP BY term must be BINARY
// assumes that no other collating sequence will have a finer-grained
// grouping than binary. In other words (A=B COLLATE binary) implies
// A=B in every other collating sequence. The requirement that the
// GROUP BY be BINARY is stricter than necessary. It would also work
// to promote HAVING clauses that use the same alternative collating
// sequence as the GROUP BY term, but that is much harder to check,
// alternative collating sequences are uncommon, and this is only an
// optimization, so we take the easy way out and simply require the
// GROUP BY to use the BINARY collating sequence.
func Xsqlite3ExprIsConstantOrGroupBy(tls *libc.TLS, pParse uintptr, p uintptr, pGroupBy uintptr) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
(*Walker)(unsafe.Pointer(bp)).FeCode = U16(1)
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{exprNodeIsConstantOrGroupBy}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 40)) = pGroupBy
(*Walker)(unsafe.Pointer(bp)).FpParse = pParse
Xsqlite3WalkExpr(tls, bp, p)
return int32((*Walker)(unsafe.Pointer(bp)).FeCode)
}
// Walk an expression tree for the DEFAULT field of a column definition
// in a CREATE TABLE statement. Return non-zero if the expression is
// acceptable for use as a DEFAULT. That is to say, return non-zero if
// the expression is constant or a function call with constant arguments.
// Return and 0 if there are any variables.
//
// isInit is true when parsing from sqlite_schema. isInit is false when
// processing a new CREATE TABLE statement. When isInit is true, parameters
// (such as ? or $abc) in the expression are converted into NULL. When
// isInit is false, parameters raise an error. Parameters should not be
// allowed in a CREATE TABLE statement, but some legacy versions of SQLite
// allowed it, so we need to support it when reading sqlite_schema for
// backwards compatibility.
//
// If isInit is true, set EP_FromDDL on every TK_FUNCTION node.
//
// For the purposes of this function, a double-quoted string (ex: "abc")
// is considered a variable but a single-quoted string (ex: 'abc') is
// a constant.
func Xsqlite3ExprIsConstantOrFunction(tls *libc.TLS, p uintptr, isInit U8) int32 {
return exprIsConst(tls, p, 4+int32(isInit), 0)
}
// If the expression p codes a constant integer that is small enough
// to fit in a 32-bit integer, return 1 and put the value of the integer
// in *pValue. If the expression is not an integer or if it is too big
// to fit in a signed 32-bit integer, return 0 and leave *pValue unchanged.
func Xsqlite3ExprIsInteger(tls *libc.TLS, p uintptr, pValue uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32 = 0
if p == uintptr(0) {
return 0
}
if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_IntValue) != 0 {
*(*int32)(unsafe.Pointer(pValue)) = *(*int32)(unsafe.Pointer(p + 8))
return 1
}
switch int32((*Expr)(unsafe.Pointer(p)).Fop) {
case TK_UPLUS:
{
rc = Xsqlite3ExprIsInteger(tls, (*Expr)(unsafe.Pointer(p)).FpLeft, pValue)
break
}
case TK_UMINUS:
{
*(*int32)(unsafe.Pointer(bp)) = 0
if Xsqlite3ExprIsInteger(tls, (*Expr)(unsafe.Pointer(p)).FpLeft, bp) != 0 {
*(*int32)(unsafe.Pointer(pValue)) = -*(*int32)(unsafe.Pointer(bp))
rc = 1
}
break
}
default:
break
}
return rc
}
// Return FALSE if there is no chance that the expression can be NULL.
//
// If the expression might be NULL or if the expression is too complex
// to tell return TRUE.
//
// This routine is used as an optimization, to skip OP_IsNull opcodes
// when we know that a value cannot be NULL. Hence, a false positive
// (returning TRUE when in fact the expression can never be NULL) might
// be a small performance hit but is otherwise harmless. On the other
// hand, a false negative (returning FALSE when the result could be NULL)
// will likely result in an incorrect answer. So when in doubt, return
// TRUE.
func Xsqlite3ExprCanBeNull(tls *libc.TLS, p uintptr) int32 {
var op U8
for int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_UPLUS || int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_UMINUS {
p = (*Expr)(unsafe.Pointer(p)).FpLeft
}
op = (*Expr)(unsafe.Pointer(p)).Fop
if int32(op) == TK_REGISTER {
op = (*Expr)(unsafe.Pointer(p)).Fop2
}
switch int32(op) {
case TK_INTEGER:
fallthrough
case TK_STRING:
fallthrough
case TK_FLOAT:
fallthrough
case TK_BLOB:
return 0
case TK_COLUMN:
return libc.Bool32((*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_CanBeNull) != U32(0) || *(*uintptr)(unsafe.Pointer(p + 64)) == uintptr(0) || int32((*Expr)(unsafe.Pointer(p)).FiColumn) >= 0 &&
(*Table)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 64)))).FaCol != uintptr(0) &&
int32(*(*uint8)(unsafe.Pointer((*Table)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 64)))).FaCol + uintptr((*Expr)(unsafe.Pointer(p)).FiColumn)*24 + 8))&0xf>>0) == 0)
default:
return 1
}
return int32(0)
}
// Return TRUE if the given expression is a constant which would be
// unchanged by OP_Affinity with the affinity given in the second
// argument.
//
// This routine is used to determine if the OP_Affinity operation
// can be omitted. When in doubt return FALSE. A false negative
// is harmless. A false positive, however, can result in the wrong
// answer.
func Xsqlite3ExprNeedsNoAffinityChange(tls *libc.TLS, p uintptr, aff int8) int32 {
var op U8
var unaryMinus int32 = 0
if int32(aff) == SQLITE_AFF_BLOB {
return 1
}
for int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_UPLUS || int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_UMINUS {
if int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_UMINUS {
unaryMinus = 1
}
p = (*Expr)(unsafe.Pointer(p)).FpLeft
}
op = (*Expr)(unsafe.Pointer(p)).Fop
if int32(op) == TK_REGISTER {
op = (*Expr)(unsafe.Pointer(p)).Fop2
}
switch int32(op) {
case TK_INTEGER:
{
return libc.Bool32(int32(aff) >= SQLITE_AFF_NUMERIC)
}
case TK_FLOAT:
{
return libc.Bool32(int32(aff) >= SQLITE_AFF_NUMERIC)
}
case TK_STRING:
{
return libc.Bool32(!(unaryMinus != 0) && int32(aff) == SQLITE_AFF_TEXT)
}
case TK_BLOB:
{
return libc.BoolInt32(!(unaryMinus != 0))
}
case TK_COLUMN:
{
return libc.Bool32(int32(aff) >= SQLITE_AFF_NUMERIC && int32((*Expr)(unsafe.Pointer(p)).FiColumn) < 0)
}
default:
{
return 0
}
}
return int32(0)
}
// Return TRUE if the given string is a row-id column name.
func Xsqlite3IsRowid(tls *libc.TLS, z uintptr) int32 {
if Xsqlite3StrICmp(tls, z, ts+8108) == 0 {
return 1
}
if Xsqlite3StrICmp(tls, z, ts+8116) == 0 {
return 1
}
if Xsqlite3StrICmp(tls, z, ts+8122) == 0 {
return 1
}
return 0
}
func isCandidateForInOpt(tls *libc.TLS, pX uintptr) uintptr {
var p uintptr
var pSrc uintptr
var pEList uintptr
var pTab uintptr
var i int32
if !((*Expr)(unsafe.Pointer(pX)).Fflags&U32(EP_xIsSelect) != U32(0)) {
return uintptr(0)
}
if (*Expr)(unsafe.Pointer(pX)).Fflags&U32(EP_VarSelect) != U32(0) {
return uintptr(0)
}
p = *(*uintptr)(unsafe.Pointer(pX + 32))
if (*Select)(unsafe.Pointer(p)).FpPrior != 0 {
return uintptr(0)
}
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Distinct|SF_Aggregate) != 0 {
return uintptr(0)
}
if (*Select)(unsafe.Pointer(p)).FpLimit != 0 {
return uintptr(0)
}
if (*Select)(unsafe.Pointer(p)).FpWhere != 0 {
return uintptr(0)
}
pSrc = (*Select)(unsafe.Pointer(p)).FpSrc
if (*SrcList)(unsafe.Pointer(pSrc)).FnSrc != 1 {
return uintptr(0)
}
if (*SrcItem)(unsafe.Pointer(pSrc+8)).FpSelect != 0 {
return uintptr(0)
}
pTab = (*SrcItem)(unsafe.Pointer(pSrc + 8)).FpTab
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB {
return uintptr(0)
}
pEList = (*Select)(unsafe.Pointer(p)).FpEList
for i = 0; i < (*ExprList)(unsafe.Pointer(pEList)).FnExpr; i++ {
var pRes uintptr = (*ExprList_item)(unsafe.Pointer(pEList + 8 + uintptr(i)*32)).FpExpr
if int32((*Expr)(unsafe.Pointer(pRes)).Fop) != TK_COLUMN {
return uintptr(0)
}
}
return p
}
func sqlite3SetHasNullFlag(tls *libc.TLS, v uintptr, iCur int32, regHasNull int32) {
var addr1 int32
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, regHasNull)
addr1 = Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, iCur)
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iCur, 0, regHasNull)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_TYPEOFARG))
Xsqlite3VdbeJumpHere(tls, v, addr1)
}
func sqlite3InRhsIsConstant(tls *libc.TLS, pIn uintptr) int32 {
var pLHS uintptr
var res int32
pLHS = (*Expr)(unsafe.Pointer(pIn)).FpLeft
(*Expr)(unsafe.Pointer(pIn)).FpLeft = uintptr(0)
res = Xsqlite3ExprIsConstant(tls, pIn)
(*Expr)(unsafe.Pointer(pIn)).FpLeft = pLHS
return res
}
// This function is used by the implementation of the IN (...) operator.
// The pX parameter is the expression on the RHS of the IN operator, which
// might be either a list of expressions or a subquery.
//
// The job of this routine is to find or create a b-tree object that can
// be used either to test for membership in the RHS set or to iterate through
// all members of the RHS set, skipping duplicates.
//
// A cursor is opened on the b-tree object that is the RHS of the IN operator
// and the *piTab parameter is set to the index of that cursor.
//
// The returned value of this function indicates the b-tree type, as follows:
//
// IN_INDEX_ROWID - The cursor was opened on a database table.
// IN_INDEX_INDEX_ASC - The cursor was opened on an ascending index.
// IN_INDEX_INDEX_DESC - The cursor was opened on a descending index.
// IN_INDEX_EPH - The cursor was opened on a specially created and
// populated epheremal table.
// IN_INDEX_NOOP - No cursor was allocated. The IN operator must be
// implemented as a sequence of comparisons.
//
// An existing b-tree might be used if the RHS expression pX is a simple
// subquery such as:
//
// SELECT <column1>, <column2>... FROM <table>
//
// If the RHS of the IN operator is a list or a more complex subquery, then
// an ephemeral table might need to be generated from the RHS and then
// pX->iTable made to point to the ephemeral table instead of an
// existing table. In this case, the creation and initialization of the
// ephmeral table might be put inside of a subroutine, the EP_Subrtn flag
// will be set on pX and the pX->y.sub fields will be set to show where
// the subroutine is coded.
//
// The inFlags parameter must contain, at a minimum, one of the bits
// IN_INDEX_MEMBERSHIP or IN_INDEX_LOOP but not both. If inFlags contains
// IN_INDEX_MEMBERSHIP, then the generated table will be used for a fast
// membership test. When the IN_INDEX_LOOP bit is set, the IN index will
// be used to loop over all values of the RHS of the IN operator.
//
// When IN_INDEX_LOOP is used (and the b-tree will be used to iterate
// through the set members) then the b-tree must not contain duplicates.
// An epheremal table will be created unless the selected columns are guaranteed
// to be unique - either because it is an INTEGER PRIMARY KEY or due to
// a UNIQUE constraint or index.
//
// When IN_INDEX_MEMBERSHIP is used (and the b-tree will be used
// for fast set membership tests) then an epheremal table must
// be used unless <columns> is a single INTEGER PRIMARY KEY column or an
// index can be found with the specified <columns> as its left-most.
//
// If the IN_INDEX_NOOP_OK and IN_INDEX_MEMBERSHIP are both set and
// if the RHS of the IN operator is a list (not a subquery) then this
// routine might decide that creating an ephemeral b-tree for membership
// testing is too expensive and return IN_INDEX_NOOP. In that case, the
// calling routine should implement the IN operator using a sequence
// of Eq or Ne comparison operations.
//
// When the b-tree is being used for membership tests, the calling function
// might need to know whether or not the RHS side of the IN operator
// contains a NULL. If prRhsHasNull is not a NULL pointer and
// if there is any chance that the (...) might contain a NULL value at
// runtime, then a register is allocated and the register number written
// to *prRhsHasNull. If there is no chance that the (...) contains a
// NULL value, then *prRhsHasNull is left unchanged.
//
// If a register is allocated and its location stored in *prRhsHasNull, then
// the value in that register will be NULL if the b-tree contains one or more
// NULL values, and it will be some non-NULL value if the b-tree contains no
// NULL values.
//
// If the aiMap parameter is not NULL, it must point to an array containing
// one element for each column returned by the SELECT statement on the RHS
// of the IN(...) operator. The i'th entry of the array is populated with the
// offset of the index column that matches the i'th column returned by the
// SELECT. For example, if the expression and selected index are:
//
// (?,?,?) IN (SELECT a, b, c FROM t1)
// CREATE INDEX i1 ON t1(b, c, a);
//
// then aiMap[] is populated with {2, 0, 1}.
func Xsqlite3FindInIndex(tls *libc.TLS, pParse uintptr, pX uintptr, inFlags U32, prRhsHasNull uintptr, aiMap uintptr, piTab uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var p uintptr
var eType int32 = 0
var iTab int32
var mustBeUnique int32
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
mustBeUnique = libc.Bool32(inFlags&U32(IN_INDEX_LOOP) != U32(0))
iTab = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
if prRhsHasNull != 0 && (*Expr)(unsafe.Pointer(pX)).Fflags&U32(EP_xIsSelect) != U32(0) {
var i int32
var pEList uintptr = (*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pX + 32)))).FpEList
for i = 0; i < (*ExprList)(unsafe.Pointer(pEList)).FnExpr; i++ {
if Xsqlite3ExprCanBeNull(tls, (*ExprList_item)(unsafe.Pointer(pEList+8+uintptr(i)*32)).FpExpr) != 0 {
break
}
}
if i == (*ExprList)(unsafe.Pointer(pEList)).FnExpr {
prRhsHasNull = uintptr(0)
}
}
if (*Parse)(unsafe.Pointer(pParse)).FnErr == 0 && libc.AssignUintptr(&p, isCandidateForInOpt(tls, pX)) != uintptr(0) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pTab uintptr
var iDb int32
var pEList uintptr = (*Select)(unsafe.Pointer(p)).FpEList
var nExpr int32 = (*ExprList)(unsafe.Pointer(pEList)).FnExpr
pTab = (*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc + 8)).FpTab
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
Xsqlite3CodeVerifySchema(tls, pParse, iDb)
Xsqlite3TableLock(tls, pParse, iDb, (*Table)(unsafe.Pointer(pTab)).Ftnum, uint8(0), (*Table)(unsafe.Pointer(pTab)).FzName)
if nExpr == 1 && int32((*Expr)(unsafe.Pointer((*ExprList_item)(unsafe.Pointer(pEList+8)).FpExpr)).FiColumn) < 0 {
var iAddr int32 = Xsqlite3VdbeAddOp0(tls, v, OP_Once)
Xsqlite3OpenTable(tls, pParse, iTab, iDb, pTab, OP_OpenRead)
eType = IN_INDEX_ROWID
Xsqlite3VdbeExplain(tls, pParse, uint8(0), ts+8126, libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName))
Xsqlite3VdbeJumpHere(tls, v, iAddr)
} else {
var pIdx uintptr
var affinity_ok int32 = 1
var i int32
for i = 0; i < nExpr && affinity_ok != 0; i++ {
var pLhs uintptr = Xsqlite3VectorFieldSubexpr(tls, (*Expr)(unsafe.Pointer(pX)).FpLeft, i)
var iCol int32 = int32((*Expr)(unsafe.Pointer((*ExprList_item)(unsafe.Pointer(pEList + 8 + uintptr(i)*32)).FpExpr)).FiColumn)
var idxaff int8 = Xsqlite3TableColumnAffinity(tls, pTab, iCol)
var cmpaff int8 = Xsqlite3CompareAffinity(tls, pLhs, idxaff)
switch int32(cmpaff) {
case SQLITE_AFF_BLOB:
break
fallthrough
case SQLITE_AFF_TEXT:
break
fallthrough
default:
affinity_ok = libc.Bool32(int32(idxaff) >= SQLITE_AFF_NUMERIC)
}
}
if affinity_ok != 0 {
for pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex; pIdx != 0 && eType == 0; pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext {
var colUsed Bitmask
var mCol Bitmask
if int32((*Index)(unsafe.Pointer(pIdx)).FnColumn) < nExpr {
continue
}
if (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere != uintptr(0) {
continue
}
if int32((*Index)(unsafe.Pointer(pIdx)).FnColumn) >= int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8))-1 {
continue
}
if mustBeUnique != 0 {
if int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol) > nExpr ||
int32((*Index)(unsafe.Pointer(pIdx)).FnColumn) > nExpr && !(int32((*Index)(unsafe.Pointer(pIdx)).FonError) != OE_None) {
continue
}
}
colUsed = uint64(0)
for i = 0; i < nExpr; i++ {
var pLhs uintptr = Xsqlite3VectorFieldSubexpr(tls, (*Expr)(unsafe.Pointer(pX)).FpLeft, i)
var pRhs uintptr = (*ExprList_item)(unsafe.Pointer(pEList + 8 + uintptr(i)*32)).FpExpr
var pReq uintptr = Xsqlite3BinaryCompareCollSeq(tls, pParse, pLhs, pRhs)
var j int32
for j = 0; j < nExpr; j++ {
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(j)*2))) != int32((*Expr)(unsafe.Pointer(pRhs)).FiColumn) {
continue
}
if pReq != uintptr(0) && Xsqlite3StrICmp(tls, (*CollSeq)(unsafe.Pointer(pReq)).FzName, *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(j)*8))) != 0 {
continue
}
break
}
if j == nExpr {
break
}
mCol = uint64(1) << j
if mCol&colUsed != 0 {
break
}
colUsed = colUsed | mCol
if aiMap != 0 {
*(*int32)(unsafe.Pointer(aiMap + uintptr(i)*4)) = j
}
}
if colUsed == uint64(1)<<nExpr-uint64(1) {
var iAddr int32 = Xsqlite3VdbeAddOp0(tls, v, OP_Once)
Xsqlite3VdbeExplain(tls, pParse, uint8(0), ts+8173, libc.VaList(bp+8, (*Index)(unsafe.Pointer(pIdx)).FzName))
Xsqlite3VdbeAddOp3(tls, v, OP_OpenRead, iTab, int32((*Index)(unsafe.Pointer(pIdx)).Ftnum), iDb)
Xsqlite3VdbeSetP4KeyInfo(tls, pParse, pIdx)
eType = IN_INDEX_INDEX_ASC + int32(*(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaSortOrder)))
if prRhsHasNull != 0 {
*(*int32)(unsafe.Pointer(prRhsHasNull)) = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
if nExpr == 1 {
sqlite3SetHasNullFlag(tls, v, iTab, *(*int32)(unsafe.Pointer(prRhsHasNull)))
}
}
Xsqlite3VdbeJumpHere(tls, v, iAddr)
}
}
}
}
}
if eType == 0 &&
inFlags&U32(IN_INDEX_NOOP_OK) != 0 &&
(*Expr)(unsafe.Pointer(pX)).Fflags&U32(EP_xIsSelect) == U32(0) &&
(!(sqlite3InRhsIsConstant(tls, pX) != 0) || (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pX + 32)))).FnExpr <= 2) {
(*Parse)(unsafe.Pointer(pParse)).FnTab--
iTab = -1
eType = IN_INDEX_NOOP
}
if eType == 0 {
var savedNQueryLoop U32 = (*Parse)(unsafe.Pointer(pParse)).FnQueryLoop
var rMayHaveNull int32 = 0
eType = IN_INDEX_EPH
if inFlags&U32(IN_INDEX_LOOP) != 0 {
(*Parse)(unsafe.Pointer(pParse)).FnQueryLoop = U32(0)
} else if prRhsHasNull != 0 {
*(*int32)(unsafe.Pointer(prRhsHasNull)) = libc.AssignInt32(&rMayHaveNull, libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1))
}
Xsqlite3CodeRhsOfIN(tls, pParse, pX, iTab)
if rMayHaveNull != 0 {
sqlite3SetHasNullFlag(tls, v, iTab, rMayHaveNull)
}
(*Parse)(unsafe.Pointer(pParse)).FnQueryLoop = savedNQueryLoop
}
if aiMap != 0 && eType != IN_INDEX_INDEX_ASC && eType != IN_INDEX_INDEX_DESC {
var i int32
var n int32
n = Xsqlite3ExprVectorSize(tls, (*Expr)(unsafe.Pointer(pX)).FpLeft)
for i = 0; i < n; i++ {
*(*int32)(unsafe.Pointer(aiMap + uintptr(i)*4)) = i
}
}
*(*int32)(unsafe.Pointer(piTab)) = iTab
return eType
}
func exprINAffinity(tls *libc.TLS, pParse uintptr, pExpr uintptr) uintptr {
var pLeft uintptr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
var nVal int32 = Xsqlite3ExprVectorSize(tls, pLeft)
var pSelect uintptr
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_xIsSelect) != U32(0) {
pSelect = *(*uintptr)(unsafe.Pointer(pExpr + 32))
} else {
pSelect = uintptr(0)
}
var zRet uintptr
zRet = Xsqlite3DbMallocRaw(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(nVal+1))
if zRet != 0 {
var i int32
for i = 0; i < nVal; i++ {
var pA uintptr = Xsqlite3VectorFieldSubexpr(tls, pLeft, i)
var a int8 = Xsqlite3ExprAffinity(tls, pA)
if pSelect != 0 {
*(*int8)(unsafe.Pointer(zRet + uintptr(i))) = Xsqlite3CompareAffinity(tls, (*ExprList_item)(unsafe.Pointer((*Select)(unsafe.Pointer(pSelect)).FpEList+8+uintptr(i)*32)).FpExpr, a)
} else {
*(*int8)(unsafe.Pointer(zRet + uintptr(i))) = a
}
}
*(*int8)(unsafe.Pointer(zRet + uintptr(nVal))) = int8(0)
}
return zRet
}
// Load the Parse object passed as the first argument with an error
// message of the form:
//
// "sub-select returns N columns - expected M"
func Xsqlite3SubselectError(tls *libc.TLS, pParse uintptr, nActual int32, nExpect int32) {
bp := tls.Alloc(16)
defer tls.Free(16)
if (*Parse)(unsafe.Pointer(pParse)).FnErr == 0 {
var zFmt uintptr = ts + 8204
Xsqlite3ErrorMsg(tls, pParse, zFmt, libc.VaList(bp, nActual, nExpect))
}
}
// Expression pExpr is a vector that has been used in a context where
// it is not permitted. If pExpr is a sub-select vector, this routine
// loads the Parse object with a message of the form:
//
// "sub-select returns N columns - expected 1"
//
// Or, if it is a regular scalar vector:
//
// "row value misused"
func Xsqlite3VectorErrorMsg(tls *libc.TLS, pParse uintptr, pExpr uintptr) {
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_xIsSelect) != U32(0) {
Xsqlite3SubselectError(tls, pParse, (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FpEList)).FnExpr, 1)
} else {
Xsqlite3ErrorMsg(tls, pParse, ts+6936, 0)
}
}
// Generate code that will construct an ephemeral table containing all terms
// in the RHS of an IN operator. The IN operator can be in either of two
// forms:
//
// x IN (4,5,11) -- IN operator with list on right-hand side
// x IN (SELECT a FROM b) -- IN operator with subquery on the right
//
// The pExpr parameter is the IN operator. The cursor number for the
// constructed ephermeral table is returned. The first time the ephemeral
// table is computed, the cursor number is also stored in pExpr->iTable,
// however the cursor number returned might not be the same, as it might
// have been duplicated using OP_OpenDup.
//
// If the LHS expression ("x" in the examples) is a column value, or
// the SELECT statement returns a column value, then the affinity of that
// column is used to build the index keys. If both 'x' and the
// SELECT... statement are columns, then numeric affinity is used
// if either column has NUMERIC or INTEGER affinity. If neither
// 'x' nor the SELECT... statement are columns, then numeric affinity
// is used.
func Xsqlite3CodeRhsOfIN(tls *libc.TLS, pParse uintptr, pExpr uintptr, iTab int32) {
bp := tls.Alloc(65)
defer tls.Free(65)
var addrOnce int32 = 0
var addr int32
var pLeft uintptr
var pKeyInfo uintptr = uintptr(0)
var nVal int32
var v uintptr
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_VarSelect) != U32(0)) && (*Parse)(unsafe.Pointer(pParse)).FiSelfTab == 0 {
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Subrtn) != U32(0) {
addrOnce = Xsqlite3VdbeAddOp0(tls, v, OP_Once)
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_xIsSelect) != U32(0) {
Xsqlite3VdbeExplain(tls, pParse, uint8(0), ts+8248, libc.VaList(bp, (*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FselId))
}
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, *(*int32)(unsafe.Pointer(pExpr + 64 + 4)),
*(*int32)(unsafe.Pointer(pExpr + 64)))
Xsqlite3VdbeAddOp2(tls, v, OP_OpenDup, iTab, (*Expr)(unsafe.Pointer(pExpr)).FiTable)
Xsqlite3VdbeJumpHere(tls, v, addrOnce)
return
}
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_Subrtn)
*(*int32)(unsafe.Pointer(pExpr + 64 + 4)) = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
*(*int32)(unsafe.Pointer(pExpr + 64)) = Xsqlite3VdbeAddOp2(tls, v, OP_BeginSubrtn, 0, *(*int32)(unsafe.Pointer(pExpr + 64 + 4))) + 1
addrOnce = Xsqlite3VdbeAddOp0(tls, v, OP_Once)
}
pLeft = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
nVal = Xsqlite3ExprVectorSize(tls, pLeft)
(*Expr)(unsafe.Pointer(pExpr)).FiTable = iTab
addr = Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, (*Expr)(unsafe.Pointer(pExpr)).FiTable, nVal)
pKeyInfo = Xsqlite3KeyInfoAlloc(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, nVal, 1)
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_xIsSelect) != U32(0) {
var pSelect uintptr = *(*uintptr)(unsafe.Pointer(pExpr + 32))
var pEList uintptr = (*Select)(unsafe.Pointer(pSelect)).FpEList
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+8271, libc.VaList(bp+8, func() uintptr {
if addrOnce != 0 {
return ts + 1547
}
return ts + 8290
}(), (*Select)(unsafe.Pointer(pSelect)).FselId))
if (*ExprList)(unsafe.Pointer(pEList)).FnExpr == nVal {
var pCopy uintptr
var i int32
var rc int32
Xsqlite3SelectDestInit(tls, bp+24, SRT_Set, iTab)
(*SelectDest)(unsafe.Pointer(bp + 24)).FzAffSdst = exprINAffinity(tls, pParse, pExpr)
(*Select)(unsafe.Pointer(pSelect)).FiLimit = 0
pCopy = Xsqlite3SelectDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pSelect, 0)
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed != 0 {
rc = 1
} else {
rc = Xsqlite3Select(tls, pParse, pCopy, bp+24)
}
Xsqlite3SelectDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pCopy)
Xsqlite3DbFree(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*SelectDest)(unsafe.Pointer(bp+24)).FzAffSdst)
if rc != 0 {
Xsqlite3KeyInfoUnref(tls, pKeyInfo)
return
}
for i = 0; i < nVal; i++ {
var p uintptr = Xsqlite3VectorFieldSubexpr(tls, pLeft, i)
*(*uintptr)(unsafe.Pointer(pKeyInfo + 32 + uintptr(i)*8)) = Xsqlite3BinaryCompareCollSeq(tls,
pParse, p, (*ExprList_item)(unsafe.Pointer(pEList+8+uintptr(i)*32)).FpExpr)
}
}
} else if *(*uintptr)(unsafe.Pointer(pExpr + 32)) != uintptr(0) {
var i int32
var pList uintptr = *(*uintptr)(unsafe.Pointer(pExpr + 32))
var pItem uintptr
var r1 int32
var r2 int32
*(*int8)(unsafe.Pointer(bp + 64)) = Xsqlite3ExprAffinity(tls, pLeft)
if int32(*(*int8)(unsafe.Pointer(bp + 64))) <= SQLITE_AFF_NONE {
*(*int8)(unsafe.Pointer(bp + 64)) = int8(SQLITE_AFF_BLOB)
} else if int32(*(*int8)(unsafe.Pointer(bp + 64))) == SQLITE_AFF_REAL {
*(*int8)(unsafe.Pointer(bp + 64)) = int8(SQLITE_AFF_NUMERIC)
}
if pKeyInfo != 0 {
*(*uintptr)(unsafe.Pointer(pKeyInfo + 32)) = Xsqlite3ExprCollSeq(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
}
r1 = Xsqlite3GetTempReg(tls, pParse)
r2 = Xsqlite3GetTempReg(tls, pParse)
i = (*ExprList)(unsafe.Pointer(pList)).FnExpr
pItem = pList + 8
__1:
if !(i > 0) {
goto __3
}
{
var pE2 uintptr = (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr
if addrOnce != 0 && !(Xsqlite3ExprIsConstant(tls, pE2) != 0) {
Xsqlite3VdbeChangeToNoop(tls, v, addrOnce-1)
Xsqlite3VdbeChangeToNoop(tls, v, addrOnce)
*(*U32)(unsafe.Pointer(pExpr + 4)) &= libc.Uint32FromInt32(libc.CplInt32(EP_Subrtn))
addrOnce = 0
}
Xsqlite3ExprCode(tls, pParse, pE2, r1)
Xsqlite3VdbeAddOp4(tls, v, OP_MakeRecord, r1, 1, r2, bp+64, 1)
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, iTab, r2, r1, 1)
}
goto __2
__2:
i--
pItem += 32
goto __1
goto __3
__3:
;
Xsqlite3ReleaseTempReg(tls, pParse, r1)
Xsqlite3ReleaseTempReg(tls, pParse, r2)
}
if pKeyInfo != 0 {
Xsqlite3VdbeChangeP4(tls, v, addr, pKeyInfo, -8)
}
if addrOnce != 0 {
Xsqlite3VdbeAddOp1(tls, v, OP_NullRow, iTab)
Xsqlite3VdbeJumpHere(tls, v, addrOnce)
Xsqlite3VdbeAddOp3(tls, v, OP_Return, *(*int32)(unsafe.Pointer(pExpr + 64 + 4)),
*(*int32)(unsafe.Pointer(pExpr + 64)), 1)
Xsqlite3ClearTempRegCache(tls, pParse)
}
}
// Generate code for scalar subqueries used as a subquery expression
// or EXISTS operator:
//
// (SELECT a FROM b) -- subquery
// EXISTS (SELECT a FROM b) -- EXISTS subquery
//
// The pExpr parameter is the SELECT or EXISTS operator to be coded.
//
// Return the register that holds the result. For a multi-column SELECT,
// the result is stored in a contiguous array of registers and the
// return value is the register of the left-most result column.
// Return 0 if an error occurs.
func Xsqlite3CodeSubselect(tls *libc.TLS, pParse uintptr, pExpr uintptr) int32 {
bp := tls.Alloc(64)
defer tls.Free(64)
var addrOnce int32 = 0
var rReg int32 = 0
var pSel uintptr
var nReg int32
var pLimit uintptr
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return 0
}
pSel = *(*uintptr)(unsafe.Pointer(pExpr + 32))
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Subrtn) != U32(0) {
Xsqlite3VdbeExplain(tls, pParse, uint8(0), ts+8302, libc.VaList(bp, (*Select)(unsafe.Pointer(pSel)).FselId))
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, *(*int32)(unsafe.Pointer(pExpr + 64 + 4)),
*(*int32)(unsafe.Pointer(pExpr + 64)))
return (*Expr)(unsafe.Pointer(pExpr)).FiTable
}
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_Subrtn)
*(*int32)(unsafe.Pointer(pExpr + 64 + 4)) = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
*(*int32)(unsafe.Pointer(pExpr + 64)) = Xsqlite3VdbeAddOp2(tls, v, OP_BeginSubrtn, 0, *(*int32)(unsafe.Pointer(pExpr + 64 + 4))) + 1
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_VarSelect) != U32(0)) {
addrOnce = Xsqlite3VdbeAddOp0(tls, v, OP_Once)
}
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+8320, libc.VaList(bp+8, func() uintptr {
if addrOnce != 0 {
return ts + 1547
}
return ts + 8290
}(), (*Select)(unsafe.Pointer(pSel)).FselId))
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_SELECT {
nReg = (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(pSel)).FpEList)).FnExpr
} else {
nReg = 1
}
Xsqlite3SelectDestInit(tls, bp+24, 0, (*Parse)(unsafe.Pointer(pParse)).FnMem+1)
*(*int32)(unsafe.Pointer(pParse + 56)) += nReg
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_SELECT {
(*SelectDest)(unsafe.Pointer(bp + 24)).FeDest = U8(SRT_Mem)
(*SelectDest)(unsafe.Pointer(bp + 24)).FiSdst = (*SelectDest)(unsafe.Pointer(bp + 24)).FiSDParm
(*SelectDest)(unsafe.Pointer(bp + 24)).FnSdst = nReg
Xsqlite3VdbeAddOp3(tls, v, OP_Null, 0, (*SelectDest)(unsafe.Pointer(bp+24)).FiSDParm, (*SelectDest)(unsafe.Pointer(bp+24)).FiSDParm+nReg-1)
} else {
(*SelectDest)(unsafe.Pointer(bp + 24)).FeDest = U8(SRT_Exists)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, (*SelectDest)(unsafe.Pointer(bp+24)).FiSDParm)
}
if (*Select)(unsafe.Pointer(pSel)).FpLimit != 0 {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
pLimit = Xsqlite3Expr(tls, db, TK_INTEGER, ts+7933)
if pLimit != 0 {
(*Expr)(unsafe.Pointer(pLimit)).FaffExpr = int8(SQLITE_AFF_NUMERIC)
pLimit = Xsqlite3PExpr(tls, pParse, TK_NE,
Xsqlite3ExprDup(tls, db, (*Expr)(unsafe.Pointer((*Select)(unsafe.Pointer(pSel)).FpLimit)).FpLeft, 0), pLimit)
}
Xsqlite3ExprDeferredDelete(tls, pParse, (*Expr)(unsafe.Pointer((*Select)(unsafe.Pointer(pSel)).FpLimit)).FpLeft)
(*Expr)(unsafe.Pointer((*Select)(unsafe.Pointer(pSel)).FpLimit)).FpLeft = pLimit
} else {
pLimit = Xsqlite3Expr(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, TK_INTEGER, ts+8341)
(*Select)(unsafe.Pointer(pSel)).FpLimit = Xsqlite3PExpr(tls, pParse, TK_LIMIT, pLimit, uintptr(0))
}
(*Select)(unsafe.Pointer(pSel)).FiLimit = 0
if Xsqlite3Select(tls, pParse, pSel, bp+24) != 0 {
(*Expr)(unsafe.Pointer(pExpr)).Fop2 = (*Expr)(unsafe.Pointer(pExpr)).Fop
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_ERROR)
return 0
}
(*Expr)(unsafe.Pointer(pExpr)).FiTable = libc.AssignInt32(&rReg, (*SelectDest)(unsafe.Pointer(bp+24)).FiSDParm)
if addrOnce != 0 {
Xsqlite3VdbeJumpHere(tls, v, addrOnce)
}
Xsqlite3VdbeAddOp3(tls, v, OP_Return, *(*int32)(unsafe.Pointer(pExpr + 64 + 4)),
*(*int32)(unsafe.Pointer(pExpr + 64)), 1)
Xsqlite3ClearTempRegCache(tls, pParse)
return rReg
}
// Expr pIn is an IN(...) expression. This function checks that the
// sub-select on the RHS of the IN() operator has the same number of
// columns as the vector on the LHS. Or, if the RHS of the IN() is not
// a sub-query, that the LHS is a vector of size 1.
func Xsqlite3ExprCheckIN(tls *libc.TLS, pParse uintptr, pIn uintptr) int32 {
var nVector int32 = Xsqlite3ExprVectorSize(tls, (*Expr)(unsafe.Pointer(pIn)).FpLeft)
if (*Expr)(unsafe.Pointer(pIn)).Fflags&U32(EP_xIsSelect) != U32(0) && !(int32((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed) != 0) {
if nVector != (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pIn + 32)))).FpEList)).FnExpr {
Xsqlite3SubselectError(tls, pParse, (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pIn + 32)))).FpEList)).FnExpr, nVector)
return 1
}
} else if nVector != 1 {
Xsqlite3VectorErrorMsg(tls, pParse, (*Expr)(unsafe.Pointer(pIn)).FpLeft)
return 1
}
return 0
}
func sqlite3ExprCodeIN(tls *libc.TLS, pParse uintptr, pExpr uintptr, destIfFalse int32, destIfNull int32) {
bp := tls.Alloc(16)
defer tls.Free(16)
var eType int32
var rLhs int32
var rLhsOrig int32
var v uintptr
var aiMap uintptr
var zAff uintptr
var nVector int32
var pLeft uintptr
var i int32
var destStep2 int32
var destStep6 int32
var addrTruthOp int32
var destNotNull int32
var addrTop int32
var okConstFactor U8
var op int32
var op1 int32
var pList uintptr
var pColl uintptr
var labelOk int32
var r2 int32
var regCkNull int32
var ii int32
var p uintptr
var p1 uintptr
var pColl1 uintptr
var r3 int32
*(*int32)(unsafe.Pointer(bp)) = 0
aiMap = uintptr(0)
zAff = uintptr(0)
destStep6 = 0
*(*int32)(unsafe.Pointer(bp + 4)) = 0
okConstFactor = (*Parse)(unsafe.Pointer(pParse)).FokConstFactor
pLeft = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
if !(Xsqlite3ExprCheckIN(tls, pParse, pExpr) != 0) {
goto __1
}
return
__1:
;
zAff = exprINAffinity(tls, pParse, pExpr)
nVector = Xsqlite3ExprVectorSize(tls, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
aiMap = Xsqlite3DbMallocZero(tls,
(*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(nVector)*(uint64(unsafe.Sizeof(int32(0)))+uint64(unsafe.Sizeof(int8(0))))+uint64(1))
if !((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed != 0) {
goto __2
}
goto sqlite3ExprCodeIN_oom_error
__2:
;
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
eType = Xsqlite3FindInIndex(tls, pParse, pExpr,
uint32(IN_INDEX_MEMBERSHIP|IN_INDEX_NOOP_OK),
func() uintptr {
if destIfFalse == destIfNull {
return uintptr(0)
}
return bp
}(),
aiMap, bp+4)
(*Parse)(unsafe.Pointer(pParse)).FokConstFactor = U8(0)
rLhsOrig = exprCodeVector(tls, pParse, pLeft, bp+8)
(*Parse)(unsafe.Pointer(pParse)).FokConstFactor = okConstFactor
i = 0
__3:
if !(i < nVector && *(*int32)(unsafe.Pointer(aiMap + uintptr(i)*4)) == i) {
goto __5
}
goto __4
__4:
i++
goto __3
goto __5
__5:
;
if !(i == nVector) {
goto __6
}
rLhs = rLhsOrig
goto __7
__6:
rLhs = Xsqlite3GetTempRange(tls, pParse, nVector)
i = 0
__8:
if !(i < nVector) {
goto __10
}
Xsqlite3VdbeAddOp3(tls, v, OP_Copy, rLhsOrig+i, rLhs+*(*int32)(unsafe.Pointer(aiMap + uintptr(i)*4)), 0)
goto __9
__9:
i++
goto __8
goto __10
__10:
;
__7:
;
if !(eType == IN_INDEX_NOOP) {
goto __11
}
labelOk = Xsqlite3VdbeMakeLabel(tls, pParse)
regCkNull = 0
pList = *(*uintptr)(unsafe.Pointer(pExpr + 32))
pColl = Xsqlite3ExprCollSeq(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
if !(destIfNull != destIfFalse) {
goto __12
}
regCkNull = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp3(tls, v, OP_BitAnd, rLhs, rLhs, regCkNull)
__12:
;
ii = 0
__13:
if !(ii < (*ExprList)(unsafe.Pointer(pList)).FnExpr) {
goto __15
}
r2 = Xsqlite3ExprCodeTemp(tls, pParse, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(ii)*32)).FpExpr, bp+12)
if !(regCkNull != 0 && Xsqlite3ExprCanBeNull(tls, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(ii)*32)).FpExpr) != 0) {
goto __16
}
Xsqlite3VdbeAddOp3(tls, v, OP_BitAnd, regCkNull, r2, regCkNull)
__16:
;
Xsqlite3ReleaseTempReg(tls, pParse, *(*int32)(unsafe.Pointer(bp + 12)))
if !(ii < (*ExprList)(unsafe.Pointer(pList)).FnExpr-1 || destIfNull != destIfFalse) {
goto __17
}
if rLhs != r2 {
op = OP_Eq
} else {
op = OP_NotNull
}
Xsqlite3VdbeAddOp4(tls, v, op, rLhs, labelOk, r2,
pColl, -2)
Xsqlite3VdbeChangeP5(tls, v, uint16(*(*int8)(unsafe.Pointer(zAff))))
goto __18
__17:
if rLhs != r2 {
op1 = OP_Ne
} else {
op1 = OP_IsNull
}
Xsqlite3VdbeAddOp4(tls, v, op1, rLhs, destIfFalse, r2,
pColl, -2)
Xsqlite3VdbeChangeP5(tls, v, uint16(int32(*(*int8)(unsafe.Pointer(zAff)))|SQLITE_JUMPIFNULL))
__18:
;
goto __14
__14:
ii++
goto __13
goto __15
__15:
;
if !(regCkNull != 0) {
goto __19
}
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, regCkNull, destIfNull)
Xsqlite3VdbeGoto(tls, v, destIfFalse)
__19:
;
Xsqlite3VdbeResolveLabel(tls, v, labelOk)
Xsqlite3ReleaseTempReg(tls, pParse, regCkNull)
goto sqlite3ExprCodeIN_finished
__11:
;
if !(destIfNull == destIfFalse) {
goto __20
}
destStep2 = destIfFalse
goto __21
__20:
destStep2 = libc.AssignInt32(&destStep6, Xsqlite3VdbeMakeLabel(tls, pParse))
__21:
;
i = 0
__22:
if !(i < nVector) {
goto __24
}
p = Xsqlite3VectorFieldSubexpr(tls, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, i)
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __25
}
goto sqlite3ExprCodeIN_oom_error
__25:
;
if !(Xsqlite3ExprCanBeNull(tls, p) != 0) {
goto __26
}
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, rLhs+i, destStep2)
__26:
;
goto __23
__23:
i++
goto __22
goto __24
__24:
;
if !(eType == IN_INDEX_ROWID) {
goto __27
}
Xsqlite3VdbeAddOp3(tls, v, OP_SeekRowid, *(*int32)(unsafe.Pointer(bp + 4)), destIfFalse, rLhs)
addrTruthOp = Xsqlite3VdbeAddOp0(tls, v, OP_Goto)
goto __28
__27:
Xsqlite3VdbeAddOp4(tls, v, OP_Affinity, rLhs, nVector, 0, zAff, nVector)
if !(destIfFalse == destIfNull) {
goto __29
}
Xsqlite3VdbeAddOp4Int(tls, v, OP_NotFound, *(*int32)(unsafe.Pointer(bp + 4)), destIfFalse,
rLhs, nVector)
goto sqlite3ExprCodeIN_finished
__29:
;
addrTruthOp = Xsqlite3VdbeAddOp4Int(tls, v, OP_Found, *(*int32)(unsafe.Pointer(bp + 4)), 0,
rLhs, nVector)
__28:
;
if !(*(*int32)(unsafe.Pointer(bp)) != 0 && nVector == 1) {
goto __30
}
Xsqlite3VdbeAddOp2(tls, v, OP_NotNull, *(*int32)(unsafe.Pointer(bp)), destIfFalse)
__30:
;
if !(destIfFalse == destIfNull) {
goto __31
}
Xsqlite3VdbeGoto(tls, v, destIfFalse)
__31:
;
if !(destStep6 != 0) {
goto __32
}
Xsqlite3VdbeResolveLabel(tls, v, destStep6)
__32:
;
addrTop = Xsqlite3VdbeAddOp2(tls, v, OP_Rewind, *(*int32)(unsafe.Pointer(bp + 4)), destIfFalse)
if !(nVector > 1) {
goto __33
}
destNotNull = Xsqlite3VdbeMakeLabel(tls, pParse)
goto __34
__33:
destNotNull = destIfFalse
__34:
;
i = 0
__35:
if !(i < nVector) {
goto __37
}
r3 = Xsqlite3GetTempReg(tls, pParse)
p1 = Xsqlite3VectorFieldSubexpr(tls, pLeft, i)
pColl1 = Xsqlite3ExprCollSeq(tls, pParse, p1)
Xsqlite3VdbeAddOp3(tls, v, OP_Column, *(*int32)(unsafe.Pointer(bp + 4)), i, r3)
Xsqlite3VdbeAddOp4(tls, v, OP_Ne, rLhs+i, destNotNull, r3,
pColl1, -2)
Xsqlite3ReleaseTempReg(tls, pParse, r3)
goto __36
__36:
i++
goto __35
goto __37
__37:
;
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, destIfNull)
if !(nVector > 1) {
goto __38
}
Xsqlite3VdbeResolveLabel(tls, v, destNotNull)
Xsqlite3VdbeAddOp2(tls, v, OP_Next, *(*int32)(unsafe.Pointer(bp + 4)), addrTop+1)
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, destIfFalse)
__38:
;
Xsqlite3VdbeJumpHere(tls, v, addrTruthOp)
sqlite3ExprCodeIN_finished:
if !(rLhs != rLhsOrig) {
goto __39
}
Xsqlite3ReleaseTempReg(tls, pParse, rLhs)
__39:
;
sqlite3ExprCodeIN_oom_error:
Xsqlite3DbFree(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, aiMap)
Xsqlite3DbFree(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, zAff)
}
func codeReal(tls *libc.TLS, v uintptr, z uintptr, negateFlag int32, iMem int32) {
bp := tls.Alloc(8)
defer tls.Free(8)
if z != uintptr(0) {
Xsqlite3AtoF(tls, z, bp, Xsqlite3Strlen30(tls, z), uint8(SQLITE_UTF8))
if negateFlag != 0 {
*(*float64)(unsafe.Pointer(bp)) = -*(*float64)(unsafe.Pointer(bp))
}
Xsqlite3VdbeAddOp4Dup8(tls, v, OP_Real, 0, iMem, 0, bp, -12)
}
}
func codeInteger(tls *libc.TLS, pParse uintptr, pExpr uintptr, negFlag int32, iMem int32) {
bp := tls.Alloc(24)
defer tls.Free(24)
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_IntValue) != 0 {
var i int32 = *(*int32)(unsafe.Pointer(pExpr + 8))
if negFlag != 0 {
i = -i
}
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, i, iMem)
} else {
var c int32
var z uintptr = *(*uintptr)(unsafe.Pointer(pExpr + 8))
c = Xsqlite3DecOrHexToI64(tls, z, bp+16)
if c == 3 && !(negFlag != 0) || c == 2 || negFlag != 0 && *(*I64)(unsafe.Pointer(bp + 16)) == int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32) {
if Xsqlite3_strnicmp(tls, z, ts+8343, 2) == 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+8346,
libc.VaList(bp, func() uintptr {
if negFlag != 0 {
return ts + 5335
}
return ts + 1547
}(), pExpr))
} else {
codeReal(tls, v, z, negFlag, iMem)
}
} else {
if negFlag != 0 {
if c == 3 {
*(*I64)(unsafe.Pointer(bp + 16)) = int64(-1) - (int64(0xffffffff) | int64(0x7fffffff)<<32)
} else {
*(*I64)(unsafe.Pointer(bp + 16)) = -*(*I64)(unsafe.Pointer(bp + 16))
}
}
Xsqlite3VdbeAddOp4Dup8(tls, v, OP_Int64, 0, iMem, 0, bp+16, -13)
}
}
}
// Generate code that will load into register regOut a value that is
// appropriate for the iIdxCol-th column of index pIdx.
func Xsqlite3ExprCodeLoadIndexColumn(tls *libc.TLS, pParse uintptr, pIdx uintptr, iTabCur int32, iIdxCol int32, regOut int32) {
var iTabCol I16 = *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(iIdxCol)*2))
if int32(iTabCol) == -2 {
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = iTabCur + 1
Xsqlite3ExprCodeCopy(tls, pParse, (*ExprList_item)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaColExpr+8+uintptr(iIdxCol)*32)).FpExpr, regOut)
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = 0
} else {
Xsqlite3ExprCodeGetColumnOfTable(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, (*Index)(unsafe.Pointer(pIdx)).FpTable, iTabCur,
int32(iTabCol), regOut)
}
}
// Generate code that will compute the value of generated column pCol
// and store the result in register regOut
func Xsqlite3ExprCodeGeneratedColumn(tls *libc.TLS, pParse uintptr, pTab uintptr, pCol uintptr, regOut int32) {
var iAddr int32
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
if (*Parse)(unsafe.Pointer(pParse)).FiSelfTab > 0 {
iAddr = Xsqlite3VdbeAddOp3(tls, v, OP_IfNullRow, (*Parse)(unsafe.Pointer(pParse)).FiSelfTab-1, 0, regOut)
} else {
iAddr = 0
}
Xsqlite3ExprCodeCopy(tls, pParse, Xsqlite3ColumnExpr(tls, pTab, pCol), regOut)
if int32((*Column)(unsafe.Pointer(pCol)).Faffinity) >= SQLITE_AFF_TEXT {
Xsqlite3VdbeAddOp4(tls, v, OP_Affinity, regOut, 1, 0, pCol+10, 1)
}
if iAddr != 0 {
Xsqlite3VdbeJumpHere(tls, v, iAddr)
}
}
// Generate code to extract the value of the iCol-th column of a table.
func Xsqlite3ExprCodeGetColumnOfTable(tls *libc.TLS, v uintptr, pTab uintptr, iTabCur int32, iCol int32, regOut int32) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pCol uintptr
if iCol < 0 || iCol == int32((*Table)(unsafe.Pointer(pTab)).FiPKey) {
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, iTabCur, regOut)
} else {
var op int32
var x int32
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB {
op = OP_VColumn
x = iCol
} else if int32((*Column)(unsafe.Pointer(libc.AssignUintptr(&pCol, (*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(iCol)*24))).FcolFlags)&COLFLAG_VIRTUAL != 0 {
var pParse uintptr = Xsqlite3VdbeParser(tls, v)
if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_BUSY != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+8373,
libc.VaList(bp, (*Column)(unsafe.Pointer(pCol)).FzCnName))
} else {
var savedSelfTab int32 = (*Parse)(unsafe.Pointer(pParse)).FiSelfTab
*(*U16)(unsafe.Pointer(pCol + 16)) |= U16(COLFLAG_BUSY)
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = iTabCur + 1
Xsqlite3ExprCodeGeneratedColumn(tls, pParse, pTab, pCol, regOut)
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = savedSelfTab
*(*U16)(unsafe.Pointer(pCol + 16)) &= libc.Uint16FromInt32(libc.CplInt32(COLFLAG_BUSY))
}
return
} else if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
x = int32(Xsqlite3TableColumnToIndex(tls, Xsqlite3PrimaryKeyIndex(tls, pTab), int16(iCol)))
op = OP_Column
} else {
x = int32(Xsqlite3TableColumnToStorage(tls, pTab, int16(iCol)))
op = OP_Column
}
Xsqlite3VdbeAddOp3(tls, v, op, iTabCur, x, regOut)
Xsqlite3ColumnDefault(tls, v, pTab, iCol, regOut)
}
}
// Generate code that will extract the iColumn-th column from
// table pTab and store the column value in register iReg.
//
// There must be an open cursor to pTab in iTable when this routine
// is called. If iColumn<0 then code is generated that extracts the rowid.
func Xsqlite3ExprCodeGetColumn(tls *libc.TLS, pParse uintptr, pTab uintptr, iColumn int32, iTable int32, iReg int32, p5 U8) int32 {
Xsqlite3ExprCodeGetColumnOfTable(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, pTab, iTable, iColumn, iReg)
if p5 != 0 {
var pOp uintptr = Xsqlite3VdbeGetLastOp(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe)
if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_Column {
(*VdbeOp)(unsafe.Pointer(pOp)).Fp5 = U16(p5)
}
}
return iReg
}
// Generate code to move content from registers iFrom...iFrom+nReg-1
// over to iTo..iTo+nReg-1.
func Xsqlite3ExprCodeMove(tls *libc.TLS, pParse uintptr, iFrom int32, iTo int32, nReg int32) {
Xsqlite3VdbeAddOp3(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, OP_Move, iFrom, iTo, nReg)
}
func exprToRegister(tls *libc.TLS, pExpr uintptr, iReg int32) {
var p uintptr = Xsqlite3ExprSkipCollateAndLikely(tls, pExpr)
if p == uintptr(0) {
return
}
(*Expr)(unsafe.Pointer(p)).Fop2 = (*Expr)(unsafe.Pointer(p)).Fop
(*Expr)(unsafe.Pointer(p)).Fop = U8(TK_REGISTER)
(*Expr)(unsafe.Pointer(p)).FiTable = iReg
*(*U32)(unsafe.Pointer(p + 4)) &= libc.Uint32FromInt32(libc.CplInt32(EP_Skip))
}
func exprCodeVector(tls *libc.TLS, pParse uintptr, p uintptr, piFreeable uintptr) int32 {
var iResult int32
var nResult int32 = Xsqlite3ExprVectorSize(tls, p)
if nResult == 1 {
iResult = Xsqlite3ExprCodeTemp(tls, pParse, p, piFreeable)
} else {
*(*int32)(unsafe.Pointer(piFreeable)) = 0
if int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_SELECT {
iResult = Xsqlite3CodeSubselect(tls, pParse, p)
} else {
var i int32
iResult = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nResult
for i = 0; i < nResult; i++ {
Xsqlite3ExprCodeFactorable(tls, pParse, (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 32))+8+uintptr(i)*32)).FpExpr, i+iResult)
}
}
}
return iResult
}
func setDoNotMergeFlagOnCopy(tls *libc.TLS, v uintptr) {
if int32((*VdbeOp)(unsafe.Pointer(Xsqlite3VdbeGetLastOp(tls, v))).Fopcode) == OP_Copy {
Xsqlite3VdbeChangeP5(tls, v, uint16(1))
}
}
func exprCodeInlineFunction(tls *libc.TLS, pParse uintptr, pFarg uintptr, iFuncId int32, target int32) int32 {
bp := tls.Alloc(120)
defer tls.Free(120)
var nFarg int32
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
nFarg = (*ExprList)(unsafe.Pointer(pFarg)).FnExpr
switch iFuncId {
case INLINEFUNC_coalesce:
{
var endCoalesce int32 = Xsqlite3VdbeMakeLabel(tls, pParse)
var i int32
Xsqlite3ExprCode(tls, pParse, (*ExprList_item)(unsafe.Pointer(pFarg+8)).FpExpr, target)
for i = 1; i < nFarg; i++ {
Xsqlite3VdbeAddOp2(tls, v, OP_NotNull, target, endCoalesce)
Xsqlite3ExprCode(tls, pParse, (*ExprList_item)(unsafe.Pointer(pFarg+8+uintptr(i)*32)).FpExpr, target)
}
setDoNotMergeFlagOnCopy(tls, v)
Xsqlite3VdbeResolveLabel(tls, v, endCoalesce)
break
}
case INLINEFUNC_iif:
{
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Expr{})), libc.X__builtin_object_size(tls, bp, 0))
(*Expr)(unsafe.Pointer(bp)).Fop = U8(TK_CASE)
*(*uintptr)(unsafe.Pointer(bp + 32)) = pFarg
return Xsqlite3ExprCodeTarget(tls, pParse, bp, target)
}
case INLINEFUNC_sqlite_offset:
{
var pArg uintptr = (*ExprList_item)(unsafe.Pointer(pFarg + 8)).FpExpr
if int32((*Expr)(unsafe.Pointer(pArg)).Fop) == TK_COLUMN && (*Expr)(unsafe.Pointer(pArg)).FiTable >= 0 {
Xsqlite3VdbeAddOp3(tls, v, OP_Offset, (*Expr)(unsafe.Pointer(pArg)).FiTable, int32((*Expr)(unsafe.Pointer(pArg)).FiColumn), target)
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, target)
}
break
}
default:
{
target = Xsqlite3ExprCodeTarget(tls, pParse, (*ExprList_item)(unsafe.Pointer(pFarg+8)).FpExpr, target)
break
}
case INLINEFUNC_expr_compare:
{
Xsqlite3VdbeAddOp2(tls, v, OP_Integer,
Xsqlite3ExprCompare(tls, uintptr(0), (*ExprList_item)(unsafe.Pointer(pFarg+8)).FpExpr, (*ExprList_item)(unsafe.Pointer(pFarg+8+1*32)).FpExpr, -1),
target)
break
}
case INLINEFUNC_expr_implies_expr:
{
Xsqlite3VdbeAddOp2(tls, v, OP_Integer,
Xsqlite3ExprImpliesExpr(tls, pParse, (*ExprList_item)(unsafe.Pointer(pFarg+8)).FpExpr, (*ExprList_item)(unsafe.Pointer(pFarg+8+1*32)).FpExpr, -1),
target)
break
}
case INLINEFUNC_implies_nonnull_row:
{
var pA1 uintptr
pA1 = (*ExprList_item)(unsafe.Pointer(pFarg + 8 + 1*32)).FpExpr
if int32((*Expr)(unsafe.Pointer(pA1)).Fop) == TK_COLUMN {
Xsqlite3VdbeAddOp2(tls, v, OP_Integer,
Xsqlite3ExprImpliesNonNullRow(tls, (*ExprList_item)(unsafe.Pointer(pFarg+8)).FpExpr, (*Expr)(unsafe.Pointer(pA1)).FiTable),
target)
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, target)
}
break
}
case INLINEFUNC_affinity:
{
*(*[6]uintptr)(unsafe.Pointer(bp + 72)) = [6]uintptr{ts + 8403, ts + 8408, ts + 8413, ts + 6594,
ts + 6589, ts + 8421}
var aff int8
aff = Xsqlite3ExprAffinity(tls, (*ExprList_item)(unsafe.Pointer(pFarg+8)).FpExpr)
Xsqlite3VdbeLoadString(tls, v, target,
func() uintptr {
if int32(aff) <= SQLITE_AFF_NONE {
return ts + 8429
}
return *(*uintptr)(unsafe.Pointer(bp + 72 + uintptr(int32(aff)-SQLITE_AFF_BLOB)*8))
}())
break
}
}
return target
}
func sqlite3IndexedExprLookup(tls *libc.TLS, pParse uintptr, pExpr uintptr, target int32) int32 {
var p uintptr
var v uintptr
for p = (*Parse)(unsafe.Pointer(pParse)).FpIdxEpr; p != 0; p = (*IndexedExpr)(unsafe.Pointer(p)).FpIENext {
var iDataCur int32 = (*IndexedExpr)(unsafe.Pointer(p)).FiDataCur
if iDataCur < 0 {
continue
}
if (*Parse)(unsafe.Pointer(pParse)).FiSelfTab != 0 {
if (*IndexedExpr)(unsafe.Pointer(p)).FiDataCur != (*Parse)(unsafe.Pointer(pParse)).FiSelfTab-1 {
continue
}
iDataCur = -1
}
if Xsqlite3ExprCompare(tls, uintptr(0), pExpr, (*IndexedExpr)(unsafe.Pointer(p)).FpExpr, iDataCur) != 0 {
continue
}
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
if (*IndexedExpr)(unsafe.Pointer(p)).FbMaybeNullRow != 0 {
var addr int32 = Xsqlite3VdbeCurrentAddr(tls, v)
Xsqlite3VdbeAddOp3(tls, v, OP_IfNullRow, (*IndexedExpr)(unsafe.Pointer(p)).FiIdxCur, addr+3, target)
Xsqlite3VdbeAddOp3(tls, v, OP_Column, (*IndexedExpr)(unsafe.Pointer(p)).FiIdxCur, (*IndexedExpr)(unsafe.Pointer(p)).FiIdxCol, target)
Xsqlite3VdbeGoto(tls, v, 0)
p = (*Parse)(unsafe.Pointer(pParse)).FpIdxEpr
(*Parse)(unsafe.Pointer(pParse)).FpIdxEpr = uintptr(0)
Xsqlite3ExprCode(tls, pParse, pExpr, target)
(*Parse)(unsafe.Pointer(pParse)).FpIdxEpr = p
Xsqlite3VdbeJumpHere(tls, v, addr+2)
} else {
Xsqlite3VdbeAddOp3(tls, v, OP_Column, (*IndexedExpr)(unsafe.Pointer(p)).FiIdxCur, (*IndexedExpr)(unsafe.Pointer(p)).FiIdxCol, target)
}
return target
}
return -1
}
// Generate code into the current Vdbe to evaluate the given
// expression. Attempt to store the results in register "target".
// Return the register where results are stored.
//
// With this routine, there is no guarantee that results will
// be stored in target. The result might be stored in some other
// register if it is convenient to do so. The calling function
// must check the return code and move the results to the desired
// register.
func Xsqlite3ExprCodeTarget(tls *libc.TLS, pParse uintptr, pExpr uintptr, target int32) int32 {
bp := tls.Alloc(192)
defer tls.Free(192)
var v uintptr
var op int32
var inReg int32
var r1 int32
var r2 int32
var p5 int32
var pTab uintptr
var pAggInfo uintptr
var pCol uintptr
var aff int32
var pCol1 uintptr
var pTab1 uintptr
var iSrc int32
var iCol int32
var iTab int32
var iReg int32
var n int32
var z uintptr
var zBlob uintptr
var z1 uintptr
var pLeft uintptr
var pLeft1 uintptr
var isTrue int32
var bNormal int32
var addr int32
var pInfo uintptr
var exprOp U8
var pFarg uintptr
var nFarg int32
var pDef uintptr
var zId uintptr
var constMask U32
var i int32
var db uintptr
var enc U8
var pColl uintptr
var nCol int32
var n1 int32
var pLeft2 uintptr
var destIfFalse int32
var destIfNull int32
var pTab2 uintptr
var iCol1 int32
var p1 int32
var addrINR int32
var okConstFactor U8
var pAggInfo1 uintptr
var endLabel int32
var nextCase int32
var nExpr int32
var i1 int32
var pEList uintptr
var aListelem uintptr
var pX uintptr
var pTest uintptr
var pDel uintptr
var db1 uintptr
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
inReg = target
*(*int32)(unsafe.Pointer(bp + 40)) = 0
*(*int32)(unsafe.Pointer(bp + 44)) = 0
p5 = 0
expr_code_doover:
if !(pExpr == uintptr(0)) {
goto __1
}
op = TK_NULL
goto __2
__1:
if !((*Parse)(unsafe.Pointer(pParse)).FpIdxEpr != uintptr(0) &&
!((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Leaf) != U32(0)) &&
libc.AssignInt32(&r1, sqlite3IndexedExprLookup(tls, pParse, pExpr, target)) >= 0) {
goto __3
}
return r1
goto __4
__3:
;
op = int32((*Expr)(unsafe.Pointer(pExpr)).Fop)
__4:
;
__2:
;
switch op {
case TK_AGG_COLUMN:
goto __6
case TK_COLUMN:
goto __7
case TK_INTEGER:
goto __8
case TK_TRUEFALSE:
goto __9
case TK_FLOAT:
goto __10
case TK_STRING:
goto __11
default:
goto __12
case TK_BLOB:
goto __13
case TK_VARIABLE:
goto __14
case TK_REGISTER:
goto __15
case TK_CAST:
goto __16
case TK_IS:
goto __17
case TK_ISNOT:
goto __18
case TK_LT:
goto __19
case TK_LE:
goto __20
case TK_GT:
goto __21
case TK_GE:
goto __22
case TK_NE:
goto __23
case TK_EQ:
goto __24
case TK_AND:
goto __25
case TK_OR:
goto __26
case TK_PLUS:
goto __27
case TK_STAR:
goto __28
case TK_MINUS:
goto __29
case TK_REM:
goto __30
case TK_BITAND:
goto __31
case TK_BITOR:
goto __32
case TK_SLASH:
goto __33
case TK_LSHIFT:
goto __34
case TK_RSHIFT:
goto __35
case TK_CONCAT:
goto __36
case TK_UMINUS:
goto __37
case TK_BITNOT:
goto __38
case TK_NOT:
goto __39
case TK_TRUTH:
goto __40
case TK_ISNULL:
goto __41
case TK_NOTNULL:
goto __42
case TK_AGG_FUNCTION:
goto __43
case TK_FUNCTION:
goto __44
case TK_EXISTS:
goto __45
case TK_SELECT:
goto __46
case TK_SELECT_COLUMN:
goto __47
case TK_IN:
goto __48
case TK_BETWEEN:
goto __49
case TK_COLLATE:
goto __50
case TK_SPAN:
goto __51
case TK_UPLUS:
goto __52
case TK_TRIGGER:
goto __53
case TK_VECTOR:
goto __54
case TK_IF_NULL_ROW:
goto __55
case TK_CASE:
goto __56
case TK_RAISE:
goto __57
}
goto __5
__6:
pAggInfo = (*Expr)(unsafe.Pointer(pExpr)).FpAggInfo
pCol = (*AggInfo)(unsafe.Pointer(pAggInfo)).FaCol + uintptr((*Expr)(unsafe.Pointer(pExpr)).FiAgg)*24
if !!(int32((*AggInfo)(unsafe.Pointer(pAggInfo)).FdirectMode) != 0) {
goto __58
}
return func() int32 {
return (*AggInfo)(unsafe.Pointer(pAggInfo)).FiFirstReg + int32((*Expr)(unsafe.Pointer(pExpr)).FiAgg)
}()
goto __59
__58:
if !((*AggInfo)(unsafe.Pointer(pAggInfo)).FuseSortingIdx != 0) {
goto __60
}
pTab = (*AggInfo_col)(unsafe.Pointer(pCol)).FpTab
Xsqlite3VdbeAddOp3(tls, v, OP_Column, (*AggInfo)(unsafe.Pointer(pAggInfo)).FsortingIdxPTab,
int32((*AggInfo_col)(unsafe.Pointer(pCol)).FiSorterColumn), target)
if !(pTab == uintptr(0)) {
goto __62
}
goto __63
__62:
if !(int32((*AggInfo_col)(unsafe.Pointer(pCol)).FiColumn) < 0) {
goto __64
}
goto __65
__64:
;
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr((*AggInfo_col)(unsafe.Pointer(pCol)).FiColumn)*24)).Faffinity) == SQLITE_AFF_REAL) {
goto __66
}
Xsqlite3VdbeAddOp1(tls, v, OP_RealAffinity, target)
__66:
;
__65:
;
__63:
;
return target
goto __61
__60:
if !(*(*uintptr)(unsafe.Pointer(pExpr + 64)) == uintptr(0)) {
goto __67
}
Xsqlite3VdbeAddOp3(tls, v, OP_Column, (*Expr)(unsafe.Pointer(pExpr)).FiTable, int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn), target)
return target
__67:
;
__61:
;
__59:
;
__7:
iTab = (*Expr)(unsafe.Pointer(pExpr)).FiTable
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_FixedCol) != U32(0)) {
goto __68
}
iReg = Xsqlite3ExprCodeTarget(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, target)
aff = int32(Xsqlite3TableColumnAffinity(tls, *(*uintptr)(unsafe.Pointer(pExpr + 64)), int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn)))
if !(aff > SQLITE_AFF_BLOB) {
goto __69
}
Xsqlite3VdbeAddOp4(tls, v, OP_Affinity, iReg, 1, 0,
uintptr(unsafe.Pointer(&zAff))+uintptr((aff-'B')*2), -1)
__69:
;
return iReg
__68:
;
if !(iTab < 0) {
goto __70
}
if !((*Parse)(unsafe.Pointer(pParse)).FiSelfTab < 0) {
goto __71
}
iCol = int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn)
pTab1 = *(*uintptr)(unsafe.Pointer(pExpr + 64))
if !(iCol < 0) {
goto __73
}
return -1 - (*Parse)(unsafe.Pointer(pParse)).FiSelfTab
__73:
;
pCol1 = (*Table)(unsafe.Pointer(pTab1)).FaCol + uintptr(iCol)*24
iSrc = int32(Xsqlite3TableColumnToStorage(tls, pTab1, int16(iCol))) - (*Parse)(unsafe.Pointer(pParse)).FiSelfTab
if !(int32((*Column)(unsafe.Pointer(pCol1)).FcolFlags)&COLFLAG_GENERATED != 0) {
goto __74
}
if !(int32((*Column)(unsafe.Pointer(pCol1)).FcolFlags)&COLFLAG_BUSY != 0) {
goto __76
}
Xsqlite3ErrorMsg(tls, pParse, ts+8373,
libc.VaList(bp, (*Column)(unsafe.Pointer(pCol1)).FzCnName))
return 0
__76:
;
*(*U16)(unsafe.Pointer(pCol1 + 16)) |= U16(COLFLAG_BUSY)
if !(int32((*Column)(unsafe.Pointer(pCol1)).FcolFlags)&COLFLAG_NOTAVAIL != 0) {
goto __77
}
Xsqlite3ExprCodeGeneratedColumn(tls, pParse, pTab1, pCol1, iSrc)
__77:
;
*(*U16)(unsafe.Pointer(pCol1 + 16)) &= libc.Uint16FromInt32(libc.CplInt32(COLFLAG_BUSY | COLFLAG_NOTAVAIL))
return iSrc
goto __75
__74:
if !(int32((*Column)(unsafe.Pointer(pCol1)).Faffinity) == SQLITE_AFF_REAL) {
goto __78
}
Xsqlite3VdbeAddOp2(tls, v, OP_SCopy, iSrc, target)
Xsqlite3VdbeAddOp1(tls, v, OP_RealAffinity, target)
return target
goto __79
__78:
return iSrc
__79:
;
__75:
;
goto __72
__71:
iTab = (*Parse)(unsafe.Pointer(pParse)).FiSelfTab - 1
__72:
;
__70:
;
iReg = Xsqlite3ExprCodeGetColumn(tls, pParse, *(*uintptr)(unsafe.Pointer(pExpr + 64)),
int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn), iTab, target,
(*Expr)(unsafe.Pointer(pExpr)).Fop2)
return iReg
__8:
codeInteger(tls, pParse, pExpr, 0, target)
return target
__9:
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, Xsqlite3ExprTruthValue(tls, pExpr), target)
return target
__10:
;
codeReal(tls, v, *(*uintptr)(unsafe.Pointer(pExpr + 8)), 0, target)
return target
__11:
;
Xsqlite3VdbeLoadString(tls, v, target, *(*uintptr)(unsafe.Pointer(pExpr + 8)))
return target
__12:
;
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, target)
return target
__13:
;
z = *(*uintptr)(unsafe.Pointer(pExpr + 8)) + 2
n = Xsqlite3Strlen30(tls, z) - 1
zBlob = Xsqlite3HexToBlob(tls, Xsqlite3VdbeDb(tls, v), z, n)
Xsqlite3VdbeAddOp4(tls, v, OP_Blob, n/2, target, 0, zBlob, -6)
return target
__14:
;
Xsqlite3VdbeAddOp2(tls, v, OP_Variable, int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn), target)
if !(int32(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 8)) + 1))) != 0) {
goto __80
}
z1 = Xsqlite3VListNumToName(tls, (*Parse)(unsafe.Pointer(pParse)).FpVList, int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn))
*(*VList)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).FpVList)) = 0
Xsqlite3VdbeAppendP4(tls, v, z1, -1)
__80:
;
return target
__15:
return (*Expr)(unsafe.Pointer(pExpr)).FiTable
__16:
inReg = Xsqlite3ExprCodeTarget(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, target)
if !(inReg != target) {
goto __81
}
Xsqlite3VdbeAddOp2(tls, v, OP_SCopy, inReg, target)
inReg = target
__81:
;
Xsqlite3VdbeAddOp2(tls, v, OP_Cast, target,
int32(Xsqlite3AffinityType(tls, *(*uintptr)(unsafe.Pointer(pExpr + 8)), uintptr(0))))
return inReg
__17:
__18:
if op == TK_IS {
op = TK_EQ
} else {
op = TK_NE
}
p5 = SQLITE_NULLEQ
__19:
__20:
__21:
__22:
__23:
__24:
pLeft = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
if !(Xsqlite3ExprIsVector(tls, pLeft) != 0) {
goto __82
}
codeVectorCompare(tls, pParse, pExpr, target, uint8(op), uint8(p5))
goto __83
__82:
r1 = Xsqlite3ExprCodeTemp(tls, pParse, pLeft, bp+40)
r2 = Xsqlite3ExprCodeTemp(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpRight, bp+44)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, inReg)
codeCompare(tls, pParse, pLeft, (*Expr)(unsafe.Pointer(pExpr)).FpRight, op, r1, r2,
Xsqlite3VdbeCurrentAddr(tls, v)+2, p5,
libc.Bool32((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Commuted) != U32(0)))
if !(p5 == SQLITE_NULLEQ) {
goto __84
}
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, inReg)
goto __85
__84:
Xsqlite3VdbeAddOp3(tls, v, OP_ZeroOrNull, r1, inReg, r2)
__85:
;
__83:
;
goto __5
__25:
__26:
__27:
__28:
__29:
__30:
__31:
__32:
__33:
__34:
__35:
__36:
;
r1 = Xsqlite3ExprCodeTemp(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, bp+40)
r2 = Xsqlite3ExprCodeTemp(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpRight, bp+44)
Xsqlite3VdbeAddOp3(tls, v, op, r2, r1, target)
goto __5
__37:
pLeft1 = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
if !(int32((*Expr)(unsafe.Pointer(pLeft1)).Fop) == TK_INTEGER) {
goto __86
}
codeInteger(tls, pParse, pLeft1, 1, target)
return target
goto __87
__86:
if !(int32((*Expr)(unsafe.Pointer(pLeft1)).Fop) == TK_FLOAT) {
goto __88
}
codeReal(tls, v, *(*uintptr)(unsafe.Pointer(pLeft1 + 8)), 1, target)
return target
goto __89
__88:
(*Expr)(unsafe.Pointer(bp + 48)).Fop = U8(TK_INTEGER)
(*Expr)(unsafe.Pointer(bp + 48)).Fflags = U32(EP_IntValue | EP_TokenOnly)
*(*int32)(unsafe.Pointer(bp + 48 + 8)) = 0
r1 = Xsqlite3ExprCodeTemp(tls, pParse, bp+48, bp+40)
r2 = Xsqlite3ExprCodeTemp(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, bp+44)
Xsqlite3VdbeAddOp3(tls, v, OP_Subtract, r2, r1, target)
__89:
;
__87:
;
goto __5
__38:
__39:
;
r1 = Xsqlite3ExprCodeTemp(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, bp+40)
Xsqlite3VdbeAddOp2(tls, v, op, r1, inReg)
goto __5
__40:
r1 = Xsqlite3ExprCodeTemp(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, bp+40)
isTrue = Xsqlite3ExprTruthValue(tls, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
bNormal = libc.Bool32(int32((*Expr)(unsafe.Pointer(pExpr)).Fop2) == TK_IS)
Xsqlite3VdbeAddOp4Int(tls, v, OP_IsTrue, r1, inReg, libc.BoolInt32(!(isTrue != 0)), isTrue^bNormal)
goto __5
__41:
__42:
;
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, target)
r1 = Xsqlite3ExprCodeTemp(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, bp+40)
addr = Xsqlite3VdbeAddOp1(tls, v, op, r1)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, target)
Xsqlite3VdbeJumpHere(tls, v, addr)
goto __5
__43:
pInfo = (*Expr)(unsafe.Pointer(pExpr)).FpAggInfo
if !(pInfo == uintptr(0) ||
int32((*Expr)(unsafe.Pointer(pExpr)).FiAgg) < 0 ||
int32((*Expr)(unsafe.Pointer(pExpr)).FiAgg) >= (*AggInfo)(unsafe.Pointer(pInfo)).FnFunc) {
goto __90
}
Xsqlite3ErrorMsg(tls, pParse, ts+8434, libc.VaList(bp+8, pExpr))
goto __91
__90:
return func() int32 {
return (*AggInfo)(unsafe.Pointer(pInfo)).FiFirstReg + (*AggInfo)(unsafe.Pointer(pInfo)).FnColumn + int32((*Expr)(unsafe.Pointer(pExpr)).FiAgg)
}()
__91:
;
goto __5
__44:
constMask = U32(0)
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
enc = (*Sqlite3)(unsafe.Pointer(db)).Fenc
pColl = uintptr(0)
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc) != U32(0)) {
goto __92
}
return (*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 64)))).FregResult
__92:
;
if !((*Parse)(unsafe.Pointer(pParse)).FokConstFactor != 0 && Xsqlite3ExprIsConstantNotJoin(tls, pExpr) != 0) {
goto __93
}
return Xsqlite3ExprCodeRunJustOnce(tls, pParse, pExpr, -1)
__93:
;
pFarg = *(*uintptr)(unsafe.Pointer(pExpr + 32))
if pFarg != 0 {
nFarg = (*ExprList)(unsafe.Pointer(pFarg)).FnExpr
} else {
nFarg = 0
}
zId = *(*uintptr)(unsafe.Pointer(pExpr + 8))
pDef = Xsqlite3FindFunction(tls, db, zId, nFarg, enc, uint8(0))
if !(pDef == uintptr(0) || (*FuncDef)(unsafe.Pointer(pDef)).FxFinalize != uintptr(0)) {
goto __94
}
Xsqlite3ErrorMsg(tls, pParse, ts+8461, libc.VaList(bp+16, pExpr))
goto __5
__94:
;
if !((*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_INLINE) != 0) {
goto __95
}
return exprCodeInlineFunction(tls, pParse, pFarg,
int32((*FuncDef)(unsafe.Pointer(pDef)).FpUserData), target)
goto __96
__95:
if !((*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_DIRECT|SQLITE_FUNC_UNSAFE) != 0) {
goto __97
}
Xsqlite3ExprFunctionUsable(tls, pParse, pExpr, pDef)
__97:
;
__96:
;
i = 0
__98:
if !(i < nFarg) {
goto __100
}
if !(i < 32 && Xsqlite3ExprIsConstant(tls, (*ExprList_item)(unsafe.Pointer(pFarg+8+uintptr(i)*32)).FpExpr) != 0) {
goto __101
}
constMask = constMask | uint32(1)<<i
__101:
;
if !((*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_NEEDCOLL) != U32(0) && !(pColl != 0)) {
goto __102
}
pColl = Xsqlite3ExprCollSeq(tls, pParse, (*ExprList_item)(unsafe.Pointer(pFarg+8+uintptr(i)*32)).FpExpr)
__102:
;
goto __99
__99:
i++
goto __98
goto __100
__100:
;
if !(pFarg != 0) {
goto __103
}
if !(constMask != 0) {
goto __105
}
r1 = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nFarg
goto __106
__105:
r1 = Xsqlite3GetTempRange(tls, pParse, nFarg)
__106:
;
if !((*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_LENGTH|SQLITE_FUNC_TYPEOF) != U32(0)) {
goto __107
}
exprOp = (*Expr)(unsafe.Pointer((*ExprList_item)(unsafe.Pointer(pFarg + 8)).FpExpr)).Fop
if !(int32(exprOp) == TK_COLUMN || int32(exprOp) == TK_AGG_COLUMN) {
goto __108
}
(*Expr)(unsafe.Pointer((*ExprList_item)(unsafe.Pointer(pFarg + 8)).FpExpr)).Fop2 = U8((*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags & U32(OPFLAG_LENGTHARG|OPFLAG_TYPEOFARG))
__108:
;
__107:
;
Xsqlite3ExprCodeExprList(tls, pParse, pFarg, r1, 0,
uint8(SQLITE_ECEL_DUP|SQLITE_ECEL_FACTOR))
goto __104
__103:
r1 = 0
__104:
;
if !(nFarg >= 2 && (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_InfixFunc) != U32(0)) {
goto __109
}
pDef = Xsqlite3VtabOverloadFunction(tls, db, pDef, nFarg, (*ExprList_item)(unsafe.Pointer(pFarg+8+1*32)).FpExpr)
goto __110
__109:
if !(nFarg > 0) {
goto __111
}
pDef = Xsqlite3VtabOverloadFunction(tls, db, pDef, nFarg, (*ExprList_item)(unsafe.Pointer(pFarg+8)).FpExpr)
__111:
;
__110:
;
if !((*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_NEEDCOLL) != 0) {
goto __112
}
if !!(pColl != 0) {
goto __113
}
pColl = (*Sqlite3)(unsafe.Pointer(db)).FpDfltColl
__113:
;
Xsqlite3VdbeAddOp4(tls, v, OP_CollSeq, 0, 0, 0, pColl, -2)
__112:
;
Xsqlite3VdbeAddFunctionCall(tls, pParse, int32(constMask), r1, target, nFarg,
pDef, int32((*Expr)(unsafe.Pointer(pExpr)).Fop2))
if !(nFarg != 0) {
goto __114
}
if !(constMask == U32(0)) {
goto __115
}
Xsqlite3ReleaseTempRange(tls, pParse, r1, nFarg)
goto __116
__115:
;
__116:
;
__114:
;
return target
__45:
__46:
;
if !((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed != 0) {
goto __117
}
return 0
goto __118
__117:
if !(op == TK_SELECT &&
(*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_xIsSelect) != U32(0) &&
libc.AssignInt32(&nCol, (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FpEList)).FnExpr) != 1) {
goto __119
}
Xsqlite3SubselectError(tls, pParse, nCol, 1)
goto __120
__119:
return Xsqlite3CodeSubselect(tls, pParse, pExpr)
__120:
;
__118:
;
goto __5
__47:
pLeft2 = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
if !((*Expr)(unsafe.Pointer(pLeft2)).FiTable == 0 || int32((*Parse)(unsafe.Pointer(pParse)).FwithinRJSubrtn) > int32((*Expr)(unsafe.Pointer(pLeft2)).Fop2)) {
goto __121
}
(*Expr)(unsafe.Pointer(pLeft2)).FiTable = Xsqlite3CodeSubselect(tls, pParse, pLeft2)
(*Expr)(unsafe.Pointer(pLeft2)).Fop2 = (*Parse)(unsafe.Pointer(pParse)).FwithinRJSubrtn
__121:
;
n1 = Xsqlite3ExprVectorSize(tls, pLeft2)
if !((*Expr)(unsafe.Pointer(pExpr)).FiTable != n1) {
goto __122
}
Xsqlite3ErrorMsg(tls, pParse, ts+8055,
libc.VaList(bp+24, (*Expr)(unsafe.Pointer(pExpr)).FiTable, n1))
__122:
;
return (*Expr)(unsafe.Pointer(pLeft2)).FiTable + int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn)
__48:
destIfFalse = Xsqlite3VdbeMakeLabel(tls, pParse)
destIfNull = Xsqlite3VdbeMakeLabel(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, target)
sqlite3ExprCodeIN(tls, pParse, pExpr, destIfFalse, destIfNull)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, target)
Xsqlite3VdbeResolveLabel(tls, v, destIfFalse)
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, target, 0)
Xsqlite3VdbeResolveLabel(tls, v, destIfNull)
return target
__49:
exprCodeBetween(tls, pParse, pExpr, target, uintptr(0), 0)
return target
__50:
if !(!((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Collate) != U32(0)) &&
(*Expr)(unsafe.Pointer(pExpr)).FpLeft != 0 &&
int32((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pExpr)).FpLeft)).Fop) == TK_FUNCTION) {
goto __123
}
inReg = Xsqlite3ExprCodeTarget(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, target)
if !(inReg != target) {
goto __125
}
Xsqlite3VdbeAddOp2(tls, v, OP_SCopy, inReg, target)
inReg = target
__125:
;
Xsqlite3VdbeAddOp1(tls, v, OP_ClrSubtype, inReg)
return inReg
goto __124
__123:
pExpr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
goto expr_code_doover
__124:
;
__51:
__52:
pExpr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
goto expr_code_doover
__53:
;
pTab2 = *(*uintptr)(unsafe.Pointer(pExpr + 64))
iCol1 = int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn)
p1 = (*Expr)(unsafe.Pointer(pExpr)).FiTable*(int32((*Table)(unsafe.Pointer(pTab2)).FnCol)+1) + 1 +
int32(Xsqlite3TableColumnToStorage(tls, pTab2, int16(iCol1)))
Xsqlite3VdbeAddOp2(tls, v, OP_Param, p1, target)
if !(iCol1 >= 0 && int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab2)).FaCol+uintptr(iCol1)*24)).Faffinity) == SQLITE_AFF_REAL) {
goto __126
}
Xsqlite3VdbeAddOp1(tls, v, OP_RealAffinity, target)
__126:
;
goto __5
__54:
Xsqlite3ErrorMsg(tls, pParse, ts+6936, 0)
goto __5
__55:
okConstFactor = (*Parse)(unsafe.Pointer(pParse)).FokConstFactor
pAggInfo1 = (*Expr)(unsafe.Pointer(pExpr)).FpAggInfo
if !(pAggInfo1 != 0) {
goto __127
}
if !!(int32((*AggInfo)(unsafe.Pointer(pAggInfo1)).FdirectMode) != 0) {
goto __128
}
inReg = func() int32 {
return (*AggInfo)(unsafe.Pointer(pAggInfo1)).FiFirstReg + int32((*Expr)(unsafe.Pointer(pExpr)).FiAgg)
}()
goto __5
__128:
;
if !((*AggInfo)(unsafe.Pointer((*Expr)(unsafe.Pointer(pExpr)).FpAggInfo)).FuseSortingIdx != 0) {
goto __129
}
Xsqlite3VdbeAddOp3(tls, v, OP_Column, (*AggInfo)(unsafe.Pointer(pAggInfo1)).FsortingIdxPTab,
int32((*AggInfo_col)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo1)).FaCol+uintptr((*Expr)(unsafe.Pointer(pExpr)).FiAgg)*24)).FiSorterColumn),
target)
inReg = target
goto __5
__129:
;
__127:
;
addrINR = Xsqlite3VdbeAddOp1(tls, v, OP_IfNullRow, (*Expr)(unsafe.Pointer(pExpr)).FiTable)
(*Parse)(unsafe.Pointer(pParse)).FokConstFactor = U8(0)
inReg = Xsqlite3ExprCodeTarget(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, target)
(*Parse)(unsafe.Pointer(pParse)).FokConstFactor = okConstFactor
Xsqlite3VdbeJumpHere(tls, v, addrINR)
Xsqlite3VdbeChangeP3(tls, v, addrINR, inReg)
goto __5
__56:
pTest = uintptr(0)
pDel = uintptr(0)
db1 = (*Parse)(unsafe.Pointer(pParse)).Fdb
pEList = *(*uintptr)(unsafe.Pointer(pExpr + 32))
aListelem = pEList + 8
nExpr = (*ExprList)(unsafe.Pointer(pEList)).FnExpr
endLabel = Xsqlite3VdbeMakeLabel(tls, pParse)
if !(libc.AssignUintptr(&pX, (*Expr)(unsafe.Pointer(pExpr)).FpLeft) != uintptr(0)) {
goto __130
}
pDel = Xsqlite3ExprDup(tls, db1, pX, 0)
if !((*Sqlite3)(unsafe.Pointer(db1)).FmallocFailed != 0) {
goto __131
}
Xsqlite3ExprDelete(tls, db1, pDel)
goto __5
__131:
;
exprToRegister(tls, pDel, exprCodeVector(tls, pParse, pDel, bp+40))
libc.X__builtin___memset_chk(tls, bp+120, 0, uint64(unsafe.Sizeof(Expr{})), libc.X__builtin_object_size(tls, bp+120, 0))
(*Expr)(unsafe.Pointer(bp + 120)).Fop = U8(TK_EQ)
(*Expr)(unsafe.Pointer(bp + 120)).FpLeft = pDel
pTest = bp + 120
*(*int32)(unsafe.Pointer(bp + 40)) = 0
__130:
;
i1 = 0
__132:
if !(i1 < nExpr-1) {
goto __134
}
if !(pX != 0) {
goto __135
}
(*Expr)(unsafe.Pointer(bp + 120)).FpRight = (*ExprList_item)(unsafe.Pointer(aListelem + uintptr(i1)*32)).FpExpr
goto __136
__135:
pTest = (*ExprList_item)(unsafe.Pointer(aListelem + uintptr(i1)*32)).FpExpr
__136:
;
nextCase = Xsqlite3VdbeMakeLabel(tls, pParse)
Xsqlite3ExprIfFalse(tls, pParse, pTest, nextCase, SQLITE_JUMPIFNULL)
Xsqlite3ExprCode(tls, pParse, (*ExprList_item)(unsafe.Pointer(aListelem+uintptr(i1+1)*32)).FpExpr, target)
Xsqlite3VdbeGoto(tls, v, endLabel)
Xsqlite3VdbeResolveLabel(tls, v, nextCase)
goto __133
__133:
i1 = i1 + 2
goto __132
goto __134
__134:
;
if !(nExpr&1 != 0) {
goto __137
}
Xsqlite3ExprCode(tls, pParse, (*ExprList_item)(unsafe.Pointer(pEList+8+uintptr(nExpr-1)*32)).FpExpr, target)
goto __138
__137:
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, target)
__138:
;
Xsqlite3ExprDelete(tls, db1, pDel)
setDoNotMergeFlagOnCopy(tls, v)
Xsqlite3VdbeResolveLabel(tls, v, endLabel)
goto __5
__57:
;
if !(!(int32((*Parse)(unsafe.Pointer(pParse)).FpTriggerTab) != 0) && !(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) != 0)) {
goto __139
}
Xsqlite3ErrorMsg(tls, pParse,
ts+8485, 0)
return 0
__139:
;
if !(int32((*Expr)(unsafe.Pointer(pExpr)).FaffExpr) == OE_Abort) {
goto __140
}
Xsqlite3MayAbort(tls, pParse)
__140:
;
if !(int32((*Expr)(unsafe.Pointer(pExpr)).FaffExpr) == OE_Ignore) {
goto __141
}
Xsqlite3VdbeAddOp4(tls,
v, OP_Halt, SQLITE_OK, OE_Ignore, 0, *(*uintptr)(unsafe.Pointer(pExpr + 8)), 0)
goto __142
__141:
Xsqlite3HaltConstraint(tls, pParse,
func() int32 {
if (*Parse)(unsafe.Pointer(pParse)).FpTriggerTab != 0 {
return SQLITE_CONSTRAINT | int32(7)<<8
}
return SQLITE_ERROR
}(),
int32((*Expr)(unsafe.Pointer(pExpr)).FaffExpr), *(*uintptr)(unsafe.Pointer(pExpr + 8)), int8(0), uint8(0))
__142:
;
goto __5
__5:
;
Xsqlite3ReleaseTempReg(tls, pParse, *(*int32)(unsafe.Pointer(bp + 40)))
Xsqlite3ReleaseTempReg(tls, pParse, *(*int32)(unsafe.Pointer(bp + 44)))
return inReg
}
var zAff = *(*[10]int8)(unsafe.Pointer(ts + 8535))
// Generate code that will evaluate expression pExpr just one time
// per prepared statement execution.
//
// If the expression uses functions (that might throw an exception) then
// guard them with an OP_Once opcode to ensure that the code is only executed
// once. If no functions are involved, then factor the code out and put it at
// the end of the prepared statement in the initialization section.
//
// If regDest>=0 then the result is always stored in that register and the
// result is not reusable. If regDest<0 then this routine is free to
// store the value whereever it wants. The register where the expression
// is stored is returned. When regDest<0, two identical expressions might
// code to the same register, if they do not contain function calls and hence
// are factored out into the initialization section at the end of the
// prepared statement.
func Xsqlite3ExprCodeRunJustOnce(tls *libc.TLS, pParse uintptr, pExpr uintptr, regDest int32) int32 {
var p uintptr
p = (*Parse)(unsafe.Pointer(pParse)).FpConstExpr
if regDest < 0 && p != 0 {
var pItem uintptr
var i int32
pItem = p + 8
i = (*ExprList)(unsafe.Pointer(p)).FnExpr
__1:
if !(i > 0) {
goto __3
}
{
if uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 16 + 4))&0x8>>3)) != 0 &&
Xsqlite3ExprCompare(tls, uintptr(0), (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr, pExpr, -1) == 0 {
return *(*int32)(unsafe.Pointer(pItem + 24))
}
}
goto __2
__2:
pItem += 32
i--
goto __1
goto __3
__3:
}
pExpr = Xsqlite3ExprDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pExpr, 0)
if pExpr != uintptr(0) && (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_HasFunc) != U32(0) {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var addr int32
addr = Xsqlite3VdbeAddOp0(tls, v, OP_Once)
(*Parse)(unsafe.Pointer(pParse)).FokConstFactor = U8(0)
if !(int32((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed) != 0) {
if regDest < 0 {
regDest = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
}
Xsqlite3ExprCode(tls, pParse, pExpr, regDest)
}
(*Parse)(unsafe.Pointer(pParse)).FokConstFactor = U8(1)
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pExpr)
Xsqlite3VdbeJumpHere(tls, v, addr)
} else {
p = Xsqlite3ExprListAppend(tls, pParse, p, pExpr)
if p != 0 {
var pItem uintptr = p + 8 + uintptr((*ExprList)(unsafe.Pointer(p)).FnExpr-1)*32
libc.SetBitFieldPtr16Uint32(pItem+16+4, uint32(libc.Bool32(regDest < 0)), 3, 0x8)
if regDest < 0 {
regDest = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
}
*(*int32)(unsafe.Pointer(pItem + 24)) = regDest
}
(*Parse)(unsafe.Pointer(pParse)).FpConstExpr = p
}
return regDest
}
// Generate code to evaluate an expression and store the results
// into a register. Return the register number where the results
// are stored.
//
// If the register is a temporary register that can be deallocated,
// then write its number into *pReg. If the result register is not
// a temporary, then set *pReg to zero.
//
// If pExpr is a constant, then this routine might generate this
// code to fill the register in the initialization section of the
// VDBE program, in order to factor it out of the evaluation loop.
func Xsqlite3ExprCodeTemp(tls *libc.TLS, pParse uintptr, pExpr uintptr, pReg uintptr) int32 {
var r2 int32
pExpr = Xsqlite3ExprSkipCollateAndLikely(tls, pExpr)
if (*Parse)(unsafe.Pointer(pParse)).FokConstFactor != 0 &&
pExpr != uintptr(0) &&
int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_REGISTER &&
Xsqlite3ExprIsConstantNotJoin(tls, pExpr) != 0 {
*(*int32)(unsafe.Pointer(pReg)) = 0
r2 = Xsqlite3ExprCodeRunJustOnce(tls, pParse, pExpr, -1)
} else {
var r1 int32 = Xsqlite3GetTempReg(tls, pParse)
r2 = Xsqlite3ExprCodeTarget(tls, pParse, pExpr, r1)
if r2 == r1 {
*(*int32)(unsafe.Pointer(pReg)) = r1
} else {
Xsqlite3ReleaseTempReg(tls, pParse, r1)
*(*int32)(unsafe.Pointer(pReg)) = 0
}
}
return r2
}
// Generate code that will evaluate expression pExpr and store the
// results in register target. The results are guaranteed to appear
// in register target.
func Xsqlite3ExprCode(tls *libc.TLS, pParse uintptr, pExpr uintptr, target int32) {
var inReg int32
if (*Parse)(unsafe.Pointer(pParse)).FpVdbe == uintptr(0) {
return
}
inReg = Xsqlite3ExprCodeTarget(tls, pParse, pExpr, target)
if inReg != target {
var op U8
if pExpr != 0 && (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Subquery) != U32(0) {
op = U8(OP_Copy)
} else {
op = U8(OP_SCopy)
}
Xsqlite3VdbeAddOp2(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, int32(op), inReg, target)
}
}
// Make a transient copy of expression pExpr and then code it using
// sqlite3ExprCode(). This routine works just like sqlite3ExprCode()
// except that the input expression is guaranteed to be unchanged.
func Xsqlite3ExprCodeCopy(tls *libc.TLS, pParse uintptr, pExpr uintptr, target int32) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
pExpr = Xsqlite3ExprDup(tls, db, pExpr, 0)
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
Xsqlite3ExprCode(tls, pParse, pExpr, target)
}
Xsqlite3ExprDelete(tls, db, pExpr)
}
// Generate code that will evaluate expression pExpr and store the
// results in register target. The results are guaranteed to appear
// in register target. If the expression is constant, then this routine
// might choose to code the expression at initialization time.
func Xsqlite3ExprCodeFactorable(tls *libc.TLS, pParse uintptr, pExpr uintptr, target int32) {
if (*Parse)(unsafe.Pointer(pParse)).FokConstFactor != 0 && Xsqlite3ExprIsConstantNotJoin(tls, pExpr) != 0 {
Xsqlite3ExprCodeRunJustOnce(tls, pParse, pExpr, target)
} else {
Xsqlite3ExprCodeCopy(tls, pParse, pExpr, target)
}
}
// Generate code that pushes the value of every element of the given
// expression list into a sequence of registers beginning at target.
//
// Return the number of elements evaluated. The number returned will
// usually be pList->nExpr but might be reduced if SQLITE_ECEL_OMITREF
// is defined.
//
// The SQLITE_ECEL_DUP flag prevents the arguments from being
// filled using OP_SCopy. OP_Copy must be used instead.
//
// The SQLITE_ECEL_FACTOR argument allows constant arguments to be
// factored out into initialization code.
//
// The SQLITE_ECEL_REF flag means that expressions in the list with
// ExprList.a[].u.x.iOrderByCol>0 have already been evaluated and stored
// in registers at srcReg, and so the value can be copied from there.
// If SQLITE_ECEL_OMITREF is also set, then the values with u.x.iOrderByCol>0
// are simply omitted rather than being copied from srcReg.
func Xsqlite3ExprCodeExprList(tls *libc.TLS, pParse uintptr, pList uintptr, target int32, srcReg int32, flags U8) int32 {
var pItem uintptr
var i int32
var j int32
var n int32
var copyOp U8
if int32(flags)&SQLITE_ECEL_DUP != 0 {
copyOp = uint8(OP_Copy)
} else {
copyOp = uint8(OP_SCopy)
}
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
n = (*ExprList)(unsafe.Pointer(pList)).FnExpr
if !(int32((*Parse)(unsafe.Pointer(pParse)).FokConstFactor) != 0) {
flags = libc.Uint8FromInt32(int32(flags) & libc.CplInt32(SQLITE_ECEL_FACTOR))
}
pItem = pList + 8
i = 0
__1:
if !(i < n) {
goto __3
}
{
var pExpr uintptr = (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr
if int32(flags)&SQLITE_ECEL_REF != 0 && libc.AssignInt32(&j, int32(*(*U16)(unsafe.Pointer(pItem + 24)))) > 0 {
if int32(flags)&SQLITE_ECEL_OMITREF != 0 {
i--
n--
} else {
Xsqlite3VdbeAddOp2(tls, v, int32(copyOp), j+srcReg-1, target+i)
}
} else if int32(flags)&SQLITE_ECEL_FACTOR != 0 &&
Xsqlite3ExprIsConstantNotJoin(tls, pExpr) != 0 {
Xsqlite3ExprCodeRunJustOnce(tls, pParse, pExpr, target+i)
} else {
var inReg int32 = Xsqlite3ExprCodeTarget(tls, pParse, pExpr, target+i)
if inReg != target+i {
var pOp uintptr
if int32(copyOp) == OP_Copy &&
int32((*VdbeOp)(unsafe.Pointer(libc.AssignUintptr(&pOp, Xsqlite3VdbeGetLastOp(tls, v)))).Fopcode) == OP_Copy &&
(*VdbeOp)(unsafe.Pointer(pOp)).Fp1+(*VdbeOp)(unsafe.Pointer(pOp)).Fp3+1 == inReg &&
(*VdbeOp)(unsafe.Pointer(pOp)).Fp2+(*VdbeOp)(unsafe.Pointer(pOp)).Fp3+1 == target+i &&
int32((*VdbeOp)(unsafe.Pointer(pOp)).Fp5) == 0 {
(*VdbeOp)(unsafe.Pointer(pOp)).Fp3++
} else {
Xsqlite3VdbeAddOp2(tls, v, int32(copyOp), inReg, target+i)
}
}
}
}
goto __2
__2:
i++
pItem += 32
goto __1
goto __3
__3:
;
return n
}
func exprCodeBetween(tls *libc.TLS, pParse uintptr, pExpr uintptr, dest int32, xJump uintptr, jumpIfNull int32) {
bp := tls.Alloc(220)
defer tls.Free(220)
*(*int32)(unsafe.Pointer(bp + 216)) = 0
var pDel uintptr = uintptr(0)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Expr{})), libc.X__builtin_object_size(tls, bp, 0))
libc.X__builtin___memset_chk(tls, bp+72, 0, uint64(unsafe.Sizeof(Expr{})), libc.X__builtin_object_size(tls, bp+72, 0))
libc.X__builtin___memset_chk(tls, bp+144, 0, uint64(unsafe.Sizeof(Expr{})), libc.X__builtin_object_size(tls, bp+144, 0))
pDel = Xsqlite3ExprDup(tls, db, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, 0)
if int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0 {
(*Expr)(unsafe.Pointer(bp + 144)).Fop = U8(TK_AND)
(*Expr)(unsafe.Pointer(bp + 144)).FpLeft = bp
(*Expr)(unsafe.Pointer(bp + 144)).FpRight = bp + 72
(*Expr)(unsafe.Pointer(bp)).Fop = U8(TK_GE)
(*Expr)(unsafe.Pointer(bp)).FpLeft = pDel
(*Expr)(unsafe.Pointer(bp)).FpRight = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)) + 8)).FpExpr
(*Expr)(unsafe.Pointer(bp + 72)).Fop = U8(TK_LE)
(*Expr)(unsafe.Pointer(bp + 72)).FpLeft = pDel
(*Expr)(unsafe.Pointer(bp + 72)).FpRight = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)) + 8 + 1*32)).FpExpr
exprToRegister(tls, pDel, exprCodeVector(tls, pParse, pDel, bp+216))
if xJump != 0 {
(*struct {
f func(*libc.TLS, uintptr, uintptr, int32, int32)
})(unsafe.Pointer(&struct{ uintptr }{xJump})).f(tls, pParse, bp+144, dest, jumpIfNull)
} else {
*(*U32)(unsafe.Pointer(pDel + 4)) |= U32(EP_OuterON)
Xsqlite3ExprCodeTarget(tls, pParse, bp+144, dest)
}
Xsqlite3ReleaseTempReg(tls, pParse, *(*int32)(unsafe.Pointer(bp + 216)))
}
Xsqlite3ExprDelete(tls, db, pDel)
}
// Generate code for a boolean expression such that a jump is made
// to the label "dest" if the expression is true but execution
// continues straight thru if the expression is false.
//
// If the expression evaluates to NULL (neither true nor false), then
// take the jump if the jumpIfNull flag is SQLITE_JUMPIFNULL.
//
// This code depends on the fact that certain token values (ex: TK_EQ)
// are the same as opcode values (ex: OP_Eq) that implement the corresponding
// operation. Special comments in vdbe.c and the mkopcodeh.awk script in
// the make process cause these values to align. Assert()s in the code
// below verify that the numbers are aligned correctly.
func Xsqlite3ExprIfTrue(tls *libc.TLS, pParse uintptr, pExpr uintptr, dest int32, jumpIfNull int32) {
bp := tls.Alloc(8)
defer tls.Free(8)
var v uintptr
var op int32
var r1 int32
var r2 int32
var d2 int32
var pAlt uintptr
var isNot int32
var isTrue int32
var destIfFalse int32
var destIfNull int32
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
op = 0
*(*int32)(unsafe.Pointer(bp)) = 0
*(*int32)(unsafe.Pointer(bp + 4)) = 0
if !(v == uintptr(0)) {
goto __1
}
return
__1:
;
if !(pExpr == uintptr(0)) {
goto __2
}
return
__2:
;
op = int32((*Expr)(unsafe.Pointer(pExpr)).Fop)
switch op {
case TK_AND:
goto __4
case TK_OR:
goto __5
case TK_NOT:
goto __6
case TK_TRUTH:
goto __7
case TK_IS:
goto __8
case TK_ISNOT:
goto __9
case TK_LT:
goto __10
case TK_LE:
goto __11
case TK_GT:
goto __12
case TK_GE:
goto __13
case TK_NE:
goto __14
case TK_EQ:
goto __15
case TK_ISNULL:
goto __16
case TK_NOTNULL:
goto __17
case TK_BETWEEN:
goto __18
case TK_IN:
goto __19
default:
goto __20
}
goto __3
__4:
__5:
pAlt = Xsqlite3ExprSimplifiedAndOr(tls, pExpr)
if !(pAlt != pExpr) {
goto __21
}
Xsqlite3ExprIfTrue(tls, pParse, pAlt, dest, jumpIfNull)
goto __22
__21:
if !(op == TK_AND) {
goto __23
}
d2 = Xsqlite3VdbeMakeLabel(tls, pParse)
Xsqlite3ExprIfFalse(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, d2,
jumpIfNull^SQLITE_JUMPIFNULL)
Xsqlite3ExprIfTrue(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpRight, dest, jumpIfNull)
Xsqlite3VdbeResolveLabel(tls, v, d2)
goto __24
__23:
;
Xsqlite3ExprIfTrue(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, dest, jumpIfNull)
Xsqlite3ExprIfTrue(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpRight, dest, jumpIfNull)
__24:
;
__22:
;
goto __3
__6:
;
Xsqlite3ExprIfFalse(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, dest, jumpIfNull)
goto __3
__7:
;
isNot = libc.Bool32(int32((*Expr)(unsafe.Pointer(pExpr)).Fop2) == TK_ISNOT)
isTrue = Xsqlite3ExprTruthValue(tls, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
if !(isTrue^isNot != 0) {
goto __25
}
Xsqlite3ExprIfTrue(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, dest,
func() int32 {
if isNot != 0 {
return SQLITE_JUMPIFNULL
}
return 0
}())
goto __26
__25:
Xsqlite3ExprIfFalse(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, dest,
func() int32 {
if isNot != 0 {
return SQLITE_JUMPIFNULL
}
return 0
}())
__26:
;
goto __3
__8:
__9:
;
if op == TK_IS {
op = TK_EQ
} else {
op = TK_NE
}
jumpIfNull = SQLITE_NULLEQ
__10:
__11:
__12:
__13:
__14:
__15:
if !(Xsqlite3ExprIsVector(tls, (*Expr)(unsafe.Pointer(pExpr)).FpLeft) != 0) {
goto __27
}
goto default_expr
__27:
;
r1 = Xsqlite3ExprCodeTemp(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, bp)
r2 = Xsqlite3ExprCodeTemp(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpRight, bp+4)
codeCompare(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, (*Expr)(unsafe.Pointer(pExpr)).FpRight, op,
r1, r2, dest, jumpIfNull, libc.Bool32((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Commuted) != U32(0)))
goto __3
__16:
__17:
;
r1 = Xsqlite3ExprCodeTemp(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, bp)
Xsqlite3VdbeTypeofColumn(tls, v, r1)
Xsqlite3VdbeAddOp2(tls, v, op, r1, dest)
goto __3
__18:
;
exprCodeBetween(tls, pParse, pExpr, dest, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, int32)
}{Xsqlite3ExprIfTrue})), jumpIfNull)
goto __3
__19:
destIfFalse = Xsqlite3VdbeMakeLabel(tls, pParse)
if jumpIfNull != 0 {
destIfNull = dest
} else {
destIfNull = destIfFalse
}
sqlite3ExprCodeIN(tls, pParse, pExpr, destIfFalse, destIfNull)
Xsqlite3VdbeGoto(tls, v, dest)
Xsqlite3VdbeResolveLabel(tls, v, destIfFalse)
goto __3
__20:
default_expr:
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON|EP_IsTrue) == U32(EP_IsTrue)) {
goto __28
}
Xsqlite3VdbeGoto(tls, v, dest)
goto __29
__28:
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON|EP_IsFalse) == U32(EP_IsFalse)) {
goto __30
}
goto __31
__30:
r1 = Xsqlite3ExprCodeTemp(tls, pParse, pExpr, bp)
Xsqlite3VdbeAddOp3(tls, v, OP_If, r1, dest, libc.Bool32(jumpIfNull != 0))
__31:
;
__29:
;
goto __3
__3:
;
Xsqlite3ReleaseTempReg(tls, pParse, *(*int32)(unsafe.Pointer(bp)))
Xsqlite3ReleaseTempReg(tls, pParse, *(*int32)(unsafe.Pointer(bp + 4)))
}
// Generate code for a boolean expression such that a jump is made
// to the label "dest" if the expression is false but execution
// continues straight thru if the expression is true.
//
// If the expression evaluates to NULL (neither true nor false) then
// jump if jumpIfNull is SQLITE_JUMPIFNULL or fall through if jumpIfNull
// is 0.
func Xsqlite3ExprIfFalse(tls *libc.TLS, pParse uintptr, pExpr uintptr, dest int32, jumpIfNull int32) {
bp := tls.Alloc(8)
defer tls.Free(8)
var v uintptr
var op int32
var r1 int32
var r2 int32
var d2 int32
var pAlt uintptr
var isNot int32
var isTrue int32
var destIfNull int32
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
op = 0
*(*int32)(unsafe.Pointer(bp)) = 0
*(*int32)(unsafe.Pointer(bp + 4)) = 0
if !(v == uintptr(0)) {
goto __1
}
return
__1:
;
if !(pExpr == uintptr(0)) {
goto __2
}
return
__2:
;
op = int32((*Expr)(unsafe.Pointer(pExpr)).Fop) + TK_ISNULL&1 ^ 1 - TK_ISNULL&1
switch int32((*Expr)(unsafe.Pointer(pExpr)).Fop) {
case TK_AND:
goto __4
case TK_OR:
goto __5
case TK_NOT:
goto __6
case TK_TRUTH:
goto __7
case TK_IS:
goto __8
case TK_ISNOT:
goto __9
case TK_LT:
goto __10
case TK_LE:
goto __11
case TK_GT:
goto __12
case TK_GE:
goto __13
case TK_NE:
goto __14
case TK_EQ:
goto __15
case TK_ISNULL:
goto __16
case TK_NOTNULL:
goto __17
case TK_BETWEEN:
goto __18
case TK_IN:
goto __19
default:
goto __20
}
goto __3
__4:
__5:
pAlt = Xsqlite3ExprSimplifiedAndOr(tls, pExpr)
if !(pAlt != pExpr) {
goto __21
}
Xsqlite3ExprIfFalse(tls, pParse, pAlt, dest, jumpIfNull)
goto __22
__21:
if !(int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_AND) {
goto __23
}
Xsqlite3ExprIfFalse(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, dest, jumpIfNull)
Xsqlite3ExprIfFalse(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpRight, dest, jumpIfNull)
goto __24
__23:
d2 = Xsqlite3VdbeMakeLabel(tls, pParse)
Xsqlite3ExprIfTrue(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, d2,
jumpIfNull^SQLITE_JUMPIFNULL)
Xsqlite3ExprIfFalse(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpRight, dest, jumpIfNull)
Xsqlite3VdbeResolveLabel(tls, v, d2)
__24:
;
__22:
;
goto __3
__6:
;
Xsqlite3ExprIfTrue(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, dest, jumpIfNull)
goto __3
__7:
;
isNot = libc.Bool32(int32((*Expr)(unsafe.Pointer(pExpr)).Fop2) == TK_ISNOT)
isTrue = Xsqlite3ExprTruthValue(tls, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
if !(isTrue^isNot != 0) {
goto __25
}
Xsqlite3ExprIfFalse(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, dest,
func() int32 {
if isNot != 0 {
return 0
}
return SQLITE_JUMPIFNULL
}())
goto __26
__25:
Xsqlite3ExprIfTrue(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, dest,
func() int32 {
if isNot != 0 {
return 0
}
return SQLITE_JUMPIFNULL
}())
__26:
;
goto __3
__8:
__9:
;
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_IS {
op = TK_NE
} else {
op = TK_EQ
}
jumpIfNull = SQLITE_NULLEQ
__10:
__11:
__12:
__13:
__14:
__15:
if !(Xsqlite3ExprIsVector(tls, (*Expr)(unsafe.Pointer(pExpr)).FpLeft) != 0) {
goto __27
}
goto default_expr
__27:
;
r1 = Xsqlite3ExprCodeTemp(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, bp)
r2 = Xsqlite3ExprCodeTemp(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpRight, bp+4)
codeCompare(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, (*Expr)(unsafe.Pointer(pExpr)).FpRight, op,
r1, r2, dest, jumpIfNull, libc.Bool32((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Commuted) != U32(0)))
goto __3
__16:
__17:
r1 = Xsqlite3ExprCodeTemp(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, bp)
Xsqlite3VdbeTypeofColumn(tls, v, r1)
Xsqlite3VdbeAddOp2(tls, v, op, r1, dest)
goto __3
__18:
;
exprCodeBetween(tls, pParse, pExpr, dest, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, int32)
}{Xsqlite3ExprIfFalse})), jumpIfNull)
goto __3
__19:
if !(jumpIfNull != 0) {
goto __28
}
sqlite3ExprCodeIN(tls, pParse, pExpr, dest, dest)
goto __29
__28:
destIfNull = Xsqlite3VdbeMakeLabel(tls, pParse)
sqlite3ExprCodeIN(tls, pParse, pExpr, dest, destIfNull)
Xsqlite3VdbeResolveLabel(tls, v, destIfNull)
__29:
;
goto __3
__20:
default_expr:
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON|EP_IsFalse) == U32(EP_IsFalse)) {
goto __30
}
Xsqlite3VdbeGoto(tls, v, dest)
goto __31
__30:
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON|EP_IsTrue) == U32(EP_IsTrue)) {
goto __32
}
goto __33
__32:
r1 = Xsqlite3ExprCodeTemp(tls, pParse, pExpr, bp)
Xsqlite3VdbeAddOp3(tls, v, OP_IfNot, r1, dest, libc.Bool32(jumpIfNull != 0))
__33:
;
__31:
;
goto __3
__3:
;
Xsqlite3ReleaseTempReg(tls, pParse, *(*int32)(unsafe.Pointer(bp)))
Xsqlite3ReleaseTempReg(tls, pParse, *(*int32)(unsafe.Pointer(bp + 4)))
}
// Like sqlite3ExprIfFalse() except that a copy is made of pExpr before
// code generation, and that copy is deleted after code generation. This
// ensures that the original pExpr is unchanged.
func Xsqlite3ExprIfFalseDup(tls *libc.TLS, pParse uintptr, pExpr uintptr, dest int32, jumpIfNull int32) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pCopy uintptr = Xsqlite3ExprDup(tls, db, pExpr, 0)
if int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0 {
Xsqlite3ExprIfFalse(tls, pParse, pCopy, dest, jumpIfNull)
}
Xsqlite3ExprDelete(tls, db, pCopy)
}
func exprCompareVariable(tls *libc.TLS, pParse uintptr, pVar uintptr, pExpr uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var res int32 = 0
var iVar int32
var pL uintptr
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
Xsqlite3ValueFromExpr(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pExpr, uint8(SQLITE_UTF8), uint8(SQLITE_AFF_BLOB), bp)
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
iVar = int32((*Expr)(unsafe.Pointer(pVar)).FiColumn)
Xsqlite3VdbeSetVarmask(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, iVar)
pL = Xsqlite3VdbeGetBoundValue(tls, (*Parse)(unsafe.Pointer(pParse)).FpReprepare, iVar, uint8(SQLITE_AFF_BLOB))
if pL != 0 {
if Xsqlite3_value_type(tls, pL) == SQLITE_TEXT {
Xsqlite3_value_text(tls, pL)
}
res = libc.Bool32(0 == Xsqlite3MemCompare(tls, pL, *(*uintptr)(unsafe.Pointer(bp)), uintptr(0)))
}
Xsqlite3ValueFree(tls, *(*uintptr)(unsafe.Pointer(bp)))
Xsqlite3ValueFree(tls, pL)
}
return res
}
// Do a deep comparison of two expression trees. Return 0 if the two
// expressions are completely identical. Return 1 if they differ only
// by a COLLATE operator at the top level. Return 2 if there are differences
// other than the top-level COLLATE operator.
//
// If any subelement of pB has Expr.iTable==(-1) then it is allowed
// to compare equal to an equivalent element in pA with Expr.iTable==iTab.
//
// The pA side might be using TK_REGISTER. If that is the case and pB is
// not using TK_REGISTER but is otherwise equivalent, then still return 0.
//
// Sometimes this routine will return 2 even if the two expressions
// really are equivalent. If we cannot prove that the expressions are
// identical, we return 2 just to be safe. So if this routine
// returns 2, then you do not really know for certain if the two
// expressions are the same. But if you get a 0 or 1 return, then you
// can be sure the expressions are the same. In the places where
// this routine is used, it does not hurt to get an extra 2 - that
// just might result in some slightly slower code. But returning
// an incorrect 0 or 1 could lead to a malfunction.
//
// If pParse is not NULL then TK_VARIABLE terms in pA with bindings in
// pParse->pReprepare can be matched against literals in pB. The
// pParse->pVdbe->expmask bitmask is updated for each variable referenced.
// If pParse is NULL (the normal case) then any TK_VARIABLE term in
// Argument pParse should normally be NULL. If it is not NULL and pA or
// pB causes a return value of 2.
func Xsqlite3ExprCompare(tls *libc.TLS, pParse uintptr, pA uintptr, pB uintptr, iTab int32) int32 {
var combinedFlags U32
if pA == uintptr(0) || pB == uintptr(0) {
if pB == pA {
return 0
}
return 2
}
if pParse != 0 && int32((*Expr)(unsafe.Pointer(pA)).Fop) == TK_VARIABLE && exprCompareVariable(tls, pParse, pA, pB) != 0 {
return 0
}
combinedFlags = (*Expr)(unsafe.Pointer(pA)).Fflags | (*Expr)(unsafe.Pointer(pB)).Fflags
if combinedFlags&U32(EP_IntValue) != 0 {
if (*Expr)(unsafe.Pointer(pA)).Fflags&(*Expr)(unsafe.Pointer(pB)).Fflags&U32(EP_IntValue) != U32(0) && *(*int32)(unsafe.Pointer(pA + 8)) == *(*int32)(unsafe.Pointer(pB + 8)) {
return 0
}
return 2
}
if int32((*Expr)(unsafe.Pointer(pA)).Fop) != int32((*Expr)(unsafe.Pointer(pB)).Fop) || int32((*Expr)(unsafe.Pointer(pA)).Fop) == TK_RAISE {
if int32((*Expr)(unsafe.Pointer(pA)).Fop) == TK_COLLATE && Xsqlite3ExprCompare(tls, pParse, (*Expr)(unsafe.Pointer(pA)).FpLeft, pB, iTab) < 2 {
return 1
}
if int32((*Expr)(unsafe.Pointer(pB)).Fop) == TK_COLLATE && Xsqlite3ExprCompare(tls, pParse, pA, (*Expr)(unsafe.Pointer(pB)).FpLeft, iTab) < 2 {
return 1
}
if int32((*Expr)(unsafe.Pointer(pA)).Fop) == TK_AGG_COLUMN && int32((*Expr)(unsafe.Pointer(pB)).Fop) == TK_COLUMN &&
(*Expr)(unsafe.Pointer(pB)).FiTable < 0 && (*Expr)(unsafe.Pointer(pA)).FiTable == iTab {
} else {
return 2
}
}
if *(*uintptr)(unsafe.Pointer(pA + 8)) != 0 {
if int32((*Expr)(unsafe.Pointer(pA)).Fop) == TK_FUNCTION || int32((*Expr)(unsafe.Pointer(pA)).Fop) == TK_AGG_FUNCTION {
if Xsqlite3StrICmp(tls, *(*uintptr)(unsafe.Pointer(pA + 8)), *(*uintptr)(unsafe.Pointer(pB + 8))) != 0 {
return 2
}
if libc.Bool32((*Expr)(unsafe.Pointer(pA)).Fflags&U32(EP_WinFunc) != U32(0)) != libc.Bool32((*Expr)(unsafe.Pointer(pB)).Fflags&U32(EP_WinFunc) != U32(0)) {
return 2
}
if (*Expr)(unsafe.Pointer(pA)).Fflags&U32(EP_WinFunc) != U32(0) {
if Xsqlite3WindowCompare(tls, pParse, *(*uintptr)(unsafe.Pointer(pA + 64)), *(*uintptr)(unsafe.Pointer(pB + 64)), 1) != 0 {
return 2
}
}
} else if int32((*Expr)(unsafe.Pointer(pA)).Fop) == TK_NULL {
return 0
} else if int32((*Expr)(unsafe.Pointer(pA)).Fop) == TK_COLLATE {
if Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer(pA + 8)), *(*uintptr)(unsafe.Pointer(pB + 8))) != 0 {
return 2
}
} else if *(*uintptr)(unsafe.Pointer(pB + 8)) != uintptr(0) &&
int32((*Expr)(unsafe.Pointer(pA)).Fop) != TK_COLUMN &&
int32((*Expr)(unsafe.Pointer(pA)).Fop) != TK_AGG_COLUMN &&
libc.Xstrcmp(tls, *(*uintptr)(unsafe.Pointer(pA + 8)), *(*uintptr)(unsafe.Pointer(pB + 8))) != 0 {
return 2
}
}
if (*Expr)(unsafe.Pointer(pA)).Fflags&U32(EP_Distinct|EP_Commuted) !=
(*Expr)(unsafe.Pointer(pB)).Fflags&U32(EP_Distinct|EP_Commuted) {
return 2
}
if combinedFlags&U32(EP_TokenOnly) == U32(0) {
if combinedFlags&U32(EP_xIsSelect) != 0 {
return 2
}
if combinedFlags&U32(EP_FixedCol) == U32(0) &&
Xsqlite3ExprCompare(tls, pParse, (*Expr)(unsafe.Pointer(pA)).FpLeft, (*Expr)(unsafe.Pointer(pB)).FpLeft, iTab) != 0 {
return 2
}
if Xsqlite3ExprCompare(tls, pParse, (*Expr)(unsafe.Pointer(pA)).FpRight, (*Expr)(unsafe.Pointer(pB)).FpRight, iTab) != 0 {
return 2
}
if Xsqlite3ExprListCompare(tls, *(*uintptr)(unsafe.Pointer(pA + 32)), *(*uintptr)(unsafe.Pointer(pB + 32)), iTab) != 0 {
return 2
}
if int32((*Expr)(unsafe.Pointer(pA)).Fop) != TK_STRING &&
int32((*Expr)(unsafe.Pointer(pA)).Fop) != TK_TRUEFALSE &&
combinedFlags&U32(EP_Reduced) == U32(0) {
if int32((*Expr)(unsafe.Pointer(pA)).FiColumn) != int32((*Expr)(unsafe.Pointer(pB)).FiColumn) {
return 2
}
if int32((*Expr)(unsafe.Pointer(pA)).Fop2) != int32((*Expr)(unsafe.Pointer(pB)).Fop2) && int32((*Expr)(unsafe.Pointer(pA)).Fop) == TK_TRUTH {
return 2
}
if int32((*Expr)(unsafe.Pointer(pA)).Fop) != TK_IN && (*Expr)(unsafe.Pointer(pA)).FiTable != (*Expr)(unsafe.Pointer(pB)).FiTable && (*Expr)(unsafe.Pointer(pA)).FiTable != iTab {
return 2
}
}
}
return 0
}
// Compare two ExprList objects. Return 0 if they are identical, 1
// if they are certainly different, or 2 if it is not possible to
// determine if they are identical or not.
//
// If any subelement of pB has Expr.iTable==(-1) then it is allowed
// to compare equal to an equivalent element in pA with Expr.iTable==iTab.
//
// This routine might return non-zero for equivalent ExprLists. The
// only consequence will be disabled optimizations. But this routine
// must never return 0 if the two ExprList objects are different, or
// a malfunction will result.
//
// Two NULL pointers are considered to be the same. But a NULL pointer
// always differs from a non-NULL pointer.
func Xsqlite3ExprListCompare(tls *libc.TLS, pA uintptr, pB uintptr, iTab int32) int32 {
var i int32
if pA == uintptr(0) && pB == uintptr(0) {
return 0
}
if pA == uintptr(0) || pB == uintptr(0) {
return 1
}
if (*ExprList)(unsafe.Pointer(pA)).FnExpr != (*ExprList)(unsafe.Pointer(pB)).FnExpr {
return 1
}
for i = 0; i < (*ExprList)(unsafe.Pointer(pA)).FnExpr; i++ {
var res int32
var pExprA uintptr = (*ExprList_item)(unsafe.Pointer(pA + 8 + uintptr(i)*32)).FpExpr
var pExprB uintptr = (*ExprList_item)(unsafe.Pointer(pB + 8 + uintptr(i)*32)).FpExpr
if int32((*ExprList_item)(unsafe.Pointer(pA+8+uintptr(i)*32)).Ffg.FsortFlags) != int32((*ExprList_item)(unsafe.Pointer(pB+8+uintptr(i)*32)).Ffg.FsortFlags) {
return 1
}
if libc.AssignInt32(&res, Xsqlite3ExprCompare(tls, uintptr(0), pExprA, pExprB, iTab)) != 0 {
return res
}
}
return 0
}
// Like sqlite3ExprCompare() except COLLATE operators at the top-level
// are ignored.
func Xsqlite3ExprCompareSkip(tls *libc.TLS, pA uintptr, pB uintptr, iTab int32) int32 {
return Xsqlite3ExprCompare(tls, uintptr(0),
Xsqlite3ExprSkipCollateAndLikely(tls, pA),
Xsqlite3ExprSkipCollateAndLikely(tls, pB),
iTab)
}
func exprImpliesNotNull(tls *libc.TLS, pParse uintptr, p uintptr, pNN uintptr, iTab int32, seenNot int32) int32 {
if Xsqlite3ExprCompare(tls, pParse, p, pNN, iTab) == 0 {
return libc.Bool32(int32((*Expr)(unsafe.Pointer(pNN)).Fop) != TK_NULL)
}
switch int32((*Expr)(unsafe.Pointer(p)).Fop) {
case TK_IN:
{
if seenNot != 0 && (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_xIsSelect) != U32(0) {
return 0
}
return exprImpliesNotNull(tls, pParse, (*Expr)(unsafe.Pointer(p)).FpLeft, pNN, iTab, 1)
}
case TK_BETWEEN:
{
var pList uintptr
pList = *(*uintptr)(unsafe.Pointer(p + 32))
if seenNot != 0 {
return 0
}
if exprImpliesNotNull(tls, pParse, (*ExprList_item)(unsafe.Pointer(pList+8)).FpExpr, pNN, iTab, 1) != 0 ||
exprImpliesNotNull(tls, pParse, (*ExprList_item)(unsafe.Pointer(pList+8+1*32)).FpExpr, pNN, iTab, 1) != 0 {
return 1
}
return exprImpliesNotNull(tls, pParse, (*Expr)(unsafe.Pointer(p)).FpLeft, pNN, iTab, 1)
}
case TK_EQ:
fallthrough
case TK_NE:
fallthrough
case TK_LT:
fallthrough
case TK_LE:
fallthrough
case TK_GT:
fallthrough
case TK_GE:
fallthrough
case TK_PLUS:
fallthrough
case TK_MINUS:
fallthrough
case TK_BITOR:
fallthrough
case TK_LSHIFT:
fallthrough
case TK_RSHIFT:
fallthrough
case TK_CONCAT:
seenNot = 1
fallthrough
case TK_STAR:
fallthrough
case TK_REM:
fallthrough
case TK_BITAND:
fallthrough
case TK_SLASH:
{
if exprImpliesNotNull(tls, pParse, (*Expr)(unsafe.Pointer(p)).FpRight, pNN, iTab, seenNot) != 0 {
return 1
}
}
fallthrough
case TK_SPAN:
fallthrough
case TK_COLLATE:
fallthrough
case TK_UPLUS:
fallthrough
case TK_UMINUS:
{
return exprImpliesNotNull(tls, pParse, (*Expr)(unsafe.Pointer(p)).FpLeft, pNN, iTab, seenNot)
}
case TK_TRUTH:
{
if seenNot != 0 {
return 0
}
if int32((*Expr)(unsafe.Pointer(p)).Fop2) != TK_IS {
return 0
}
return exprImpliesNotNull(tls, pParse, (*Expr)(unsafe.Pointer(p)).FpLeft, pNN, iTab, 1)
}
case TK_BITNOT:
fallthrough
case TK_NOT:
{
return exprImpliesNotNull(tls, pParse, (*Expr)(unsafe.Pointer(p)).FpLeft, pNN, iTab, 1)
}
}
return 0
}
// Return true if we can prove the pE2 will always be true if pE1 is
// true. Return false if we cannot complete the proof or if pE2 might
// be false. Examples:
//
// pE1: x==5 pE2: x==5 Result: true
// pE1: x>0 pE2: x==5 Result: false
// pE1: x=21 pE2: x=21 OR y=43 Result: true
// pE1: x!=123 pE2: x IS NOT NULL Result: true
// pE1: x!=?1 pE2: x IS NOT NULL Result: true
// pE1: x IS NULL pE2: x IS NOT NULL Result: false
// pE1: x IS ?2 pE2: x IS NOT NULL Reuslt: false
//
// When comparing TK_COLUMN nodes between pE1 and pE2, if pE2 has
// Expr.iTable<0 then assume a table number given by iTab.
//
// If pParse is not NULL, then the values of bound variables in pE1 are
// compared against literal values in pE2 and pParse->pVdbe->expmask is
// modified to record which bound variables are referenced. If pParse
// is NULL, then false will be returned if pE1 contains any bound variables.
//
// When in doubt, return false. Returning true might give a performance
// improvement. Returning false might cause a performance reduction, but
// it will always give the correct answer and is hence always safe.
func Xsqlite3ExprImpliesExpr(tls *libc.TLS, pParse uintptr, pE1 uintptr, pE2 uintptr, iTab int32) int32 {
if Xsqlite3ExprCompare(tls, pParse, pE1, pE2, iTab) == 0 {
return 1
}
if int32((*Expr)(unsafe.Pointer(pE2)).Fop) == TK_OR &&
(Xsqlite3ExprImpliesExpr(tls, pParse, pE1, (*Expr)(unsafe.Pointer(pE2)).FpLeft, iTab) != 0 ||
Xsqlite3ExprImpliesExpr(tls, pParse, pE1, (*Expr)(unsafe.Pointer(pE2)).FpRight, iTab) != 0) {
return 1
}
if int32((*Expr)(unsafe.Pointer(pE2)).Fop) == TK_NOTNULL &&
exprImpliesNotNull(tls, pParse, pE1, (*Expr)(unsafe.Pointer(pE2)).FpLeft, iTab, 0) != 0 {
return 1
}
return 0
}
func impliesNotNullRow(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON) != U32(0) {
return WRC_Prune
}
switch int32((*Expr)(unsafe.Pointer(pExpr)).Fop) {
case TK_ISNOT:
fallthrough
case TK_ISNULL:
fallthrough
case TK_NOTNULL:
fallthrough
case TK_IS:
fallthrough
case TK_OR:
fallthrough
case TK_VECTOR:
fallthrough
case TK_CASE:
fallthrough
case TK_IN:
fallthrough
case TK_FUNCTION:
fallthrough
case TK_TRUTH:
return WRC_Prune
case TK_COLUMN:
if *(*int32)(unsafe.Pointer(pWalker + 40)) == (*Expr)(unsafe.Pointer(pExpr)).FiTable {
(*Walker)(unsafe.Pointer(pWalker)).FeCode = U16(1)
return WRC_Abort
}
return WRC_Prune
case TK_AND:
if int32((*Walker)(unsafe.Pointer(pWalker)).FeCode) == 0 {
Xsqlite3WalkExpr(tls, pWalker, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
if (*Walker)(unsafe.Pointer(pWalker)).FeCode != 0 {
(*Walker)(unsafe.Pointer(pWalker)).FeCode = U16(0)
Xsqlite3WalkExpr(tls, pWalker, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
}
}
return WRC_Prune
case TK_BETWEEN:
if Xsqlite3WalkExpr(tls, pWalker, (*Expr)(unsafe.Pointer(pExpr)).FpLeft) == WRC_Abort {
return WRC_Abort
}
return WRC_Prune
case TK_EQ:
fallthrough
case TK_NE:
fallthrough
case TK_LT:
fallthrough
case TK_LE:
fallthrough
case TK_GT:
fallthrough
case TK_GE:
{
var pLeft uintptr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
var pRight uintptr = (*Expr)(unsafe.Pointer(pExpr)).FpRight
if int32((*Expr)(unsafe.Pointer(pLeft)).Fop) == TK_COLUMN &&
*(*uintptr)(unsafe.Pointer(pLeft + 64)) != uintptr(0) &&
int32((*Table)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pLeft + 64)))).FeTabType) == TABTYP_VTAB ||
int32((*Expr)(unsafe.Pointer(pRight)).Fop) == TK_COLUMN &&
*(*uintptr)(unsafe.Pointer(pRight + 64)) != uintptr(0) &&
int32((*Table)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pRight + 64)))).FeTabType) == TABTYP_VTAB {
return WRC_Prune
}
}
fallthrough
default:
return WRC_Continue
}
return int32(0)
}
// Return true (non-zero) if expression p can only be true if at least
// one column of table iTab is non-null. In other words, return true
// if expression p will always be NULL or false if every column of iTab
// is NULL.
//
// False negatives are acceptable. In other words, it is ok to return
// zero even if expression p will never be true of every column of iTab
// is NULL. A false negative is merely a missed optimization opportunity.
//
// False positives are not allowed, however. A false positive may result
// in an incorrect answer.
//
// Terms of p that are marked with EP_OuterON (and hence that come from
// the ON or USING clauses of OUTER JOINS) are excluded from the analysis.
//
// This routine is used to check if a LEFT JOIN can be converted into
// an ordinary JOIN. The p argument is the WHERE clause. If the WHERE
// clause requires that some column of the right table of the LEFT JOIN
// be non-NULL, then the LEFT JOIN can be safely converted into an
// ordinary join.
func Xsqlite3ExprImpliesNonNullRow(tls *libc.TLS, p uintptr, iTab int32) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
p = Xsqlite3ExprSkipCollateAndLikely(tls, p)
if p == uintptr(0) {
return 0
}
if int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_NOTNULL {
p = (*Expr)(unsafe.Pointer(p)).FpLeft
} else {
for int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_AND {
if Xsqlite3ExprImpliesNonNullRow(tls, (*Expr)(unsafe.Pointer(p)).FpLeft, iTab) != 0 {
return 1
}
p = (*Expr)(unsafe.Pointer(p)).FpRight
}
}
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{impliesNotNullRow}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = uintptr(0)
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback2 = uintptr(0)
(*Walker)(unsafe.Pointer(bp)).FeCode = U16(0)
*(*int32)(unsafe.Pointer(bp + 40)) = iTab
Xsqlite3WalkExpr(tls, bp, p)
return int32((*Walker)(unsafe.Pointer(bp)).FeCode)
}
func exprIdxCover(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLUMN &&
(*Expr)(unsafe.Pointer(pExpr)).FiTable == (*IdxCover)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pWalker + 40)))).FiCur &&
int32(Xsqlite3TableColumnToIndex(tls, (*IdxCover)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pWalker + 40)))).FpIdx, (*Expr)(unsafe.Pointer(pExpr)).FiColumn)) < 0 {
(*Walker)(unsafe.Pointer(pWalker)).FeCode = U16(1)
return WRC_Abort
}
return WRC_Continue
}
// Determine if an index pIdx on table with cursor iCur contains will
// the expression pExpr. Return true if the index does cover the
// expression and false if the pExpr expression references table columns
// that are not found in the index pIdx.
//
// An index covering an expression means that the expression can be
// evaluated using only the index and without having to lookup the
// corresponding table entry.
func Xsqlite3ExprCoveredByIndex(tls *libc.TLS, pExpr uintptr, iCur int32, pIdx uintptr) int32 {
bp := tls.Alloc(64)
defer tls.Free(64)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
(*IdxCover)(unsafe.Pointer(bp + 48)).FiCur = iCur
(*IdxCover)(unsafe.Pointer(bp + 48)).FpIdx = pIdx
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{exprIdxCover}))
*(*uintptr)(unsafe.Pointer(bp + 40)) = bp + 48
Xsqlite3WalkExpr(tls, bp, pExpr)
return libc.BoolInt32(!((*Walker)(unsafe.Pointer(bp)).FeCode != 0))
}
func selectRefEnter(tls *libc.TLS, pWalker uintptr, pSelect uintptr) int32 {
var p uintptr = *(*uintptr)(unsafe.Pointer(pWalker + 40))
var pSrc uintptr = (*Select)(unsafe.Pointer(pSelect)).FpSrc
var i I64
var j I64
var piNew uintptr
if (*SrcList)(unsafe.Pointer(pSrc)).FnSrc == 0 {
return WRC_Continue
}
j = (*RefSrcList)(unsafe.Pointer(p)).FnExclude
*(*I64)(unsafe.Pointer(p + 16)) += I64((*SrcList)(unsafe.Pointer(pSrc)).FnSrc)
piNew = Xsqlite3DbRealloc(tls, (*RefSrcList)(unsafe.Pointer(p)).Fdb, (*RefSrcList)(unsafe.Pointer(p)).FaiExclude, uint64((*RefSrcList)(unsafe.Pointer(p)).FnExclude)*uint64(unsafe.Sizeof(int32(0))))
if piNew == uintptr(0) {
(*RefSrcList)(unsafe.Pointer(p)).FnExclude = int64(0)
return WRC_Abort
} else {
(*RefSrcList)(unsafe.Pointer(p)).FaiExclude = piNew
}
i = int64(0)
__1:
if !(i < I64((*SrcList)(unsafe.Pointer(pSrc)).FnSrc)) {
goto __3
}
{
*(*int32)(unsafe.Pointer((*RefSrcList)(unsafe.Pointer(p)).FaiExclude + uintptr(j)*4)) = (*SrcItem)(unsafe.Pointer(pSrc + 8 + uintptr(i)*104)).FiCursor
}
goto __2
__2:
i++
j++
goto __1
goto __3
__3:
;
return WRC_Continue
}
func selectRefLeave(tls *libc.TLS, pWalker uintptr, pSelect uintptr) {
var p uintptr = *(*uintptr)(unsafe.Pointer(pWalker + 40))
var pSrc uintptr = (*Select)(unsafe.Pointer(pSelect)).FpSrc
if (*RefSrcList)(unsafe.Pointer(p)).FnExclude != 0 {
*(*I64)(unsafe.Pointer(p + 16)) -= I64((*SrcList)(unsafe.Pointer(pSrc)).FnSrc)
}
}
func exprRefToSrcList(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLUMN ||
int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_AGG_COLUMN {
var i int32
var p uintptr = *(*uintptr)(unsafe.Pointer(pWalker + 40))
var pSrc uintptr = (*RefSrcList)(unsafe.Pointer(p)).FpRef
var nSrc int32
if pSrc != 0 {
nSrc = (*SrcList)(unsafe.Pointer(pSrc)).FnSrc
} else {
nSrc = 0
}
for i = 0; i < nSrc; i++ {
if (*Expr)(unsafe.Pointer(pExpr)).FiTable == (*SrcItem)(unsafe.Pointer(pSrc+8+uintptr(i)*104)).FiCursor {
*(*U16)(unsafe.Pointer(pWalker + 36)) |= U16(1)
return WRC_Continue
}
}
for i = 0; I64(i) < (*RefSrcList)(unsafe.Pointer(p)).FnExclude && *(*int32)(unsafe.Pointer((*RefSrcList)(unsafe.Pointer(p)).FaiExclude + uintptr(i)*4)) != (*Expr)(unsafe.Pointer(pExpr)).FiTable; i++ {
}
if I64(i) >= (*RefSrcList)(unsafe.Pointer(p)).FnExclude {
*(*U16)(unsafe.Pointer(pWalker + 36)) |= U16(2)
}
}
return WRC_Continue
}
// Check to see if pExpr references any tables in pSrcList.
// Possible return values:
//
// 1 pExpr does references a table in pSrcList.
//
// 0 pExpr references some table that is not defined in either
// pSrcList or in subqueries of pExpr itself.
//
// -1 pExpr only references no tables at all, or it only
// references tables defined in subqueries of pExpr itself.
//
// As currently used, pExpr is always an aggregate function call. That
// fact is exploited for efficiency.
func Xsqlite3ReferencesSrcList(tls *libc.TLS, pParse uintptr, pExpr uintptr, pSrcList uintptr) int32 {
bp := tls.Alloc(80)
defer tls.Free(80)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
libc.X__builtin___memset_chk(tls, bp+48, 0, uint64(unsafe.Sizeof(RefSrcList{})), libc.X__builtin_object_size(tls, bp+48, 0))
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{exprRefToSrcList}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{selectRefEnter}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback2 = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{selectRefLeave}))
*(*uintptr)(unsafe.Pointer(bp + 40)) = bp + 48
(*RefSrcList)(unsafe.Pointer(bp + 48)).Fdb = (*Parse)(unsafe.Pointer(pParse)).Fdb
(*RefSrcList)(unsafe.Pointer(bp + 48)).FpRef = pSrcList
Xsqlite3WalkExprList(tls, bp, *(*uintptr)(unsafe.Pointer(pExpr + 32)))
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc) != U32(0) {
Xsqlite3WalkExpr(tls, bp, (*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 64)))).FpFilter)
}
if (*RefSrcList)(unsafe.Pointer(bp+48)).FaiExclude != 0 {
Xsqlite3DbNNFreeNN(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*RefSrcList)(unsafe.Pointer(bp+48)).FaiExclude)
}
if int32((*Walker)(unsafe.Pointer(bp)).FeCode)&0x01 != 0 {
return 1
} else if (*Walker)(unsafe.Pointer(bp)).FeCode != 0 {
return 0
} else {
return -1
}
return int32(0)
}
func agginfoPersistExprCb(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_TokenOnly|EP_Reduced) != U32(0)) &&
(*Expr)(unsafe.Pointer(pExpr)).FpAggInfo != uintptr(0) {
var pAggInfo uintptr = (*Expr)(unsafe.Pointer(pExpr)).FpAggInfo
var iAgg int32 = int32((*Expr)(unsafe.Pointer(pExpr)).FiAgg)
var pParse uintptr = (*Walker)(unsafe.Pointer(pWalker)).FpParse
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_AGG_FUNCTION {
if (*AggInfo_col)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaCol+uintptr(iAgg)*24)).FpCExpr == pExpr {
pExpr = Xsqlite3ExprDup(tls, db, pExpr, 0)
if pExpr != 0 {
(*AggInfo_col)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaCol + uintptr(iAgg)*24)).FpCExpr = pExpr
Xsqlite3ExprDeferredDelete(tls, pParse, pExpr)
}
}
} else {
if (*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc+uintptr(iAgg)*24)).FpFExpr == pExpr {
pExpr = Xsqlite3ExprDup(tls, db, pExpr, 0)
if pExpr != 0 {
(*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc + uintptr(iAgg)*24)).FpFExpr = pExpr
Xsqlite3ExprDeferredDelete(tls, pParse, pExpr)
}
}
}
}
return WRC_Continue
}
// Initialize a Walker object so that will persist AggInfo entries referenced
// by the tree that is walked.
func Xsqlite3AggInfoPersistWalkerInit(tls *libc.TLS, pWalker uintptr, pParse uintptr) {
libc.X__builtin___memset_chk(tls, pWalker, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, pWalker, 0))
(*Walker)(unsafe.Pointer(pWalker)).FpParse = pParse
(*Walker)(unsafe.Pointer(pWalker)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{agginfoPersistExprCb}))
(*Walker)(unsafe.Pointer(pWalker)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{Xsqlite3SelectWalkNoop}))
}
func addAggInfoColumn(tls *libc.TLS, db uintptr, pInfo uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
(*AggInfo)(unsafe.Pointer(pInfo)).FaCol = Xsqlite3ArrayAllocate(tls,
db,
(*AggInfo)(unsafe.Pointer(pInfo)).FaCol,
int32(unsafe.Sizeof(AggInfo_col{})),
pInfo+32,
bp)
return *(*int32)(unsafe.Pointer(bp))
}
func addAggInfoFunc(tls *libc.TLS, db uintptr, pInfo uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
(*AggInfo)(unsafe.Pointer(pInfo)).FaFunc = Xsqlite3ArrayAllocate(tls,
db,
(*AggInfo)(unsafe.Pointer(pInfo)).FaFunc,
int32(unsafe.Sizeof(AggInfo_func{})),
pInfo+48,
bp)
return *(*int32)(unsafe.Pointer(bp))
}
func findOrCreateAggInfoColumn(tls *libc.TLS, pParse uintptr, pAggInfo uintptr, pExpr uintptr) {
var pCol uintptr
var k int32
var pE uintptr
var j int32
var n int32
var pGB uintptr
var pTerm uintptr
pCol = (*AggInfo)(unsafe.Pointer(pAggInfo)).FaCol
k = 0
__1:
if !(k < (*AggInfo)(unsafe.Pointer(pAggInfo)).FnColumn) {
goto __3
}
if !((*AggInfo_col)(unsafe.Pointer(pCol)).FiTable == (*Expr)(unsafe.Pointer(pExpr)).FiTable &&
int32((*AggInfo_col)(unsafe.Pointer(pCol)).FiColumn) == int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn) &&
int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_IF_NULL_ROW) {
goto __4
}
goto fix_up_expr
__4:
;
goto __2
__2:
k++
pCol += 24
goto __1
goto __3
__3:
;
k = addAggInfoColumn(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pAggInfo)
if !(k < 0) {
goto __5
}
return
__5:
;
pCol = (*AggInfo)(unsafe.Pointer(pAggInfo)).FaCol + uintptr(k)*24
(*AggInfo_col)(unsafe.Pointer(pCol)).FpTab = *(*uintptr)(unsafe.Pointer(pExpr + 64))
(*AggInfo_col)(unsafe.Pointer(pCol)).FiTable = (*Expr)(unsafe.Pointer(pExpr)).FiTable
(*AggInfo_col)(unsafe.Pointer(pCol)).FiColumn = (*Expr)(unsafe.Pointer(pExpr)).FiColumn
(*AggInfo_col)(unsafe.Pointer(pCol)).FiSorterColumn = int16(-1)
(*AggInfo_col)(unsafe.Pointer(pCol)).FpCExpr = pExpr
if !((*AggInfo)(unsafe.Pointer(pAggInfo)).FpGroupBy != 0 && int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_IF_NULL_ROW) {
goto __6
}
pGB = (*AggInfo)(unsafe.Pointer(pAggInfo)).FpGroupBy
pTerm = pGB + 8
n = (*ExprList)(unsafe.Pointer(pGB)).FnExpr
j = 0
__7:
if !(j < n) {
goto __9
}
pE = (*ExprList_item)(unsafe.Pointer(pTerm)).FpExpr
if !(int32((*Expr)(unsafe.Pointer(pE)).Fop) == TK_COLUMN &&
(*Expr)(unsafe.Pointer(pE)).FiTable == (*Expr)(unsafe.Pointer(pExpr)).FiTable &&
int32((*Expr)(unsafe.Pointer(pE)).FiColumn) == int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn)) {
goto __10
}
(*AggInfo_col)(unsafe.Pointer(pCol)).FiSorterColumn = I16(j)
goto __9
__10:
;
goto __8
__8:
j++
pTerm += 32
goto __7
goto __9
__9:
;
__6:
;
if !(int32((*AggInfo_col)(unsafe.Pointer(pCol)).FiSorterColumn) < 0) {
goto __11
}
(*AggInfo_col)(unsafe.Pointer(pCol)).FiSorterColumn = I16(libc.PostIncUint16(&(*AggInfo)(unsafe.Pointer(pAggInfo)).FnSortingColumn, 1))
__11:
;
fix_up_expr:
;
(*Expr)(unsafe.Pointer(pExpr)).FpAggInfo = pAggInfo
if !(int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLUMN) {
goto __12
}
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_AGG_COLUMN)
__12:
;
(*Expr)(unsafe.Pointer(pExpr)).FiAgg = I16(k)
}
func analyzeAggregate(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
bp := tls.Alloc(72)
defer tls.Free(72)
var i int32
var pNC uintptr = *(*uintptr)(unsafe.Pointer(pWalker + 40))
var pParse uintptr = (*NameContext)(unsafe.Pointer(pNC)).FpParse
var pSrcList uintptr = (*NameContext)(unsafe.Pointer(pNC)).FpSrcList
var pAggInfo uintptr = *(*uintptr)(unsafe.Pointer(pNC + 16))
switch int32((*Expr)(unsafe.Pointer(pExpr)).Fop) {
default:
{
var pIEpr uintptr
if (*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_InAggFunc == 0 {
break
}
if (*Parse)(unsafe.Pointer(pParse)).FpIdxEpr == uintptr(0) {
break
}
for pIEpr = (*Parse)(unsafe.Pointer(pParse)).FpIdxEpr; pIEpr != 0; pIEpr = (*IndexedExpr)(unsafe.Pointer(pIEpr)).FpIENext {
var iDataCur int32 = (*IndexedExpr)(unsafe.Pointer(pIEpr)).FiDataCur
if iDataCur < 0 {
continue
}
if Xsqlite3ExprCompare(tls, uintptr(0), pExpr, (*IndexedExpr)(unsafe.Pointer(pIEpr)).FpExpr, iDataCur) == 0 {
break
}
}
if pIEpr == uintptr(0) {
break
}
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc|EP_Subrtn) == U32(0)) {
break
}
if (*Expr)(unsafe.Pointer(pExpr)).FpAggInfo != uintptr(0) {
break
}
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Expr{})), libc.X__builtin_object_size(tls, bp, 0))
(*Expr)(unsafe.Pointer(bp)).Fop = U8(TK_AGG_COLUMN)
(*Expr)(unsafe.Pointer(bp)).FiTable = (*IndexedExpr)(unsafe.Pointer(pIEpr)).FiIdxCur
(*Expr)(unsafe.Pointer(bp)).FiColumn = YnVar((*IndexedExpr)(unsafe.Pointer(pIEpr)).FiIdxCol)
findOrCreateAggInfoColumn(tls, pParse, pAggInfo, bp)
(*AggInfo_col)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaCol + uintptr((*Expr)(unsafe.Pointer(bp)).FiAgg)*24)).FpCExpr = pExpr
(*Expr)(unsafe.Pointer(pExpr)).FpAggInfo = pAggInfo
(*Expr)(unsafe.Pointer(pExpr)).FiAgg = (*Expr)(unsafe.Pointer(bp)).FiAgg
return WRC_Prune
}
case TK_IF_NULL_ROW:
fallthrough
case TK_AGG_COLUMN:
fallthrough
case TK_COLUMN:
{
if pSrcList != uintptr(0) {
var pItem uintptr = pSrcList + 8
i = 0
__1:
if !(i < (*SrcList)(unsafe.Pointer(pSrcList)).FnSrc) {
goto __3
}
{
if (*Expr)(unsafe.Pointer(pExpr)).FiTable == (*SrcItem)(unsafe.Pointer(pItem)).FiCursor {
findOrCreateAggInfoColumn(tls, pParse, pAggInfo, pExpr)
goto __3
}
}
goto __2
__2:
i++
pItem += 104
goto __1
goto __3
__3:
}
return WRC_Prune
}
case TK_AGG_FUNCTION:
{
if (*NameContext)(unsafe.Pointer(pNC)).FncFlags&NC_InAggFunc == 0 &&
(*Walker)(unsafe.Pointer(pWalker)).FwalkerDepth == int32((*Expr)(unsafe.Pointer(pExpr)).Fop2) {
var pItem uintptr = (*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc
i = 0
__4:
if !(i < (*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc) {
goto __6
}
{
if (*AggInfo_func)(unsafe.Pointer(pItem)).FpFExpr == pExpr {
goto __6
}
if Xsqlite3ExprCompare(tls, uintptr(0), (*AggInfo_func)(unsafe.Pointer(pItem)).FpFExpr, pExpr, -1) == 0 {
goto __6
}
}
goto __5
__5:
i++
pItem += 24
goto __4
goto __6
__6:
;
if i >= (*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc {
var enc U8 = (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Fenc
i = addAggInfoFunc(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pAggInfo)
if i >= 0 {
pItem = (*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc + uintptr(i)*24
(*AggInfo_func)(unsafe.Pointer(pItem)).FpFExpr = pExpr
(*AggInfo_func)(unsafe.Pointer(pItem)).FpFunc = Xsqlite3FindFunction(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb,
*(*uintptr)(unsafe.Pointer(pExpr + 8)),
func() int32 {
if *(*uintptr)(unsafe.Pointer(pExpr + 32)) != 0 {
return (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FnExpr
}
return 0
}(), enc, uint8(0))
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Distinct) != 0 {
(*AggInfo_func)(unsafe.Pointer(pItem)).FiDistinct = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
} else {
(*AggInfo_func)(unsafe.Pointer(pItem)).FiDistinct = -1
}
}
}
(*Expr)(unsafe.Pointer(pExpr)).FiAgg = I16(i)
(*Expr)(unsafe.Pointer(pExpr)).FpAggInfo = pAggInfo
return WRC_Prune
} else {
return WRC_Continue
}
}
}
return WRC_Continue
}
// Analyze the pExpr expression looking for aggregate functions and
// for variables that need to be added to AggInfo object that pNC->pAggInfo
// points to. Additional entries are made on the AggInfo object as
// necessary.
//
// This routine should only be called after the expression has been
// analyzed by sqlite3ResolveExprNames().
func Xsqlite3ExprAnalyzeAggregates(tls *libc.TLS, pNC uintptr, pExpr uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{analyzeAggregate}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{Xsqlite3WalkerDepthIncrease}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback2 = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3WalkerDepthDecrease}))
(*Walker)(unsafe.Pointer(bp)).FwalkerDepth = 0
*(*uintptr)(unsafe.Pointer(bp + 40)) = pNC
(*Walker)(unsafe.Pointer(bp)).FpParse = uintptr(0)
Xsqlite3WalkExpr(tls, bp, pExpr)
}
// Call sqlite3ExprAnalyzeAggregates() for every expression in an
// expression list. Return the number of errors.
//
// If an error is found, the analysis is cut short.
func Xsqlite3ExprAnalyzeAggList(tls *libc.TLS, pNC uintptr, pList uintptr) {
var pItem uintptr
var i int32
if pList != 0 {
pItem = pList + 8
i = 0
__1:
if !(i < (*ExprList)(unsafe.Pointer(pList)).FnExpr) {
goto __3
}
{
Xsqlite3ExprAnalyzeAggregates(tls, pNC, (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr)
}
goto __2
__2:
i++
pItem += 32
goto __1
goto __3
__3:
}
}
// Allocate a single new register for use to hold some intermediate result.
func Xsqlite3GetTempReg(tls *libc.TLS, pParse uintptr) int32 {
if int32((*Parse)(unsafe.Pointer(pParse)).FnTempReg) == 0 {
return libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
}
return *(*int32)(unsafe.Pointer(pParse + 228 + uintptr(libc.PreDecUint8(&(*Parse)(unsafe.Pointer(pParse)).FnTempReg, 1))*4))
}
// Deallocate a register, making available for reuse for some other
// purpose.
func Xsqlite3ReleaseTempReg(tls *libc.TLS, pParse uintptr, iReg int32) {
if iReg != 0 {
if int32((*Parse)(unsafe.Pointer(pParse)).FnTempReg) < int32(uint64(unsafe.Sizeof([8]int32{}))/uint64(unsafe.Sizeof(int32(0)))) {
*(*int32)(unsafe.Pointer(pParse + 228 + uintptr(libc.PostIncUint8(&(*Parse)(unsafe.Pointer(pParse)).FnTempReg, 1))*4)) = iReg
}
}
}
// Allocate or deallocate a block of nReg consecutive registers.
func Xsqlite3GetTempRange(tls *libc.TLS, pParse uintptr, nReg int32) int32 {
var i int32
var n int32
if nReg == 1 {
return Xsqlite3GetTempReg(tls, pParse)
}
i = (*Parse)(unsafe.Pointer(pParse)).FiRangeReg
n = (*Parse)(unsafe.Pointer(pParse)).FnRangeReg
if nReg <= n {
*(*int32)(unsafe.Pointer(pParse + 44)) += nReg
*(*int32)(unsafe.Pointer(pParse + 40)) -= nReg
} else {
i = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nReg
}
return i
}
func Xsqlite3ReleaseTempRange(tls *libc.TLS, pParse uintptr, iReg int32, nReg int32) {
if nReg == 1 {
Xsqlite3ReleaseTempReg(tls, pParse, iReg)
return
}
if nReg > (*Parse)(unsafe.Pointer(pParse)).FnRangeReg {
(*Parse)(unsafe.Pointer(pParse)).FnRangeReg = nReg
(*Parse)(unsafe.Pointer(pParse)).FiRangeReg = iReg
}
}
// Mark all temporary registers as being unavailable for reuse.
//
// Always invoke this procedure after coding a subroutine or co-routine
// that might be invoked from other parts of the code, to ensure that
// the sub/co-routine does not use registers in common with the code that
// invokes the sub/co-routine.
func Xsqlite3ClearTempRegCache(tls *libc.TLS, pParse uintptr) {
(*Parse)(unsafe.Pointer(pParse)).FnTempReg = U8(0)
(*Parse)(unsafe.Pointer(pParse)).FnRangeReg = 0
}
func isAlterableTable(tls *libc.TLS, pParse uintptr, pTab uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
if 0 == Xsqlite3_strnicmp(tls, (*Table)(unsafe.Pointer(pTab)).FzName, ts+6784, 7) ||
(*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_Eponymous) != U32(0) ||
(*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_Shadow) != U32(0) &&
Xsqlite3ReadOnlyShadowTables(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb) != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+8545, libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName))
return 1
}
return 0
}
func renameTestSchema(tls *libc.TLS, pParse uintptr, zDb uintptr, bTemp int32, zWhen uintptr, bNoDQS int32) {
bp := tls.Alloc(64)
defer tls.Free(64)
(*Parse)(unsafe.Pointer(pParse)).FcolNamesSet = U8(1)
Xsqlite3NestedParse(tls, pParse,
ts+8573,
libc.VaList(bp, zDb,
zDb, bTemp, zWhen, bNoDQS))
if bTemp == 0 {
Xsqlite3NestedParse(tls, pParse,
ts+8748,
libc.VaList(bp+40, zDb, zWhen, bNoDQS))
}
}
func renameFixQuotes(tls *libc.TLS, pParse uintptr, zDb uintptr, bTemp int32) {
bp := tls.Alloc(16)
defer tls.Free(16)
Xsqlite3NestedParse(tls, pParse,
ts+8922, libc.VaList(bp, zDb, zDb))
if bTemp == 0 {
Xsqlite3NestedParse(tls, pParse,
ts+9069, 0)
}
}
func renameReloadSchema(tls *libc.TLS, pParse uintptr, iDb int32, p5 U16) {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
if v != 0 {
Xsqlite3ChangeCookie(tls, pParse, iDb)
Xsqlite3VdbeAddParseSchemaOp(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, iDb, uintptr(0), p5)
if iDb != 1 {
Xsqlite3VdbeAddParseSchemaOp(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, 1, uintptr(0), p5)
}
}
}
// Generate code to implement the "ALTER TABLE xxx RENAME TO yyy"
// command.
func Xsqlite3AlterRenameTable(tls *libc.TLS, pParse uintptr, pSrc uintptr, pName uintptr) {
bp := tls.Alloc(184)
defer tls.Free(184)
var iDb int32
var zDb uintptr
var pTab uintptr
var zName uintptr
var db uintptr
var nTabName int32
var zTabName uintptr
var v uintptr
var pVTab uintptr
var i int32
zName = uintptr(0)
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
pVTab = uintptr(0)
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __1
}
goto exit_rename_table
__1:
;
pTab = Xsqlite3LocateTableItem(tls, pParse, uint32(0), pSrc+8)
if !!(pTab != 0) {
goto __2
}
goto exit_rename_table
__2:
;
iDb = Xsqlite3SchemaToIndex(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Table)(unsafe.Pointer(pTab)).FpSchema)
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
zName = Xsqlite3NameFromToken(tls, db, pName)
if !!(zName != 0) {
goto __3
}
goto exit_rename_table
__3:
;
if !(Xsqlite3FindTable(tls, db, zName, zDb) != 0 ||
Xsqlite3FindIndex(tls, db, zName, zDb) != 0 ||
Xsqlite3IsShadowTableOf(tls, db, pTab, zName) != 0) {
goto __4
}
Xsqlite3ErrorMsg(tls, pParse,
ts+9220, libc.VaList(bp, zName))
goto exit_rename_table
__4:
;
if !(SQLITE_OK != isAlterableTable(tls, pParse, pTab)) {
goto __5
}
goto exit_rename_table
__5:
;
if !(SQLITE_OK != Xsqlite3CheckObjectName(tls, pParse, zName, ts+9279, zName)) {
goto __6
}
goto exit_rename_table
__6:
;
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW) {
goto __7
}
Xsqlite3ErrorMsg(tls, pParse, ts+9285, libc.VaList(bp+8, (*Table)(unsafe.Pointer(pTab)).FzName))
goto exit_rename_table
__7:
;
if !(Xsqlite3AuthCheck(tls, pParse, SQLITE_ALTER_TABLE, zDb, (*Table)(unsafe.Pointer(pTab)).FzName, uintptr(0)) != 0) {
goto __8
}
goto exit_rename_table
__8:
;
if !(Xsqlite3ViewGetColumnNames(tls, pParse, pTab) != 0) {
goto __9
}
goto exit_rename_table
__9:
;
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __10
}
pVTab = Xsqlite3GetVTable(tls, db, pTab)
if !((*Sqlite3_module)(unsafe.Pointer((*Sqlite3_vtab)(unsafe.Pointer((*VTable)(unsafe.Pointer(pVTab)).FpVtab)).FpModule)).FxRename == uintptr(0)) {
goto __11
}
pVTab = uintptr(0)
__11:
;
__10:
;
v = Xsqlite3GetVdbe(tls, pParse)
if !(v == uintptr(0)) {
goto __12
}
goto exit_rename_table
__12:
;
Xsqlite3MayAbort(tls, pParse)
zTabName = (*Table)(unsafe.Pointer(pTab)).FzName
nTabName = Xsqlite3Utf8CharLen(tls, zTabName, -1)
Xsqlite3NestedParse(tls, pParse,
ts+9312, libc.VaList(bp+16, zDb, zDb, zTabName, zName, libc.Bool32(iDb == 1), zTabName))
Xsqlite3NestedParse(tls, pParse,
ts+9496,
libc.VaList(bp+64, zDb,
zName, zName, zName,
nTabName, zTabName))
if !(Xsqlite3FindTable(tls, db, ts+9801, zDb) != 0) {
goto __13
}
Xsqlite3NestedParse(tls, pParse,
ts+9817,
libc.VaList(bp+112, zDb, zName, (*Table)(unsafe.Pointer(pTab)).FzName))
__13:
;
if !(iDb != 1) {
goto __14
}
Xsqlite3NestedParse(tls, pParse,
ts+9875, libc.VaList(bp+136, zDb, zTabName, zName, zTabName, zDb, zName))
__14:
;
if !(pVTab != 0) {
goto __15
}
i = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeLoadString(tls, v, i, zName)
Xsqlite3VdbeAddOp4(tls, v, OP_VRename, i, 0, 0, pVTab, -11)
__15:
;
renameReloadSchema(tls, pParse, iDb, uint16(INITFLAG_AlterRename))
renameTestSchema(tls, pParse, zDb, libc.Bool32(iDb == 1), ts+10140, 0)
exit_rename_table:
Xsqlite3SrcListDelete(tls, db, pSrc)
Xsqlite3DbFree(tls, db, zName)
}
func sqlite3ErrorIfNotEmpty(tls *libc.TLS, pParse uintptr, zDb uintptr, zTab uintptr, zErr uintptr) {
bp := tls.Alloc(24)
defer tls.Free(24)
Xsqlite3NestedParse(tls, pParse,
ts+10153,
libc.VaList(bp, zErr, zDb, zTab))
}
// This function is called after an "ALTER TABLE ... ADD" statement
// has been parsed. Argument pColDef contains the text of the new
// column definition.
//
// The Table structure pParse->pNewTable was extended to include
// the new column during parsing.
func Xsqlite3AlterFinishAddColumn(tls *libc.TLS, pParse uintptr, pColDef uintptr) {
bp := tls.Alloc(64)
defer tls.Free(64)
var pNew uintptr
var pTab uintptr
var iDb int32
var zDb uintptr
var zTab uintptr
var zCol uintptr
var pCol uintptr
var pDflt uintptr
var db uintptr
var v uintptr
var r1 int32
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return
}
pNew = (*Parse)(unsafe.Pointer(pParse)).FpNewTable
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pNew)).FpSchema)
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
zTab = (*Table)(unsafe.Pointer(pNew)).FzName + 16
pCol = (*Table)(unsafe.Pointer(pNew)).FaCol + uintptr(int32((*Table)(unsafe.Pointer(pNew)).FnCol)-1)*24
pDflt = Xsqlite3ColumnExpr(tls, pNew, pCol)
pTab = Xsqlite3FindTable(tls, db, zTab, zDb)
if Xsqlite3AuthCheck(tls, pParse, SQLITE_ALTER_TABLE, zDb, (*Table)(unsafe.Pointer(pTab)).FzName, uintptr(0)) != 0 {
return
}
if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_PRIMKEY != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+10191, 0)
return
}
if (*Table)(unsafe.Pointer(pNew)).FpIndex != 0 {
Xsqlite3ErrorMsg(tls, pParse,
ts+10223, 0)
return
}
if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_GENERATED == 0 {
if pDflt != 0 && int32((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pDflt)).FpLeft)).Fop) == TK_NULL {
pDflt = uintptr(0)
}
if (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_ForeignKeys) != 0 && *(*uintptr)(unsafe.Pointer(pNew + 64 + 8)) != 0 && pDflt != 0 {
sqlite3ErrorIfNotEmpty(tls, pParse, zDb, zTab,
ts+10250)
}
if uint32(int32(*(*uint8)(unsafe.Pointer(pCol + 8))&0xf>>0)) != 0 && !(pDflt != 0) {
sqlite3ErrorIfNotEmpty(tls, pParse, zDb, zTab,
ts+10309)
}
if pDflt != 0 {
*(*uintptr)(unsafe.Pointer(bp + 56)) = uintptr(0)
var rc int32
rc = Xsqlite3ValueFromExpr(tls, db, pDflt, uint8(SQLITE_UTF8), uint8(SQLITE_AFF_BLOB), bp+56)
if rc != SQLITE_OK {
return
}
if !(*(*uintptr)(unsafe.Pointer(bp + 56)) != 0) {
sqlite3ErrorIfNotEmpty(tls, pParse, zDb, zTab,
ts+10362)
}
Xsqlite3ValueFree(tls, *(*uintptr)(unsafe.Pointer(bp + 56)))
}
} else if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_STORED != 0 {
sqlite3ErrorIfNotEmpty(tls, pParse, zDb, zTab, ts+10408)
}
zCol = Xsqlite3DbStrNDup(tls, db, (*Token)(unsafe.Pointer(pColDef)).Fz, uint64((*Token)(unsafe.Pointer(pColDef)).Fn))
if zCol != 0 {
var zEnd uintptr = zCol + uintptr((*Token)(unsafe.Pointer(pColDef)).Fn-uint32(1))
for zEnd > zCol && (int32(*(*int8)(unsafe.Pointer(zEnd))) == ';' || int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zEnd)))])&0x01 != 0) {
*(*int8)(unsafe.Pointer(libc.PostDecUintptr(&zEnd, 1))) = int8(0)
}
Xsqlite3NestedParse(tls, pParse,
ts+10435,
libc.VaList(bp, zDb, *(*int32)(unsafe.Pointer(pNew + 64)), zCol, *(*int32)(unsafe.Pointer(pNew + 64)),
zTab))
Xsqlite3DbFree(tls, db, zCol)
}
v = Xsqlite3GetVdbe(tls, pParse)
if v != 0 {
r1 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp3(tls, v, OP_ReadCookie, iDb, r1, BTREE_FILE_FORMAT)
Xsqlite3VdbeUsesBtree(tls, v, iDb)
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, r1, -2)
Xsqlite3VdbeAddOp2(tls, v, OP_IfPos, r1, Xsqlite3VdbeCurrentAddr(tls, v)+2)
Xsqlite3VdbeAddOp3(tls, v, OP_SetCookie, iDb, BTREE_FILE_FORMAT, 3)
Xsqlite3ReleaseTempReg(tls, pParse, r1)
renameReloadSchema(tls, pParse, iDb, uint16(INITFLAG_AlterAdd))
if (*Table)(unsafe.Pointer(pNew)).FpCheck != uintptr(0) ||
uint32(int32(*(*uint8)(unsafe.Pointer(pCol + 8))&0xf>>0)) != 0 && int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_GENERATED != 0 {
Xsqlite3NestedParse(tls, pParse,
ts+10581,
libc.VaList(bp+40, zTab, zDb))
}
}
}
// This function is called by the parser after the table-name in
// an "ALTER TABLE <table-name> ADD" statement is parsed. Argument
// pSrc is the full-name of the table being altered.
//
// This routine makes a (partial) copy of the Table structure
// for the table being altered and sets Parse.pNewTable to point
// to it. Routines called by the parser as the column definition
// is parsed (i.e. sqlite3AddColumn()) add the new Column data to
// the copy. The copy of the Table structure is deleted by tokenize.c
// after parsing is finished.
//
// Routine sqlite3AlterFinishAddColumn() will be called to complete
// coding the "ALTER TABLE ... ADD" statement.
func Xsqlite3AlterBeginAddColumn(tls *libc.TLS, pParse uintptr, pSrc uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pNew uintptr
var pTab uintptr
var iDb int32
var i int32
var nAlloc int32
var db uintptr
var pCol uintptr
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __1
}
goto exit_begin_add_column
__1:
;
pTab = Xsqlite3LocateTableItem(tls, pParse, uint32(0), pSrc+8)
if !!(pTab != 0) {
goto __2
}
goto exit_begin_add_column
__2:
;
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __3
}
Xsqlite3ErrorMsg(tls, pParse, ts+10811, 0)
goto exit_begin_add_column
__3:
;
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW) {
goto __4
}
Xsqlite3ErrorMsg(tls, pParse, ts+10845, 0)
goto exit_begin_add_column
__4:
;
if !(SQLITE_OK != isAlterableTable(tls, pParse, pTab)) {
goto __5
}
goto exit_begin_add_column
__5:
;
Xsqlite3MayAbort(tls, pParse)
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
pNew = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Table{})))
if !!(pNew != 0) {
goto __6
}
goto exit_begin_add_column
__6:
;
(*Parse)(unsafe.Pointer(pParse)).FpNewTable = pNew
(*Table)(unsafe.Pointer(pNew)).FnTabRef = U32(1)
(*Table)(unsafe.Pointer(pNew)).FnCol = (*Table)(unsafe.Pointer(pTab)).FnCol
nAlloc = (int32((*Table)(unsafe.Pointer(pNew)).FnCol)-1)/8*8 + 8
(*Table)(unsafe.Pointer(pNew)).FaCol = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Column{}))*uint64(nAlloc))
(*Table)(unsafe.Pointer(pNew)).FzName = Xsqlite3MPrintf(tls, db, ts+10875, libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName))
if !(!(int32((*Table)(unsafe.Pointer(pNew)).FaCol) != 0) || !(int32((*Table)(unsafe.Pointer(pNew)).FzName) != 0)) {
goto __7
}
goto exit_begin_add_column
__7:
;
libc.X__builtin___memcpy_chk(tls, (*Table)(unsafe.Pointer(pNew)).FaCol, (*Table)(unsafe.Pointer(pTab)).FaCol, uint64(unsafe.Sizeof(Column{}))*uint64((*Table)(unsafe.Pointer(pNew)).FnCol), libc.X__builtin_object_size(tls, (*Table)(unsafe.Pointer(pNew)).FaCol, 0))
i = 0
__8:
if !(i < int32((*Table)(unsafe.Pointer(pNew)).FnCol)) {
goto __10
}
pCol = (*Table)(unsafe.Pointer(pNew)).FaCol + uintptr(i)*24
(*Column)(unsafe.Pointer(pCol)).FzCnName = Xsqlite3DbStrDup(tls, db, (*Column)(unsafe.Pointer(pCol)).FzCnName)
(*Column)(unsafe.Pointer(pCol)).FhName = Xsqlite3StrIHash(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName)
goto __9
__9:
i++
goto __8
goto __10
__10:
;
*(*uintptr)(unsafe.Pointer(pNew + 64 + 16)) = Xsqlite3ExprListDup(tls, db, *(*uintptr)(unsafe.Pointer(pTab + 64 + 16)), 0)
(*Table)(unsafe.Pointer(pNew)).FpSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpSchema
*(*int32)(unsafe.Pointer(pNew + 64)) = *(*int32)(unsafe.Pointer(pTab + 64))
(*Table)(unsafe.Pointer(pNew)).FnTabRef = U32(1)
exit_begin_add_column:
Xsqlite3SrcListDelete(tls, db, pSrc)
return
}
func isRealTable(tls *libc.TLS, pParse uintptr, pTab uintptr, bDrop int32) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var zType uintptr = uintptr(0)
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW {
zType = ts + 10894
}
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB {
zType = ts + 10899
}
if zType != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+10913,
libc.VaList(bp, func() uintptr {
if bDrop != 0 {
return ts + 10931
}
return ts + 10948
}(),
zType, (*Table)(unsafe.Pointer(pTab)).FzName))
return 1
}
return 0
}
// Handles the following parser reduction:
//
// cmd ::= ALTER TABLE pSrc RENAME COLUMN pOld TO pNew
func Xsqlite3AlterRenameColumn(tls *libc.TLS, pParse uintptr, pSrc uintptr, pOld uintptr, pNew uintptr) {
bp := tls.Alloc(112)
defer tls.Free(112)
var db uintptr
var pTab uintptr
var iCol int32
var zOld uintptr
var zNew uintptr
var zDb uintptr
var iSchema int32
var bQuote int32
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
zOld = uintptr(0)
zNew = uintptr(0)
pTab = Xsqlite3LocateTableItem(tls, pParse, uint32(0), pSrc+8)
if !!(pTab != 0) {
goto __1
}
goto exit_rename_column
__1:
;
if !(SQLITE_OK != isAlterableTable(tls, pParse, pTab)) {
goto __2
}
goto exit_rename_column
__2:
;
if !(SQLITE_OK != isRealTable(tls, pParse, pTab, 0)) {
goto __3
}
goto exit_rename_column
__3:
;
iSchema = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iSchema)*32)).FzDbSName
if !(Xsqlite3AuthCheck(tls, pParse, SQLITE_ALTER_TABLE, zDb, (*Table)(unsafe.Pointer(pTab)).FzName, uintptr(0)) != 0) {
goto __4
}
goto exit_rename_column
__4:
;
zOld = Xsqlite3NameFromToken(tls, db, pOld)
if !!(zOld != 0) {
goto __5
}
goto exit_rename_column
__5:
;
iCol = 0
__6:
if !(iCol < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __8
}
if !(0 == Xsqlite3StrICmp(tls, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(iCol)*24)).FzCnName, zOld)) {
goto __9
}
goto __8
__9:
;
goto __7
__7:
iCol++
goto __6
goto __8
__8:
;
if !(iCol == int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __10
}
Xsqlite3ErrorMsg(tls, pParse, ts+10966, libc.VaList(bp, pOld))
goto exit_rename_column
__10:
;
renameTestSchema(tls, pParse, zDb, libc.Bool32(iSchema == 1), ts+1547, 0)
renameFixQuotes(tls, pParse, zDb, libc.Bool32(iSchema == 1))
Xsqlite3MayAbort(tls, pParse)
zNew = Xsqlite3NameFromToken(tls, db, pNew)
if !!(zNew != 0) {
goto __11
}
goto exit_rename_column
__11:
;
bQuote = int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer((*Token)(unsafe.Pointer(pNew)).Fz)))]) & 0x80
Xsqlite3NestedParse(tls, pParse,
ts+10987,
libc.VaList(bp+8, zDb,
zDb, (*Table)(unsafe.Pointer(pTab)).FzName, iCol, zNew, bQuote, libc.Bool32(iSchema == 1),
(*Table)(unsafe.Pointer(pTab)).FzName))
Xsqlite3NestedParse(tls, pParse,
ts+11169,
libc.VaList(bp+72, zDb, (*Table)(unsafe.Pointer(pTab)).FzName, iCol, zNew, bQuote))
renameReloadSchema(tls, pParse, iSchema, uint16(INITFLAG_AlterRename))
renameTestSchema(tls, pParse, zDb, libc.Bool32(iSchema == 1), ts+10140, 1)
exit_rename_column:
Xsqlite3SrcListDelete(tls, db, pSrc)
Xsqlite3DbFree(tls, db, zOld)
Xsqlite3DbFree(tls, db, zNew)
return
}
// The context of an ALTER TABLE RENAME COLUMN operation that gets passed
// down into the Walker.
type RenameCtx = RenameCtx1
// Remember that the parser tree element pPtr was created using
// the token pToken.
//
// In other words, construct a new RenameToken object and add it
// to the list of RenameToken objects currently being built up
// in pParse->pRename.
//
// The pPtr argument is returned so that this routine can be used
// with tail recursion in tokenExpr() routine, for a small performance
// improvement.
func Xsqlite3RenameTokenMap(tls *libc.TLS, pParse uintptr, pPtr uintptr, pToken uintptr) uintptr {
var pNew uintptr
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) != PARSE_MODE_UNMAP {
pNew = Xsqlite3DbMallocZero(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(RenameToken{})))
if pNew != 0 {
(*RenameToken)(unsafe.Pointer(pNew)).Fp = pPtr
(*RenameToken)(unsafe.Pointer(pNew)).Ft = *(*Token)(unsafe.Pointer(pToken))
(*RenameToken)(unsafe.Pointer(pNew)).FpNext = (*Parse)(unsafe.Pointer(pParse)).FpRename
(*Parse)(unsafe.Pointer(pParse)).FpRename = pNew
}
}
return pPtr
}
// It is assumed that there is already a RenameToken object associated
// with parse tree element pFrom. This function remaps the associated token
// to parse tree element pTo.
func Xsqlite3RenameTokenRemap(tls *libc.TLS, pParse uintptr, pTo uintptr, pFrom uintptr) {
var p uintptr
for p = (*Parse)(unsafe.Pointer(pParse)).FpRename; p != 0; p = (*RenameToken)(unsafe.Pointer(p)).FpNext {
if (*RenameToken)(unsafe.Pointer(p)).Fp == pFrom {
(*RenameToken)(unsafe.Pointer(p)).Fp = pTo
break
}
}
}
func renameUnmapExprCb(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
var pParse uintptr = (*Walker)(unsafe.Pointer(pWalker)).FpParse
Xsqlite3RenameTokenRemap(tls, pParse, uintptr(0), pExpr)
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc|EP_Subrtn) == U32(0) {
Xsqlite3RenameTokenRemap(tls, pParse, uintptr(0), pExpr+64)
}
return WRC_Continue
}
func renameWalkWith(tls *libc.TLS, pWalker uintptr, pSelect uintptr) {
bp := tls.Alloc(56)
defer tls.Free(56)
var pWith uintptr = (*Select)(unsafe.Pointer(pSelect)).FpWith
if pWith != 0 {
var pParse uintptr = (*Walker)(unsafe.Pointer(pWalker)).FpParse
var i int32
var pCopy uintptr = uintptr(0)
if (*Select)(unsafe.Pointer((*Cte)(unsafe.Pointer(pWith+16)).FpSelect)).FselFlags&U32(SF_Expanded) == U32(0) {
pCopy = Xsqlite3WithDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pWith)
pCopy = Xsqlite3WithPush(tls, pParse, pCopy, uint8(1))
}
for i = 0; i < (*With)(unsafe.Pointer(pWith)).FnCte; i++ {
var p uintptr = (*Cte)(unsafe.Pointer(pWith + 16 + uintptr(i)*48)).FpSelect
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp, 0))
(*NameContext)(unsafe.Pointer(bp)).FpParse = pParse
if pCopy != 0 {
Xsqlite3SelectPrep(tls, (*NameContext)(unsafe.Pointer(bp)).FpParse, p, bp)
}
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer((*NameContext)(unsafe.Pointer(bp)).FpParse)).Fdb)).FmallocFailed != 0 {
return
}
Xsqlite3WalkSelect(tls, pWalker, p)
Xsqlite3RenameExprlistUnmap(tls, pParse, (*Cte)(unsafe.Pointer(pWith+16+uintptr(i)*48)).FpCols)
}
if pCopy != 0 && (*Parse)(unsafe.Pointer(pParse)).FpWith == pCopy {
(*Parse)(unsafe.Pointer(pParse)).FpWith = (*With)(unsafe.Pointer(pCopy)).FpOuter
}
}
}
func unmapColumnIdlistNames(tls *libc.TLS, pParse uintptr, pIdList uintptr) {
var ii int32
for ii = 0; ii < (*IdList)(unsafe.Pointer(pIdList)).FnId; ii++ {
Xsqlite3RenameTokenRemap(tls, pParse, uintptr(0), (*IdList_item)(unsafe.Pointer(pIdList+8+uintptr(ii)*16)).FzName)
}
}
func renameUnmapSelectCb(tls *libc.TLS, pWalker uintptr, p uintptr) int32 {
var pParse uintptr = (*Walker)(unsafe.Pointer(pWalker)).FpParse
var i int32
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return WRC_Abort
}
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_View|SF_CopyCte) != 0 {
return WRC_Prune
}
if (*Select)(unsafe.Pointer(p)).FpEList != 0 {
var pList uintptr = (*Select)(unsafe.Pointer(p)).FpEList
for i = 0; i < (*ExprList)(unsafe.Pointer(pList)).FnExpr; i++ {
if (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(i)*32)).FzEName != 0 && int32(*(*uint16)(unsafe.Pointer(pList + 8 + uintptr(i)*32 + 16 + 4))&0x3>>0) == ENAME_NAME {
Xsqlite3RenameTokenRemap(tls, pParse, uintptr(0), (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(i)*32)).FzEName)
}
}
}
if (*Select)(unsafe.Pointer(p)).FpSrc != 0 {
var pSrc uintptr = (*Select)(unsafe.Pointer(p)).FpSrc
for i = 0; i < (*SrcList)(unsafe.Pointer(pSrc)).FnSrc; i++ {
Xsqlite3RenameTokenRemap(tls, pParse, uintptr(0), (*SrcItem)(unsafe.Pointer(pSrc+8+uintptr(i)*104)).FzName)
if int32(*(*uint16)(unsafe.Pointer(pSrc + 8 + uintptr(i)*104 + 60 + 4))&0x400>>10) == 0 {
Xsqlite3WalkExpr(tls, pWalker, *(*uintptr)(unsafe.Pointer(pSrc + 8 + uintptr(i)*104 + 72)))
} else {
unmapColumnIdlistNames(tls, pParse, *(*uintptr)(unsafe.Pointer(pSrc + 8 + uintptr(i)*104 + 72)))
}
}
}
renameWalkWith(tls, pWalker, p)
return WRC_Continue
}
// Remove all nodes that are part of expression pExpr from the rename list.
func Xsqlite3RenameExprUnmap(tls *libc.TLS, pParse uintptr, pExpr uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
var eMode U8 = (*Parse)(unsafe.Pointer(pParse)).FeParseMode
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
(*Walker)(unsafe.Pointer(bp)).FpParse = pParse
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{renameUnmapExprCb}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{renameUnmapSelectCb}))
(*Parse)(unsafe.Pointer(pParse)).FeParseMode = U8(PARSE_MODE_UNMAP)
Xsqlite3WalkExpr(tls, bp, pExpr)
(*Parse)(unsafe.Pointer(pParse)).FeParseMode = eMode
}
// Remove all nodes that are part of expression-list pEList from the
// rename list.
func Xsqlite3RenameExprlistUnmap(tls *libc.TLS, pParse uintptr, pEList uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
if pEList != 0 {
var i int32
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
(*Walker)(unsafe.Pointer(bp)).FpParse = pParse
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{renameUnmapExprCb}))
Xsqlite3WalkExprList(tls, bp, pEList)
for i = 0; i < (*ExprList)(unsafe.Pointer(pEList)).FnExpr; i++ {
if int32(*(*uint16)(unsafe.Pointer(pEList + 8 + uintptr(i)*32 + 16 + 4))&0x3>>0) == ENAME_NAME {
Xsqlite3RenameTokenRemap(tls, pParse, uintptr(0), (*ExprList_item)(unsafe.Pointer(pEList+8+uintptr(i)*32)).FzEName)
}
}
}
}
func renameTokenFree(tls *libc.TLS, db uintptr, pToken uintptr) {
var pNext uintptr
var p uintptr
for p = pToken; p != 0; p = pNext {
pNext = (*RenameToken)(unsafe.Pointer(p)).FpNext
Xsqlite3DbFree(tls, db, p)
}
}
func renameTokenFind(tls *libc.TLS, pParse uintptr, pCtx uintptr, pPtr uintptr) uintptr {
var pp uintptr
if pPtr == uintptr(0) {
return uintptr(0)
}
for pp = pParse + 416; *(*uintptr)(unsafe.Pointer(pp)) != 0; pp = *(*uintptr)(unsafe.Pointer(pp)) + 24 {
if (*RenameToken)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).Fp == pPtr {
var pToken uintptr = *(*uintptr)(unsafe.Pointer(pp))
if pCtx != 0 {
*(*uintptr)(unsafe.Pointer(pp)) = (*RenameToken)(unsafe.Pointer(pToken)).FpNext
(*RenameToken)(unsafe.Pointer(pToken)).FpNext = (*RenameCtx1)(unsafe.Pointer(pCtx)).FpList
(*RenameCtx1)(unsafe.Pointer(pCtx)).FpList = pToken
(*RenameCtx1)(unsafe.Pointer(pCtx)).FnList++
}
return pToken
}
}
return uintptr(0)
}
func renameColumnSelectCb(tls *libc.TLS, pWalker uintptr, p uintptr) int32 {
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_View|SF_CopyCte) != 0 {
return WRC_Prune
}
renameWalkWith(tls, pWalker, p)
return WRC_Continue
}
func renameColumnExprCb(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
var p uintptr = *(*uintptr)(unsafe.Pointer(pWalker + 40))
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_TRIGGER &&
int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn) == (*RenameCtx)(unsafe.Pointer(p)).FiCol &&
(*Parse)(unsafe.Pointer((*Walker)(unsafe.Pointer(pWalker)).FpParse)).FpTriggerTab == (*RenameCtx)(unsafe.Pointer(p)).FpTab {
renameTokenFind(tls, (*Walker)(unsafe.Pointer(pWalker)).FpParse, p, pExpr)
} else if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLUMN &&
int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn) == (*RenameCtx)(unsafe.Pointer(p)).FiCol &&
(*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc|EP_Subrtn) == U32(0) &&
(*RenameCtx)(unsafe.Pointer(p)).FpTab == *(*uintptr)(unsafe.Pointer(pExpr + 64)) {
renameTokenFind(tls, (*Walker)(unsafe.Pointer(pWalker)).FpParse, p, pExpr)
}
return WRC_Continue
}
func renameColumnTokenNext(tls *libc.TLS, pCtx uintptr) uintptr {
var pBest uintptr = (*RenameCtx)(unsafe.Pointer(pCtx)).FpList
var pToken uintptr
var pp uintptr
for pToken = (*RenameToken)(unsafe.Pointer(pBest)).FpNext; pToken != 0; pToken = (*RenameToken)(unsafe.Pointer(pToken)).FpNext {
if (*RenameToken)(unsafe.Pointer(pToken)).Ft.Fz > (*RenameToken)(unsafe.Pointer(pBest)).Ft.Fz {
pBest = pToken
}
}
for pp = pCtx; *(*uintptr)(unsafe.Pointer(pp)) != pBest; pp = *(*uintptr)(unsafe.Pointer(pp)) + 24 {
}
*(*uintptr)(unsafe.Pointer(pp)) = (*RenameToken)(unsafe.Pointer(pBest)).FpNext
return pBest
}
func renameColumnParseError(tls *libc.TLS, pCtx uintptr, zWhen uintptr, pType uintptr, pObject uintptr, pParse uintptr) {
bp := tls.Alloc(40)
defer tls.Free(40)
var zT uintptr = Xsqlite3_value_text(tls, pType)
var zN uintptr = Xsqlite3_value_text(tls, pObject)
var zErr uintptr
zErr = Xsqlite3MPrintf(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, ts+11300,
libc.VaList(bp, zT, zN, func() uintptr {
if *(*int8)(unsafe.Pointer(zWhen)) != 0 {
return ts + 11323
}
return ts + 1547
}(), zWhen,
(*Parse)(unsafe.Pointer(pParse)).FzErrMsg))
Xsqlite3_result_error(tls, pCtx, zErr, -1)
Xsqlite3DbFree(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, zErr)
}
func renameColumnElistNames(tls *libc.TLS, pParse uintptr, pCtx uintptr, pEList uintptr, zOld uintptr) {
if pEList != 0 {
var i int32
for i = 0; i < (*ExprList)(unsafe.Pointer(pEList)).FnExpr; i++ {
var zName uintptr = (*ExprList_item)(unsafe.Pointer(pEList + 8 + uintptr(i)*32)).FzEName
if int32(*(*uint16)(unsafe.Pointer(pEList + 8 + uintptr(i)*32 + 16 + 4))&0x3>>0) == ENAME_NAME &&
zName != uintptr(0) &&
0 == Xsqlite3_stricmp(tls, zName, zOld) {
renameTokenFind(tls, pParse, pCtx, zName)
}
}
}
}
func renameColumnIdlistNames(tls *libc.TLS, pParse uintptr, pCtx uintptr, pIdList uintptr, zOld uintptr) {
if pIdList != 0 {
var i int32
for i = 0; i < (*IdList)(unsafe.Pointer(pIdList)).FnId; i++ {
var zName uintptr = (*IdList_item)(unsafe.Pointer(pIdList + 8 + uintptr(i)*16)).FzName
if 0 == Xsqlite3_stricmp(tls, zName, zOld) {
renameTokenFind(tls, pParse, pCtx, zName)
}
}
}
}
func renameParseSql(tls *libc.TLS, p uintptr, zDb uintptr, db uintptr, zSql uintptr, bTemp int32) int32 {
var rc int32
Xsqlite3ParseObjectInit(tls, p, db)
if zSql == uintptr(0) {
return SQLITE_NOMEM
}
if Xsqlite3_strnicmp(tls, zSql, ts+11325, 7) != 0 {
return Xsqlite3CorruptError(tls, 113494)
}
(*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb = func() uint8 {
if bTemp != 0 {
return uint8(1)
}
return uint8(Xsqlite3FindDbName(tls, db, zDb))
}()
(*Parse)(unsafe.Pointer(p)).FeParseMode = U8(PARSE_MODE_RENAME)
(*Parse)(unsafe.Pointer(p)).Fdb = db
(*Parse)(unsafe.Pointer(p)).FnQueryLoop = U32(1)
rc = Xsqlite3RunParser(tls, p, zSql)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
rc = SQLITE_NOMEM
}
if rc == SQLITE_OK &&
((*Parse)(unsafe.Pointer(p)).FpNewTable == uintptr(0) && (*Parse)(unsafe.Pointer(p)).FpNewIndex == uintptr(0) && (*Parse)(unsafe.Pointer(p)).FpNewTrigger == uintptr(0)) {
rc = Xsqlite3CorruptError(tls, 113505)
}
(*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb = U8(0)
return rc
}
func renameEditSql(tls *libc.TLS, pCtx uintptr, pRename uintptr, zSql uintptr, zNew uintptr, bQuote int32) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var nNew I64 = I64(Xsqlite3Strlen30(tls, zNew))
var nSql I64 = I64(Xsqlite3Strlen30(tls, zSql))
var db uintptr = Xsqlite3_context_db_handle(tls, pCtx)
var rc int32 = SQLITE_OK
var zQuot uintptr = uintptr(0)
var zOut uintptr
var nQuot I64 = int64(0)
var zBuf1 uintptr = uintptr(0)
var zBuf2 uintptr = uintptr(0)
if zNew != 0 {
zQuot = Xsqlite3MPrintf(tls, db, ts+11333, libc.VaList(bp, zNew))
if zQuot == uintptr(0) {
return SQLITE_NOMEM
} else {
nQuot = I64(Xsqlite3Strlen30(tls, zQuot) - 1)
}
zOut = Xsqlite3DbMallocZero(tls, db, uint64(nSql+I64((*RenameCtx)(unsafe.Pointer(pRename)).FnList)*nQuot+int64(1)))
} else {
zOut = Xsqlite3DbMallocZero(tls, db, uint64((nSql*int64(2)+int64(1))*int64(3)))
if zOut != 0 {
zBuf1 = zOut + uintptr(nSql*int64(2)+int64(1))
zBuf2 = zOut + uintptr(nSql*int64(4)+int64(2))
}
}
if zOut != 0 {
var nOut int32 = int32(nSql)
libc.X__builtin___memcpy_chk(tls, zOut, zSql, uint64(nSql), libc.X__builtin_object_size(tls, zOut, 0))
for (*RenameCtx)(unsafe.Pointer(pRename)).FpList != 0 {
var iOff int32
var nReplace U32
var zReplace uintptr
var pBest uintptr = renameColumnTokenNext(tls, pRename)
if zNew != 0 {
if bQuote == 0 && Xsqlite3IsIdChar(tls, uint8(*(*int8)(unsafe.Pointer((*RenameToken)(unsafe.Pointer(pBest)).Ft.Fz)))) != 0 {
nReplace = U32(nNew)
zReplace = zNew
} else {
nReplace = U32(nQuot)
zReplace = zQuot
if int32(*(*int8)(unsafe.Pointer((*RenameToken)(unsafe.Pointer(pBest)).Ft.Fz + uintptr((*RenameToken)(unsafe.Pointer(pBest)).Ft.Fn)))) == '"' {
nReplace++
}
}
} else {
libc.X__builtin___memcpy_chk(tls, zBuf1, (*RenameToken)(unsafe.Pointer(pBest)).Ft.Fz, uint64((*RenameToken)(unsafe.Pointer(pBest)).Ft.Fn), libc.X__builtin_object_size(tls, zBuf1, 0))
*(*int8)(unsafe.Pointer(zBuf1 + uintptr((*RenameToken)(unsafe.Pointer(pBest)).Ft.Fn))) = int8(0)
Xsqlite3Dequote(tls, zBuf1)
Xsqlite3_snprintf(tls, int32(nSql*int64(2)), zBuf2, ts+11339, libc.VaList(bp+8, zBuf1,
func() uintptr {
if int32(*(*int8)(unsafe.Pointer((*RenameToken)(unsafe.Pointer(pBest)).Ft.Fz + uintptr((*RenameToken)(unsafe.Pointer(pBest)).Ft.Fn)))) == '\'' {
return ts + 11323
}
return ts + 1547
}()))
zReplace = zBuf2
nReplace = U32(Xsqlite3Strlen30(tls, zReplace))
}
iOff = int32((int64((*RenameToken)(unsafe.Pointer(pBest)).Ft.Fz) - int64(zSql)) / 1)
if (*RenameToken)(unsafe.Pointer(pBest)).Ft.Fn != nReplace {
libc.X__builtin___memmove_chk(tls, zOut+uintptr(U32(iOff)+nReplace), zOut+uintptr(uint32(iOff)+(*RenameToken)(unsafe.Pointer(pBest)).Ft.Fn), uint64(uint32(nOut)-(uint32(iOff)+(*RenameToken)(unsafe.Pointer(pBest)).Ft.Fn)), libc.X__builtin_object_size(tls, zOut+uintptr(U32(iOff)+nReplace), 0))
nOut = int32(U32(nOut) + (nReplace - (*RenameToken)(unsafe.Pointer(pBest)).Ft.Fn))
*(*int8)(unsafe.Pointer(zOut + uintptr(nOut))) = int8(0)
}
libc.X__builtin___memcpy_chk(tls, zOut+uintptr(iOff), zReplace, uint64(nReplace), libc.X__builtin_object_size(tls, zOut+uintptr(iOff), 0))
Xsqlite3DbFree(tls, db, pBest)
}
Xsqlite3_result_text(tls, pCtx, zOut, -1, libc.UintptrFromInt32(-1))
Xsqlite3DbFree(tls, db, zOut)
} else {
rc = SQLITE_NOMEM
}
Xsqlite3_free(tls, zQuot)
return rc
}
func renameResolveTrigger(tls *libc.TLS, pParse uintptr) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pNew uintptr = (*Parse)(unsafe.Pointer(pParse)).FpNewTrigger
var pStep uintptr
var rc int32 = SQLITE_OK
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp, 0))
(*NameContext)(unsafe.Pointer(bp)).FpParse = pParse
(*Parse)(unsafe.Pointer(pParse)).FpTriggerTab = Xsqlite3FindTable(tls, db, (*Trigger)(unsafe.Pointer(pNew)).Ftable,
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(Xsqlite3SchemaToIndex(tls, db, (*Trigger)(unsafe.Pointer(pNew)).FpTabSchema))*32)).FzDbSName)
(*Parse)(unsafe.Pointer(pParse)).FeTriggerOp = (*Trigger)(unsafe.Pointer(pNew)).Fop
if (*Parse)(unsafe.Pointer(pParse)).FpTriggerTab != 0 {
rc = Xsqlite3ViewGetColumnNames(tls, pParse, (*Parse)(unsafe.Pointer(pParse)).FpTriggerTab)
}
if rc == SQLITE_OK && (*Trigger)(unsafe.Pointer(pNew)).FpWhen != 0 {
rc = Xsqlite3ResolveExprNames(tls, bp, (*Trigger)(unsafe.Pointer(pNew)).FpWhen)
}
for pStep = (*Trigger)(unsafe.Pointer(pNew)).Fstep_list; rc == SQLITE_OK && pStep != 0; pStep = (*TriggerStep)(unsafe.Pointer(pStep)).FpNext {
if (*TriggerStep)(unsafe.Pointer(pStep)).FpSelect != 0 {
Xsqlite3SelectPrep(tls, pParse, (*TriggerStep)(unsafe.Pointer(pStep)).FpSelect, bp)
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
rc = (*Parse)(unsafe.Pointer(pParse)).Frc
}
}
if rc == SQLITE_OK && (*TriggerStep)(unsafe.Pointer(pStep)).FzTarget != 0 {
var pSrc uintptr = Xsqlite3TriggerStepSrc(tls, pParse, pStep)
if pSrc != 0 {
var pSel uintptr = Xsqlite3SelectNew(tls,
pParse, (*TriggerStep)(unsafe.Pointer(pStep)).FpExprList, pSrc, uintptr(0), uintptr(0), uintptr(0), uintptr(0), uint32(0), uintptr(0))
if pSel == uintptr(0) {
(*TriggerStep)(unsafe.Pointer(pStep)).FpExprList = uintptr(0)
pSrc = uintptr(0)
rc = SQLITE_NOMEM
} else {
Xsqlite3SelectPrep(tls, pParse, pSel, uintptr(0))
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
rc = SQLITE_ERROR
} else {
rc = SQLITE_OK
}
if (*TriggerStep)(unsafe.Pointer(pStep)).FpExprList != 0 {
(*Select)(unsafe.Pointer(pSel)).FpEList = uintptr(0)
}
(*Select)(unsafe.Pointer(pSel)).FpSrc = uintptr(0)
Xsqlite3SelectDelete(tls, db, pSel)
}
if (*TriggerStep)(unsafe.Pointer(pStep)).FpFrom != 0 {
var i int32
for i = 0; i < (*SrcList)(unsafe.Pointer((*TriggerStep)(unsafe.Pointer(pStep)).FpFrom)).FnSrc && rc == SQLITE_OK; i++ {
var p uintptr = (*TriggerStep)(unsafe.Pointer(pStep)).FpFrom + 8 + uintptr(i)*104
if (*SrcItem)(unsafe.Pointer(p)).FpSelect != 0 {
Xsqlite3SelectPrep(tls, pParse, (*SrcItem)(unsafe.Pointer(p)).FpSelect, uintptr(0))
}
}
}
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
rc = SQLITE_NOMEM
}
(*NameContext)(unsafe.Pointer(bp)).FpSrcList = pSrc
if rc == SQLITE_OK && (*TriggerStep)(unsafe.Pointer(pStep)).FpWhere != 0 {
rc = Xsqlite3ResolveExprNames(tls, bp, (*TriggerStep)(unsafe.Pointer(pStep)).FpWhere)
}
if rc == SQLITE_OK {
rc = Xsqlite3ResolveExprListNames(tls, bp, (*TriggerStep)(unsafe.Pointer(pStep)).FpExprList)
}
if (*TriggerStep)(unsafe.Pointer(pStep)).FpUpsert != 0 && rc == SQLITE_OK {
var pUpsert uintptr = (*TriggerStep)(unsafe.Pointer(pStep)).FpUpsert
(*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertSrc = pSrc
*(*uintptr)(unsafe.Pointer(bp + 16)) = pUpsert
(*NameContext)(unsafe.Pointer(bp)).FncFlags = NC_UUpsert
rc = Xsqlite3ResolveExprListNames(tls, bp, (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertTarget)
if rc == SQLITE_OK {
var pUpsertSet uintptr = (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertSet
rc = Xsqlite3ResolveExprListNames(tls, bp, pUpsertSet)
}
if rc == SQLITE_OK {
rc = Xsqlite3ResolveExprNames(tls, bp, (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertWhere)
}
if rc == SQLITE_OK {
rc = Xsqlite3ResolveExprNames(tls, bp, (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertTargetWhere)
}
(*NameContext)(unsafe.Pointer(bp)).FncFlags = 0
}
(*NameContext)(unsafe.Pointer(bp)).FpSrcList = uintptr(0)
Xsqlite3SrcListDelete(tls, db, pSrc)
} else {
rc = SQLITE_NOMEM
}
}
}
return rc
}
func renameWalkTrigger(tls *libc.TLS, pWalker uintptr, pTrigger uintptr) {
var pStep uintptr
Xsqlite3WalkExpr(tls, pWalker, (*Trigger)(unsafe.Pointer(pTrigger)).FpWhen)
for pStep = (*Trigger)(unsafe.Pointer(pTrigger)).Fstep_list; pStep != 0; pStep = (*TriggerStep)(unsafe.Pointer(pStep)).FpNext {
Xsqlite3WalkSelect(tls, pWalker, (*TriggerStep)(unsafe.Pointer(pStep)).FpSelect)
Xsqlite3WalkExpr(tls, pWalker, (*TriggerStep)(unsafe.Pointer(pStep)).FpWhere)
Xsqlite3WalkExprList(tls, pWalker, (*TriggerStep)(unsafe.Pointer(pStep)).FpExprList)
if (*TriggerStep)(unsafe.Pointer(pStep)).FpUpsert != 0 {
var pUpsert uintptr = (*TriggerStep)(unsafe.Pointer(pStep)).FpUpsert
Xsqlite3WalkExprList(tls, pWalker, (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertTarget)
Xsqlite3WalkExprList(tls, pWalker, (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertSet)
Xsqlite3WalkExpr(tls, pWalker, (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertWhere)
Xsqlite3WalkExpr(tls, pWalker, (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertTargetWhere)
}
if (*TriggerStep)(unsafe.Pointer(pStep)).FpFrom != 0 {
var i int32
for i = 0; i < (*SrcList)(unsafe.Pointer((*TriggerStep)(unsafe.Pointer(pStep)).FpFrom)).FnSrc; i++ {
Xsqlite3WalkSelect(tls, pWalker, (*SrcItem)(unsafe.Pointer((*TriggerStep)(unsafe.Pointer(pStep)).FpFrom+8+uintptr(i)*104)).FpSelect)
}
}
}
}
func renameParseCleanup(tls *libc.TLS, pParse uintptr) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pIdx uintptr
if (*Parse)(unsafe.Pointer(pParse)).FpVdbe != 0 {
Xsqlite3VdbeFinalize(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe)
}
Xsqlite3DeleteTable(tls, db, (*Parse)(unsafe.Pointer(pParse)).FpNewTable)
for libc.AssignUintptr(&pIdx, (*Parse)(unsafe.Pointer(pParse)).FpNewIndex) != uintptr(0) {
(*Parse)(unsafe.Pointer(pParse)).FpNewIndex = (*Index)(unsafe.Pointer(pIdx)).FpNext
Xsqlite3FreeIndex(tls, db, pIdx)
}
Xsqlite3DeleteTrigger(tls, db, (*Parse)(unsafe.Pointer(pParse)).FpNewTrigger)
Xsqlite3DbFree(tls, db, (*Parse)(unsafe.Pointer(pParse)).FzErrMsg)
renameTokenFree(tls, db, (*Parse)(unsafe.Pointer(pParse)).FpRename)
Xsqlite3ParseObjectReset(tls, pParse)
}
func renameColumnFunc(tls *libc.TLS, context uintptr, NotUsed int32, argv uintptr) {
bp := tls.Alloc(504)
defer tls.Free(504)
var db uintptr
var zSql uintptr
var zDb uintptr
var zTable uintptr
var iCol int32
var zNew uintptr
var bQuote int32
var bTemp int32
var zOld uintptr
var rc int32
var pIdx uintptr
var i int32
var pTab uintptr
var xAuth Sqlite3_xauth
var pSelect uintptr
var pExpr uintptr
var bFKOnly int32
var pFKey uintptr
var pUpsertSet uintptr
var pTarget uintptr
var pStep uintptr
db = Xsqlite3_context_db_handle(tls, context)
zSql = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
zDb = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 3*8)))
zTable = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 4*8)))
iCol = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 5*8)))
zNew = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 6*8)))
bQuote = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 7*8)))
bTemp = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 8*8)))
xAuth = (*Sqlite3)(unsafe.Pointer(db)).FxAuth
_ = NotUsed
if !(zSql == uintptr(0)) {
goto __1
}
return
__1:
;
if !(zTable == uintptr(0)) {
goto __2
}
return
__2:
;
if !(zNew == uintptr(0)) {
goto __3
}
return
__3:
;
if !(iCol < 0) {
goto __4
}
return
__4:
;
Xsqlite3BtreeEnterAll(tls, db)
pTab = Xsqlite3FindTable(tls, db, zTable, zDb)
if !(pTab == uintptr(0) || iCol >= int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __5
}
Xsqlite3BtreeLeaveAll(tls, db)
return
__5:
;
zOld = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(iCol)*24)).FzCnName
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(RenameCtx{})), libc.X__builtin_object_size(tls, bp, 0))
(*RenameCtx)(unsafe.Pointer(bp)).FiCol = func() int32 {
if iCol == int32((*Table)(unsafe.Pointer(pTab)).FiPKey) {
return -1
}
return iCol
}()
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = uintptr(0)
rc = renameParseSql(tls, bp+32, zDb, db, zSql, bTemp)
libc.X__builtin___memset_chk(tls, bp+456, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp+456, 0))
(*Walker)(unsafe.Pointer(bp + 456)).FpParse = bp + 32
(*Walker)(unsafe.Pointer(bp + 456)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{renameColumnExprCb}))
(*Walker)(unsafe.Pointer(bp + 456)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{renameColumnSelectCb}))
*(*uintptr)(unsafe.Pointer(bp + 456 + 40)) = bp
(*RenameCtx)(unsafe.Pointer(bp)).FpTab = pTab
if !(rc != SQLITE_OK) {
goto __6
}
goto renameColumnFunc_done
__6:
;
if !((*Parse)(unsafe.Pointer(bp+32)).FpNewTable != 0) {
goto __7
}
if !(int32((*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+32)).FpNewTable)).FeTabType) == TABTYP_VIEW) {
goto __9
}
pSelect = *(*uintptr)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+32)).FpNewTable + 64))
*(*U32)(unsafe.Pointer(pSelect + 4)) &= libc.Uint32FromInt32(libc.CplInt32(SF_View))
(*Parse)(unsafe.Pointer(bp + 32)).Frc = SQLITE_OK
Xsqlite3SelectPrep(tls, bp+32, pSelect, uintptr(0))
rc = func() int32 {
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return SQLITE_NOMEM
}
return (*Parse)(unsafe.Pointer(bp + 32)).Frc
}()
if !(rc == SQLITE_OK) {
goto __11
}
Xsqlite3WalkSelect(tls, bp+456, pSelect)
__11:
;
if !(rc != SQLITE_OK) {
goto __12
}
goto renameColumnFunc_done
__12:
;
goto __10
__9:
if !(int32((*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+32)).FpNewTable)).FeTabType) == TABTYP_NORM) {
goto __13
}
bFKOnly = Xsqlite3_stricmp(tls, zTable, (*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+32)).FpNewTable)).FzName)
(*RenameCtx)(unsafe.Pointer(bp)).FpTab = (*Parse)(unsafe.Pointer(bp + 32)).FpNewTable
if !(bFKOnly == 0) {
goto __14
}
if !(iCol < int32((*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+32)).FpNewTable)).FnCol)) {
goto __15
}
renameTokenFind(tls,
bp+32, bp, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+32)).FpNewTable)).FaCol+uintptr(iCol)*24)).FzCnName)
__15:
;
if !((*RenameCtx)(unsafe.Pointer(bp)).FiCol < 0) {
goto __16
}
renameTokenFind(tls, bp+32, bp, (*Parse)(unsafe.Pointer(bp+32)).FpNewTable+52)
__16:
;
Xsqlite3WalkExprList(tls, bp+456, (*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+32)).FpNewTable)).FpCheck)
pIdx = (*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp + 32)).FpNewTable)).FpIndex
__17:
if !(pIdx != 0) {
goto __19
}
Xsqlite3WalkExprList(tls, bp+456, (*Index)(unsafe.Pointer(pIdx)).FaColExpr)
goto __18
__18:
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
goto __17
goto __19
__19:
;
pIdx = (*Parse)(unsafe.Pointer(bp + 32)).FpNewIndex
__20:
if !(pIdx != 0) {
goto __22
}
Xsqlite3WalkExprList(tls, bp+456, (*Index)(unsafe.Pointer(pIdx)).FaColExpr)
goto __21
__21:
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
goto __20
goto __22
__22:
;
i = 0
__23:
if !(i < int32((*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+32)).FpNewTable)).FnCol)) {
goto __25
}
pExpr = Xsqlite3ColumnExpr(tls, (*Parse)(unsafe.Pointer(bp+32)).FpNewTable,
(*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+32)).FpNewTable)).FaCol+uintptr(i)*24)
Xsqlite3WalkExpr(tls, bp+456, pExpr)
goto __24
__24:
i++
goto __23
goto __25
__25:
;
__14:
;
pFKey = *(*uintptr)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+32)).FpNewTable + 64 + 8))
__26:
if !(pFKey != 0) {
goto __28
}
i = 0
__29:
if !(i < (*FKey)(unsafe.Pointer(pFKey)).FnCol) {
goto __31
}
if !(bFKOnly == 0 && (*sColMap)(unsafe.Pointer(pFKey+64+uintptr(i)*16)).FiFrom == iCol) {
goto __32
}
renameTokenFind(tls, bp+32, bp, pFKey+64+uintptr(i)*16)
__32:
;
if !(0 == Xsqlite3_stricmp(tls, (*FKey)(unsafe.Pointer(pFKey)).FzTo, zTable) &&
0 == Xsqlite3_stricmp(tls, (*sColMap)(unsafe.Pointer(pFKey+64+uintptr(i)*16)).FzCol, zOld)) {
goto __33
}
renameTokenFind(tls, bp+32, bp, (*sColMap)(unsafe.Pointer(pFKey+64+uintptr(i)*16)).FzCol)
__33:
;
goto __30
__30:
i++
goto __29
goto __31
__31:
;
goto __27
__27:
pFKey = (*FKey)(unsafe.Pointer(pFKey)).FpNextFrom
goto __26
goto __28
__28:
;
__13:
;
__10:
;
goto __8
__7:
if !((*Parse)(unsafe.Pointer(bp+32)).FpNewIndex != 0) {
goto __34
}
Xsqlite3WalkExprList(tls, bp+456, (*Index)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+32)).FpNewIndex)).FaColExpr)
Xsqlite3WalkExpr(tls, bp+456, (*Index)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+32)).FpNewIndex)).FpPartIdxWhere)
goto __35
__34:
rc = renameResolveTrigger(tls, bp+32)
if !(rc != SQLITE_OK) {
goto __36
}
goto renameColumnFunc_done
__36:
;
pStep = (*Trigger)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp + 32)).FpNewTrigger)).Fstep_list
__37:
if !(pStep != 0) {
goto __39
}
if !((*TriggerStep)(unsafe.Pointer(pStep)).FzTarget != 0) {
goto __40
}
pTarget = Xsqlite3LocateTable(tls, bp+32, uint32(0), (*TriggerStep)(unsafe.Pointer(pStep)).FzTarget, zDb)
if !(pTarget == pTab) {
goto __41
}
if !((*TriggerStep)(unsafe.Pointer(pStep)).FpUpsert != 0) {
goto __42
}
pUpsertSet = (*Upsert)(unsafe.Pointer((*TriggerStep)(unsafe.Pointer(pStep)).FpUpsert)).FpUpsertSet
renameColumnElistNames(tls, bp+32, bp, pUpsertSet, zOld)
__42:
;
renameColumnIdlistNames(tls, bp+32, bp, (*TriggerStep)(unsafe.Pointer(pStep)).FpIdList, zOld)
renameColumnElistNames(tls, bp+32, bp, (*TriggerStep)(unsafe.Pointer(pStep)).FpExprList, zOld)
__41:
;
__40:
;
goto __38
__38:
pStep = (*TriggerStep)(unsafe.Pointer(pStep)).FpNext
goto __37
goto __39
__39:
;
if !((*Parse)(unsafe.Pointer(bp+32)).FpTriggerTab == pTab) {
goto __43
}
renameColumnIdlistNames(tls, bp+32, bp, (*Trigger)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+32)).FpNewTrigger)).FpColumns, zOld)
__43:
;
renameWalkTrigger(tls, bp+456, (*Parse)(unsafe.Pointer(bp+32)).FpNewTrigger)
__35:
;
__8:
;
rc = renameEditSql(tls, context, bp, zSql, zNew, bQuote)
renameColumnFunc_done:
if !(rc != SQLITE_OK) {
goto __44
}
if !(rc == SQLITE_ERROR && Xsqlite3WritableSchema(tls, db) != 0) {
goto __45
}
Xsqlite3_result_value(tls, context, *(*uintptr)(unsafe.Pointer(argv)))
goto __46
__45:
if !((*Parse)(unsafe.Pointer(bp+32)).FzErrMsg != 0) {
goto __47
}
renameColumnParseError(tls, context, ts+1547, *(*uintptr)(unsafe.Pointer(argv + 1*8)), *(*uintptr)(unsafe.Pointer(argv + 2*8)), bp+32)
goto __48
__47:
Xsqlite3_result_error_code(tls, context, rc)
__48:
;
__46:
;
__44:
;
renameParseCleanup(tls, bp+32)
renameTokenFree(tls, db, (*RenameCtx)(unsafe.Pointer(bp)).FpList)
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = xAuth
Xsqlite3BtreeLeaveAll(tls, db)
}
func renameTableExprCb(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
var p uintptr = *(*uintptr)(unsafe.Pointer(pWalker + 40))
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLUMN &&
(*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc|EP_Subrtn) == U32(0) &&
(*RenameCtx)(unsafe.Pointer(p)).FpTab == *(*uintptr)(unsafe.Pointer(pExpr + 64)) {
renameTokenFind(tls, (*Walker)(unsafe.Pointer(pWalker)).FpParse, p, pExpr+64)
}
return WRC_Continue
}
func renameTableSelectCb(tls *libc.TLS, pWalker uintptr, pSelect uintptr) int32 {
var i int32
var p uintptr = *(*uintptr)(unsafe.Pointer(pWalker + 40))
var pSrc uintptr = (*Select)(unsafe.Pointer(pSelect)).FpSrc
if (*Select)(unsafe.Pointer(pSelect)).FselFlags&U32(SF_View|SF_CopyCte) != 0 {
return WRC_Prune
}
if pSrc == uintptr(0) {
return WRC_Abort
}
for i = 0; i < (*SrcList)(unsafe.Pointer(pSrc)).FnSrc; i++ {
var pItem uintptr = pSrc + 8 + uintptr(i)*104
if (*SrcItem)(unsafe.Pointer(pItem)).FpTab == (*RenameCtx)(unsafe.Pointer(p)).FpTab {
renameTokenFind(tls, (*Walker)(unsafe.Pointer(pWalker)).FpParse, p, (*SrcItem)(unsafe.Pointer(pItem)).FzName)
}
}
renameWalkWith(tls, pWalker, pSelect)
return WRC_Continue
}
func renameTableFunc(tls *libc.TLS, context uintptr, NotUsed int32, argv uintptr) {
bp := tls.Alloc(560)
defer tls.Free(560)
var db uintptr = Xsqlite3_context_db_handle(tls, context)
var zDb uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
var zInput uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 3*8)))
var zOld uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 4*8)))
var zNew uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 5*8)))
var bTemp int32 = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 6*8)))
_ = NotUsed
if zInput != 0 && zOld != 0 && zNew != 0 {
var rc int32
var bQuote int32 = 1
var xAuth Sqlite3_xauth = (*Sqlite3)(unsafe.Pointer(db)).FxAuth
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = uintptr(0)
Xsqlite3BtreeEnterAll(tls, db)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(RenameCtx{})), libc.X__builtin_object_size(tls, bp, 0))
(*RenameCtx)(unsafe.Pointer(bp)).FpTab = Xsqlite3FindTable(tls, db, zOld, zDb)
libc.X__builtin___memset_chk(tls, bp+32, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp+32, 0))
(*Walker)(unsafe.Pointer(bp + 32)).FpParse = bp + 80
(*Walker)(unsafe.Pointer(bp + 32)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{renameTableExprCb}))
(*Walker)(unsafe.Pointer(bp + 32)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{renameTableSelectCb}))
*(*uintptr)(unsafe.Pointer(bp + 32 + 40)) = bp
rc = renameParseSql(tls, bp+80, zDb, db, zInput, bTemp)
if rc == SQLITE_OK {
var isLegacy int32 = int32((*Sqlite3)(unsafe.Pointer(db)).Fflags & uint64(SQLITE_LegacyAlter))
if (*Parse)(unsafe.Pointer(bp+80)).FpNewTable != 0 {
var pTab uintptr = (*Parse)(unsafe.Pointer(bp + 80)).FpNewTable
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW {
if isLegacy == 0 {
var pSelect uintptr = *(*uintptr)(unsafe.Pointer(pTab + 64))
libc.X__builtin___memset_chk(tls, bp+504, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp+504, 0))
(*NameContext)(unsafe.Pointer(bp + 504)).FpParse = bp + 80
*(*U32)(unsafe.Pointer(pSelect + 4)) &= libc.Uint32FromInt32(libc.CplInt32(SF_View))
Xsqlite3SelectPrep(tls, bp+80, *(*uintptr)(unsafe.Pointer(pTab + 64)), bp+504)
if (*Parse)(unsafe.Pointer(bp+80)).FnErr != 0 {
rc = (*Parse)(unsafe.Pointer(bp + 80)).Frc
} else {
Xsqlite3WalkSelect(tls, bp+32, *(*uintptr)(unsafe.Pointer(pTab + 64)))
}
}
} else {
if (isLegacy == 0 || (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_ForeignKeys) != 0) &&
!(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
var pFKey uintptr
for pFKey = *(*uintptr)(unsafe.Pointer(pTab + 64 + 8)); pFKey != 0; pFKey = (*FKey)(unsafe.Pointer(pFKey)).FpNextFrom {
if Xsqlite3_stricmp(tls, (*FKey)(unsafe.Pointer(pFKey)).FzTo, zOld) == 0 {
renameTokenFind(tls, bp+80, bp, (*FKey)(unsafe.Pointer(pFKey)).FzTo)
}
}
}
if Xsqlite3_stricmp(tls, zOld, (*Table)(unsafe.Pointer(pTab)).FzName) == 0 {
(*RenameCtx)(unsafe.Pointer(bp)).FpTab = pTab
if isLegacy == 0 {
Xsqlite3WalkExprList(tls, bp+32, (*Table)(unsafe.Pointer(pTab)).FpCheck)
}
renameTokenFind(tls, bp+80, bp, (*Table)(unsafe.Pointer(pTab)).FzName)
}
}
} else if (*Parse)(unsafe.Pointer(bp+80)).FpNewIndex != 0 {
renameTokenFind(tls, bp+80, bp, (*Index)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+80)).FpNewIndex)).FzName)
if isLegacy == 0 {
Xsqlite3WalkExpr(tls, bp+32, (*Index)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+80)).FpNewIndex)).FpPartIdxWhere)
}
} else {
var pTrigger uintptr = (*Parse)(unsafe.Pointer(bp + 80)).FpNewTrigger
var pStep uintptr
if 0 == Xsqlite3_stricmp(tls, (*Trigger)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+80)).FpNewTrigger)).Ftable, zOld) &&
(*Table)(unsafe.Pointer((*RenameCtx)(unsafe.Pointer(bp)).FpTab)).FpSchema == (*Trigger)(unsafe.Pointer(pTrigger)).FpTabSchema {
renameTokenFind(tls, bp+80, bp, (*Trigger)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+80)).FpNewTrigger)).Ftable)
}
if isLegacy == 0 {
rc = renameResolveTrigger(tls, bp+80)
if rc == SQLITE_OK {
renameWalkTrigger(tls, bp+32, pTrigger)
for pStep = (*Trigger)(unsafe.Pointer(pTrigger)).Fstep_list; pStep != 0; pStep = (*TriggerStep)(unsafe.Pointer(pStep)).FpNext {
if (*TriggerStep)(unsafe.Pointer(pStep)).FzTarget != 0 && 0 == Xsqlite3_stricmp(tls, (*TriggerStep)(unsafe.Pointer(pStep)).FzTarget, zOld) {
renameTokenFind(tls, bp+80, bp, (*TriggerStep)(unsafe.Pointer(pStep)).FzTarget)
}
if (*TriggerStep)(unsafe.Pointer(pStep)).FpFrom != 0 {
var i int32
for i = 0; i < (*SrcList)(unsafe.Pointer((*TriggerStep)(unsafe.Pointer(pStep)).FpFrom)).FnSrc; i++ {
var pItem uintptr = (*TriggerStep)(unsafe.Pointer(pStep)).FpFrom + 8 + uintptr(i)*104
if 0 == Xsqlite3_stricmp(tls, (*SrcItem)(unsafe.Pointer(pItem)).FzName, zOld) {
renameTokenFind(tls, bp+80, bp, (*SrcItem)(unsafe.Pointer(pItem)).FzName)
}
}
}
}
}
}
}
}
if rc == SQLITE_OK {
rc = renameEditSql(tls, context, bp, zInput, zNew, bQuote)
}
if rc != SQLITE_OK {
if rc == SQLITE_ERROR && Xsqlite3WritableSchema(tls, db) != 0 {
Xsqlite3_result_value(tls, context, *(*uintptr)(unsafe.Pointer(argv + 3*8)))
} else if (*Parse)(unsafe.Pointer(bp+80)).FzErrMsg != 0 {
renameColumnParseError(tls, context, ts+1547, *(*uintptr)(unsafe.Pointer(argv + 1*8)), *(*uintptr)(unsafe.Pointer(argv + 2*8)), bp+80)
} else {
Xsqlite3_result_error_code(tls, context, rc)
}
}
renameParseCleanup(tls, bp+80)
renameTokenFree(tls, db, (*RenameCtx)(unsafe.Pointer(bp)).FpList)
Xsqlite3BtreeLeaveAll(tls, db)
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = xAuth
}
return
}
func renameQuotefixExprCb(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_STRING && (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_DblQuoted) != 0 {
renameTokenFind(tls, (*Walker)(unsafe.Pointer(pWalker)).FpParse, *(*uintptr)(unsafe.Pointer(pWalker + 40)), pExpr)
}
return WRC_Continue
}
func renameQuotefixFunc(tls *libc.TLS, context uintptr, NotUsed int32, argv uintptr) {
bp := tls.Alloc(504)
defer tls.Free(504)
var db uintptr = Xsqlite3_context_db_handle(tls, context)
var zDb uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
var zInput uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
var xAuth Sqlite3_xauth = (*Sqlite3)(unsafe.Pointer(db)).FxAuth
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = uintptr(0)
Xsqlite3BtreeEnterAll(tls, db)
_ = NotUsed
if zDb != 0 && zInput != 0 {
var rc int32
rc = renameParseSql(tls, bp, zDb, db, zInput, 0)
if rc == SQLITE_OK {
libc.X__builtin___memset_chk(tls, bp+424, 0, uint64(unsafe.Sizeof(RenameCtx{})), libc.X__builtin_object_size(tls, bp+424, 0))
libc.X__builtin___memset_chk(tls, bp+456, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp+456, 0))
(*Walker)(unsafe.Pointer(bp + 456)).FpParse = bp
(*Walker)(unsafe.Pointer(bp + 456)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{renameQuotefixExprCb}))
(*Walker)(unsafe.Pointer(bp + 456)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{renameColumnSelectCb}))
*(*uintptr)(unsafe.Pointer(bp + 456 + 40)) = bp + 424
if (*Parse)(unsafe.Pointer(bp)).FpNewTable != 0 {
if int32((*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp)).FpNewTable)).FeTabType) == TABTYP_VIEW {
var pSelect uintptr = *(*uintptr)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp)).FpNewTable + 64))
*(*U32)(unsafe.Pointer(pSelect + 4)) &= libc.Uint32FromInt32(libc.CplInt32(SF_View))
(*Parse)(unsafe.Pointer(bp)).Frc = SQLITE_OK
Xsqlite3SelectPrep(tls, bp, pSelect, uintptr(0))
rc = func() int32 {
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return SQLITE_NOMEM
}
return (*Parse)(unsafe.Pointer(bp)).Frc
}()
if rc == SQLITE_OK {
Xsqlite3WalkSelect(tls, bp+456, pSelect)
}
} else {
var i int32
Xsqlite3WalkExprList(tls, bp+456, (*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp)).FpNewTable)).FpCheck)
for i = 0; i < int32((*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp)).FpNewTable)).FnCol); i++ {
Xsqlite3WalkExpr(tls, bp+456,
Xsqlite3ColumnExpr(tls, (*Parse)(unsafe.Pointer(bp)).FpNewTable,
(*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp)).FpNewTable)).FaCol+uintptr(i)*24))
}
}
} else if (*Parse)(unsafe.Pointer(bp)).FpNewIndex != 0 {
Xsqlite3WalkExprList(tls, bp+456, (*Index)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp)).FpNewIndex)).FaColExpr)
Xsqlite3WalkExpr(tls, bp+456, (*Index)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp)).FpNewIndex)).FpPartIdxWhere)
} else {
rc = renameResolveTrigger(tls, bp)
if rc == SQLITE_OK {
renameWalkTrigger(tls, bp+456, (*Parse)(unsafe.Pointer(bp)).FpNewTrigger)
}
}
if rc == SQLITE_OK {
rc = renameEditSql(tls, context, bp+424, zInput, uintptr(0), 0)
}
renameTokenFree(tls, db, (*RenameCtx)(unsafe.Pointer(bp+424)).FpList)
}
if rc != SQLITE_OK {
if Xsqlite3WritableSchema(tls, db) != 0 && rc == SQLITE_ERROR {
Xsqlite3_result_value(tls, context, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
} else {
Xsqlite3_result_error_code(tls, context, rc)
}
}
renameParseCleanup(tls, bp)
}
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = xAuth
Xsqlite3BtreeLeaveAll(tls, db)
}
func renameTableTest(tls *libc.TLS, context uintptr, NotUsed int32, argv uintptr) {
bp := tls.Alloc(480)
defer tls.Free(480)
var db uintptr = Xsqlite3_context_db_handle(tls, context)
var zDb uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
var zInput uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
var bTemp int32 = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 4*8)))
var isLegacy int32 = int32((*Sqlite3)(unsafe.Pointer(db)).Fflags & uint64(SQLITE_LegacyAlter))
var zWhen uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 5*8)))
var bNoDQS int32 = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 6*8)))
var xAuth Sqlite3_xauth = (*Sqlite3)(unsafe.Pointer(db)).FxAuth
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = uintptr(0)
_ = NotUsed
if zDb != 0 && zInput != 0 {
var rc int32
var flags int32 = int32((*Sqlite3)(unsafe.Pointer(db)).Fflags)
if bNoDQS != 0 {
*(*U64)(unsafe.Pointer(db + 48)) &= libc.Uint64FromInt32(libc.CplInt32(SQLITE_DqsDML | SQLITE_DqsDDL))
}
rc = renameParseSql(tls, bp, zDb, db, zInput, bTemp)
*(*U64)(unsafe.Pointer(db + 48)) |= U64(flags & (SQLITE_DqsDML | SQLITE_DqsDDL))
if rc == SQLITE_OK {
if isLegacy == 0 && (*Parse)(unsafe.Pointer(bp)).FpNewTable != 0 && int32((*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp)).FpNewTable)).FeTabType) == TABTYP_VIEW {
libc.X__builtin___memset_chk(tls, bp+424, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp+424, 0))
(*NameContext)(unsafe.Pointer(bp + 424)).FpParse = bp
Xsqlite3SelectPrep(tls, bp, *(*uintptr)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp)).FpNewTable + 64)), bp+424)
if (*Parse)(unsafe.Pointer(bp)).FnErr != 0 {
rc = (*Parse)(unsafe.Pointer(bp)).Frc
}
} else if (*Parse)(unsafe.Pointer(bp)).FpNewTrigger != 0 {
if isLegacy == 0 {
rc = renameResolveTrigger(tls, bp)
}
if rc == SQLITE_OK {
var i1 int32 = Xsqlite3SchemaToIndex(tls, db, (*Trigger)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp)).FpNewTrigger)).FpTabSchema)
var i2 int32 = Xsqlite3FindDbName(tls, db, zDb)
if i1 == i2 {
Xsqlite3_result_int(tls, context, 1)
}
}
}
}
if rc != SQLITE_OK && zWhen != 0 && !(Xsqlite3WritableSchema(tls, db) != 0) {
renameColumnParseError(tls, context, zWhen, *(*uintptr)(unsafe.Pointer(argv + 2*8)), *(*uintptr)(unsafe.Pointer(argv + 3*8)), bp)
}
renameParseCleanup(tls, bp)
}
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = xAuth
}
func dropColumnFunc(tls *libc.TLS, context uintptr, NotUsed int32, argv uintptr) {
bp := tls.Alloc(448)
defer tls.Free(448)
var db uintptr
var iSchema int32
var zSql uintptr
var iCol int32
var zDb uintptr
var rc int32
var pCol uintptr
var pTab uintptr
var zEnd uintptr
var zNew uintptr
var xAuth Sqlite3_xauth
var pEnd uintptr
db = Xsqlite3_context_db_handle(tls, context)
iSchema = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv)))
zSql = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
iCol = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8)))
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iSchema)*32)).FzDbSName
zNew = uintptr(0)
xAuth = (*Sqlite3)(unsafe.Pointer(db)).FxAuth
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = uintptr(0)
_ = NotUsed
rc = renameParseSql(tls, bp+24, zDb, db, zSql, libc.Bool32(iSchema == 1))
if !(rc != SQLITE_OK) {
goto __1
}
goto drop_column_done
__1:
;
pTab = (*Parse)(unsafe.Pointer(bp + 24)).FpNewTable
if !(pTab == uintptr(0) || int32((*Table)(unsafe.Pointer(pTab)).FnCol) == 1 || iCol >= int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __2
}
rc = Xsqlite3CorruptError(tls, 114441)
goto drop_column_done
__2:
;
pCol = renameTokenFind(tls, bp+24, uintptr(0), (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(iCol)*24)).FzCnName)
if !(iCol < int32((*Table)(unsafe.Pointer(pTab)).FnCol)-1) {
goto __3
}
pEnd = renameTokenFind(tls, bp+24, uintptr(0), (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(iCol+1)*24)).FzCnName)
zEnd = (*RenameToken)(unsafe.Pointer(pEnd)).Ft.Fz
goto __4
__3:
;
zEnd = zSql + uintptr(*(*int32)(unsafe.Pointer(pTab + 64)))
__5:
if !(int32(*(*int8)(unsafe.Pointer((*RenameToken)(unsafe.Pointer(pCol)).Ft.Fz))) != 0 && int32(*(*int8)(unsafe.Pointer((*RenameToken)(unsafe.Pointer(pCol)).Ft.Fz))) != ',') {
goto __6
}
(*RenameToken)(unsafe.Pointer(pCol)).Ft.Fz--
goto __5
__6:
;
__4:
;
zNew = Xsqlite3MPrintf(tls, db, ts+11344, libc.VaList(bp, (int64((*RenameToken)(unsafe.Pointer(pCol)).Ft.Fz)-int64(zSql))/1, zSql, zEnd))
Xsqlite3_result_text(tls, context, zNew, -1, libc.UintptrFromInt32(-1))
Xsqlite3_free(tls, zNew)
drop_column_done:
renameParseCleanup(tls, bp+24)
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = xAuth
if !(rc != SQLITE_OK) {
goto __7
}
Xsqlite3_result_error_code(tls, context, rc)
__7:
}
// This function is called by the parser upon parsing an
//
// ALTER TABLE pSrc DROP COLUMN pName
//
// statement. Argument pSrc contains the possibly qualified name of the
// table being edited, and token pName the name of the column to drop.
func Xsqlite3AlterDropColumn(tls *libc.TLS, pParse uintptr, pSrc uintptr, pName uintptr) {
bp := tls.Alloc(64)
defer tls.Free(64)
var db uintptr
var pTab uintptr
var iDb int32
var zDb uintptr
var zCol uintptr
var iCol int32
var iPos int32
var iColPos int32
var regOut int32
var i int32
var addr int32
var reg int32
var regRec int32
var pPk uintptr
var nField int32
var iCur int32
var v uintptr
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
zCol = uintptr(0)
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __1
}
goto exit_drop_column
__1:
;
pTab = Xsqlite3LocateTableItem(tls, pParse, uint32(0), pSrc+8)
if !!(pTab != 0) {
goto __2
}
goto exit_drop_column
__2:
;
if !(SQLITE_OK != isAlterableTable(tls, pParse, pTab)) {
goto __3
}
goto exit_drop_column
__3:
;
if !(SQLITE_OK != isRealTable(tls, pParse, pTab, 1)) {
goto __4
}
goto exit_drop_column
__4:
;
zCol = Xsqlite3NameFromToken(tls, db, pName)
if !(zCol == uintptr(0)) {
goto __5
}
goto exit_drop_column
__5:
;
iCol = Xsqlite3ColumnIndex(tls, pTab, zCol)
if !(iCol < 0) {
goto __6
}
Xsqlite3ErrorMsg(tls, pParse, ts+10966, libc.VaList(bp, pName))
goto exit_drop_column
__6:
;
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(iCol)*24)).FcolFlags)&(COLFLAG_PRIMKEY|COLFLAG_UNIQUE) != 0) {
goto __7
}
Xsqlite3ErrorMsg(tls, pParse, ts+11351,
libc.VaList(bp+8, func() uintptr {
if int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(iCol)*24)).FcolFlags)&COLFLAG_PRIMKEY != 0 {
return ts + 11379
}
return ts + 6530
}(),
zCol))
goto exit_drop_column
__7:
;
if !(int32((*Table)(unsafe.Pointer(pTab)).FnCol) <= 1) {
goto __8
}
Xsqlite3ErrorMsg(tls, pParse, ts+11391, libc.VaList(bp+24, zCol))
goto exit_drop_column
__8:
;
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
if !(Xsqlite3AuthCheck(tls, pParse, SQLITE_ALTER_TABLE, zDb, (*Table)(unsafe.Pointer(pTab)).FzName, zCol) != 0) {
goto __9
}
goto exit_drop_column
__9:
;
renameTestSchema(tls, pParse, zDb, libc.Bool32(iDb == 1), ts+1547, 0)
renameFixQuotes(tls, pParse, zDb, libc.Bool32(iDb == 1))
Xsqlite3NestedParse(tls, pParse,
ts+11439, libc.VaList(bp+32, zDb, iDb, iCol, (*Table)(unsafe.Pointer(pTab)).FzName))
renameReloadSchema(tls, pParse, iDb, uint16(INITFLAG_AlterDrop))
renameTestSchema(tls, pParse, zDb, libc.Bool32(iDb == 1), ts+11560, 1)
if !((*Parse)(unsafe.Pointer(pParse)).FnErr == 0 && int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(iCol)*24)).FcolFlags)&COLFLAG_VIRTUAL == 0) {
goto __10
}
pPk = uintptr(0)
nField = 0
v = Xsqlite3GetVdbe(tls, pParse)
iCur = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
Xsqlite3OpenTable(tls, pParse, iCur, iDb, pTab, OP_OpenWrite)
addr = Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, iCur)
reg = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __11
}
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, iCur, reg)
*(*int32)(unsafe.Pointer(pParse + 56)) += int32((*Table)(unsafe.Pointer(pTab)).FnCol)
goto __12
__11:
pPk = Xsqlite3PrimaryKeyIndex(tls, pTab)
*(*int32)(unsafe.Pointer(pParse + 56)) += int32((*Index)(unsafe.Pointer(pPk)).FnColumn)
i = 0
__13:
if !(i < int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol)) {
goto __15
}
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iCur, i, reg+i+1)
goto __14
__14:
i++
goto __13
goto __15
__15:
;
nField = int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol)
__12:
;
regRec = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
i = 0
__16:
if !(i < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __18
}
if !(i != iCol && int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_VIRTUAL == 0) {
goto __19
}
if !(pPk != 0) {
goto __20
}
iPos = int32(Xsqlite3TableColumnToIndex(tls, pPk, int16(i)))
iColPos = int32(Xsqlite3TableColumnToIndex(tls, pPk, int16(iCol)))
if !(iPos < int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol)) {
goto __22
}
goto __17
__22:
;
regOut = reg + 1 + iPos - libc.Bool32(iPos > iColPos)
goto __21
__20:
regOut = reg + 1 + nField
__21:
;
if !(i == int32((*Table)(unsafe.Pointer(pTab)).FiPKey)) {
goto __23
}
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, regOut)
goto __24
__23:
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab, iCur, i, regOut)
__24:
;
nField++
__19:
;
goto __17
__17:
i++
goto __16
goto __18
__18:
;
if !(nField == 0) {
goto __25
}
(*Parse)(unsafe.Pointer(pParse)).FnMem++
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, reg+1)
nField = 1
__25:
;
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, reg+1, nField, regRec)
if !(pPk != 0) {
goto __26
}
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, iCur, regRec, reg+1, int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol))
goto __27
__26:
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, iCur, regRec, reg)
__27:
;
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_SAVEPOSITION))
Xsqlite3VdbeAddOp2(tls, v, OP_Next, iCur, addr+1)
Xsqlite3VdbeJumpHere(tls, v, addr)
__10:
;
exit_drop_column:
Xsqlite3DbFree(tls, db, zCol)
Xsqlite3SrcListDelete(tls, db, pSrc)
}
// Register built-in functions used to help implement ALTER TABLE
func Xsqlite3AlterFunctions(tls *libc.TLS) {
Xsqlite3InsertBuiltinFuncs(tls, uintptr(unsafe.Pointer(&aAlterTableFuncs)), int32(uint64(unsafe.Sizeof(aAlterTableFuncs))/uint64(unsafe.Sizeof(FuncDef{}))))
}
var aAlterTableFuncs = [5]FuncDef{
{FnArg: int8(9), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_INTERNAL | SQLITE_UTF8 | SQLITE_FUNC_CONSTANT), FxSFunc: 0, FzName: ts + 11578},
{FnArg: int8(7), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_INTERNAL | SQLITE_UTF8 | SQLITE_FUNC_CONSTANT), FxSFunc: 0, FzName: ts + 11599},
{FnArg: int8(7), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_INTERNAL | SQLITE_UTF8 | SQLITE_FUNC_CONSTANT), FxSFunc: 0, FzName: ts + 11619},
{FnArg: int8(3), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_INTERNAL | SQLITE_UTF8 | SQLITE_FUNC_CONSTANT), FxSFunc: 0, FzName: ts + 11638},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_INTERNAL | SQLITE_UTF8 | SQLITE_FUNC_CONSTANT), FxSFunc: 0, FzName: ts + 11657}}
func openStatTable(tls *libc.TLS, pParse uintptr, iDb int32, iStatCur int32, zWhere uintptr, zWhereType uintptr) {
bp := tls.Alloc(88)
defer tls.Free(88)
var i int32
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pDb uintptr
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
var nToOpen int32
if (*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_Stat4) == U32(0) {
nToOpen = 2
} else {
nToOpen = 1
}
if v == uintptr(0) {
return
}
pDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32
for i = 0; i < int32(uint64(unsafe.Sizeof(aTable))/uint64(unsafe.Sizeof(struct {
FzName uintptr
FzCols uintptr
}{}))); i++ {
var zTab uintptr = aTable[i].FzName
var pStat uintptr
*(*U8)(unsafe.Pointer(bp + 72 + uintptr(i))) = U8(0)
if libc.AssignUintptr(&pStat, Xsqlite3FindTable(tls, db, zTab, (*Db)(unsafe.Pointer(pDb)).FzDbSName)) == uintptr(0) {
if i < nToOpen {
Xsqlite3NestedParse(tls, pParse,
ts+11680, libc.VaList(bp, (*Db)(unsafe.Pointer(pDb)).FzDbSName, zTab, aTable[i].FzCols))
*(*U32)(unsafe.Pointer(bp + 76 + uintptr(i)*4)) = U32((*Parse)(unsafe.Pointer(pParse)).FregRoot)
*(*U8)(unsafe.Pointer(bp + 72 + uintptr(i))) = U8(OPFLAG_P2ISREG)
}
} else {
*(*U32)(unsafe.Pointer(bp + 76 + uintptr(i)*4)) = (*Table)(unsafe.Pointer(pStat)).Ftnum
Xsqlite3TableLock(tls, pParse, iDb, *(*U32)(unsafe.Pointer(bp + 76 + uintptr(i)*4)), uint8(1), zTab)
if zWhere != 0 {
Xsqlite3NestedParse(tls, pParse,
ts+11703,
libc.VaList(bp+24, (*Db)(unsafe.Pointer(pDb)).FzDbSName, zTab, zWhereType, zWhere))
} else if (*Sqlite3)(unsafe.Pointer(db)).FxPreUpdateCallback != 0 {
Xsqlite3NestedParse(tls, pParse, ts+11733, libc.VaList(bp+56, (*Db)(unsafe.Pointer(pDb)).FzDbSName, zTab))
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_Clear, int32(*(*U32)(unsafe.Pointer(bp + 76 + uintptr(i)*4))), iDb)
}
}
}
for i = 0; i < nToOpen; i++ {
Xsqlite3VdbeAddOp4Int(tls, v, OP_OpenWrite, iStatCur+i, int32(*(*U32)(unsafe.Pointer(bp + 76 + uintptr(i)*4))), iDb, 3)
Xsqlite3VdbeChangeP5(tls, v, uint16(*(*U8)(unsafe.Pointer(bp + 72 + uintptr(i)))))
}
}
var aTable = [3]struct {
FzName uintptr
FzCols uintptr
}{
{FzName: ts + 11751, FzCols: ts + 11764},
{FzName: ts + 11777, FzCols: ts + 11790},
{FzName: ts + 11818},
}
// Three SQL functions - stat_init(), stat_push(), and stat_get() -
// share an instance of the following structure to hold their state
// information.
type StatAccum1 = struct {
Fdb uintptr
FnEst TRowcnt
FnRow TRowcnt
FnLimit int32
FnCol int32
FnKeyCol int32
FnSkipAhead U8
F__ccgo_pad1 [3]byte
Fcurrent StatSample
FnPSample TRowcnt
FmxSample int32
FiPrn U32
FaBest uintptr
FiMin int32
FnSample int32
FnMaxEqZero int32
FiGet int32
Fa uintptr
}
// Three SQL functions - stat_init(), stat_push(), and stat_get() -
// share an instance of the following structure to hold their state
// information.
type StatAccum = StatAccum1
type StatSample1 = struct {
FanEq uintptr
FanDLt uintptr
FanLt uintptr
Fu struct{ FiRowid I64 }
FnRowid U32
FisPSample U8
F__ccgo_pad1 [3]byte
FiCol int32
FiHash U32
}
type StatSample = StatSample1
func sampleClear(tls *libc.TLS, db uintptr, p uintptr) {
if (*StatSample)(unsafe.Pointer(p)).FnRowid != 0 {
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(p + 24)))
(*StatSample)(unsafe.Pointer(p)).FnRowid = U32(0)
}
}
func sampleSetRowid(tls *libc.TLS, db uintptr, p uintptr, n int32, pData uintptr) {
if (*StatSample)(unsafe.Pointer(p)).FnRowid != 0 {
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(p + 24)))
}
*(*uintptr)(unsafe.Pointer(p + 24)) = Xsqlite3DbMallocRawNN(tls, db, uint64(n))
if *(*uintptr)(unsafe.Pointer(p + 24)) != 0 {
(*StatSample)(unsafe.Pointer(p)).FnRowid = U32(n)
libc.X__builtin___memcpy_chk(tls, *(*uintptr)(unsafe.Pointer(p + 24)), pData, uint64(n), libc.X__builtin_object_size(tls, *(*uintptr)(unsafe.Pointer(p + 24)), 0))
} else {
(*StatSample)(unsafe.Pointer(p)).FnRowid = U32(0)
}
}
func sampleSetRowidInt64(tls *libc.TLS, db uintptr, p uintptr, iRowid I64) {
if (*StatSample)(unsafe.Pointer(p)).FnRowid != 0 {
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(p + 24)))
}
(*StatSample)(unsafe.Pointer(p)).FnRowid = U32(0)
*(*I64)(unsafe.Pointer(p + 24)) = iRowid
}
func sampleCopy(tls *libc.TLS, p uintptr, pTo uintptr, pFrom uintptr) {
(*StatSample)(unsafe.Pointer(pTo)).FisPSample = (*StatSample)(unsafe.Pointer(pFrom)).FisPSample
(*StatSample)(unsafe.Pointer(pTo)).FiCol = (*StatSample)(unsafe.Pointer(pFrom)).FiCol
(*StatSample)(unsafe.Pointer(pTo)).FiHash = (*StatSample)(unsafe.Pointer(pFrom)).FiHash
libc.X__builtin___memcpy_chk(tls, (*StatSample)(unsafe.Pointer(pTo)).FanEq, (*StatSample)(unsafe.Pointer(pFrom)).FanEq, uint64(unsafe.Sizeof(TRowcnt(0)))*uint64((*StatAccum)(unsafe.Pointer(p)).FnCol), libc.X__builtin_object_size(tls, (*StatSample)(unsafe.Pointer(pTo)).FanEq, 0))
libc.X__builtin___memcpy_chk(tls, (*StatSample)(unsafe.Pointer(pTo)).FanLt, (*StatSample)(unsafe.Pointer(pFrom)).FanLt, uint64(unsafe.Sizeof(TRowcnt(0)))*uint64((*StatAccum)(unsafe.Pointer(p)).FnCol), libc.X__builtin_object_size(tls, (*StatSample)(unsafe.Pointer(pTo)).FanLt, 0))
libc.X__builtin___memcpy_chk(tls, (*StatSample)(unsafe.Pointer(pTo)).FanDLt, (*StatSample)(unsafe.Pointer(pFrom)).FanDLt, uint64(unsafe.Sizeof(TRowcnt(0)))*uint64((*StatAccum)(unsafe.Pointer(p)).FnCol), libc.X__builtin_object_size(tls, (*StatSample)(unsafe.Pointer(pTo)).FanDLt, 0))
if (*StatSample)(unsafe.Pointer(pFrom)).FnRowid != 0 {
sampleSetRowid(tls, (*StatAccum)(unsafe.Pointer(p)).Fdb, pTo, int32((*StatSample)(unsafe.Pointer(pFrom)).FnRowid), *(*uintptr)(unsafe.Pointer(pFrom + 24)))
} else {
sampleSetRowidInt64(tls, (*StatAccum)(unsafe.Pointer(p)).Fdb, pTo, *(*I64)(unsafe.Pointer(pFrom + 24)))
}
}
func statAccumDestructor(tls *libc.TLS, pOld uintptr) {
var p uintptr = pOld
if (*StatAccum)(unsafe.Pointer(p)).FmxSample != 0 {
var i int32
for i = 0; i < (*StatAccum)(unsafe.Pointer(p)).FnCol; i++ {
sampleClear(tls, (*StatAccum)(unsafe.Pointer(p)).Fdb, (*StatAccum)(unsafe.Pointer(p)).FaBest+uintptr(i)*48)
}
for i = 0; i < (*StatAccum)(unsafe.Pointer(p)).FmxSample; i++ {
sampleClear(tls, (*StatAccum)(unsafe.Pointer(p)).Fdb, (*StatAccum)(unsafe.Pointer(p)).Fa+uintptr(i)*48)
}
sampleClear(tls, (*StatAccum)(unsafe.Pointer(p)).Fdb, p+40)
}
Xsqlite3DbFree(tls, (*StatAccum)(unsafe.Pointer(p)).Fdb, p)
}
func statInit(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var p uintptr
var nCol int32
var nKeyCol int32
var nColUp int32
var n int32
var db uintptr = Xsqlite3_context_db_handle(tls, context)
var mxSample int32
if (*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_Stat4) == U32(0) {
mxSample = SQLITE_STAT4_SAMPLES
} else {
mxSample = 0
}
_ = argc
nCol = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv)))
if uint64(unsafe.Sizeof(TRowcnt(0))) < uint64(8) {
nColUp = (nCol + 1) & libc.CplInt32(1)
} else {
nColUp = nCol
}
nKeyCol = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
n = int32(uint64(unsafe.Sizeof(StatAccum{})) +
uint64(unsafe.Sizeof(TRowcnt(0)))*uint64(nColUp) +
uint64(unsafe.Sizeof(TRowcnt(0)))*uint64(nColUp))
if mxSample != 0 {
n = int32(uint64(n) + (uint64(unsafe.Sizeof(TRowcnt(0)))*uint64(nColUp) +
uint64(unsafe.Sizeof(StatSample{}))*uint64(nCol+mxSample) +
uint64(unsafe.Sizeof(TRowcnt(0)))*uint64(3)*uint64(nColUp)*uint64(nCol+mxSample)))
}
p = Xsqlite3DbMallocZero(tls, db, uint64(n))
if p == uintptr(0) {
Xsqlite3_result_error_nomem(tls, context)
return
}
(*StatAccum)(unsafe.Pointer(p)).Fdb = db
(*StatAccum)(unsafe.Pointer(p)).FnEst = TRowcnt(Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8))))
(*StatAccum)(unsafe.Pointer(p)).FnRow = uint64(0)
(*StatAccum)(unsafe.Pointer(p)).FnLimit = int32(Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(argv + 3*8))))
(*StatAccum)(unsafe.Pointer(p)).FnCol = nCol
(*StatAccum)(unsafe.Pointer(p)).FnKeyCol = nKeyCol
(*StatAccum)(unsafe.Pointer(p)).FnSkipAhead = U8(0)
(*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanDLt = p + 1*136
(*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanEq = (*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanDLt + uintptr(nColUp)*8
(*StatAccum)(unsafe.Pointer(p)).FmxSample = func() int32 {
if (*StatAccum)(unsafe.Pointer(p)).FnLimit == 0 {
return mxSample
}
return 0
}()
if mxSample != 0 {
var pSpace uintptr
var i int32
(*StatAccum)(unsafe.Pointer(p)).FiGet = -1
(*StatAccum)(unsafe.Pointer(p)).FnPSample = (*StatAccum)(unsafe.Pointer(p)).FnEst/TRowcnt(mxSample/3+1) + uint64(1)
(*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanLt = (*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanEq + uintptr(nColUp)*8
(*StatAccum)(unsafe.Pointer(p)).FiPrn = U32(0x689e962d)*U32(nCol) ^ 0xd0944565*U32(Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8))))
(*StatAccum)(unsafe.Pointer(p)).Fa = (*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanLt + uintptr(nColUp)*8
(*StatAccum)(unsafe.Pointer(p)).FaBest = (*StatAccum)(unsafe.Pointer(p)).Fa + uintptr(mxSample)*48
pSpace = (*StatAccum)(unsafe.Pointer(p)).Fa + uintptr(mxSample+nCol)*48
for i = 0; i < mxSample+nCol; i++ {
(*StatSample)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fa + uintptr(i)*48)).FanEq = pSpace
pSpace += uintptr(uint64(unsafe.Sizeof(TRowcnt(0))) * uint64(nColUp))
(*StatSample)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fa + uintptr(i)*48)).FanLt = pSpace
pSpace += uintptr(uint64(unsafe.Sizeof(TRowcnt(0))) * uint64(nColUp))
(*StatSample)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fa + uintptr(i)*48)).FanDLt = pSpace
pSpace += uintptr(uint64(unsafe.Sizeof(TRowcnt(0))) * uint64(nColUp))
}
for i = 0; i < nCol; i++ {
(*StatSample)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).FaBest + uintptr(i)*48)).FiCol = i
}
}
Xsqlite3_result_blob(tls, context, p, int32(unsafe.Sizeof(StatAccum{})), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{statAccumDestructor})))
}
var statInitFuncdef = FuncDef{
FnArg: int8(4),
FfuncFlags: U32(SQLITE_UTF8),
FxSFunc: 0,
FzName: ts + 11831}
func sampleIsBetterPost(tls *libc.TLS, pAccum uintptr, pNew uintptr, pOld uintptr) int32 {
var nCol int32 = (*StatAccum)(unsafe.Pointer(pAccum)).FnCol
var i int32
for i = (*StatSample)(unsafe.Pointer(pNew)).FiCol + 1; i < nCol; i++ {
if *(*TRowcnt)(unsafe.Pointer((*StatSample)(unsafe.Pointer(pNew)).FanEq + uintptr(i)*8)) > *(*TRowcnt)(unsafe.Pointer((*StatSample)(unsafe.Pointer(pOld)).FanEq + uintptr(i)*8)) {
return 1
}
if *(*TRowcnt)(unsafe.Pointer((*StatSample)(unsafe.Pointer(pNew)).FanEq + uintptr(i)*8)) < *(*TRowcnt)(unsafe.Pointer((*StatSample)(unsafe.Pointer(pOld)).FanEq + uintptr(i)*8)) {
return 0
}
}
if (*StatSample)(unsafe.Pointer(pNew)).FiHash > (*StatSample)(unsafe.Pointer(pOld)).FiHash {
return 1
}
return 0
}
func sampleIsBetter(tls *libc.TLS, pAccum uintptr, pNew uintptr, pOld uintptr) int32 {
var nEqNew TRowcnt = *(*TRowcnt)(unsafe.Pointer((*StatSample)(unsafe.Pointer(pNew)).FanEq + uintptr((*StatSample)(unsafe.Pointer(pNew)).FiCol)*8))
var nEqOld TRowcnt = *(*TRowcnt)(unsafe.Pointer((*StatSample)(unsafe.Pointer(pOld)).FanEq + uintptr((*StatSample)(unsafe.Pointer(pOld)).FiCol)*8))
if nEqNew > nEqOld {
return 1
}
if nEqNew == nEqOld {
if (*StatSample)(unsafe.Pointer(pNew)).FiCol < (*StatSample)(unsafe.Pointer(pOld)).FiCol {
return 1
}
return libc.Bool32((*StatSample)(unsafe.Pointer(pNew)).FiCol == (*StatSample)(unsafe.Pointer(pOld)).FiCol && sampleIsBetterPost(tls, pAccum, pNew, pOld) != 0)
}
return 0
}
func sampleInsert(tls *libc.TLS, p uintptr, pNew uintptr, nEqZero int32) {
var pSample uintptr
var i int32
var pOld uintptr
var pUpgrade uintptr
var pMin uintptr
var anEq uintptr
var anLt uintptr
var anDLt uintptr
var iMin int32
pSample = uintptr(0)
if !(nEqZero > (*StatAccum)(unsafe.Pointer(p)).FnMaxEqZero) {
goto __1
}
(*StatAccum)(unsafe.Pointer(p)).FnMaxEqZero = nEqZero
__1:
;
if !(int32((*StatSample)(unsafe.Pointer(pNew)).FisPSample) == 0) {
goto __2
}
pUpgrade = uintptr(0)
i = (*StatAccum)(unsafe.Pointer(p)).FnSample - 1
__3:
if !(i >= 0) {
goto __5
}
pOld = (*StatAccum)(unsafe.Pointer(p)).Fa + uintptr(i)*48
if !(*(*TRowcnt)(unsafe.Pointer((*StatSample)(unsafe.Pointer(pOld)).FanEq + uintptr((*StatSample)(unsafe.Pointer(pNew)).FiCol)*8)) == uint64(0)) {
goto __6
}
if !((*StatSample)(unsafe.Pointer(pOld)).FisPSample != 0) {
goto __7
}
return
__7:
;
if !(pUpgrade == uintptr(0) || sampleIsBetter(tls, p, pOld, pUpgrade) != 0) {
goto __8
}
pUpgrade = pOld
__8:
;
__6:
;
goto __4
__4:
i--
goto __3
goto __5
__5:
;
if !(pUpgrade != 0) {
goto __9
}
(*StatSample)(unsafe.Pointer(pUpgrade)).FiCol = (*StatSample)(unsafe.Pointer(pNew)).FiCol
*(*TRowcnt)(unsafe.Pointer((*StatSample)(unsafe.Pointer(pUpgrade)).FanEq + uintptr((*StatSample)(unsafe.Pointer(pUpgrade)).FiCol)*8)) = *(*TRowcnt)(unsafe.Pointer((*StatSample)(unsafe.Pointer(pNew)).FanEq + uintptr((*StatSample)(unsafe.Pointer(pUpgrade)).FiCol)*8))
goto find_new_min
__9:
;
__2:
;
if !((*StatAccum)(unsafe.Pointer(p)).FnSample >= (*StatAccum)(unsafe.Pointer(p)).FmxSample) {
goto __10
}
pMin = (*StatAccum)(unsafe.Pointer(p)).Fa + uintptr((*StatAccum)(unsafe.Pointer(p)).FiMin)*48
anEq = (*StatSample)(unsafe.Pointer(pMin)).FanEq
anLt = (*StatSample)(unsafe.Pointer(pMin)).FanLt
anDLt = (*StatSample)(unsafe.Pointer(pMin)).FanDLt
sampleClear(tls, (*StatAccum)(unsafe.Pointer(p)).Fdb, pMin)
libc.X__builtin___memmove_chk(tls, pMin, pMin+1*48, uint64(unsafe.Sizeof(StatSample{}))*uint64((*StatAccum)(unsafe.Pointer(p)).FnSample-(*StatAccum)(unsafe.Pointer(p)).FiMin-1), libc.X__builtin_object_size(tls, pMin, 0))
pSample = (*StatAccum)(unsafe.Pointer(p)).Fa + uintptr((*StatAccum)(unsafe.Pointer(p)).FnSample-1)*48
(*StatSample)(unsafe.Pointer(pSample)).FnRowid = U32(0)
(*StatSample)(unsafe.Pointer(pSample)).FanEq = anEq
(*StatSample)(unsafe.Pointer(pSample)).FanDLt = anDLt
(*StatSample)(unsafe.Pointer(pSample)).FanLt = anLt
(*StatAccum)(unsafe.Pointer(p)).FnSample = (*StatAccum)(unsafe.Pointer(p)).FmxSample - 1
__10:
;
pSample = (*StatAccum)(unsafe.Pointer(p)).Fa + uintptr((*StatAccum)(unsafe.Pointer(p)).FnSample)*48
sampleCopy(tls, p, pSample, pNew)
(*StatAccum)(unsafe.Pointer(p)).FnSample++
libc.X__builtin___memset_chk(tls, (*StatSample)(unsafe.Pointer(pSample)).FanEq, 0, uint64(unsafe.Sizeof(TRowcnt(0)))*uint64(nEqZero), libc.X__builtin_object_size(tls, (*StatSample)(unsafe.Pointer(pSample)).FanEq, 0))
find_new_min:
if !((*StatAccum)(unsafe.Pointer(p)).FnSample >= (*StatAccum)(unsafe.Pointer(p)).FmxSample) {
goto __11
}
iMin = -1
i = 0
__12:
if !(i < (*StatAccum)(unsafe.Pointer(p)).FmxSample) {
goto __14
}
if !((*StatSample)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fa+uintptr(i)*48)).FisPSample != 0) {
goto __15
}
goto __13
__15:
;
if !(iMin < 0 || sampleIsBetter(tls, p, (*StatAccum)(unsafe.Pointer(p)).Fa+uintptr(iMin)*48, (*StatAccum)(unsafe.Pointer(p)).Fa+uintptr(i)*48) != 0) {
goto __16
}
iMin = i
__16:
;
goto __13
__13:
i++
goto __12
goto __14
__14:
;
(*StatAccum)(unsafe.Pointer(p)).FiMin = iMin
__11:
}
func samplePushPrevious(tls *libc.TLS, p uintptr, iChng int32) {
var i int32
for i = (*StatAccum)(unsafe.Pointer(p)).FnCol - 2; i >= iChng; i-- {
var pBest uintptr = (*StatAccum)(unsafe.Pointer(p)).FaBest + uintptr(i)*48
*(*TRowcnt)(unsafe.Pointer((*StatSample)(unsafe.Pointer(pBest)).FanEq + uintptr(i)*8)) = *(*TRowcnt)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanEq + uintptr(i)*8))
if (*StatAccum)(unsafe.Pointer(p)).FnSample < (*StatAccum)(unsafe.Pointer(p)).FmxSample || sampleIsBetter(tls, p, pBest, (*StatAccum)(unsafe.Pointer(p)).Fa+uintptr((*StatAccum)(unsafe.Pointer(p)).FiMin)*48) != 0 {
sampleInsert(tls, p, pBest, i)
}
}
for i = (*StatAccum)(unsafe.Pointer(p)).FnSample - 1; i >= 0; i-- {
var j int32
for j = (*StatAccum)(unsafe.Pointer(p)).FnMaxEqZero; j < (*StatAccum)(unsafe.Pointer(p)).FnCol; j++ {
}
}
if iChng < (*StatAccum)(unsafe.Pointer(p)).FnMaxEqZero {
for i = (*StatAccum)(unsafe.Pointer(p)).FnSample - 1; i >= 0; i-- {
var j int32
for j = iChng; j < (*StatAccum)(unsafe.Pointer(p)).FnCol; j++ {
if *(*TRowcnt)(unsafe.Pointer((*StatSample)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fa+uintptr(i)*48)).FanEq + uintptr(j)*8)) == uint64(0) {
*(*TRowcnt)(unsafe.Pointer((*StatSample)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fa+uintptr(i)*48)).FanEq + uintptr(j)*8)) = *(*TRowcnt)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanEq + uintptr(j)*8))
}
}
}
(*StatAccum)(unsafe.Pointer(p)).FnMaxEqZero = iChng
}
}
func statPush(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var i int32
var p uintptr = Xsqlite3_value_blob(tls, *(*uintptr)(unsafe.Pointer(argv)))
var iChng int32 = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
_ = argc
_ = context
if (*StatAccum)(unsafe.Pointer(p)).FnRow == uint64(0) {
for i = 0; i < (*StatAccum)(unsafe.Pointer(p)).FnCol; i++ {
*(*TRowcnt)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanEq + uintptr(i)*8)) = uint64(1)
}
} else {
if (*StatAccum)(unsafe.Pointer(p)).FmxSample != 0 {
samplePushPrevious(tls, p, iChng)
}
for i = 0; i < iChng; i++ {
*(*TRowcnt)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanEq + uintptr(i)*8))++
}
for i = iChng; i < (*StatAccum)(unsafe.Pointer(p)).FnCol; i++ {
*(*TRowcnt)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanDLt + uintptr(i)*8))++
if (*StatAccum)(unsafe.Pointer(p)).FmxSample != 0 {
*(*TRowcnt)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanLt + uintptr(i)*8)) += *(*TRowcnt)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanEq + uintptr(i)*8))
}
*(*TRowcnt)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanEq + uintptr(i)*8)) = uint64(1)
}
}
(*StatAccum)(unsafe.Pointer(p)).FnRow++
if (*StatAccum)(unsafe.Pointer(p)).FmxSample != 0 {
var nLt TRowcnt
if Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8))) == SQLITE_INTEGER {
sampleSetRowidInt64(tls, (*StatAccum)(unsafe.Pointer(p)).Fdb, p+40, Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8))))
} else {
sampleSetRowid(tls, (*StatAccum)(unsafe.Pointer(p)).Fdb, p+40, Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8))),
Xsqlite3_value_blob(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8))))
}
(*StatAccum)(unsafe.Pointer(p)).Fcurrent.FiHash = libc.AssignPtrUint32(p+100, (*StatAccum)(unsafe.Pointer(p)).FiPrn*U32(1103515245)+U32(12345))
nLt = *(*TRowcnt)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanLt + uintptr((*StatAccum)(unsafe.Pointer(p)).FnCol-1)*8))
if nLt/(*StatAccum)(unsafe.Pointer(p)).FnPSample != (nLt+uint64(1))/(*StatAccum)(unsafe.Pointer(p)).FnPSample {
(*StatAccum)(unsafe.Pointer(p)).Fcurrent.FisPSample = U8(1)
(*StatAccum)(unsafe.Pointer(p)).Fcurrent.FiCol = 0
sampleInsert(tls, p, p+40, (*StatAccum)(unsafe.Pointer(p)).FnCol-1)
(*StatAccum)(unsafe.Pointer(p)).Fcurrent.FisPSample = U8(0)
}
for i = 0; i < (*StatAccum)(unsafe.Pointer(p)).FnCol-1; i++ {
(*StatAccum)(unsafe.Pointer(p)).Fcurrent.FiCol = i
if i >= iChng || sampleIsBetterPost(tls, p, p+40, (*StatAccum)(unsafe.Pointer(p)).FaBest+uintptr(i)*48) != 0 {
sampleCopy(tls, p, (*StatAccum)(unsafe.Pointer(p)).FaBest+uintptr(i)*48, p+40)
}
}
} else if (*StatAccum)(unsafe.Pointer(p)).FnLimit != 0 && (*StatAccum)(unsafe.Pointer(p)).FnRow > TRowcnt((*StatAccum)(unsafe.Pointer(p)).FnLimit)*TRowcnt(int32((*StatAccum)(unsafe.Pointer(p)).FnSkipAhead)+1) {
(*StatAccum)(unsafe.Pointer(p)).FnSkipAhead++
Xsqlite3_result_int(tls, context, libc.Bool32(*(*TRowcnt)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanDLt)) > uint64(0)))
}
}
var statPushFuncdef = FuncDef{
FnArg: int8(2 + IsStat4),
FfuncFlags: U32(SQLITE_UTF8),
FxSFunc: 0,
FzName: ts + 11841}
func statGet(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(88)
defer tls.Free(88)
var p uintptr = Xsqlite3_value_blob(tls, *(*uintptr)(unsafe.Pointer(argv)))
var eCall int32 = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
if eCall == STAT_GET_STAT1 {
var i int32
Xsqlite3StrAccumInit(tls, bp+24, uintptr(0), uintptr(0), 0, ((*StatAccum)(unsafe.Pointer(p)).FnKeyCol+1)*100)
Xsqlite3_str_appendf(tls, bp+24, ts+11851,
libc.VaList(bp, func() uint64 {
if (*StatAccum)(unsafe.Pointer(p)).FnSkipAhead != 0 {
return (*StatAccum)(unsafe.Pointer(p)).FnEst
}
return (*StatAccum)(unsafe.Pointer(p)).FnRow
}()))
for i = 0; i < (*StatAccum)(unsafe.Pointer(p)).FnKeyCol; i++ {
var nDistinct U64 = *(*TRowcnt)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fcurrent.FanDLt + uintptr(i)*8)) + uint64(1)
var iVal U64 = ((*StatAccum)(unsafe.Pointer(p)).FnRow + nDistinct - uint64(1)) / nDistinct
if iVal == uint64(2) && (*StatAccum)(unsafe.Pointer(p)).FnRow*uint64(10) <= nDistinct*uint64(11) {
iVal = uint64(1)
}
Xsqlite3_str_appendf(tls, bp+24, ts+11856, libc.VaList(bp+8, iVal))
}
Xsqlite3ResultStrAccum(tls, context, bp+24)
} else if eCall == STAT_GET_ROWID {
if (*StatAccum)(unsafe.Pointer(p)).FiGet < 0 {
samplePushPrevious(tls, p, 0)
(*StatAccum)(unsafe.Pointer(p)).FiGet = 0
}
if (*StatAccum)(unsafe.Pointer(p)).FiGet < (*StatAccum)(unsafe.Pointer(p)).FnSample {
var pS uintptr = (*StatAccum)(unsafe.Pointer(p)).Fa + uintptr((*StatAccum)(unsafe.Pointer(p)).FiGet)*48
if (*StatSample)(unsafe.Pointer(pS)).FnRowid == U32(0) {
Xsqlite3_result_int64(tls, context, *(*I64)(unsafe.Pointer(pS + 24)))
} else {
Xsqlite3_result_blob(tls, context, *(*uintptr)(unsafe.Pointer(pS + 24)), int32((*StatSample)(unsafe.Pointer(pS)).FnRowid),
libc.UintptrFromInt32(-1))
}
}
} else {
var aCnt uintptr = uintptr(0)
var i int32
switch eCall {
case STAT_GET_NEQ:
aCnt = (*StatSample)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fa + uintptr((*StatAccum)(unsafe.Pointer(p)).FiGet)*48)).FanEq
break
fallthrough
case STAT_GET_NLT:
aCnt = (*StatSample)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fa + uintptr((*StatAccum)(unsafe.Pointer(p)).FiGet)*48)).FanLt
break
fallthrough
default:
{
aCnt = (*StatSample)(unsafe.Pointer((*StatAccum)(unsafe.Pointer(p)).Fa + uintptr((*StatAccum)(unsafe.Pointer(p)).FiGet)*48)).FanDLt
(*StatAccum)(unsafe.Pointer(p)).FiGet++
break
}
}
Xsqlite3StrAccumInit(tls, bp+56, uintptr(0), uintptr(0), 0, (*StatAccum)(unsafe.Pointer(p)).FnCol*100)
for i = 0; i < (*StatAccum)(unsafe.Pointer(p)).FnCol; i++ {
Xsqlite3_str_appendf(tls, bp+56, ts+11862, libc.VaList(bp+16, *(*TRowcnt)(unsafe.Pointer(aCnt + uintptr(i)*8))))
}
if (*Sqlite3_str)(unsafe.Pointer(bp+56)).FnChar != 0 {
(*Sqlite3_str)(unsafe.Pointer(bp+56)).FnChar--
}
Xsqlite3ResultStrAccum(tls, context, bp+56)
}
_ = argc
}
var statGetFuncdef = FuncDef{
FnArg: int8(1 + IsStat4),
FfuncFlags: U32(SQLITE_UTF8),
FxSFunc: 0,
FzName: ts + 11868}
func callStatGet(tls *libc.TLS, pParse uintptr, regStat int32, iParam int32, regOut int32) {
Xsqlite3VdbeAddOp2(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, OP_Integer, iParam, regStat+1)
Xsqlite3VdbeAddFunctionCall(tls, pParse, 0, regStat, regOut, 1+IsStat4,
uintptr(unsafe.Pointer(&statGetFuncdef)), 0)
}
func analyzeOneTable(tls *libc.TLS, pParse uintptr, pTab uintptr, pOnlyIdx uintptr, iStatCur int32, iMem int32, iTab int32) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pIdx uintptr
var iIdxCur int32
var iTabCur int32
var v uintptr
var i int32
var jZeroRows int32 = -1
var iDb int32
var needTableCnt U8 = U8(1)
var regNewRowid int32 = libc.PostIncInt32(&iMem, 1)
var regStat int32 = libc.PostIncInt32(&iMem, 1)
var regChng int32 = libc.PostIncInt32(&iMem, 1)
var regRowid int32 = libc.PostIncInt32(&iMem, 1)
var regTemp int32 = libc.PostIncInt32(&iMem, 1)
var regTemp2 int32 = libc.PostIncInt32(&iMem, 1)
var regTabname int32 = libc.PostIncInt32(&iMem, 1)
var regIdxname int32 = libc.PostIncInt32(&iMem, 1)
var regStat1 int32 = libc.PostIncInt32(&iMem, 1)
var regPrev int32 = iMem
var pStat1 uintptr = uintptr(0)
(*Parse)(unsafe.Pointer(pParse)).FnMem = func() int32 {
if (*Parse)(unsafe.Pointer(pParse)).FnMem > iMem {
return (*Parse)(unsafe.Pointer(pParse)).FnMem
}
return iMem
}()
v = Xsqlite3GetVdbe(tls, pParse)
if v == uintptr(0) || pTab == uintptr(0) {
return
}
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_NORM) {
return
}
if Xsqlite3_strlike(tls, ts+11877, (*Table)(unsafe.Pointer(pTab)).FzName, uint32('\\')) == 0 {
return
}
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
if Xsqlite3AuthCheck(tls, pParse, SQLITE_ANALYZE, (*Table)(unsafe.Pointer(pTab)).FzName, uintptr(0),
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName) != 0 {
return
}
if (*Sqlite3)(unsafe.Pointer(db)).FxPreUpdateCallback != 0 {
pStat1 = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Table{}))+uint64(13))
if pStat1 == uintptr(0) {
return
}
(*Table)(unsafe.Pointer(pStat1)).FzName = pStat1 + 1*104
libc.X__builtin___memcpy_chk(tls, (*Table)(unsafe.Pointer(pStat1)).FzName, ts+11751, uint64(13), libc.X__builtin_object_size(tls, (*Table)(unsafe.Pointer(pStat1)).FzName, 0))
(*Table)(unsafe.Pointer(pStat1)).FnCol = int16(3)
(*Table)(unsafe.Pointer(pStat1)).FiPKey = int16(-1)
Xsqlite3VdbeAddOp4(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, OP_Noop, 0, 0, 0, pStat1, -6)
}
Xsqlite3TableLock(tls, pParse, iDb, (*Table)(unsafe.Pointer(pTab)).Ftnum, uint8(0), (*Table)(unsafe.Pointer(pTab)).FzName)
iTabCur = libc.PostIncInt32(&iTab, 1)
iIdxCur = libc.PostIncInt32(&iTab, 1)
(*Parse)(unsafe.Pointer(pParse)).FnTab = func() int32 {
if (*Parse)(unsafe.Pointer(pParse)).FnTab > iTab {
return (*Parse)(unsafe.Pointer(pParse)).FnTab
}
return iTab
}()
Xsqlite3OpenTable(tls, pParse, iTabCur, iDb, pTab, OP_OpenRead)
Xsqlite3VdbeLoadString(tls, v, regTabname, (*Table)(unsafe.Pointer(pTab)).FzName)
for pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex; pIdx != 0; pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext {
var nCol int32
var addrRewind int32
var addrNextRow int32
var zIdxName uintptr
var nColTest int32
if pOnlyIdx != 0 && pOnlyIdx != pIdx {
continue
}
if (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere == uintptr(0) {
needTableCnt = U8(0)
}
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) && int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY {
nCol = int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)
zIdxName = (*Table)(unsafe.Pointer(pTab)).FzName
nColTest = nCol - 1
} else {
nCol = int32((*Index)(unsafe.Pointer(pIdx)).FnColumn)
zIdxName = (*Index)(unsafe.Pointer(pIdx)).FzName
if uint32(int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x8>>3)) != 0 {
nColTest = int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol) - 1
} else {
nColTest = nCol - 1
}
}
Xsqlite3VdbeLoadString(tls, v, regIdxname, zIdxName)
(*Parse)(unsafe.Pointer(pParse)).FnMem = func() int32 {
if (*Parse)(unsafe.Pointer(pParse)).FnMem > regPrev+nColTest {
return (*Parse)(unsafe.Pointer(pParse)).FnMem
}
return regPrev + nColTest
}()
Xsqlite3VdbeAddOp3(tls, v, OP_OpenRead, iIdxCur, int32((*Index)(unsafe.Pointer(pIdx)).Ftnum), iDb)
Xsqlite3VdbeSetP4KeyInfo(tls, pParse, pIdx)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, nCol, regStat+1)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol), regRowid)
if (*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_Stat4) == U32(0) {
Xsqlite3VdbeAddOp2(tls, v, OP_Count, iIdxCur, regTemp)
addrRewind = Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, iIdxCur)
} else {
addrRewind = Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, iIdxCur)
Xsqlite3VdbeAddOp3(tls, v, OP_Count, iIdxCur, regTemp, 1)
}
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, (*Sqlite3)(unsafe.Pointer(db)).FnAnalysisLimit, regTemp2)
Xsqlite3VdbeAddFunctionCall(tls, pParse, 0, regStat+1, regStat, 4,
uintptr(unsafe.Pointer(&statInitFuncdef)), 0)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, regChng)
addrNextRow = Xsqlite3VdbeCurrentAddr(tls, v)
if nColTest > 0 {
var endDistinctTest int32 = Xsqlite3VdbeMakeLabel(tls, pParse)
var aGotoChng uintptr
aGotoChng = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(int32(0)))*uint64(nColTest))
if aGotoChng == uintptr(0) {
continue
}
Xsqlite3VdbeAddOp0(tls, v, OP_Goto)
addrNextRow = Xsqlite3VdbeCurrentAddr(tls, v)
if nColTest == 1 && int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol) == 1 && int32((*Index)(unsafe.Pointer(pIdx)).FonError) != OE_None {
Xsqlite3VdbeAddOp2(tls, v, OP_NotNull, regPrev, endDistinctTest)
}
for i = 0; i < nColTest; i++ {
var pColl uintptr = Xsqlite3LocateCollSeq(tls, pParse, *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(i)*8)))
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, i, regChng)
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iIdxCur, i, regTemp)
*(*int32)(unsafe.Pointer(aGotoChng + uintptr(i)*4)) = Xsqlite3VdbeAddOp4(tls, v, OP_Ne, regTemp, 0, regPrev+i, pColl, -2)
Xsqlite3VdbeChangeP5(tls, v, uint16(SQLITE_NULLEQ))
}
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, nColTest, regChng)
Xsqlite3VdbeGoto(tls, v, endDistinctTest)
Xsqlite3VdbeJumpHere(tls, v, addrNextRow-1)
for i = 0; i < nColTest; i++ {
Xsqlite3VdbeJumpHere(tls, v, *(*int32)(unsafe.Pointer(aGotoChng + uintptr(i)*4)))
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iIdxCur, i, regPrev+i)
}
Xsqlite3VdbeResolveLabel(tls, v, endDistinctTest)
Xsqlite3DbFree(tls, db, aGotoChng)
}
if (*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_Stat4) == U32(0) {
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
Xsqlite3VdbeAddOp2(tls, v, OP_IdxRowid, iIdxCur, regRowid)
} else {
var pPk uintptr = Xsqlite3PrimaryKeyIndex(tls, (*Index)(unsafe.Pointer(pIdx)).FpTable)
var j int32
var k int32
var regKey int32
regKey = Xsqlite3GetTempRange(tls, pParse, int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol))
for j = 0; j < int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol); j++ {
k = int32(Xsqlite3TableColumnToIndex(tls, pIdx, *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(j)*2))))
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iIdxCur, k, regKey+j)
}
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regKey, int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol), regRowid)
Xsqlite3ReleaseTempRange(tls, pParse, regKey, int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol))
}
}
{
Xsqlite3VdbeAddFunctionCall(tls, pParse, 1, regStat, regTemp, 2+IsStat4,
uintptr(unsafe.Pointer(&statPushFuncdef)), 0)
if (*Sqlite3)(unsafe.Pointer(db)).FnAnalysisLimit != 0 {
var j1 int32
var j2 int32
var j3 int32
j1 = Xsqlite3VdbeAddOp1(tls, v, OP_IsNull, regTemp)
j2 = Xsqlite3VdbeAddOp1(tls, v, OP_If, regTemp)
j3 = Xsqlite3VdbeAddOp4Int(tls, v, OP_SeekGT, iIdxCur, 0, regPrev, 1)
Xsqlite3VdbeJumpHere(tls, v, j1)
Xsqlite3VdbeAddOp2(tls, v, OP_Next, iIdxCur, addrNextRow)
Xsqlite3VdbeJumpHere(tls, v, j2)
Xsqlite3VdbeJumpHere(tls, v, j3)
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_Next, iIdxCur, addrNextRow)
}
}
callStatGet(tls, pParse, regStat, STAT_GET_STAT1, regStat1)
Xsqlite3VdbeAddOp4(tls, v, OP_MakeRecord, regTabname, 3, regTemp, ts+11887, 0)
Xsqlite3VdbeAddOp2(tls, v, OP_NewRowid, iStatCur, regNewRowid)
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, iStatCur, regTemp, regNewRowid)
Xsqlite3VdbeChangeP4(tls, v, -1, pStat1, -5)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_APPEND))
if (*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_Stat4) == U32(0) && (*Sqlite3)(unsafe.Pointer(db)).FnAnalysisLimit == 0 {
var regEq int32 = regStat1
var regLt int32 = regStat1 + 1
var regDLt int32 = regStat1 + 2
var regSample int32 = regStat1 + 3
var regCol int32 = regStat1 + 4
var regSampleRowid int32 = regCol + nCol
var addrNext int32
var addrIsNull int32
var seekOp U8
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
seekOp = uint8(OP_NotExists)
} else {
seekOp = uint8(OP_NotFound)
}
(*Parse)(unsafe.Pointer(pParse)).FnMem = func() int32 {
if (*Parse)(unsafe.Pointer(pParse)).FnMem > regCol+nCol {
return (*Parse)(unsafe.Pointer(pParse)).FnMem
}
return regCol + nCol
}()
addrNext = Xsqlite3VdbeCurrentAddr(tls, v)
callStatGet(tls, pParse, regStat, STAT_GET_ROWID, regSampleRowid)
addrIsNull = Xsqlite3VdbeAddOp1(tls, v, OP_IsNull, regSampleRowid)
callStatGet(tls, pParse, regStat, STAT_GET_NEQ, regEq)
callStatGet(tls, pParse, regStat, STAT_GET_NLT, regLt)
callStatGet(tls, pParse, regStat, STAT_GET_NDLT, regDLt)
Xsqlite3VdbeAddOp4Int(tls, v, int32(seekOp), iTabCur, addrNext, regSampleRowid, 0)
for i = 0; i < nCol; i++ {
Xsqlite3ExprCodeLoadIndexColumn(tls, pParse, pIdx, iTabCur, i, regCol+i)
}
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regCol, nCol, regSample)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regTabname, 6, regTemp)
Xsqlite3VdbeAddOp2(tls, v, OP_NewRowid, iStatCur+1, regNewRowid)
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, iStatCur+1, regTemp, regNewRowid)
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 1, addrNext)
Xsqlite3VdbeJumpHere(tls, v, addrIsNull)
}
Xsqlite3VdbeJumpHere(tls, v, addrRewind)
}
if pOnlyIdx == uintptr(0) && needTableCnt != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_Count, iTabCur, regStat1)
jZeroRows = Xsqlite3VdbeAddOp1(tls, v, OP_IfNot, regStat1)
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, regIdxname)
Xsqlite3VdbeAddOp4(tls, v, OP_MakeRecord, regTabname, 3, regTemp, ts+11887, 0)
Xsqlite3VdbeAddOp2(tls, v, OP_NewRowid, iStatCur, regNewRowid)
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, iStatCur, regTemp, regNewRowid)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_APPEND))
Xsqlite3VdbeChangeP4(tls, v, -1, pStat1, -5)
Xsqlite3VdbeJumpHere(tls, v, jZeroRows)
}
}
func loadAnalysis(tls *libc.TLS, pParse uintptr, iDb int32) {
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
if v != 0 {
Xsqlite3VdbeAddOp1(tls, v, OP_LoadAnalysis, iDb)
}
}
func analyzeDatabase(tls *libc.TLS, pParse uintptr, iDb int32) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pSchema uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpSchema
var k uintptr
var iStatCur int32
var iMem int32
var iTab int32
Xsqlite3BeginWriteOperation(tls, pParse, 0, iDb)
iStatCur = (*Parse)(unsafe.Pointer(pParse)).FnTab
*(*int32)(unsafe.Pointer(pParse + 52)) += 3
openStatTable(tls, pParse, iDb, iStatCur, uintptr(0), uintptr(0))
iMem = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
iTab = (*Parse)(unsafe.Pointer(pParse)).FnTab
for k = (*Hash)(unsafe.Pointer(pSchema + 8)).Ffirst; k != 0; k = (*HashElem)(unsafe.Pointer(k)).Fnext {
var pTab uintptr = (*HashElem)(unsafe.Pointer(k)).Fdata
analyzeOneTable(tls, pParse, pTab, uintptr(0), iStatCur, iMem, iTab)
}
loadAnalysis(tls, pParse, iDb)
}
func analyzeTable(tls *libc.TLS, pParse uintptr, pTab uintptr, pOnlyIdx uintptr) {
var iDb int32
var iStatCur int32
iDb = Xsqlite3SchemaToIndex(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Table)(unsafe.Pointer(pTab)).FpSchema)
Xsqlite3BeginWriteOperation(tls, pParse, 0, iDb)
iStatCur = (*Parse)(unsafe.Pointer(pParse)).FnTab
*(*int32)(unsafe.Pointer(pParse + 52)) += 3
if pOnlyIdx != 0 {
openStatTable(tls, pParse, iDb, iStatCur, (*Index)(unsafe.Pointer(pOnlyIdx)).FzName, ts+11891)
} else {
openStatTable(tls, pParse, iDb, iStatCur, (*Table)(unsafe.Pointer(pTab)).FzName, ts+11895)
}
analyzeOneTable(tls, pParse, pTab, pOnlyIdx, iStatCur, (*Parse)(unsafe.Pointer(pParse)).FnMem+1, (*Parse)(unsafe.Pointer(pParse)).FnTab)
loadAnalysis(tls, pParse, iDb)
}
// Generate code for the ANALYZE command. The parser calls this routine
// when it recognizes an ANALYZE command.
//
// ANALYZE -- 1
// ANALYZE <database> -- 2
// ANALYZE ?<database>.?<tablename> -- 3
//
// Form 1 causes all indices in all attached databases to be analyzed.
// Form 2 analyzes all indices the single database named.
// Form 3 analyzes all indices associated with the named table.
func Xsqlite3Analyze(tls *libc.TLS, pParse uintptr, pName1 uintptr, pName2 uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var iDb int32
var i int32
var z uintptr
var zDb uintptr
var pTab uintptr
var pIdx uintptr
var v uintptr
if SQLITE_OK != Xsqlite3ReadSchema(tls, pParse) {
return
}
if pName1 == uintptr(0) {
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
if i == 1 {
continue
}
analyzeDatabase(tls, pParse, i)
}
} else if (*Token)(unsafe.Pointer(pName2)).Fn == uint32(0) && libc.AssignInt32(&iDb, Xsqlite3FindDb(tls, db, pName1)) >= 0 {
analyzeDatabase(tls, pParse, iDb)
} else {
iDb = Xsqlite3TwoPartName(tls, pParse, pName1, pName2, bp)
if iDb >= 0 {
if (*Token)(unsafe.Pointer(pName2)).Fn != 0 {
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
} else {
zDb = uintptr(0)
}
z = Xsqlite3NameFromToken(tls, db, *(*uintptr)(unsafe.Pointer(bp)))
if z != 0 {
if libc.AssignUintptr(&pIdx, Xsqlite3FindIndex(tls, db, z, zDb)) != uintptr(0) {
analyzeTable(tls, pParse, (*Index)(unsafe.Pointer(pIdx)).FpTable, pIdx)
} else if libc.AssignUintptr(&pTab, Xsqlite3LocateTable(tls, pParse, uint32(0), z, zDb)) != uintptr(0) {
analyzeTable(tls, pParse, pTab, uintptr(0))
}
Xsqlite3DbFree(tls, db, z)
}
}
}
if int32((*Sqlite3)(unsafe.Pointer(db)).FnSqlExec) == 0 && libc.AssignUintptr(&v, Xsqlite3GetVdbe(tls, pParse)) != uintptr(0) {
Xsqlite3VdbeAddOp0(tls, v, OP_Expire)
}
}
type analysisInfo = struct {
Fdb uintptr
FzDatabase uintptr
}
// Used to pass information from the analyzer reader through to the
// callback routine.
type AnalysisInfo = analysisInfo
func decodeIntArray(tls *libc.TLS, zIntArray uintptr, nOut int32, aOut uintptr, aLog uintptr, pIndex uintptr) {
var z uintptr = zIntArray
var c int32
var i int32
var v TRowcnt
if z == uintptr(0) {
z = ts + 1547
}
for i = 0; *(*int8)(unsafe.Pointer(z)) != 0 && i < nOut; i++ {
v = uint64(0)
for libc.AssignInt32(&c, int32(*(*int8)(unsafe.Pointer(z)))) >= '0' && c <= '9' {
v = v*uint64(10) + TRowcnt(c) - uint64('0')
z++
}
if aOut != 0 {
*(*TRowcnt)(unsafe.Pointer(aOut + uintptr(i)*8)) = v
}
if aLog != 0 {
*(*LogEst)(unsafe.Pointer(aLog + uintptr(i)*2)) = Xsqlite3LogEst(tls, v)
}
if int32(*(*int8)(unsafe.Pointer(z))) == ' ' {
z++
}
}
if pIndex != 0 {
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(0), 2, 0x4)
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(0), 6, 0x40)
for *(*int8)(unsafe.Pointer(z)) != 0 {
if Xsqlite3_strglob(tls, ts+11899, z) == 0 {
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(1), 2, 0x4)
} else if Xsqlite3_strglob(tls, ts+11910, z) == 0 {
var sz int32 = Xsqlite3Atoi(tls, z+uintptr(3))
if sz < 2 {
sz = 2
}
(*Index)(unsafe.Pointer(pIndex)).FszIdxRow = Xsqlite3LogEst(tls, uint64(sz))
} else if Xsqlite3_strglob(tls, ts+11920, z) == 0 {
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(1), 6, 0x40)
}
for int32(*(*int8)(unsafe.Pointer(z))) != 0 && int32(*(*int8)(unsafe.Pointer(z))) != ' ' {
z++
}
for int32(*(*int8)(unsafe.Pointer(z))) == ' ' {
z++
}
}
}
}
func analysisLoader(tls *libc.TLS, pData uintptr, argc int32, argv uintptr, NotUsed uintptr) int32 {
bp := tls.Alloc(152)
defer tls.Free(152)
var pInfo uintptr = pData
var pIndex uintptr
var pTable uintptr
var z uintptr
_ = NotUsed
_ = argc
if argv == uintptr(0) || *(*uintptr)(unsafe.Pointer(argv)) == uintptr(0) || *(*uintptr)(unsafe.Pointer(argv + 2*8)) == uintptr(0) {
return 0
}
pTable = Xsqlite3FindTable(tls, (*AnalysisInfo)(unsafe.Pointer(pInfo)).Fdb, *(*uintptr)(unsafe.Pointer(argv)), (*AnalysisInfo)(unsafe.Pointer(pInfo)).FzDatabase)
if pTable == uintptr(0) {
return 0
}
if *(*uintptr)(unsafe.Pointer(argv + 1*8)) == uintptr(0) {
pIndex = uintptr(0)
} else if Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer(argv)), *(*uintptr)(unsafe.Pointer(argv + 1*8))) == 0 {
pIndex = Xsqlite3PrimaryKeyIndex(tls, pTable)
} else {
pIndex = Xsqlite3FindIndex(tls, (*AnalysisInfo)(unsafe.Pointer(pInfo)).Fdb, *(*uintptr)(unsafe.Pointer(argv + 1*8)), (*AnalysisInfo)(unsafe.Pointer(pInfo)).FzDatabase)
}
z = *(*uintptr)(unsafe.Pointer(argv + 2*8))
if pIndex != 0 {
var aiRowEst uintptr = uintptr(0)
var nCol int32 = int32((*Index)(unsafe.Pointer(pIndex)).FnKeyCol) + 1
if (*Index)(unsafe.Pointer(pIndex)).FaiRowEst == uintptr(0) {
(*Index)(unsafe.Pointer(pIndex)).FaiRowEst = Xsqlite3MallocZero(tls, uint64(unsafe.Sizeof(TRowcnt(0)))*uint64(nCol))
if (*Index)(unsafe.Pointer(pIndex)).FaiRowEst == uintptr(0) {
Xsqlite3OomFault(tls, (*AnalysisInfo)(unsafe.Pointer(pInfo)).Fdb)
}
}
aiRowEst = (*Index)(unsafe.Pointer(pIndex)).FaiRowEst
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(0), 2, 0x4)
decodeIntArray(tls, z, nCol, aiRowEst, (*Index)(unsafe.Pointer(pIndex)).FaiRowLogEst, pIndex)
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(1), 7, 0x80)
if (*Index)(unsafe.Pointer(pIndex)).FpPartIdxWhere == uintptr(0) {
(*Table)(unsafe.Pointer(pTable)).FnRowLogEst = *(*LogEst)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FaiRowLogEst))
*(*U32)(unsafe.Pointer(pTable + 48)) |= U32(TF_HasStat1)
}
} else {
(*Index)(unsafe.Pointer(bp)).FszIdxRow = (*Table)(unsafe.Pointer(pTable)).FszTabRow
decodeIntArray(tls, z, 1, uintptr(0), pTable+58, bp)
(*Table)(unsafe.Pointer(pTable)).FszTabRow = (*Index)(unsafe.Pointer(bp)).FszIdxRow
*(*U32)(unsafe.Pointer(pTable + 48)) |= U32(TF_HasStat1)
}
return 0
}
// If the Index.aSample variable is not NULL, delete the aSample[] array
// and its contents.
func Xsqlite3DeleteIndexSamples(tls *libc.TLS, db uintptr, pIdx uintptr) {
if (*Index)(unsafe.Pointer(pIdx)).FaSample != 0 {
var j int32
for j = 0; j < (*Index)(unsafe.Pointer(pIdx)).FnSample; j++ {
var p uintptr = (*Index)(unsafe.Pointer(pIdx)).FaSample + uintptr(j)*40
Xsqlite3DbFree(tls, db, (*IndexSample)(unsafe.Pointer(p)).Fp)
}
Xsqlite3DbFree(tls, db, (*Index)(unsafe.Pointer(pIdx)).FaSample)
}
if (*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed == uintptr(0) {
(*Index)(unsafe.Pointer(pIdx)).FnSample = 0
(*Index)(unsafe.Pointer(pIdx)).FaSample = uintptr(0)
}
}
func initAvgEq(tls *libc.TLS, pIdx uintptr) {
if pIdx != 0 {
var aSample uintptr = (*Index)(unsafe.Pointer(pIdx)).FaSample
var pFinal uintptr = aSample + uintptr((*Index)(unsafe.Pointer(pIdx)).FnSample-1)*40
var iCol int32
var nCol int32 = 1
if (*Index)(unsafe.Pointer(pIdx)).FnSampleCol > 1 {
nCol = (*Index)(unsafe.Pointer(pIdx)).FnSampleCol - 1
*(*TRowcnt)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaAvgEq + uintptr(nCol)*8)) = uint64(1)
}
for iCol = 0; iCol < nCol; iCol++ {
var nSample int32 = (*Index)(unsafe.Pointer(pIdx)).FnSample
var i int32
var sumEq TRowcnt = uint64(0)
var avgEq TRowcnt = uint64(0)
var nRow TRowcnt
var nSum100 I64 = int64(0)
var nDist100 I64
if !(int32((*Index)(unsafe.Pointer(pIdx)).FaiRowEst) != 0) || iCol >= int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol) || *(*TRowcnt)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiRowEst + uintptr(iCol+1)*8)) == uint64(0) {
nRow = *(*TRowcnt)(unsafe.Pointer((*IndexSample)(unsafe.Pointer(pFinal)).FanLt + uintptr(iCol)*8))
nDist100 = I64(TRowcnt(int64(100)) * *(*TRowcnt)(unsafe.Pointer((*IndexSample)(unsafe.Pointer(pFinal)).FanDLt + uintptr(iCol)*8)))
nSample--
} else {
nRow = *(*TRowcnt)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiRowEst))
nDist100 = I64(TRowcnt(int64(100)) * *(*TRowcnt)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiRowEst)) / *(*TRowcnt)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiRowEst + uintptr(iCol+1)*8)))
}
(*Index)(unsafe.Pointer(pIdx)).FnRowEst0 = nRow
for i = 0; i < nSample; i++ {
if i == (*Index)(unsafe.Pointer(pIdx)).FnSample-1 ||
*(*TRowcnt)(unsafe.Pointer((*IndexSample)(unsafe.Pointer(aSample+uintptr(i)*40)).FanDLt + uintptr(iCol)*8)) != *(*TRowcnt)(unsafe.Pointer((*IndexSample)(unsafe.Pointer(aSample+uintptr(i+1)*40)).FanDLt + uintptr(iCol)*8)) {
sumEq = sumEq + *(*TRowcnt)(unsafe.Pointer((*IndexSample)(unsafe.Pointer(aSample+uintptr(i)*40)).FanEq + uintptr(iCol)*8))
nSum100 = nSum100 + int64(100)
}
}
if nDist100 > nSum100 && sumEq < nRow {
avgEq = TRowcnt(int64(100)) * (nRow - sumEq) / TRowcnt(nDist100-nSum100)
}
if avgEq == uint64(0) {
avgEq = uint64(1)
}
*(*TRowcnt)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaAvgEq + uintptr(iCol)*8)) = avgEq
}
}
}
func findIndexOrPrimaryKey(tls *libc.TLS, db uintptr, zName uintptr, zDb uintptr) uintptr {
var pIdx uintptr = Xsqlite3FindIndex(tls, db, zName, zDb)
if pIdx == uintptr(0) {
var pTab uintptr = Xsqlite3FindTable(tls, db, zName, zDb)
if pTab != 0 && !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
pIdx = Xsqlite3PrimaryKeyIndex(tls, pTab)
}
}
return pIdx
}
func loadStatTbl(tls *libc.TLS, db uintptr, zSql1 uintptr, zSql2 uintptr, zDb uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var rc int32
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
var zSql uintptr
var pPrevIdx uintptr = uintptr(0)
var pSample uintptr
zSql = Xsqlite3MPrintf(tls, db, zSql1, libc.VaList(bp, zDb))
if !(zSql != 0) {
return SQLITE_NOMEM
}
rc = Xsqlite3_prepare(tls, db, zSql, -1, bp+16, uintptr(0))
Xsqlite3DbFree(tls, db, zSql)
if rc != 0 {
return rc
}
for Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 16))) == SQLITE_ROW {
var nIdxCol int32 = 1
var zIndex uintptr
var pIdx uintptr
var nSample int32
var nByte int32
var i int32
var pSpace uintptr
zIndex = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 0)
if zIndex == uintptr(0) {
continue
}
nSample = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 1)
pIdx = findIndexOrPrimaryKey(tls, db, zIndex, zDb)
if pIdx == uintptr(0) {
continue
}
if !((*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FpTable)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) && int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY {
nIdxCol = int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)
} else {
nIdxCol = int32((*Index)(unsafe.Pointer(pIdx)).FnColumn)
}
(*Index)(unsafe.Pointer(pIdx)).FnSampleCol = nIdxCol
nByte = int32(uint64(unsafe.Sizeof(IndexSample{})) * uint64(nSample))
nByte = int32(uint64(nByte) + uint64(unsafe.Sizeof(TRowcnt(0)))*uint64(nIdxCol)*uint64(3)*uint64(nSample))
nByte = int32(uint64(nByte) + uint64(nIdxCol)*uint64(unsafe.Sizeof(TRowcnt(0))))
(*Index)(unsafe.Pointer(pIdx)).FaSample = Xsqlite3DbMallocZero(tls, db, uint64(nByte))
if (*Index)(unsafe.Pointer(pIdx)).FaSample == uintptr(0) {
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
return SQLITE_NOMEM
}
pSpace = (*Index)(unsafe.Pointer(pIdx)).FaSample + uintptr(nSample)*40
(*Index)(unsafe.Pointer(pIdx)).FaAvgEq = pSpace
pSpace += 8 * uintptr(nIdxCol)
*(*U32)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FpTable + 48)) |= U32(TF_HasStat4)
for i = 0; i < nSample; i++ {
(*IndexSample)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaSample + uintptr(i)*40)).FanEq = pSpace
pSpace += 8 * uintptr(nIdxCol)
(*IndexSample)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaSample + uintptr(i)*40)).FanLt = pSpace
pSpace += 8 * uintptr(nIdxCol)
(*IndexSample)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaSample + uintptr(i)*40)).FanDLt = pSpace
pSpace += 8 * uintptr(nIdxCol)
}
}
rc = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
if rc != 0 {
return rc
}
zSql = Xsqlite3MPrintf(tls, db, zSql2, libc.VaList(bp+8, zDb))
if !(zSql != 0) {
return SQLITE_NOMEM
}
rc = Xsqlite3_prepare(tls, db, zSql, -1, bp+16, uintptr(0))
Xsqlite3DbFree(tls, db, zSql)
if rc != 0 {
return rc
}
for Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 16))) == SQLITE_ROW {
var zIndex uintptr
var pIdx uintptr
var nCol int32 = 1
zIndex = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 0)
if zIndex == uintptr(0) {
continue
}
pIdx = findIndexOrPrimaryKey(tls, db, zIndex, zDb)
if pIdx == uintptr(0) {
continue
}
nCol = (*Index)(unsafe.Pointer(pIdx)).FnSampleCol
if pIdx != pPrevIdx {
initAvgEq(tls, pPrevIdx)
pPrevIdx = pIdx
}
pSample = (*Index)(unsafe.Pointer(pIdx)).FaSample + uintptr((*Index)(unsafe.Pointer(pIdx)).FnSample)*40
decodeIntArray(tls, Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 1), nCol, (*IndexSample)(unsafe.Pointer(pSample)).FanEq, uintptr(0), uintptr(0))
decodeIntArray(tls, Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 2), nCol, (*IndexSample)(unsafe.Pointer(pSample)).FanLt, uintptr(0), uintptr(0))
decodeIntArray(tls, Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 3), nCol, (*IndexSample)(unsafe.Pointer(pSample)).FanDLt, uintptr(0), uintptr(0))
(*IndexSample)(unsafe.Pointer(pSample)).Fn = Xsqlite3_column_bytes(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 4)
(*IndexSample)(unsafe.Pointer(pSample)).Fp = Xsqlite3DbMallocZero(tls, db, uint64((*IndexSample)(unsafe.Pointer(pSample)).Fn+2))
if (*IndexSample)(unsafe.Pointer(pSample)).Fp == uintptr(0) {
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
return SQLITE_NOMEM
}
if (*IndexSample)(unsafe.Pointer(pSample)).Fn != 0 {
libc.X__builtin___memcpy_chk(tls, (*IndexSample)(unsafe.Pointer(pSample)).Fp, Xsqlite3_column_blob(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 4), uint64((*IndexSample)(unsafe.Pointer(pSample)).Fn), libc.X__builtin_object_size(tls, (*IndexSample)(unsafe.Pointer(pSample)).Fp, 0))
}
(*Index)(unsafe.Pointer(pIdx)).FnSample++
}
rc = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
if rc == SQLITE_OK {
initAvgEq(tls, pPrevIdx)
}
return rc
}
func loadStat4(tls *libc.TLS, db uintptr, zDb uintptr) int32 {
var rc int32 = SQLITE_OK
var pStat4 uintptr
if libc.AssignUintptr(&pStat4, Xsqlite3FindTable(tls, db, ts+11777, zDb)) != uintptr(0) &&
int32((*Table)(unsafe.Pointer(pStat4)).FeTabType) == TABTYP_NORM {
rc = loadStatTbl(tls, db,
ts+11932,
ts+11986,
zDb)
}
return rc
}
// Load the content of the sqlite_stat1 and sqlite_stat4 tables. The
// contents of sqlite_stat1 are used to populate the Index.aiRowEst[]
// arrays. The contents of sqlite_stat4 are used to populate the
// Index.aSample[] arrays.
//
// If the sqlite_stat1 table is not present in the database, SQLITE_ERROR
// is returned. In this case, even if SQLITE_ENABLE_STAT4 was defined
// during compilation and the sqlite_stat4 table is present, no data is
// read from it.
//
// If SQLITE_ENABLE_STAT4 was defined during compilation and the
// sqlite_stat4 table is not present in the database, SQLITE_ERROR is
// returned. However, in this case, data is read from the sqlite_stat1
// table (if it is present) before returning.
//
// If an OOM error occurs, this function always sets db->mallocFailed.
// This means if the caller does not care about other errors, the return
// code may be ignored.
func Xsqlite3AnalysisLoad(tls *libc.TLS, db uintptr, iDb int32) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var i uintptr
var zSql uintptr
var rc int32 = SQLITE_OK
var pSchema uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpSchema
var pStat1 uintptr
for i = (*Hash)(unsafe.Pointer(pSchema + 8)).Ffirst; i != 0; i = (*HashElem)(unsafe.Pointer(i)).Fnext {
var pTab uintptr = (*HashElem)(unsafe.Pointer(i)).Fdata
*(*U32)(unsafe.Pointer(pTab + 48)) &= libc.Uint32FromInt32(libc.CplInt32(TF_HasStat1))
}
for i = (*Hash)(unsafe.Pointer(pSchema + 32)).Ffirst; i != 0; i = (*HashElem)(unsafe.Pointer(i)).Fnext {
var pIdx uintptr = (*HashElem)(unsafe.Pointer(i)).Fdata
libc.SetBitFieldPtr16Uint32(pIdx+100, uint32(0), 7, 0x80)
Xsqlite3DeleteIndexSamples(tls, db, pIdx)
(*Index)(unsafe.Pointer(pIdx)).FaSample = uintptr(0)
}
(*AnalysisInfo)(unsafe.Pointer(bp + 8)).Fdb = db
(*AnalysisInfo)(unsafe.Pointer(bp + 8)).FzDatabase = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
if libc.AssignUintptr(&pStat1, Xsqlite3FindTable(tls, db, ts+11751, (*AnalysisInfo)(unsafe.Pointer(bp+8)).FzDatabase)) != 0 &&
int32((*Table)(unsafe.Pointer(pStat1)).FeTabType) == TABTYP_NORM {
zSql = Xsqlite3MPrintf(tls, db,
ts+12038, libc.VaList(bp, (*AnalysisInfo)(unsafe.Pointer(bp+8)).FzDatabase))
if zSql == uintptr(0) {
rc = SQLITE_NOMEM
} else {
rc = Xsqlite3_exec(tls, db, zSql, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32
}{analysisLoader})), bp+8, uintptr(0))
Xsqlite3DbFree(tls, db, zSql)
}
}
for i = (*Hash)(unsafe.Pointer(pSchema + 32)).Ffirst; i != 0; i = (*HashElem)(unsafe.Pointer(i)).Fnext {
var pIdx uintptr = (*HashElem)(unsafe.Pointer(i)).Fdata
if !(int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x80>>7) != 0) {
Xsqlite3DefaultRowEst(tls, pIdx)
}
}
if rc == SQLITE_OK {
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable++
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz = U16(0)
rc = loadStat4(tls, db, (*AnalysisInfo)(unsafe.Pointer(bp+8)).FzDatabase)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable--
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz = func() uint16 {
if (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable != 0 {
return uint16(0)
}
return (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FszTrue
}()
}
for i = (*Hash)(unsafe.Pointer(pSchema + 32)).Ffirst; i != 0; i = (*HashElem)(unsafe.Pointer(i)).Fnext {
var pIdx uintptr = (*HashElem)(unsafe.Pointer(i)).Fdata
Xsqlite3_free(tls, (*Index)(unsafe.Pointer(pIdx)).FaiRowEst)
(*Index)(unsafe.Pointer(pIdx)).FaiRowEst = uintptr(0)
}
if rc == SQLITE_NOMEM {
Xsqlite3OomFault(tls, db)
}
return rc
}
func resolveAttachExpr(tls *libc.TLS, pName uintptr, pExpr uintptr) int32 {
var rc int32 = SQLITE_OK
if pExpr != 0 {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_ID {
rc = Xsqlite3ResolveExprNames(tls, pName, pExpr)
} else {
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_STRING)
}
}
return rc
}
// Return true if zName points to a name that may be used to refer to
// database iDb attached to handle db.
func Xsqlite3DbIsNamed(tls *libc.TLS, db uintptr, iDb int32, zName uintptr) int32 {
return libc.Bool32(Xsqlite3StrICmp(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName, zName) == 0 ||
iDb == 0 && Xsqlite3StrICmp(tls, ts+6844, zName) == 0)
}
func attachFunc(tls *libc.TLS, context uintptr, NotUsed int32, argv uintptr) {
bp := tls.Alloc(72)
defer tls.Free(72)
var i int32
var rc int32
var db uintptr
var zName uintptr
var zFile uintptr
var aNew uintptr
var pNew uintptr
var pNewSchema uintptr
var pPager uintptr
var iDb int32
rc = 0
db = Xsqlite3_context_db_handle(tls, context)
*(*uintptr)(unsafe.Pointer(bp + 48)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 56)) = uintptr(0)
pNew = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 64)) = uintptr(0)
_ = NotUsed
zFile = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
zName = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
if !(zFile == uintptr(0)) {
goto __1
}
zFile = ts + 1547
__1:
;
if !(zName == uintptr(0)) {
goto __2
}
zName = ts + 1547
__2:
;
if !(uint32(int32(*(*uint8)(unsafe.Pointer(db + 192 + 8))&0x4>>2)) != 0) {
goto __3
}
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3_vfs_find(tls, ts+4238)
if !(*(*uintptr)(unsafe.Pointer(bp + 40)) == uintptr(0)) {
goto __5
}
return
__5:
;
rc = Xsqlite3BtreeOpen(tls, *(*uintptr)(unsafe.Pointer(bp + 40)), ts+12079, db, bp+24, 0, SQLITE_OPEN_MAIN_DB)
if !(rc == SQLITE_OK) {
goto __6
}
pNewSchema = Xsqlite3SchemaGet(tls, db, *(*uintptr)(unsafe.Pointer(bp + 24)))
if !(pNewSchema != 0) {
goto __7
}
pNew = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr((*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb)*32
if !((*Db)(unsafe.Pointer(pNew)).FpBt != 0) {
goto __9
}
Xsqlite3BtreeClose(tls, (*Db)(unsafe.Pointer(pNew)).FpBt)
__9:
;
(*Db)(unsafe.Pointer(pNew)).FpBt = *(*uintptr)(unsafe.Pointer(bp + 24))
(*Db)(unsafe.Pointer(pNew)).FpSchema = pNewSchema
goto __8
__7:
Xsqlite3BtreeClose(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
rc = SQLITE_NOMEM
__8:
;
__6:
;
if !(rc != 0) {
goto __10
}
goto attach_error
__10:
;
goto __4
__3:
if !((*Sqlite3)(unsafe.Pointer(db)).FnDb >= *(*int32)(unsafe.Pointer(db + 136 + 7*4))+2) {
goto __11
}
*(*uintptr)(unsafe.Pointer(bp + 64)) = Xsqlite3MPrintf(tls, db, ts+12082,
libc.VaList(bp, *(*int32)(unsafe.Pointer(db + 136 + 7*4))))
goto attach_error
__11:
;
i = 0
__12:
if !(i < (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __14
}
if !(Xsqlite3DbIsNamed(tls, db, i, zName) != 0) {
goto __15
}
*(*uintptr)(unsafe.Pointer(bp + 64)) = Xsqlite3MPrintf(tls, db, ts+12119, libc.VaList(bp+8, zName))
goto attach_error
__15:
;
goto __13
__13:
i++
goto __12
goto __14
__14:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FaDb == db+696) {
goto __16
}
aNew = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(Db{}))*uint64(3))
if !(aNew == uintptr(0)) {
goto __18
}
return
__18:
;
libc.X__builtin___memcpy_chk(tls, aNew, (*Sqlite3)(unsafe.Pointer(db)).FaDb, uint64(unsafe.Sizeof(Db{}))*uint64(2), libc.X__builtin_object_size(tls, aNew, 0))
goto __17
__16:
aNew = Xsqlite3DbRealloc(tls, db, (*Sqlite3)(unsafe.Pointer(db)).FaDb, uint64(unsafe.Sizeof(Db{}))*uint64((*Sqlite3)(unsafe.Pointer(db)).FnDb+1))
if !(aNew == uintptr(0)) {
goto __19
}
return
__19:
;
__17:
;
(*Sqlite3)(unsafe.Pointer(db)).FaDb = aNew
pNew = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr((*Sqlite3)(unsafe.Pointer(db)).FnDb)*32
libc.X__builtin___memset_chk(tls, pNew, 0, uint64(unsafe.Sizeof(Db{})), libc.X__builtin_object_size(tls, pNew, 0))
*(*uint32)(unsafe.Pointer(bp + 32)) = (*Sqlite3)(unsafe.Pointer(db)).FopenFlags
rc = Xsqlite3ParseUri(tls, (*Sqlite3_vfs)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FpVfs)).FzName, zFile, bp+32, bp+40, bp+48, bp+56)
if !(rc != SQLITE_OK) {
goto __20
}
if !(rc == SQLITE_NOMEM) {
goto __21
}
Xsqlite3OomFault(tls, db)
__21:
;
Xsqlite3_result_error(tls, context, *(*uintptr)(unsafe.Pointer(bp + 56)), -1)
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 56)))
return
__20:
;
*(*uint32)(unsafe.Pointer(bp + 32)) |= uint32(SQLITE_OPEN_MAIN_DB)
rc = Xsqlite3BtreeOpen(tls, *(*uintptr)(unsafe.Pointer(bp + 40)), *(*uintptr)(unsafe.Pointer(bp + 48)), db, pNew+8, 0, int32(*(*uint32)(unsafe.Pointer(bp + 32))))
(*Sqlite3)(unsafe.Pointer(db)).FnDb++
(*Db)(unsafe.Pointer(pNew)).FzDbSName = Xsqlite3DbStrDup(tls, db, zName)
__4:
;
(*Sqlite3)(unsafe.Pointer(db)).FnoSharedCache = U8(0)
if !(rc == SQLITE_CONSTRAINT) {
goto __22
}
rc = SQLITE_ERROR
*(*uintptr)(unsafe.Pointer(bp + 64)) = Xsqlite3MPrintf(tls, db, ts+12149, 0)
goto __23
__22:
if !(rc == SQLITE_OK) {
goto __24
}
(*Db)(unsafe.Pointer(pNew)).FpSchema = Xsqlite3SchemaGet(tls, db, (*Db)(unsafe.Pointer(pNew)).FpBt)
if !!(int32((*Db)(unsafe.Pointer(pNew)).FpSchema) != 0) {
goto __25
}
rc = SQLITE_NOMEM
goto __26
__25:
if !((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pNew)).FpSchema)).Ffile_format != 0 && int32((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pNew)).FpSchema)).Fenc) != int32((*Sqlite3)(unsafe.Pointer(db)).Fenc)) {
goto __27
}
*(*uintptr)(unsafe.Pointer(bp + 64)) = Xsqlite3MPrintf(tls, db,
ts+12178, 0)
rc = SQLITE_ERROR
__27:
;
__26:
;
Xsqlite3BtreeEnter(tls, (*Db)(unsafe.Pointer(pNew)).FpBt)
pPager = Xsqlite3BtreePager(tls, (*Db)(unsafe.Pointer(pNew)).FpBt)
Xsqlite3PagerLockingMode(tls, pPager, int32((*Sqlite3)(unsafe.Pointer(db)).FdfltLockMode))
Xsqlite3BtreeSecureDelete(tls, (*Db)(unsafe.Pointer(pNew)).FpBt,
Xsqlite3BtreeSecureDelete(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpBt, -1))
Xsqlite3BtreeSetPagerFlags(tls, (*Db)(unsafe.Pointer(pNew)).FpBt,
uint32(uint64(PAGER_SYNCHRONOUS_FULL)|(*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(PAGER_FLAGS_MASK)))
Xsqlite3BtreeLeave(tls, (*Db)(unsafe.Pointer(pNew)).FpBt)
__24:
;
__23:
;
(*Db)(unsafe.Pointer(pNew)).Fsafety_level = U8(SQLITE_DEFAULT_SYNCHRONOUS + 1)
if !(rc == SQLITE_OK && (*Db)(unsafe.Pointer(pNew)).FzDbSName == uintptr(0)) {
goto __28
}
rc = SQLITE_NOMEM
__28:
;
Xsqlite3_free_filename(tls, *(*uintptr)(unsafe.Pointer(bp + 48)))
if !(rc == SQLITE_OK) {
goto __29
}
Xsqlite3BtreeEnterAll(tls, db)
(*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb = U8(0)
*(*U32)(unsafe.Pointer(db + 44)) &= libc.Uint32FromInt32(libc.CplInt32(DBFLAG_SchemaKnownOk))
if !!(int32(*(*uint8)(unsafe.Pointer(db + 192 + 8))&0x4>>2) != 0) {
goto __30
}
rc = Xsqlite3Init(tls, db, bp+64)
__30:
;
Xsqlite3BtreeLeaveAll(tls, db)
__29:
;
if !(rc != 0) {
goto __31
}
if !!(int32(*(*uint8)(unsafe.Pointer(db + 192 + 8))&0x4>>2) != 0) {
goto __32
}
iDb = (*Sqlite3)(unsafe.Pointer(db)).FnDb - 1
if !((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpBt != 0) {
goto __33
}
Xsqlite3BtreeClose(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpBt)
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpBt = uintptr(0)
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpSchema = uintptr(0)
__33:
;
Xsqlite3ResetAllSchemasOfConnection(tls, db)
(*Sqlite3)(unsafe.Pointer(db)).FnDb = iDb
if !(rc == SQLITE_NOMEM || rc == SQLITE_IOERR|int32(12)<<8) {
goto __34
}
Xsqlite3OomFault(tls, db)
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 64)))
*(*uintptr)(unsafe.Pointer(bp + 64)) = Xsqlite3MPrintf(tls, db, ts+1483, 0)
goto __35
__34:
if !(*(*uintptr)(unsafe.Pointer(bp + 64)) == uintptr(0)) {
goto __36
}
*(*uintptr)(unsafe.Pointer(bp + 64)) = Xsqlite3MPrintf(tls, db, ts+12246, libc.VaList(bp+16, zFile))
__36:
;
__35:
;
__32:
;
goto attach_error
__31:
;
return
attach_error:
if !(*(*uintptr)(unsafe.Pointer(bp + 64)) != 0) {
goto __37
}
Xsqlite3_result_error(tls, context, *(*uintptr)(unsafe.Pointer(bp + 64)), -1)
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 64)))
__37:
;
if !(rc != 0) {
goto __38
}
Xsqlite3_result_error_code(tls, context, rc)
__38:
}
func detachFunc(tls *libc.TLS, context uintptr, NotUsed int32, argv uintptr) {
bp := tls.Alloc(152)
defer tls.Free(152)
var zName uintptr
var db uintptr
var i int32
var pDb uintptr
var pEntry uintptr
var pTrig uintptr
zName = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
db = Xsqlite3_context_db_handle(tls, context)
pDb = uintptr(0)
_ = NotUsed
if !(zName == uintptr(0)) {
goto __1
}
zName = ts + 1547
__1:
;
i = 0
__2:
if !(i < (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __4
}
pDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32
if !((*Db)(unsafe.Pointer(pDb)).FpBt == uintptr(0)) {
goto __5
}
goto __3
__5:
;
if !(Xsqlite3DbIsNamed(tls, db, i, zName) != 0) {
goto __6
}
goto __4
__6:
;
goto __3
__3:
i++
goto __2
goto __4
__4:
;
if !(i >= (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __7
}
Xsqlite3_snprintf(tls, int32(unsafe.Sizeof([128]int8{})), bp+24, ts+12274, libc.VaList(bp, zName))
goto detach_error
__7:
;
if !(i < 2) {
goto __8
}
Xsqlite3_snprintf(tls, int32(unsafe.Sizeof([128]int8{})), bp+24, ts+12295, libc.VaList(bp+8, zName))
goto detach_error
__8:
;
if !(Xsqlite3BtreeTxnState(tls, (*Db)(unsafe.Pointer(pDb)).FpBt) != SQLITE_TXN_NONE ||
Xsqlite3BtreeIsInBackup(tls, (*Db)(unsafe.Pointer(pDb)).FpBt) != 0) {
goto __9
}
Xsqlite3_snprintf(tls, int32(unsafe.Sizeof([128]int8{})), bp+24, ts+12321, libc.VaList(bp+16, zName))
goto detach_error
__9:
;
pEntry = (*Hash)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema + 56)).Ffirst
__10:
if !(pEntry != 0) {
goto __11
}
pTrig = (*HashElem)(unsafe.Pointer(pEntry)).Fdata
if !((*Trigger)(unsafe.Pointer(pTrig)).FpTabSchema == (*Db)(unsafe.Pointer(pDb)).FpSchema) {
goto __12
}
(*Trigger)(unsafe.Pointer(pTrig)).FpTabSchema = (*Trigger)(unsafe.Pointer(pTrig)).FpSchema
__12:
;
pEntry = (*HashElem)(unsafe.Pointer(pEntry)).Fnext
goto __10
__11:
;
Xsqlite3BtreeClose(tls, (*Db)(unsafe.Pointer(pDb)).FpBt)
(*Db)(unsafe.Pointer(pDb)).FpBt = uintptr(0)
(*Db)(unsafe.Pointer(pDb)).FpSchema = uintptr(0)
Xsqlite3CollapseDatabaseArray(tls, db)
return
detach_error:
Xsqlite3_result_error(tls, context, bp+24, -1)
}
func codeAttach(tls *libc.TLS, pParse uintptr, type1 int32, pFunc uintptr, pAuthArg uintptr, pFilename uintptr, pDbname uintptr, pKey uintptr) {
bp := tls.Alloc(56)
defer tls.Free(56)
var rc int32
var v uintptr
var db uintptr
var regArgs int32
var zAuthArg uintptr
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if !(SQLITE_OK != Xsqlite3ReadSchema(tls, pParse)) {
goto __1
}
goto attach_end
__1:
;
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __2
}
goto attach_end
__2:
;
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp, 0))
(*NameContext)(unsafe.Pointer(bp)).FpParse = pParse
if !(SQLITE_OK != resolveAttachExpr(tls, bp, pFilename) || SQLITE_OK != resolveAttachExpr(tls, bp, pDbname) || SQLITE_OK != resolveAttachExpr(tls, bp, pKey)) {
goto __3
}
goto attach_end
__3:
;
if !(pAuthArg != 0) {
goto __4
}
if !(int32((*Expr)(unsafe.Pointer(pAuthArg)).Fop) == TK_STRING) {
goto __5
}
zAuthArg = *(*uintptr)(unsafe.Pointer(pAuthArg + 8))
goto __6
__5:
zAuthArg = uintptr(0)
__6:
;
rc = Xsqlite3AuthCheck(tls, pParse, type1, zAuthArg, uintptr(0), uintptr(0))
if !(rc != SQLITE_OK) {
goto __7
}
goto attach_end
__7:
;
__4:
;
v = Xsqlite3GetVdbe(tls, pParse)
regArgs = Xsqlite3GetTempRange(tls, pParse, 4)
Xsqlite3ExprCode(tls, pParse, pFilename, regArgs)
Xsqlite3ExprCode(tls, pParse, pDbname, regArgs+1)
Xsqlite3ExprCode(tls, pParse, pKey, regArgs+2)
if !(v != 0) {
goto __8
}
Xsqlite3VdbeAddFunctionCall(tls, pParse, 0, regArgs+3-int32((*FuncDef)(unsafe.Pointer(pFunc)).FnArg), regArgs+3,
int32((*FuncDef)(unsafe.Pointer(pFunc)).FnArg), pFunc, 0)
Xsqlite3VdbeAddOp1(tls, v, OP_Expire, libc.Bool32(type1 == SQLITE_ATTACH))
__8:
;
attach_end:
Xsqlite3ExprDelete(tls, db, pFilename)
Xsqlite3ExprDelete(tls, db, pDbname)
Xsqlite3ExprDelete(tls, db, pKey)
}
// Called by the parser to compile a DETACH statement.
//
// DETACH pDbname
func Xsqlite3Detach(tls *libc.TLS, pParse uintptr, pDbname uintptr) {
codeAttach(tls, pParse, SQLITE_DETACH, uintptr(unsafe.Pointer(&detach_func)), pDbname, uintptr(0), uintptr(0), pDbname)
}
var detach_func = FuncDef{
FnArg: int8(1),
FfuncFlags: U32(SQLITE_UTF8),
FxSFunc: 0,
FzName: ts + 12343}
// Called by the parser to compile an ATTACH statement.
//
// ATTACH p AS pDbname KEY pKey
func Xsqlite3Attach(tls *libc.TLS, pParse uintptr, p uintptr, pDbname uintptr, pKey uintptr) {
codeAttach(tls, pParse, SQLITE_ATTACH, uintptr(unsafe.Pointer(&attach_func)), p, p, pDbname, pKey)
}
var attach_func = FuncDef{
FnArg: int8(3),
FfuncFlags: U32(SQLITE_UTF8),
FxSFunc: 0,
FzName: ts + 12357}
func fixExprCb(tls *libc.TLS, p uintptr, pExpr uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pFix uintptr = *(*uintptr)(unsafe.Pointer(p + 40))
if !(int32((*DbFixer)(unsafe.Pointer(pFix)).FbTemp) != 0) {
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_FromDDL)
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_VARIABLE {
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer((*DbFixer)(unsafe.Pointer(pFix)).FpParse)).Fdb)).Finit.Fbusy != 0 {
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_NULL)
} else {
Xsqlite3ErrorMsg(tls, (*DbFixer)(unsafe.Pointer(pFix)).FpParse, ts+12371, libc.VaList(bp, (*DbFixer)(unsafe.Pointer(pFix)).FzType))
return WRC_Abort
}
}
return WRC_Continue
}
func fixSelectCb(tls *libc.TLS, p uintptr, pSelect uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var pFix uintptr = *(*uintptr)(unsafe.Pointer(p + 40))
var i int32
var pItem uintptr
var db uintptr = (*Parse)(unsafe.Pointer((*DbFixer)(unsafe.Pointer(pFix)).FpParse)).Fdb
var iDb int32 = Xsqlite3FindDbName(tls, db, (*DbFixer)(unsafe.Pointer(pFix)).FzDb)
var pList uintptr = (*Select)(unsafe.Pointer(pSelect)).FpSrc
if pList == uintptr(0) {
return WRC_Continue
}
i = 0
pItem = pList + 8
__1:
if !(i < (*SrcList)(unsafe.Pointer(pList)).FnSrc) {
goto __3
}
{
if int32((*DbFixer)(unsafe.Pointer(pFix)).FbTemp) == 0 {
if (*SrcItem)(unsafe.Pointer(pItem)).FzDatabase != 0 {
if iDb != Xsqlite3FindDbName(tls, db, (*SrcItem)(unsafe.Pointer(pItem)).FzDatabase) {
Xsqlite3ErrorMsg(tls, (*DbFixer)(unsafe.Pointer(pFix)).FpParse,
ts+12395,
libc.VaList(bp, (*DbFixer)(unsafe.Pointer(pFix)).FzType, (*DbFixer)(unsafe.Pointer(pFix)).FpName, (*SrcItem)(unsafe.Pointer(pItem)).FzDatabase))
return WRC_Abort
}
Xsqlite3DbFree(tls, db, (*SrcItem)(unsafe.Pointer(pItem)).FzDatabase)
(*SrcItem)(unsafe.Pointer(pItem)).FzDatabase = uintptr(0)
libc.SetBitFieldPtr16Uint32(pItem+60+4, uint32(1), 9, 0x200)
}
(*SrcItem)(unsafe.Pointer(pItem)).FpSchema = (*DbFixer)(unsafe.Pointer(pFix)).FpSchema
libc.SetBitFieldPtr16Uint32(pItem+60+4, uint32(1), 7, 0x80)
}
if int32(*(*uint16)(unsafe.Pointer(pList + 8 + uintptr(i)*104 + 60 + 4))&0x400>>10) == 0 &&
Xsqlite3WalkExpr(tls, pFix+8, *(*uintptr)(unsafe.Pointer(pList + 8 + uintptr(i)*104 + 72))) != 0 {
return WRC_Abort
}
}
goto __2
__2:
i++
pItem += 104
goto __1
goto __3
__3:
;
if (*Select)(unsafe.Pointer(pSelect)).FpWith != 0 {
for i = 0; i < (*With)(unsafe.Pointer((*Select)(unsafe.Pointer(pSelect)).FpWith)).FnCte; i++ {
if Xsqlite3WalkSelect(tls, p, (*Cte)(unsafe.Pointer((*Select)(unsafe.Pointer(pSelect)).FpWith+16+uintptr(i)*48)).FpSelect) != 0 {
return WRC_Abort
}
}
}
return WRC_Continue
}
// Initialize a DbFixer structure. This routine must be called prior
// to passing the structure to one of the sqliteFixAAAA() routines below.
func Xsqlite3FixInit(tls *libc.TLS, pFix uintptr, pParse uintptr, iDb int32, zType uintptr, pName uintptr) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
(*DbFixer)(unsafe.Pointer(pFix)).FpParse = pParse
(*DbFixer)(unsafe.Pointer(pFix)).FzDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
(*DbFixer)(unsafe.Pointer(pFix)).FpSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpSchema
(*DbFixer)(unsafe.Pointer(pFix)).FzType = zType
(*DbFixer)(unsafe.Pointer(pFix)).FpName = pName
(*DbFixer)(unsafe.Pointer(pFix)).FbTemp = U8(libc.Bool32(iDb == 1))
(*DbFixer)(unsafe.Pointer(pFix)).Fw.FpParse = pParse
(*DbFixer)(unsafe.Pointer(pFix)).Fw.FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{fixExprCb}))
(*DbFixer)(unsafe.Pointer(pFix)).Fw.FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{fixSelectCb}))
(*DbFixer)(unsafe.Pointer(pFix)).Fw.FxSelectCallback2 = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3WalkWinDefnDummyCallback}))
(*DbFixer)(unsafe.Pointer(pFix)).Fw.FwalkerDepth = 0
(*DbFixer)(unsafe.Pointer(pFix)).Fw.FeCode = U16(0)
*(*uintptr)(unsafe.Pointer(pFix + 8 + 40)) = pFix
}
// The following set of routines walk through the parse tree and assign
// a specific database to all table references where the database name
// was left unspecified in the original SQL statement. The pFix structure
// must have been initialized by a prior call to sqlite3FixInit().
//
// These routines are used to make sure that an index, trigger, or
// view in one database does not refer to objects in a different database.
// (Exception: indices, triggers, and views in the TEMP database are
// allowed to refer to anything.) If a reference is explicitly made
// to an object in a different database, an error message is added to
// pParse->zErrMsg and these routines return non-zero. If everything
// checks out, these routines return 0.
func Xsqlite3FixSrcList(tls *libc.TLS, pFix uintptr, pList uintptr) int32 {
bp := tls.Alloc(128)
defer tls.Free(128)
var res int32 = 0
if pList != 0 {
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Select{})), libc.X__builtin_object_size(tls, bp, 0))
(*Select)(unsafe.Pointer(bp)).FpSrc = pList
res = Xsqlite3WalkSelect(tls, pFix+8, bp)
}
return res
}
func Xsqlite3FixSelect(tls *libc.TLS, pFix uintptr, pSelect uintptr) int32 {
return Xsqlite3WalkSelect(tls, pFix+8, pSelect)
}
func Xsqlite3FixExpr(tls *libc.TLS, pFix uintptr, pExpr uintptr) int32 {
return Xsqlite3WalkExpr(tls, pFix+8, pExpr)
}
func Xsqlite3FixTriggerStep(tls *libc.TLS, pFix uintptr, pStep uintptr) int32 {
for pStep != 0 {
if Xsqlite3WalkSelect(tls, pFix+8, (*TriggerStep)(unsafe.Pointer(pStep)).FpSelect) != 0 ||
Xsqlite3WalkExpr(tls, pFix+8, (*TriggerStep)(unsafe.Pointer(pStep)).FpWhere) != 0 ||
Xsqlite3WalkExprList(tls, pFix+8, (*TriggerStep)(unsafe.Pointer(pStep)).FpExprList) != 0 ||
Xsqlite3FixSrcList(tls, pFix, (*TriggerStep)(unsafe.Pointer(pStep)).FpFrom) != 0 {
return 1
}
{
var pUp uintptr
for pUp = (*TriggerStep)(unsafe.Pointer(pStep)).FpUpsert; pUp != 0; pUp = (*Upsert)(unsafe.Pointer(pUp)).FpNextUpsert {
if Xsqlite3WalkExprList(tls, pFix+8, (*Upsert)(unsafe.Pointer(pUp)).FpUpsertTarget) != 0 ||
Xsqlite3WalkExpr(tls, pFix+8, (*Upsert)(unsafe.Pointer(pUp)).FpUpsertTargetWhere) != 0 ||
Xsqlite3WalkExprList(tls, pFix+8, (*Upsert)(unsafe.Pointer(pUp)).FpUpsertSet) != 0 ||
Xsqlite3WalkExpr(tls, pFix+8, (*Upsert)(unsafe.Pointer(pUp)).FpUpsertWhere) != 0 {
return 1
}
}
}
pStep = (*TriggerStep)(unsafe.Pointer(pStep)).FpNext
}
return 0
}
// Set or clear the access authorization function.
//
// The access authorization function is be called during the compilation
// phase to verify that the user has read and/or write access permission on
// various fields of the database. The first argument to the auth function
// is a copy of the 3rd argument to this routine. The second argument
// to the auth function is one of these constants:
//
// SQLITE_CREATE_INDEX
// SQLITE_CREATE_TABLE
// SQLITE_CREATE_TEMP_INDEX
// SQLITE_CREATE_TEMP_TABLE
// SQLITE_CREATE_TEMP_TRIGGER
// SQLITE_CREATE_TEMP_VIEW
// SQLITE_CREATE_TRIGGER
// SQLITE_CREATE_VIEW
// SQLITE_DELETE
// SQLITE_DROP_INDEX
// SQLITE_DROP_TABLE
// SQLITE_DROP_TEMP_INDEX
// SQLITE_DROP_TEMP_TABLE
// SQLITE_DROP_TEMP_TRIGGER
// SQLITE_DROP_TEMP_VIEW
// SQLITE_DROP_TRIGGER
// SQLITE_DROP_VIEW
// SQLITE_INSERT
// SQLITE_PRAGMA
// SQLITE_READ
// SQLITE_SELECT
// SQLITE_TRANSACTION
// SQLITE_UPDATE
//
// The third and fourth arguments to the auth function are the name of
// the table and the column that are being accessed. The auth function
// should return either SQLITE_OK, SQLITE_DENY, or SQLITE_IGNORE. If
// SQLITE_OK is returned, it means that access is allowed. SQLITE_DENY
// means that the SQL statement will never-run - the sqlite3_exec() call
// will return with an error. SQLITE_IGNORE means that the SQL statement
// should run but attempts to read the specified column will return NULL
// and attempts to write the column will be ignored.
//
// Setting the auth function to NULL disables this hook. The default
// setting of the auth function is NULL.
func Xsqlite3_set_authorizer(tls *libc.TLS, db uintptr, xAuth uintptr, pArg uintptr) int32 {
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = xAuth
(*Sqlite3)(unsafe.Pointer(db)).FpAuthArg = pArg
if (*Sqlite3)(unsafe.Pointer(db)).FxAuth != 0 {
Xsqlite3ExpirePreparedStatements(tls, db, 1)
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return SQLITE_OK
}
func sqliteAuthBadReturnCode(tls *libc.TLS, pParse uintptr) {
Xsqlite3ErrorMsg(tls, pParse, ts+12441, 0)
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_ERROR
}
// Invoke the authorization callback for permission to read column zCol from
// table zTab in database zDb. This function assumes that an authorization
// callback has been registered (i.e. that sqlite3.xAuth is not NULL).
//
// If SQLITE_IGNORE is returned and pExpr is not NULL, then pExpr is changed
// to an SQL NULL expression. Otherwise, if pExpr is NULL, then SQLITE_IGNORE
// is treated as SQLITE_DENY. In this case an error is left in pParse.
func Xsqlite3AuthReadCol(tls *libc.TLS, pParse uintptr, zTab uintptr, zCol uintptr, iDb int32) int32 {
bp := tls.Alloc(40)
defer tls.Free(40)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var zDb uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
var rc int32
if (*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy != 0 {
return SQLITE_OK
}
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxAuth})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpAuthArg, SQLITE_READ, zTab, zCol, zDb, (*Parse)(unsafe.Pointer(pParse)).FzAuthContext)
if rc == SQLITE_DENY {
var z uintptr = Xsqlite3_mprintf(tls, ts+12464, libc.VaList(bp, zTab, zCol))
if (*Sqlite3)(unsafe.Pointer(db)).FnDb > 2 || iDb != 0 {
z = Xsqlite3_mprintf(tls, ts+12470, libc.VaList(bp+16, zDb, z))
}
Xsqlite3ErrorMsg(tls, pParse, ts+12476, libc.VaList(bp+32, z))
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_AUTH
} else if rc != SQLITE_IGNORE && rc != SQLITE_OK {
sqliteAuthBadReturnCode(tls, pParse)
}
return rc
}
// The pExpr should be a TK_COLUMN expression. The table referred to
// is in pTabList or else it is the NEW or OLD table of a trigger.
// Check to see if it is OK to read this particular column.
//
// If the auth function returns SQLITE_IGNORE, change the TK_COLUMN
// instruction into a TK_NULL. If the auth function returns SQLITE_DENY,
// then generate an error.
func Xsqlite3AuthRead(tls *libc.TLS, pParse uintptr, pExpr uintptr, pSchema uintptr, pTabList uintptr) {
var pTab uintptr = uintptr(0)
var zCol uintptr
var iSrc int32
var iDb int32
var iCol int32
iDb = Xsqlite3SchemaToIndex(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pSchema)
if iDb < 0 {
return
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_TRIGGER {
pTab = (*Parse)(unsafe.Pointer(pParse)).FpTriggerTab
} else {
for iSrc = 0; iSrc < (*SrcList)(unsafe.Pointer(pTabList)).FnSrc; iSrc++ {
if (*Expr)(unsafe.Pointer(pExpr)).FiTable == (*SrcItem)(unsafe.Pointer(pTabList+8+uintptr(iSrc)*104)).FiCursor {
pTab = (*SrcItem)(unsafe.Pointer(pTabList + 8 + uintptr(iSrc)*104)).FpTab
break
}
}
}
iCol = int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn)
if pTab == uintptr(0) {
return
}
if iCol >= 0 {
zCol = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(iCol)*24)).FzCnName
} else if int32((*Table)(unsafe.Pointer(pTab)).FiPKey) >= 0 {
zCol = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr((*Table)(unsafe.Pointer(pTab)).FiPKey)*24)).FzCnName
} else {
zCol = ts + 8116
}
if SQLITE_IGNORE == Xsqlite3AuthReadCol(tls, pParse, (*Table)(unsafe.Pointer(pTab)).FzName, zCol, iDb) {
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_NULL)
}
}
// Do an authorization check using the code and arguments given. Return
// either SQLITE_OK (zero) or SQLITE_IGNORE or SQLITE_DENY. If SQLITE_DENY
// is returned, then the error count and error message in pParse are
// modified appropriately.
func Xsqlite3AuthCheck(tls *libc.TLS, pParse uintptr, code int32, zArg1 uintptr, zArg2 uintptr, zArg3 uintptr) int32 {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var rc int32
if (*Sqlite3)(unsafe.Pointer(db)).FxAuth == uintptr(0) || (*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy != 0 || int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) != PARSE_MODE_NORMAL {
return SQLITE_OK
}
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxAuth})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpAuthArg, code, zArg1, zArg2, zArg3, (*Parse)(unsafe.Pointer(pParse)).FzAuthContext)
if rc == SQLITE_DENY {
Xsqlite3ErrorMsg(tls, pParse, ts+12503, 0)
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_AUTH
} else if rc != SQLITE_OK && rc != SQLITE_IGNORE {
rc = SQLITE_DENY
sqliteAuthBadReturnCode(tls, pParse)
}
return rc
}
// Push an authorization context. After this routine is called, the
// zArg3 argument to authorization callbacks will be zContext until
// popped. Or if pParse==0, this routine is a no-op.
func Xsqlite3AuthContextPush(tls *libc.TLS, pParse uintptr, pContext uintptr, zContext uintptr) {
(*AuthContext)(unsafe.Pointer(pContext)).FpParse = pParse
(*AuthContext)(unsafe.Pointer(pContext)).FzAuthContext = (*Parse)(unsafe.Pointer(pParse)).FzAuthContext
(*Parse)(unsafe.Pointer(pParse)).FzAuthContext = zContext
}
// Pop an authorization context that was previously pushed
// by sqlite3AuthContextPush
func Xsqlite3AuthContextPop(tls *libc.TLS, pContext uintptr) {
if (*AuthContext)(unsafe.Pointer(pContext)).FpParse != 0 {
(*Parse)(unsafe.Pointer((*AuthContext)(unsafe.Pointer(pContext)).FpParse)).FzAuthContext = (*AuthContext)(unsafe.Pointer(pContext)).FzAuthContext
(*AuthContext)(unsafe.Pointer(pContext)).FpParse = uintptr(0)
}
}
func lockTable(tls *libc.TLS, pParse uintptr, iDb int32, iTab Pgno, isWriteLock U8, zName uintptr) {
var pToplevel uintptr
var i int32
var nBytes int32
var p uintptr
pToplevel = func() uintptr {
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel != 0 {
return (*Parse)(unsafe.Pointer(pParse)).FpToplevel
}
return pParse
}()
for i = 0; i < (*Parse)(unsafe.Pointer(pToplevel)).FnTableLock; i++ {
p = (*Parse)(unsafe.Pointer(pToplevel)).FaTableLock + uintptr(i)*24
if (*TableLock)(unsafe.Pointer(p)).FiDb == iDb && (*TableLock)(unsafe.Pointer(p)).FiTab == iTab {
(*TableLock)(unsafe.Pointer(p)).FisWriteLock = U8(libc.Bool32((*TableLock)(unsafe.Pointer(p)).FisWriteLock != 0 || isWriteLock != 0))
return
}
}
nBytes = int32(uint64(unsafe.Sizeof(TableLock{})) * uint64((*Parse)(unsafe.Pointer(pToplevel)).FnTableLock+1))
(*Parse)(unsafe.Pointer(pToplevel)).FaTableLock = Xsqlite3DbReallocOrFree(tls, (*Parse)(unsafe.Pointer(pToplevel)).Fdb, (*Parse)(unsafe.Pointer(pToplevel)).FaTableLock, uint64(nBytes))
if (*Parse)(unsafe.Pointer(pToplevel)).FaTableLock != 0 {
p = (*Parse)(unsafe.Pointer(pToplevel)).FaTableLock + uintptr(libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pToplevel)).FnTableLock, 1))*24
(*TableLock)(unsafe.Pointer(p)).FiDb = iDb
(*TableLock)(unsafe.Pointer(p)).FiTab = iTab
(*TableLock)(unsafe.Pointer(p)).FisWriteLock = isWriteLock
(*TableLock)(unsafe.Pointer(p)).FzLockName = zName
} else {
(*Parse)(unsafe.Pointer(pToplevel)).FnTableLock = 0
Xsqlite3OomFault(tls, (*Parse)(unsafe.Pointer(pToplevel)).Fdb)
}
}
func Xsqlite3TableLock(tls *libc.TLS, pParse uintptr, iDb int32, iTab Pgno, isWriteLock U8, zName uintptr) {
if iDb == 1 {
return
}
if !(Xsqlite3BtreeSharable(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FaDb+uintptr(iDb)*32)).FpBt) != 0) {
return
}
lockTable(tls, pParse, iDb, iTab, isWriteLock, zName)
}
func codeTableLocks(tls *libc.TLS, pParse uintptr) {
var i int32
var pVdbe uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
for i = 0; i < (*Parse)(unsafe.Pointer(pParse)).FnTableLock; i++ {
var p uintptr = (*Parse)(unsafe.Pointer(pParse)).FaTableLock + uintptr(i)*24
var p1 int32 = (*TableLock)(unsafe.Pointer(p)).FiDb
Xsqlite3VdbeAddOp4(tls, pVdbe, OP_TableLock, p1, int32((*TableLock)(unsafe.Pointer(p)).FiTab), int32((*TableLock)(unsafe.Pointer(p)).FisWriteLock),
(*TableLock)(unsafe.Pointer(p)).FzLockName, -1)
}
}
// This routine is called after a single SQL statement has been
// parsed and a VDBE program to execute that statement has been
// prepared. This routine puts the finishing touches on the
// VDBE program and resets the pParse structure for the next
// parse.
//
// Note that if an error occurred, it might be the case that
// no VDBE code was generated.
func Xsqlite3FinishCoding(tls *libc.TLS, pParse uintptr) {
var db uintptr
var v uintptr
var iDb int32
var i int32
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*Parse)(unsafe.Pointer(pParse)).Fnested != 0 {
return
}
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_NOMEM
}
return
}
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
if v == uintptr(0) {
if (*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy != 0 {
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_DONE
return
}
v = Xsqlite3GetVdbe(tls, pParse)
if v == uintptr(0) {
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_ERROR
}
}
if v != 0 {
if (*Parse)(unsafe.Pointer(pParse)).FbReturning != 0 {
var pReturning uintptr = *(*uintptr)(unsafe.Pointer(pParse + 200))
var addrRewind int32
var reg int32
if (*Returning)(unsafe.Pointer(pReturning)).FnRetCol != 0 {
Xsqlite3VdbeAddOp0(tls, v, OP_FkCheck)
addrRewind = Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, (*Returning)(unsafe.Pointer(pReturning)).FiRetCur)
reg = (*Returning)(unsafe.Pointer(pReturning)).FiRetReg
for i = 0; i < (*Returning)(unsafe.Pointer(pReturning)).FnRetCol; i++ {
Xsqlite3VdbeAddOp3(tls, v, OP_Column, (*Returning)(unsafe.Pointer(pReturning)).FiRetCur, i, reg+i)
}
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, reg, i)
Xsqlite3VdbeAddOp2(tls, v, OP_Next, (*Returning)(unsafe.Pointer(pReturning)).FiRetCur, addrRewind+1)
Xsqlite3VdbeJumpHere(tls, v, addrRewind)
}
}
Xsqlite3VdbeAddOp0(tls, v, OP_Halt)
Xsqlite3VdbeJumpHere(tls, v, 0)
iDb = 0
for __ccgo := true; __ccgo; __ccgo = libc.PreIncInt32(&iDb, 1) < (*Sqlite3)(unsafe.Pointer(db)).FnDb {
var pSchema uintptr
if libc.Bool32((*Parse)(unsafe.Pointer(pParse)).FcookieMask&(YDbMask(1)<<iDb) != YDbMask(0)) == 0 {
continue
}
Xsqlite3VdbeUsesBtree(tls, v, iDb)
pSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpSchema
Xsqlite3VdbeAddOp4Int(tls, v,
OP_Transaction,
iDb,
libc.Bool32((*Parse)(unsafe.Pointer(pParse)).FwriteMask&(YDbMask(1)<<iDb) != YDbMask(0)),
(*Schema)(unsafe.Pointer(pSchema)).Fschema_cookie,
(*Schema)(unsafe.Pointer(pSchema)).FiGeneration)
if int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) == 0 {
Xsqlite3VdbeChangeP5(tls, v, uint16(1))
}
}
for i = 0; i < (*Parse)(unsafe.Pointer(pParse)).FnVtabLock; i++ {
var vtab uintptr = Xsqlite3GetVTable(tls, db, *(*uintptr)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).FapVtabLock + uintptr(i)*8)))
Xsqlite3VdbeAddOp4(tls, v, OP_VBegin, 0, 0, 0, vtab, -11)
}
(*Parse)(unsafe.Pointer(pParse)).FnVtabLock = 0
codeTableLocks(tls, pParse)
Xsqlite3AutoincrementBegin(tls, pParse)
if (*Parse)(unsafe.Pointer(pParse)).FpConstExpr != 0 {
var pEL uintptr = (*Parse)(unsafe.Pointer(pParse)).FpConstExpr
(*Parse)(unsafe.Pointer(pParse)).FokConstFactor = U8(0)
for i = 0; i < (*ExprList)(unsafe.Pointer(pEL)).FnExpr; i++ {
var iReg int32 = *(*int32)(unsafe.Pointer(pEL + 8 + uintptr(i)*32 + 24))
Xsqlite3ExprCode(tls, pParse, (*ExprList_item)(unsafe.Pointer(pEL+8+uintptr(i)*32)).FpExpr, iReg)
}
}
if (*Parse)(unsafe.Pointer(pParse)).FbReturning != 0 {
var pRet uintptr = *(*uintptr)(unsafe.Pointer(pParse + 200))
if (*Returning)(unsafe.Pointer(pRet)).FnRetCol != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, (*Returning)(unsafe.Pointer(pRet)).FiRetCur, (*Returning)(unsafe.Pointer(pRet)).FnRetCol)
}
}
Xsqlite3VdbeGoto(tls, v, 1)
}
if (*Parse)(unsafe.Pointer(pParse)).FnErr == 0 {
Xsqlite3VdbeMakeReady(tls, v, pParse)
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_DONE
} else {
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_ERROR
}
}
// Run the parser and code generator recursively in order to generate
// code for the SQL statement given onto the end of the pParse context
// currently under construction. Notes:
//
// - The final OP_Halt is not appended and other initialization
// and finalization steps are omitted because those are handling by the
// outermost parser.
//
// - Built-in SQL functions always take precedence over application-defined
// SQL functions. In other words, it is not possible to override a
// built-in function.
func Xsqlite3NestedParse(tls *libc.TLS, pParse uintptr, zFormat uintptr, va uintptr) {
bp := tls.Alloc(136)
defer tls.Free(136)
var ap Va_list
_ = ap
var zSql uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var savedDbFlags U32 = (*Sqlite3)(unsafe.Pointer(db)).FmDbFlags
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return
}
if (*Parse)(unsafe.Pointer(pParse)).FeParseMode != 0 {
return
}
ap = va
zSql = Xsqlite3VMPrintf(tls, db, zFormat, ap)
_ = ap
if zSql == uintptr(0) {
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_TOOBIG
}
(*Parse)(unsafe.Pointer(pParse)).FnErr++
return
}
(*Parse)(unsafe.Pointer(pParse)).Fnested++
libc.X__builtin___memcpy_chk(tls, bp, pParse+uintptr(uint64(uintptr(0)+288)), uint64(unsafe.Sizeof(Parse{}))-uint64(uintptr(0)+288), libc.X__builtin_object_size(tls, bp, 0))
libc.X__builtin___memset_chk(tls, pParse+uintptr(uint64(uintptr(0)+288)), 0, uint64(unsafe.Sizeof(Parse{}))-uint64(uintptr(0)+288), libc.X__builtin_object_size(tls, pParse+uintptr(uint64(uintptr(0)+288)), 0))
*(*U32)(unsafe.Pointer(db + 44)) |= U32(DBFLAG_PreferBuiltin)
Xsqlite3RunParser(tls, pParse, zSql)
(*Sqlite3)(unsafe.Pointer(db)).FmDbFlags = savedDbFlags
Xsqlite3DbFree(tls, db, zSql)
libc.X__builtin___memcpy_chk(tls, pParse+uintptr(uint64(uintptr(0)+288)), bp, uint64(unsafe.Sizeof(Parse{}))-uint64(uintptr(0)+288), libc.X__builtin_object_size(tls, pParse+uintptr(uint64(uintptr(0)+288)), 0))
(*Parse)(unsafe.Pointer(pParse)).Fnested--
}
// Locate the in-memory structure that describes a particular database
// table given the name of that table and (optionally) the name of the
// database containing the table. Return NULL if not found.
//
// If zDatabase is 0, all databases are searched for the table and the
// first matching table is returned. (No checking for duplicate table
// names is done.) The search order is TEMP first, then MAIN, then any
// auxiliary databases added using the ATTACH command.
//
// See also sqlite3LocateTable().
func Xsqlite3FindTable(tls *libc.TLS, db uintptr, zName uintptr, zDatabase uintptr) uintptr {
var p uintptr = uintptr(0)
var i int32
if zDatabase != 0 {
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
if Xsqlite3StrICmp(tls, zDatabase, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FzDbSName) == 0 {
break
}
}
if i >= (*Sqlite3)(unsafe.Pointer(db)).FnDb {
if Xsqlite3StrICmp(tls, zDatabase, ts+6844) == 0 {
i = 0
} else {
return uintptr(0)
}
}
p = Xsqlite3HashFind(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FpSchema+8, zName)
if p == uintptr(0) && Xsqlite3_strnicmp(tls, zName, ts+6784, 7) == 0 {
if i == 1 {
if Xsqlite3StrICmp(tls, zName+uintptr(7), ts+6811+7) == 0 ||
Xsqlite3StrICmp(tls, zName+uintptr(7), ts+6830+7) == 0 ||
Xsqlite3StrICmp(tls, zName+uintptr(7), ts+6286+7) == 0 {
p = Xsqlite3HashFind(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema+8,
ts+6792)
}
} else {
if Xsqlite3StrICmp(tls, zName+uintptr(7), ts+6830+7) == 0 {
p = Xsqlite3HashFind(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FpSchema+8,
ts+6286)
}
}
}
} else {
p = Xsqlite3HashFind(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema+8, zName)
if p != 0 {
return p
}
p = Xsqlite3HashFind(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpSchema+8, zName)
if p != 0 {
return p
}
for i = 2; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
p = Xsqlite3HashFind(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FpSchema+8, zName)
if p != 0 {
break
}
}
if p == uintptr(0) && Xsqlite3_strnicmp(tls, zName, ts+6784, 7) == 0 {
if Xsqlite3StrICmp(tls, zName+uintptr(7), ts+6830+7) == 0 {
p = Xsqlite3HashFind(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpSchema+8, ts+6286)
} else if Xsqlite3StrICmp(tls, zName+uintptr(7), ts+6811+7) == 0 {
p = Xsqlite3HashFind(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema+8,
ts+6792)
}
}
}
return p
}
// Locate the in-memory structure that describes a particular database
// table given the name of that table and (optionally) the name of the
// database containing the table. Return NULL if not found. Also leave an
// error message in pParse->zErrMsg.
//
// The difference between this routine and sqlite3FindTable() is that this
// routine leaves an error message in pParse->zErrMsg where
// sqlite3FindTable() does not.
func Xsqlite3LocateTable(tls *libc.TLS, pParse uintptr, flags U32, zName uintptr, zDbase uintptr) uintptr {
bp := tls.Alloc(40)
defer tls.Free(40)
var p uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_SchemaKnownOk) == U32(0) &&
SQLITE_OK != Xsqlite3ReadSchema(tls, pParse) {
return uintptr(0)
}
p = Xsqlite3FindTable(tls, db, zName, zDbase)
if p == uintptr(0) {
if int32((*Parse)(unsafe.Pointer(pParse)).FprepFlags)&SQLITE_PREPARE_NO_VTAB == 0 && int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) == 0 {
var pMod uintptr = Xsqlite3HashFind(tls, db+576, zName)
if pMod == uintptr(0) && Xsqlite3_strnicmp(tls, zName, ts+12518, 7) == 0 {
pMod = Xsqlite3PragmaVtabRegister(tls, db, zName)
}
if pMod != 0 && Xsqlite3VtabEponymousTableInit(tls, pParse, pMod) != 0 {
return (*Module)(unsafe.Pointer(pMod)).FpEpoTab
}
}
if flags&U32(LOCATE_NOERR) != 0 {
return uintptr(0)
}
(*Parse)(unsafe.Pointer(pParse)).FcheckSchema = U8(1)
} else if int32((*Table)(unsafe.Pointer(p)).FeTabType) == TABTYP_VTAB && int32((*Parse)(unsafe.Pointer(pParse)).FprepFlags)&SQLITE_PREPARE_NO_VTAB != 0 {
p = uintptr(0)
}
if p == uintptr(0) {
var zMsg uintptr
if flags&U32(LOCATE_VIEW) != 0 {
zMsg = ts + 12526
} else {
zMsg = ts + 12539
}
if zDbase != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+7048, libc.VaList(bp, zMsg, zDbase, zName))
} else {
Xsqlite3ErrorMsg(tls, pParse, ts+7058, libc.VaList(bp+24, zMsg, zName))
}
} else {
}
return p
}
// Locate the table identified by *p.
//
// This is a wrapper around sqlite3LocateTable(). The difference between
// sqlite3LocateTable() and this function is that this function restricts
// the search to schema (p->pSchema) if it is not NULL. p->pSchema may be
// non-NULL if it is part of a view or trigger program definition. See
// sqlite3FixSrcList() for details.
func Xsqlite3LocateTableItem(tls *libc.TLS, pParse uintptr, flags U32, p uintptr) uintptr {
var zDb uintptr
if (*SrcItem)(unsafe.Pointer(p)).FpSchema != 0 {
var iDb int32 = Xsqlite3SchemaToIndex(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*SrcItem)(unsafe.Pointer(p)).FpSchema)
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FaDb + uintptr(iDb)*32)).FzDbSName
} else {
zDb = (*SrcItem)(unsafe.Pointer(p)).FzDatabase
}
return Xsqlite3LocateTable(tls, pParse, flags, (*SrcItem)(unsafe.Pointer(p)).FzName, zDb)
}
// Return the preferred table name for system tables. Translate legacy
// names into the new preferred names, as appropriate.
func Xsqlite3PreferredTableName(tls *libc.TLS, zName uintptr) uintptr {
if Xsqlite3_strnicmp(tls, zName, ts+6784, 7) == 0 {
if Xsqlite3StrICmp(tls, zName+uintptr(7), ts+6286+7) == 0 {
return ts + 6830
}
if Xsqlite3StrICmp(tls, zName+uintptr(7), ts+6792+7) == 0 {
return ts + 6811
}
}
return zName
}
// Locate the in-memory structure that describes
// a particular index given the name of that index
// and the name of the database that contains the index.
// Return NULL if not found.
//
// If zDatabase is 0, all databases are searched for the
// table and the first matching index is returned. (No checking
// for duplicate index names is done.) The search order is
// TEMP first, then MAIN, then any auxiliary databases added
// using the ATTACH command.
func Xsqlite3FindIndex(tls *libc.TLS, db uintptr, zName uintptr, zDb uintptr) uintptr {
var p uintptr = uintptr(0)
var i int32
for i = OMIT_TEMPDB; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var j int32
if i < 2 {
j = i ^ 1
} else {
j = i
}
var pSchema uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(j)*32)).FpSchema
if zDb != 0 && Xsqlite3DbIsNamed(tls, db, j, zDb) == 0 {
continue
}
p = Xsqlite3HashFind(tls, pSchema+32, zName)
if p != 0 {
break
}
}
return p
}
// Reclaim the memory used by an index
func Xsqlite3FreeIndex(tls *libc.TLS, db uintptr, p uintptr) {
Xsqlite3DeleteIndexSamples(tls, db, p)
Xsqlite3ExprDelete(tls, db, (*Index)(unsafe.Pointer(p)).FpPartIdxWhere)
Xsqlite3ExprListDelete(tls, db, (*Index)(unsafe.Pointer(p)).FaColExpr)
Xsqlite3DbFree(tls, db, (*Index)(unsafe.Pointer(p)).FzColAff)
if uint32(int32(*(*uint16)(unsafe.Pointer(p + 100))&0x10>>4)) != 0 {
Xsqlite3DbFree(tls, db, (*Index)(unsafe.Pointer(p)).FazColl)
}
Xsqlite3_free(tls, (*Index)(unsafe.Pointer(p)).FaiRowEst)
Xsqlite3DbFree(tls, db, p)
}
// For the index called zIdxName which is found in the database iDb,
// unlike that index from its Table then remove the index from
// the index hash table and free all memory structures associated
// with the index.
func Xsqlite3UnlinkAndDeleteIndex(tls *libc.TLS, db uintptr, iDb int32, zIdxName uintptr) {
var pIndex uintptr
var pHash uintptr
pHash = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpSchema + 32
pIndex = Xsqlite3HashInsert(tls, pHash, zIdxName, uintptr(0))
if pIndex != 0 {
if (*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FpTable)).FpIndex == pIndex {
(*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FpTable)).FpIndex = (*Index)(unsafe.Pointer(pIndex)).FpNext
} else {
var p uintptr
p = (*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FpTable)).FpIndex
for p != 0 && (*Index)(unsafe.Pointer(p)).FpNext != pIndex {
p = (*Index)(unsafe.Pointer(p)).FpNext
}
if p != 0 && (*Index)(unsafe.Pointer(p)).FpNext == pIndex {
(*Index)(unsafe.Pointer(p)).FpNext = (*Index)(unsafe.Pointer(pIndex)).FpNext
}
}
Xsqlite3FreeIndex(tls, db, pIndex)
}
*(*U32)(unsafe.Pointer(db + 44)) |= U32(DBFLAG_SchemaChange)
}
// Look through the list of open database files in db->aDb[] and if
// any have been closed, remove them from the list. Reallocate the
// db->aDb[] structure to a smaller size, if possible.
//
// Entry 0 (the "main" database) and entry 1 (the "temp" database)
// are never candidates for being collapsed.
func Xsqlite3CollapseDatabaseArray(tls *libc.TLS, db uintptr) {
var i int32
var j int32
for i = libc.AssignInt32(&j, 2); i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pDb uintptr = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32
if (*Db1)(unsafe.Pointer(pDb)).FpBt == uintptr(0) {
Xsqlite3DbFree(tls, db, (*Db1)(unsafe.Pointer(pDb)).FzDbSName)
(*Db1)(unsafe.Pointer(pDb)).FzDbSName = uintptr(0)
continue
}
if j < i {
*(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(j)*32)) = *(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32))
}
j++
}
(*Sqlite3)(unsafe.Pointer(db)).FnDb = j
if (*Sqlite3)(unsafe.Pointer(db)).FnDb <= 2 && (*Sqlite3)(unsafe.Pointer(db)).FaDb != db+696 {
libc.X__builtin___memcpy_chk(tls, db+696, (*Sqlite3)(unsafe.Pointer(db)).FaDb, uint64(2)*uint64(unsafe.Sizeof(Db{})), libc.X__builtin_object_size(tls, db+696, 0))
Xsqlite3DbFree(tls, db, (*Sqlite3)(unsafe.Pointer(db)).FaDb)
(*Sqlite3)(unsafe.Pointer(db)).FaDb = db + 696
}
}
// Reset the schema for the database at index iDb. Also reset the
// TEMP schema. The reset is deferred if db->nSchemaLock is not zero.
// Deferred resets may be run by calling with iDb<0.
func Xsqlite3ResetOneSchema(tls *libc.TLS, db uintptr, iDb int32) {
var i int32
if iDb >= 0 {
*(*U16)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpSchema + 114)) |= U16(DB_ResetWanted)
*(*U16)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema + 114)) |= U16(DB_ResetWanted)
*(*U32)(unsafe.Pointer(db + 44)) &= libc.Uint32FromInt32(libc.CplInt32(DBFLAG_SchemaKnownOk))
}
if (*Sqlite3)(unsafe.Pointer(db)).FnSchemaLock == U32(0) {
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
if int32((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FpSchema)).FschemaFlags)&DB_ResetWanted == DB_ResetWanted {
Xsqlite3SchemaClear(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FpSchema)
}
}
}
}
// Erase all schema information from all attached databases (including
// "main" and "temp") for a single database connection.
func Xsqlite3ResetAllSchemasOfConnection(tls *libc.TLS, db uintptr) {
var i int32
Xsqlite3BtreeEnterAll(tls, db)
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pDb uintptr = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32
if (*Db)(unsafe.Pointer(pDb)).FpSchema != 0 {
if (*Sqlite3)(unsafe.Pointer(db)).FnSchemaLock == U32(0) {
Xsqlite3SchemaClear(tls, (*Db)(unsafe.Pointer(pDb)).FpSchema)
} else {
*(*U16)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FpSchema + 114)) |= U16(DB_ResetWanted)
}
}
}
*(*U32)(unsafe.Pointer(db + 44)) &= libc.Uint32FromInt32(libc.CplInt32(DBFLAG_SchemaChange | DBFLAG_SchemaKnownOk))
Xsqlite3VtabUnlockList(tls, db)
Xsqlite3BtreeLeaveAll(tls, db)
if (*Sqlite3)(unsafe.Pointer(db)).FnSchemaLock == U32(0) {
Xsqlite3CollapseDatabaseArray(tls, db)
}
}
// This routine is called when a commit occurs.
func Xsqlite3CommitInternalChanges(tls *libc.TLS, db uintptr) {
*(*U32)(unsafe.Pointer(db + 44)) &= libc.Uint32FromInt32(libc.CplInt32(DBFLAG_SchemaChange))
}
// Set the expression associated with a column. This is usually
// the DEFAULT value, but might also be the expression that computes
// the value for a generated column.
func Xsqlite3ColumnSetExpr(tls *libc.TLS, pParse uintptr, pTab uintptr, pCol uintptr, pExpr uintptr) {
var pList uintptr
pList = *(*uintptr)(unsafe.Pointer(pTab + 64 + 16))
if int32((*Column)(unsafe.Pointer(pCol)).FiDflt) == 0 ||
pList == uintptr(0) ||
(*ExprList)(unsafe.Pointer(pList)).FnExpr < int32((*Column)(unsafe.Pointer(pCol)).FiDflt) {
(*Column)(unsafe.Pointer(pCol)).FiDflt = func() uint16 {
if pList == uintptr(0) {
return uint16(1)
}
return uint16((*ExprList)(unsafe.Pointer(pList)).FnExpr + 1)
}()
*(*uintptr)(unsafe.Pointer(pTab + 64 + 16)) = Xsqlite3ExprListAppend(tls, pParse, pList, pExpr)
} else {
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(int32((*Column)(unsafe.Pointer(pCol)).FiDflt)-1)*32)).FpExpr)
(*ExprList_item)(unsafe.Pointer(pList + 8 + uintptr(int32((*Column)(unsafe.Pointer(pCol)).FiDflt)-1)*32)).FpExpr = pExpr
}
}
// Return the expression associated with a column. The expression might be
// the DEFAULT clause or the AS clause of a generated column.
// Return NULL if the column has no associated expression.
func Xsqlite3ColumnExpr(tls *libc.TLS, pTab uintptr, pCol uintptr) uintptr {
if int32((*Column)(unsafe.Pointer(pCol)).FiDflt) == 0 {
return uintptr(0)
}
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_NORM) {
return uintptr(0)
}
if *(*uintptr)(unsafe.Pointer(pTab + 64 + 16)) == uintptr(0) {
return uintptr(0)
}
if (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pTab + 64 + 16)))).FnExpr < int32((*Column)(unsafe.Pointer(pCol)).FiDflt) {
return uintptr(0)
}
return (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pTab + 64 + 16)) + 8 + uintptr(int32((*Column)(unsafe.Pointer(pCol)).FiDflt)-1)*32)).FpExpr
}
// Set the collating sequence name for a column.
func Xsqlite3ColumnSetColl(tls *libc.TLS, db uintptr, pCol uintptr, zColl uintptr) {
var nColl I64
var n I64
var zNew uintptr
n = I64(Xsqlite3Strlen30(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName) + 1)
if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_HASTYPE != 0 {
n = n + I64(Xsqlite3Strlen30(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName+uintptr(n))+1)
}
nColl = I64(Xsqlite3Strlen30(tls, zColl) + 1)
zNew = Xsqlite3DbRealloc(tls, db, (*Column)(unsafe.Pointer(pCol)).FzCnName, uint64(nColl+n))
if zNew != 0 {
(*Column)(unsafe.Pointer(pCol)).FzCnName = zNew
libc.X__builtin___memcpy_chk(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName+uintptr(n), zColl, uint64(nColl), libc.X__builtin_object_size(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName+uintptr(n), 0))
*(*U16)(unsafe.Pointer(pCol + 16)) |= U16(COLFLAG_HASCOLL)
}
}
// Return the collating squence name for a column
func Xsqlite3ColumnColl(tls *libc.TLS, pCol uintptr) uintptr {
var z uintptr
if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_HASCOLL == 0 {
return uintptr(0)
}
z = (*Column)(unsafe.Pointer(pCol)).FzCnName
for *(*int8)(unsafe.Pointer(z)) != 0 {
z++
}
if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_HASTYPE != 0 {
for __ccgo := true; __ccgo; __ccgo = *(*int8)(unsafe.Pointer(z)) != 0 {
z++
}
}
return z + uintptr(1)
}
// Delete memory allocated for the column names of a table or view (the
// Table.aCol[] array).
func Xsqlite3DeleteColumnNames(tls *libc.TLS, db uintptr, pTable uintptr) {
var i int32
var pCol uintptr
if libc.AssignUintptr(&pCol, (*Table)(unsafe.Pointer(pTable)).FaCol) != uintptr(0) {
i = 0
__1:
if !(i < int32((*Table)(unsafe.Pointer(pTable)).FnCol)) {
goto __3
}
{
Xsqlite3DbFree(tls, db, (*Column)(unsafe.Pointer(pCol)).FzCnName)
}
goto __2
__2:
i++
pCol += 24
goto __1
goto __3
__3:
;
Xsqlite3DbNNFreeNN(tls, db, (*Table)(unsafe.Pointer(pTable)).FaCol)
if int32((*Table)(unsafe.Pointer(pTable)).FeTabType) == TABTYP_NORM {
Xsqlite3ExprListDelete(tls, db, *(*uintptr)(unsafe.Pointer(pTable + 64 + 16)))
}
if (*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed == uintptr(0) {
(*Table)(unsafe.Pointer(pTable)).FaCol = uintptr(0)
(*Table)(unsafe.Pointer(pTable)).FnCol = int16(0)
if int32((*Table)(unsafe.Pointer(pTable)).FeTabType) == TABTYP_NORM {
*(*uintptr)(unsafe.Pointer(pTable + 64 + 16)) = uintptr(0)
}
}
}
}
func deleteTable(tls *libc.TLS, db uintptr, pTable uintptr) {
var pIndex uintptr
var pNext uintptr
for pIndex = (*Table)(unsafe.Pointer(pTable)).FpIndex; pIndex != 0; pIndex = pNext {
pNext = (*Index)(unsafe.Pointer(pIndex)).FpNext
if (*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed == uintptr(0) && !(int32((*Table)(unsafe.Pointer(pTable)).FeTabType) == TABTYP_VTAB) {
var zName uintptr = (*Index)(unsafe.Pointer(pIndex)).FzName
Xsqlite3HashInsert(tls,
(*Index)(unsafe.Pointer(pIndex)).FpSchema+32, zName, uintptr(0))
}
Xsqlite3FreeIndex(tls, db, pIndex)
}
if int32((*Table)(unsafe.Pointer(pTable)).FeTabType) == TABTYP_NORM {
Xsqlite3FkDelete(tls, db, pTable)
} else if int32((*Table)(unsafe.Pointer(pTable)).FeTabType) == TABTYP_VTAB {
Xsqlite3VtabClear(tls, db, pTable)
} else {
Xsqlite3SelectDelete(tls, db, *(*uintptr)(unsafe.Pointer(pTable + 64)))
}
Xsqlite3DeleteColumnNames(tls, db, pTable)
Xsqlite3DbFree(tls, db, (*Table)(unsafe.Pointer(pTable)).FzName)
Xsqlite3DbFree(tls, db, (*Table)(unsafe.Pointer(pTable)).FzColAff)
Xsqlite3ExprListDelete(tls, db, (*Table)(unsafe.Pointer(pTable)).FpCheck)
Xsqlite3DbFree(tls, db, pTable)
}
func Xsqlite3DeleteTable(tls *libc.TLS, db uintptr, pTable uintptr) {
if !(pTable != 0) {
return
}
if (*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed == uintptr(0) && libc.PreDecUint32(&(*Table)(unsafe.Pointer(pTable)).FnTabRef, 1) > U32(0) {
return
}
deleteTable(tls, db, pTable)
}
// Unlink the given table from the hash tables and the delete the
// table structure with all its indices and foreign keys.
func Xsqlite3UnlinkAndDeleteTable(tls *libc.TLS, db uintptr, iDb int32, zTabName uintptr) {
var p uintptr
var pDb uintptr
pDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32
p = Xsqlite3HashInsert(tls, (*Db)(unsafe.Pointer(pDb)).FpSchema+8, zTabName, uintptr(0))
Xsqlite3DeleteTable(tls, db, p)
*(*U32)(unsafe.Pointer(db + 44)) |= U32(DBFLAG_SchemaChange)
}
// Given a token, return a string that consists of the text of that
// token. Space to hold the returned string
// is obtained from sqliteMalloc() and must be freed by the calling
// function.
//
// Any quotation marks (ex: "name", 'name', [name], or `name`) that
// surround the body of the token are removed.
//
// Tokens are often just pointers into the original SQL text and so
// are not \000 terminated and are not persistent. The returned string
// is \000 terminated and is persistent.
func Xsqlite3NameFromToken(tls *libc.TLS, db uintptr, pName uintptr) uintptr {
var zName uintptr
if pName != 0 {
zName = Xsqlite3DbStrNDup(tls, db, (*Token)(unsafe.Pointer(pName)).Fz, uint64((*Token)(unsafe.Pointer(pName)).Fn))
Xsqlite3Dequote(tls, zName)
} else {
zName = uintptr(0)
}
return zName
}
// Open the sqlite_schema table stored in database number iDb for
// writing. The table is opened using cursor 0.
func Xsqlite3OpenSchemaTable(tls *libc.TLS, p uintptr, iDb int32) {
var v uintptr = Xsqlite3GetVdbe(tls, p)
Xsqlite3TableLock(tls, p, iDb, uint32(SCHEMA_ROOT), uint8(1), ts+6286)
Xsqlite3VdbeAddOp4Int(tls, v, OP_OpenWrite, 0, SCHEMA_ROOT, iDb, 5)
if (*Parse)(unsafe.Pointer(p)).FnTab == 0 {
(*Parse)(unsafe.Pointer(p)).FnTab = 1
}
}
// Parameter zName points to a nul-terminated buffer containing the name
// of a database ("main", "temp" or the name of an attached db). This
// function returns the index of the named database in db->aDb[], or
// -1 if the named db cannot be found.
func Xsqlite3FindDbName(tls *libc.TLS, db uintptr, zName uintptr) int32 {
var i int32 = -1
if zName != 0 {
var pDb uintptr
i = (*Sqlite3)(unsafe.Pointer(db)).FnDb - 1
pDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32
__1:
if !(i >= 0) {
goto __3
}
{
if 0 == Xsqlite3_stricmp(tls, (*Db)(unsafe.Pointer(pDb)).FzDbSName, zName) {
goto __3
}
if i == 0 && 0 == Xsqlite3_stricmp(tls, ts+6844, zName) {
goto __3
}
}
goto __2
__2:
i--
pDb -= 32
goto __1
goto __3
__3:
}
return i
}
// The token *pName contains the name of a database (either "main" or
// "temp" or the name of an attached db). This routine returns the
// index of the named database in db->aDb[], or -1 if the named db
// does not exist.
func Xsqlite3FindDb(tls *libc.TLS, db uintptr, pName uintptr) int32 {
var i int32
var zName uintptr
zName = Xsqlite3NameFromToken(tls, db, pName)
i = Xsqlite3FindDbName(tls, db, zName)
Xsqlite3DbFree(tls, db, zName)
return i
}
// The table or view or trigger name is passed to this routine via tokens
// pName1 and pName2. If the table name was fully qualified, for example:
//
// CREATE TABLE xxx.yyy (...);
//
// Then pName1 is set to "xxx" and pName2 "yyy". On the other hand if
// the table name is not fully qualified, i.e.:
//
// CREATE TABLE yyy(...);
//
// Then pName1 is set to "yyy" and pName2 is "".
//
// This routine sets the *ppUnqual pointer to point at the token (pName1 or
// pName2) that stores the unqualified table name. The index of the
// database "xxx" is returned.
func Xsqlite3TwoPartName(tls *libc.TLS, pParse uintptr, pName1 uintptr, pName2 uintptr, pUnqual uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var iDb int32
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*Token)(unsafe.Pointer(pName2)).Fn > uint32(0) {
if (*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+12553, 0)
return -1
}
*(*uintptr)(unsafe.Pointer(pUnqual)) = pName2
iDb = Xsqlite3FindDb(tls, db, pName1)
if iDb < 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+12570, libc.VaList(bp, pName1))
return -1
}
} else {
iDb = int32((*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb)
*(*uintptr)(unsafe.Pointer(pUnqual)) = pName1
}
return iDb
}
// True if PRAGMA writable_schema is ON
func Xsqlite3WritableSchema(tls *libc.TLS, db uintptr) int32 {
return libc.Bool32((*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_WriteSchema|SQLITE_Defensive) == uint64(SQLITE_WriteSchema))
}
// This routine is used to check if the UTF-8 string zName is a legal
// unqualified name for a new schema object (table, index, view or
// trigger). All names are legal except those that begin with the string
// "sqlite_" (in upper, lower or mixed case). This portion of the namespace
// is reserved for internal use.
//
// When parsing the sqlite_schema table, this routine also checks to
// make sure the "type", "name", and "tbl_name" columns are consistent
// with the SQL.
func Xsqlite3CheckObjectName(tls *libc.TLS, pParse uintptr, zName uintptr, zType uintptr, zTblName uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if Xsqlite3WritableSchema(tls, db) != 0 ||
uint32(int32(*(*uint8)(unsafe.Pointer(db + 192 + 8))&0x2>>1)) != 0 ||
!(int32(Xsqlite3Config.FbExtraSchemaChecks) != 0) {
return SQLITE_OK
}
if (*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy != 0 {
if Xsqlite3_stricmp(tls, zType, *(*uintptr)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).Finit.FazInit))) != 0 ||
Xsqlite3_stricmp(tls, zName, *(*uintptr)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).Finit.FazInit + 1*8))) != 0 ||
Xsqlite3_stricmp(tls, zTblName, *(*uintptr)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).Finit.FazInit + 2*8))) != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+1547, 0)
return SQLITE_ERROR
}
} else {
if int32((*Parse)(unsafe.Pointer(pParse)).Fnested) == 0 && 0 == Xsqlite3_strnicmp(tls, zName, ts+6784, 7) ||
Xsqlite3ReadOnlyShadowTables(tls, db) != 0 && Xsqlite3ShadowTableName(tls, db, zName) != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+12590,
libc.VaList(bp, zName))
return SQLITE_ERROR
}
}
return SQLITE_OK
}
// Return the PRIMARY KEY index of a table
func Xsqlite3PrimaryKeyIndex(tls *libc.TLS, pTab uintptr) uintptr {
var p uintptr
for p = (*Table)(unsafe.Pointer(pTab)).FpIndex; p != 0 && !(int32(*(*uint16)(unsafe.Pointer(p + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY); p = (*Index)(unsafe.Pointer(p)).FpNext {
}
return p
}
// Convert an table column number into a index column number. That is,
// for the column iCol in the table (as defined by the CREATE TABLE statement)
// find the (first) offset of that column in index pIdx. Or return -1
// if column iCol is not used in index pIdx.
func Xsqlite3TableColumnToIndex(tls *libc.TLS, pIdx uintptr, iCol I16) I16 {
var i int32
for i = 0; i < int32((*Index)(unsafe.Pointer(pIdx)).FnColumn); i++ {
if int32(iCol) == int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2))) {
return I16(i)
}
}
return int16(-1)
}
// Convert a storage column number into a table column number.
//
// The storage column number (0,1,2,....) is the index of the value
// as it appears in the record on disk. The true column number
// is the index (0,1,2,...) of the column in the CREATE TABLE statement.
//
// The storage column number is less than the table column number if
// and only there are VIRTUAL columns to the left.
//
// If SQLITE_OMIT_GENERATED_COLUMNS, this routine is a no-op macro.
func Xsqlite3StorageColumnToTable(tls *libc.TLS, pTab uintptr, iCol I16) I16 {
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasVirtual) != 0 {
var i int32
for i = 0; i <= int32(iCol); i++ {
if int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_VIRTUAL != 0 {
iCol++
}
}
}
return iCol
}
// Convert a table column number into a storage column number.
//
// The storage column number (0,1,2,....) is the index of the value
// as it appears in the record on disk. Or, if the input column is
// the N-th virtual column (zero-based) then the storage number is
// the number of non-virtual columns in the table plus N.
//
// The true column number is the index (0,1,2,...) of the column in
// the CREATE TABLE statement.
//
// If the input column is a VIRTUAL column, then it should not appear
// in storage. But the value sometimes is cached in registers that
// follow the range of registers used to construct storage. This
// avoids computing the same VIRTUAL column multiple times, and provides
// values for use by OP_Param opcodes in triggers. Hence, if the
// input column is a VIRTUAL table, put it after all the other columns.
//
// In the following, N means "normal column", S means STORED, and
// V means VIRTUAL. Suppose the CREATE TABLE has columns like this:
//
// CREATE TABLE ex(N,S,V,N,S,V,N,S,V);
// -- 0 1 2 3 4 5 6 7 8
//
// Then the mapping from this function is as follows:
//
// INPUTS: 0 1 2 3 4 5 6 7 8
// OUTPUTS: 0 1 6 2 3 7 4 5 8
//
// So, in other words, this routine shifts all the virtual columns to
// the end.
//
// If SQLITE_OMIT_GENERATED_COLUMNS then there are no virtual columns and
// this routine is a no-op macro. If the pTab does not have any virtual
// columns, then this routine is no-op that always return iCol. If iCol
// is negative (indicating the ROWID column) then this routine return iCol.
func Xsqlite3TableColumnToStorage(tls *libc.TLS, pTab uintptr, iCol I16) I16 {
var i int32
var n I16
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasVirtual) == U32(0) || int32(iCol) < 0 {
return iCol
}
i = 0
n = int16(0)
for ; i < int32(iCol); i++ {
if int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_VIRTUAL == 0 {
n++
}
}
if int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_VIRTUAL != 0 {
return I16(int32((*Table)(unsafe.Pointer(pTab)).FnNVCol) + i - int32(n))
} else {
return n
}
return I16(0)
}
func sqlite3ForceNotReadOnly(tls *libc.TLS, pParse uintptr) {
var iReg int32 = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
if v != 0 {
Xsqlite3VdbeAddOp3(tls, v, OP_JournalMode, 0, iReg, -1)
Xsqlite3VdbeUsesBtree(tls, v, 0)
}
}
// Begin constructing a new table representation in memory. This is
// the first of several action routines that get called in response
// to a CREATE TABLE statement. In particular, this routine is called
// after seeing tokens "CREATE" and "TABLE" and the table name. The isTemp
// flag is true if the table should be stored in the auxiliary database
// file instead of in the main database file. This is normally the case
// when the "TEMP" or "TEMPORARY" keyword occurs in between
// CREATE and TABLE.
//
// The new table record is initialized and put in pParse->pNewTable.
// As more of the CREATE TABLE statement is parsed, additional action
// routines will be called to add more information to this record.
// At the end of the CREATE TABLE statement, the sqlite3EndTable() routine
// is called to complete the construction of the new table record.
func Xsqlite3StartTable(tls *libc.TLS, pParse uintptr, pName1 uintptr, pName2 uintptr, isTemp int32, isView int32, isVirtual int32, noErr int32) {
bp := tls.Alloc(32)
defer tls.Free(32)
var pTable uintptr
var zName uintptr
var db uintptr
var v uintptr
var iDb int32
var zDb uintptr
var zDb1 uintptr
var addr1 int32
var fileFormat int32
var reg1 int32
var reg2 int32
var reg3 int32
zName = uintptr(0)
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if !((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy != 0 && (*Sqlite3)(unsafe.Pointer(db)).Finit.FnewTnum == Pgno(1)) {
goto __1
}
iDb = int32((*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb)
zName = Xsqlite3DbStrDup(tls, db, func() uintptr {
if !(0 != 0) && iDb == 1 {
return ts + 6792
}
return ts + 6286
}())
*(*uintptr)(unsafe.Pointer(bp + 24)) = pName1
goto __2
__1:
iDb = Xsqlite3TwoPartName(tls, pParse, pName1, pName2, bp+24)
if !(iDb < 0) {
goto __3
}
return
__3:
;
if !(!(0 != 0) && isTemp != 0 && (*Token)(unsafe.Pointer(pName2)).Fn > uint32(0) && iDb != 1) {
goto __4
}
Xsqlite3ErrorMsg(tls, pParse, ts+12632, 0)
return
__4:
;
if !(!(0 != 0) && isTemp != 0) {
goto __5
}
iDb = 1
__5:
;
zName = Xsqlite3NameFromToken(tls, db, *(*uintptr)(unsafe.Pointer(bp + 24)))
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __6
}
Xsqlite3RenameTokenMap(tls, pParse, zName, *(*uintptr)(unsafe.Pointer(bp + 24)))
__6:
;
__2:
;
(*Parse)(unsafe.Pointer(pParse)).FsNameToken = *(*Token)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 24))))
if !(zName == uintptr(0)) {
goto __7
}
return
__7:
;
if !(Xsqlite3CheckObjectName(tls, pParse, zName, func() uintptr {
if isView != 0 {
return ts + 10894
}
return ts + 9279
}(), zName) != 0) {
goto __8
}
goto begin_table_error
__8:
;
if !(int32((*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb) == 1) {
goto __9
}
isTemp = 1
__9:
;
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
if !(Xsqlite3AuthCheck(tls, pParse, SQLITE_INSERT, func() uintptr {
if !(0 != 0) && isTemp == 1 {
return ts + 6792
}
return ts + 6286
}(), uintptr(0), zDb) != 0) {
goto __10
}
goto begin_table_error
__10:
;
if !(!(isVirtual != 0) && Xsqlite3AuthCheck(tls, pParse, int32(aCode[isTemp+2*isView]),
zName, uintptr(0), zDb) != 0) {
goto __11
}
goto begin_table_error
__11:
;
if !!(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) != PARSE_MODE_NORMAL) {
goto __12
}
zDb1 = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
if !(SQLITE_OK != Xsqlite3ReadSchema(tls, pParse)) {
goto __13
}
goto begin_table_error
__13:
;
pTable = Xsqlite3FindTable(tls, db, zName, zDb1)
if !(pTable != 0) {
goto __14
}
if !!(noErr != 0) {
goto __15
}
Xsqlite3ErrorMsg(tls, pParse, ts+12673,
libc.VaList(bp, func() uintptr {
if int32((*Table)(unsafe.Pointer(pTable)).FeTabType) == TABTYP_VIEW {
return ts + 10894
}
return ts + 9279
}(), *(*uintptr)(unsafe.Pointer(bp + 24))))
goto __16
__15:
;
Xsqlite3CodeVerifySchema(tls, pParse, iDb)
sqlite3ForceNotReadOnly(tls, pParse)
__16:
;
goto begin_table_error
__14:
;
if !(Xsqlite3FindIndex(tls, db, zName, zDb1) != uintptr(0)) {
goto __17
}
Xsqlite3ErrorMsg(tls, pParse, ts+12694, libc.VaList(bp+16, zName))
goto begin_table_error
__17:
;
__12:
;
pTable = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Table{})))
if !(pTable == uintptr(0)) {
goto __18
}
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_NOMEM
(*Parse)(unsafe.Pointer(pParse)).FnErr++
goto begin_table_error
__18:
;
(*Table)(unsafe.Pointer(pTable)).FzName = zName
(*Table)(unsafe.Pointer(pTable)).FiPKey = int16(-1)
(*Table)(unsafe.Pointer(pTable)).FpSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpSchema
(*Table)(unsafe.Pointer(pTable)).FnTabRef = U32(1)
(*Table)(unsafe.Pointer(pTable)).FnRowLogEst = int16(200)
(*Parse)(unsafe.Pointer(pParse)).FpNewTable = pTable
if !(!(int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) != 0) && libc.AssignUintptr(&v, Xsqlite3GetVdbe(tls, pParse)) != uintptr(0)) {
goto __19
}
Xsqlite3BeginWriteOperation(tls, pParse, 1, iDb)
if !(isVirtual != 0) {
goto __20
}
Xsqlite3VdbeAddOp0(tls, v, OP_VBegin)
__20:
;
reg1 = libc.AssignPtrInt32(pParse+128, libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1))
reg2 = libc.AssignPtrInt32(pParse+132, libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1))
reg3 = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp3(tls, v, OP_ReadCookie, iDb, reg3, BTREE_FILE_FORMAT)
Xsqlite3VdbeUsesBtree(tls, v, iDb)
addr1 = Xsqlite3VdbeAddOp1(tls, v, OP_If, reg3)
if (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_LegacyFileFmt) != uint64(0) {
fileFormat = 1
} else {
fileFormat = SQLITE_MAX_FILE_FORMAT
}
Xsqlite3VdbeAddOp3(tls, v, OP_SetCookie, iDb, BTREE_FILE_FORMAT, fileFormat)
Xsqlite3VdbeAddOp3(tls, v, OP_SetCookie, iDb, BTREE_TEXT_ENCODING, int32((*Sqlite3)(unsafe.Pointer(db)).Fenc))
Xsqlite3VdbeJumpHere(tls, v, addr1)
if !(isView != 0 || isVirtual != 0) {
goto __21
}
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, reg2)
goto __22
__21:
;
*(*int32)(unsafe.Pointer(pParse + 200)) = Xsqlite3VdbeAddOp3(tls, v, OP_CreateBtree, iDb, reg2, BTREE_INTKEY)
__22:
;
Xsqlite3OpenSchemaTable(tls, pParse, iDb)
Xsqlite3VdbeAddOp2(tls, v, OP_NewRowid, 0, reg1)
Xsqlite3VdbeAddOp4(tls, v, OP_Blob, 6, reg3, 0, uintptr(unsafe.Pointer(&nullRow)), -1)
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, 0, reg3, reg1)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_APPEND))
Xsqlite3VdbeAddOp0(tls, v, OP_Close)
__19:
;
return
begin_table_error:
(*Parse)(unsafe.Pointer(pParse)).FcheckSchema = U8(1)
Xsqlite3DbFree(tls, db, zName)
return
}
var aCode = [4]U8{
U8(SQLITE_CREATE_TABLE),
U8(SQLITE_CREATE_TEMP_TABLE),
U8(SQLITE_CREATE_VIEW),
U8(SQLITE_CREATE_TEMP_VIEW),
}
var nullRow = [6]int8{int8(6), int8(0), int8(0), int8(0), int8(0), int8(0)}
func sqlite3DeleteReturning(tls *libc.TLS, db uintptr, pRet uintptr) {
var pHash uintptr
pHash = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema + 56
Xsqlite3HashInsert(tls, pHash, ts+12729, uintptr(0))
Xsqlite3ExprListDelete(tls, db, (*Returning)(unsafe.Pointer(pRet)).FpReturnEL)
Xsqlite3DbFree(tls, db, pRet)
}
// Add the RETURNING clause to the parse currently underway.
//
// This routine creates a special TEMP trigger that will fire for each row
// of the DML statement. That TEMP trigger contains a single SELECT
// statement with a result set that is the argument of the RETURNING clause.
// The trigger has the Trigger.bReturning flag and an opcode of
// TK_RETURNING instead of TK_SELECT, so that the trigger code generator
// knows to handle it specially. The TEMP trigger is automatically
// removed at the end of the parse.
//
// When this routine is called, we do not yet know if the RETURNING clause
// is attached to a DELETE, INSERT, or UPDATE, so construct it as a
// RETURNING trigger instead. It will then be converted into the appropriate
// type on the first call to sqlite3TriggersExist().
func Xsqlite3AddReturning(tls *libc.TLS, pParse uintptr, pList uintptr) {
var pRet uintptr
var pHash uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*Parse)(unsafe.Pointer(pParse)).FpNewTrigger != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+12746, 0)
} else {
}
(*Parse)(unsafe.Pointer(pParse)).FbReturning = U8(1)
pRet = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Returning{})))
if pRet == uintptr(0) {
Xsqlite3ExprListDelete(tls, db, pList)
return
}
*(*uintptr)(unsafe.Pointer(pParse + 200)) = pRet
(*Returning)(unsafe.Pointer(pRet)).FpParse = pParse
(*Returning)(unsafe.Pointer(pRet)).FpReturnEL = pList
Xsqlite3ParserAddCleanup(tls, pParse,
*(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{sqlite3DeleteReturning})), pRet)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return
}
(*Returning)(unsafe.Pointer(pRet)).FretTrig.FzName = ts + 12729
(*Returning)(unsafe.Pointer(pRet)).FretTrig.Fop = U8(TK_RETURNING)
(*Returning)(unsafe.Pointer(pRet)).FretTrig.Ftr_tm = U8(TRIGGER_AFTER)
(*Returning)(unsafe.Pointer(pRet)).FretTrig.FbReturning = U8(1)
(*Returning)(unsafe.Pointer(pRet)).FretTrig.FpSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + 1*32)).FpSchema
(*Returning)(unsafe.Pointer(pRet)).FretTrig.FpTabSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + 1*32)).FpSchema
(*Returning)(unsafe.Pointer(pRet)).FretTrig.Fstep_list = pRet + 88
(*Returning)(unsafe.Pointer(pRet)).FretTStep.Fop = U8(TK_RETURNING)
(*Returning)(unsafe.Pointer(pRet)).FretTStep.FpTrig = pRet + 16
(*Returning)(unsafe.Pointer(pRet)).FretTStep.FpExprList = pList
pHash = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema + 56
if Xsqlite3HashInsert(tls, pHash, ts+12729, pRet+16) ==
pRet+16 {
Xsqlite3OomFault(tls, db)
}
}
// Add a new column to the table currently being constructed.
//
// The parser calls this routine once for each column declaration
// in a CREATE TABLE statement. sqlite3StartTable() gets called
// first to get things going. Then this routine is called for each
// column.
func Xsqlite3AddColumn(tls *libc.TLS, pParse uintptr, sName Token, sType Token) {
bp := tls.Alloc(48)
defer tls.Free(48)
*(*Token)(unsafe.Pointer(bp + 16)) = sName
*(*Token)(unsafe.Pointer(bp + 32)) = sType
var p uintptr
var i int32
var z uintptr
var zType uintptr
var pCol uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var hName U8
var aNew uintptr
var eType U8 = U8(COLTYPE_CUSTOM)
var szEst U8 = U8(1)
var affinity int8 = int8(SQLITE_AFF_BLOB)
if libc.AssignUintptr(&p, (*Parse)(unsafe.Pointer(pParse)).FpNewTable) == uintptr(0) {
return
}
if int32((*Table)(unsafe.Pointer(p)).FnCol)+1 > *(*int32)(unsafe.Pointer(db + 136 + 2*4)) {
Xsqlite3ErrorMsg(tls, pParse, ts+12780, libc.VaList(bp, (*Table)(unsafe.Pointer(p)).FzName))
return
}
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
Xsqlite3DequoteToken(tls, bp+16)
}
if (*Token)(unsafe.Pointer(bp+32)).Fn >= uint32(16) &&
Xsqlite3_strnicmp(tls, (*Token)(unsafe.Pointer(bp+32)).Fz+uintptr((*Token)(unsafe.Pointer(bp+32)).Fn-uint32(6)), ts+12803, 6) == 0 {
*(*uint32)(unsafe.Pointer(bp + 32 + 8)) -= uint32(6)
for (*Token)(unsafe.Pointer(bp+32)).Fn > uint32(0) && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer((*Token)(unsafe.Pointer(bp+32)).Fz + uintptr((*Token)(unsafe.Pointer(bp+32)).Fn-uint32(1)))))])&0x01 != 0 {
(*Token)(unsafe.Pointer(bp+32)).Fn--
}
if (*Token)(unsafe.Pointer(bp+32)).Fn >= uint32(9) &&
Xsqlite3_strnicmp(tls, (*Token)(unsafe.Pointer(bp+32)).Fz+uintptr((*Token)(unsafe.Pointer(bp+32)).Fn-uint32(9)), ts+12810, 9) == 0 {
*(*uint32)(unsafe.Pointer(bp + 32 + 8)) -= uint32(9)
for (*Token)(unsafe.Pointer(bp+32)).Fn > uint32(0) && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer((*Token)(unsafe.Pointer(bp+32)).Fz + uintptr((*Token)(unsafe.Pointer(bp+32)).Fn-uint32(1)))))])&0x01 != 0 {
(*Token)(unsafe.Pointer(bp+32)).Fn--
}
}
}
if (*Token)(unsafe.Pointer(bp+32)).Fn >= uint32(3) {
Xsqlite3DequoteToken(tls, bp+32)
for i = 0; i < SQLITE_N_STDTYPE; i++ {
if (*Token)(unsafe.Pointer(bp+32)).Fn == uint32(Xsqlite3StdTypeLen[i]) &&
Xsqlite3_strnicmp(tls, (*Token)(unsafe.Pointer(bp+32)).Fz, Xsqlite3StdType[i], int32((*Token)(unsafe.Pointer(bp+32)).Fn)) == 0 {
(*Token)(unsafe.Pointer(bp + 32)).Fn = uint32(0)
eType = U8(i + 1)
affinity = Xsqlite3StdTypeAffinity[i]
if int32(affinity) <= SQLITE_AFF_TEXT {
szEst = U8(5)
}
break
}
}
}
z = Xsqlite3DbMallocRaw(tls, db, uint64(I64((*Token)(unsafe.Pointer(bp+16)).Fn)+int64(1)+I64((*Token)(unsafe.Pointer(bp+32)).Fn)+I64(libc.Bool32((*Token)(unsafe.Pointer(bp+32)).Fn > uint32(0)))))
if z == uintptr(0) {
return
}
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
Xsqlite3RenameTokenMap(tls, pParse, z, bp+16)
}
libc.X__builtin___memcpy_chk(tls, z, (*Token)(unsafe.Pointer(bp+16)).Fz, uint64((*Token)(unsafe.Pointer(bp+16)).Fn), libc.X__builtin_object_size(tls, z, 0))
*(*int8)(unsafe.Pointer(z + uintptr((*Token)(unsafe.Pointer(bp+16)).Fn))) = int8(0)
Xsqlite3Dequote(tls, z)
hName = Xsqlite3StrIHash(tls, z)
for i = 0; i < int32((*Table)(unsafe.Pointer(p)).FnCol); i++ {
if int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(p)).FaCol+uintptr(i)*24)).FhName) == int32(hName) && Xsqlite3StrICmp(tls, z, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(p)).FaCol+uintptr(i)*24)).FzCnName) == 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+12820, libc.VaList(bp+8, z))
Xsqlite3DbFree(tls, db, z)
return
}
}
aNew = Xsqlite3DbRealloc(tls, db, (*Table)(unsafe.Pointer(p)).FaCol, uint64(I64((*Table)(unsafe.Pointer(p)).FnCol)+int64(1))*uint64(unsafe.Sizeof(Column{})))
if aNew == uintptr(0) {
Xsqlite3DbFree(tls, db, z)
return
}
(*Table)(unsafe.Pointer(p)).FaCol = aNew
pCol = (*Table)(unsafe.Pointer(p)).FaCol + uintptr((*Table)(unsafe.Pointer(p)).FnCol)*24
libc.X__builtin___memset_chk(tls, pCol, 0, uint64(unsafe.Sizeof(Column{})), libc.X__builtin_object_size(tls, pCol, 0))
(*Column)(unsafe.Pointer(pCol)).FzCnName = z
(*Column)(unsafe.Pointer(pCol)).FhName = hName
if (*Token)(unsafe.Pointer(bp+32)).Fn == uint32(0) {
(*Column)(unsafe.Pointer(pCol)).Faffinity = affinity
libc.SetBitFieldPtr8Uint32(pCol+8, uint32(eType), 4, 0xf0)
(*Column)(unsafe.Pointer(pCol)).FszEst = szEst
} else {
zType = z + uintptr(Xsqlite3Strlen30(tls, z)) + uintptr(1)
libc.X__builtin___memcpy_chk(tls, zType, (*Token)(unsafe.Pointer(bp+32)).Fz, uint64((*Token)(unsafe.Pointer(bp+32)).Fn), libc.X__builtin_object_size(tls, zType, 0))
*(*int8)(unsafe.Pointer(zType + uintptr((*Token)(unsafe.Pointer(bp+32)).Fn))) = int8(0)
Xsqlite3Dequote(tls, zType)
(*Column)(unsafe.Pointer(pCol)).Faffinity = Xsqlite3AffinityType(tls, zType, pCol)
*(*U16)(unsafe.Pointer(pCol + 16)) |= U16(COLFLAG_HASTYPE)
}
(*Table)(unsafe.Pointer(p)).FnCol++
(*Table)(unsafe.Pointer(p)).FnNVCol++
(*Parse)(unsafe.Pointer(pParse)).FconstraintName.Fn = uint32(0)
}
// This routine is called by the parser while in the middle of
// parsing a CREATE TABLE statement. A "NOT NULL" constraint has
// been seen on a column. This routine sets the notNull flag on
// the column currently under construction.
func Xsqlite3AddNotNull(tls *libc.TLS, pParse uintptr, onError int32) {
var p uintptr
var pCol uintptr
p = (*Parse)(unsafe.Pointer(pParse)).FpNewTable
if p == uintptr(0) || int32((*Table)(unsafe.Pointer(p)).FnCol) < 1 {
return
}
pCol = (*Table)(unsafe.Pointer(p)).FaCol + uintptr(int32((*Table)(unsafe.Pointer(p)).FnCol)-1)*24
libc.SetBitFieldPtr8Uint32(pCol+8, uint32(U8(onError)), 0, 0xf)
*(*U32)(unsafe.Pointer(p + 48)) |= U32(TF_HasNotNull)
if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_UNIQUE != 0 {
var pIdx uintptr
for pIdx = (*Table)(unsafe.Pointer(p)).FpIndex; pIdx != 0; pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext {
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn))) == int32((*Table)(unsafe.Pointer(p)).FnCol)-1 {
libc.SetBitFieldPtr16Uint32(pIdx+100, uint32(1), 3, 0x8)
}
}
}
}
// Scan the column type name zType (length nType) and return the
// associated affinity type.
//
// This routine does a case-independent search of zType for the
// substrings in the following table. If one of the substrings is
// found, the corresponding affinity is returned. If zType contains
// more than one of the substrings, entries toward the top of
// the table take priority. For example, if zType is 'BLOBINT',
// SQLITE_AFF_INTEGER is returned.
//
// Substring | Affinity
// --------------------------------
// 'INT' | SQLITE_AFF_INTEGER
// 'CHAR' | SQLITE_AFF_TEXT
// 'CLOB' | SQLITE_AFF_TEXT
// 'TEXT' | SQLITE_AFF_TEXT
// 'BLOB' | SQLITE_AFF_BLOB
// 'REAL' | SQLITE_AFF_REAL
// 'FLOA' | SQLITE_AFF_REAL
// 'DOUB' | SQLITE_AFF_REAL
//
// If none of the substrings in the above table are found,
// SQLITE_AFF_NUMERIC is returned.
func Xsqlite3AffinityType(tls *libc.TLS, zIn uintptr, pCol uintptr) int8 {
bp := tls.Alloc(4)
defer tls.Free(4)
var h U32 = U32(0)
var aff int8 = int8(SQLITE_AFF_NUMERIC)
var zChar uintptr = uintptr(0)
for *(*int8)(unsafe.Pointer(zIn)) != 0 {
h = h<<8 + U32(Xsqlite3UpperToLower[int32(*(*int8)(unsafe.Pointer(zIn)))&0xff])
zIn++
if h == U32(int32('c')<<24+int32('h')<<16+int32('a')<<8+'r') {
aff = int8(SQLITE_AFF_TEXT)
zChar = zIn
} else if h == U32(int32('c')<<24+int32('l')<<16+int32('o')<<8+'b') {
aff = int8(SQLITE_AFF_TEXT)
} else if h == U32(int32('t')<<24+int32('e')<<16+int32('x')<<8+'t') {
aff = int8(SQLITE_AFF_TEXT)
} else if h == U32(int32('b')<<24+int32('l')<<16+int32('o')<<8+'b') &&
(int32(aff) == SQLITE_AFF_NUMERIC || int32(aff) == SQLITE_AFF_REAL) {
aff = int8(SQLITE_AFF_BLOB)
if int32(*(*int8)(unsafe.Pointer(zIn))) == '(' {
zChar = zIn
}
} else if h == U32(int32('r')<<24+int32('e')<<16+int32('a')<<8+'l') &&
int32(aff) == SQLITE_AFF_NUMERIC {
aff = int8(SQLITE_AFF_REAL)
} else if h == U32(int32('f')<<24+int32('l')<<16+int32('o')<<8+'a') &&
int32(aff) == SQLITE_AFF_NUMERIC {
aff = int8(SQLITE_AFF_REAL)
} else if h == U32(int32('d')<<24+int32('o')<<16+int32('u')<<8+'b') &&
int32(aff) == SQLITE_AFF_NUMERIC {
aff = int8(SQLITE_AFF_REAL)
} else if h&U32(0x00FFFFFF) == U32(int32('i')<<16+int32('n')<<8+'t') {
aff = int8(SQLITE_AFF_INTEGER)
break
}
}
if pCol != 0 {
*(*int32)(unsafe.Pointer(bp)) = 0
if int32(aff) < SQLITE_AFF_NUMERIC {
if zChar != 0 {
for *(*int8)(unsafe.Pointer(zChar)) != 0 {
if int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zChar)))])&0x04 != 0 {
Xsqlite3GetInt32(tls, zChar, bp)
break
}
zChar++
}
} else {
*(*int32)(unsafe.Pointer(bp)) = 16
}
}
*(*int32)(unsafe.Pointer(bp)) = *(*int32)(unsafe.Pointer(bp))/4 + 1
if *(*int32)(unsafe.Pointer(bp)) > 255 {
*(*int32)(unsafe.Pointer(bp)) = 255
}
(*Column)(unsafe.Pointer(pCol)).FszEst = U8(*(*int32)(unsafe.Pointer(bp)))
}
return aff
}
// The expression is the default value for the most recently added column
// of the table currently under construction.
//
// Default value expressions must be constant. Raise an exception if this
// is not the case.
//
// This routine is called by the parser while in the middle of
// parsing a CREATE TABLE statement.
func Xsqlite3AddDefaultValue(tls *libc.TLS, pParse uintptr, pExpr uintptr, zStart uintptr, zEnd uintptr) {
bp := tls.Alloc(80)
defer tls.Free(80)
var p uintptr
var pCol uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
p = (*Parse)(unsafe.Pointer(pParse)).FpNewTable
if p != uintptr(0) {
var isInit int32 = libc.Bool32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy != 0 && int32((*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb) != 1)
pCol = (*Table)(unsafe.Pointer(p)).FaCol + uintptr(int32((*Table)(unsafe.Pointer(p)).FnCol)-1)*24
if !(Xsqlite3ExprIsConstantOrFunction(tls, pExpr, uint8(isInit)) != 0) {
Xsqlite3ErrorMsg(tls, pParse, ts+12846,
libc.VaList(bp, (*Column)(unsafe.Pointer(pCol)).FzCnName))
} else if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_GENERATED != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+12891, 0)
} else {
var pDfltExpr uintptr
libc.X__builtin___memset_chk(tls, bp+8, 0, uint64(unsafe.Sizeof(Expr{})), libc.X__builtin_object_size(tls, bp+8, 0))
(*Expr)(unsafe.Pointer(bp + 8)).Fop = U8(TK_SPAN)
*(*uintptr)(unsafe.Pointer(bp + 8 + 8)) = Xsqlite3DbSpanDup(tls, db, zStart, zEnd)
(*Expr)(unsafe.Pointer(bp + 8)).FpLeft = pExpr
(*Expr)(unsafe.Pointer(bp + 8)).Fflags = U32(EP_Skip)
pDfltExpr = Xsqlite3ExprDup(tls, db, bp+8, EXPRDUP_REDUCE)
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 8 + 8)))
Xsqlite3ColumnSetExpr(tls, pParse, p, pCol, pDfltExpr)
}
}
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
Xsqlite3RenameExprUnmap(tls, pParse, pExpr)
}
Xsqlite3ExprDelete(tls, db, pExpr)
}
func sqlite3StringToId(tls *libc.TLS, p uintptr) {
if int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_STRING {
(*Expr)(unsafe.Pointer(p)).Fop = U8(TK_ID)
} else if int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_COLLATE && int32((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(p)).FpLeft)).Fop) == TK_STRING {
(*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(p)).FpLeft)).Fop = U8(TK_ID)
}
}
func makeColumnPartOfPrimaryKey(tls *libc.TLS, pParse uintptr, pCol uintptr) {
*(*U16)(unsafe.Pointer(pCol + 16)) |= U16(COLFLAG_PRIMKEY)
if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_GENERATED != 0 {
Xsqlite3ErrorMsg(tls, pParse,
ts+12932, 0)
}
}
// Designate the PRIMARY KEY for the table. pList is a list of names
// of columns that form the primary key. If pList is NULL, then the
// most recently added column of the table is the primary key.
//
// A table can have at most one primary key. If the table already has
// a primary key (and this is the second primary key) then create an
// error.
//
// If the PRIMARY KEY is on a single column whose datatype is INTEGER,
// then we will try to use that column as the rowid. Set the Table.iPKey
// field of the table under construction to be the index of the
// INTEGER PRIMARY KEY column. Table.iPKey is set to -1 if there is
// no INTEGER PRIMARY KEY.
//
// If the key is not an INTEGER PRIMARY KEY, then create a unique
// index for the key. No index is created for INTEGER PRIMARY KEYs.
func Xsqlite3AddPrimaryKey(tls *libc.TLS, pParse uintptr, pList uintptr, onError int32, autoInc int32, sortOrder int32) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pTab uintptr
var pCol uintptr
var iCol int32
var i int32
var nTerm int32
var zCName uintptr
var pCExpr uintptr
var pCExpr1 uintptr
pTab = (*Parse)(unsafe.Pointer(pParse)).FpNewTable
pCol = uintptr(0)
iCol = -1
if !(pTab == uintptr(0)) {
goto __1
}
goto primary_key_exit
__1:
;
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasPrimaryKey) != 0) {
goto __2
}
Xsqlite3ErrorMsg(tls, pParse,
ts+12984, libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName))
goto primary_key_exit
__2:
;
*(*U32)(unsafe.Pointer(pTab + 48)) |= U32(TF_HasPrimaryKey)
if !(pList == uintptr(0)) {
goto __3
}
iCol = int32((*Table)(unsafe.Pointer(pTab)).FnCol) - 1
pCol = (*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(iCol)*24
makeColumnPartOfPrimaryKey(tls, pParse, pCol)
nTerm = 1
goto __4
__3:
nTerm = (*ExprList)(unsafe.Pointer(pList)).FnExpr
i = 0
__5:
if !(i < nTerm) {
goto __7
}
pCExpr = Xsqlite3ExprSkipCollate(tls, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(i)*32)).FpExpr)
sqlite3StringToId(tls, pCExpr)
if !(int32((*Expr)(unsafe.Pointer(pCExpr)).Fop) == TK_ID) {
goto __8
}
zCName = *(*uintptr)(unsafe.Pointer(pCExpr + 8))
iCol = 0
__9:
if !(iCol < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __11
}
if !(Xsqlite3StrICmp(tls, zCName, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(iCol)*24)).FzCnName) == 0) {
goto __12
}
pCol = (*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(iCol)*24
makeColumnPartOfPrimaryKey(tls, pParse, pCol)
goto __11
__12:
;
goto __10
__10:
iCol++
goto __9
goto __11
__11:
;
__8:
;
goto __6
__6:
i++
goto __5
goto __7
__7:
;
__4:
;
if !(nTerm == 1 &&
pCol != 0 &&
int32(*(*uint8)(unsafe.Pointer(pCol + 8))&0xf0>>4) == COLTYPE_INTEGER &&
sortOrder != SQLITE_SO_DESC) {
goto __13
}
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME && pList != 0) {
goto __15
}
pCExpr1 = Xsqlite3ExprSkipCollate(tls, (*ExprList_item)(unsafe.Pointer(pList+8)).FpExpr)
Xsqlite3RenameTokenRemap(tls, pParse, pTab+52, pCExpr1)
__15:
;
(*Table)(unsafe.Pointer(pTab)).FiPKey = I16(iCol)
(*Table)(unsafe.Pointer(pTab)).FkeyConf = U8(onError)
*(*U32)(unsafe.Pointer(pTab + 48)) |= U32(autoInc * TF_Autoincrement)
if !(pList != 0) {
goto __16
}
(*Parse)(unsafe.Pointer(pParse)).FiPkSortOrder = (*ExprList_item)(unsafe.Pointer(pList + 8)).Ffg.FsortFlags
__16:
;
Xsqlite3HasExplicitNulls(tls, pParse, pList)
goto __14
__13:
if !(autoInc != 0) {
goto __17
}
Xsqlite3ErrorMsg(tls, pParse,
ts+13025, 0)
goto __18
__17:
Xsqlite3CreateIndex(tls, pParse, uintptr(0), uintptr(0), uintptr(0), pList, onError, uintptr(0),
uintptr(0), sortOrder, 0, uint8(SQLITE_IDXTYPE_PRIMARYKEY))
pList = uintptr(0)
__18:
;
__14:
;
primary_key_exit:
Xsqlite3ExprListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pList)
return
}
// Add a new CHECK constraint to the table currently under construction.
func Xsqlite3AddCheckConstraint(tls *libc.TLS, pParse uintptr, pCheckExpr uintptr, zStart uintptr, zEnd uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
var pTab uintptr = (*Parse)(unsafe.Pointer(pParse)).FpNewTable
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if pTab != 0 && !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) == PARSE_MODE_DECLARE_VTAB) &&
!(Xsqlite3BtreeIsReadonly(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr((*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb)*32)).FpBt) != 0) {
(*Table)(unsafe.Pointer(pTab)).FpCheck = Xsqlite3ExprListAppend(tls, pParse, (*Table)(unsafe.Pointer(pTab)).FpCheck, pCheckExpr)
if (*Parse)(unsafe.Pointer(pParse)).FconstraintName.Fn != 0 {
Xsqlite3ExprListSetName(tls, pParse, (*Table)(unsafe.Pointer(pTab)).FpCheck, pParse+104, 1)
} else {
for zStart++; int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zStart)))])&0x01 != 0; zStart++ {
}
for int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zEnd + libc.UintptrFromInt32(-1))))])&0x01 != 0 {
zEnd--
}
(*Token)(unsafe.Pointer(bp)).Fz = zStart
(*Token)(unsafe.Pointer(bp)).Fn = uint32(int32((int64(zEnd) - int64((*Token)(unsafe.Pointer(bp)).Fz)) / 1))
Xsqlite3ExprListSetName(tls, pParse, (*Table)(unsafe.Pointer(pTab)).FpCheck, bp, 1)
}
} else {
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pCheckExpr)
}
}
// Set the collation function of the most recently parsed table column
// to the CollSeq given.
func Xsqlite3AddCollateType(tls *libc.TLS, pParse uintptr, pToken uintptr) {
var p uintptr
var i int32
var zColl uintptr
var db uintptr
if libc.AssignUintptr(&p, (*Parse)(unsafe.Pointer(pParse)).FpNewTable) == uintptr(0) || int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
return
}
i = int32((*Table)(unsafe.Pointer(p)).FnCol) - 1
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
zColl = Xsqlite3NameFromToken(tls, db, pToken)
if !(zColl != 0) {
return
}
if Xsqlite3LocateCollSeq(tls, pParse, zColl) != 0 {
var pIdx uintptr
Xsqlite3ColumnSetColl(tls, db, (*Table)(unsafe.Pointer(p)).FaCol+uintptr(i)*24, zColl)
for pIdx = (*Table)(unsafe.Pointer(p)).FpIndex; pIdx != 0; pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext {
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn))) == i {
*(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl)) = Xsqlite3ColumnColl(tls, (*Table)(unsafe.Pointer(p)).FaCol+uintptr(i)*24)
}
}
}
Xsqlite3DbFree(tls, db, zColl)
}
// Change the most recently parsed column to be a GENERATED ALWAYS AS
// column.
func Xsqlite3AddGenerated(tls *libc.TLS, pParse uintptr, pExpr uintptr, pType uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var eType U8
var pTab uintptr
var pCol uintptr
eType = U8(COLFLAG_VIRTUAL)
pTab = (*Parse)(unsafe.Pointer(pParse)).FpNewTable
if !(pTab == uintptr(0)) {
goto __1
}
goto generated_done
__1:
;
pCol = (*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(int32((*Table)(unsafe.Pointer(pTab)).FnCol)-1)*24
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) == PARSE_MODE_DECLARE_VTAB) {
goto __2
}
Xsqlite3ErrorMsg(tls, pParse, ts+13081, 0)
goto generated_done
__2:
;
if !(int32((*Column)(unsafe.Pointer(pCol)).FiDflt) > 0) {
goto __3
}
goto generated_error
__3:
;
if !(pType != 0) {
goto __4
}
if !((*Token)(unsafe.Pointer(pType)).Fn == uint32(7) && Xsqlite3_strnicmp(tls, ts+13124, (*Token)(unsafe.Pointer(pType)).Fz, 7) == 0) {
goto __5
}
goto __6
__5:
if !((*Token)(unsafe.Pointer(pType)).Fn == uint32(6) && Xsqlite3_strnicmp(tls, ts+13132, (*Token)(unsafe.Pointer(pType)).Fz, 6) == 0) {
goto __7
}
eType = U8(COLFLAG_STORED)
goto __8
__7:
goto generated_error
__8:
;
__6:
;
__4:
;
if !(int32(eType) == COLFLAG_VIRTUAL) {
goto __9
}
(*Table)(unsafe.Pointer(pTab)).FnNVCol--
__9:
;
*(*U16)(unsafe.Pointer(pCol + 16)) |= U16(int32(eType))
*(*U32)(unsafe.Pointer(pTab + 48)) |= U32(eType)
if !(int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_PRIMKEY != 0) {
goto __10
}
makeColumnPartOfPrimaryKey(tls, pParse, pCol)
__10:
;
if !(pExpr != 0 && int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_ID) {
goto __11
}
pExpr = Xsqlite3PExpr(tls, pParse, TK_UPLUS, pExpr, uintptr(0))
__11:
;
Xsqlite3ColumnSetExpr(tls, pParse, pTab, pCol, pExpr)
pExpr = uintptr(0)
goto generated_done
generated_error:
Xsqlite3ErrorMsg(tls, pParse, ts+13139,
libc.VaList(bp, (*Column)(unsafe.Pointer(pCol)).FzCnName))
generated_done:
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pExpr)
}
// Generate code that will increment the schema cookie.
//
// The schema cookie is used to determine when the schema for the
// database changes. After each schema change, the cookie value
// changes. When a process first reads the schema it records the
// cookie. Thereafter, whenever it goes to access the database,
// it checks the cookie to make sure the schema has not changed
// since it was last read.
//
// This plan is not completely bullet-proof. It is possible for
// the schema to change multiple times and for the cookie to be
// set back to prior value. But schema changes are infrequent
// and the probability of hitting the same cookie value is only
// 1 chance in 2^32. So we're safe enough.
//
// IMPLEMENTATION-OF: R-34230-56049 SQLite automatically increments
// the schema-version whenever the schema changes.
func Xsqlite3ChangeCookie(tls *libc.TLS, pParse uintptr, iDb int32) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
Xsqlite3VdbeAddOp3(tls, v, OP_SetCookie, iDb, BTREE_SCHEMA_VERSION,
int32(uint32(1)+uint32((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpSchema)).Fschema_cookie)))
}
func identLength(tls *libc.TLS, z uintptr) int32 {
var n int32
n = 0
__1:
if !(*(*int8)(unsafe.Pointer(z)) != 0) {
goto __3
}
{
if int32(*(*int8)(unsafe.Pointer(z))) == '"' {
n++
}
}
goto __2
__2:
n++
z++
goto __1
goto __3
__3:
;
return n + 2
}
func identPut(tls *libc.TLS, z uintptr, pIdx uintptr, zSignedIdent uintptr) {
var zIdent uintptr = zSignedIdent
var i int32
var j int32
var needQuote int32
i = *(*int32)(unsafe.Pointer(pIdx))
for j = 0; *(*uint8)(unsafe.Pointer(zIdent + uintptr(j))) != 0; j++ {
if !(int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(zIdent + uintptr(j)))])&0x06 != 0) && int32(*(*uint8)(unsafe.Pointer(zIdent + uintptr(j)))) != '_' {
break
}
}
needQuote = libc.Bool32(int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(zIdent))])&0x04 != 0 ||
Xsqlite3KeywordCode(tls, zIdent, j) != TK_ID ||
int32(*(*uint8)(unsafe.Pointer(zIdent + uintptr(j)))) != 0 ||
j == 0)
if needQuote != 0 {
*(*int8)(unsafe.Pointer(z + uintptr(libc.PostIncInt32(&i, 1)))) = int8('"')
}
for j = 0; *(*uint8)(unsafe.Pointer(zIdent + uintptr(j))) != 0; j++ {
*(*int8)(unsafe.Pointer(z + uintptr(libc.PostIncInt32(&i, 1)))) = int8(*(*uint8)(unsafe.Pointer(zIdent + uintptr(j))))
if int32(*(*uint8)(unsafe.Pointer(zIdent + uintptr(j)))) == '"' {
*(*int8)(unsafe.Pointer(z + uintptr(libc.PostIncInt32(&i, 1)))) = int8('"')
}
}
if needQuote != 0 {
*(*int8)(unsafe.Pointer(z + uintptr(libc.PostIncInt32(&i, 1)))) = int8('"')
}
*(*int8)(unsafe.Pointer(z + uintptr(i))) = int8(0)
*(*int32)(unsafe.Pointer(pIdx)) = i
}
func createTableStmt(tls *libc.TLS, db uintptr, p uintptr) uintptr {
bp := tls.Alloc(12)
defer tls.Free(12)
var i int32
var n int32
var zStmt uintptr
var zSep uintptr
var zSep2 uintptr
var zEnd uintptr
var pCol uintptr
n = 0
pCol = (*Table)(unsafe.Pointer(p)).FaCol
i = 0
__1:
if !(i < int32((*Table)(unsafe.Pointer(p)).FnCol)) {
goto __3
}
{
n = n + (identLength(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName) + 5)
}
goto __2
__2:
i++
pCol += 24
goto __1
goto __3
__3:
;
n = n + identLength(tls, (*Table)(unsafe.Pointer(p)).FzName)
if n < 50 {
zSep = ts + 1547
zSep2 = ts + 13170
zEnd = ts + 5360
} else {
zSep = ts + 13172
zSep2 = ts + 13176
zEnd = ts + 13181
}
n = n + (35 + 6*int32((*Table)(unsafe.Pointer(p)).FnCol))
zStmt = Xsqlite3DbMallocRaw(tls, uintptr(0), uint64(n))
if zStmt == uintptr(0) {
Xsqlite3OomFault(tls, db)
return uintptr(0)
}
Xsqlite3_snprintf(tls, n, zStmt, ts+13184, 0)
*(*int32)(unsafe.Pointer(bp + 8)) = Xsqlite3Strlen30(tls, zStmt)
identPut(tls, zStmt, bp+8, (*Table)(unsafe.Pointer(p)).FzName)
*(*int8)(unsafe.Pointer(zStmt + uintptr(libc.PostIncInt32(&*(*int32)(unsafe.Pointer(bp + 8)), 1)))) = int8('(')
pCol = (*Table)(unsafe.Pointer(p)).FaCol
i = 0
__4:
if !(i < int32((*Table)(unsafe.Pointer(p)).FnCol)) {
goto __6
}
{
var len int32
var zType uintptr
Xsqlite3_snprintf(tls, n-*(*int32)(unsafe.Pointer(bp + 8)), zStmt+uintptr(*(*int32)(unsafe.Pointer(bp + 8))), zSep, 0)
*(*int32)(unsafe.Pointer(bp + 8)) += Xsqlite3Strlen30(tls, zStmt+uintptr(*(*int32)(unsafe.Pointer(bp + 8))))
zSep = zSep2
identPut(tls, zStmt, bp+8, (*Column)(unsafe.Pointer(pCol)).FzCnName)
zType = azType1[int32((*Column)(unsafe.Pointer(pCol)).Faffinity)-SQLITE_AFF_BLOB]
len = Xsqlite3Strlen30(tls, zType)
libc.X__builtin___memcpy_chk(tls, zStmt+uintptr(*(*int32)(unsafe.Pointer(bp + 8))), zType, uint64(len), libc.X__builtin_object_size(tls, zStmt+uintptr(*(*int32)(unsafe.Pointer(bp + 8))), 0))
*(*int32)(unsafe.Pointer(bp + 8)) += len
}
goto __5
__5:
i++
pCol += 24
goto __4
goto __6
__6:
;
Xsqlite3_snprintf(tls, n-*(*int32)(unsafe.Pointer(bp + 8)), zStmt+uintptr(*(*int32)(unsafe.Pointer(bp + 8))), ts+3658, libc.VaList(bp, zEnd))
return zStmt
}
var azType1 = [6]uintptr{
ts + 1547,
ts + 13198,
ts + 13204,
ts + 13209,
ts + 13214,
ts + 13204,
}
func resizeIndexObject(tls *libc.TLS, db uintptr, pIdx uintptr, N int32) int32 {
var zExtra uintptr
var nByte int32
if int32((*Index)(unsafe.Pointer(pIdx)).FnColumn) >= N {
return SQLITE_OK
}
nByte = int32((uint64(unsafe.Sizeof(uintptr(0))) + uint64(unsafe.Sizeof(LogEst(0))) + uint64(unsafe.Sizeof(I16(0))) + uint64(1)) * uint64(N))
zExtra = Xsqlite3DbMallocZero(tls, db, uint64(nByte))
if zExtra == uintptr(0) {
return SQLITE_NOMEM
}
libc.X__builtin___memcpy_chk(tls, zExtra, (*Index)(unsafe.Pointer(pIdx)).FazColl, uint64(unsafe.Sizeof(uintptr(0)))*uint64((*Index)(unsafe.Pointer(pIdx)).FnColumn), libc.X__builtin_object_size(tls, zExtra, 0))
(*Index)(unsafe.Pointer(pIdx)).FazColl = zExtra
zExtra += uintptr(uint64(unsafe.Sizeof(uintptr(0))) * uint64(N))
libc.X__builtin___memcpy_chk(tls, zExtra, (*Index)(unsafe.Pointer(pIdx)).FaiRowLogEst, uint64(unsafe.Sizeof(LogEst(0)))*uint64(int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)+1), libc.X__builtin_object_size(tls, zExtra, 0))
(*Index)(unsafe.Pointer(pIdx)).FaiRowLogEst = zExtra
zExtra += uintptr(uint64(unsafe.Sizeof(LogEst(0))) * uint64(N))
libc.X__builtin___memcpy_chk(tls, zExtra, (*Index)(unsafe.Pointer(pIdx)).FaiColumn, uint64(unsafe.Sizeof(I16(0)))*uint64((*Index)(unsafe.Pointer(pIdx)).FnColumn), libc.X__builtin_object_size(tls, zExtra, 0))
(*Index)(unsafe.Pointer(pIdx)).FaiColumn = zExtra
zExtra += uintptr(uint64(unsafe.Sizeof(I16(0))) * uint64(N))
libc.X__builtin___memcpy_chk(tls, zExtra, (*Index)(unsafe.Pointer(pIdx)).FaSortOrder, uint64((*Index)(unsafe.Pointer(pIdx)).FnColumn), libc.X__builtin_object_size(tls, zExtra, 0))
(*Index)(unsafe.Pointer(pIdx)).FaSortOrder = zExtra
(*Index)(unsafe.Pointer(pIdx)).FnColumn = U16(N)
libc.SetBitFieldPtr16Uint32(pIdx+100, uint32(1), 4, 0x10)
return SQLITE_OK
}
func estimateTableWidth(tls *libc.TLS, pTab uintptr) {
var wTable uint32 = uint32(0)
var pTabCol uintptr
var i int32
i = int32((*Table)(unsafe.Pointer(pTab)).FnCol)
pTabCol = (*Table)(unsafe.Pointer(pTab)).FaCol
__1:
if !(i > 0) {
goto __3
}
{
wTable = wTable + uint32((*Column)(unsafe.Pointer(pTabCol)).FszEst)
}
goto __2
__2:
i--
pTabCol += 24
goto __1
goto __3
__3:
;
if int32((*Table)(unsafe.Pointer(pTab)).FiPKey) < 0 {
wTable++
}
(*Table)(unsafe.Pointer(pTab)).FszTabRow = Xsqlite3LogEst(tls, uint64(wTable*uint32(4)))
}
func estimateIndexWidth(tls *libc.TLS, pIdx uintptr) {
var wIndex uint32 = uint32(0)
var i int32
var aCol uintptr = (*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FpTable)).FaCol
for i = 0; i < int32((*Index)(unsafe.Pointer(pIdx)).FnColumn); i++ {
var x I16 = *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2))
wIndex = wIndex + func() uint32 {
if int32(x) < 0 {
return uint32(1)
}
return uint32((*Column)(unsafe.Pointer(aCol + uintptr(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2)))*24)).FszEst)
}()
}
(*Index)(unsafe.Pointer(pIdx)).FszIdxRow = Xsqlite3LogEst(tls, uint64(wIndex*uint32(4)))
}
func hasColumn(tls *libc.TLS, aiCol uintptr, nCol int32, x int32) int32 {
for libc.PostDecInt32(&nCol, 1) > 0 {
if x == int32(*(*I16)(unsafe.Pointer(libc.PostIncUintptr(&aiCol, 2)))) {
return 1
}
}
return 0
}
func isDupColumn(tls *libc.TLS, pIdx uintptr, nKey int32, pPk uintptr, iCol int32) int32 {
var i int32
var j int32
j = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(iCol)*2)))
for i = 0; i < nKey; i++ {
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2))) == j &&
Xsqlite3StrICmp(tls, *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(i)*8)), *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FazColl + uintptr(iCol)*8))) == 0 {
return 1
}
}
return 0
}
func recomputeColumnsNotIndexed(tls *libc.TLS, pIdx uintptr) {
var m Bitmask = uint64(0)
var j int32
var pTab uintptr = (*Index)(unsafe.Pointer(pIdx)).FpTable
for j = int32((*Index)(unsafe.Pointer(pIdx)).FnColumn) - 1; j >= 0; j-- {
var x int32 = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(j)*2)))
if x >= 0 && int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(x)*24)).FcolFlags)&COLFLAG_VIRTUAL == 0 {
if x < int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8))-1 {
m = m | uint64(1)<<x
}
}
}
(*Index)(unsafe.Pointer(pIdx)).FcolNotIdxed = ^m
}
func convertToWithoutRowidTable(tls *libc.TLS, pParse uintptr, pTab uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
var pIdx uintptr
var pPk uintptr
var nPk int32
var nExtra int32
var i int32
var j int32
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
if !(int32(*(*uint8)(unsafe.Pointer(db + 192 + 8))&0x2>>1) != 0) {
for i = 0; i < int32((*Table)(unsafe.Pointer(pTab)).FnCol); i++ {
if int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_PRIMKEY != 0 &&
int32(*(*uint8)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(i)*24 + 8))&0xf>>0) == OE_None {
libc.SetBitFieldPtr8Uint32((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24+8, uint32(OE_Abort), 0, 0xf)
}
}
*(*U32)(unsafe.Pointer(pTab + 48)) |= U32(TF_HasNotNull)
}
if *(*int32)(unsafe.Pointer(pParse + 200)) != 0 {
Xsqlite3VdbeChangeP3(tls, v, *(*int32)(unsafe.Pointer(pParse + 200)), BTREE_BLOBKEY)
}
if int32((*Table)(unsafe.Pointer(pTab)).FiPKey) >= 0 {
var pList uintptr
Xsqlite3TokenInit(tls, bp, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr((*Table)(unsafe.Pointer(pTab)).FiPKey)*24)).FzCnName)
pList = Xsqlite3ExprListAppend(tls, pParse, uintptr(0),
Xsqlite3ExprAlloc(tls, db, TK_ID, bp, 0))
if pList == uintptr(0) {
*(*U32)(unsafe.Pointer(pTab + 48)) &= libc.Uint32FromInt32(libc.CplInt32(TF_WithoutRowid))
return
}
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
Xsqlite3RenameTokenRemap(tls, pParse, (*ExprList_item)(unsafe.Pointer(pList+8)).FpExpr, pTab+52)
}
(*ExprList_item)(unsafe.Pointer(pList + 8)).Ffg.FsortFlags = (*Parse)(unsafe.Pointer(pParse)).FiPkSortOrder
(*Table)(unsafe.Pointer(pTab)).FiPKey = int16(-1)
Xsqlite3CreateIndex(tls, pParse, uintptr(0), uintptr(0), uintptr(0), pList, int32((*Table)(unsafe.Pointer(pTab)).FkeyConf), uintptr(0), uintptr(0), 0, 0,
uint8(SQLITE_IDXTYPE_PRIMARYKEY))
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
*(*U32)(unsafe.Pointer(pTab + 48)) &= libc.Uint32FromInt32(libc.CplInt32(TF_WithoutRowid))
return
}
pPk = Xsqlite3PrimaryKeyIndex(tls, pTab)
} else {
pPk = Xsqlite3PrimaryKeyIndex(tls, pTab)
for i = libc.AssignInt32(&j, 1); i < int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol); i++ {
if isDupColumn(tls, pPk, j, pPk, i) != 0 {
(*Index)(unsafe.Pointer(pPk)).FnColumn--
} else {
*(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FazColl + uintptr(j)*8)) = *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FazColl + uintptr(i)*8))
*(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaSortOrder + uintptr(j))) = *(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaSortOrder + uintptr(i)))
*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(libc.PostIncInt32(&j, 1))*2)) = *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(i)*2))
}
}
(*Index)(unsafe.Pointer(pPk)).FnKeyCol = U16(j)
}
libc.SetBitFieldPtr16Uint32(pPk+100, uint32(1), 5, 0x20)
if !(int32(*(*uint8)(unsafe.Pointer(db + 192 + 8))&0x2>>1) != 0) {
libc.SetBitFieldPtr16Uint32(pPk+100, uint32(1), 3, 0x8)
}
nPk = int32(libc.AssignPtrUint16(pPk+96, (*Index)(unsafe.Pointer(pPk)).FnKeyCol))
if v != 0 && (*Index)(unsafe.Pointer(pPk)).Ftnum > Pgno(0) {
Xsqlite3VdbeChangeOpcode(tls, v, int32((*Index)(unsafe.Pointer(pPk)).Ftnum), uint8(OP_Goto))
}
(*Index)(unsafe.Pointer(pPk)).Ftnum = (*Table)(unsafe.Pointer(pTab)).Ftnum
for pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex; pIdx != 0; pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext {
var n int32
if int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY {
continue
}
for i = libc.AssignInt32(&n, 0); i < nPk; i++ {
if !(isDupColumn(tls, pIdx, int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol), pPk, i) != 0) {
n++
}
}
if n == 0 {
(*Index)(unsafe.Pointer(pIdx)).FnColumn = (*Index)(unsafe.Pointer(pIdx)).FnKeyCol
continue
}
if resizeIndexObject(tls, db, pIdx, int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)+n) != 0 {
return
}
i = 0
j = int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)
for ; i < nPk; i++ {
if !(isDupColumn(tls, pIdx, int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol), pPk, i) != 0) {
*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(j)*2)) = *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(i)*2))
*(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(j)*8)) = *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FazColl + uintptr(i)*8))
if *(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaSortOrder + uintptr(i))) != 0 {
libc.SetBitFieldPtr16Uint32(pIdx+100, uint32(1), 9, 0x200)
}
j++
}
}
}
nExtra = 0
for i = 0; i < int32((*Table)(unsafe.Pointer(pTab)).FnCol); i++ {
if !(hasColumn(tls, (*Index)(unsafe.Pointer(pPk)).FaiColumn, nPk, i) != 0) &&
int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_VIRTUAL == 0 {
nExtra++
}
}
if resizeIndexObject(tls, db, pPk, nPk+nExtra) != 0 {
return
}
i = 0
j = nPk
for ; i < int32((*Table)(unsafe.Pointer(pTab)).FnCol); i++ {
if !(hasColumn(tls, (*Index)(unsafe.Pointer(pPk)).FaiColumn, j, i) != 0) &&
int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_VIRTUAL == 0 {
*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(j)*2)) = I16(i)
*(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FazColl + uintptr(j)*8)) = uintptr(unsafe.Pointer(&Xsqlite3StrBINARY))
j++
}
}
recomputeColumnsNotIndexed(tls, pPk)
}
// Return true if pTab is a virtual table and zName is a shadow table name
// for that virtual table.
func Xsqlite3IsShadowTableOf(tls *libc.TLS, db uintptr, pTab uintptr, zName uintptr) int32 {
var nName int32
var pMod uintptr
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
return 0
}
nName = Xsqlite3Strlen30(tls, (*Table)(unsafe.Pointer(pTab)).FzName)
if Xsqlite3_strnicmp(tls, zName, (*Table)(unsafe.Pointer(pTab)).FzName, nName) != 0 {
return 0
}
if int32(*(*int8)(unsafe.Pointer(zName + uintptr(nName)))) != '_' {
return 0
}
pMod = Xsqlite3HashFind(tls, db+576, *(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pTab + 64 + 8)))))
if pMod == uintptr(0) {
return 0
}
if (*Sqlite3_module)(unsafe.Pointer((*Module)(unsafe.Pointer(pMod)).FpModule)).FiVersion < 3 {
return 0
}
if (*Sqlite3_module)(unsafe.Pointer((*Module)(unsafe.Pointer(pMod)).FpModule)).FxShadowName == uintptr(0) {
return 0
}
return (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer((*Module)(unsafe.Pointer(pMod)).FpModule)).FxShadowName})).f(tls, zName+uintptr(nName)+uintptr(1))
}
// Table pTab is a virtual table. If it the virtual table implementation
// exists and has an xShadowName method, then loop over all other ordinary
// tables within the same schema looking for shadow tables of pTab, and mark
// any shadow tables seen using the TF_Shadow flag.
func Xsqlite3MarkAllShadowTablesOf(tls *libc.TLS, db uintptr, pTab uintptr) {
var nName int32
var pMod uintptr
var k uintptr
pMod = Xsqlite3HashFind(tls, db+576, *(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pTab + 64 + 8)))))
if pMod == uintptr(0) {
return
}
if (*Module)(unsafe.Pointer(pMod)).FpModule == uintptr(0) {
return
}
if (*Sqlite3_module)(unsafe.Pointer((*Module)(unsafe.Pointer(pMod)).FpModule)).FiVersion < 3 {
return
}
if (*Sqlite3_module)(unsafe.Pointer((*Module)(unsafe.Pointer(pMod)).FpModule)).FxShadowName == uintptr(0) {
return
}
nName = Xsqlite3Strlen30(tls, (*Table)(unsafe.Pointer(pTab)).FzName)
for k = (*Hash)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FpSchema + 8)).Ffirst; k != 0; k = (*HashElem)(unsafe.Pointer(k)).Fnext {
var pOther uintptr = (*HashElem)(unsafe.Pointer(k)).Fdata
if !(int32((*Table)(unsafe.Pointer(pOther)).FeTabType) == TABTYP_NORM) {
continue
}
if (*Table)(unsafe.Pointer(pOther)).FtabFlags&U32(TF_Shadow) != 0 {
continue
}
if Xsqlite3_strnicmp(tls, (*Table)(unsafe.Pointer(pOther)).FzName, (*Table)(unsafe.Pointer(pTab)).FzName, nName) == 0 &&
int32(*(*int8)(unsafe.Pointer((*Table)(unsafe.Pointer(pOther)).FzName + uintptr(nName)))) == '_' &&
(*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer((*Module)(unsafe.Pointer(pMod)).FpModule)).FxShadowName})).f(tls, (*Table)(unsafe.Pointer(pOther)).FzName+uintptr(nName)+uintptr(1)) != 0 {
*(*U32)(unsafe.Pointer(pOther + 48)) |= U32(TF_Shadow)
}
}
}
// Return true if zName is a shadow table name in the current database
// connection.
//
// zName is temporarily modified while this routine is running, but is
// restored to its original value prior to this routine returning.
func Xsqlite3ShadowTableName(tls *libc.TLS, db uintptr, zName uintptr) int32 {
var zTail uintptr
var pTab uintptr
zTail = libc.Xstrrchr(tls, zName, '_')
if zTail == uintptr(0) {
return 0
}
*(*int8)(unsafe.Pointer(zTail)) = int8(0)
pTab = Xsqlite3FindTable(tls, db, zName, uintptr(0))
*(*int8)(unsafe.Pointer(zTail)) = int8('_')
if pTab == uintptr(0) {
return 0
}
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
return 0
}
return Xsqlite3IsShadowTableOf(tls, db, pTab, zName)
}
// This routine is called to report the final ")" that terminates
// a CREATE TABLE statement.
//
// The table structure that other action routines have been building
// is added to the internal hash tables, assuming no errors have
// occurred.
//
// An entry for the table is made in the schema table on disk, unless
// this is a temporary table or db->init.busy==1. When db->init.busy==1
// it means we are reading the sqlite_schema table because we just
// connected to the database or because the sqlite_schema table has
// recently changed, so the entry for this table already exists in
// the sqlite_schema table. We do not want to create it again.
//
// If the pSelect argument is not NULL, it means that this routine
// was called to create a table generated from a
// "CREATE TABLE ... AS SELECT ..." statement. The column names of
// the new table will match the result set of the SELECT.
func Xsqlite3EndTable(tls *libc.TLS, pParse uintptr, pCons uintptr, pEnd uintptr, tabOpts U32, pSelect uintptr) {
bp := tls.Alloc(184)
defer tls.Free(184)
var p uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var iDb int32
var pIdx uintptr
if pEnd == uintptr(0) && pSelect == uintptr(0) {
return
}
p = (*Parse)(unsafe.Pointer(pParse)).FpNewTable
if p == uintptr(0) {
return
}
if pSelect == uintptr(0) && Xsqlite3ShadowTableName(tls, db, (*Table)(unsafe.Pointer(p)).FzName) != 0 {
*(*U32)(unsafe.Pointer(p + 48)) |= U32(TF_Shadow)
}
if (*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy != 0 {
if pSelect != 0 || !(int32((*Table)(unsafe.Pointer(p)).FeTabType) == TABTYP_NORM) && (*Sqlite3)(unsafe.Pointer(db)).Finit.FnewTnum != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+1547, 0)
return
}
(*Table)(unsafe.Pointer(p)).Ftnum = (*Sqlite3)(unsafe.Pointer(db)).Finit.FnewTnum
if (*Table)(unsafe.Pointer(p)).Ftnum == Pgno(1) {
*(*U32)(unsafe.Pointer(p + 48)) |= U32(TF_Readonly)
}
}
if tabOpts&U32(TF_Strict) != 0 {
var ii int32
*(*U32)(unsafe.Pointer(p + 48)) |= U32(TF_Strict)
for ii = 0; ii < int32((*Table)(unsafe.Pointer(p)).FnCol); ii++ {
var pCol uintptr = (*Table)(unsafe.Pointer(p)).FaCol + uintptr(ii)*24
if int32(*(*uint8)(unsafe.Pointer(pCol + 8))&0xf0>>4) == COLTYPE_CUSTOM {
if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_HASTYPE != 0 {
Xsqlite3ErrorMsg(tls, pParse,
ts+13220,
libc.VaList(bp, (*Table)(unsafe.Pointer(p)).FzName, (*Column)(unsafe.Pointer(pCol)).FzCnName, Xsqlite3ColumnType(tls, pCol, ts+1547)))
} else {
Xsqlite3ErrorMsg(tls, pParse, ts+13253,
libc.VaList(bp+24, (*Table)(unsafe.Pointer(p)).FzName, (*Column)(unsafe.Pointer(pCol)).FzCnName))
}
return
} else if int32(*(*uint8)(unsafe.Pointer(pCol + 8))&0xf0>>4) == COLTYPE_ANY {
(*Column)(unsafe.Pointer(pCol)).Faffinity = int8(SQLITE_AFF_BLOB)
}
if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_PRIMKEY != 0 &&
int32((*Table)(unsafe.Pointer(p)).FiPKey) != ii &&
int32(*(*uint8)(unsafe.Pointer(pCol + 8))&0xf>>0) == OE_None {
libc.SetBitFieldPtr8Uint32(pCol+8, uint32(OE_Abort), 0, 0xf)
*(*U32)(unsafe.Pointer(p + 48)) |= U32(TF_HasNotNull)
}
}
}
if tabOpts&U32(TF_WithoutRowid) != 0 {
if (*Table)(unsafe.Pointer(p)).FtabFlags&U32(TF_Autoincrement) != 0 {
Xsqlite3ErrorMsg(tls, pParse,
ts+13280, 0)
return
}
if (*Table)(unsafe.Pointer(p)).FtabFlags&U32(TF_HasPrimaryKey) == U32(0) {
Xsqlite3ErrorMsg(tls, pParse, ts+13330, libc.VaList(bp+40, (*Table)(unsafe.Pointer(p)).FzName))
return
}
*(*U32)(unsafe.Pointer(p + 48)) |= U32(TF_WithoutRowid | TF_NoVisibleRowid)
convertToWithoutRowidTable(tls, pParse, p)
}
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(p)).FpSchema)
if (*Table)(unsafe.Pointer(p)).FpCheck != 0 {
Xsqlite3ResolveSelfReference(tls, pParse, p, NC_IsCheck, uintptr(0), (*Table)(unsafe.Pointer(p)).FpCheck)
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
Xsqlite3ExprListDelete(tls, db, (*Table)(unsafe.Pointer(p)).FpCheck)
(*Table)(unsafe.Pointer(p)).FpCheck = uintptr(0)
} else {
}
}
if (*Table)(unsafe.Pointer(p)).FtabFlags&U32(TF_HasGenerated) != 0 {
var ii int32
var nNG int32 = 0
for ii = 0; ii < int32((*Table)(unsafe.Pointer(p)).FnCol); ii++ {
var colFlags U32 = U32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(p)).FaCol + uintptr(ii)*24)).FcolFlags)
if colFlags&U32(COLFLAG_GENERATED) != U32(0) {
var pX uintptr = Xsqlite3ColumnExpr(tls, p, (*Table)(unsafe.Pointer(p)).FaCol+uintptr(ii)*24)
if Xsqlite3ResolveSelfReference(tls, pParse, p, NC_GenCol, pX, uintptr(0)) != 0 {
Xsqlite3ColumnSetExpr(tls, pParse, p, (*Table)(unsafe.Pointer(p)).FaCol+uintptr(ii)*24,
Xsqlite3ExprAlloc(tls, db, TK_NULL, uintptr(0), 0))
}
} else {
nNG++
}
}
if nNG == 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+13362, 0)
return
}
}
estimateTableWidth(tls, p)
for pIdx = (*Table)(unsafe.Pointer(p)).FpIndex; pIdx != 0; pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext {
estimateIndexWidth(tls, pIdx)
}
if !(int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) != 0) {
var n int32
var v uintptr
var zType uintptr
var zType2 uintptr
var zStmt uintptr
v = Xsqlite3GetVdbe(tls, pParse)
if v == uintptr(0) {
return
}
Xsqlite3VdbeAddOp1(tls, v, OP_Close, 0)
if int32((*Table)(unsafe.Pointer(p)).FeTabType) == TABTYP_NORM {
zType = ts + 9279
zType2 = ts + 13406
} else {
zType = ts + 10894
zType2 = ts + 13412
}
if pSelect != 0 {
var regYield int32
var addrTop int32
var regRec int32
var regRowid int32
var addrInsLoop int32
var pSelTab uintptr
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) != PARSE_MODE_NORMAL {
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_ERROR
(*Parse)(unsafe.Pointer(pParse)).FnErr++
return
}
regYield = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
regRec = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
regRowid = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3MayAbort(tls, pParse)
Xsqlite3VdbeAddOp3(tls, v, OP_OpenWrite, 1, (*Parse)(unsafe.Pointer(pParse)).FregRoot, iDb)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_P2ISREG))
(*Parse)(unsafe.Pointer(pParse)).FnTab = 2
addrTop = Xsqlite3VdbeCurrentAddr(tls, v) + 1
Xsqlite3VdbeAddOp3(tls, v, OP_InitCoroutine, regYield, 0, addrTop)
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return
}
pSelTab = Xsqlite3ResultSetOfSelect(tls, pParse, pSelect, int8(SQLITE_AFF_BLOB))
if pSelTab == uintptr(0) {
return
}
(*Table)(unsafe.Pointer(p)).FnCol = libc.AssignPtrInt16(p+56, (*Table)(unsafe.Pointer(pSelTab)).FnCol)
(*Table)(unsafe.Pointer(p)).FaCol = (*Table)(unsafe.Pointer(pSelTab)).FaCol
(*Table)(unsafe.Pointer(pSelTab)).FnCol = int16(0)
(*Table)(unsafe.Pointer(pSelTab)).FaCol = uintptr(0)
Xsqlite3DeleteTable(tls, db, pSelTab)
Xsqlite3SelectDestInit(tls, bp+144, SRT_Coroutine, regYield)
Xsqlite3Select(tls, pParse, pSelect, bp+144)
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return
}
Xsqlite3VdbeEndCoroutine(tls, v, regYield)
Xsqlite3VdbeJumpHere(tls, v, addrTop-1)
addrInsLoop = Xsqlite3VdbeAddOp1(tls, v, OP_Yield, (*SelectDest)(unsafe.Pointer(bp+144)).FiSDParm)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, (*SelectDest)(unsafe.Pointer(bp+144)).FiSdst, (*SelectDest)(unsafe.Pointer(bp+144)).FnSdst, regRec)
Xsqlite3TableAffinity(tls, v, p, 0)
Xsqlite3VdbeAddOp2(tls, v, OP_NewRowid, 1, regRowid)
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, 1, regRec, regRowid)
Xsqlite3VdbeGoto(tls, v, addrInsLoop)
Xsqlite3VdbeJumpHere(tls, v, addrInsLoop)
Xsqlite3VdbeAddOp1(tls, v, OP_Close, 1)
}
if pSelect != 0 {
zStmt = createTableStmt(tls, db, p)
} else {
var pEnd2 uintptr
if tabOpts != 0 {
pEnd2 = pParse + 288
} else {
pEnd2 = pEnd
}
n = int32((int64((*Token)(unsafe.Pointer(pEnd2)).Fz) - int64((*Parse)(unsafe.Pointer(pParse)).FsNameToken.Fz)) / 1)
if int32(*(*int8)(unsafe.Pointer((*Token)(unsafe.Pointer(pEnd2)).Fz))) != ';' {
n = int32(uint32(n) + (*Token)(unsafe.Pointer(pEnd2)).Fn)
}
zStmt = Xsqlite3MPrintf(tls, db,
ts+13417, libc.VaList(bp+48, zType2, n, (*Parse)(unsafe.Pointer(pParse)).FsNameToken.Fz))
}
Xsqlite3NestedParse(tls, pParse,
ts+13432,
libc.VaList(bp+72, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName,
zType,
(*Table)(unsafe.Pointer(p)).FzName,
(*Table)(unsafe.Pointer(p)).FzName,
(*Parse)(unsafe.Pointer(pParse)).FregRoot,
zStmt,
(*Parse)(unsafe.Pointer(pParse)).FregRowid))
Xsqlite3DbFree(tls, db, zStmt)
Xsqlite3ChangeCookie(tls, pParse, iDb)
if (*Table)(unsafe.Pointer(p)).FtabFlags&U32(TF_Autoincrement) != U32(0) && !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) != PARSE_MODE_NORMAL) {
var pDb uintptr = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32
if (*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).FpSeqTab == uintptr(0) {
Xsqlite3NestedParse(tls, pParse,
ts+13530,
libc.VaList(bp+128, (*Db)(unsafe.Pointer(pDb)).FzDbSName))
}
}
Xsqlite3VdbeAddParseSchemaOp(tls, v, iDb,
Xsqlite3MPrintf(tls, db, ts+13572, libc.VaList(bp+136, (*Table)(unsafe.Pointer(p)).FzName)), uint16(0))
}
if (*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy != 0 {
var pOld uintptr
var pSchema uintptr = (*Table)(unsafe.Pointer(p)).FpSchema
pOld = Xsqlite3HashInsert(tls, pSchema+8, (*Table)(unsafe.Pointer(p)).FzName, p)
if pOld != 0 {
Xsqlite3OomFault(tls, db)
return
}
(*Parse)(unsafe.Pointer(pParse)).FpNewTable = uintptr(0)
*(*U32)(unsafe.Pointer(db + 44)) |= U32(DBFLAG_SchemaChange)
if libc.Xstrcmp(tls, (*Table)(unsafe.Pointer(p)).FzName, ts+9801) == 0 {
(*Schema)(unsafe.Pointer((*Table)(unsafe.Pointer(p)).FpSchema)).FpSeqTab = p
}
}
if !(pSelect != 0) && int32((*Table)(unsafe.Pointer(p)).FeTabType) == TABTYP_NORM {
if (*Token)(unsafe.Pointer(pCons)).Fz == uintptr(0) {
pCons = pEnd
}
*(*int32)(unsafe.Pointer(p + 64)) = 13 + int32((int64((*Token)(unsafe.Pointer(pCons)).Fz)-int64((*Parse)(unsafe.Pointer(pParse)).FsNameToken.Fz))/1)
}
}
// The parser calls this routine in order to create a new VIEW
func Xsqlite3CreateView(tls *libc.TLS, pParse uintptr, pBegin uintptr, pName1 uintptr, pName2 uintptr, pCNames uintptr, pSelect uintptr, isTemp int32, noErr int32) {
bp := tls.Alloc(120)
defer tls.Free(120)
var p uintptr
var n int32
var z uintptr
var iDb int32
var db uintptr
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if !(int32((*Parse)(unsafe.Pointer(pParse)).FnVar) > 0) {
goto __1
}
Xsqlite3ErrorMsg(tls, pParse, ts+13606, 0)
goto create_view_fail
__1:
;
Xsqlite3StartTable(tls, pParse, pName1, pName2, isTemp, 1, 0, noErr)
p = (*Parse)(unsafe.Pointer(pParse)).FpNewTable
if !(p == uintptr(0) || (*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __2
}
goto create_view_fail
__2:
;
*(*U32)(unsafe.Pointer(p + 48)) |= U32(TF_NoVisibleRowid)
Xsqlite3TwoPartName(tls, pParse, pName1, pName2, bp)
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(p)).FpSchema)
Xsqlite3FixInit(tls, bp+8, pParse, iDb, ts+10894, *(*uintptr)(unsafe.Pointer(bp)))
if !(Xsqlite3FixSelect(tls, bp+8, pSelect) != 0) {
goto __3
}
goto create_view_fail
__3:
;
*(*U32)(unsafe.Pointer(pSelect + 4)) |= U32(SF_View)
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __4
}
*(*uintptr)(unsafe.Pointer(p + 64)) = pSelect
pSelect = uintptr(0)
goto __5
__4:
*(*uintptr)(unsafe.Pointer(p + 64)) = Xsqlite3SelectDup(tls, db, pSelect, EXPRDUP_REDUCE)
__5:
;
(*Table)(unsafe.Pointer(p)).FpCheck = Xsqlite3ExprListDup(tls, db, pCNames, EXPRDUP_REDUCE)
(*Table)(unsafe.Pointer(p)).FeTabType = U8(TABTYP_VIEW)
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __6
}
goto create_view_fail
__6:
;
*(*Token)(unsafe.Pointer(bp + 104)) = (*Parse)(unsafe.Pointer(pParse)).FsLastToken
if !(int32(*(*int8)(unsafe.Pointer((*Token)(unsafe.Pointer(bp + 104)).Fz))) != ';') {
goto __7
}
*(*uintptr)(unsafe.Pointer(bp + 104)) += uintptr((*Token)(unsafe.Pointer(bp + 104)).Fn)
__7:
;
(*Token)(unsafe.Pointer(bp + 104)).Fn = uint32(0)
n = int32((int64((*Token)(unsafe.Pointer(bp+104)).Fz) - int64((*Token)(unsafe.Pointer(pBegin)).Fz)) / 1)
z = (*Token)(unsafe.Pointer(pBegin)).Fz
__8:
if !(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z + uintptr(n-1))))])&0x01 != 0) {
goto __9
}
n--
goto __8
__9:
;
(*Token)(unsafe.Pointer(bp + 104)).Fz = z + uintptr(n-1)
(*Token)(unsafe.Pointer(bp + 104)).Fn = uint32(1)
Xsqlite3EndTable(tls, pParse, uintptr(0), bp+104, uint32(0), uintptr(0))
create_view_fail:
Xsqlite3SelectDelete(tls, db, pSelect)
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __10
}
Xsqlite3RenameExprlistUnmap(tls, pParse, pCNames)
__10:
;
Xsqlite3ExprListDelete(tls, db, pCNames)
return
}
func viewGetColumnNames(tls *libc.TLS, pParse uintptr, pTable uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pSelTab uintptr
var pSel uintptr
var nErr int32 = 0
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var rc int32
var xAuth Sqlite3_xauth
if int32((*Table)(unsafe.Pointer(pTable)).FeTabType) == TABTYP_VTAB {
(*Sqlite3)(unsafe.Pointer(db)).FnSchemaLock++
rc = Xsqlite3VtabCallConnect(tls, pParse, pTable)
(*Sqlite3)(unsafe.Pointer(db)).FnSchemaLock--
return rc
}
if int32((*Table)(unsafe.Pointer(pTable)).FnCol) < 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+13642, libc.VaList(bp, (*Table)(unsafe.Pointer(pTable)).FzName))
return 1
}
pSel = Xsqlite3SelectDup(tls, db, *(*uintptr)(unsafe.Pointer(pTable + 64)), 0)
if pSel != 0 {
var eParseMode U8 = (*Parse)(unsafe.Pointer(pParse)).FeParseMode
var nTab int32 = (*Parse)(unsafe.Pointer(pParse)).FnTab
var nSelect int32 = (*Parse)(unsafe.Pointer(pParse)).FnSelect
(*Parse)(unsafe.Pointer(pParse)).FeParseMode = U8(PARSE_MODE_NORMAL)
Xsqlite3SrcListAssignCursors(tls, pParse, (*Select)(unsafe.Pointer(pSel)).FpSrc)
(*Table)(unsafe.Pointer(pTable)).FnCol = int16(-1)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable++
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz = U16(0)
xAuth = (*Sqlite3)(unsafe.Pointer(db)).FxAuth
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = uintptr(0)
pSelTab = Xsqlite3ResultSetOfSelect(tls, pParse, pSel, int8(SQLITE_AFF_NONE))
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = xAuth
(*Parse)(unsafe.Pointer(pParse)).FnTab = nTab
(*Parse)(unsafe.Pointer(pParse)).FnSelect = nSelect
if pSelTab == uintptr(0) {
(*Table)(unsafe.Pointer(pTable)).FnCol = int16(0)
nErr++
} else if (*Table)(unsafe.Pointer(pTable)).FpCheck != 0 {
Xsqlite3ColumnsFromExprList(tls, pParse, (*Table)(unsafe.Pointer(pTable)).FpCheck,
pTable+54, pTable+8)
if (*Parse)(unsafe.Pointer(pParse)).FnErr == 0 &&
int32((*Table)(unsafe.Pointer(pTable)).FnCol) == (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(pSel)).FpEList)).FnExpr {
Xsqlite3SubqueryColumnTypes(tls, pParse, pTable, pSel, int8(SQLITE_AFF_NONE))
}
} else {
(*Table)(unsafe.Pointer(pTable)).FnCol = (*Table)(unsafe.Pointer(pSelTab)).FnCol
(*Table)(unsafe.Pointer(pTable)).FaCol = (*Table)(unsafe.Pointer(pSelTab)).FaCol
*(*U32)(unsafe.Pointer(pTable + 48)) |= (*Table)(unsafe.Pointer(pSelTab)).FtabFlags & U32(COLFLAG_NOINSERT)
(*Table)(unsafe.Pointer(pSelTab)).FnCol = int16(0)
(*Table)(unsafe.Pointer(pSelTab)).FaCol = uintptr(0)
}
(*Table)(unsafe.Pointer(pTable)).FnNVCol = (*Table)(unsafe.Pointer(pTable)).FnCol
Xsqlite3DeleteTable(tls, db, pSelTab)
Xsqlite3SelectDelete(tls, db, pSel)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable--
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz = func() uint16 {
if (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable != 0 {
return uint16(0)
}
return (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FszTrue
}()
(*Parse)(unsafe.Pointer(pParse)).FeParseMode = eParseMode
} else {
nErr++
}
*(*U16)(unsafe.Pointer((*Table)(unsafe.Pointer(pTable)).FpSchema + 114)) |= U16(DB_UnresetViews)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
Xsqlite3DeleteColumnNames(tls, db, pTable)
}
return nErr
}
func Xsqlite3ViewGetColumnNames(tls *libc.TLS, pParse uintptr, pTable uintptr) int32 {
if !(int32((*Table)(unsafe.Pointer(pTable)).FeTabType) == TABTYP_VTAB) && int32((*Table)(unsafe.Pointer(pTable)).FnCol) > 0 {
return 0
}
return viewGetColumnNames(tls, pParse, pTable)
}
func sqliteViewResetAll(tls *libc.TLS, db uintptr, idx int32) {
var i uintptr
if !(int32((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(idx)*32)).FpSchema)).FschemaFlags)&DB_UnresetViews == DB_UnresetViews) {
return
}
for i = (*Hash)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(idx)*32)).FpSchema + 8)).Ffirst; i != 0; i = (*HashElem)(unsafe.Pointer(i)).Fnext {
var pTab uintptr = (*HashElem)(unsafe.Pointer(i)).Fdata
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW {
Xsqlite3DeleteColumnNames(tls, db, pTab)
}
}
*(*U16)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(idx)*32)).FpSchema + 114)) &= libc.Uint16FromInt32(libc.CplInt32(DB_UnresetViews))
}
// This function is called by the VDBE to adjust the internal schema
// used by SQLite when the btree layer moves a table root page. The
// root-page of a table or index in database iDb has changed from iFrom
// to iTo.
//
// Ticket #1728: The symbol table might still contain information
// on tables and/or indices that are the process of being deleted.
// If you are unlucky, one of those deleted indices or tables might
// have the same rootpage number as the real table or index that is
// being moved. So we cannot stop searching after the first match
// because the first match might be for one of the deleted indices
// or tables and not the table/index that is actually being moved.
// We must continue looping until all tables and indices with
// rootpage==iFrom have been converted to have a rootpage of iTo
// in order to be certain that we got the right one.
func Xsqlite3RootPageMoved(tls *libc.TLS, db uintptr, iDb int32, iFrom Pgno, iTo Pgno) {
var pElem uintptr
var pHash uintptr
var pDb uintptr
pDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32
pHash = (*Db)(unsafe.Pointer(pDb)).FpSchema + 8
for pElem = (*Hash)(unsafe.Pointer(pHash)).Ffirst; pElem != 0; pElem = (*HashElem)(unsafe.Pointer(pElem)).Fnext {
var pTab uintptr = (*HashElem)(unsafe.Pointer(pElem)).Fdata
if (*Table)(unsafe.Pointer(pTab)).Ftnum == iFrom {
(*Table)(unsafe.Pointer(pTab)).Ftnum = iTo
}
}
pHash = (*Db)(unsafe.Pointer(pDb)).FpSchema + 32
for pElem = (*Hash)(unsafe.Pointer(pHash)).Ffirst; pElem != 0; pElem = (*HashElem)(unsafe.Pointer(pElem)).Fnext {
var pIdx uintptr = (*HashElem)(unsafe.Pointer(pElem)).Fdata
if (*Index)(unsafe.Pointer(pIdx)).Ftnum == iFrom {
(*Index)(unsafe.Pointer(pIdx)).Ftnum = iTo
}
}
}
func destroyRootPage(tls *libc.TLS, pParse uintptr, iTable int32, iDb int32) {
bp := tls.Alloc(32)
defer tls.Free(32)
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
var r1 int32 = Xsqlite3GetTempReg(tls, pParse)
if iTable < 2 {
Xsqlite3ErrorMsg(tls, pParse, ts+13672, 0)
}
Xsqlite3VdbeAddOp3(tls, v, OP_Destroy, iTable, r1, iDb)
Xsqlite3MayAbort(tls, pParse)
Xsqlite3NestedParse(tls, pParse,
ts+13687,
libc.VaList(bp, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FaDb+uintptr(iDb)*32)).FzDbSName, iTable, r1, r1))
Xsqlite3ReleaseTempReg(tls, pParse, r1)
}
func destroyTable(tls *libc.TLS, pParse uintptr, pTab uintptr) {
var iTab Pgno = (*Table)(unsafe.Pointer(pTab)).Ftnum
var iDestroyed Pgno = Pgno(0)
for 1 != 0 {
var pIdx uintptr
var iLargest Pgno = Pgno(0)
if iDestroyed == Pgno(0) || iTab < iDestroyed {
iLargest = iTab
}
for pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex; pIdx != 0; pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext {
var iIdx Pgno = (*Index)(unsafe.Pointer(pIdx)).Ftnum
if (iDestroyed == Pgno(0) || iIdx < iDestroyed) && iIdx > iLargest {
iLargest = iIdx
}
}
if iLargest == Pgno(0) {
return
} else {
var iDb int32 = Xsqlite3SchemaToIndex(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Table)(unsafe.Pointer(pTab)).FpSchema)
destroyRootPage(tls, pParse, int32(iLargest), iDb)
iDestroyed = iLargest
}
}
}
func sqlite3ClearStatTables(tls *libc.TLS, pParse uintptr, iDb int32, zType uintptr, zName uintptr) {
bp := tls.Alloc(64)
defer tls.Free(64)
var i int32
var zDbName uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FaDb + uintptr(iDb)*32)).FzDbSName
for i = 1; i <= 4; i++ {
Xsqlite3_snprintf(tls, int32(unsafe.Sizeof([24]int8{})), bp+40, ts+13754, libc.VaList(bp, i))
if Xsqlite3FindTable(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, bp+40, zDbName) != 0 {
Xsqlite3NestedParse(tls, pParse,
ts+11703,
libc.VaList(bp+8, zDbName, bp+40, zType, zName))
}
}
}
// Generate code to drop a table.
func Xsqlite3CodeDropTable(tls *libc.TLS, pParse uintptr, pTab uintptr, iDb int32, isView int32) {
bp := tls.Alloc(32)
defer tls.Free(32)
var v uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pTrigger uintptr
var pDb uintptr = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32
v = Xsqlite3GetVdbe(tls, pParse)
Xsqlite3BeginWriteOperation(tls, pParse, 1, iDb)
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB {
Xsqlite3VdbeAddOp0(tls, v, OP_VBegin)
}
pTrigger = Xsqlite3TriggerList(tls, pParse, pTab)
for pTrigger != 0 {
Xsqlite3DropTriggerPtr(tls, pParse, pTrigger)
pTrigger = (*Trigger)(unsafe.Pointer(pTrigger)).FpNext
}
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_Autoincrement) != 0 {
Xsqlite3NestedParse(tls, pParse,
ts+13768,
libc.VaList(bp, (*Db)(unsafe.Pointer(pDb)).FzDbSName, (*Table)(unsafe.Pointer(pTab)).FzName))
}
Xsqlite3NestedParse(tls, pParse,
ts+13813,
libc.VaList(bp+16, (*Db)(unsafe.Pointer(pDb)).FzDbSName, (*Table)(unsafe.Pointer(pTab)).FzName))
if !(isView != 0) && !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
destroyTable(tls, pParse, pTab)
}
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB {
Xsqlite3VdbeAddOp4(tls, v, OP_VDestroy, iDb, 0, 0, (*Table)(unsafe.Pointer(pTab)).FzName, 0)
Xsqlite3MayAbort(tls, pParse)
}
Xsqlite3VdbeAddOp4(tls, v, OP_DropTable, iDb, 0, 0, (*Table)(unsafe.Pointer(pTab)).FzName, 0)
Xsqlite3ChangeCookie(tls, pParse, iDb)
sqliteViewResetAll(tls, db, iDb)
}
// Return TRUE if shadow tables should be read-only in the current
// context.
func Xsqlite3ReadOnlyShadowTables(tls *libc.TLS, db uintptr) int32 {
if (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_Defensive) != uint64(0) &&
(*Sqlite3)(unsafe.Pointer(db)).FpVtabCtx == uintptr(0) &&
(*Sqlite3)(unsafe.Pointer(db)).FnVdbeExec == 0 &&
!((*Sqlite3)(unsafe.Pointer(db)).FnVTrans > 0 && (*Sqlite3)(unsafe.Pointer(db)).FaVTrans == uintptr(0)) {
return 1
}
return 0
}
func tableMayNotBeDropped(tls *libc.TLS, db uintptr, pTab uintptr) int32 {
if Xsqlite3_strnicmp(tls, (*Table)(unsafe.Pointer(pTab)).FzName, ts+6784, 7) == 0 {
if Xsqlite3_strnicmp(tls, (*Table)(unsafe.Pointer(pTab)).FzName+uintptr(7), ts+3279, 4) == 0 {
return 0
}
if Xsqlite3_strnicmp(tls, (*Table)(unsafe.Pointer(pTab)).FzName+uintptr(7), ts+7536, 10) == 0 {
return 0
}
return 1
}
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_Shadow) != U32(0) && Xsqlite3ReadOnlyShadowTables(tls, db) != 0 {
return 1
}
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_Eponymous) != 0 {
return 1
}
return 0
}
// This routine is called to do the work of a DROP TABLE statement.
// pName is the name of the table to be dropped.
func Xsqlite3DropTable(tls *libc.TLS, pParse uintptr, pName uintptr, isView int32, noErr int32) {
bp := tls.Alloc(24)
defer tls.Free(24)
var pTab uintptr
var v uintptr
var db uintptr
var iDb int32
var code int32
var zTab uintptr
var zDb uintptr
var zArg2 uintptr
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __1
}
goto exit_drop_table
__1:
;
if !(Xsqlite3ReadSchema(tls, pParse) != 0) {
goto __2
}
goto exit_drop_table
__2:
;
if !(noErr != 0) {
goto __3
}
(*Sqlite3)(unsafe.Pointer(db)).FsuppressErr++
__3:
;
pTab = Xsqlite3LocateTableItem(tls, pParse, uint32(isView), pName+8)
if !(noErr != 0) {
goto __4
}
(*Sqlite3)(unsafe.Pointer(db)).FsuppressErr--
__4:
;
if !(pTab == uintptr(0)) {
goto __5
}
if !(noErr != 0) {
goto __6
}
Xsqlite3CodeVerifyNamedSchema(tls, pParse, (*SrcItem)(unsafe.Pointer(pName+8)).FzDatabase)
sqlite3ForceNotReadOnly(tls, pParse)
__6:
;
goto exit_drop_table
__5:
;
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB && Xsqlite3ViewGetColumnNames(tls, pParse, pTab) != 0) {
goto __7
}
goto exit_drop_table
__7:
;
zTab = func() uintptr {
if !(0 != 0) && iDb == 1 {
return ts + 6792
}
return ts + 6286
}()
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
zArg2 = uintptr(0)
if !(Xsqlite3AuthCheck(tls, pParse, SQLITE_DELETE, zTab, uintptr(0), zDb) != 0) {
goto __8
}
goto exit_drop_table
__8:
;
if !(isView != 0) {
goto __9
}
if !(!(0 != 0) && iDb == 1) {
goto __11
}
code = SQLITE_DROP_TEMP_VIEW
goto __12
__11:
code = SQLITE_DROP_VIEW
__12:
;
goto __10
__9:
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __13
}
code = SQLITE_DROP_VTABLE
zArg2 = (*Module)(unsafe.Pointer((*VTable)(unsafe.Pointer(Xsqlite3GetVTable(tls, db, pTab))).FpMod)).FzName
goto __14
__13:
if !(!(0 != 0) && iDb == 1) {
goto __15
}
code = SQLITE_DROP_TEMP_TABLE
goto __16
__15:
code = SQLITE_DROP_TABLE
__16:
;
__14:
;
__10:
;
if !(Xsqlite3AuthCheck(tls, pParse, code, (*Table)(unsafe.Pointer(pTab)).FzName, zArg2, zDb) != 0) {
goto __17
}
goto exit_drop_table
__17:
;
if !(Xsqlite3AuthCheck(tls, pParse, SQLITE_DELETE, (*Table)(unsafe.Pointer(pTab)).FzName, uintptr(0), zDb) != 0) {
goto __18
}
goto exit_drop_table
__18:
;
if !(tableMayNotBeDropped(tls, db, pTab) != 0) {
goto __19
}
Xsqlite3ErrorMsg(tls, pParse, ts+13880, libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName))
goto exit_drop_table
__19:
;
if !(isView != 0 && !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW)) {
goto __20
}
Xsqlite3ErrorMsg(tls, pParse, ts+13908, libc.VaList(bp+8, (*Table)(unsafe.Pointer(pTab)).FzName))
goto exit_drop_table
__20:
;
if !(!(isView != 0) && int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW) {
goto __21
}
Xsqlite3ErrorMsg(tls, pParse, ts+13942, libc.VaList(bp+16, (*Table)(unsafe.Pointer(pTab)).FzName))
goto exit_drop_table
__21:
;
v = Xsqlite3GetVdbe(tls, pParse)
if !(v != 0) {
goto __22
}
Xsqlite3BeginWriteOperation(tls, pParse, 1, iDb)
if !!(isView != 0) {
goto __23
}
sqlite3ClearStatTables(tls, pParse, iDb, ts+11895, (*Table)(unsafe.Pointer(pTab)).FzName)
Xsqlite3FkDropTable(tls, pParse, pName, pTab)
__23:
;
Xsqlite3CodeDropTable(tls, pParse, pTab, iDb, isView)
__22:
;
exit_drop_table:
Xsqlite3SrcListDelete(tls, db, pName)
}
// This routine is called to create a new foreign key on the table
// currently under construction. pFromCol determines which columns
// in the current table point to the foreign key. If pFromCol==0 then
// connect the key to the last column inserted. pTo is the name of
// the table referred to (a.k.a the "parent" table). pToCol is a list
// of tables in the parent pTo table. flags contains all
// information about the conflict resolution algorithms specified
// in the ON DELETE, ON UPDATE and ON INSERT clauses.
//
// An FKey structure is created and added to the table currently
// under construction in the pParse->pNewTable field.
//
// The foreign key is set for IMMEDIATE processing. A subsequent call
// to sqlite3DeferForeignKey() might change this to DEFERRED.
func Xsqlite3CreateForeignKey(tls *libc.TLS, pParse uintptr, pFromCol uintptr, pTo uintptr, pToCol uintptr, flags int32) {
bp := tls.Alloc(24)
defer tls.Free(24)
var db uintptr
var pFKey uintptr
var pNextTo uintptr
var p uintptr
var nByte I64
var i int32
var nCol int32
var z uintptr
var iCol int32
var j int32
var n int32
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
pFKey = uintptr(0)
p = (*Parse)(unsafe.Pointer(pParse)).FpNewTable
if !(p == uintptr(0) || int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) == PARSE_MODE_DECLARE_VTAB) {
goto __1
}
goto fk_end
__1:
;
if !(pFromCol == uintptr(0)) {
goto __2
}
iCol = int32((*Table)(unsafe.Pointer(p)).FnCol) - 1
if !(iCol < 0) {
goto __4
}
goto fk_end
__4:
;
if !(pToCol != 0 && (*ExprList)(unsafe.Pointer(pToCol)).FnExpr != 1) {
goto __5
}
Xsqlite3ErrorMsg(tls, pParse,
ts+13974,
libc.VaList(bp, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(p)).FaCol+uintptr(iCol)*24)).FzCnName, pTo))
goto fk_end
__5:
;
nCol = 1
goto __3
__2:
if !(pToCol != 0 && (*ExprList)(unsafe.Pointer(pToCol)).FnExpr != (*ExprList)(unsafe.Pointer(pFromCol)).FnExpr) {
goto __6
}
Xsqlite3ErrorMsg(tls, pParse,
ts+14037, 0)
goto fk_end
goto __7
__6:
nCol = (*ExprList)(unsafe.Pointer(pFromCol)).FnExpr
__7:
;
__3:
;
nByte = I64(uint64(unsafe.Sizeof(FKey{})) + uint64(nCol-1)*uint64(unsafe.Sizeof(sColMap{})) + uint64((*Token)(unsafe.Pointer(pTo)).Fn) + uint64(1))
if !(pToCol != 0) {
goto __8
}
i = 0
__9:
if !(i < (*ExprList)(unsafe.Pointer(pToCol)).FnExpr) {
goto __11
}
nByte = nByte + I64(Xsqlite3Strlen30(tls, (*ExprList_item)(unsafe.Pointer(pToCol+8+uintptr(i)*32)).FzEName)+1)
goto __10
__10:
i++
goto __9
goto __11
__11:
;
__8:
;
pFKey = Xsqlite3DbMallocZero(tls, db, uint64(nByte))
if !(pFKey == uintptr(0)) {
goto __12
}
goto fk_end
__12:
;
(*FKey)(unsafe.Pointer(pFKey)).FpFrom = p
(*FKey)(unsafe.Pointer(pFKey)).FpNextFrom = *(*uintptr)(unsafe.Pointer(p + 64 + 8))
z = pFKey + 64 + uintptr(nCol)*16
(*FKey)(unsafe.Pointer(pFKey)).FzTo = z
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __13
}
Xsqlite3RenameTokenMap(tls, pParse, z, pTo)
__13:
;
libc.X__builtin___memcpy_chk(tls, z, (*Token)(unsafe.Pointer(pTo)).Fz, uint64((*Token)(unsafe.Pointer(pTo)).Fn), libc.X__builtin_object_size(tls, z, 0))
*(*int8)(unsafe.Pointer(z + uintptr((*Token)(unsafe.Pointer(pTo)).Fn))) = int8(0)
Xsqlite3Dequote(tls, z)
z += uintptr((*Token)(unsafe.Pointer(pTo)).Fn + uint32(1))
(*FKey)(unsafe.Pointer(pFKey)).FnCol = nCol
if !(pFromCol == uintptr(0)) {
goto __14
}
(*sColMap)(unsafe.Pointer(pFKey + 64)).FiFrom = int32((*Table)(unsafe.Pointer(p)).FnCol) - 1
goto __15
__14:
i = 0
__16:
if !(i < nCol) {
goto __18
}
j = 0
__19:
if !(j < int32((*Table)(unsafe.Pointer(p)).FnCol)) {
goto __21
}
if !(Xsqlite3StrICmp(tls, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(p)).FaCol+uintptr(j)*24)).FzCnName, (*ExprList_item)(unsafe.Pointer(pFromCol+8+uintptr(i)*32)).FzEName) == 0) {
goto __22
}
(*sColMap)(unsafe.Pointer(pFKey + 64 + uintptr(i)*16)).FiFrom = j
goto __21
__22:
;
goto __20
__20:
j++
goto __19
goto __21
__21:
;
if !(j >= int32((*Table)(unsafe.Pointer(p)).FnCol)) {
goto __23
}
Xsqlite3ErrorMsg(tls, pParse,
ts+14131,
libc.VaList(bp+16, (*ExprList_item)(unsafe.Pointer(pFromCol+8+uintptr(i)*32)).FzEName))
goto fk_end
__23:
;
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __24
}
Xsqlite3RenameTokenRemap(tls, pParse, pFKey+64+uintptr(i)*16, (*ExprList_item)(unsafe.Pointer(pFromCol+8+uintptr(i)*32)).FzEName)
__24:
;
goto __17
__17:
i++
goto __16
goto __18
__18:
;
__15:
;
if !(pToCol != 0) {
goto __25
}
i = 0
__26:
if !(i < nCol) {
goto __28
}
n = Xsqlite3Strlen30(tls, (*ExprList_item)(unsafe.Pointer(pToCol+8+uintptr(i)*32)).FzEName)
(*sColMap)(unsafe.Pointer(pFKey + 64 + uintptr(i)*16)).FzCol = z
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __29
}
Xsqlite3RenameTokenRemap(tls, pParse, z, (*ExprList_item)(unsafe.Pointer(pToCol+8+uintptr(i)*32)).FzEName)
__29:
;
libc.X__builtin___memcpy_chk(tls, z, (*ExprList_item)(unsafe.Pointer(pToCol+8+uintptr(i)*32)).FzEName, uint64(n), libc.X__builtin_object_size(tls, z, 0))
*(*int8)(unsafe.Pointer(z + uintptr(n))) = int8(0)
z += uintptr(n + 1)
goto __27
__27:
i++
goto __26
goto __28
__28:
;
__25:
;
(*FKey)(unsafe.Pointer(pFKey)).FisDeferred = U8(0)
*(*U8)(unsafe.Pointer(pFKey + 45)) = U8(flags & 0xff)
*(*U8)(unsafe.Pointer(pFKey + 45 + 1)) = U8(flags >> 8 & 0xff)
pNextTo = Xsqlite3HashInsert(tls, (*Table)(unsafe.Pointer(p)).FpSchema+80,
(*FKey)(unsafe.Pointer(pFKey)).FzTo, pFKey)
if !(pNextTo == pFKey) {
goto __30
}
Xsqlite3OomFault(tls, db)
goto fk_end
__30:
;
if !(pNextTo != 0) {
goto __31
}
(*FKey)(unsafe.Pointer(pFKey)).FpNextTo = pNextTo
(*FKey)(unsafe.Pointer(pNextTo)).FpPrevTo = pFKey
__31:
;
*(*uintptr)(unsafe.Pointer(p + 64 + 8)) = pFKey
pFKey = uintptr(0)
fk_end:
Xsqlite3DbFree(tls, db, pFKey)
Xsqlite3ExprListDelete(tls, db, pFromCol)
Xsqlite3ExprListDelete(tls, db, pToCol)
}
// This routine is called when an INITIALLY IMMEDIATE or INITIALLY DEFERRED
// clause is seen as part of a foreign key definition. The isDeferred
// parameter is 1 for INITIALLY DEFERRED and 0 for INITIALLY IMMEDIATE.
// The behavior of the most recently created foreign key is adjusted
// accordingly.
func Xsqlite3DeferForeignKey(tls *libc.TLS, pParse uintptr, isDeferred int32) {
var pTab uintptr
var pFKey uintptr
if libc.AssignUintptr(&pTab, (*Parse)(unsafe.Pointer(pParse)).FpNewTable) == uintptr(0) {
return
}
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_NORM) {
return
}
if libc.AssignUintptr(&pFKey, *(*uintptr)(unsafe.Pointer(pTab + 64 + 8))) == uintptr(0) {
return
}
(*FKey)(unsafe.Pointer(pFKey)).FisDeferred = U8(isDeferred)
}
func sqlite3RefillIndex(tls *libc.TLS, pParse uintptr, pIndex uintptr, memRootPage int32) {
bp := tls.Alloc(4)
defer tls.Free(4)
var pTab uintptr = (*Index)(unsafe.Pointer(pIndex)).FpTable
var iTab int32 = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
var iIdx int32 = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
var iSorter int32
var addr1 int32
var addr2 int32
var tnum Pgno
var v uintptr
var pKey uintptr
var regRecord int32
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var iDb int32 = Xsqlite3SchemaToIndex(tls, db, (*Index)(unsafe.Pointer(pIndex)).FpSchema)
if Xsqlite3AuthCheck(tls, pParse, SQLITE_REINDEX, (*Index)(unsafe.Pointer(pIndex)).FzName, uintptr(0),
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName) != 0 {
return
}
Xsqlite3TableLock(tls, pParse, iDb, (*Table)(unsafe.Pointer(pTab)).Ftnum, uint8(1), (*Table)(unsafe.Pointer(pTab)).FzName)
v = Xsqlite3GetVdbe(tls, pParse)
if v == uintptr(0) {
return
}
if memRootPage >= 0 {
tnum = Pgno(memRootPage)
} else {
tnum = (*Index)(unsafe.Pointer(pIndex)).Ftnum
}
pKey = Xsqlite3KeyInfoOfIndex(tls, pParse, pIndex)
iSorter = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
Xsqlite3VdbeAddOp4(tls, v, OP_SorterOpen, iSorter, 0, int32((*Index)(unsafe.Pointer(pIndex)).FnKeyCol), Xsqlite3KeyInfoRef(tls, pKey), -8)
Xsqlite3OpenTable(tls, pParse, iTab, iDb, pTab, OP_OpenRead)
addr1 = Xsqlite3VdbeAddOp2(tls, v, OP_Rewind, iTab, 0)
regRecord = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3MultiWrite(tls, pParse)
Xsqlite3GenerateIndexKey(tls, pParse, pIndex, iTab, regRecord, 0, bp, uintptr(0), 0)
Xsqlite3VdbeAddOp2(tls, v, OP_SorterInsert, iSorter, regRecord)
Xsqlite3ResolvePartIdxLabel(tls, pParse, *(*int32)(unsafe.Pointer(bp)))
Xsqlite3VdbeAddOp2(tls, v, OP_Next, iTab, addr1+1)
Xsqlite3VdbeJumpHere(tls, v, addr1)
if memRootPage < 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_Clear, int32(tnum), iDb)
}
Xsqlite3VdbeAddOp4(tls, v, OP_OpenWrite, iIdx, int32(tnum), iDb,
pKey, -8)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_BULKCSR|func() int32 {
if memRootPage >= 0 {
return OPFLAG_P2ISREG
}
return 0
}()))
addr1 = Xsqlite3VdbeAddOp2(tls, v, OP_SorterSort, iSorter, 0)
if int32((*Index)(unsafe.Pointer(pIndex)).FonError) != OE_None {
var j2 int32 = Xsqlite3VdbeGoto(tls, v, 1)
addr2 = Xsqlite3VdbeCurrentAddr(tls, v)
Xsqlite3VdbeAddOp4Int(tls, v, OP_SorterCompare, iSorter, j2, regRecord,
int32((*Index)(unsafe.Pointer(pIndex)).FnKeyCol))
Xsqlite3UniqueConstraint(tls, pParse, OE_Abort, pIndex)
Xsqlite3VdbeJumpHere(tls, v, j2)
} else {
Xsqlite3MayAbort(tls, pParse)
addr2 = Xsqlite3VdbeCurrentAddr(tls, v)
}
Xsqlite3VdbeAddOp3(tls, v, OP_SorterData, iSorter, regRecord, iIdx)
if !(int32(*(*uint16)(unsafe.Pointer(pIndex + 100))&0x200>>9) != 0) {
Xsqlite3VdbeAddOp1(tls, v, OP_SeekEnd, iIdx)
}
Xsqlite3VdbeAddOp2(tls, v, OP_IdxInsert, iIdx, regRecord)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_USESEEKRESULT))
Xsqlite3ReleaseTempReg(tls, pParse, regRecord)
Xsqlite3VdbeAddOp2(tls, v, OP_SorterNext, iSorter, addr2)
Xsqlite3VdbeJumpHere(tls, v, addr1)
Xsqlite3VdbeAddOp1(tls, v, OP_Close, iTab)
Xsqlite3VdbeAddOp1(tls, v, OP_Close, iIdx)
Xsqlite3VdbeAddOp1(tls, v, OP_Close, iSorter)
}
// Allocate heap space to hold an Index object with nCol columns.
//
// Increase the allocation size to provide an extra nExtra bytes
// of 8-byte aligned space after the Index object and return a
// pointer to this extra space in *ppExtra.
func Xsqlite3AllocateIndexObject(tls *libc.TLS, db uintptr, nCol I16, nExtra int32, ppExtra uintptr) uintptr {
var p uintptr
var nByte int32
nByte = int32((uint64(unsafe.Sizeof(Index{}))+uint64(7))&libc.Uint64FromInt32(libc.CplInt32(7)) + (uint64(unsafe.Sizeof(uintptr(0)))*uint64(nCol)+uint64(7))&libc.Uint64FromInt32(libc.CplInt32(7)) + (uint64(unsafe.Sizeof(LogEst(0)))*uint64(int32(nCol)+1)+uint64(unsafe.Sizeof(I16(0)))*uint64(nCol)+uint64(unsafe.Sizeof(U8(0)))*uint64(nCol)+uint64(7))&libc.Uint64FromInt32(libc.CplInt32(7)))
p = Xsqlite3DbMallocZero(tls, db, uint64(nByte+nExtra))
if p != 0 {
var pExtra uintptr = p + uintptr((uint64(unsafe.Sizeof(Index{}))+uint64(7))&libc.Uint64FromInt32(libc.CplInt32(7)))
(*Index)(unsafe.Pointer(p)).FazColl = pExtra
pExtra += uintptr((uint64(unsafe.Sizeof(uintptr(0)))*uint64(nCol) + uint64(7)) & libc.Uint64FromInt32(libc.CplInt32(7)))
(*Index)(unsafe.Pointer(p)).FaiRowLogEst = pExtra
pExtra += uintptr(uint64(unsafe.Sizeof(LogEst(0))) * uint64(int32(nCol)+1))
(*Index)(unsafe.Pointer(p)).FaiColumn = pExtra
pExtra += uintptr(uint64(unsafe.Sizeof(I16(0))) * uint64(nCol))
(*Index)(unsafe.Pointer(p)).FaSortOrder = pExtra
(*Index)(unsafe.Pointer(p)).FnColumn = U16(nCol)
(*Index)(unsafe.Pointer(p)).FnKeyCol = U16(int32(nCol) - 1)
*(*uintptr)(unsafe.Pointer(ppExtra)) = p + uintptr(nByte)
}
return p
}
// If expression list pList contains an expression that was parsed with
// an explicit "NULLS FIRST" or "NULLS LAST" clause, leave an error in
// pParse and return non-zero. Otherwise, return zero.
func Xsqlite3HasExplicitNulls(tls *libc.TLS, pParse uintptr, pList uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
if pList != 0 {
var i int32
for i = 0; i < (*ExprList)(unsafe.Pointer(pList)).FnExpr; i++ {
if uint32(int32(*(*uint16)(unsafe.Pointer(pList + 8 + uintptr(i)*32 + 16 + 4))&0x20>>5)) != 0 {
var sf U8 = (*ExprList_item)(unsafe.Pointer(pList + 8 + uintptr(i)*32)).Ffg.FsortFlags
Xsqlite3ErrorMsg(tls, pParse, ts+14177,
libc.VaList(bp, func() uintptr {
if int32(sf) == 0 || int32(sf) == 3 {
return ts + 14205
}
return ts + 14211
}()))
return 1
}
}
}
return 0
}
// Create a new index for an SQL table. pName1.pName2 is the name of the index
// and pTblList is the name of the table that is to be indexed. Both will
// be NULL for a primary key or an index that is created to satisfy a
// UNIQUE constraint. If pTable and pIndex are NULL, use pParse->pNewTable
// as the table to be indexed. pParse->pNewTable is a table that is
// currently being constructed by a CREATE TABLE statement.
//
// pList is a list of columns to be indexed. pList will be NULL if this
// is a primary key or unique-constraint on the most recent column added
// to the table currently under construction.
func Xsqlite3CreateIndex(tls *libc.TLS, pParse uintptr, pName1 uintptr, pName2 uintptr, pTblName uintptr, pList uintptr, onError int32, pStart uintptr, pPIWhere uintptr, sortOrder int32, ifNotExist int32, idxType U8) {
bp := tls.Alloc(256)
defer tls.Free(256)
var pTab uintptr
var pIndex uintptr
var zName uintptr
var nName int32
var i int32
var j int32
var sortOrderMask int32
var db uintptr
var pDb uintptr
var iDb int32
var pListItem uintptr
var nExtra int32
var nExtraCol int32
var pPk uintptr
var n int32
var pLoop uintptr
var zDb uintptr
var pCol uintptr
var pExpr uintptr
var nColl int32
var pCExpr uintptr
var requestedSortOrder int32
var zColl uintptr
var x int32
var z1 uintptr
var z2 uintptr
var k int32
var pIdx uintptr
var p uintptr
var n1 int32
var v uintptr
var zStmt uintptr
var iMem int32
var pNext uintptr
var ppFrom uintptr
var pThis uintptr
pTab = uintptr(0)
pIndex = uintptr(0)
zName = uintptr(0)
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
*(*uintptr)(unsafe.Pointer(bp + 128)) = uintptr(0)
nExtra = 0
*(*uintptr)(unsafe.Pointer(bp + 248)) = uintptr(0)
pPk = uintptr(0)
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __1
}
goto exit_create_index
__1:
;
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) == PARSE_MODE_DECLARE_VTAB && int32(idxType) != SQLITE_IDXTYPE_PRIMARYKEY) {
goto __2
}
goto exit_create_index
__2:
;
if !(SQLITE_OK != Xsqlite3ReadSchema(tls, pParse)) {
goto __3
}
goto exit_create_index
__3:
;
if !(Xsqlite3HasExplicitNulls(tls, pParse, pList) != 0) {
goto __4
}
goto exit_create_index
__4:
;
if !(pTblName != uintptr(0)) {
goto __5
}
iDb = Xsqlite3TwoPartName(tls, pParse, pName1, pName2, bp+128)
if !(iDb < 0) {
goto __7
}
goto exit_create_index
__7:
;
if !!(int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) != 0) {
goto __8
}
pTab = Xsqlite3SrcListLookup(tls, pParse, pTblName)
if !((*Token)(unsafe.Pointer(pName2)).Fn == uint32(0) && pTab != 0 && (*Table)(unsafe.Pointer(pTab)).FpSchema == (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema) {
goto __9
}
iDb = 1
__9:
;
__8:
;
Xsqlite3FixInit(tls, bp+136, pParse, iDb, ts+14216, *(*uintptr)(unsafe.Pointer(bp + 128)))
if !(Xsqlite3FixSrcList(tls, bp+136, pTblName) != 0) {
goto __10
}
__10:
;
pTab = Xsqlite3LocateTableItem(tls, pParse, uint32(0), pTblName+8)
if !(pTab == uintptr(0)) {
goto __11
}
goto exit_create_index
__11:
;
if !(iDb == 1 && (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpSchema != (*Table)(unsafe.Pointer(pTab)).FpSchema) {
goto __12
}
Xsqlite3ErrorMsg(tls, pParse,
ts+14222,
libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName))
goto exit_create_index
__12:
;
if !!((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __13
}
pPk = Xsqlite3PrimaryKeyIndex(tls, pTab)
__13:
;
goto __6
__5:
;
pTab = (*Parse)(unsafe.Pointer(pParse)).FpNewTable
if !!(pTab != 0) {
goto __14
}
goto exit_create_index
__14:
;
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
__6:
;
pDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32
if !(Xsqlite3_strnicmp(tls, (*Table)(unsafe.Pointer(pTab)).FzName, ts+6784, 7) == 0 &&
int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) == 0 &&
pTblName != uintptr(0)) {
goto __15
}
Xsqlite3ErrorMsg(tls, pParse, ts+14272, libc.VaList(bp+8, (*Table)(unsafe.Pointer(pTab)).FzName))
goto exit_create_index
__15:
;
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW) {
goto __16
}
Xsqlite3ErrorMsg(tls, pParse, ts+14300, 0)
goto exit_create_index
__16:
;
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __17
}
Xsqlite3ErrorMsg(tls, pParse, ts+14325, 0)
goto exit_create_index
__17:
;
if !(*(*uintptr)(unsafe.Pointer(bp + 128)) != 0) {
goto __18
}
zName = Xsqlite3NameFromToken(tls, db, *(*uintptr)(unsafe.Pointer(bp + 128)))
if !(zName == uintptr(0)) {
goto __20
}
goto exit_create_index
__20:
;
if !(SQLITE_OK != Xsqlite3CheckObjectName(tls, pParse, zName, ts+14216, (*Table)(unsafe.Pointer(pTab)).FzName)) {
goto __21
}
goto exit_create_index
__21:
;
if !!(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __22
}
if !!(int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) != 0) {
goto __23
}
if !(Xsqlite3FindTable(tls, db, zName, (*Db)(unsafe.Pointer(pDb)).FzDbSName) != uintptr(0)) {
goto __24
}
Xsqlite3ErrorMsg(tls, pParse, ts+14359, libc.VaList(bp+16, zName))
goto exit_create_index
__24:
;
__23:
;
if !(Xsqlite3FindIndex(tls, db, zName, (*Db)(unsafe.Pointer(pDb)).FzDbSName) != uintptr(0)) {
goto __25
}
if !!(ifNotExist != 0) {
goto __26
}
Xsqlite3ErrorMsg(tls, pParse, ts+14393, libc.VaList(bp+24, zName))
goto __27
__26:
;
Xsqlite3CodeVerifySchema(tls, pParse, iDb)
sqlite3ForceNotReadOnly(tls, pParse)
__27:
;
goto exit_create_index
__25:
;
__22:
;
goto __19
__18:
pLoop = (*Table)(unsafe.Pointer(pTab)).FpIndex
n = 1
__28:
if !(pLoop != 0) {
goto __30
}
goto __29
__29:
pLoop = (*Index)(unsafe.Pointer(pLoop)).FpNext
n++
goto __28
goto __30
__30:
;
zName = Xsqlite3MPrintf(tls, db, ts+14417, libc.VaList(bp+32, (*Table)(unsafe.Pointer(pTab)).FzName, n))
if !(zName == uintptr(0)) {
goto __31
}
goto exit_create_index
__31:
;
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) != PARSE_MODE_NORMAL) {
goto __32
}
*(*int8)(unsafe.Pointer(zName + 7))++
__32:
;
__19:
;
if !!(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __33
}
zDb = (*Db)(unsafe.Pointer(pDb)).FzDbSName
if !(Xsqlite3AuthCheck(tls, pParse, SQLITE_INSERT, func() uintptr {
if !(0 != 0) && iDb == 1 {
return ts + 6792
}
return ts + 6286
}(), uintptr(0), zDb) != 0) {
goto __34
}
goto exit_create_index
__34:
;
i = SQLITE_CREATE_INDEX
if !(!(0 != 0) && iDb == 1) {
goto __35
}
i = SQLITE_CREATE_TEMP_INDEX
__35:
;
if !(Xsqlite3AuthCheck(tls, pParse, i, zName, (*Table)(unsafe.Pointer(pTab)).FzName, zDb) != 0) {
goto __36
}
goto exit_create_index
__36:
;
__33:
;
if !(pList == uintptr(0)) {
goto __37
}
pCol = (*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(int32((*Table)(unsafe.Pointer(pTab)).FnCol)-1)*24
*(*U16)(unsafe.Pointer(pCol + 16)) |= U16(COLFLAG_UNIQUE)
Xsqlite3TokenInit(tls, bp+232, (*Column)(unsafe.Pointer(pCol)).FzCnName)
pList = Xsqlite3ExprListAppend(tls, pParse, uintptr(0),
Xsqlite3ExprAlloc(tls, db, TK_ID, bp+232, 0))
if !(pList == uintptr(0)) {
goto __39
}
goto exit_create_index
__39:
;
Xsqlite3ExprListSetSortOrder(tls, pList, sortOrder, -1)
goto __38
__37:
Xsqlite3ExprListCheckLength(tls, pParse, pList, ts+14216)
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __40
}
goto exit_create_index
__40:
;
__38:
;
i = 0
__41:
if !(i < (*ExprList)(unsafe.Pointer(pList)).FnExpr) {
goto __43
}
pExpr = (*ExprList_item)(unsafe.Pointer(pList + 8 + uintptr(i)*32)).FpExpr
if !(int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLLATE) {
goto __44
}
nExtra = nExtra + (1 + Xsqlite3Strlen30(tls, *(*uintptr)(unsafe.Pointer(pExpr + 8))))
__44:
;
goto __42
__42:
i++
goto __41
goto __43
__43:
;
nName = Xsqlite3Strlen30(tls, zName)
if pPk != 0 {
nExtraCol = int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol)
} else {
nExtraCol = 1
}
pIndex = Xsqlite3AllocateIndexObject(tls, db, int16((*ExprList)(unsafe.Pointer(pList)).FnExpr+nExtraCol),
nName+nExtra+1, bp+248)
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __45
}
goto exit_create_index
__45:
;
(*Index)(unsafe.Pointer(pIndex)).FzName = *(*uintptr)(unsafe.Pointer(bp + 248))
*(*uintptr)(unsafe.Pointer(bp + 248)) += uintptr(nName + 1)
libc.X__builtin___memcpy_chk(tls, (*Index)(unsafe.Pointer(pIndex)).FzName, zName, uint64(nName+1), libc.X__builtin_object_size(tls, (*Index)(unsafe.Pointer(pIndex)).FzName, 0))
(*Index)(unsafe.Pointer(pIndex)).FpTable = pTab
(*Index)(unsafe.Pointer(pIndex)).FonError = U8(onError)
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(libc.Bool32(onError != OE_None)), 3, 0x8)
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(idxType), 0, 0x3)
(*Index)(unsafe.Pointer(pIndex)).FpSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpSchema
(*Index)(unsafe.Pointer(pIndex)).FnKeyCol = U16((*ExprList)(unsafe.Pointer(pList)).FnExpr)
if !(pPIWhere != 0) {
goto __46
}
Xsqlite3ResolveSelfReference(tls, pParse, pTab, NC_PartIdx, pPIWhere, uintptr(0))
(*Index)(unsafe.Pointer(pIndex)).FpPartIdxWhere = pPIWhere
pPIWhere = uintptr(0)
__46:
;
if !(int32((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Ffile_format) >= 4) {
goto __47
}
sortOrderMask = -1
goto __48
__47:
sortOrderMask = 0
__48:
;
pListItem = pList + 8
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __49
}
(*Index)(unsafe.Pointer(pIndex)).FaColExpr = pList
pList = uintptr(0)
__49:
;
i = 0
__50:
if !(i < int32((*Index)(unsafe.Pointer(pIndex)).FnKeyCol)) {
goto __52
}
sqlite3StringToId(tls, (*ExprList_item)(unsafe.Pointer(pListItem)).FpExpr)
Xsqlite3ResolveSelfReference(tls, pParse, pTab, NC_IdxExpr, (*ExprList_item)(unsafe.Pointer(pListItem)).FpExpr, uintptr(0))
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __53
}
goto exit_create_index
__53:
;
pCExpr = Xsqlite3ExprSkipCollate(tls, (*ExprList_item)(unsafe.Pointer(pListItem)).FpExpr)
if !(int32((*Expr)(unsafe.Pointer(pCExpr)).Fop) != TK_COLUMN) {
goto __54
}
if !(pTab == (*Parse)(unsafe.Pointer(pParse)).FpNewTable) {
goto __56
}
Xsqlite3ErrorMsg(tls, pParse,
ts+14440, 0)
goto exit_create_index
__56:
;
if !((*Index)(unsafe.Pointer(pIndex)).FaColExpr == uintptr(0)) {
goto __57
}
(*Index)(unsafe.Pointer(pIndex)).FaColExpr = pList
pList = uintptr(0)
__57:
;
j = -2
*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FaiColumn + uintptr(i)*2)) = int16(-2)
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(0), 3, 0x8)
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(1), 11, 0x800)
goto __55
__54:
j = int32((*Expr)(unsafe.Pointer(pCExpr)).FiColumn)
if !(j < 0) {
goto __58
}
j = int32((*Table)(unsafe.Pointer(pTab)).FiPKey)
goto __59
__58:
if !(int32(*(*uint8)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(j)*24 + 8))&0xf>>0) == 0) {
goto __60
}
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(0), 3, 0x8)
__60:
;
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)).FcolFlags)&COLFLAG_VIRTUAL != 0) {
goto __61
}
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(1), 10, 0x400)
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(1), 11, 0x800)
__61:
;
__59:
;
*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FaiColumn + uintptr(i)*2)) = I16(j)
__55:
;
zColl = uintptr(0)
if !(int32((*Expr)(unsafe.Pointer((*ExprList_item)(unsafe.Pointer(pListItem)).FpExpr)).Fop) == TK_COLLATE) {
goto __62
}
zColl = *(*uintptr)(unsafe.Pointer((*ExprList_item)(unsafe.Pointer(pListItem)).FpExpr + 8))
nColl = Xsqlite3Strlen30(tls, zColl) + 1
libc.X__builtin___memcpy_chk(tls, *(*uintptr)(unsafe.Pointer(bp + 248)), zColl, uint64(nColl), libc.X__builtin_object_size(tls, *(*uintptr)(unsafe.Pointer(bp + 248)), 0))
zColl = *(*uintptr)(unsafe.Pointer(bp + 248))
*(*uintptr)(unsafe.Pointer(bp + 248)) += uintptr(nColl)
nExtra = nExtra - nColl
goto __63
__62:
if !(j >= 0) {
goto __64
}
zColl = Xsqlite3ColumnColl(tls, (*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)
__64:
;
__63:
;
if !!(zColl != 0) {
goto __65
}
zColl = uintptr(unsafe.Pointer(&Xsqlite3StrBINARY))
__65:
;
if !(!(int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) != 0) && !(Xsqlite3LocateCollSeq(tls, pParse, zColl) != 0)) {
goto __66
}
goto exit_create_index
__66:
;
*(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FazColl + uintptr(i)*8)) = zColl
requestedSortOrder = int32((*ExprList_item)(unsafe.Pointer(pListItem)).Ffg.FsortFlags) & sortOrderMask
*(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FaSortOrder + uintptr(i))) = U8(requestedSortOrder)
goto __51
__51:
i++
pListItem += 32
goto __50
goto __52
__52:
;
if !(pPk != 0) {
goto __67
}
j = 0
__69:
if !(j < int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol)) {
goto __71
}
x = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(j)*2)))
if !(isDupColumn(tls, pIndex, int32((*Index)(unsafe.Pointer(pIndex)).FnKeyCol), pPk, j) != 0) {
goto __72
}
(*Index)(unsafe.Pointer(pIndex)).FnColumn--
goto __73
__72:
;
*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FaiColumn + uintptr(i)*2)) = I16(x)
*(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FazColl + uintptr(i)*8)) = *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FazColl + uintptr(j)*8))
*(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FaSortOrder + uintptr(i))) = *(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaSortOrder + uintptr(j)))
i++
__73:
;
goto __70
__70:
j++
goto __69
goto __71
__71:
;
goto __68
__67:
*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FaiColumn + uintptr(i)*2)) = int16(-1)
*(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FazColl + uintptr(i)*8)) = uintptr(unsafe.Pointer(&Xsqlite3StrBINARY))
__68:
;
Xsqlite3DefaultRowEst(tls, pIndex)
if !((*Parse)(unsafe.Pointer(pParse)).FpNewTable == uintptr(0)) {
goto __74
}
estimateIndexWidth(tls, pIndex)
__74:
;
recomputeColumnsNotIndexed(tls, pIndex)
if !(pTblName != uintptr(0) && int32((*Index)(unsafe.Pointer(pIndex)).FnColumn) >= int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __75
}
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(1), 5, 0x20)
j = 0
__76:
if !(j < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __78
}
if !(j == int32((*Table)(unsafe.Pointer(pTab)).FiPKey)) {
goto __79
}
goto __77
__79:
;
if !(int32(Xsqlite3TableColumnToIndex(tls, pIndex, int16(j))) >= 0) {
goto __80
}
goto __77
__80:
;
libc.SetBitFieldPtr16Uint32(pIndex+100, uint32(0), 5, 0x20)
goto __78
goto __77
__77:
j++
goto __76
goto __78
__78:
;
__75:
;
if !(pTab == (*Parse)(unsafe.Pointer(pParse)).FpNewTable) {
goto __81
}
pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex
__82:
if !(pIdx != 0) {
goto __84
}
if !(int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol) != int32((*Index)(unsafe.Pointer(pIndex)).FnKeyCol)) {
goto __85
}
goto __83
__85:
;
k = 0
__86:
if !(k < int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)) {
goto __88
}
if !(int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(k)*2))) != int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FaiColumn + uintptr(k)*2)))) {
goto __89
}
goto __88
__89:
;
z1 = *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(k)*8))
z2 = *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FazColl + uintptr(k)*8))
if !(Xsqlite3StrICmp(tls, z1, z2) != 0) {
goto __90
}
goto __88
__90:
;
goto __87
__87:
k++
goto __86
goto __88
__88:
;
if !(k == int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)) {
goto __91
}
if !(int32((*Index)(unsafe.Pointer(pIdx)).FonError) != int32((*Index)(unsafe.Pointer(pIndex)).FonError)) {
goto __92
}
if !!(int32((*Index)(unsafe.Pointer(pIdx)).FonError) == OE_Default || int32((*Index)(unsafe.Pointer(pIndex)).FonError) == OE_Default) {
goto __93
}
Xsqlite3ErrorMsg(tls, pParse,
ts+14501, libc.VaList(bp+48, 0))
__93:
;
if !(int32((*Index)(unsafe.Pointer(pIdx)).FonError) == OE_Default) {
goto __94
}
(*Index)(unsafe.Pointer(pIdx)).FonError = (*Index)(unsafe.Pointer(pIndex)).FonError
__94:
;
__92:
;
if !(int32(idxType) == SQLITE_IDXTYPE_PRIMARYKEY) {
goto __95
}
libc.SetBitFieldPtr16Uint32(pIdx+100, uint32(idxType), 0, 0x3)
__95:
;
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __96
}
(*Index)(unsafe.Pointer(pIndex)).FpNext = (*Parse)(unsafe.Pointer(pParse)).FpNewIndex
(*Parse)(unsafe.Pointer(pParse)).FpNewIndex = pIndex
pIndex = uintptr(0)
__96:
;
goto exit_create_index
__91:
;
goto __83
__83:
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
goto __82
goto __84
__84:
;
__81:
;
if !!(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __97
}
if !((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy != 0) {
goto __98
}
if !(pTblName != uintptr(0)) {
goto __100
}
(*Index)(unsafe.Pointer(pIndex)).Ftnum = (*Sqlite3)(unsafe.Pointer(db)).Finit.FnewTnum
if !(Xsqlite3IndexHasDuplicateRootPage(tls, pIndex) != 0) {
goto __101
}
Xsqlite3ErrorMsg(tls, pParse, ts+14543, 0)
(*Parse)(unsafe.Pointer(pParse)).Frc = Xsqlite3CorruptError(tls, 121835)
goto exit_create_index
__101:
;
__100:
;
p = Xsqlite3HashInsert(tls, (*Index)(unsafe.Pointer(pIndex)).FpSchema+32,
(*Index)(unsafe.Pointer(pIndex)).FzName, pIndex)
if !(p != 0) {
goto __102
}
Xsqlite3OomFault(tls, db)
goto exit_create_index
__102:
;
*(*U32)(unsafe.Pointer(db + 44)) |= U32(DBFLAG_SchemaChange)
goto __99
__98:
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) || pTblName != uintptr(0)) {
goto __103
}
iMem = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
v = Xsqlite3GetVdbe(tls, pParse)
if !(v == uintptr(0)) {
goto __104
}
goto exit_create_index
__104:
;
Xsqlite3BeginWriteOperation(tls, pParse, 1, iDb)
(*Index)(unsafe.Pointer(pIndex)).Ftnum = Pgno(Xsqlite3VdbeAddOp0(tls, v, OP_Noop))
Xsqlite3VdbeAddOp3(tls, v, OP_CreateBtree, iDb, iMem, BTREE_BLOBKEY)
if !(pStart != 0) {
goto __105
}
n1 = int32(uint32(int32((int64((*Parse)(unsafe.Pointer(pParse)).FsLastToken.Fz)-int64((*Token)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 128)))).Fz))/1)) + (*Parse)(unsafe.Pointer(pParse)).FsLastToken.Fn)
if !(int32(*(*int8)(unsafe.Pointer((*Token)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 128)))).Fz + uintptr(n1-1)))) == ';') {
goto __107
}
n1--
__107:
;
zStmt = Xsqlite3MPrintf(tls, db, ts+14560,
libc.VaList(bp+56, func() uintptr {
if onError == OE_None {
return ts + 1547
}
return ts + 14580
}(), n1, (*Token)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 128)))).Fz))
goto __106
__105:
zStmt = uintptr(0)
__106:
;
Xsqlite3NestedParse(tls, pParse,
ts+14588,
libc.VaList(bp+80, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName,
(*Index)(unsafe.Pointer(pIndex)).FzName,
(*Table)(unsafe.Pointer(pTab)).FzName,
iMem,
zStmt))
Xsqlite3DbFree(tls, db, zStmt)
if !(pTblName != 0) {
goto __108
}
sqlite3RefillIndex(tls, pParse, pIndex, iMem)
Xsqlite3ChangeCookie(tls, pParse, iDb)
Xsqlite3VdbeAddParseSchemaOp(tls, v, iDb,
Xsqlite3MPrintf(tls, db, ts+14647, libc.VaList(bp+120, (*Index)(unsafe.Pointer(pIndex)).FzName)), uint16(0))
Xsqlite3VdbeAddOp2(tls, v, OP_Expire, 0, 1)
__108:
;
Xsqlite3VdbeJumpHere(tls, v, int32((*Index)(unsafe.Pointer(pIndex)).Ftnum))
__103:
;
__99:
;
__97:
;
if !((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy != 0 || pTblName == uintptr(0)) {
goto __109
}
(*Index)(unsafe.Pointer(pIndex)).FpNext = (*Table)(unsafe.Pointer(pTab)).FpIndex
(*Table)(unsafe.Pointer(pTab)).FpIndex = pIndex
pIndex = uintptr(0)
goto __110
__109:
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __111
}
(*Parse)(unsafe.Pointer(pParse)).FpNewIndex = pIndex
pIndex = uintptr(0)
__111:
;
__110:
;
exit_create_index:
if !(pIndex != 0) {
goto __112
}
Xsqlite3FreeIndex(tls, db, pIndex)
__112:
;
if !(pTab != 0) {
goto __113
}
ppFrom = pTab + 16
__114:
if !(libc.AssignUintptr(&pThis, *(*uintptr)(unsafe.Pointer(ppFrom))) != uintptr(0)) {
goto __116
}
if !(int32((*Index)(unsafe.Pointer(pThis)).FonError) != OE_Replace) {
goto __117
}
goto __115
__117:
;
__118:
if !(libc.AssignUintptr(&pNext, (*Index)(unsafe.Pointer(pThis)).FpNext) != uintptr(0) && int32((*Index)(unsafe.Pointer(pNext)).FonError) != OE_Replace) {
goto __119
}
*(*uintptr)(unsafe.Pointer(ppFrom)) = pNext
(*Index)(unsafe.Pointer(pThis)).FpNext = (*Index)(unsafe.Pointer(pNext)).FpNext
(*Index)(unsafe.Pointer(pNext)).FpNext = pThis
ppFrom = pNext + 40
goto __118
__119:
;
goto __116
goto __115
__115:
ppFrom = pThis + 40
goto __114
goto __116
__116:
;
__113:
;
Xsqlite3ExprDelete(tls, db, pPIWhere)
Xsqlite3ExprListDelete(tls, db, pList)
Xsqlite3SrcListDelete(tls, db, pTblName)
Xsqlite3DbFree(tls, db, zName)
}
// Fill the Index.aiRowEst[] array with default information - information
// to be used when we have not run the ANALYZE command.
//
// aiRowEst[0] is supposed to contain the number of elements in the index.
// Since we do not know, guess 1 million. aiRowEst[1] is an estimate of the
// number of rows in the table that match any particular value of the
// first column of the index. aiRowEst[2] is an estimate of the number
// of rows that match any particular combination of the first 2 columns
// of the index. And so forth. It must always be the case that
//
// aiRowEst[N]<=aiRowEst[N-1]
// aiRowEst[N]>=1
//
// Apart from that, we have little to go on besides intuition as to
// how aiRowEst[] should be initialized. The numbers generated here
// are based on typical values found in actual indices.
func Xsqlite3DefaultRowEst(tls *libc.TLS, pIdx uintptr) {
var a uintptr = (*Index)(unsafe.Pointer(pIdx)).FaiRowLogEst
var x LogEst
var nCopy int32 = func() int32 {
if int32(uint64(unsafe.Sizeof(aVal))/uint64(unsafe.Sizeof(LogEst(0)))) < int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol) {
return int32(uint64(unsafe.Sizeof(aVal)) / uint64(unsafe.Sizeof(LogEst(0))))
}
return int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)
}()
var i int32
x = (*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FpTable)).FnRowLogEst
if int32(x) < 99 {
(*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FpTable)).FnRowLogEst = libc.AssignInt16(&x, int16(99))
}
if (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere != uintptr(0) {
x = int16(int32(x) - 10)
}
*(*LogEst)(unsafe.Pointer(a)) = x
libc.X__builtin___memcpy_chk(tls, a+1*2, uintptr(unsafe.Pointer(&aVal)), uint64(nCopy)*uint64(unsafe.Sizeof(LogEst(0))), libc.X__builtin_object_size(tls, a+1*2, 0))
for i = nCopy + 1; i <= int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol); i++ {
*(*LogEst)(unsafe.Pointer(a + uintptr(i)*2)) = int16(23)
}
if int32((*Index)(unsafe.Pointer(pIdx)).FonError) != OE_None {
*(*LogEst)(unsafe.Pointer(a + uintptr((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)*2)) = int16(0)
}
}
var aVal = [5]LogEst{int16(33), int16(32), int16(30), int16(28), int16(26)}
// This routine will drop an existing named index. This routine
// implements the DROP INDEX statement.
func Xsqlite3DropIndex(tls *libc.TLS, pParse uintptr, pName uintptr, ifExists int32) {
bp := tls.Alloc(32)
defer tls.Free(32)
var pIndex uintptr
var v uintptr
var db uintptr
var iDb int32
var code int32
var pTab uintptr
var zDb uintptr
var zTab uintptr
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __1
}
goto exit_drop_index
__1:
;
if !(SQLITE_OK != Xsqlite3ReadSchema(tls, pParse)) {
goto __2
}
goto exit_drop_index
__2:
;
pIndex = Xsqlite3FindIndex(tls, db, (*SrcItem)(unsafe.Pointer(pName+8)).FzName, (*SrcItem)(unsafe.Pointer(pName+8)).FzDatabase)
if !(pIndex == uintptr(0)) {
goto __3
}
if !!(ifExists != 0) {
goto __4
}
Xsqlite3ErrorMsg(tls, pParse, ts+14674, libc.VaList(bp, pName+8))
goto __5
__4:
Xsqlite3CodeVerifyNamedSchema(tls, pParse, (*SrcItem)(unsafe.Pointer(pName+8)).FzDatabase)
sqlite3ForceNotReadOnly(tls, pParse)
__5:
;
(*Parse)(unsafe.Pointer(pParse)).FcheckSchema = U8(1)
goto exit_drop_index
__3:
;
if !(int32(*(*uint16)(unsafe.Pointer(pIndex + 100))&0x3>>0) != SQLITE_IDXTYPE_APPDEF) {
goto __6
}
Xsqlite3ErrorMsg(tls, pParse,
ts+14692, libc.VaList(bp+8, 0))
goto exit_drop_index
__6:
;
iDb = Xsqlite3SchemaToIndex(tls, db, (*Index)(unsafe.Pointer(pIndex)).FpSchema)
code = SQLITE_DROP_INDEX
pTab = (*Index)(unsafe.Pointer(pIndex)).FpTable
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
zTab = func() uintptr {
if !(0 != 0) && iDb == 1 {
return ts + 6792
}
return ts + 6286
}()
if !(Xsqlite3AuthCheck(tls, pParse, SQLITE_DELETE, zTab, uintptr(0), zDb) != 0) {
goto __7
}
goto exit_drop_index
__7:
;
if !(!(0 != 0) && iDb == 1) {
goto __8
}
code = SQLITE_DROP_TEMP_INDEX
__8:
;
if !(Xsqlite3AuthCheck(tls, pParse, code, (*Index)(unsafe.Pointer(pIndex)).FzName, (*Table)(unsafe.Pointer(pTab)).FzName, zDb) != 0) {
goto __9
}
goto exit_drop_index
__9:
;
v = Xsqlite3GetVdbe(tls, pParse)
if !(v != 0) {
goto __10
}
Xsqlite3BeginWriteOperation(tls, pParse, 1, iDb)
Xsqlite3NestedParse(tls, pParse,
ts+14765,
libc.VaList(bp+16, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName, (*Index)(unsafe.Pointer(pIndex)).FzName))
sqlite3ClearStatTables(tls, pParse, iDb, ts+11891, (*Index)(unsafe.Pointer(pIndex)).FzName)
Xsqlite3ChangeCookie(tls, pParse, iDb)
destroyRootPage(tls, pParse, int32((*Index)(unsafe.Pointer(pIndex)).Ftnum), iDb)
Xsqlite3VdbeAddOp4(tls, v, OP_DropIndex, iDb, 0, 0, (*Index)(unsafe.Pointer(pIndex)).FzName, 0)
__10:
;
exit_drop_index:
Xsqlite3SrcListDelete(tls, db, pName)
}
// pArray is a pointer to an array of objects. Each object in the
// array is szEntry bytes in size. This routine uses sqlite3DbRealloc()
// to extend the array so that there is space for a new object at the end.
//
// When this function is called, *pnEntry contains the current size of
// the array (in entries - so the allocation is ((*pnEntry) * szEntry) bytes
// in total).
//
// If the realloc() is successful (i.e. if no OOM condition occurs), the
// space allocated for the new object is zeroed, *pnEntry updated to
// reflect the new size of the array and a pointer to the new allocation
// returned. *pIdx is set to the index of the new array entry in this case.
//
// Otherwise, if the realloc() fails, *pIdx is set to -1, *pnEntry remains
// unchanged and a copy of pArray returned.
func Xsqlite3ArrayAllocate(tls *libc.TLS, db uintptr, pArray uintptr, szEntry int32, pnEntry uintptr, pIdx uintptr) uintptr {
var z uintptr
var n Sqlite3_int64 = Sqlite3_int64(libc.AssignPtrInt32(pIdx, *(*int32)(unsafe.Pointer(pnEntry))))
if n&(n-int64(1)) == int64(0) {
var sz Sqlite3_int64
if n == int64(0) {
sz = int64(1)
} else {
sz = int64(2) * n
}
var pNew uintptr = Xsqlite3DbRealloc(tls, db, pArray, uint64(sz*Sqlite3_int64(szEntry)))
if pNew == uintptr(0) {
*(*int32)(unsafe.Pointer(pIdx)) = -1
return pArray
}
pArray = pNew
}
z = pArray
libc.X__builtin___memset_chk(tls, z+uintptr(n*Sqlite3_int64(szEntry)), 0, uint64(szEntry), libc.X__builtin_object_size(tls, z+uintptr(n*Sqlite3_int64(szEntry)), 0))
*(*int32)(unsafe.Pointer(pnEntry))++
return pArray
}
// Append a new element to the given IdList. Create a new IdList if
// need be.
//
// A new IdList is returned, or NULL if malloc() fails.
func Xsqlite3IdListAppend(tls *libc.TLS, pParse uintptr, pList uintptr, pToken uintptr) uintptr {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var i int32
if pList == uintptr(0) {
pList = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(IdList{})))
if pList == uintptr(0) {
return uintptr(0)
}
} else {
var pNew uintptr
pNew = Xsqlite3DbRealloc(tls, db, pList,
uint64(unsafe.Sizeof(IdList{}))+uint64((*IdList)(unsafe.Pointer(pList)).FnId)*uint64(unsafe.Sizeof([1]IdList_item{})))
if pNew == uintptr(0) {
Xsqlite3IdListDelete(tls, db, pList)
return uintptr(0)
}
pList = pNew
}
i = libc.PostIncInt32(&(*IdList)(unsafe.Pointer(pList)).FnId, 1)
(*IdList_item)(unsafe.Pointer(pList + 8 + uintptr(i)*16)).FzName = Xsqlite3NameFromToken(tls, db, pToken)
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME && (*IdList_item)(unsafe.Pointer(pList+8+uintptr(i)*16)).FzName != 0 {
Xsqlite3RenameTokenMap(tls, pParse, (*IdList_item)(unsafe.Pointer(pList+8+uintptr(i)*16)).FzName, pToken)
}
return pList
}
// Delete an IdList.
func Xsqlite3IdListDelete(tls *libc.TLS, db uintptr, pList uintptr) {
var i int32
if pList == uintptr(0) {
return
}
for i = 0; i < (*IdList)(unsafe.Pointer(pList)).FnId; i++ {
Xsqlite3DbFree(tls, db, (*IdList_item)(unsafe.Pointer(pList+8+uintptr(i)*16)).FzName)
}
Xsqlite3DbNNFreeNN(tls, db, pList)
}
// Return the index in pList of the identifier named zId. Return -1
// if not found.
func Xsqlite3IdListIndex(tls *libc.TLS, pList uintptr, zName uintptr) int32 {
var i int32
for i = 0; i < (*IdList)(unsafe.Pointer(pList)).FnId; i++ {
if Xsqlite3StrICmp(tls, (*IdList_item)(unsafe.Pointer(pList+8+uintptr(i)*16)).FzName, zName) == 0 {
return i
}
}
return -1
}
// Expand the space allocated for the given SrcList object by
// creating nExtra new slots beginning at iStart. iStart is zero based.
// New slots are zeroed.
//
// For example, suppose a SrcList initially contains two entries: A,B.
// To append 3 new entries onto the end, do this:
//
// sqlite3SrcListEnlarge(db, pSrclist, 3, 2);
//
// After the call above it would contain: A, B, nil, nil, nil.
// If the iStart argument had been 1 instead of 2, then the result
// would have been: A, nil, nil, nil, B. To prepend the new slots,
// the iStart value would be 0. The result then would
// be: nil, nil, nil, A, B.
//
// If a memory allocation fails or the SrcList becomes too large, leave
// the original SrcList unchanged, return NULL, and leave an error message
// in pParse.
func Xsqlite3SrcListEnlarge(tls *libc.TLS, pParse uintptr, pSrc uintptr, nExtra int32, iStart int32) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var i int32
if U32((*SrcList)(unsafe.Pointer(pSrc)).FnSrc)+U32(nExtra) > (*SrcList)(unsafe.Pointer(pSrc)).FnAlloc {
var pNew uintptr
var nAlloc Sqlite3_int64 = int64(2)*Sqlite3_int64((*SrcList)(unsafe.Pointer(pSrc)).FnSrc) + Sqlite3_int64(nExtra)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*SrcList)(unsafe.Pointer(pSrc)).FnSrc+nExtra >= SQLITE_MAX_SRCLIST {
Xsqlite3ErrorMsg(tls, pParse, ts+14825,
libc.VaList(bp, SQLITE_MAX_SRCLIST))
return uintptr(0)
}
if nAlloc > int64(SQLITE_MAX_SRCLIST) {
nAlloc = int64(SQLITE_MAX_SRCLIST)
}
pNew = Xsqlite3DbRealloc(tls, db, pSrc,
uint64(unsafe.Sizeof(SrcList{}))+uint64(nAlloc-int64(1))*uint64(unsafe.Sizeof(SrcItem{})))
if pNew == uintptr(0) {
return uintptr(0)
}
pSrc = pNew
(*SrcList)(unsafe.Pointer(pSrc)).FnAlloc = U32(nAlloc)
}
for i = (*SrcList)(unsafe.Pointer(pSrc)).FnSrc - 1; i >= iStart; i-- {
*(*SrcItem)(unsafe.Pointer(pSrc + 8 + uintptr(i+nExtra)*104)) = *(*SrcItem)(unsafe.Pointer(pSrc + 8 + uintptr(i)*104))
}
*(*int32)(unsafe.Pointer(pSrc)) += nExtra
libc.X__builtin___memset_chk(tls, pSrc+8+uintptr(iStart)*104, 0, uint64(unsafe.Sizeof(SrcItem{}))*uint64(nExtra), libc.X__builtin_object_size(tls, pSrc+8+uintptr(iStart)*104, 0))
for i = iStart; i < iStart+nExtra; i++ {
(*SrcItem)(unsafe.Pointer(pSrc + 8 + uintptr(i)*104)).FiCursor = -1
}
return pSrc
}
// Append a new table name to the given SrcList. Create a new SrcList if
// need be. A new entry is created in the SrcList even if pTable is NULL.
//
// A SrcList is returned, or NULL if there is an OOM error or if the
// SrcList grows to large. The returned
// SrcList might be the same as the SrcList that was input or it might be
// a new one. If an OOM error does occurs, then the prior value of pList
// that is input to this routine is automatically freed.
//
// If pDatabase is not null, it means that the table has an optional
// database name prefix. Like this: "database.table". The pDatabase
// points to the table name and the pTable points to the database name.
// The SrcList.a[].zName field is filled with the table name which might
// come from pTable (if pDatabase is NULL) or from pDatabase.
// SrcList.a[].zDatabase is filled with the database name from pTable,
// or with NULL if no database is specified.
//
// In other words, if call like this:
//
// sqlite3SrcListAppend(D,A,B,0);
//
// Then B is a table name and the database name is unspecified. If called
// like this:
//
// sqlite3SrcListAppend(D,A,B,C);
//
// Then C is the table name and B is the database name. If C is defined
// then so is B. In other words, we never have a case where:
//
// sqlite3SrcListAppend(D,A,0,C);
//
// Both pTable and pDatabase are assumed to be quoted. They are dequoted
// before being added to the SrcList.
func Xsqlite3SrcListAppend(tls *libc.TLS, pParse uintptr, pList uintptr, pTable uintptr, pDatabase uintptr) uintptr {
var pItem uintptr
var db uintptr
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if pList == uintptr(0) {
pList = Xsqlite3DbMallocRawNN(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(SrcList{})))
if pList == uintptr(0) {
return uintptr(0)
}
(*SrcList)(unsafe.Pointer(pList)).FnAlloc = U32(1)
(*SrcList)(unsafe.Pointer(pList)).FnSrc = 1
libc.X__builtin___memset_chk(tls, pList+8, 0, uint64(unsafe.Sizeof(SrcItem{})), libc.X__builtin_object_size(tls, pList+8, 0))
(*SrcItem)(unsafe.Pointer(pList + 8)).FiCursor = -1
} else {
var pNew uintptr = Xsqlite3SrcListEnlarge(tls, pParse, pList, 1, (*SrcList)(unsafe.Pointer(pList)).FnSrc)
if pNew == uintptr(0) {
Xsqlite3SrcListDelete(tls, db, pList)
return uintptr(0)
} else {
pList = pNew
}
}
pItem = pList + 8 + uintptr((*SrcList)(unsafe.Pointer(pList)).FnSrc-1)*104
if pDatabase != 0 && (*Token)(unsafe.Pointer(pDatabase)).Fz == uintptr(0) {
pDatabase = uintptr(0)
}
if pDatabase != 0 {
(*SrcItem)(unsafe.Pointer(pItem)).FzName = Xsqlite3NameFromToken(tls, db, pDatabase)
(*SrcItem)(unsafe.Pointer(pItem)).FzDatabase = Xsqlite3NameFromToken(tls, db, pTable)
} else {
(*SrcItem)(unsafe.Pointer(pItem)).FzName = Xsqlite3NameFromToken(tls, db, pTable)
(*SrcItem)(unsafe.Pointer(pItem)).FzDatabase = uintptr(0)
}
return pList
}
// Assign VdbeCursor index numbers to all tables in a SrcList
func Xsqlite3SrcListAssignCursors(tls *libc.TLS, pParse uintptr, pList uintptr) {
var i int32
var pItem uintptr
if pList != 0 {
i = 0
pItem = pList + 8
__1:
if !(i < (*SrcList)(unsafe.Pointer(pList)).FnSrc) {
goto __3
}
{
if (*SrcItem)(unsafe.Pointer(pItem)).FiCursor >= 0 {
goto __2
}
(*SrcItem)(unsafe.Pointer(pItem)).FiCursor = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
if (*SrcItem)(unsafe.Pointer(pItem)).FpSelect != 0 {
Xsqlite3SrcListAssignCursors(tls, pParse, (*Select)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pItem)).FpSelect)).FpSrc)
}
}
goto __2
__2:
i++
pItem += 104
goto __1
goto __3
__3:
}
}
// Delete an entire SrcList including all its substructure.
func Xsqlite3SrcListDelete(tls *libc.TLS, db uintptr, pList uintptr) {
var i int32
var pItem uintptr
if pList == uintptr(0) {
return
}
pItem = pList + 8
i = 0
__1:
if !(i < (*SrcList)(unsafe.Pointer(pList)).FnSrc) {
goto __3
}
{
if (*SrcItem)(unsafe.Pointer(pItem)).FzDatabase != 0 {
Xsqlite3DbNNFreeNN(tls, db, (*SrcItem)(unsafe.Pointer(pItem)).FzDatabase)
}
if (*SrcItem)(unsafe.Pointer(pItem)).FzName != 0 {
Xsqlite3DbNNFreeNN(tls, db, (*SrcItem)(unsafe.Pointer(pItem)).FzName)
}
if (*SrcItem)(unsafe.Pointer(pItem)).FzAlias != 0 {
Xsqlite3DbNNFreeNN(tls, db, (*SrcItem)(unsafe.Pointer(pItem)).FzAlias)
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x2>>1)) != 0 {
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(pItem + 88)))
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x4>>2)) != 0 {
Xsqlite3ExprListDelete(tls, db, *(*uintptr)(unsafe.Pointer(pItem + 88)))
}
Xsqlite3DeleteTable(tls, db, (*SrcItem)(unsafe.Pointer(pItem)).FpTab)
if (*SrcItem)(unsafe.Pointer(pItem)).FpSelect != 0 {
Xsqlite3SelectDelete(tls, db, (*SrcItem)(unsafe.Pointer(pItem)).FpSelect)
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x400>>10)) != 0 {
Xsqlite3IdListDelete(tls, db, *(*uintptr)(unsafe.Pointer(pItem + 72)))
} else if *(*uintptr)(unsafe.Pointer(pItem + 72)) != 0 {
Xsqlite3ExprDelete(tls, db, *(*uintptr)(unsafe.Pointer(pItem + 72)))
}
}
goto __2
__2:
i++
pItem += 104
goto __1
goto __3
__3:
;
Xsqlite3DbNNFreeNN(tls, db, pList)
}
// This routine is called by the parser to add a new term to the
// end of a growing FROM clause. The "p" parameter is the part of
// the FROM clause that has already been constructed. "p" is NULL
// if this is the first term of the FROM clause. pTable and pDatabase
// are the name of the table and database named in the FROM clause term.
// pDatabase is NULL if the database name qualifier is missing - the
// usual case. If the term has an alias, then pAlias points to the
// alias token. If the term is a subquery, then pSubquery is the
// SELECT statement that the subquery encodes. The pTable and
// pDatabase parameters are NULL for subqueries. The pOn and pUsing
// parameters are the content of the ON and USING clauses.
//
// Return a new SrcList which encodes is the FROM with the new
// term added.
func Xsqlite3SrcListAppendFromTerm(tls *libc.TLS, pParse uintptr, p uintptr, pTable uintptr, pDatabase uintptr, pAlias uintptr, pSubquery uintptr, pOnUsing uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var pItem uintptr
var db uintptr
var pToken uintptr
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if !(!(p != 0) && pOnUsing != uintptr(0) && ((*OnOrUsing)(unsafe.Pointer(pOnUsing)).FpOn != 0 || (*OnOrUsing)(unsafe.Pointer(pOnUsing)).FpUsing != 0)) {
goto __1
}
Xsqlite3ErrorMsg(tls, pParse, ts+14861,
libc.VaList(bp, func() uintptr {
if (*OnOrUsing)(unsafe.Pointer(pOnUsing)).FpOn != 0 {
return ts + 14897
}
return ts + 14900
}()))
goto append_from_error
__1:
;
p = Xsqlite3SrcListAppend(tls, pParse, p, pTable, pDatabase)
if !(p == uintptr(0)) {
goto __2
}
goto append_from_error
__2:
;
pItem = p + 8 + uintptr((*SrcList)(unsafe.Pointer(p)).FnSrc-1)*104
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME && (*SrcItem)(unsafe.Pointer(pItem)).FzName != 0) {
goto __3
}
if pDatabase != 0 && (*Token)(unsafe.Pointer(pDatabase)).Fz != 0 {
pToken = pDatabase
} else {
pToken = pTable
}
Xsqlite3RenameTokenMap(tls, pParse, (*SrcItem)(unsafe.Pointer(pItem)).FzName, pToken)
__3:
;
if !((*Token)(unsafe.Pointer(pAlias)).Fn != 0) {
goto __4
}
(*SrcItem)(unsafe.Pointer(pItem)).FzAlias = Xsqlite3NameFromToken(tls, db, pAlias)
__4:
;
if !(pSubquery != 0) {
goto __5
}
(*SrcItem)(unsafe.Pointer(pItem)).FpSelect = pSubquery
if !((*Select)(unsafe.Pointer(pSubquery)).FselFlags&U32(SF_NestedFrom) != 0) {
goto __6
}
libc.SetBitFieldPtr16Uint32(pItem+60+4, uint32(1), 13, 0x2000)
__6:
;
__5:
;
if !(pOnUsing == uintptr(0)) {
goto __7
}
*(*uintptr)(unsafe.Pointer(pItem + 72)) = uintptr(0)
goto __8
__7:
if !((*OnOrUsing)(unsafe.Pointer(pOnUsing)).FpUsing != 0) {
goto __9
}
libc.SetBitFieldPtr16Uint32(pItem+60+4, uint32(1), 10, 0x400)
*(*uintptr)(unsafe.Pointer(pItem + 72)) = (*OnOrUsing)(unsafe.Pointer(pOnUsing)).FpUsing
goto __10
__9:
*(*uintptr)(unsafe.Pointer(pItem + 72)) = (*OnOrUsing)(unsafe.Pointer(pOnUsing)).FpOn
__10:
;
__8:
;
return p
append_from_error:
;
Xsqlite3ClearOnOrUsing(tls, db, pOnUsing)
Xsqlite3SelectDelete(tls, db, pSubquery)
return uintptr(0)
}
// Add an INDEXED BY or NOT INDEXED clause to the most recently added
// element of the source-list passed as the second argument.
func Xsqlite3SrcListIndexedBy(tls *libc.TLS, pParse uintptr, p uintptr, pIndexedBy uintptr) {
if p != 0 && (*Token)(unsafe.Pointer(pIndexedBy)).Fn > uint32(0) {
var pItem uintptr
pItem = p + 8 + uintptr((*SrcList)(unsafe.Pointer(p)).FnSrc-1)*104
if (*Token)(unsafe.Pointer(pIndexedBy)).Fn == uint32(1) && !(int32((*Token)(unsafe.Pointer(pIndexedBy)).Fz) != 0) {
libc.SetBitFieldPtr16Uint32(pItem+60+4, uint32(1), 0, 0x1)
} else {
*(*uintptr)(unsafe.Pointer(pItem + 88)) = Xsqlite3NameFromToken(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pIndexedBy)
libc.SetBitFieldPtr16Uint32(pItem+60+4, uint32(1), 1, 0x2)
}
}
}
// Append the contents of SrcList p2 to SrcList p1 and return the resulting
// SrcList. Or, if an error occurs, return NULL. In all cases, p1 and p2
// are deleted by this function.
func Xsqlite3SrcListAppendList(tls *libc.TLS, pParse uintptr, p1 uintptr, p2 uintptr) uintptr {
if p2 != 0 {
var pNew uintptr = Xsqlite3SrcListEnlarge(tls, pParse, p1, (*SrcList)(unsafe.Pointer(p2)).FnSrc, 1)
if pNew == uintptr(0) {
Xsqlite3SrcListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, p2)
} else {
p1 = pNew
libc.X__builtin___memcpy_chk(tls, p1+8+1*104, p2+8, uint64((*SrcList)(unsafe.Pointer(p2)).FnSrc)*uint64(unsafe.Sizeof(SrcItem{})), libc.X__builtin_object_size(tls, p1+8+1*104, 0))
Xsqlite3DbFree(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, p2)
*(*U8)(unsafe.Pointer(p1 + 8 + 60)) |= U8(JT_LTORJ & int32((*SrcItem)(unsafe.Pointer(p1+8+1*104)).Ffg.Fjointype))
}
}
return p1
}
// Add the list of function arguments to the SrcList entry for a
// table-valued-function.
func Xsqlite3SrcListFuncArgs(tls *libc.TLS, pParse uintptr, p uintptr, pList uintptr) {
if p != 0 {
var pItem uintptr = p + 8 + uintptr((*SrcList)(unsafe.Pointer(p)).FnSrc-1)*104
*(*uintptr)(unsafe.Pointer(pItem + 88)) = pList
libc.SetBitFieldPtr16Uint32(pItem+60+4, uint32(1), 2, 0x4)
} else {
Xsqlite3ExprListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pList)
}
}
// When building up a FROM clause in the parser, the join operator
// is initially attached to the left operand. But the code generator
// expects the join operator to be on the right operand. This routine
// Shifts all join operators from left to right for an entire FROM
// clause.
//
// Example: Suppose the join is like this:
//
// A natural cross join B
//
// The operator is "natural cross join". The A and B operands are stored
// in p->a[0] and p->a[1], respectively. The parser initially stores the
// operator with A. This routine shifts that operator over to B.
//
// Additional changes:
//
// - All tables to the left of the right-most RIGHT JOIN are tagged with
// JT_LTORJ (mnemonic: Left Table Of Right Join) so that the
// code generator can easily tell that the table is part of
// the left operand of at least one RIGHT JOIN.
func Xsqlite3SrcListShiftJoinType(tls *libc.TLS, pParse uintptr, p uintptr) {
_ = pParse
if p != 0 && (*SrcList)(unsafe.Pointer(p)).FnSrc > 1 {
var i int32 = (*SrcList)(unsafe.Pointer(p)).FnSrc - 1
var allFlags U8 = U8(0)
for __ccgo := true; __ccgo; __ccgo = libc.PreDecInt32(&i, 1) > 0 {
allFlags = U8(int32(allFlags) | int32(libc.AssignPtrUint8(p+8+uintptr(i)*104+60, (*SrcItem)(unsafe.Pointer(p+8+uintptr(i-1)*104)).Ffg.Fjointype)))
}
(*SrcItem)(unsafe.Pointer(p + 8)).Ffg.Fjointype = U8(0)
if int32(allFlags)&JT_RIGHT != 0 {
for i = (*SrcList)(unsafe.Pointer(p)).FnSrc - 1; i > 0 && int32((*SrcItem)(unsafe.Pointer(p+8+uintptr(i)*104)).Ffg.Fjointype)&JT_RIGHT == 0; i-- {
}
i--
for __ccgo1 := true; __ccgo1; __ccgo1 = libc.PreDecInt32(&i, 1) >= 0 {
*(*U8)(unsafe.Pointer(p + 8 + uintptr(i)*104 + 60)) |= U8(JT_LTORJ)
}
}
}
}
// Generate VDBE code for a BEGIN statement.
func Xsqlite3BeginTransaction(tls *libc.TLS, pParse uintptr, type1 int32) {
var db uintptr
var v uintptr
var i int32
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if Xsqlite3AuthCheck(tls, pParse, SQLITE_TRANSACTION, ts+14906, uintptr(0), uintptr(0)) != 0 {
return
}
v = Xsqlite3GetVdbe(tls, pParse)
if !(v != 0) {
return
}
if type1 != TK_DEFERRED {
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var eTxnType int32
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if pBt != 0 && Xsqlite3BtreeIsReadonly(tls, pBt) != 0 {
eTxnType = 0
} else if type1 == TK_EXCLUSIVE {
eTxnType = 2
} else {
eTxnType = 1
}
Xsqlite3VdbeAddOp2(tls, v, OP_Transaction, i, eTxnType)
Xsqlite3VdbeUsesBtree(tls, v, i)
}
}
Xsqlite3VdbeAddOp0(tls, v, OP_AutoCommit)
}
// Generate VDBE code for a COMMIT or ROLLBACK statement.
// Code for ROLLBACK is generated if eType==TK_ROLLBACK. Otherwise
// code is generated for a COMMIT.
func Xsqlite3EndTransaction(tls *libc.TLS, pParse uintptr, eType int32) {
var v uintptr
var isRollback int32
isRollback = libc.Bool32(eType == TK_ROLLBACK)
if Xsqlite3AuthCheck(tls, pParse, SQLITE_TRANSACTION,
func() uintptr {
if isRollback != 0 {
return ts + 14912
}
return ts + 14921
}(), uintptr(0), uintptr(0)) != 0 {
return
}
v = Xsqlite3GetVdbe(tls, pParse)
if v != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_AutoCommit, 1, isRollback)
}
}
// This function is called by the parser when it parses a command to create,
// release or rollback an SQL savepoint.
func Xsqlite3Savepoint(tls *libc.TLS, pParse uintptr, op int32, pName uintptr) {
var zName uintptr = Xsqlite3NameFromToken(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pName)
if zName != 0 {
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
if !(v != 0) || Xsqlite3AuthCheck(tls, pParse, SQLITE_SAVEPOINT, az[op], zName, uintptr(0)) != 0 {
Xsqlite3DbFree(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, zName)
return
}
Xsqlite3VdbeAddOp4(tls, v, OP_Savepoint, op, 0, 0, zName, -6)
}
}
var az = [3]uintptr{ts + 14906, ts + 14928, ts + 14912}
// Make sure the TEMP database is open and available for use. Return
// the number of errors. Leave any error messages in the pParse structure.
func Xsqlite3OpenTempDatabase(tls *libc.TLS, pParse uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpBt == uintptr(0) && !(int32((*Parse)(unsafe.Pointer(pParse)).Fexplain) != 0) {
var rc int32
rc = Xsqlite3BtreeOpen(tls, (*Sqlite3)(unsafe.Pointer(db)).FpVfs, uintptr(0), db, bp, 0, flags)
if rc != SQLITE_OK {
Xsqlite3ErrorMsg(tls, pParse,
ts+14936, 0)
(*Parse)(unsafe.Pointer(pParse)).Frc = rc
return 1
}
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + 1*32)).FpBt = *(*uintptr)(unsafe.Pointer(bp))
if SQLITE_NOMEM == Xsqlite3BtreeSetPageSize(tls, *(*uintptr)(unsafe.Pointer(bp)), (*Sqlite3)(unsafe.Pointer(db)).FnextPagesize, 0, 0) {
Xsqlite3OomFault(tls, db)
return 1
}
}
return 0
}
var flags int32 = SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE | SQLITE_OPEN_EXCLUSIVE | SQLITE_OPEN_DELETEONCLOSE | SQLITE_OPEN_TEMP_DB
func sqlite3CodeVerifySchemaAtToplevel(tls *libc.TLS, pToplevel uintptr, iDb int32) {
if libc.Bool32((*Parse)(unsafe.Pointer(pToplevel)).FcookieMask&(YDbMask(1)<<iDb) != YDbMask(0)) == 0 {
*(*YDbMask)(unsafe.Pointer(pToplevel + 124)) |= YDbMask(1) << iDb
if !(0 != 0) && iDb == 1 {
Xsqlite3OpenTempDatabase(tls, pToplevel)
}
}
}
func Xsqlite3CodeVerifySchema(tls *libc.TLS, pParse uintptr, iDb int32) {
sqlite3CodeVerifySchemaAtToplevel(tls, func() uintptr {
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel != 0 {
return (*Parse)(unsafe.Pointer(pParse)).FpToplevel
}
return pParse
}(), iDb)
}
// If argument zDb is NULL, then call sqlite3CodeVerifySchema() for each
// attached database. Otherwise, invoke it for the database named zDb only.
func Xsqlite3CodeVerifyNamedSchema(tls *libc.TLS, pParse uintptr, zDb uintptr) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var i int32
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pDb uintptr = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32
if (*Db)(unsafe.Pointer(pDb)).FpBt != 0 && (!(zDb != 0) || 0 == Xsqlite3StrICmp(tls, zDb, (*Db)(unsafe.Pointer(pDb)).FzDbSName)) {
Xsqlite3CodeVerifySchema(tls, pParse, i)
}
}
}
// Generate VDBE code that prepares for doing an operation that
// might change the database.
//
// This routine starts a new transaction if we are not already within
// a transaction. If we are already within a transaction, then a checkpoint
// is set if the setStatement parameter is true. A checkpoint should
// be set for operations that might fail (due to a constraint) part of
// the way through and which will need to undo some writes without having to
// rollback the whole transaction. For operations where all constraints
// can be checked before any changes are made to the database, it is never
// necessary to undo a write and the checkpoint should not be set.
func Xsqlite3BeginWriteOperation(tls *libc.TLS, pParse uintptr, setStatement int32, iDb int32) {
var pToplevel uintptr = func() uintptr {
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel != 0 {
return (*Parse)(unsafe.Pointer(pParse)).FpToplevel
}
return pParse
}()
sqlite3CodeVerifySchemaAtToplevel(tls, pToplevel, iDb)
*(*YDbMask)(unsafe.Pointer(pToplevel + 120)) |= YDbMask(1) << iDb
*(*U8)(unsafe.Pointer(pToplevel + 32)) |= U8(setStatement)
}
// Indicate that the statement currently under construction might write
// more than one entry (example: deleting one row then inserting another,
// inserting multiple rows in a table, or inserting a row and index entries.)
// If an abort occurs after some of these writes have completed, then it will
// be necessary to undo the completed writes.
func Xsqlite3MultiWrite(tls *libc.TLS, pParse uintptr) {
var pToplevel uintptr = func() uintptr {
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel != 0 {
return (*Parse)(unsafe.Pointer(pParse)).FpToplevel
}
return pParse
}()
(*Parse)(unsafe.Pointer(pToplevel)).FisMultiWrite = U8(1)
}
// The code generator calls this routine if is discovers that it is
// possible to abort a statement prior to completion. In order to
// perform this abort without corrupting the database, we need to make
// sure that the statement is protected by a statement transaction.
//
// Technically, we only need to set the mayAbort flag if the
// isMultiWrite flag was previously set. There is a time dependency
// such that the abort must occur after the multiwrite. This makes
// some statements involving the REPLACE conflict resolution algorithm
// go a little faster. But taking advantage of this time dependency
// makes it more difficult to prove that the code is correct (in
// particular, it prevents us from writing an effective
// implementation of sqlite3AssertMayAbort()) and so we have chosen
// to take the safe route and skip the optimization.
func Xsqlite3MayAbort(tls *libc.TLS, pParse uintptr) {
var pToplevel uintptr = func() uintptr {
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel != 0 {
return (*Parse)(unsafe.Pointer(pParse)).FpToplevel
}
return pParse
}()
(*Parse)(unsafe.Pointer(pToplevel)).FmayAbort = U8(1)
}
// Code an OP_Halt that causes the vdbe to return an SQLITE_CONSTRAINT
// error. The onError parameter determines which (if any) of the statement
// and/or current transaction is rolled back.
func Xsqlite3HaltConstraint(tls *libc.TLS, pParse uintptr, errCode int32, onError int32, p4 uintptr, p4type I8, p5Errmsg U8) {
var v uintptr
v = Xsqlite3GetVdbe(tls, pParse)
if onError == OE_Abort {
Xsqlite3MayAbort(tls, pParse)
}
Xsqlite3VdbeAddOp4(tls, v, OP_Halt, errCode, onError, 0, p4, int32(p4type))
Xsqlite3VdbeChangeP5(tls, v, uint16(p5Errmsg))
}
// Code an OP_Halt due to UNIQUE or PRIMARY KEY constraint violation.
func Xsqlite3UniqueConstraint(tls *libc.TLS, pParse uintptr, onError int32, pIdx uintptr) {
bp := tls.Alloc(40)
defer tls.Free(40)
var zErr uintptr
var j int32
var pTab uintptr = (*Index)(unsafe.Pointer(pIdx)).FpTable
Xsqlite3StrAccumInit(tls, bp+8, (*Parse)(unsafe.Pointer(pParse)).Fdb, uintptr(0), 0,
*(*int32)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb + 136)))
if (*Index)(unsafe.Pointer(pIdx)).FaColExpr != 0 {
Xsqlite3_str_appendf(tls, bp+8, ts+15006, libc.VaList(bp, (*Index)(unsafe.Pointer(pIdx)).FzName))
} else {
for j = 0; j < int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol); j++ {
var zCol uintptr
zCol = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(j)*2)))*24)).FzCnName
if j != 0 {
Xsqlite3_str_append(tls, bp+8, ts+15017, 2)
}
Xsqlite3_str_appendall(tls, bp+8, (*Table)(unsafe.Pointer(pTab)).FzName)
Xsqlite3_str_append(tls, bp+8, ts+1560, 1)
Xsqlite3_str_appendall(tls, bp+8, zCol)
}
}
zErr = Xsqlite3StrAccumFinish(tls, bp+8)
Xsqlite3HaltConstraint(tls, pParse,
func() int32 {
if int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY {
return SQLITE_CONSTRAINT | int32(6)<<8
}
return SQLITE_CONSTRAINT | int32(8)<<8
}(),
onError, zErr, int8(-6), uint8(P5_ConstraintUnique))
}
// Code an OP_Halt due to non-unique rowid.
func Xsqlite3RowidConstraint(tls *libc.TLS, pParse uintptr, onError int32, pTab uintptr) {
bp := tls.Alloc(24)
defer tls.Free(24)
var zMsg uintptr
var rc int32
if int32((*Table)(unsafe.Pointer(pTab)).FiPKey) >= 0 {
zMsg = Xsqlite3MPrintf(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, ts+12464, libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName,
(*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr((*Table)(unsafe.Pointer(pTab)).FiPKey)*24)).FzCnName))
rc = SQLITE_CONSTRAINT | int32(6)<<8
} else {
zMsg = Xsqlite3MPrintf(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, ts+15020, libc.VaList(bp+16, (*Table)(unsafe.Pointer(pTab)).FzName))
rc = SQLITE_CONSTRAINT | int32(10)<<8
}
Xsqlite3HaltConstraint(tls, pParse, rc, onError, zMsg, int8(-6),
uint8(P5_ConstraintUnique))
}
func collationMatch(tls *libc.TLS, zColl uintptr, pIndex uintptr) int32 {
var i int32
for i = 0; i < int32((*Index)(unsafe.Pointer(pIndex)).FnColumn); i++ {
var z uintptr = *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FazColl + uintptr(i)*8))
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FaiColumn + uintptr(i)*2))) >= 0 && 0 == Xsqlite3StrICmp(tls, z, zColl) {
return 1
}
}
return 0
}
func reindexTable(tls *libc.TLS, pParse uintptr, pTab uintptr, zColl uintptr) {
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
var pIndex uintptr
for pIndex = (*Table)(unsafe.Pointer(pTab)).FpIndex; pIndex != 0; pIndex = (*Index)(unsafe.Pointer(pIndex)).FpNext {
if zColl == uintptr(0) || collationMatch(tls, zColl, pIndex) != 0 {
var iDb int32 = Xsqlite3SchemaToIndex(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Table)(unsafe.Pointer(pTab)).FpSchema)
Xsqlite3BeginWriteOperation(tls, pParse, 0, iDb)
sqlite3RefillIndex(tls, pParse, pIndex, -1)
}
}
}
}
func reindexDatabases(tls *libc.TLS, pParse uintptr, zColl uintptr) {
var pDb uintptr
var iDb int32
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var k uintptr
var pTab uintptr
iDb = 0
pDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb
__1:
if !(iDb < (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __3
}
{
for k = (*Hash)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema + 8)).Ffirst; k != 0; k = (*HashElem)(unsafe.Pointer(k)).Fnext {
pTab = (*HashElem)(unsafe.Pointer(k)).Fdata
reindexTable(tls, pParse, pTab, zColl)
}
}
goto __2
__2:
iDb++
pDb += 32
goto __1
goto __3
__3:
}
// Generate code for the REINDEX command.
//
// REINDEX -- 1
// REINDEX <collation> -- 2
// REINDEX ?<database>.?<tablename> -- 3
// REINDEX ?<database>.?<indexname> -- 4
//
// Form 1 causes all indices in all attached databases to be rebuilt.
// Form 2 rebuilds all indices in all databases that use the named
// collating function. Forms 3 and 4 rebuild the named index or all
// indices associated with the named table.
func Xsqlite3Reindex(tls *libc.TLS, pParse uintptr, pName1 uintptr, pName2 uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pColl uintptr
var z uintptr
var zDb uintptr
var pTab uintptr
var pIndex uintptr
var iDb int32
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if SQLITE_OK != Xsqlite3ReadSchema(tls, pParse) {
return
}
if pName1 == uintptr(0) {
reindexDatabases(tls, pParse, uintptr(0))
return
} else if pName2 == uintptr(0) || (*Token)(unsafe.Pointer(pName2)).Fz == uintptr(0) {
var zColl uintptr
zColl = Xsqlite3NameFromToken(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pName1)
if !(zColl != 0) {
return
}
pColl = Xsqlite3FindCollSeq(tls, db, (*Sqlite3)(unsafe.Pointer(db)).Fenc, zColl, 0)
if pColl != 0 {
reindexDatabases(tls, pParse, zColl)
Xsqlite3DbFree(tls, db, zColl)
return
}
Xsqlite3DbFree(tls, db, zColl)
}
iDb = Xsqlite3TwoPartName(tls, pParse, pName1, pName2, bp)
if iDb < 0 {
return
}
z = Xsqlite3NameFromToken(tls, db, *(*uintptr)(unsafe.Pointer(bp)))
if z == uintptr(0) {
return
}
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
pTab = Xsqlite3FindTable(tls, db, z, zDb)
if pTab != 0 {
reindexTable(tls, pParse, pTab, uintptr(0))
Xsqlite3DbFree(tls, db, z)
return
}
pIndex = Xsqlite3FindIndex(tls, db, z, zDb)
Xsqlite3DbFree(tls, db, z)
if pIndex != 0 {
Xsqlite3BeginWriteOperation(tls, pParse, 0, iDb)
sqlite3RefillIndex(tls, pParse, pIndex, -1)
return
}
Xsqlite3ErrorMsg(tls, pParse, ts+15029, 0)
}
// Return a KeyInfo structure that is appropriate for the given Index.
//
// The caller should invoke sqlite3KeyInfoUnref() on the returned object
// when it has finished using it.
func Xsqlite3KeyInfoOfIndex(tls *libc.TLS, pParse uintptr, pIdx uintptr) uintptr {
var i int32
var nCol int32 = int32((*Index)(unsafe.Pointer(pIdx)).FnColumn)
var nKey int32 = int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)
var pKey uintptr
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return uintptr(0)
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x8>>3)) != 0 {
pKey = Xsqlite3KeyInfoAlloc(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, nKey, nCol-nKey)
} else {
pKey = Xsqlite3KeyInfoAlloc(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, nCol, 0)
}
if pKey != 0 {
for i = 0; i < nCol; i++ {
var zColl uintptr = *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(i)*8))
*(*uintptr)(unsafe.Pointer(pKey + 32 + uintptr(i)*8)) = func() uintptr {
if zColl == uintptr(unsafe.Pointer(&Xsqlite3StrBINARY)) {
return uintptr(0)
}
return Xsqlite3LocateCollSeq(tls, pParse, zColl)
}()
*(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer(pKey)).FaSortFlags + uintptr(i))) = *(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaSortOrder + uintptr(i)))
}
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
if int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x100>>8) == 0 {
libc.SetBitFieldPtr16Uint32(pIdx+100, uint32(1), 8, 0x100)
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_ERROR | int32(2)<<8
}
Xsqlite3KeyInfoUnref(tls, pKey)
pKey = uintptr(0)
}
}
return pKey
}
// Create a new CTE object
func Xsqlite3CteNew(tls *libc.TLS, pParse uintptr, pName uintptr, pArglist uintptr, pQuery uintptr, eM10d U8) uintptr {
var pNew uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
pNew = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Cte{})))
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
Xsqlite3ExprListDelete(tls, db, pArglist)
Xsqlite3SelectDelete(tls, db, pQuery)
} else {
(*Cte)(unsafe.Pointer(pNew)).FpSelect = pQuery
(*Cte)(unsafe.Pointer(pNew)).FpCols = pArglist
(*Cte)(unsafe.Pointer(pNew)).FzName = Xsqlite3NameFromToken(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pName)
(*Cte)(unsafe.Pointer(pNew)).FeM10d = eM10d
}
return pNew
}
func cteClear(tls *libc.TLS, db uintptr, pCte uintptr) {
Xsqlite3ExprListDelete(tls, db, (*Cte)(unsafe.Pointer(pCte)).FpCols)
Xsqlite3SelectDelete(tls, db, (*Cte)(unsafe.Pointer(pCte)).FpSelect)
Xsqlite3DbFree(tls, db, (*Cte)(unsafe.Pointer(pCte)).FzName)
}
// Free the contents of the CTE object passed as the second argument.
func Xsqlite3CteDelete(tls *libc.TLS, db uintptr, pCte uintptr) {
cteClear(tls, db, pCte)
Xsqlite3DbFree(tls, db, pCte)
}
// This routine is invoked once per CTE by the parser while parsing a
// WITH clause. The CTE described by teh third argument is added to
// the WITH clause of the second argument. If the second argument is
// NULL, then a new WITH argument is created.
func Xsqlite3WithAdd(tls *libc.TLS, pParse uintptr, pWith uintptr, pCte uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pNew uintptr
var zName uintptr
if pCte == uintptr(0) {
return pWith
}
zName = (*Cte)(unsafe.Pointer(pCte)).FzName
if zName != 0 && pWith != 0 {
var i int32
for i = 0; i < (*With)(unsafe.Pointer(pWith)).FnCte; i++ {
if Xsqlite3StrICmp(tls, zName, (*Cte)(unsafe.Pointer(pWith+16+uintptr(i)*48)).FzName) == 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+15075, libc.VaList(bp, zName))
}
}
}
if pWith != 0 {
var nByte Sqlite3_int64 = Sqlite3_int64(uint64(unsafe.Sizeof(With{})) + uint64(unsafe.Sizeof(Cte{}))*uint64((*With)(unsafe.Pointer(pWith)).FnCte))
pNew = Xsqlite3DbRealloc(tls, db, pWith, uint64(nByte))
} else {
pNew = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(With{})))
}
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
Xsqlite3CteDelete(tls, db, pCte)
pNew = pWith
} else {
*(*Cte)(unsafe.Pointer(pNew + 16 + uintptr(libc.PostIncInt32(&(*With)(unsafe.Pointer(pNew)).FnCte, 1))*48)) = *(*Cte)(unsafe.Pointer(pCte))
Xsqlite3DbFree(tls, db, pCte)
}
return pNew
}
// Free the contents of the With object passed as the second argument.
func Xsqlite3WithDelete(tls *libc.TLS, db uintptr, pWith uintptr) {
if pWith != 0 {
var i int32
for i = 0; i < (*With)(unsafe.Pointer(pWith)).FnCte; i++ {
cteClear(tls, db, pWith+16+uintptr(i)*48)
}
Xsqlite3DbFree(tls, db, pWith)
}
}
func callCollNeeded(tls *libc.TLS, db uintptr, enc int32, zName uintptr) {
if (*Sqlite3)(unsafe.Pointer(db)).FxCollNeeded != 0 {
var zExternal uintptr = Xsqlite3DbStrDup(tls, db, zName)
if !(zExternal != 0) {
return
}
(*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxCollNeeded})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpCollNeededArg, db, enc, zExternal)
Xsqlite3DbFree(tls, db, zExternal)
}
if (*Sqlite3)(unsafe.Pointer(db)).FxCollNeeded16 != 0 {
var zExternal uintptr
var pTmp uintptr = Xsqlite3ValueNew(tls, db)
Xsqlite3ValueSetStr(tls, pTmp, -1, zName, uint8(SQLITE_UTF8), uintptr(0))
zExternal = Xsqlite3ValueText(tls, pTmp, uint8(SQLITE_UTF16LE))
if zExternal != 0 {
(*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxCollNeeded16})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpCollNeededArg, db, int32((*Sqlite3)(unsafe.Pointer(db)).Fenc), zExternal)
}
Xsqlite3ValueFree(tls, pTmp)
}
}
func synthCollSeq(tls *libc.TLS, db uintptr, pColl uintptr) int32 {
var pColl2 uintptr
var z uintptr = (*CollSeq)(unsafe.Pointer(pColl)).FzName
var i int32
for i = 0; i < 3; i++ {
pColl2 = Xsqlite3FindCollSeq(tls, db, aEnc[i], z, 0)
if (*CollSeq)(unsafe.Pointer(pColl2)).FxCmp != uintptr(0) {
libc.X__builtin___memcpy_chk(tls, pColl, pColl2, uint64(unsafe.Sizeof(CollSeq{})), libc.X__builtin_object_size(tls, pColl, 0))
(*CollSeq)(unsafe.Pointer(pColl)).FxDel = uintptr(0)
return SQLITE_OK
}
}
return SQLITE_ERROR
}
var aEnc = [3]U8{U8(SQLITE_UTF16BE), U8(SQLITE_UTF16LE), U8(SQLITE_UTF8)}
// This routine is called on a collation sequence before it is used to
// check that it is defined. An undefined collation sequence exists when
// a database is loaded that contains references to collation sequences
// that have not been defined by sqlite3_create_collation() etc.
//
// If required, this routine calls the 'collation needed' callback to
// request a definition of the collating sequence. If this doesn't work,
// an equivalent collating sequence that uses a text encoding different
// from the main database is substituted, if one is available.
func Xsqlite3CheckCollSeq(tls *libc.TLS, pParse uintptr, pColl uintptr) int32 {
if pColl != 0 && (*CollSeq)(unsafe.Pointer(pColl)).FxCmp == uintptr(0) {
var zName uintptr = (*CollSeq)(unsafe.Pointer(pColl)).FzName
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var p uintptr = Xsqlite3GetCollSeq(tls, pParse, (*Sqlite3)(unsafe.Pointer(db)).Fenc, pColl, zName)
if !(p != 0) {
return SQLITE_ERROR
}
}
return SQLITE_OK
}
func findCollSeqEntry(tls *libc.TLS, db uintptr, zName uintptr, create int32) uintptr {
var pColl uintptr
pColl = Xsqlite3HashFind(tls, db+648, zName)
if uintptr(0) == pColl && create != 0 {
var nName int32 = Xsqlite3Strlen30(tls, zName) + 1
pColl = Xsqlite3DbMallocZero(tls, db, uint64(3)*uint64(unsafe.Sizeof(CollSeq{}))+uint64(nName))
if pColl != 0 {
var pDel uintptr = uintptr(0)
(*CollSeq)(unsafe.Pointer(pColl)).FzName = pColl + 3*40
(*CollSeq)(unsafe.Pointer(pColl)).Fenc = U8(SQLITE_UTF8)
(*CollSeq)(unsafe.Pointer(pColl + 1*40)).FzName = pColl + 3*40
(*CollSeq)(unsafe.Pointer(pColl + 1*40)).Fenc = U8(SQLITE_UTF16LE)
(*CollSeq)(unsafe.Pointer(pColl + 2*40)).FzName = pColl + 3*40
(*CollSeq)(unsafe.Pointer(pColl + 2*40)).Fenc = U8(SQLITE_UTF16BE)
libc.X__builtin___memcpy_chk(tls, (*CollSeq)(unsafe.Pointer(pColl)).FzName, zName, uint64(nName), libc.X__builtin_object_size(tls, (*CollSeq)(unsafe.Pointer(pColl)).FzName, 0))
pDel = Xsqlite3HashInsert(tls, db+648, (*CollSeq)(unsafe.Pointer(pColl)).FzName, pColl)
if pDel != uintptr(0) {
Xsqlite3OomFault(tls, db)
Xsqlite3DbFree(tls, db, pDel)
pColl = uintptr(0)
}
}
}
return pColl
}
// Parameter zName points to a UTF-8 encoded string nName bytes long.
// Return the CollSeq* pointer for the collation sequence named zName
// for the encoding 'enc' from the database 'db'.
//
// If the entry specified is not found and 'create' is true, then create a
// new entry. Otherwise return NULL.
//
// A separate function sqlite3LocateCollSeq() is a wrapper around
// this routine. sqlite3LocateCollSeq() invokes the collation factory
// if necessary and generates an error message if the collating sequence
// cannot be found.
//
// See also: sqlite3LocateCollSeq(), sqlite3GetCollSeq()
func Xsqlite3FindCollSeq(tls *libc.TLS, db uintptr, enc U8, zName uintptr, create int32) uintptr {
var pColl uintptr
if zName != 0 {
pColl = findCollSeqEntry(tls, db, zName, create)
if pColl != 0 {
pColl += 40 * uintptr(int32(enc)-1)
}
} else {
pColl = (*Sqlite3)(unsafe.Pointer(db)).FpDfltColl
}
return pColl
}
// Change the text encoding for a database connection. This means that
// the pDfltColl must change as well.
func Xsqlite3SetTextEncoding(tls *libc.TLS, db uintptr, enc U8) {
(*Sqlite3)(unsafe.Pointer(db)).Fenc = enc
(*Sqlite3)(unsafe.Pointer(db)).FpDfltColl = Xsqlite3FindCollSeq(tls, db, enc, uintptr(unsafe.Pointer(&Xsqlite3StrBINARY)), 0)
}
// This function is responsible for invoking the collation factory callback
// or substituting a collation sequence of a different encoding when the
// requested collation sequence is not available in the desired encoding.
//
// If it is not NULL, then pColl must point to the database native encoding
// collation sequence with name zName, length nName.
//
// The return value is either the collation sequence to be used in database
// db for collation type name zName, length nName, or NULL, if no collation
// sequence can be found. If no collation is found, leave an error message.
//
// See also: sqlite3LocateCollSeq(), sqlite3FindCollSeq()
func Xsqlite3GetCollSeq(tls *libc.TLS, pParse uintptr, enc U8, pColl uintptr, zName uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var p uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
p = pColl
if !(p != 0) {
p = Xsqlite3FindCollSeq(tls, db, enc, zName, 0)
}
if !(p != 0) || !(int32((*CollSeq)(unsafe.Pointer(p)).FxCmp) != 0) {
callCollNeeded(tls, db, int32(enc), zName)
p = Xsqlite3FindCollSeq(tls, db, enc, zName, 0)
}
if p != 0 && !(int32((*CollSeq)(unsafe.Pointer(p)).FxCmp) != 0) && synthCollSeq(tls, db, p) != 0 {
p = uintptr(0)
}
if p == uintptr(0) {
Xsqlite3ErrorMsg(tls, pParse, ts+15105, libc.VaList(bp, zName))
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_ERROR | int32(1)<<8
}
return p
}
// This function returns the collation sequence for database native text
// encoding identified by the string zName.
//
// If the requested collation sequence is not available, or not available
// in the database native encoding, the collation factory is invoked to
// request it. If the collation factory does not supply such a sequence,
// and the sequence is available in another text encoding, then that is
// returned instead.
//
// If no versions of the requested collations sequence are available, or
// another error occurs, NULL is returned and an error message written into
// pParse.
//
// This routine is a wrapper around sqlite3FindCollSeq(). This routine
// invokes the collation factory if the named collation cannot be found
// and generates an error message.
//
// See also: sqlite3FindCollSeq(), sqlite3GetCollSeq()
func Xsqlite3LocateCollSeq(tls *libc.TLS, pParse uintptr, zName uintptr) uintptr {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var enc U8 = (*Sqlite3)(unsafe.Pointer(db)).Fenc
var initbusy U8 = (*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy
var pColl uintptr
pColl = Xsqlite3FindCollSeq(tls, db, enc, zName, int32(initbusy))
if !(initbusy != 0) && (!(pColl != 0) || !(int32((*CollSeq)(unsafe.Pointer(pColl)).FxCmp) != 0)) {
pColl = Xsqlite3GetCollSeq(tls, pParse, enc, pColl, zName)
}
return pColl
}
func matchQuality(tls *libc.TLS, p uintptr, nArg int32, enc U8) int32 {
var match int32
if int32((*FuncDef)(unsafe.Pointer(p)).FnArg) != nArg {
if nArg == -2 {
if (*FuncDef)(unsafe.Pointer(p)).FxSFunc == uintptr(0) {
return 0
}
return FUNC_PERFECT_MATCH
}
if int32((*FuncDef)(unsafe.Pointer(p)).FnArg) >= 0 {
return 0
}
}
if int32((*FuncDef)(unsafe.Pointer(p)).FnArg) == nArg {
match = 4
} else {
match = 1
}
if U32(enc) == (*FuncDef)(unsafe.Pointer(p)).FfuncFlags&U32(SQLITE_FUNC_ENCMASK) {
match = match + 2
} else if U32(enc)&(*FuncDef)(unsafe.Pointer(p)).FfuncFlags&U32(2) != U32(0) {
match = match + 1
}
return match
}
// Search a FuncDefHash for a function with the given name. Return
// a pointer to the matching FuncDef if found, or 0 if there is no match.
func Xsqlite3FunctionSearch(tls *libc.TLS, h int32, zFunc uintptr) uintptr {
var p uintptr
for p = *(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&Xsqlite3BuiltinFunctions)) + uintptr(h)*8)); p != 0; p = *(*uintptr)(unsafe.Pointer(p + 64)) {
if Xsqlite3StrICmp(tls, (*FuncDef)(unsafe.Pointer(p)).FzName, zFunc) == 0 {
return p
}
}
return uintptr(0)
}
// Insert a new FuncDef into a FuncDefHash hash table.
func Xsqlite3InsertBuiltinFuncs(tls *libc.TLS, aDef uintptr, nDef int32) {
var i int32
for i = 0; i < nDef; i++ {
var pOther uintptr
var zName uintptr = (*FuncDef)(unsafe.Pointer(aDef + uintptr(i)*72)).FzName
var nName int32 = Xsqlite3Strlen30(tls, zName)
var h int32 = (int32(*(*int8)(unsafe.Pointer(zName))) + nName) % SQLITE_FUNC_HASH_SZ
pOther = Xsqlite3FunctionSearch(tls, h, zName)
if pOther != 0 {
(*FuncDef)(unsafe.Pointer(aDef + uintptr(i)*72)).FpNext = (*FuncDef)(unsafe.Pointer(pOther)).FpNext
(*FuncDef)(unsafe.Pointer(pOther)).FpNext = aDef + uintptr(i)*72
} else {
(*FuncDef)(unsafe.Pointer(aDef + uintptr(i)*72)).FpNext = uintptr(0)
*(*uintptr)(unsafe.Pointer(aDef + uintptr(i)*72 + 64)) = *(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&Xsqlite3BuiltinFunctions)) + uintptr(h)*8))
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&Xsqlite3BuiltinFunctions)) + uintptr(h)*8)) = aDef + uintptr(i)*72
}
}
}
// Locate a user function given a name, a number of arguments and a flag
// indicating whether the function prefers UTF-16 over UTF-8. Return a
// pointer to the FuncDef structure that defines that function, or return
// NULL if the function does not exist.
//
// If the createFlag argument is true, then a new (blank) FuncDef
// structure is created and liked into the "db" structure if a
// no matching function previously existed.
//
// If nArg is -2, then the first valid function found is returned. A
// function is valid if xSFunc is non-zero. The nArg==(-2)
// case is used to see if zName is a valid function name for some number
// of arguments. If nArg is -2, then createFlag must be 0.
//
// If createFlag is false, then a function with the required name and
// number of arguments may be returned even if the eTextRep flag does not
// match that requested.
func Xsqlite3FindFunction(tls *libc.TLS, db uintptr, zName uintptr, nArg int32, enc U8, createFlag U8) uintptr {
var p uintptr
var pBest uintptr = uintptr(0)
var bestScore int32 = 0
var h int32
var nName int32
nName = Xsqlite3Strlen30(tls, zName)
p = Xsqlite3HashFind(tls, db+624, zName)
for p != 0 {
var score int32 = matchQuality(tls, p, nArg, enc)
if score > bestScore {
pBest = p
bestScore = score
}
p = (*FuncDef)(unsafe.Pointer(p)).FpNext
}
if !(createFlag != 0) && (pBest == uintptr(0) || (*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_PreferBuiltin) != U32(0)) {
bestScore = 0
h = (int32(Xsqlite3UpperToLower[U8(*(*int8)(unsafe.Pointer(zName)))]) + nName) % SQLITE_FUNC_HASH_SZ
p = Xsqlite3FunctionSearch(tls, h, zName)
for p != 0 {
var score int32 = matchQuality(tls, p, nArg, enc)
if score > bestScore {
pBest = p
bestScore = score
}
p = (*FuncDef)(unsafe.Pointer(p)).FpNext
}
}
if createFlag != 0 && bestScore < FUNC_PERFECT_MATCH && libc.AssignUintptr(&pBest, Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(FuncDef{}))+uint64(nName)+uint64(1))) != uintptr(0) {
var pOther uintptr
var z uintptr
(*FuncDef)(unsafe.Pointer(pBest)).FzName = pBest + 1*72
(*FuncDef)(unsafe.Pointer(pBest)).FnArg = I8(U16(nArg))
(*FuncDef)(unsafe.Pointer(pBest)).FfuncFlags = U32(enc)
libc.X__builtin___memcpy_chk(tls, pBest+1*72, zName, uint64(nName+1), libc.X__builtin_object_size(tls, pBest+1*72, 0))
for z = (*FuncDef)(unsafe.Pointer(pBest)).FzName; *(*U8)(unsafe.Pointer(z)) != 0; z++ {
*(*U8)(unsafe.Pointer(z)) = Xsqlite3UpperToLower[*(*U8)(unsafe.Pointer(z))]
}
pOther = Xsqlite3HashInsert(tls, db+624, (*FuncDef)(unsafe.Pointer(pBest)).FzName, pBest)
if pOther == pBest {
Xsqlite3DbFree(tls, db, pBest)
Xsqlite3OomFault(tls, db)
return uintptr(0)
} else {
(*FuncDef)(unsafe.Pointer(pBest)).FpNext = pOther
}
}
if pBest != 0 && ((*FuncDef)(unsafe.Pointer(pBest)).FxSFunc != 0 || createFlag != 0) {
return pBest
}
return uintptr(0)
}
// Free all resources held by the schema structure. The void* argument points
// at a Schema struct. This function does not call sqlite3DbFree(db, ) on the
// pointer itself, it just cleans up subsidiary resources (i.e. the contents
// of the schema hash tables).
//
// The Schema.cache_size variable is not cleared.
func Xsqlite3SchemaClear(tls *libc.TLS, p uintptr) {
bp := tls.Alloc(896)
defer tls.Free(896)
var pElem uintptr
var pSchema uintptr = p
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Sqlite3{})), libc.X__builtin_object_size(tls, bp, 0))
*(*Hash)(unsafe.Pointer(bp + 872)) = (*Schema)(unsafe.Pointer(pSchema)).FtblHash
*(*Hash)(unsafe.Pointer(bp + 848)) = (*Schema)(unsafe.Pointer(pSchema)).FtrigHash
Xsqlite3HashInit(tls, pSchema+56)
Xsqlite3HashClear(tls, pSchema+32)
for pElem = (*Hash)(unsafe.Pointer(bp + 848)).Ffirst; pElem != 0; pElem = (*HashElem)(unsafe.Pointer(pElem)).Fnext {
Xsqlite3DeleteTrigger(tls, bp, (*HashElem)(unsafe.Pointer(pElem)).Fdata)
}
Xsqlite3HashClear(tls, bp+848)
Xsqlite3HashInit(tls, pSchema+8)
for pElem = (*Hash)(unsafe.Pointer(bp + 872)).Ffirst; pElem != 0; pElem = (*HashElem)(unsafe.Pointer(pElem)).Fnext {
var pTab uintptr = (*HashElem)(unsafe.Pointer(pElem)).Fdata
Xsqlite3DeleteTable(tls, bp, pTab)
}
Xsqlite3HashClear(tls, bp+872)
Xsqlite3HashClear(tls, pSchema+80)
(*Schema)(unsafe.Pointer(pSchema)).FpSeqTab = uintptr(0)
if int32((*Schema)(unsafe.Pointer(pSchema)).FschemaFlags)&DB_SchemaLoaded != 0 {
(*Schema)(unsafe.Pointer(pSchema)).FiGeneration++
}
*(*U16)(unsafe.Pointer(pSchema + 114)) &= libc.Uint16FromInt32(libc.CplInt32(DB_SchemaLoaded | DB_ResetWanted))
}
// Find and return the schema associated with a BTree. Create
// a new one if necessary.
func Xsqlite3SchemaGet(tls *libc.TLS, db uintptr, pBt uintptr) uintptr {
var p uintptr
if pBt != 0 {
p = Xsqlite3BtreeSchema(tls, pBt, int32(unsafe.Sizeof(Schema{})), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3SchemaClear})))
} else {
p = Xsqlite3DbMallocZero(tls, uintptr(0), uint64(unsafe.Sizeof(Schema{})))
}
if !(p != 0) {
Xsqlite3OomFault(tls, db)
} else if 0 == int32((*Schema)(unsafe.Pointer(p)).Ffile_format) {
Xsqlite3HashInit(tls, p+8)
Xsqlite3HashInit(tls, p+32)
Xsqlite3HashInit(tls, p+56)
Xsqlite3HashInit(tls, p+80)
(*Schema)(unsafe.Pointer(p)).Fenc = U8(SQLITE_UTF8)
}
return p
}
// While a SrcList can in general represent multiple tables and subqueries
// (as in the FROM clause of a SELECT statement) in this case it contains
// the name of a single table, as one might find in an INSERT, DELETE,
// or UPDATE statement. Look up that table in the symbol table and
// return a pointer. Set an error message and return NULL if the table
// name is not found or if any other error occurs.
//
// The following fields are initialized appropriate in pSrc:
//
// pSrc->a[0].pTab Pointer to the Table object
// pSrc->a[0].pIndex Pointer to the INDEXED BY index, if there is one
func Xsqlite3SrcListLookup(tls *libc.TLS, pParse uintptr, pSrc uintptr) uintptr {
var pItem uintptr = pSrc + 8
var pTab uintptr
pTab = Xsqlite3LocateTableItem(tls, pParse, uint32(0), pItem)
Xsqlite3DeleteTable(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*SrcItem)(unsafe.Pointer(pItem)).FpTab)
(*SrcItem)(unsafe.Pointer(pItem)).FpTab = pTab
if pTab != 0 {
(*Table)(unsafe.Pointer(pTab)).FnTabRef++
if uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x2>>1)) != 0 && Xsqlite3IndexedByLookup(tls, pParse, pItem) != 0 {
pTab = uintptr(0)
}
}
return pTab
}
// Generate byte-code that will report the number of rows modified
// by a DELETE, INSERT, or UPDATE statement.
func Xsqlite3CodeChangeCount(tls *libc.TLS, v uintptr, regCounter int32, zColName uintptr) {
Xsqlite3VdbeAddOp0(tls, v, OP_FkCheck)
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, regCounter, 1)
Xsqlite3VdbeSetNumCols(tls, v, 1)
Xsqlite3VdbeSetColName(tls, v, 0, COLNAME_NAME, zColName, uintptr(0))
}
func vtabIsReadOnly(tls *libc.TLS, pParse uintptr, pTab uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
if (*Sqlite3_module)(unsafe.Pointer((*Module)(unsafe.Pointer((*VTable)(unsafe.Pointer(Xsqlite3GetVTable(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pTab))).FpMod)).FpModule)).FxUpdate == uintptr(0) {
return 1
}
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel != uintptr(0) &&
int32((*VTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pTab + 64 + 16)))).FeVtabRisk) > libc.Bool32((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Fflags&uint64(SQLITE_TrustedSchema) != uint64(0)) {
Xsqlite3ErrorMsg(tls, pParse, ts+15136,
libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName))
}
return 0
}
func tabIsReadOnly(tls *libc.TLS, pParse uintptr, pTab uintptr) int32 {
var db uintptr
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB {
return vtabIsReadOnly(tls, pParse, pTab)
}
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_Readonly|TF_Shadow) == U32(0) {
return 0
}
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_Readonly) != U32(0) {
return libc.Bool32(Xsqlite3WritableSchema(tls, db) == 0 && int32((*Parse)(unsafe.Pointer(pParse)).Fnested) == 0)
}
return Xsqlite3ReadOnlyShadowTables(tls, db)
}
// Check to make sure the given table is writable.
//
// If pTab is not writable -> generate an error message and return 1.
// If pTab is writable but other errors have occurred -> return 1.
// If pTab is writable and no prior errors -> return 0;
func Xsqlite3IsReadOnly(tls *libc.TLS, pParse uintptr, pTab uintptr, viewOk int32) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
if tabIsReadOnly(tls, pParse, pTab) != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+15169, libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName))
return 1
}
if !(viewOk != 0) && int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW {
Xsqlite3ErrorMsg(tls, pParse, ts+15198, libc.VaList(bp+8, (*Table)(unsafe.Pointer(pTab)).FzName))
return 1
}
return 0
}
// Evaluate a view and store its result in an ephemeral table. The
// pWhere argument is an optional WHERE clause that restricts the
// set of rows in the view that are to be added to the ephemeral table.
func Xsqlite3MaterializeView(tls *libc.TLS, pParse uintptr, pView uintptr, pWhere uintptr, pOrderBy uintptr, pLimit uintptr, iCur int32) {
bp := tls.Alloc(40)
defer tls.Free(40)
var pSel uintptr
var pFrom uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var iDb int32 = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pView)).FpSchema)
pWhere = Xsqlite3ExprDup(tls, db, pWhere, 0)
pFrom = Xsqlite3SrcListAppend(tls, pParse, uintptr(0), uintptr(0), uintptr(0))
if pFrom != 0 {
(*SrcItem)(unsafe.Pointer(pFrom + 8)).FzName = Xsqlite3DbStrDup(tls, db, (*Table)(unsafe.Pointer(pView)).FzName)
(*SrcItem)(unsafe.Pointer(pFrom + 8)).FzDatabase = Xsqlite3DbStrDup(tls, db, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName)
}
pSel = Xsqlite3SelectNew(tls, pParse, uintptr(0), pFrom, pWhere, uintptr(0), uintptr(0), pOrderBy,
uint32(SF_IncludeHidden), pLimit)
Xsqlite3SelectDestInit(tls, bp, SRT_EphemTab, iCur)
Xsqlite3Select(tls, pParse, pSel, bp)
Xsqlite3SelectDelete(tls, db, pSel)
}
// Generate code for a DELETE FROM statement.
//
// DELETE FROM table_wxyz WHERE a<5 AND b NOT NULL;
// \________/ \________________/
// pTabList pWhere
func Xsqlite3DeleteFrom(tls *libc.TLS, pParse uintptr, pTabList uintptr, pWhere uintptr, pOrderBy uintptr, pLimit uintptr) {
bp := tls.Alloc(88)
defer tls.Free(88)
var v uintptr
var pTab uintptr
var i int32
var pWInfo uintptr
var pIdx uintptr
var iTabCur int32
var nIdx int32
var db uintptr
var iDb int32
var memCnt int32
var rcauth int32
var eOnePass int32
var aToOpen uintptr
var pPk uintptr
var iPk int32
var nPk I16
var iKey int32
var nKey I16
var iEphCur int32
var iRowSet int32
var addrBypass int32
var addrLoop int32
var addrEphOpen int32
var bComplex int32
var isView int32
var pTrigger uintptr
var iAddrOnce int32
var pVTab uintptr
var count int32
var wcf U16
*(*int32)(unsafe.Pointer(bp + 80)) = 0
*(*int32)(unsafe.Pointer(bp + 84)) = 0
memCnt = 0
aToOpen = uintptr(0)
iPk = 0
nPk = int16(1)
iEphCur = 0
iRowSet = 0
addrBypass = 0
addrLoop = 0
addrEphOpen = 0
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(AuthContext{})), libc.X__builtin_object_size(tls, bp, 0))
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __1
}
goto delete_from_cleanup
__1:
;
pTab = Xsqlite3SrcListLookup(tls, pParse, pTabList)
if !(pTab == uintptr(0)) {
goto __2
}
goto delete_from_cleanup
__2:
;
pTrigger = Xsqlite3TriggersExist(tls, pParse, pTab, TK_DELETE, uintptr(0), uintptr(0))
isView = libc.Bool32(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW)
bComplex = libc.Bool32(pTrigger != 0 || Xsqlite3FkRequired(tls, pParse, pTab, uintptr(0), 0) != 0)
if !(Xsqlite3ViewGetColumnNames(tls, pParse, pTab) != 0) {
goto __3
}
goto delete_from_cleanup
__3:
;
if !(Xsqlite3IsReadOnly(tls, pParse, pTab, func() int32 {
if pTrigger != 0 {
return 1
}
return 0
}()) != 0) {
goto __4
}
goto delete_from_cleanup
__4:
;
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
rcauth = Xsqlite3AuthCheck(tls, pParse, SQLITE_DELETE, (*Table)(unsafe.Pointer(pTab)).FzName, uintptr(0),
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName)
if !(rcauth == SQLITE_DENY) {
goto __5
}
goto delete_from_cleanup
__5:
;
iTabCur = libc.AssignPtrInt32(pTabList+8+68, libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1))
nIdx = 0
pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex
__6:
if !(pIdx != 0) {
goto __8
}
(*Parse)(unsafe.Pointer(pParse)).FnTab++
goto __7
__7:
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
nIdx++
goto __6
goto __8
__8:
;
if !(isView != 0) {
goto __9
}
Xsqlite3AuthContextPush(tls, pParse, bp, (*Table)(unsafe.Pointer(pTab)).FzName)
__9:
;
v = Xsqlite3GetVdbe(tls, pParse)
if !(v == uintptr(0)) {
goto __10
}
goto delete_from_cleanup
__10:
;
if !(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) == 0) {
goto __11
}
Xsqlite3VdbeCountChanges(tls, v)
__11:
;
Xsqlite3BeginWriteOperation(tls, pParse, bComplex, iDb)
if !(isView != 0) {
goto __12
}
Xsqlite3MaterializeView(tls, pParse, pTab,
pWhere, pOrderBy, pLimit, iTabCur)
*(*int32)(unsafe.Pointer(bp + 80)) = libc.AssignPtrInt32(bp+84, iTabCur)
pOrderBy = uintptr(0)
pLimit = uintptr(0)
__12:
;
libc.X__builtin___memset_chk(tls, bp+16, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp+16, 0))
(*NameContext)(unsafe.Pointer(bp + 16)).FpParse = pParse
(*NameContext)(unsafe.Pointer(bp + 16)).FpSrcList = pTabList
if !(Xsqlite3ResolveExprNames(tls, bp+16, pWhere) != 0) {
goto __13
}
goto delete_from_cleanup
__13:
;
if !((*Sqlite3)(unsafe.Pointer(db)).Fflags&(uint64(0x00001)<<32) != uint64(0) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) != 0) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).FpTriggerTab) != 0) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).FbReturning) != 0)) {
goto __14
}
memCnt = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, memCnt)
__14:
;
if !(rcauth == SQLITE_OK &&
pWhere == uintptr(0) &&
!(bComplex != 0) &&
!(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) &&
(*Sqlite3)(unsafe.Pointer(db)).FxPreUpdateCallback == uintptr(0)) {
goto __15
}
Xsqlite3TableLock(tls, pParse, iDb, (*Table)(unsafe.Pointer(pTab)).Ftnum, uint8(1), (*Table)(unsafe.Pointer(pTab)).FzName)
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __17
}
Xsqlite3VdbeAddOp4(tls, v, OP_Clear, int32((*Table)(unsafe.Pointer(pTab)).Ftnum), iDb, func() int32 {
if memCnt != 0 {
return memCnt
}
return -1
}(),
(*Table)(unsafe.Pointer(pTab)).FzName, -1)
__17:
;
pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex
__18:
if !(pIdx != 0) {
goto __20
}
if !(int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY && !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0))) {
goto __21
}
Xsqlite3VdbeAddOp3(tls, v, OP_Clear, int32((*Index)(unsafe.Pointer(pIdx)).Ftnum), iDb, func() int32 {
if memCnt != 0 {
return memCnt
}
return -1
}())
goto __22
__21:
Xsqlite3VdbeAddOp2(tls, v, OP_Clear, int32((*Index)(unsafe.Pointer(pIdx)).Ftnum), iDb)
__22:
;
goto __19
__19:
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
goto __18
goto __20
__20:
;
goto __16
__15:
wcf = U16(WHERE_ONEPASS_DESIRED | WHERE_DUPLICATES_OK)
if !((*NameContext)(unsafe.Pointer(bp+16)).FncFlags&NC_VarSelect != 0) {
goto __23
}
bComplex = 1
__23:
;
wcf = U16(int32(wcf) | func() int32 {
if bComplex != 0 {
return 0
}
return WHERE_ONEPASS_MULTIROW
}())
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __24
}
pPk = uintptr(0)
nPk = int16(1)
iRowSet = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, iRowSet)
goto __25
__24:
pPk = Xsqlite3PrimaryKeyIndex(tls, pTab)
nPk = I16((*Index)(unsafe.Pointer(pPk)).FnKeyCol)
iPk = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += int32(nPk)
iEphCur = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
addrEphOpen = Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, iEphCur, int32(nPk))
Xsqlite3VdbeSetP4KeyInfo(tls, pParse, pPk)
__25:
;
pWInfo = Xsqlite3WhereBegin(tls, pParse, pTabList, pWhere, uintptr(0), uintptr(0), uintptr(0), wcf, iTabCur+1)
if !(pWInfo == uintptr(0)) {
goto __26
}
goto delete_from_cleanup
__26:
;
eOnePass = Xsqlite3WhereOkOnePass(tls, pWInfo, bp+72)
if !(eOnePass != ONEPASS_SINGLE) {
goto __27
}
Xsqlite3MultiWrite(tls, pParse)
__27:
;
if !(Xsqlite3WhereUsesDeferredSeek(tls, pWInfo) != 0) {
goto __28
}
Xsqlite3VdbeAddOp1(tls, v, OP_FinishSeek, iTabCur)
__28:
;
if !(memCnt != 0) {
goto __29
}
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, memCnt, 1)
__29:
;
if !(pPk != 0) {
goto __30
}
i = 0
__32:
if !(i < int32(nPk)) {
goto __34
}
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab, iTabCur,
int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(i)*2))), iPk+i)
goto __33
__33:
i++
goto __32
goto __34
__34:
;
iKey = iPk
goto __31
__30:
iKey = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab, iTabCur, -1, iKey)
__31:
;
if !(eOnePass != ONEPASS_OFF) {
goto __35
}
nKey = nPk
aToOpen = Xsqlite3DbMallocRawNN(tls, db, uint64(nIdx+2))
if !(aToOpen == uintptr(0)) {
goto __37
}
Xsqlite3WhereEnd(tls, pWInfo)
goto delete_from_cleanup
__37:
;
libc.X__builtin___memset_chk(tls, aToOpen, 1, uint64(nIdx+1), libc.X__builtin_object_size(tls, aToOpen, 0))
*(*U8)(unsafe.Pointer(aToOpen + uintptr(nIdx+1))) = U8(0)
if !(*(*int32)(unsafe.Pointer(bp + 72)) >= 0) {
goto __38
}
*(*U8)(unsafe.Pointer(aToOpen + uintptr(*(*int32)(unsafe.Pointer(bp + 72))-iTabCur))) = U8(0)
__38:
;
if !(*(*int32)(unsafe.Pointer(bp + 72 + 1*4)) >= 0) {
goto __39
}
*(*U8)(unsafe.Pointer(aToOpen + uintptr(*(*int32)(unsafe.Pointer(bp + 72 + 1*4))-iTabCur))) = U8(0)
__39:
;
if !(addrEphOpen != 0) {
goto __40
}
Xsqlite3VdbeChangeToNoop(tls, v, addrEphOpen)
__40:
;
addrBypass = Xsqlite3VdbeMakeLabel(tls, pParse)
goto __36
__35:
if !(pPk != 0) {
goto __41
}
iKey = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
nKey = int16(0)
Xsqlite3VdbeAddOp4(tls, v, OP_MakeRecord, iPk, int32(nPk), iKey,
Xsqlite3IndexAffinityStr(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pPk), int32(nPk))
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, iEphCur, iKey, iPk, int32(nPk))
goto __42
__41:
nKey = int16(1)
Xsqlite3VdbeAddOp2(tls, v, OP_RowSetAdd, iRowSet, iKey)
__42:
;
Xsqlite3WhereEnd(tls, pWInfo)
__36:
;
if !!(isView != 0) {
goto __43
}
iAddrOnce = 0
if !(eOnePass == ONEPASS_MULTI) {
goto __44
}
iAddrOnce = Xsqlite3VdbeAddOp0(tls, v, OP_Once)
__44:
;
Xsqlite3OpenTableAndIndices(tls, pParse, pTab, OP_OpenWrite, uint8(OPFLAG_FORDELETE),
iTabCur, aToOpen, bp+80, bp+84)
if !(eOnePass == ONEPASS_MULTI) {
goto __45
}
Xsqlite3VdbeJumpHereOrPopInst(tls, v, iAddrOnce)
__45:
;
__43:
;
if !(eOnePass != ONEPASS_OFF) {
goto __46
}
if !(!(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) && *(*U8)(unsafe.Pointer(aToOpen + uintptr(*(*int32)(unsafe.Pointer(bp + 80))-iTabCur))) != 0) {
goto __48
}
Xsqlite3VdbeAddOp4Int(tls, v, OP_NotFound, *(*int32)(unsafe.Pointer(bp + 80)), addrBypass, iKey, int32(nKey))
__48:
;
goto __47
__46:
if !(pPk != 0) {
goto __49
}
addrLoop = Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, iEphCur)
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __51
}
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iEphCur, 0, iKey)
goto __52
__51:
Xsqlite3VdbeAddOp2(tls, v, OP_RowData, iEphCur, iKey)
__52:
;
goto __50
__49:
addrLoop = Xsqlite3VdbeAddOp3(tls, v, OP_RowSetRead, iRowSet, 0, iKey)
__50:
;
__47:
;
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __53
}
pVTab = Xsqlite3GetVTable(tls, db, pTab)
Xsqlite3VtabMakeWritable(tls, pParse, pTab)
Xsqlite3MayAbort(tls, pParse)
if !(eOnePass == ONEPASS_SINGLE) {
goto __55
}
Xsqlite3VdbeAddOp1(tls, v, OP_Close, iTabCur)
if !((*Parse)(unsafe.Pointer(pParse)).FpToplevel == uintptr(0)) {
goto __56
}
(*Parse)(unsafe.Pointer(pParse)).FisMultiWrite = U8(0)
__56:
;
__55:
;
Xsqlite3VdbeAddOp4(tls, v, OP_VUpdate, 0, 1, iKey, pVTab, -11)
Xsqlite3VdbeChangeP5(tls, v, uint16(OE_Abort))
goto __54
__53:
count = libc.Bool32(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) == 0)
Xsqlite3GenerateRowDelete(tls, pParse, pTab, pTrigger, *(*int32)(unsafe.Pointer(bp + 80)), *(*int32)(unsafe.Pointer(bp + 84)),
iKey, nKey, uint8(count), uint8(OE_Default), uint8(eOnePass), *(*int32)(unsafe.Pointer(bp + 72 + 1*4)))
__54:
;
if !(eOnePass != ONEPASS_OFF) {
goto __57
}
Xsqlite3VdbeResolveLabel(tls, v, addrBypass)
Xsqlite3WhereEnd(tls, pWInfo)
goto __58
__57:
if !(pPk != 0) {
goto __59
}
Xsqlite3VdbeAddOp2(tls, v, OP_Next, iEphCur, addrLoop+1)
Xsqlite3VdbeJumpHere(tls, v, addrLoop)
goto __60
__59:
Xsqlite3VdbeGoto(tls, v, addrLoop)
Xsqlite3VdbeJumpHere(tls, v, addrLoop)
__60:
;
__58:
;
__16:
;
if !(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) == 0 && (*Parse)(unsafe.Pointer(pParse)).FpTriggerTab == uintptr(0)) {
goto __61
}
Xsqlite3AutoincrementEnd(tls, pParse)
__61:
;
if !(memCnt != 0) {
goto __62
}
Xsqlite3CodeChangeCount(tls, v, memCnt, ts+15236)
__62:
;
delete_from_cleanup:
Xsqlite3AuthContextPop(tls, bp)
Xsqlite3SrcListDelete(tls, db, pTabList)
Xsqlite3ExprDelete(tls, db, pWhere)
if !(aToOpen != 0) {
goto __63
}
Xsqlite3DbNNFreeNN(tls, db, aToOpen)
__63:
;
return
}
// This routine generates VDBE code that causes a single row of a
// single table to be deleted. Both the original table entry and
// all indices are removed.
//
// Preconditions:
//
// 1. iDataCur is an open cursor on the btree that is the canonical data
// store for the table. (This will be either the table itself,
// in the case of a rowid table, or the PRIMARY KEY index in the case
// of a WITHOUT ROWID table.)
//
// 2. Read/write cursors for all indices of pTab must be open as
// cursor number iIdxCur+i for the i-th index.
//
// 3. The primary key for the row to be deleted must be stored in a
// sequence of nPk memory cells starting at iPk. If nPk==0 that means
// that a search record formed from OP_MakeRecord is contained in the
// single memory location iPk.
//
// eMode:
//
// Parameter eMode may be passed either ONEPASS_OFF (0), ONEPASS_SINGLE, or
// ONEPASS_MULTI. If eMode is not ONEPASS_OFF, then the cursor
// iDataCur already points to the row to delete. If eMode is ONEPASS_OFF
// then this function must seek iDataCur to the entry identified by iPk
// and nPk before reading from it.
//
// If eMode is ONEPASS_MULTI, then this call is being made as part
// of a ONEPASS delete that affects multiple rows. In this case, if
// iIdxNoSeek is a valid cursor number (>=0) and is not the same as
// iDataCur, then its position should be preserved following the delete
// operation. Or, if iIdxNoSeek is not a valid cursor number, the
// position of iDataCur should be preserved instead.
//
// iIdxNoSeek:
//
// If iIdxNoSeek is a valid cursor number (>=0) not equal to iDataCur,
// then it identifies an index cursor (from within array of cursors
// starting at iIdxCur) that already points to the index entry to be deleted.
// Except, this optimization is disabled if there are BEFORE triggers since
// the trigger body might have moved the cursor.
func Xsqlite3GenerateRowDelete(tls *libc.TLS, pParse uintptr, pTab uintptr, pTrigger uintptr, iDataCur int32, iIdxCur int32, iPk int32, nPk I16, count U8, onconf U8, eMode U8, iIdxNoSeek int32) {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var iOld int32 = 0
var iLabel int32
var opSeek U8
iLabel = Xsqlite3VdbeMakeLabel(tls, pParse)
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
opSeek = uint8(OP_NotExists)
} else {
opSeek = uint8(OP_NotFound)
}
if int32(eMode) == ONEPASS_OFF {
Xsqlite3VdbeAddOp4Int(tls, v, int32(opSeek), iDataCur, iLabel, iPk, int32(nPk))
}
if Xsqlite3FkRequired(tls, pParse, pTab, uintptr(0), 0) != 0 || pTrigger != 0 {
var mask U32
var iCol int32
var addrStart int32
mask = Xsqlite3TriggerColmask(tls,
pParse, pTrigger, uintptr(0), 0, TRIGGER_BEFORE|TRIGGER_AFTER, pTab, int32(onconf))
mask = mask | Xsqlite3FkOldmask(tls, pParse, pTab)
iOld = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += 1 + int32((*Table)(unsafe.Pointer(pTab)).FnCol)
Xsqlite3VdbeAddOp2(tls, v, OP_Copy, iPk, iOld)
for iCol = 0; iCol < int32((*Table)(unsafe.Pointer(pTab)).FnCol); iCol++ {
if mask == 0xffffffff || iCol <= 31 && mask&(uint32(1)<<iCol) != U32(0) {
var kk int32 = int32(Xsqlite3TableColumnToStorage(tls, pTab, int16(iCol)))
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab, iDataCur, iCol, iOld+kk+1)
}
}
addrStart = Xsqlite3VdbeCurrentAddr(tls, v)
Xsqlite3CodeRowTrigger(tls, pParse, pTrigger,
TK_DELETE, uintptr(0), TRIGGER_BEFORE, pTab, iOld, int32(onconf), iLabel)
if addrStart < Xsqlite3VdbeCurrentAddr(tls, v) {
Xsqlite3VdbeAddOp4Int(tls, v, int32(opSeek), iDataCur, iLabel, iPk, int32(nPk))
iIdxNoSeek = -1
}
Xsqlite3FkCheck(tls, pParse, pTab, iOld, 0, uintptr(0), 0)
}
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW) {
var p5 U8 = U8(0)
Xsqlite3GenerateRowIndexDelete(tls, pParse, pTab, iDataCur, iIdxCur, uintptr(0), iIdxNoSeek)
Xsqlite3VdbeAddOp2(tls, v, OP_Delete, iDataCur, func() int32 {
if count != 0 {
return OPFLAG_NCHANGE
}
return 0
}())
if int32((*Parse)(unsafe.Pointer(pParse)).Fnested) == 0 || 0 == Xsqlite3_stricmp(tls, (*Table)(unsafe.Pointer(pTab)).FzName, ts+11751) {
Xsqlite3VdbeAppendP4(tls, v, pTab, -5)
}
if int32(eMode) != ONEPASS_OFF {
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_AUXDELETE))
}
if iIdxNoSeek >= 0 && iIdxNoSeek != iDataCur {
Xsqlite3VdbeAddOp1(tls, v, OP_Delete, iIdxNoSeek)
}
if int32(eMode) == ONEPASS_MULTI {
p5 = U8(int32(p5) | OPFLAG_SAVEPOSITION)
}
Xsqlite3VdbeChangeP5(tls, v, uint16(p5))
}
Xsqlite3FkActions(tls, pParse, pTab, uintptr(0), iOld, uintptr(0), 0)
Xsqlite3CodeRowTrigger(tls, pParse, pTrigger,
TK_DELETE, uintptr(0), TRIGGER_AFTER, pTab, iOld, int32(onconf), iLabel)
Xsqlite3VdbeResolveLabel(tls, v, iLabel)
}
// This routine generates VDBE code that causes the deletion of all
// index entries associated with a single row of a single table, pTab
//
// Preconditions:
//
// 1. A read/write cursor "iDataCur" must be open on the canonical storage
// btree for the table pTab. (This will be either the table itself
// for rowid tables or to the primary key index for WITHOUT ROWID
// tables.)
//
// 2. Read/write cursors for all indices of pTab must be open as
// cursor number iIdxCur+i for the i-th index. (The pTab->pIndex
// index is the 0-th index.)
//
// 3. The "iDataCur" cursor must be already be positioned on the row
// that is to be deleted.
func Xsqlite3GenerateRowIndexDelete(tls *libc.TLS, pParse uintptr, pTab uintptr, iDataCur int32, iIdxCur int32, aRegIdx uintptr, iIdxNoSeek int32) {
bp := tls.Alloc(4)
defer tls.Free(4)
var i int32
var r1 int32 = -1
var pIdx uintptr
var pPrior uintptr = uintptr(0)
var v uintptr
var pPk uintptr
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
pPk = uintptr(0)
} else {
pPk = Xsqlite3PrimaryKeyIndex(tls, pTab)
}
i = 0
pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex
__1:
if !(pIdx != 0) {
goto __3
}
{
if aRegIdx != uintptr(0) && *(*int32)(unsafe.Pointer(aRegIdx + uintptr(i)*4)) == 0 {
goto __2
}
if pIdx == pPk {
goto __2
}
if iIdxCur+i == iIdxNoSeek {
goto __2
}
r1 = Xsqlite3GenerateIndexKey(tls, pParse, pIdx, iDataCur, 0, 1,
bp, pPrior, r1)
Xsqlite3VdbeAddOp3(tls, v, OP_IdxDelete, iIdxCur+i, r1,
func() int32 {
if uint32(int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x8>>3)) != 0 {
return int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)
}
return int32((*Index)(unsafe.Pointer(pIdx)).FnColumn)
}())
Xsqlite3VdbeChangeP5(tls, v, uint16(1))
Xsqlite3ResolvePartIdxLabel(tls, pParse, *(*int32)(unsafe.Pointer(bp)))
pPrior = pIdx
}
goto __2
__2:
i++
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
goto __1
goto __3
__3:
}
// Generate code that will assemble an index key and stores it in register
// regOut. The key with be for index pIdx which is an index on pTab.
// iCur is the index of a cursor open on the pTab table and pointing to
// the entry that needs indexing. If pTab is a WITHOUT ROWID table, then
// iCur must be the cursor of the PRIMARY KEY index.
//
// Return a register number which is the first in a block of
// registers that holds the elements of the index key. The
// block of registers has already been deallocated by the time
// this routine returns.
//
// If *piPartIdxLabel is not NULL, fill it in with a label and jump
// to that label if pIdx is a partial index that should be skipped.
// The label should be resolved using sqlite3ResolvePartIdxLabel().
// A partial index should be skipped if its WHERE clause evaluates
// to false or null. If pIdx is not a partial index, *piPartIdxLabel
// will be set to zero which is an empty label that is ignored by
// sqlite3ResolvePartIdxLabel().
//
// The pPrior and regPrior parameters are used to implement a cache to
// avoid unnecessary register loads. If pPrior is not NULL, then it is
// a pointer to a different index for which an index key has just been
// computed into register regPrior. If the current pIdx index is generating
// its key into the same sequence of registers and if pPrior and pIdx share
// a column in common, then the register corresponding to that column already
// holds the correct value and the loading of that register is skipped.
// This optimization is helpful when doing a DELETE or an INTEGRITY_CHECK
// on a table with multiple indices, and especially with the ROWID or
// PRIMARY KEY columns of the index.
func Xsqlite3GenerateIndexKey(tls *libc.TLS, pParse uintptr, pIdx uintptr, iDataCur int32, regOut int32, prefixOnly int32, piPartIdxLabel uintptr, pPrior uintptr, regPrior int32) int32 {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var j int32
var regBase int32
var nCol int32
if piPartIdxLabel != 0 {
if (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere != 0 {
*(*int32)(unsafe.Pointer(piPartIdxLabel)) = Xsqlite3VdbeMakeLabel(tls, pParse)
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = iDataCur + 1
Xsqlite3ExprIfFalseDup(tls, pParse, (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere, *(*int32)(unsafe.Pointer(piPartIdxLabel)),
SQLITE_JUMPIFNULL)
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = 0
pPrior = uintptr(0)
} else {
*(*int32)(unsafe.Pointer(piPartIdxLabel)) = 0
}
}
if prefixOnly != 0 && uint32(int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x8>>3)) != 0 {
nCol = int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)
} else {
nCol = int32((*Index)(unsafe.Pointer(pIdx)).FnColumn)
}
regBase = Xsqlite3GetTempRange(tls, pParse, nCol)
if pPrior != 0 && (regBase != regPrior || (*Index)(unsafe.Pointer(pPrior)).FpPartIdxWhere != 0) {
pPrior = uintptr(0)
}
for j = 0; j < nCol; j++ {
if pPrior != 0 &&
int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPrior)).FaiColumn + uintptr(j)*2))) == int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(j)*2))) &&
int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPrior)).FaiColumn + uintptr(j)*2))) != -2 {
continue
}
Xsqlite3ExprCodeLoadIndexColumn(tls, pParse, pIdx, iDataCur, j, regBase+j)
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(j)*2))) >= 0 {
Xsqlite3VdbeDeletePriorOpcode(tls, v, uint8(OP_RealAffinity))
}
}
if regOut != 0 {
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regBase, nCol, regOut)
}
Xsqlite3ReleaseTempRange(tls, pParse, regBase, nCol)
return regBase
}
// If a prior call to sqlite3GenerateIndexKey() generated a jump-over label
// because it was a partial index, then this routine should be called to
// resolve that label.
func Xsqlite3ResolvePartIdxLabel(tls *libc.TLS, pParse uintptr, iLabel int32) {
if iLabel != 0 {
Xsqlite3VdbeResolveLabel(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, iLabel)
}
}
func sqlite3GetFuncCollSeq(tls *libc.TLS, context uintptr) uintptr {
var pOp uintptr
pOp = (*Vdbe)(unsafe.Pointer((*Sqlite3_context)(unsafe.Pointer(context)).FpVdbe)).FaOp + uintptr((*Sqlite3_context)(unsafe.Pointer(context)).FiOp-1)*24
return *(*uintptr)(unsafe.Pointer(pOp + 16))
}
func sqlite3SkipAccumulatorLoad(tls *libc.TLS, context uintptr) {
(*Sqlite3_context)(unsafe.Pointer(context)).FisError = -1
(*Sqlite3_context)(unsafe.Pointer(context)).FskipFlag = U8(1)
}
func minmaxFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var i int32
var mask int32
var iBest int32
var pColl uintptr
if Xsqlite3_user_data(tls, context) == uintptr(0) {
mask = 0
} else {
mask = -1
}
pColl = sqlite3GetFuncCollSeq(tls, context)
iBest = 0
if Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv))) == SQLITE_NULL {
return
}
for i = 1; i < argc; i++ {
if Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8))) == SQLITE_NULL {
return
}
if Xsqlite3MemCompare(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(iBest)*8)), *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8)), pColl)^mask >= 0 {
iBest = i
}
}
Xsqlite3_result_value(tls, context, *(*uintptr)(unsafe.Pointer(argv + uintptr(iBest)*8)))
}
func typeofFunc(tls *libc.TLS, context uintptr, NotUsed int32, argv uintptr) {
var i int32 = Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv))) - 1
_ = NotUsed
Xsqlite3_result_text(tls, context, azType2[i], -1, uintptr(0))
}
var azType2 = [5]uintptr{ts + 6594, ts + 6589, ts + 8408, ts + 8403, ts + 6584}
func subtypeFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
_ = argc
Xsqlite3_result_int(tls, context, int32(Xsqlite3_value_subtype(tls, *(*uintptr)(unsafe.Pointer(argv)))))
}
func lengthFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
_ = argc
switch Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv))) {
case SQLITE_BLOB:
fallthrough
case SQLITE_INTEGER:
fallthrough
case SQLITE_FLOAT:
{
Xsqlite3_result_int(tls, context, Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv))))
break
}
case SQLITE_TEXT:
{
var z uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
var z0 uintptr
var c uint8
if z == uintptr(0) {
return
}
z0 = z
for int32(libc.AssignUint8(&c, *(*uint8)(unsafe.Pointer(z)))) != 0 {
z++
if int32(c) >= 0xc0 {
for int32(*(*uint8)(unsafe.Pointer(z)))&0xc0 == 0x80 {
z++
z0++
}
}
}
Xsqlite3_result_int(tls, context, int32((int64(z)-int64(z0))/1))
break
}
default:
{
Xsqlite3_result_null(tls, context)
break
}
}
}
func absFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
_ = argc
switch Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv))) {
case SQLITE_INTEGER:
{
var iVal I64 = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(argv)))
if iVal < int64(0) {
if iVal == int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32) {
Xsqlite3_result_error(tls, context, ts+15249, -1)
return
}
iVal = -iVal
}
Xsqlite3_result_int64(tls, context, iVal)
break
}
case SQLITE_NULL:
{
Xsqlite3_result_null(tls, context)
break
}
default:
{
var rVal float64 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv)))
if rVal < float64(0) {
rVal = -rVal
}
Xsqlite3_result_double(tls, context, rVal)
break
}
}
}
func instrFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var zHaystack uintptr
var zNeedle uintptr
var nHaystack int32
var nNeedle int32
var typeHaystack int32
var typeNeedle int32
var N int32
var isText int32
var firstChar uint8
var pC1 uintptr
var pC2 uintptr
N = 1
pC1 = uintptr(0)
pC2 = uintptr(0)
_ = argc
typeHaystack = Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv)))
typeNeedle = Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
if !(typeHaystack == SQLITE_NULL || typeNeedle == SQLITE_NULL) {
goto __1
}
return
__1:
;
nHaystack = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv)))
nNeedle = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
if !(nNeedle > 0) {
goto __2
}
if !(typeHaystack == SQLITE_BLOB && typeNeedle == SQLITE_BLOB) {
goto __3
}
zHaystack = Xsqlite3_value_blob(tls, *(*uintptr)(unsafe.Pointer(argv)))
zNeedle = Xsqlite3_value_blob(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
isText = 0
goto __4
__3:
if !(typeHaystack != SQLITE_BLOB && typeNeedle != SQLITE_BLOB) {
goto __5
}
zHaystack = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
zNeedle = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
isText = 1
goto __6
__5:
pC1 = Xsqlite3_value_dup(tls, *(*uintptr)(unsafe.Pointer(argv)))
zHaystack = Xsqlite3_value_text(tls, pC1)
if !(zHaystack == uintptr(0)) {
goto __7
}
goto endInstrOOM
__7:
;
nHaystack = Xsqlite3_value_bytes(tls, pC1)
pC2 = Xsqlite3_value_dup(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
zNeedle = Xsqlite3_value_text(tls, pC2)
if !(zNeedle == uintptr(0)) {
goto __8
}
goto endInstrOOM
__8:
;
nNeedle = Xsqlite3_value_bytes(tls, pC2)
isText = 1
__6:
;
__4:
;
if !(zNeedle == uintptr(0) || nHaystack != 0 && zHaystack == uintptr(0)) {
goto __9
}
goto endInstrOOM
__9:
;
firstChar = *(*uint8)(unsafe.Pointer(zNeedle))
__10:
if !(nNeedle <= nHaystack &&
(int32(*(*uint8)(unsafe.Pointer(zHaystack))) != int32(firstChar) || libc.Xmemcmp(tls, zHaystack, zNeedle, uint64(nNeedle)) != 0)) {
goto __11
}
N++
__12:
nHaystack--
zHaystack++
goto __13
__13:
if isText != 0 && int32(*(*uint8)(unsafe.Pointer(zHaystack)))&0xc0 == 0x80 {
goto __12
}
goto __14
__14:
;
goto __10
__11:
;
if !(nNeedle > nHaystack) {
goto __15
}
N = 0
__15:
;
__2:
;
Xsqlite3_result_int(tls, context, N)
endInstr:
Xsqlite3_value_free(tls, pC1)
Xsqlite3_value_free(tls, pC2)
return
endInstrOOM:
Xsqlite3_result_error_nomem(tls, context)
goto endInstr
}
func printfFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(56)
defer tls.Free(56)
var zFormat uintptr
var n int32
var db uintptr = Xsqlite3_context_db_handle(tls, context)
if argc >= 1 && libc.AssignUintptr(&zFormat, Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))) != uintptr(0) {
(*PrintfArguments)(unsafe.Pointer(bp + 40)).FnArg = argc - 1
(*PrintfArguments)(unsafe.Pointer(bp + 40)).FnUsed = 0
(*PrintfArguments)(unsafe.Pointer(bp + 40)).FapArg = argv + uintptr(1)*8
Xsqlite3StrAccumInit(tls, bp+8, db, uintptr(0), 0, *(*int32)(unsafe.Pointer(db + 136)))
(*StrAccum)(unsafe.Pointer(bp + 8)).FprintfFlags = U8(SQLITE_PRINTF_SQLFUNC)
Xsqlite3_str_appendf(tls, bp+8, zFormat, libc.VaList(bp, bp+40))
n = int32((*StrAccum)(unsafe.Pointer(bp + 8)).FnChar)
Xsqlite3_result_text(tls, context, Xsqlite3StrAccumFinish(tls, bp+8), n,
*(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3OomClear})))
}
}
func substrFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var z uintptr
var z2 uintptr
var len int32
var p0type int32
var p1 I64
var p2 I64
var negP2 int32 = 0
if Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8))) == SQLITE_NULL ||
argc == 3 && Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8))) == SQLITE_NULL {
return
}
p0type = Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv)))
p1 = I64(Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8))))
if p0type == SQLITE_BLOB {
len = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv)))
z = Xsqlite3_value_blob(tls, *(*uintptr)(unsafe.Pointer(argv)))
if z == uintptr(0) {
return
}
} else {
z = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
if z == uintptr(0) {
return
}
len = 0
if p1 < int64(0) {
for z2 = z; *(*uint8)(unsafe.Pointer(z2)) != 0; len++ {
{
if int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z2, 1)))) >= 0xc0 {
for int32(*(*uint8)(unsafe.Pointer(z2)))&0xc0 == 0x80 {
z2++
}
}
}
}
}
}
if argc == 3 {
p2 = I64(Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8))))
if p2 < int64(0) {
p2 = -p2
negP2 = 1
}
} else {
p2 = I64(*(*int32)(unsafe.Pointer(Xsqlite3_context_db_handle(tls, context) + 136)))
}
if p1 < int64(0) {
p1 = p1 + I64(len)
if p1 < int64(0) {
p2 = p2 + p1
if p2 < int64(0) {
p2 = int64(0)
}
p1 = int64(0)
}
} else if p1 > int64(0) {
p1--
} else if p2 > int64(0) {
p2--
}
if negP2 != 0 {
p1 = p1 - p2
if p1 < int64(0) {
p2 = p2 + p1
p1 = int64(0)
}
}
if p0type != SQLITE_BLOB {
for *(*uint8)(unsafe.Pointer(z)) != 0 && p1 != 0 {
{
if int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1)))) >= 0xc0 {
for int32(*(*uint8)(unsafe.Pointer(z)))&0xc0 == 0x80 {
z++
}
}
}
p1--
}
for z2 = z; *(*uint8)(unsafe.Pointer(z2)) != 0 && p2 != 0; p2-- {
{
if int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z2, 1)))) >= 0xc0 {
for int32(*(*uint8)(unsafe.Pointer(z2)))&0xc0 == 0x80 {
z2++
}
}
}
}
Xsqlite3_result_text64(tls, context, z, uint64((int64(z2)-int64(z))/1), libc.UintptrFromInt32(-1),
uint8(SQLITE_UTF8))
} else {
if p1+p2 > I64(len) {
p2 = I64(len) - p1
if p2 < int64(0) {
p2 = int64(0)
}
}
Xsqlite3_result_blob64(tls, context, z+uintptr(p1), U64(p2), libc.UintptrFromInt32(-1))
}
}
func roundFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(24)
defer tls.Free(24)
var n int32 = 0
var zBuf uintptr
if argc == 2 {
if SQLITE_NULL == Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8))) {
return
}
n = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
if n > 30 {
n = 30
}
if n < 0 {
n = 0
}
}
if Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv))) == SQLITE_NULL {
return
}
*(*float64)(unsafe.Pointer(bp + 16)) = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv)))
if *(*float64)(unsafe.Pointer(bp + 16)) < -4503599627370496.0 || *(*float64)(unsafe.Pointer(bp + 16)) > +4503599627370496.0 {
} else if n == 0 {
*(*float64)(unsafe.Pointer(bp + 16)) = float64(libc.Int64FromFloat64(*(*float64)(unsafe.Pointer(bp + 16)) + func() float64 {
if *(*float64)(unsafe.Pointer(bp + 16)) < float64(0) {
return -0.5
}
return +0.5
}()))
} else {
zBuf = Xsqlite3_mprintf(tls, ts+15266, libc.VaList(bp, n, *(*float64)(unsafe.Pointer(bp + 16))))
if zBuf == uintptr(0) {
Xsqlite3_result_error_nomem(tls, context)
return
}
Xsqlite3AtoF(tls, zBuf, bp+16, Xsqlite3Strlen30(tls, zBuf), uint8(SQLITE_UTF8))
Xsqlite3_free(tls, zBuf)
}
Xsqlite3_result_double(tls, context, *(*float64)(unsafe.Pointer(bp + 16)))
}
func contextMalloc(tls *libc.TLS, context uintptr, nByte I64) uintptr {
var z uintptr
var db uintptr = Xsqlite3_context_db_handle(tls, context)
if nByte > I64(*(*int32)(unsafe.Pointer(db + 136))) {
Xsqlite3_result_error_toobig(tls, context)
z = uintptr(0)
} else {
z = Xsqlite3Malloc(tls, uint64(nByte))
if !(z != 0) {
Xsqlite3_result_error_nomem(tls, context)
}
}
return z
}
func upperFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var z1 uintptr
var z2 uintptr
var i int32
var n int32
_ = argc
z2 = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
n = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv)))
if z2 != 0 {
z1 = contextMalloc(tls, context, I64(n)+int64(1))
if z1 != 0 {
for i = 0; i < n; i++ {
*(*int8)(unsafe.Pointer(z1 + uintptr(i))) = int8(int32(*(*int8)(unsafe.Pointer(z2 + uintptr(i)))) & ^(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z2 + uintptr(i))))]) & 0x20))
}
Xsqlite3_result_text(tls, context, z1, n, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
}
}
}
func lowerFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var z1 uintptr
var z2 uintptr
var i int32
var n int32
_ = argc
z2 = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
n = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv)))
if z2 != 0 {
z1 = contextMalloc(tls, context, I64(n)+int64(1))
if z1 != 0 {
for i = 0; i < n; i++ {
*(*int8)(unsafe.Pointer(z1 + uintptr(i))) = int8(Xsqlite3UpperToLower[uint8(*(*int8)(unsafe.Pointer(z2 + uintptr(i))))])
}
Xsqlite3_result_text(tls, context, z1, n, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
}
}
}
func randomFunc(tls *libc.TLS, context uintptr, NotUsed int32, NotUsed2 uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
_ = NotUsed
_ = NotUsed2
Xsqlite3_randomness(tls, int32(unsafe.Sizeof(Sqlite_int64(0))), bp)
if *(*Sqlite_int64)(unsafe.Pointer(bp)) < int64(0) {
*(*Sqlite_int64)(unsafe.Pointer(bp)) = -(*(*Sqlite_int64)(unsafe.Pointer(bp)) & (int64(0xffffffff) | int64(0x7fffffff)<<32))
}
Xsqlite3_result_int64(tls, context, *(*Sqlite_int64)(unsafe.Pointer(bp)))
}
func randomBlob(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var n Sqlite3_int64
var p uintptr
_ = argc
n = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(argv)))
if n < int64(1) {
n = int64(1)
}
p = contextMalloc(tls, context, n)
if p != 0 {
Xsqlite3_randomness(tls, int32(n), p)
Xsqlite3_result_blob(tls, context, p, int32(n), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
}
}
func last_insert_rowid(tls *libc.TLS, context uintptr, NotUsed int32, NotUsed2 uintptr) {
var db uintptr = Xsqlite3_context_db_handle(tls, context)
_ = NotUsed
_ = NotUsed2
Xsqlite3_result_int64(tls, context, Xsqlite3_last_insert_rowid(tls, db))
}
func changes(tls *libc.TLS, context uintptr, NotUsed int32, NotUsed2 uintptr) {
var db uintptr = Xsqlite3_context_db_handle(tls, context)
_ = NotUsed
_ = NotUsed2
Xsqlite3_result_int64(tls, context, Xsqlite3_changes64(tls, db))
}
func total_changes(tls *libc.TLS, context uintptr, NotUsed int32, NotUsed2 uintptr) {
var db uintptr = Xsqlite3_context_db_handle(tls, context)
_ = NotUsed
_ = NotUsed2
Xsqlite3_result_int64(tls, context, Xsqlite3_total_changes64(tls, db))
}
type compareInfo = struct {
FmatchAll U8
FmatchOne U8
FmatchSet U8
FnoCase U8
}
var globInfo = compareInfo{FmatchAll: U8('*'), FmatchOne: U8('?'), FmatchSet: U8('[')}
var likeInfoNorm = compareInfo{FmatchAll: U8('%'), FmatchOne: U8('_'), FnoCase: U8(1)}
var likeInfoAlt = compareInfo{FmatchAll: U8('%'), FmatchOne: U8('_')}
func patternCompare(tls *libc.TLS, zPattern uintptr, zString uintptr, pInfo uintptr, matchOther U32) int32 {
bp := tls.Alloc(19)
defer tls.Free(19)
*(*uintptr)(unsafe.Pointer(bp)) = zPattern
*(*uintptr)(unsafe.Pointer(bp + 8)) = zString
var c U32
var c2 U32
var matchOne U32 = U32((*compareInfo)(unsafe.Pointer(pInfo)).FmatchOne)
var matchAll U32 = U32((*compareInfo)(unsafe.Pointer(pInfo)).FmatchAll)
var noCase U8 = (*compareInfo)(unsafe.Pointer(pInfo)).FnoCase
var zEscaped uintptr = uintptr(0)
for libc.AssignUint32(&c, func() uint32 {
if int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))))) < 0x80 {
return uint32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&*(*uintptr)(unsafe.Pointer(bp)), 1))))
}
return Xsqlite3Utf8Read(tls, bp)
}()) != U32(0) {
if c == matchAll {
for libc.AssignUint32(&c, func() uint32 {
if int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))))) < 0x80 {
return uint32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&*(*uintptr)(unsafe.Pointer(bp)), 1))))
}
return Xsqlite3Utf8Read(tls, bp)
}()) == matchAll ||
c == matchOne && matchOne != U32(0) {
if c == matchOne && Xsqlite3Utf8Read(tls, bp+8) == U32(0) {
return SQLITE_NOWILDCARDMATCH
}
}
if c == U32(0) {
return SQLITE_MATCH
} else if c == matchOther {
if int32((*compareInfo)(unsafe.Pointer(pInfo)).FmatchSet) == 0 {
c = Xsqlite3Utf8Read(tls, bp)
if c == U32(0) {
return SQLITE_NOWILDCARDMATCH
}
} else {
for *(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))) != 0 {
var bMatch int32 = patternCompare(tls, *(*uintptr)(unsafe.Pointer(bp))+libc.UintptrFromInt32(-1), *(*uintptr)(unsafe.Pointer(bp + 8)), pInfo, matchOther)
if bMatch != SQLITE_NOMATCH {
return bMatch
}
{
if int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&*(*uintptr)(unsafe.Pointer(bp + 8)), 1)))) >= 0xc0 {
for int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))))&0xc0 == 0x80 {
*(*uintptr)(unsafe.Pointer(bp + 8))++
}
}
}
}
return SQLITE_NOWILDCARDMATCH
}
}
if c < U32(0x80) {
var bMatch int32
if noCase != 0 {
*(*int8)(unsafe.Pointer(bp + 16)) = int8(c & U32(^(int32(Xsqlite3CtypeMap[uint8(c)]) & 0x20)))
*(*int8)(unsafe.Pointer(bp + 16 + 1)) = int8(Xsqlite3UpperToLower[uint8(c)])
*(*int8)(unsafe.Pointer(bp + 16 + 2)) = int8(0)
} else {
*(*int8)(unsafe.Pointer(bp + 16)) = int8(c)
*(*int8)(unsafe.Pointer(bp + 16 + 1)) = int8(0)
}
for 1 != 0 {
*(*uintptr)(unsafe.Pointer(bp + 8)) += uintptr(libc.Xstrcspn(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), bp+16))
if int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8))))) == 0 {
break
}
*(*uintptr)(unsafe.Pointer(bp + 8))++
bMatch = patternCompare(tls, *(*uintptr)(unsafe.Pointer(bp)), *(*uintptr)(unsafe.Pointer(bp + 8)), pInfo, matchOther)
if bMatch != SQLITE_NOMATCH {
return bMatch
}
}
} else {
var bMatch int32
for libc.AssignUint32(&c2, func() uint32 {
if int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8))))) < 0x80 {
return uint32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&*(*uintptr)(unsafe.Pointer(bp + 8)), 1))))
}
return Xsqlite3Utf8Read(tls, bp+8)
}()) != U32(0) {
if c2 != c {
continue
}
bMatch = patternCompare(tls, *(*uintptr)(unsafe.Pointer(bp)), *(*uintptr)(unsafe.Pointer(bp + 8)), pInfo, matchOther)
if bMatch != SQLITE_NOMATCH {
return bMatch
}
}
}
return SQLITE_NOWILDCARDMATCH
}
if c == matchOther {
if int32((*compareInfo)(unsafe.Pointer(pInfo)).FmatchSet) == 0 {
c = Xsqlite3Utf8Read(tls, bp)
if c == U32(0) {
return SQLITE_NOMATCH
}
zEscaped = *(*uintptr)(unsafe.Pointer(bp))
} else {
var prior_c U32 = U32(0)
var seen int32 = 0
var invert int32 = 0
c = Xsqlite3Utf8Read(tls, bp+8)
if c == U32(0) {
return SQLITE_NOMATCH
}
c2 = Xsqlite3Utf8Read(tls, bp)
if c2 == U32('^') {
invert = 1
c2 = Xsqlite3Utf8Read(tls, bp)
}
if c2 == U32(']') {
if c == U32(']') {
seen = 1
}
c2 = Xsqlite3Utf8Read(tls, bp)
}
for c2 != 0 && c2 != U32(']') {
if c2 == U32('-') && int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))))) != ']' && int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))))) != 0 && prior_c > U32(0) {
c2 = Xsqlite3Utf8Read(tls, bp)
if c >= prior_c && c <= c2 {
seen = 1
}
prior_c = U32(0)
} else {
if c == c2 {
seen = 1
}
prior_c = c2
}
c2 = Xsqlite3Utf8Read(tls, bp)
}
if c2 == U32(0) || seen^invert == 0 {
return SQLITE_NOMATCH
}
continue
}
}
c2 = func() uint32 {
if int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8))))) < 0x80 {
return uint32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&*(*uintptr)(unsafe.Pointer(bp + 8)), 1))))
}
return Xsqlite3Utf8Read(tls, bp+8)
}()
if c == c2 {
continue
}
if noCase != 0 && int32(Xsqlite3UpperToLower[uint8(c)]) == int32(Xsqlite3UpperToLower[uint8(c2)]) && c < U32(0x80) && c2 < U32(0x80) {
continue
}
if c == matchOne && *(*uintptr)(unsafe.Pointer(bp)) != zEscaped && c2 != U32(0) {
continue
}
return SQLITE_NOMATCH
}
if int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8))))) == 0 {
return SQLITE_MATCH
}
return SQLITE_NOMATCH
}
// The sqlite3_strglob() interface. Return 0 on a match (like strcmp()) and
// non-zero if there is no match.
func Xsqlite3_strglob(tls *libc.TLS, zGlobPattern uintptr, zString uintptr) int32 {
if zString == uintptr(0) {
return libc.Bool32(zGlobPattern != uintptr(0))
} else if zGlobPattern == uintptr(0) {
return 1
} else {
return patternCompare(tls, zGlobPattern, zString, uintptr(unsafe.Pointer(&globInfo)), uint32('['))
}
return int32(0)
}
// The sqlite3_strlike() interface. Return 0 on a match and non-zero for
// a miss - like strcmp().
func Xsqlite3_strlike(tls *libc.TLS, zPattern uintptr, zStr uintptr, esc uint32) int32 {
if zStr == uintptr(0) {
return libc.Bool32(zPattern != uintptr(0))
} else if zPattern == uintptr(0) {
return 1
} else {
return patternCompare(tls, zPattern, zStr, uintptr(unsafe.Pointer(&likeInfoNorm)), esc)
}
return int32(0)
}
func likeFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(12)
defer tls.Free(12)
var zA uintptr
var zB uintptr
var escape U32
var nPat int32
var db uintptr = Xsqlite3_context_db_handle(tls, context)
var pInfo uintptr = Xsqlite3_user_data(tls, context)
if Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv))) == SQLITE_BLOB ||
Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8))) == SQLITE_BLOB {
Xsqlite3_result_int(tls, context, 0)
return
}
nPat = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv)))
if nPat > *(*int32)(unsafe.Pointer(db + 136 + 8*4)) {
Xsqlite3_result_error(tls, context, ts+15271, -1)
return
}
if argc == 3 {
*(*uintptr)(unsafe.Pointer(bp)) = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8)))
if *(*uintptr)(unsafe.Pointer(bp)) == uintptr(0) {
return
}
if Xsqlite3Utf8CharLen(tls, *(*uintptr)(unsafe.Pointer(bp)), -1) != 1 {
Xsqlite3_result_error(tls, context,
ts+15304, -1)
return
}
escape = Xsqlite3Utf8Read(tls, bp)
if escape == U32((*compareInfo)(unsafe.Pointer(pInfo)).FmatchAll) || escape == U32((*compareInfo)(unsafe.Pointer(pInfo)).FmatchOne) {
libc.X__builtin___memcpy_chk(tls, bp+8, pInfo, uint64(unsafe.Sizeof(compareInfo{})), libc.X__builtin_object_size(tls, bp+8, 0))
pInfo = bp + 8
if escape == U32((*compareInfo)(unsafe.Pointer(pInfo)).FmatchAll) {
(*compareInfo)(unsafe.Pointer(pInfo)).FmatchAll = U8(0)
}
if escape == U32((*compareInfo)(unsafe.Pointer(pInfo)).FmatchOne) {
(*compareInfo)(unsafe.Pointer(pInfo)).FmatchOne = U8(0)
}
}
} else {
escape = U32((*compareInfo)(unsafe.Pointer(pInfo)).FmatchSet)
}
zB = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
zA = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
if zA != 0 && zB != 0 {
Xsqlite3_result_int(tls, context,
libc.Bool32(patternCompare(tls, zB, zA, pInfo, escape) == SQLITE_MATCH))
}
}
func nullifFunc(tls *libc.TLS, context uintptr, NotUsed int32, argv uintptr) {
var pColl uintptr = sqlite3GetFuncCollSeq(tls, context)
_ = NotUsed
if Xsqlite3MemCompare(tls, *(*uintptr)(unsafe.Pointer(argv)), *(*uintptr)(unsafe.Pointer(argv + 1*8)), pColl) != 0 {
Xsqlite3_result_value(tls, context, *(*uintptr)(unsafe.Pointer(argv)))
}
}
func versionFunc(tls *libc.TLS, context uintptr, NotUsed int32, NotUsed2 uintptr) {
_ = NotUsed
_ = NotUsed2
Xsqlite3_result_text(tls, context, Xsqlite3_libversion(tls), -1, uintptr(0))
}
func sourceidFunc(tls *libc.TLS, context uintptr, NotUsed int32, NotUsed2 uintptr) {
_ = NotUsed
_ = NotUsed2
Xsqlite3_result_text(tls, context, Xsqlite3_sourceid(tls), -1, uintptr(0))
}
func errlogFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
_ = argc
_ = context
Xsqlite3_log(tls, Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv))), ts+3658, libc.VaList(bp, Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))))
}
func compileoptionusedFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var zOptName uintptr
_ = argc
if libc.AssignUintptr(&zOptName, Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))) != uintptr(0) {
Xsqlite3_result_int(tls, context, Xsqlite3_compileoption_used(tls, zOptName))
}
}
func compileoptiongetFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var n int32
_ = argc
n = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv)))
Xsqlite3_result_text(tls, context, Xsqlite3_compileoption_get(tls, n), -1, uintptr(0))
}
var hexdigits = [16]int8{
int8('0'), int8('1'), int8('2'), int8('3'), int8('4'), int8('5'), int8('6'), int8('7'),
int8('8'), int8('9'), int8('A'), int8('B'), int8('C'), int8('D'), int8('E'), int8('F'),
}
// Append to pStr text that is the SQL literal representation of the
// value contained in pValue.
func Xsqlite3QuoteValue(tls *libc.TLS, pStr uintptr, pValue uintptr) {
bp := tls.Alloc(40)
defer tls.Free(40)
switch Xsqlite3_value_type(tls, pValue) {
case SQLITE_FLOAT:
{
var r1 float64
var zVal uintptr
r1 = Xsqlite3_value_double(tls, pValue)
Xsqlite3_str_appendf(tls, pStr, ts+5328, libc.VaList(bp, r1))
zVal = Xsqlite3_str_value(tls, pStr)
if zVal != 0 {
Xsqlite3AtoF(tls, zVal, bp+32, int32((*StrAccum)(unsafe.Pointer(pStr)).FnChar), uint8(SQLITE_UTF8))
if r1 != *(*float64)(unsafe.Pointer(bp + 32)) {
Xsqlite3_str_reset(tls, pStr)
Xsqlite3_str_appendf(tls, pStr, ts+15349, libc.VaList(bp+8, r1))
}
}
break
}
case SQLITE_INTEGER:
{
Xsqlite3_str_appendf(tls, pStr, ts+1327, libc.VaList(bp+16, Xsqlite3_value_int64(tls, pValue)))
break
}
case SQLITE_BLOB:
{
var zBlob uintptr = Xsqlite3_value_blob(tls, pValue)
var nBlob I64 = I64(Xsqlite3_value_bytes(tls, pValue))
Xsqlite3StrAccumEnlarge(tls, pStr, nBlob*int64(2)+int64(4))
if int32((*StrAccum)(unsafe.Pointer(pStr)).FaccError) == 0 {
var zText uintptr = (*StrAccum)(unsafe.Pointer(pStr)).FzText
var i int32
for i = 0; I64(i) < nBlob; i++ {
*(*int8)(unsafe.Pointer(zText + uintptr(i*2+2))) = hexdigits[int32(*(*int8)(unsafe.Pointer(zBlob + uintptr(i))))>>4&0x0F]
*(*int8)(unsafe.Pointer(zText + uintptr(i*2+3))) = hexdigits[int32(*(*int8)(unsafe.Pointer(zBlob + uintptr(i))))&0x0F]
}
*(*int8)(unsafe.Pointer(zText + uintptr(nBlob*int64(2)+int64(2)))) = int8('\'')
*(*int8)(unsafe.Pointer(zText + uintptr(nBlob*int64(2)+int64(3)))) = int8(0)
*(*int8)(unsafe.Pointer(zText)) = int8('X')
*(*int8)(unsafe.Pointer(zText + 1)) = int8('\'')
(*StrAccum)(unsafe.Pointer(pStr)).FnChar = U32(nBlob*int64(2) + int64(3))
}
break
}
case SQLITE_TEXT:
{
var zArg uintptr = Xsqlite3_value_text(tls, pValue)
Xsqlite3_str_appendf(tls, pStr, ts+15356, libc.VaList(bp+24, zArg))
break
}
default:
{
Xsqlite3_str_append(tls, pStr, ts+1548, 4)
break
}
}
}
func quoteFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(32)
defer tls.Free(32)
var db uintptr = Xsqlite3_context_db_handle(tls, context)
_ = argc
Xsqlite3StrAccumInit(tls, bp, db, uintptr(0), 0, *(*int32)(unsafe.Pointer(db + 136)))
Xsqlite3QuoteValue(tls, bp, *(*uintptr)(unsafe.Pointer(argv)))
Xsqlite3_result_text(tls, context, Xsqlite3StrAccumFinish(tls, bp), int32((*Sqlite3_str)(unsafe.Pointer(bp)).FnChar),
*(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3OomClear})))
if int32((*Sqlite3_str)(unsafe.Pointer(bp)).FaccError) != SQLITE_OK {
Xsqlite3_result_null(tls, context)
Xsqlite3_result_error_code(tls, context, int32((*Sqlite3_str)(unsafe.Pointer(bp)).FaccError))
}
}
func unicodeFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
_ = argc
if *(*uintptr)(unsafe.Pointer(bp)) != 0 && *(*uint8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))) != 0 {
Xsqlite3_result_int(tls, context, int32(Xsqlite3Utf8Read(tls, bp)))
}
}
func charFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var z uintptr
var zOut uintptr
var i int32
zOut = libc.AssignUintptr(&z, Xsqlite3_malloc64(tls, uint64(argc*4+1)))
if z == uintptr(0) {
Xsqlite3_result_error_nomem(tls, context)
return
}
for i = 0; i < argc; i++ {
var x Sqlite3_int64
var c uint32
x = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8)))
if x < int64(0) || x > int64(0x10ffff) {
x = int64(0xfffd)
}
c = uint32(x & int64(0x1fffff))
if c < uint32(0x00080) {
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = U8(c & uint32(0xFF))
} else if c < uint32(0x00800) {
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = uint8(0xC0 + int32(U8(c>>6&uint32(0x1F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = uint8(0x80 + int32(U8(c&uint32(0x3F))))
} else if c < uint32(0x10000) {
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = uint8(0xE0 + int32(U8(c>>12&uint32(0x0F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = uint8(0x80 + int32(U8(c>>6&uint32(0x3F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = uint8(0x80 + int32(U8(c&uint32(0x3F))))
} else {
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = uint8(0xF0 + int32(U8(c>>18&uint32(0x07))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = uint8(0x80 + int32(U8(c>>12&uint32(0x3F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = uint8(0x80 + int32(U8(c>>6&uint32(0x3F))))
*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = uint8(0x80 + int32(U8(c&uint32(0x3F))))
}
}
Xsqlite3_result_text64(tls, context, z, uint64((int64(zOut)-int64(z))/1), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})), uint8(SQLITE_UTF8))
}
func hexFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var i int32
var n int32
var pBlob uintptr
var zHex uintptr
var z uintptr
_ = argc
pBlob = Xsqlite3_value_blob(tls, *(*uintptr)(unsafe.Pointer(argv)))
n = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv)))
z = libc.AssignUintptr(&zHex, contextMalloc(tls, context, I64(n)*int64(2)+int64(1)))
if zHex != 0 {
i = 0
__1:
if !(i < n) {
goto __3
}
{
var c uint8 = *(*uint8)(unsafe.Pointer(pBlob))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = hexdigits[int32(c)>>4&0xf]
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))) = hexdigits[int32(c)&0xf]
}
goto __2
__2:
i++
pBlob++
goto __1
goto __3
__3:
;
*(*int8)(unsafe.Pointer(z)) = int8(0)
Xsqlite3_result_text(tls, context, zHex, n*2, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
}
}
func strContainsChar(tls *libc.TLS, zStr uintptr, nStr int32, ch U32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var zEnd uintptr = zStr + uintptr(nStr)
*(*uintptr)(unsafe.Pointer(bp)) = zStr
for *(*uintptr)(unsafe.Pointer(bp)) < zEnd {
var tst U32 = func() uint32 {
if int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))))) < 0x80 {
return uint32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&*(*uintptr)(unsafe.Pointer(bp)), 1))))
}
return Xsqlite3Utf8Read(tls, bp)
}()
if tst == ch {
return 1
}
}
return 0
}
func unhexFunc(tls *libc.TLS, pCtx uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var zPass uintptr
var nPass int32
var nHex int32
var pBlob uintptr
var p uintptr
var ch U32
var c U8
var d U8
zPass = ts + 1547
nPass = 0
*(*uintptr)(unsafe.Pointer(bp)) = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
nHex = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv)))
pBlob = uintptr(0)
p = uintptr(0)
if !(argc == 2) {
goto __1
}
zPass = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
nPass = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
__1:
;
if !(!(*(*uintptr)(unsafe.Pointer(bp)) != 0) || !(zPass != 0)) {
goto __2
}
return
__2:
;
p = libc.AssignUintptr(&pBlob, contextMalloc(tls, pCtx, int64(nHex/2+1)))
if !(pBlob != 0) {
goto __3
}
__4:
if !(int32(libc.AssignUint8(&c, *(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))))) != 0x00) {
goto __5
}
__6:
if !!(int32(Xsqlite3CtypeMap[c])&0x08 != 0) {
goto __7
}
ch = func() uint32 {
if int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))))) < 0x80 {
return uint32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&*(*uintptr)(unsafe.Pointer(bp)), 1))))
}
return Xsqlite3Utf8Read(tls, bp)
}()
if !!(strContainsChar(tls, zPass, nPass, ch) != 0) {
goto __8
}
goto unhex_null
__8:
;
c = *(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))))
if !(int32(c) == 0x00) {
goto __9
}
goto unhex_done
__9:
;
goto __6
__7:
;
*(*uintptr)(unsafe.Pointer(bp))++
d = *(*U8)(unsafe.Pointer(libc.PostIncUintptr(&*(*uintptr)(unsafe.Pointer(bp)), 1)))
if !!(int32(Xsqlite3CtypeMap[d])&0x08 != 0) {
goto __10
}
goto unhex_null
__10:
;
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&p, 1))) = U8(int32(Xsqlite3HexToInt(tls, int32(c)))<<4 | int32(Xsqlite3HexToInt(tls, int32(d))))
goto __4
__5:
;
__3:
;
unhex_done:
Xsqlite3_result_blob(tls, pCtx, pBlob, int32((int64(p)-int64(pBlob))/1), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
return
unhex_null:
Xsqlite3_free(tls, pBlob)
return
}
func zeroblobFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var n I64
var rc int32
_ = argc
n = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(argv)))
if n < int64(0) {
n = int64(0)
}
rc = Xsqlite3_result_zeroblob64(tls, context, uint64(n))
if rc != 0 {
Xsqlite3_result_error_code(tls, context, rc)
}
}
func replaceFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var zStr uintptr
var zPattern uintptr
var zRep uintptr
var zOut uintptr
var nStr int32
var nPattern int32
var nRep int32
var nOut I64
var loopLimit int32
var i int32
var j int32
var cntExpand uint32
var db uintptr = Xsqlite3_context_db_handle(tls, context)
_ = argc
zStr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
if zStr == uintptr(0) {
return
}
nStr = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv)))
zPattern = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
if zPattern == uintptr(0) {
return
}
if int32(*(*uint8)(unsafe.Pointer(zPattern))) == 0 {
Xsqlite3_result_value(tls, context, *(*uintptr)(unsafe.Pointer(argv)))
return
}
nPattern = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
zRep = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8)))
if zRep == uintptr(0) {
return
}
nRep = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8)))
nOut = I64(nStr + 1)
zOut = contextMalloc(tls, context, nOut)
if zOut == uintptr(0) {
return
}
loopLimit = nStr - nPattern
cntExpand = uint32(0)
for i = libc.AssignInt32(&j, 0); i <= loopLimit; i++ {
if int32(*(*uint8)(unsafe.Pointer(zStr + uintptr(i)))) != int32(*(*uint8)(unsafe.Pointer(zPattern))) || libc.Xmemcmp(tls, zStr+uintptr(i), zPattern, uint64(nPattern)) != 0 {
*(*uint8)(unsafe.Pointer(zOut + uintptr(libc.PostIncInt32(&j, 1)))) = *(*uint8)(unsafe.Pointer(zStr + uintptr(i)))
} else {
if nRep > nPattern {
nOut = nOut + I64(nRep-nPattern)
if nOut-int64(1) > I64(*(*int32)(unsafe.Pointer(db + 136))) {
Xsqlite3_result_error_toobig(tls, context)
Xsqlite3_free(tls, zOut)
return
}
cntExpand++
if cntExpand&(cntExpand-uint32(1)) == uint32(0) {
var zOld uintptr
zOld = zOut
zOut = Xsqlite3Realloc(tls, zOut, uint64(I64(int32(nOut))+(nOut-I64(nStr)-int64(1))))
if zOut == uintptr(0) {
Xsqlite3_result_error_nomem(tls, context)
Xsqlite3_free(tls, zOld)
return
}
}
}
libc.X__builtin___memcpy_chk(tls, zOut+uintptr(j), zRep, uint64(nRep), libc.X__builtin_object_size(tls, zOut+uintptr(j), 0))
j = j + nRep
i = i + (nPattern - 1)
}
}
libc.X__builtin___memcpy_chk(tls, zOut+uintptr(j), zStr+uintptr(i), uint64(nStr-i), libc.X__builtin_object_size(tls, zOut+uintptr(j), 0))
j = j + (nStr - i)
*(*uint8)(unsafe.Pointer(zOut + uintptr(j))) = uint8(0)
Xsqlite3_result_text(tls, context, zOut, j, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
}
func trimFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var zIn uintptr
var zCharSet uintptr
var nIn uint32
var flags int32
var i int32
var aLen uintptr = uintptr(0)
var azChar uintptr = uintptr(0)
var nChar int32
if Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv))) == SQLITE_NULL {
return
}
zIn = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
if zIn == uintptr(0) {
return
}
nIn = uint32(Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv))))
if argc == 1 {
nChar = 1
aLen = uintptr(unsafe.Pointer(&lenOne))
azChar = uintptr(unsafe.Pointer(&azOne))
zCharSet = uintptr(0)
} else if libc.AssignUintptr(&zCharSet, Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))) == uintptr(0) {
return
} else {
var z uintptr
z = zCharSet
nChar = 0
for ; *(*uint8)(unsafe.Pointer(z)) != 0; nChar++ {
{
if int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1)))) >= 0xc0 {
for int32(*(*uint8)(unsafe.Pointer(z)))&0xc0 == 0x80 {
z++
}
}
}
}
if nChar > 0 {
azChar = contextMalloc(tls, context,
int64(uint64(I64(nChar))*(uint64(unsafe.Sizeof(uintptr(0)))+uint64(unsafe.Sizeof(uint32(0))))))
if azChar == uintptr(0) {
return
}
aLen = azChar + uintptr(nChar)*8
z = zCharSet
nChar = 0
for ; *(*uint8)(unsafe.Pointer(z)) != 0; nChar++ {
*(*uintptr)(unsafe.Pointer(azChar + uintptr(nChar)*8)) = z
{
if int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1)))) >= 0xc0 {
for int32(*(*uint8)(unsafe.Pointer(z)))&0xc0 == 0x80 {
z++
}
}
}
*(*uint32)(unsafe.Pointer(aLen + uintptr(nChar)*4)) = uint32((int64(z) - int64(*(*uintptr)(unsafe.Pointer(azChar + uintptr(nChar)*8)))) / 1)
}
}
}
if nChar > 0 {
flags = int32(Xsqlite3_user_data(tls, context))
if flags&1 != 0 {
for nIn > uint32(0) {
var len uint32 = uint32(0)
for i = 0; i < nChar; i++ {
len = *(*uint32)(unsafe.Pointer(aLen + uintptr(i)*4))
if len <= nIn && libc.Xmemcmp(tls, zIn, *(*uintptr)(unsafe.Pointer(azChar + uintptr(i)*8)), uint64(len)) == 0 {
break
}
}
if i >= nChar {
break
}
zIn += uintptr(len)
nIn = nIn - len
}
}
if flags&2 != 0 {
for nIn > uint32(0) {
var len uint32 = uint32(0)
for i = 0; i < nChar; i++ {
len = *(*uint32)(unsafe.Pointer(aLen + uintptr(i)*4))
if len <= nIn && libc.Xmemcmp(tls, zIn+uintptr(nIn-len), *(*uintptr)(unsafe.Pointer(azChar + uintptr(i)*8)), uint64(len)) == 0 {
break
}
}
if i >= nChar {
break
}
nIn = nIn - len
}
}
if zCharSet != 0 {
Xsqlite3_free(tls, azChar)
}
}
Xsqlite3_result_text(tls, context, zIn, int32(nIn), libc.UintptrFromInt32(-1))
}
var lenOne = [1]uint32{uint32(1)}
var azOne = [1]uintptr{ts + 11323}
func soundexFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var zIn uintptr
var i int32
var j int32
zIn = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
if zIn == uintptr(0) {
zIn = ts + 1547
}
for i = 0; *(*U8)(unsafe.Pointer(zIn + uintptr(i))) != 0 && !(int32(Xsqlite3CtypeMap[*(*U8)(unsafe.Pointer(zIn + uintptr(i)))])&0x02 != 0); i++ {
}
if *(*U8)(unsafe.Pointer(zIn + uintptr(i))) != 0 {
var prevcode U8 = iCode[int32(*(*U8)(unsafe.Pointer(zIn + uintptr(i))))&0x7f]
*(*int8)(unsafe.Pointer(bp)) = int8(int32(*(*U8)(unsafe.Pointer(zIn + uintptr(i)))) & ^(int32(Xsqlite3CtypeMap[*(*U8)(unsafe.Pointer(zIn + uintptr(i)))]) & 0x20))
for j = 1; j < 4 && *(*U8)(unsafe.Pointer(zIn + uintptr(i))) != 0; i++ {
var code int32 = int32(iCode[int32(*(*U8)(unsafe.Pointer(zIn + uintptr(i))))&0x7f])
if code > 0 {
if code != int32(prevcode) {
prevcode = U8(code)
*(*int8)(unsafe.Pointer(bp + uintptr(libc.PostIncInt32(&j, 1)))) = int8(code + '0')
}
} else {
prevcode = U8(0)
}
}
for j < 4 {
*(*int8)(unsafe.Pointer(bp + uintptr(libc.PostIncInt32(&j, 1)))) = int8('0')
}
*(*int8)(unsafe.Pointer(bp + uintptr(j))) = int8(0)
Xsqlite3_result_text(tls, context, bp, 4, libc.UintptrFromInt32(-1))
} else {
Xsqlite3_result_text(tls, context, ts+15359, 4, uintptr(0))
}
}
var iCode = [128]uint8{
uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0),
uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0),
uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0),
uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0),
uint8(0), uint8(0), uint8(1), uint8(2), uint8(3), uint8(0), uint8(1), uint8(2), uint8(0), uint8(0), uint8(2), uint8(2), uint8(4), uint8(5), uint8(5), uint8(0),
uint8(1), uint8(2), uint8(6), uint8(2), uint8(3), uint8(0), uint8(1), uint8(0), uint8(2), uint8(0), uint8(2), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0),
uint8(0), uint8(0), uint8(1), uint8(2), uint8(3), uint8(0), uint8(1), uint8(2), uint8(0), uint8(0), uint8(2), uint8(2), uint8(4), uint8(5), uint8(5), uint8(0),
uint8(1), uint8(2), uint8(6), uint8(2), uint8(3), uint8(0), uint8(1), uint8(0), uint8(2), uint8(0), uint8(2), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0),
}
func loadExt(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var zFile uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
var zProc uintptr
var db uintptr = Xsqlite3_context_db_handle(tls, context)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
if (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_LoadExtFunc) == uint64(0) {
Xsqlite3_result_error(tls, context, ts+12503, -1)
return
}
if argc == 2 {
zProc = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
} else {
zProc = uintptr(0)
}
if zFile != 0 && Xsqlite3_load_extension(tls, db, zFile, zProc, bp) != 0 {
Xsqlite3_result_error(tls, context, *(*uintptr)(unsafe.Pointer(bp)), -1)
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
}
// An instance of the following structure holds the context of a
// sum() or avg() aggregate computation.
type SumCtx1 = struct {
FrSum float64
FiSum I64
Fcnt I64
Foverflow U8
Fapprox U8
F__ccgo_pad1 [6]byte
}
// An instance of the following structure holds the context of a
// sum() or avg() aggregate computation.
type SumCtx = SumCtx1
func sumStep(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var p uintptr
var type1 int32
_ = argc
p = Xsqlite3_aggregate_context(tls, context, int32(unsafe.Sizeof(SumCtx{})))
type1 = Xsqlite3_value_numeric_type(tls, *(*uintptr)(unsafe.Pointer(argv)))
if p != 0 && type1 != SQLITE_NULL {
(*SumCtx)(unsafe.Pointer(p)).Fcnt++
if type1 == SQLITE_INTEGER {
var v I64 = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(argv)))
*(*float64)(unsafe.Pointer(p)) += float64(v)
if int32((*SumCtx)(unsafe.Pointer(p)).Fapprox)|int32((*SumCtx)(unsafe.Pointer(p)).Foverflow) == 0 && Xsqlite3AddInt64(tls, p+8, v) != 0 {
(*SumCtx)(unsafe.Pointer(p)).Fapprox = libc.AssignPtrUint8(p+24, U8(1))
}
} else {
*(*float64)(unsafe.Pointer(p)) += Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv)))
(*SumCtx)(unsafe.Pointer(p)).Fapprox = U8(1)
}
}
}
func sumInverse(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var p uintptr
var type1 int32
_ = argc
p = Xsqlite3_aggregate_context(tls, context, int32(unsafe.Sizeof(SumCtx{})))
type1 = Xsqlite3_value_numeric_type(tls, *(*uintptr)(unsafe.Pointer(argv)))
if p != 0 && type1 != SQLITE_NULL {
(*SumCtx)(unsafe.Pointer(p)).Fcnt--
if type1 == SQLITE_INTEGER && int32((*SumCtx)(unsafe.Pointer(p)).Fapprox) == 0 {
var v I64 = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(argv)))
*(*float64)(unsafe.Pointer(p)) -= float64(v)
*(*I64)(unsafe.Pointer(p + 8)) -= v
} else {
*(*float64)(unsafe.Pointer(p)) -= Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv)))
}
}
}
func sumFinalize(tls *libc.TLS, context uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, context, 0)
if p != 0 && (*SumCtx)(unsafe.Pointer(p)).Fcnt > int64(0) {
if (*SumCtx)(unsafe.Pointer(p)).Foverflow != 0 {
Xsqlite3_result_error(tls, context, ts+15249, -1)
} else if (*SumCtx)(unsafe.Pointer(p)).Fapprox != 0 {
Xsqlite3_result_double(tls, context, (*SumCtx)(unsafe.Pointer(p)).FrSum)
} else {
Xsqlite3_result_int64(tls, context, (*SumCtx)(unsafe.Pointer(p)).FiSum)
}
}
}
func avgFinalize(tls *libc.TLS, context uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, context, 0)
if p != 0 && (*SumCtx)(unsafe.Pointer(p)).Fcnt > int64(0) {
Xsqlite3_result_double(tls, context, (*SumCtx)(unsafe.Pointer(p)).FrSum/float64((*SumCtx)(unsafe.Pointer(p)).Fcnt))
}
}
func totalFinalize(tls *libc.TLS, context uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, context, 0)
Xsqlite3_result_double(tls, context, func() float64 {
if p != 0 {
return (*SumCtx)(unsafe.Pointer(p)).FrSum
}
return float64(0)
}())
}
// The following structure keeps track of state information for the
// count() aggregate function.
type CountCtx1 = struct{ Fn I64 }
// The following structure keeps track of state information for the
// count() aggregate function.
type CountCtx = CountCtx1
func countStep(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, context, int32(unsafe.Sizeof(CountCtx{})))
if (argc == 0 || SQLITE_NULL != Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv)))) && p != 0 {
(*CountCtx)(unsafe.Pointer(p)).Fn++
}
}
func countFinalize(tls *libc.TLS, context uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, context, 0)
Xsqlite3_result_int64(tls, context, func() int64 {
if p != 0 {
return (*CountCtx)(unsafe.Pointer(p)).Fn
}
return int64(0)
}())
}
func countInverse(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, ctx, int32(unsafe.Sizeof(CountCtx{})))
if (argc == 0 || SQLITE_NULL != Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv)))) && p != 0 {
(*CountCtx)(unsafe.Pointer(p)).Fn--
}
}
func minmaxStep(tls *libc.TLS, context uintptr, NotUsed int32, argv uintptr) {
var pArg uintptr = *(*uintptr)(unsafe.Pointer(argv))
var pBest uintptr
_ = NotUsed
pBest = Xsqlite3_aggregate_context(tls, context, int32(unsafe.Sizeof(Mem{})))
if !(pBest != 0) {
return
}
if Xsqlite3_value_type(tls, pArg) == SQLITE_NULL {
if (*Mem)(unsafe.Pointer(pBest)).Fflags != 0 {
sqlite3SkipAccumulatorLoad(tls, context)
}
} else if (*Mem)(unsafe.Pointer(pBest)).Fflags != 0 {
var max int32
var cmp int32
var pColl uintptr = sqlite3GetFuncCollSeq(tls, context)
max = libc.Bool32(Xsqlite3_user_data(tls, context) != uintptr(0))
cmp = Xsqlite3MemCompare(tls, pBest, pArg, pColl)
if max != 0 && cmp < 0 || !(max != 0) && cmp > 0 {
Xsqlite3VdbeMemCopy(tls, pBest, pArg)
} else {
sqlite3SkipAccumulatorLoad(tls, context)
}
} else {
(*Mem)(unsafe.Pointer(pBest)).Fdb = Xsqlite3_context_db_handle(tls, context)
Xsqlite3VdbeMemCopy(tls, pBest, pArg)
}
}
func minMaxValueFinalize(tls *libc.TLS, context uintptr, bValue int32) {
var pRes uintptr
pRes = Xsqlite3_aggregate_context(tls, context, 0)
if pRes != 0 {
if (*Sqlite3_value)(unsafe.Pointer(pRes)).Fflags != 0 {
Xsqlite3_result_value(tls, context, pRes)
}
if bValue == 0 {
Xsqlite3VdbeMemRelease(tls, pRes)
}
}
}
func minMaxValue(tls *libc.TLS, context uintptr) {
minMaxValueFinalize(tls, context, 1)
}
func minMaxFinalize(tls *libc.TLS, context uintptr) {
minMaxValueFinalize(tls, context, 0)
}
// group_concat(EXPR, ?SEPARATOR?)
//
// The SEPARATOR goes before the EXPR string. This is tragic. The
// groupConcatInverse() implementation would have been easier if the
// SEPARATOR were appended after EXPR. And the order is undocumented,
// so we could change it, in theory. But the old behavior has been
// around for so long that we dare not, for fear of breaking something.
type GroupConcatCtx = struct {
Fstr StrAccum
FnAccum int32
FnFirstSepLength int32
FpnSepLengths uintptr
}
func groupConcatStep(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var zVal uintptr
var pGCC uintptr
var zSep uintptr
var nVal int32
var nSep int32
if Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv))) == SQLITE_NULL {
return
}
pGCC = Xsqlite3_aggregate_context(tls, context, int32(unsafe.Sizeof(GroupConcatCtx{})))
if pGCC != 0 {
var db uintptr = Xsqlite3_context_db_handle(tls, context)
var firstTerm int32 = libc.Bool32((*GroupConcatCtx)(unsafe.Pointer(pGCC)).Fstr.FmxAlloc == U32(0))
(*GroupConcatCtx)(unsafe.Pointer(pGCC)).Fstr.FmxAlloc = U32(*(*int32)(unsafe.Pointer(db + 136)))
if argc == 1 {
if !(firstTerm != 0) {
Xsqlite3_str_appendchar(tls, pGCC, 1, int8(','))
} else {
(*GroupConcatCtx)(unsafe.Pointer(pGCC)).FnFirstSepLength = 1
}
} else if !(firstTerm != 0) {
zSep = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
nSep = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
if zSep != 0 {
Xsqlite3_str_append(tls, pGCC, zSep, nSep)
} else {
nSep = 0
}
if nSep != (*GroupConcatCtx)(unsafe.Pointer(pGCC)).FnFirstSepLength || (*GroupConcatCtx)(unsafe.Pointer(pGCC)).FpnSepLengths != uintptr(0) {
var pnsl uintptr = (*GroupConcatCtx)(unsafe.Pointer(pGCC)).FpnSepLengths
if pnsl == uintptr(0) {
pnsl = Xsqlite3_malloc64(tls, uint64((*GroupConcatCtx)(unsafe.Pointer(pGCC)).FnAccum+1)*uint64(unsafe.Sizeof(int32(0))))
if pnsl != uintptr(0) {
var i int32 = 0
var nA int32 = (*GroupConcatCtx)(unsafe.Pointer(pGCC)).FnAccum - 1
for i < nA {
*(*int32)(unsafe.Pointer(pnsl + uintptr(libc.PostIncInt32(&i, 1))*4)) = (*GroupConcatCtx)(unsafe.Pointer(pGCC)).FnFirstSepLength
}
}
} else {
pnsl = Xsqlite3_realloc64(tls, pnsl, uint64((*GroupConcatCtx)(unsafe.Pointer(pGCC)).FnAccum)*uint64(unsafe.Sizeof(int32(0))))
}
if pnsl != uintptr(0) {
if (*GroupConcatCtx)(unsafe.Pointer(pGCC)).FnAccum > 0 {
*(*int32)(unsafe.Pointer(pnsl + uintptr((*GroupConcatCtx)(unsafe.Pointer(pGCC)).FnAccum-1)*4)) = nSep
}
(*GroupConcatCtx)(unsafe.Pointer(pGCC)).FpnSepLengths = pnsl
} else {
Xsqlite3StrAccumSetError(tls, pGCC, uint8(SQLITE_NOMEM))
}
}
} else {
(*GroupConcatCtx)(unsafe.Pointer(pGCC)).FnFirstSepLength = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
}
*(*int32)(unsafe.Pointer(pGCC + 32)) += 1
zVal = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
nVal = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv)))
if zVal != 0 {
Xsqlite3_str_append(tls, pGCC, zVal, nVal)
}
}
}
func groupConcatInverse(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var pGCC uintptr
_ = argc
if Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv))) == SQLITE_NULL {
return
}
pGCC = Xsqlite3_aggregate_context(tls, context, int32(unsafe.Sizeof(GroupConcatCtx{})))
if pGCC != 0 {
var nVS int32
Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
nVS = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv)))
*(*int32)(unsafe.Pointer(pGCC + 32)) -= 1
if (*GroupConcatCtx)(unsafe.Pointer(pGCC)).FpnSepLengths != uintptr(0) {
if (*GroupConcatCtx)(unsafe.Pointer(pGCC)).FnAccum > 0 {
nVS = nVS + *(*int32)(unsafe.Pointer((*GroupConcatCtx)(unsafe.Pointer(pGCC)).FpnSepLengths))
libc.X__builtin___memmove_chk(tls, (*GroupConcatCtx)(unsafe.Pointer(pGCC)).FpnSepLengths, (*GroupConcatCtx)(unsafe.Pointer(pGCC)).FpnSepLengths+uintptr(1)*4, uint64((*GroupConcatCtx)(unsafe.Pointer(pGCC)).FnAccum-1)*uint64(unsafe.Sizeof(int32(0))), libc.X__builtin_object_size(tls, (*GroupConcatCtx)(unsafe.Pointer(pGCC)).FpnSepLengths, 0))
}
} else {
nVS = nVS + (*GroupConcatCtx)(unsafe.Pointer(pGCC)).FnFirstSepLength
}
if nVS >= int32((*GroupConcatCtx)(unsafe.Pointer(pGCC)).Fstr.FnChar) {
(*GroupConcatCtx)(unsafe.Pointer(pGCC)).Fstr.FnChar = U32(0)
} else {
*(*U32)(unsafe.Pointer(pGCC + 24)) -= U32(nVS)
libc.X__builtin___memmove_chk(tls, (*GroupConcatCtx)(unsafe.Pointer(pGCC)).Fstr.FzText, (*GroupConcatCtx)(unsafe.Pointer(pGCC)).Fstr.FzText+uintptr(nVS), uint64((*GroupConcatCtx)(unsafe.Pointer(pGCC)).Fstr.FnChar), libc.X__builtin_object_size(tls, (*GroupConcatCtx)(unsafe.Pointer(pGCC)).Fstr.FzText, 0))
}
if (*GroupConcatCtx)(unsafe.Pointer(pGCC)).Fstr.FnChar == U32(0) {
(*GroupConcatCtx)(unsafe.Pointer(pGCC)).Fstr.FmxAlloc = U32(0)
Xsqlite3_free(tls, (*GroupConcatCtx)(unsafe.Pointer(pGCC)).FpnSepLengths)
(*GroupConcatCtx)(unsafe.Pointer(pGCC)).FpnSepLengths = uintptr(0)
}
}
}
func groupConcatFinalize(tls *libc.TLS, context uintptr) {
var pGCC uintptr = Xsqlite3_aggregate_context(tls, context, 0)
if pGCC != 0 {
Xsqlite3ResultStrAccum(tls, context, pGCC)
Xsqlite3_free(tls, (*GroupConcatCtx)(unsafe.Pointer(pGCC)).FpnSepLengths)
}
}
func groupConcatValue(tls *libc.TLS, context uintptr) {
var pGCC uintptr = Xsqlite3_aggregate_context(tls, context, 0)
if pGCC != 0 {
var pAccum uintptr = pGCC
if int32((*StrAccum)(unsafe.Pointer(pAccum)).FaccError) == SQLITE_TOOBIG {
Xsqlite3_result_error_toobig(tls, context)
} else if int32((*StrAccum)(unsafe.Pointer(pAccum)).FaccError) == SQLITE_NOMEM {
Xsqlite3_result_error_nomem(tls, context)
} else {
var zText uintptr = Xsqlite3_str_value(tls, pAccum)
Xsqlite3_result_text(tls, context, zText, int32((*StrAccum)(unsafe.Pointer(pAccum)).FnChar), libc.UintptrFromInt32(-1))
}
}
}
// This routine does per-connection function registration. Most
// of the built-in functions above are part of the global function set.
// This routine only deals with those that are not global.
func Xsqlite3RegisterPerConnectionBuiltinFunctions(tls *libc.TLS, db uintptr) {
var rc int32 = Xsqlite3_overload_function(tls, db, ts+15364, 2)
if rc == SQLITE_NOMEM {
Xsqlite3OomFault(tls, db)
}
}
// Re-register the built-in LIKE functions. The caseSensitive
// parameter determines whether or not the LIKE operator is case
// sensitive.
func Xsqlite3RegisterLikeFunctions(tls *libc.TLS, db uintptr, caseSensitive int32) {
var pInfo uintptr
var flags int32
if caseSensitive != 0 {
pInfo = uintptr(unsafe.Pointer(&likeInfoAlt))
flags = SQLITE_FUNC_LIKE | SQLITE_FUNC_CASE
} else {
pInfo = uintptr(unsafe.Pointer(&likeInfoNorm))
flags = SQLITE_FUNC_LIKE
}
Xsqlite3CreateFunc(tls, db, ts+15370, 2, SQLITE_UTF8, pInfo, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{likeFunc})), uintptr(0), uintptr(0), uintptr(0), uintptr(0), uintptr(0))
Xsqlite3CreateFunc(tls, db, ts+15370, 3, SQLITE_UTF8, pInfo, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{likeFunc})), uintptr(0), uintptr(0), uintptr(0), uintptr(0), uintptr(0))
*(*U32)(unsafe.Pointer(Xsqlite3FindFunction(tls, db, ts+15370, 2, uint8(SQLITE_UTF8), uint8(0)) + 4)) |= U32(flags)
*(*U32)(unsafe.Pointer(Xsqlite3FindFunction(tls, db, ts+15370, 3, uint8(SQLITE_UTF8), uint8(0)) + 4)) |= U32(flags)
}
// pExpr points to an expression which implements a function. If
// it is appropriate to apply the LIKE optimization to that function
// then set aWc[0] through aWc[2] to the wildcard characters and the
// escape character and then return TRUE. If the function is not a
// LIKE-style function then return FALSE.
//
// The expression "a LIKE b ESCAPE c" is only considered a valid LIKE
// operator if c is a string literal that is exactly one byte in length.
// That one byte is stored in aWc[3]. aWc[3] is set to zero if there is
// no ESCAPE clause.
//
// *pIsNocase is set to true if uppercase and lowercase are equivalent for
// the function (default for LIKE). If the function makes the distinction
// between uppercase and lowercase (as does GLOB) then *pIsNocase is set to
// false.
func Xsqlite3IsLikeFunction(tls *libc.TLS, db uintptr, pExpr uintptr, pIsNocase uintptr, aWc uintptr) int32 {
var pDef uintptr
var nExpr int32
if !(int32(*(*uintptr)(unsafe.Pointer(pExpr + 32))) != 0) {
return 0
}
nExpr = (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FnExpr
pDef = Xsqlite3FindFunction(tls, db, *(*uintptr)(unsafe.Pointer(pExpr + 8)), nExpr, uint8(SQLITE_UTF8), uint8(0))
if pDef == uintptr(0) || (*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_LIKE) == U32(0) {
return 0
}
libc.X__builtin___memcpy_chk(tls, aWc, (*FuncDef)(unsafe.Pointer(pDef)).FpUserData, uint64(3), libc.X__builtin_object_size(tls, aWc, 0))
if nExpr < 3 {
*(*int8)(unsafe.Pointer(aWc + 3)) = int8(0)
} else {
var pEscape uintptr = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)) + 8 + 2*32)).FpExpr
var zEscape uintptr
if int32((*Expr)(unsafe.Pointer(pEscape)).Fop) != TK_STRING {
return 0
}
zEscape = *(*uintptr)(unsafe.Pointer(pEscape + 8))
if int32(*(*int8)(unsafe.Pointer(zEscape))) == 0 || int32(*(*int8)(unsafe.Pointer(zEscape + 1))) != 0 {
return 0
}
if int32(*(*int8)(unsafe.Pointer(zEscape))) == int32(*(*int8)(unsafe.Pointer(aWc))) {
return 0
}
if int32(*(*int8)(unsafe.Pointer(zEscape))) == int32(*(*int8)(unsafe.Pointer(aWc + 1))) {
return 0
}
*(*int8)(unsafe.Pointer(aWc + 3)) = *(*int8)(unsafe.Pointer(zEscape))
}
*(*int32)(unsafe.Pointer(pIsNocase)) = libc.Bool32((*FuncDef)(unsafe.Pointer(pDef)).FfuncFlags&U32(SQLITE_FUNC_CASE) == U32(0))
return 1
}
func ceilingFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
switch Xsqlite3_value_numeric_type(tls, *(*uintptr)(unsafe.Pointer(argv))) {
case SQLITE_INTEGER:
{
Xsqlite3_result_int64(tls, context, Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(argv))))
break
}
case SQLITE_FLOAT:
{
var x uintptr = Xsqlite3_user_data(tls, context)
Xsqlite3_result_double(tls, context, (*struct {
f func(*libc.TLS, float64) float64
})(unsafe.Pointer(&struct{ uintptr }{x})).f(tls, Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv)))))
break
}
default:
{
break
}
}
}
func xCeil(tls *libc.TLS, x float64) float64 {
return libc.Xceil(tls, x)
}
func xFloor(tls *libc.TLS, x float64) float64 {
return libc.Xfloor(tls, x)
}
func logFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var x float64
var b float64
var ans float64
switch Xsqlite3_value_numeric_type(tls, *(*uintptr)(unsafe.Pointer(argv))) {
case SQLITE_INTEGER:
fallthrough
case SQLITE_FLOAT:
x = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv)))
if x <= 0.0 {
return
}
break
default:
return
}
if argc == 2 {
switch Xsqlite3_value_numeric_type(tls, *(*uintptr)(unsafe.Pointer(argv))) {
case SQLITE_INTEGER:
fallthrough
case SQLITE_FLOAT:
b = libc.Xlog(tls, x)
if b <= 0.0 {
return
}
x = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
if x <= 0.0 {
return
}
break
fallthrough
default:
return
}
ans = libc.Xlog(tls, x) / b
} else {
switch int32(Xsqlite3_user_data(tls, context)) {
case 1:
ans = libc.Xlog10(tls, x)
break
fallthrough
case 2:
ans = libc.Xlog2(tls, x)
break
fallthrough
default:
ans = libc.Xlog(tls, x)
break
}
}
Xsqlite3_result_double(tls, context, ans)
}
func degToRad(tls *libc.TLS, x float64) float64 {
return x * (float64(3.14159265358979323846264338327950288) / 180.0)
}
func radToDeg(tls *libc.TLS, x float64) float64 {
return x * (float64(180.0) / 3.14159265358979323846264338327950288)
}
func math1Func(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var type0 int32
var v0 float64
var ans float64
var x uintptr
type0 = Xsqlite3_value_numeric_type(tls, *(*uintptr)(unsafe.Pointer(argv)))
if type0 != SQLITE_INTEGER && type0 != SQLITE_FLOAT {
return
}
v0 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv)))
x = Xsqlite3_user_data(tls, context)
ans = (*struct {
f func(*libc.TLS, float64) float64
})(unsafe.Pointer(&struct{ uintptr }{x})).f(tls, v0)
Xsqlite3_result_double(tls, context, ans)
}
func math2Func(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var type0 int32
var type1 int32
var v0 float64
var v1 float64
var ans float64
var x uintptr
type0 = Xsqlite3_value_numeric_type(tls, *(*uintptr)(unsafe.Pointer(argv)))
if type0 != SQLITE_INTEGER && type0 != SQLITE_FLOAT {
return
}
type1 = Xsqlite3_value_numeric_type(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
if type1 != SQLITE_INTEGER && type1 != SQLITE_FLOAT {
return
}
v0 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv)))
v1 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
x = Xsqlite3_user_data(tls, context)
ans = (*struct {
f func(*libc.TLS, float64, float64) float64
})(unsafe.Pointer(&struct{ uintptr }{x})).f(tls, v0, v1)
Xsqlite3_result_double(tls, context, ans)
}
func piFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
_ = argv
Xsqlite3_result_double(tls, context, 3.14159265358979323846264338327950288)
}
func signFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var type0 int32
var x float64
_ = argc
type0 = Xsqlite3_value_numeric_type(tls, *(*uintptr)(unsafe.Pointer(argv)))
if type0 != SQLITE_INTEGER && type0 != SQLITE_FLOAT {
return
}
x = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv)))
Xsqlite3_result_int(tls, context, func() int32 {
if x < 0.0 {
return -1
}
return func() int32 {
if x > 0.0 {
return +1
}
return 0
}()
}())
}
// All of the FuncDef structures in the aBuiltinFunc[] array above
// to the global function hash table. This occurs at start-time (as
// a consequence of calling sqlite3_initialize()).
//
// After this routine runs
func Xsqlite3RegisterBuiltinFunctions(tls *libc.TLS) {
Xsqlite3AlterFunctions(tls)
Xsqlite3WindowFunctions(tls)
Xsqlite3RegisterDateTimeFunctions(tls)
Xsqlite3RegisterJsonFunctions(tls)
Xsqlite3InsertBuiltinFuncs(tls, uintptr(unsafe.Pointer(&aBuiltinFunc)), int32(uint64(unsafe.Sizeof(aBuiltinFunc))/uint64(unsafe.Sizeof(FuncDef{}))))
}
var aBuiltinFunc = [103]FuncDef{
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_INTERNAL | SQLITE_FUNC_TEST | SQLITE_FUNC_INLINE | SQLITE_FUNC_CONSTANT | 0), FpUserData: uintptr(int64(INLINEFUNC_implies_nonnull_row)), FxSFunc: 0, FzName: ts + 15375},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_INTERNAL | SQLITE_FUNC_TEST | SQLITE_FUNC_INLINE | SQLITE_FUNC_CONSTANT | 0), FpUserData: uintptr(int64(INLINEFUNC_expr_compare)), FxSFunc: 0, FzName: ts + 15395},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_INTERNAL | SQLITE_FUNC_TEST | SQLITE_FUNC_INLINE | SQLITE_FUNC_CONSTANT | 0), FpUserData: uintptr(int64(INLINEFUNC_expr_implies_expr)), FxSFunc: 0, FzName: ts + 15408},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_INTERNAL | SQLITE_FUNC_TEST | SQLITE_FUNC_INLINE | SQLITE_FUNC_CONSTANT | 0), FpUserData: uintptr(int64(INLINEFUNC_affinity)), FxSFunc: 0, FzName: ts + 15426},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15435},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_DIRECTONLY | SQLITE_FUNC_UNSAFE), FxSFunc: 0, FzName: ts + 15443},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_DIRECTONLY | SQLITE_FUNC_UNSAFE), FxSFunc: 0, FzName: ts + 15443},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_SLOCHNG | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 15458},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_SLOCHNG | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 15484},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_INLINE | SQLITE_FUNC_CONSTANT | SQLITE_FUNC_UNLIKELY), FpUserData: uintptr(int64(INLINEFUNC_unlikely)), FxSFunc: 0, FzName: ts + 15509},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_INLINE | SQLITE_FUNC_CONSTANT | SQLITE_FUNC_UNLIKELY), FpUserData: uintptr(int64(INLINEFUNC_unlikely)), FxSFunc: 0, FzName: ts + 15518},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_INLINE | SQLITE_FUNC_CONSTANT | SQLITE_FUNC_UNLIKELY), FpUserData: uintptr(int64(INLINEFUNC_unlikely)), FxSFunc: 0, FzName: ts + 15529},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_INLINE | SQLITE_FUNC_CONSTANT | 0), FpUserData: uintptr(int64(INLINEFUNC_sqlite_offset)), FxSFunc: 0, FzName: ts + 15536},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FpUserData: uintptr(int64(1)), FxSFunc: 0, FzName: ts + 15550},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FpUserData: uintptr(int64(1)), FxSFunc: 0, FzName: ts + 15550},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FpUserData: uintptr(int64(2)), FxSFunc: 0, FzName: ts + 15556},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FpUserData: uintptr(int64(2)), FxSFunc: 0, FzName: ts + 15556},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FpUserData: uintptr(int64(3)), FxSFunc: 0, FzName: ts + 15562},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FpUserData: uintptr(int64(3)), FxSFunc: 0, FzName: ts + 15562},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 1*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15567},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 1*SQLITE_FUNC_NEEDCOLL), FzName: ts + 15567},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 1*SQLITE_FUNC_NEEDCOLL | SQLITE_FUNC_MINMAX | SQLITE_FUNC_ANYORDER), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FzName: ts + 15567},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 1*SQLITE_FUNC_NEEDCOLL), FpUserData: uintptr(int64(1)), FxSFunc: 0, FzName: ts + 15571},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 1*SQLITE_FUNC_NEEDCOLL), FpUserData: uintptr(int64(1)), FzName: ts + 15571},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 1*SQLITE_FUNC_NEEDCOLL | SQLITE_FUNC_MINMAX | SQLITE_FUNC_ANYORDER), FpUserData: uintptr(int64(1)), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FzName: ts + 15571},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL | SQLITE_FUNC_TYPEOF), FxSFunc: 0, FzName: ts + 15575},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL | SQLITE_FUNC_TYPEOF), FxSFunc: 0, FzName: ts + 15582},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL | SQLITE_FUNC_LENGTH), FxSFunc: 0, FzName: ts + 15590},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15597},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15603},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15610},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15617},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15625},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15630},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15634},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15634},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15640},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15646},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15652},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15656},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15656},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_INLINE | SQLITE_FUNC_CONSTANT | 0), FxSFunc: 0, FzName: ts + 15662},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15669},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15676},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 1*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15687},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_SLOCHNG | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 15694},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_SLOCHNG | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 15709},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15726},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15737},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15743},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15761},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15769},
{FnArg: int8(3), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15783},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15791},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15800},
{FnArg: int8(3), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15800},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15807},
{FnArg: int8(3), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15807},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: ts + 15817},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: ts + 15821},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: ts + 15827},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL | SQLITE_FUNC_COUNT | SQLITE_FUNC_ANYORDER), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: ts + 15831},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL | SQLITE_FUNC_ANYORDER), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: ts + 15831},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: ts + 15837},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: ts + 15837},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | SQLITE_FUNC_LIKE | SQLITE_FUNC_CASE), FpUserData: 0, FxSFunc: 0, FzName: ts + 15850},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | SQLITE_FUNC_LIKE), FpUserData: 0, FxSFunc: 0, FzName: ts + 15370},
{FnArg: int8(3), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | SQLITE_FUNC_LIKE), FpUserData: 0, FxSFunc: 0, FzName: ts + 15370},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FzName: ts + 6989},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FzName: ts + 6989},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15855},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15860},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15868},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15874},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15880},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FpUserData: uintptr(int64(1)), FxSFunc: 0, FzName: ts + 15883},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FpUserData: uintptr(int64(1)), FxSFunc: 0, FzName: ts + 15887},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FpUserData: uintptr(int64(2)), FxSFunc: 0, FzName: ts + 15893},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 15883},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15898},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15902},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15906},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15912},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15916},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15921},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15926},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15931},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15937},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15941},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15945},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15949},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15954},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15959},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15964},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15970},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15976},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15982},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15987},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: 0, FxSFunc: 0, FzName: ts + 15995},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 16003},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_FUNC_CONSTANT | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL), FxSFunc: 0, FzName: ts + 16006},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_INLINE | SQLITE_FUNC_CONSTANT | 0), FxSFunc: 0, FzName: ts + 6989},
{FnArg: int8(3), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_INLINE | SQLITE_FUNC_CONSTANT | 0), FpUserData: uintptr(int64(INLINEFUNC_iif)), FxSFunc: 0, FzName: ts + 16011}}
// A foreign key constraint requires that the key columns in the parent
// table are collectively subject to a UNIQUE or PRIMARY KEY constraint.
// Given that pParent is the parent table for foreign key constraint pFKey,
// search the schema for a unique index on the parent key columns.
//
// If successful, zero is returned. If the parent key is an INTEGER PRIMARY
// KEY column, then output variable *ppIdx is set to NULL. Otherwise, *ppIdx
// is set to point to the unique index.
//
// If the parent key consists of a single column (the foreign key constraint
// is not a composite foreign key), output variable *paiCol is set to NULL.
// Otherwise, it is set to point to an allocated array of size N, where
// N is the number of columns in the parent key. The first element of the
// array is the index of the child table column that is mapped by the FK
// constraint to the parent table column stored in the left-most column
// of index *ppIdx. The second element of the array is the index of the
// child table column that corresponds to the second left-most column of
// *ppIdx, and so on.
//
// If the required index cannot be found, either because:
//
// 1. The named parent key columns do not exist, or
//
// 2. The named parent key columns do exist, but are not subject to a
// UNIQUE or PRIMARY KEY constraint, or
//
// 3. No parent key columns were provided explicitly as part of the
// foreign key definition, and the parent table does not have a
// PRIMARY KEY, or
//
// 4. No parent key columns were provided explicitly as part of the
// foreign key definition, and the PRIMARY KEY of the parent table
// consists of a different number of columns to the child key in
// the child table.
//
// then non-zero is returned, and a "foreign key mismatch" error loaded
// into pParse. If an OOM error occurs, non-zero is returned and the
// pParse->db->mallocFailed flag is set.
func Xsqlite3FkLocateIndex(tls *libc.TLS, pParse uintptr, pParent uintptr, pFKey uintptr, ppIdx uintptr, paiCol uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var pIdx uintptr = uintptr(0)
var aiCol uintptr = uintptr(0)
var nCol int32 = (*FKey)(unsafe.Pointer(pFKey)).FnCol
var zKey uintptr = (*sColMap)(unsafe.Pointer(pFKey + 64)).FzCol
if nCol == 1 {
if int32((*Table)(unsafe.Pointer(pParent)).FiPKey) >= 0 {
if !(zKey != 0) {
return 0
}
if !(Xsqlite3StrICmp(tls, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pParent)).FaCol+uintptr((*Table)(unsafe.Pointer(pParent)).FiPKey)*24)).FzCnName, zKey) != 0) {
return 0
}
}
} else if paiCol != 0 {
aiCol = Xsqlite3DbMallocRawNN(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(nCol)*uint64(unsafe.Sizeof(int32(0))))
if !(aiCol != 0) {
return 1
}
*(*uintptr)(unsafe.Pointer(paiCol)) = aiCol
}
for pIdx = (*Table)(unsafe.Pointer(pParent)).FpIndex; pIdx != 0; pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext {
if int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol) == nCol && int32((*Index)(unsafe.Pointer(pIdx)).FonError) != OE_None && (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere == uintptr(0) {
if zKey == uintptr(0) {
if int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY {
if aiCol != 0 {
var i int32
for i = 0; i < nCol; i++ {
*(*int32)(unsafe.Pointer(aiCol + uintptr(i)*4)) = (*sColMap)(unsafe.Pointer(pFKey + 64 + uintptr(i)*16)).FiFrom
}
}
break
}
} else {
var i int32
var j int32
for i = 0; i < nCol; i++ {
var iCol I16 = *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2))
var zDfltColl uintptr
var zIdxCol uintptr
if int32(iCol) < 0 {
break
}
zDfltColl = Xsqlite3ColumnColl(tls, (*Table)(unsafe.Pointer(pParent)).FaCol+uintptr(iCol)*24)
if !(zDfltColl != 0) {
zDfltColl = uintptr(unsafe.Pointer(&Xsqlite3StrBINARY))
}
if Xsqlite3StrICmp(tls, *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(i)*8)), zDfltColl) != 0 {
break
}
zIdxCol = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pParent)).FaCol + uintptr(iCol)*24)).FzCnName
for j = 0; j < nCol; j++ {
if Xsqlite3StrICmp(tls, (*sColMap)(unsafe.Pointer(pFKey+64+uintptr(j)*16)).FzCol, zIdxCol) == 0 {
if aiCol != 0 {
*(*int32)(unsafe.Pointer(aiCol + uintptr(i)*4)) = (*sColMap)(unsafe.Pointer(pFKey + 64 + uintptr(j)*16)).FiFrom
}
break
}
}
if j == nCol {
break
}
}
if i == nCol {
break
}
}
}
}
if !(pIdx != 0) {
if !(int32((*Parse)(unsafe.Pointer(pParse)).FdisableTriggers) != 0) {
Xsqlite3ErrorMsg(tls, pParse,
ts+16015,
libc.VaList(bp, (*Table)(unsafe.Pointer((*FKey)(unsafe.Pointer(pFKey)).FpFrom)).FzName, (*FKey)(unsafe.Pointer(pFKey)).FzTo))
}
Xsqlite3DbFree(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, aiCol)
return 1
}
*(*uintptr)(unsafe.Pointer(ppIdx)) = pIdx
return 0
}
func fkLookupParent(tls *libc.TLS, pParse uintptr, iDb int32, pTab uintptr, pIdx uintptr, pFKey uintptr, aiCol uintptr, regData int32, nIncr int32, isIgnore int32) {
var i int32
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
var iCur int32 = (*Parse)(unsafe.Pointer(pParse)).FnTab - 1
var iOk int32 = Xsqlite3VdbeMakeLabel(tls, pParse)
if nIncr < 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_FkIfZero, int32((*FKey)(unsafe.Pointer(pFKey)).FisDeferred), iOk)
}
for i = 0; i < (*FKey)(unsafe.Pointer(pFKey)).FnCol; i++ {
var iReg int32 = int32(Xsqlite3TableColumnToStorage(tls, (*FKey)(unsafe.Pointer(pFKey)).FpFrom, int16(*(*int32)(unsafe.Pointer(aiCol + uintptr(i)*4))))) + regData + 1
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, iReg, iOk)
}
if isIgnore == 0 {
if pIdx == uintptr(0) {
var iMustBeInt int32
var regTemp int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_SCopy,
int32(Xsqlite3TableColumnToStorage(tls, (*FKey)(unsafe.Pointer(pFKey)).FpFrom, int16(*(*int32)(unsafe.Pointer(aiCol)))))+1+regData, regTemp)
iMustBeInt = Xsqlite3VdbeAddOp2(tls, v, OP_MustBeInt, regTemp, 0)
if pTab == (*FKey)(unsafe.Pointer(pFKey)).FpFrom && nIncr == 1 {
Xsqlite3VdbeAddOp3(tls, v, OP_Eq, regData, iOk, regTemp)
Xsqlite3VdbeChangeP5(tls, v, uint16(SQLITE_NOTNULL))
}
Xsqlite3OpenTable(tls, pParse, iCur, iDb, pTab, OP_OpenRead)
Xsqlite3VdbeAddOp3(tls, v, OP_NotExists, iCur, 0, regTemp)
Xsqlite3VdbeGoto(tls, v, iOk)
Xsqlite3VdbeJumpHere(tls, v, Xsqlite3VdbeCurrentAddr(tls, v)-2)
Xsqlite3VdbeJumpHere(tls, v, iMustBeInt)
Xsqlite3ReleaseTempReg(tls, pParse, regTemp)
} else {
var nCol int32 = (*FKey)(unsafe.Pointer(pFKey)).FnCol
var regTemp int32 = Xsqlite3GetTempRange(tls, pParse, nCol)
Xsqlite3VdbeAddOp3(tls, v, OP_OpenRead, iCur, int32((*Index)(unsafe.Pointer(pIdx)).Ftnum), iDb)
Xsqlite3VdbeSetP4KeyInfo(tls, pParse, pIdx)
for i = 0; i < nCol; i++ {
Xsqlite3VdbeAddOp2(tls, v, OP_Copy,
int32(Xsqlite3TableColumnToStorage(tls, (*FKey)(unsafe.Pointer(pFKey)).FpFrom, int16(*(*int32)(unsafe.Pointer(aiCol + uintptr(i)*4)))))+1+regData,
regTemp+i)
}
if pTab == (*FKey)(unsafe.Pointer(pFKey)).FpFrom && nIncr == 1 {
var iJump int32 = Xsqlite3VdbeCurrentAddr(tls, v) + nCol + 1
for i = 0; i < nCol; i++ {
var iChild int32 = int32(Xsqlite3TableColumnToStorage(tls, (*FKey)(unsafe.Pointer(pFKey)).FpFrom, int16(*(*int32)(unsafe.Pointer(aiCol + uintptr(i)*4))))) +
1 + regData
var iParent int32 = 1 + regData
iParent = iParent + int32(Xsqlite3TableColumnToStorage(tls, (*Index)(unsafe.Pointer(pIdx)).FpTable,
*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2))))
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2))) == int32((*Table)(unsafe.Pointer(pTab)).FiPKey) {
iParent = regData
}
Xsqlite3VdbeAddOp3(tls, v, OP_Ne, iChild, iJump, iParent)
Xsqlite3VdbeChangeP5(tls, v, uint16(SQLITE_JUMPIFNULL))
}
Xsqlite3VdbeGoto(tls, v, iOk)
}
Xsqlite3VdbeAddOp4(tls, v, OP_Affinity, regTemp, nCol, 0,
Xsqlite3IndexAffinityStr(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pIdx), nCol)
Xsqlite3VdbeAddOp4Int(tls, v, OP_Found, iCur, iOk, regTemp, nCol)
Xsqlite3ReleaseTempRange(tls, pParse, regTemp, nCol)
}
}
if !(int32((*FKey)(unsafe.Pointer(pFKey)).FisDeferred) != 0) && !((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Fflags&uint64(SQLITE_DeferFKs) != 0) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).FpToplevel) != 0) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).FisMultiWrite) != 0) {
Xsqlite3HaltConstraint(tls, pParse, SQLITE_CONSTRAINT|int32(3)<<8,
OE_Abort, uintptr(0), int8(-1), uint8(P5_ConstraintFK))
} else {
if nIncr > 0 && int32((*FKey)(unsafe.Pointer(pFKey)).FisDeferred) == 0 {
Xsqlite3MayAbort(tls, pParse)
}
Xsqlite3VdbeAddOp2(tls, v, OP_FkCounter, int32((*FKey)(unsafe.Pointer(pFKey)).FisDeferred), nIncr)
}
Xsqlite3VdbeResolveLabel(tls, v, iOk)
Xsqlite3VdbeAddOp1(tls, v, OP_Close, iCur)
}
func exprTableRegister(tls *libc.TLS, pParse uintptr, pTab uintptr, regBase int32, iCol I16) uintptr {
var pExpr uintptr
var pCol uintptr
var zColl uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
pExpr = Xsqlite3Expr(tls, db, TK_REGISTER, uintptr(0))
if pExpr != 0 {
if int32(iCol) >= 0 && int32(iCol) != int32((*Table)(unsafe.Pointer(pTab)).FiPKey) {
pCol = (*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(iCol)*24
(*Expr)(unsafe.Pointer(pExpr)).FiTable = regBase + int32(Xsqlite3TableColumnToStorage(tls, pTab, iCol)) + 1
(*Expr)(unsafe.Pointer(pExpr)).FaffExpr = (*Column)(unsafe.Pointer(pCol)).Faffinity
zColl = Xsqlite3ColumnColl(tls, pCol)
if zColl == uintptr(0) {
zColl = (*CollSeq)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FpDfltColl)).FzName
}
pExpr = Xsqlite3ExprAddCollateString(tls, pParse, pExpr, zColl)
} else {
(*Expr)(unsafe.Pointer(pExpr)).FiTable = regBase
(*Expr)(unsafe.Pointer(pExpr)).FaffExpr = int8(SQLITE_AFF_INTEGER)
}
}
return pExpr
}
func exprTableColumn(tls *libc.TLS, db uintptr, pTab uintptr, iCursor int32, iCol I16) uintptr {
var pExpr uintptr = Xsqlite3Expr(tls, db, TK_COLUMN, uintptr(0))
if pExpr != 0 {
*(*uintptr)(unsafe.Pointer(pExpr + 64)) = pTab
(*Expr)(unsafe.Pointer(pExpr)).FiTable = iCursor
(*Expr)(unsafe.Pointer(pExpr)).FiColumn = iCol
}
return pExpr
}
func fkScanChildren(tls *libc.TLS, pParse uintptr, pSrc uintptr, pTab uintptr, pIdx uintptr, pFKey uintptr, aiCol uintptr, regData int32, nIncr int32) {
bp := tls.Alloc(56)
defer tls.Free(56)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var i int32
var pWhere uintptr = uintptr(0)
var pWInfo uintptr
var iFkIfZero int32 = 0
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
if nIncr < 0 {
iFkIfZero = Xsqlite3VdbeAddOp2(tls, v, OP_FkIfZero, int32((*FKey)(unsafe.Pointer(pFKey)).FisDeferred), 0)
}
for i = 0; i < (*FKey)(unsafe.Pointer(pFKey)).FnCol; i++ {
var pLeft uintptr
var pRight uintptr
var pEq uintptr
var iCol I16
var zCol uintptr
if pIdx != 0 {
iCol = *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2))
} else {
iCol = int16(-1)
}
pLeft = exprTableRegister(tls, pParse, pTab, regData, iCol)
if aiCol != 0 {
iCol = int16(*(*int32)(unsafe.Pointer(aiCol + uintptr(i)*4)))
} else {
iCol = int16((*sColMap)(unsafe.Pointer(pFKey + 64)).FiFrom)
}
zCol = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer((*FKey)(unsafe.Pointer(pFKey)).FpFrom)).FaCol + uintptr(iCol)*24)).FzCnName
pRight = Xsqlite3Expr(tls, db, TK_ID, zCol)
pEq = Xsqlite3PExpr(tls, pParse, TK_EQ, pLeft, pRight)
pWhere = Xsqlite3ExprAnd(tls, pParse, pWhere, pEq)
}
if pTab == (*FKey)(unsafe.Pointer(pFKey)).FpFrom && nIncr > 0 {
var pNe uintptr
var pLeft uintptr
var pRight uintptr
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
pLeft = exprTableRegister(tls, pParse, pTab, regData, int16(-1))
pRight = exprTableColumn(tls, db, pTab, (*SrcItem)(unsafe.Pointer(pSrc+8)).FiCursor, int16(-1))
pNe = Xsqlite3PExpr(tls, pParse, TK_NE, pLeft, pRight)
} else {
var pEq uintptr
var pAll uintptr = uintptr(0)
for i = 0; i < int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol); i++ {
var iCol I16 = *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2))
pLeft = exprTableRegister(tls, pParse, pTab, regData, iCol)
pRight = Xsqlite3Expr(tls, db, TK_ID, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(iCol)*24)).FzCnName)
pEq = Xsqlite3PExpr(tls, pParse, TK_IS, pLeft, pRight)
pAll = Xsqlite3ExprAnd(tls, pParse, pAll, pEq)
}
pNe = Xsqlite3PExpr(tls, pParse, TK_NOT, pAll, uintptr(0))
}
pWhere = Xsqlite3ExprAnd(tls, pParse, pWhere, pNe)
}
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp, 0))
(*NameContext)(unsafe.Pointer(bp)).FpSrcList = pSrc
(*NameContext)(unsafe.Pointer(bp)).FpParse = pParse
Xsqlite3ResolveExprNames(tls, bp, pWhere)
if (*Parse)(unsafe.Pointer(pParse)).FnErr == 0 {
pWInfo = Xsqlite3WhereBegin(tls, pParse, pSrc, pWhere, uintptr(0), uintptr(0), uintptr(0), uint16(0), 0)
Xsqlite3VdbeAddOp2(tls, v, OP_FkCounter, int32((*FKey)(unsafe.Pointer(pFKey)).FisDeferred), nIncr)
if pWInfo != 0 {
Xsqlite3WhereEnd(tls, pWInfo)
}
}
Xsqlite3ExprDelete(tls, db, pWhere)
if iFkIfZero != 0 {
Xsqlite3VdbeJumpHereOrPopInst(tls, v, iFkIfZero)
}
}
// This function returns a linked list of FKey objects (connected by
// FKey.pNextTo) holding all children of table pTab. For example,
// given the following schema:
//
// CREATE TABLE t1(a PRIMARY KEY);
// CREATE TABLE t2(b REFERENCES t1(a);
//
// Calling this function with table "t1" as an argument returns a pointer
// to the FKey structure representing the foreign key constraint on table
// "t2". Calling this function with "t2" as the argument would return a
// NULL pointer (as there are no FK constraints for which t2 is the parent
// table).
func Xsqlite3FkReferences(tls *libc.TLS, pTab uintptr) uintptr {
return Xsqlite3HashFind(tls, (*Table)(unsafe.Pointer(pTab)).FpSchema+80, (*Table)(unsafe.Pointer(pTab)).FzName)
}
func fkTriggerDelete(tls *libc.TLS, dbMem uintptr, p uintptr) {
if p != 0 {
var pStep uintptr = (*Trigger)(unsafe.Pointer(p)).Fstep_list
Xsqlite3ExprDelete(tls, dbMem, (*TriggerStep)(unsafe.Pointer(pStep)).FpWhere)
Xsqlite3ExprListDelete(tls, dbMem, (*TriggerStep)(unsafe.Pointer(pStep)).FpExprList)
Xsqlite3SelectDelete(tls, dbMem, (*TriggerStep)(unsafe.Pointer(pStep)).FpSelect)
Xsqlite3ExprDelete(tls, dbMem, (*Trigger)(unsafe.Pointer(p)).FpWhen)
Xsqlite3DbFree(tls, dbMem, p)
}
}
// Clear the apTrigger[] cache of CASCADE triggers for all foreign keys
// in a particular database. This needs to happen when the schema
// changes.
func Xsqlite3FkClearTriggerCache(tls *libc.TLS, db uintptr, iDb int32) {
var k uintptr
var pHash uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpSchema + 8
for k = (*Hash)(unsafe.Pointer(pHash)).Ffirst; k != 0; k = (*HashElem)(unsafe.Pointer(k)).Fnext {
var pTab uintptr = (*HashElem)(unsafe.Pointer(k)).Fdata
var pFKey uintptr
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_NORM) {
continue
}
for pFKey = *(*uintptr)(unsafe.Pointer(pTab + 64 + 8)); pFKey != 0; pFKey = (*FKey)(unsafe.Pointer(pFKey)).FpNextFrom {
fkTriggerDelete(tls, db, *(*uintptr)(unsafe.Pointer(pFKey + 48)))
*(*uintptr)(unsafe.Pointer(pFKey + 48)) = uintptr(0)
fkTriggerDelete(tls, db, *(*uintptr)(unsafe.Pointer(pFKey + 48 + 1*8)))
*(*uintptr)(unsafe.Pointer(pFKey + 48 + 1*8)) = uintptr(0)
}
}
}
// This function is called to generate code that runs when table pTab is
// being dropped from the database. The SrcList passed as the second argument
// to this function contains a single entry guaranteed to resolve to
// table pTab.
//
// Normally, no code is required. However, if either
//
// (a) The table is the parent table of a FK constraint, or
// (b) The table is the child table of a deferred FK constraint and it is
// determined at runtime that there are outstanding deferred FK
// constraint violations in the database,
//
// then the equivalent of "DELETE FROM <tbl>" is executed before dropping
// the table from the database. Triggers are disabled while running this
// DELETE, but foreign key actions are not.
func Xsqlite3FkDropTable(tls *libc.TLS, pParse uintptr, pName uintptr, pTab uintptr) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_ForeignKeys) != 0 && int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_NORM {
var iSkip int32 = 0
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
if Xsqlite3FkReferences(tls, pTab) == uintptr(0) {
var p uintptr
for p = *(*uintptr)(unsafe.Pointer(pTab + 64 + 8)); p != 0; p = (*FKey)(unsafe.Pointer(p)).FpNextFrom {
if (*FKey)(unsafe.Pointer(p)).FisDeferred != 0 || (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_DeferFKs) != 0 {
break
}
}
if !(p != 0) {
return
}
iSkip = Xsqlite3VdbeMakeLabel(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_FkIfZero, 1, iSkip)
}
(*Parse)(unsafe.Pointer(pParse)).FdisableTriggers = U8(1)
Xsqlite3DeleteFrom(tls, pParse, Xsqlite3SrcListDup(tls, db, pName, 0), uintptr(0), uintptr(0), uintptr(0))
(*Parse)(unsafe.Pointer(pParse)).FdisableTriggers = U8(0)
if (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_DeferFKs) == uint64(0) {
Xsqlite3VdbeAddOp2(tls, v, OP_FkIfZero, 0, Xsqlite3VdbeCurrentAddr(tls, v)+2)
Xsqlite3HaltConstraint(tls, pParse, SQLITE_CONSTRAINT|int32(3)<<8,
OE_Abort, uintptr(0), int8(-1), uint8(P5_ConstraintFK))
}
if iSkip != 0 {
Xsqlite3VdbeResolveLabel(tls, v, iSkip)
}
}
}
func fkChildIsModified(tls *libc.TLS, pTab uintptr, p uintptr, aChange uintptr, bChngRowid int32) int32 {
var i int32
for i = 0; i < (*FKey)(unsafe.Pointer(p)).FnCol; i++ {
var iChildKey int32 = (*sColMap)(unsafe.Pointer(p + 64 + uintptr(i)*16)).FiFrom
if *(*int32)(unsafe.Pointer(aChange + uintptr(iChildKey)*4)) >= 0 {
return 1
}
if iChildKey == int32((*Table)(unsafe.Pointer(pTab)).FiPKey) && bChngRowid != 0 {
return 1
}
}
return 0
}
func fkParentIsModified(tls *libc.TLS, pTab uintptr, p uintptr, aChange uintptr, bChngRowid int32) int32 {
var i int32
for i = 0; i < (*FKey)(unsafe.Pointer(p)).FnCol; i++ {
var zKey uintptr = (*sColMap)(unsafe.Pointer(p + 64 + uintptr(i)*16)).FzCol
var iKey int32
for iKey = 0; iKey < int32((*Table)(unsafe.Pointer(pTab)).FnCol); iKey++ {
if *(*int32)(unsafe.Pointer(aChange + uintptr(iKey)*4)) >= 0 || iKey == int32((*Table)(unsafe.Pointer(pTab)).FiPKey) && bChngRowid != 0 {
var pCol uintptr = (*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(iKey)*24
if zKey != 0 {
if 0 == Xsqlite3StrICmp(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName, zKey) {
return 1
}
} else if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_PRIMKEY != 0 {
return 1
}
}
}
}
return 0
}
func isSetNullAction(tls *libc.TLS, pParse uintptr, pFKey uintptr) int32 {
var pTop uintptr = func() uintptr {
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel != 0 {
return (*Parse)(unsafe.Pointer(pParse)).FpToplevel
}
return pParse
}()
if (*Parse)(unsafe.Pointer(pTop)).FpTriggerPrg != 0 {
var p uintptr = (*TriggerPrg)(unsafe.Pointer((*Parse)(unsafe.Pointer(pTop)).FpTriggerPrg)).FpTrigger
if p == *(*uintptr)(unsafe.Pointer(pFKey + 48)) && int32(*(*U8)(unsafe.Pointer(pFKey + 45))) == OE_SetNull ||
p == *(*uintptr)(unsafe.Pointer(pFKey + 48 + 1*8)) && int32(*(*U8)(unsafe.Pointer(pFKey + 45 + 1))) == OE_SetNull {
return 1
}
}
return 0
}
// This function is called when inserting, deleting or updating a row of
// table pTab to generate VDBE code to perform foreign key constraint
// processing for the operation.
//
// For a DELETE operation, parameter regOld is passed the index of the
// first register in an array of (pTab->nCol+1) registers containing the
// rowid of the row being deleted, followed by each of the column values
// of the row being deleted, from left to right. Parameter regNew is passed
// zero in this case.
//
// For an INSERT operation, regOld is passed zero and regNew is passed the
// first register of an array of (pTab->nCol+1) registers containing the new
// row data.
//
// For an UPDATE operation, this function is called twice. Once before
// the original record is deleted from the table using the calling convention
// described for DELETE. Then again after the original record is deleted
// but before the new record is inserted using the INSERT convention.
func Xsqlite3FkCheck(tls *libc.TLS, pParse uintptr, pTab uintptr, regOld int32, regNew int32, aChange uintptr, bChngRowid int32) {
bp := tls.Alloc(40)
defer tls.Free(40)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pFKey uintptr
var iDb int32
var zDb uintptr
var isIgnoreErrors int32 = int32((*Parse)(unsafe.Pointer(pParse)).FdisableTriggers)
if (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_ForeignKeys) == uint64(0) {
return
}
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_NORM) {
return
}
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
for pFKey = *(*uintptr)(unsafe.Pointer(pTab + 64 + 8)); pFKey != 0; pFKey = (*FKey)(unsafe.Pointer(pFKey)).FpNextFrom {
var pTo uintptr
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
var aiCol uintptr
var i int32
var bIgnore int32 = 0
if aChange != 0 &&
Xsqlite3_stricmp(tls, (*Table)(unsafe.Pointer(pTab)).FzName, (*FKey)(unsafe.Pointer(pFKey)).FzTo) != 0 &&
fkChildIsModified(tls, pTab, pFKey, aChange, bChngRowid) == 0 {
continue
}
if (*Parse)(unsafe.Pointer(pParse)).FdisableTriggers != 0 {
pTo = Xsqlite3FindTable(tls, db, (*FKey)(unsafe.Pointer(pFKey)).FzTo, zDb)
} else {
pTo = Xsqlite3LocateTable(tls, pParse, uint32(0), (*FKey)(unsafe.Pointer(pFKey)).FzTo, zDb)
}
if !(pTo != 0) || Xsqlite3FkLocateIndex(tls, pParse, pTo, pFKey, bp, bp+8) != 0 {
if !(isIgnoreErrors != 0) || (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return
}
if pTo == uintptr(0) {
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
var iJump int32 = Xsqlite3VdbeCurrentAddr(tls, v) + (*FKey)(unsafe.Pointer(pFKey)).FnCol + 1
for i = 0; i < (*FKey)(unsafe.Pointer(pFKey)).FnCol; i++ {
var iFromCol int32
var iReg int32
iFromCol = (*sColMap)(unsafe.Pointer(pFKey + 64 + uintptr(i)*16)).FiFrom
iReg = int32(Xsqlite3TableColumnToStorage(tls, (*FKey)(unsafe.Pointer(pFKey)).FpFrom, int16(iFromCol))) + regOld + 1
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, iReg, iJump)
}
Xsqlite3VdbeAddOp2(tls, v, OP_FkCounter, int32((*FKey)(unsafe.Pointer(pFKey)).FisDeferred), -1)
}
continue
}
if *(*uintptr)(unsafe.Pointer(bp + 8)) != 0 {
aiCol = *(*uintptr)(unsafe.Pointer(bp + 8))
} else {
*(*int32)(unsafe.Pointer(bp + 16)) = (*sColMap)(unsafe.Pointer(pFKey + 64)).FiFrom
aiCol = bp + 16
}
for i = 0; i < (*FKey)(unsafe.Pointer(pFKey)).FnCol; i++ {
if *(*int32)(unsafe.Pointer(aiCol + uintptr(i)*4)) == int32((*Table)(unsafe.Pointer(pTab)).FiPKey) {
*(*int32)(unsafe.Pointer(aiCol + uintptr(i)*4)) = -1
}
if (*Sqlite3)(unsafe.Pointer(db)).FxAuth != 0 {
var rcauth int32
var zCol uintptr = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTo)).FaCol + uintptr(func() int32 {
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
return int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaiColumn + uintptr(i)*2)))
}
return int32((*Table)(unsafe.Pointer(pTo)).FiPKey)
}())*24)).FzCnName
rcauth = Xsqlite3AuthReadCol(tls, pParse, (*Table)(unsafe.Pointer(pTo)).FzName, zCol, iDb)
bIgnore = libc.Bool32(rcauth == SQLITE_IGNORE)
}
}
Xsqlite3TableLock(tls, pParse, iDb, (*Table)(unsafe.Pointer(pTo)).Ftnum, uint8(0), (*Table)(unsafe.Pointer(pTo)).FzName)
(*Parse)(unsafe.Pointer(pParse)).FnTab++
if regOld != 0 {
fkLookupParent(tls, pParse, iDb, pTo, *(*uintptr)(unsafe.Pointer(bp)), pFKey, aiCol, regOld, -1, bIgnore)
}
if regNew != 0 && !(isSetNullAction(tls, pParse, pFKey) != 0) {
fkLookupParent(tls, pParse, iDb, pTo, *(*uintptr)(unsafe.Pointer(bp)), pFKey, aiCol, regNew, +1, bIgnore)
}
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
for pFKey = Xsqlite3FkReferences(tls, pTab); pFKey != 0; pFKey = (*FKey)(unsafe.Pointer(pFKey)).FpNextTo {
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
var pSrc uintptr
*(*uintptr)(unsafe.Pointer(bp + 32)) = uintptr(0)
if aChange != 0 && fkParentIsModified(tls, pTab, pFKey, aChange, bChngRowid) == 0 {
continue
}
if !(int32((*FKey)(unsafe.Pointer(pFKey)).FisDeferred) != 0) && !((*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_DeferFKs) != 0) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).FpToplevel) != 0) && !(int32((*Parse)(unsafe.Pointer(pParse)).FisMultiWrite) != 0) {
continue
}
if Xsqlite3FkLocateIndex(tls, pParse, pTab, pFKey, bp+24, bp+32) != 0 {
if !(isIgnoreErrors != 0) || (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return
}
continue
}
pSrc = Xsqlite3SrcListAppend(tls, pParse, uintptr(0), uintptr(0), uintptr(0))
if pSrc != 0 {
var pItem uintptr = pSrc + 8
(*SrcItem)(unsafe.Pointer(pItem)).FpTab = (*FKey)(unsafe.Pointer(pFKey)).FpFrom
(*SrcItem)(unsafe.Pointer(pItem)).FzName = (*Table)(unsafe.Pointer((*FKey)(unsafe.Pointer(pFKey)).FpFrom)).FzName
(*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pItem)).FpTab)).FnTabRef++
(*SrcItem)(unsafe.Pointer(pItem)).FiCursor = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
if regNew != 0 {
fkScanChildren(tls, pParse, pSrc, pTab, *(*uintptr)(unsafe.Pointer(bp + 24)), pFKey, *(*uintptr)(unsafe.Pointer(bp + 32)), regNew, -1)
}
if regOld != 0 {
var eAction int32 = int32(*(*U8)(unsafe.Pointer(pFKey + 45 + uintptr(libc.Bool32(aChange != uintptr(0))))))
fkScanChildren(tls, pParse, pSrc, pTab, *(*uintptr)(unsafe.Pointer(bp + 24)), pFKey, *(*uintptr)(unsafe.Pointer(bp + 32)), regOld, 1)
if !(int32((*FKey)(unsafe.Pointer(pFKey)).FisDeferred) != 0) && eAction != OE_Cascade && eAction != OE_SetNull {
Xsqlite3MayAbort(tls, pParse)
}
}
(*SrcItem)(unsafe.Pointer(pItem)).FzName = uintptr(0)
Xsqlite3SrcListDelete(tls, db, pSrc)
}
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 32)))
}
}
// This function is called before generating code to update or delete a
// row contained in table pTab.
func Xsqlite3FkOldmask(tls *libc.TLS, pParse uintptr, pTab uintptr) U32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var mask U32 = U32(0)
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Fflags&uint64(SQLITE_ForeignKeys) != 0 && int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_NORM {
var p uintptr
var i int32
for p = *(*uintptr)(unsafe.Pointer(pTab + 64 + 8)); p != 0; p = (*FKey)(unsafe.Pointer(p)).FpNextFrom {
for i = 0; i < (*FKey)(unsafe.Pointer(p)).FnCol; i++ {
mask = mask | func() uint32 {
if (*sColMap)(unsafe.Pointer(p+64+uintptr(i)*16)).FiFrom > 31 {
return 0xffffffff
}
return U32(1) << (*sColMap)(unsafe.Pointer(p+64+uintptr(i)*16)).FiFrom
}()
}
}
for p = Xsqlite3FkReferences(tls, pTab); p != 0; p = (*FKey)(unsafe.Pointer(p)).FpNextTo {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
Xsqlite3FkLocateIndex(tls, pParse, pTab, p, bp, uintptr(0))
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
for i = 0; i < int32((*Index)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FnKeyCol); i++ {
mask = mask | func() uint32 {
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaiColumn + uintptr(i)*2))) > 31 {
return 0xffffffff
}
return U32(1) << int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaiColumn + uintptr(i)*2)))
}()
}
}
}
}
return mask
}
// This function is called before generating code to update or delete a
// row contained in table pTab. If the operation is a DELETE, then
// parameter aChange is passed a NULL value. For an UPDATE, aChange points
// to an array of size N, where N is the number of columns in table pTab.
// If the i'th column is not modified by the UPDATE, then the corresponding
// entry in the aChange[] array is set to -1. If the column is modified,
// the value is 0 or greater. Parameter chngRowid is set to true if the
// UPDATE statement modifies the rowid fields of the table.
//
// If any foreign key processing will be required, this function returns
// non-zero. If there is no foreign key related processing, this function
// returns zero.
//
// For an UPDATE, this function returns 2 if:
//
// - There are any FKs for which pTab is the child and the parent table
// and any FK processing at all is required (even of a different FK), or
//
// - the UPDATE modifies one or more parent keys for which the action is
// not "NO ACTION" (i.e. is CASCADE, SET DEFAULT or SET NULL).
//
// Or, assuming some other foreign key processing is required, 1.
func Xsqlite3FkRequired(tls *libc.TLS, pParse uintptr, pTab uintptr, aChange uintptr, chngRowid int32) int32 {
var eRet int32 = 1
var bHaveFK int32 = 0
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Fflags&uint64(SQLITE_ForeignKeys) != 0 && int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_NORM {
if !(aChange != 0) {
bHaveFK = libc.Bool32(Xsqlite3FkReferences(tls, pTab) != 0 || *(*uintptr)(unsafe.Pointer(pTab + 64 + 8)) != 0)
} else {
var p uintptr
for p = *(*uintptr)(unsafe.Pointer(pTab + 64 + 8)); p != 0; p = (*FKey)(unsafe.Pointer(p)).FpNextFrom {
if fkChildIsModified(tls, pTab, p, aChange, chngRowid) != 0 {
if 0 == Xsqlite3_stricmp(tls, (*Table)(unsafe.Pointer(pTab)).FzName, (*FKey)(unsafe.Pointer(p)).FzTo) {
eRet = 2
}
bHaveFK = 1
}
}
for p = Xsqlite3FkReferences(tls, pTab); p != 0; p = (*FKey)(unsafe.Pointer(p)).FpNextTo {
if fkParentIsModified(tls, pTab, p, aChange, chngRowid) != 0 {
if int32(*(*U8)(unsafe.Pointer(p + 45 + 1))) != OE_None {
return 2
}
bHaveFK = 1
}
}
}
}
if bHaveFK != 0 {
return eRet
}
return 0
}
func fkActionTrigger(tls *libc.TLS, pParse uintptr, pTab uintptr, pFKey uintptr, pChanges uintptr) uintptr {
bp := tls.Alloc(112)
defer tls.Free(112)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var action int32
var pTrigger uintptr
var iAction int32 = libc.Bool32(pChanges != uintptr(0))
action = int32(*(*U8)(unsafe.Pointer(pFKey + 45 + uintptr(iAction))))
if action == OE_Restrict && (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_DeferFKs) != 0 {
return uintptr(0)
}
pTrigger = *(*uintptr)(unsafe.Pointer(pFKey + 48 + uintptr(iAction)*8))
if action != OE_None && !(pTrigger != 0) {
var zFrom uintptr
var nFrom int32
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
var pStep uintptr = uintptr(0)
var pWhere uintptr = uintptr(0)
var pList uintptr = uintptr(0)
var pSelect uintptr = uintptr(0)
var i int32
var pWhen uintptr = uintptr(0)
if Xsqlite3FkLocateIndex(tls, pParse, pTab, pFKey, bp, bp+8) != 0 {
return uintptr(0)
}
for i = 0; i < (*FKey)(unsafe.Pointer(pFKey)).FnCol; i++ {
*(*Token)(unsafe.Pointer(bp + 48)) = Token{Fz: ts + 6855, Fn: uint32(3)}
*(*Token)(unsafe.Pointer(bp + 64)) = Token{Fz: ts + 6851, Fn: uint32(3)}
var iFromCol int32
var pEq uintptr
if *(*uintptr)(unsafe.Pointer(bp + 8)) != 0 {
iFromCol = *(*int32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)) + uintptr(i)*4))
} else {
iFromCol = (*sColMap)(unsafe.Pointer(pFKey + 64)).FiFrom
}
Xsqlite3TokenInit(tls, bp+16,
(*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(func() int32 {
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
return int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaiColumn + uintptr(i)*2)))
}
return int32((*Table)(unsafe.Pointer(pTab)).FiPKey)
}())*24)).FzCnName)
Xsqlite3TokenInit(tls, bp+32, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer((*FKey)(unsafe.Pointer(pFKey)).FpFrom)).FaCol+uintptr(iFromCol)*24)).FzCnName)
pEq = Xsqlite3PExpr(tls, pParse, TK_EQ,
Xsqlite3PExpr(tls, pParse, TK_DOT,
Xsqlite3ExprAlloc(tls, db, TK_ID, bp+48, 0),
Xsqlite3ExprAlloc(tls, db, TK_ID, bp+16, 0)),
Xsqlite3ExprAlloc(tls, db, TK_ID, bp+32, 0))
pWhere = Xsqlite3ExprAnd(tls, pParse, pWhere, pEq)
if pChanges != 0 {
pEq = Xsqlite3PExpr(tls, pParse, TK_IS,
Xsqlite3PExpr(tls, pParse, TK_DOT,
Xsqlite3ExprAlloc(tls, db, TK_ID, bp+48, 0),
Xsqlite3ExprAlloc(tls, db, TK_ID, bp+16, 0)),
Xsqlite3PExpr(tls, pParse, TK_DOT,
Xsqlite3ExprAlloc(tls, db, TK_ID, bp+64, 0),
Xsqlite3ExprAlloc(tls, db, TK_ID, bp+16, 0)))
pWhen = Xsqlite3ExprAnd(tls, pParse, pWhen, pEq)
}
if action != OE_Restrict && (action != OE_Cascade || pChanges != 0) {
var pNew uintptr
if action == OE_Cascade {
pNew = Xsqlite3PExpr(tls, pParse, TK_DOT,
Xsqlite3ExprAlloc(tls, db, TK_ID, bp+64, 0),
Xsqlite3ExprAlloc(tls, db, TK_ID, bp+16, 0))
} else if action == OE_SetDflt {
var pCol uintptr = (*Table)(unsafe.Pointer((*FKey)(unsafe.Pointer(pFKey)).FpFrom)).FaCol + uintptr(iFromCol)*24
var pDflt uintptr
if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_GENERATED != 0 {
pDflt = uintptr(0)
} else {
pDflt = Xsqlite3ColumnExpr(tls, (*FKey)(unsafe.Pointer(pFKey)).FpFrom, pCol)
}
if pDflt != 0 {
pNew = Xsqlite3ExprDup(tls, db, pDflt, 0)
} else {
pNew = Xsqlite3ExprAlloc(tls, db, TK_NULL, uintptr(0), 0)
}
} else {
pNew = Xsqlite3ExprAlloc(tls, db, TK_NULL, uintptr(0), 0)
}
pList = Xsqlite3ExprListAppend(tls, pParse, pList, pNew)
Xsqlite3ExprListSetName(tls, pParse, pList, bp+32, 0)
}
}
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 8)))
zFrom = (*Table)(unsafe.Pointer((*FKey)(unsafe.Pointer(pFKey)).FpFrom)).FzName
nFrom = Xsqlite3Strlen30(tls, zFrom)
if action == OE_Restrict {
var iDb int32 = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
var pRaise uintptr
(*Token)(unsafe.Pointer(bp + 96)).Fz = zFrom
(*Token)(unsafe.Pointer(bp + 96)).Fn = uint32(nFrom)
(*Token)(unsafe.Pointer(bp + 80)).Fz = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
(*Token)(unsafe.Pointer(bp + 80)).Fn = uint32(Xsqlite3Strlen30(tls, (*Token)(unsafe.Pointer(bp+80)).Fz))
pRaise = Xsqlite3Expr(tls, db, TK_RAISE, ts+5539)
if pRaise != 0 {
(*Expr)(unsafe.Pointer(pRaise)).FaffExpr = int8(OE_Abort)
}
pSelect = Xsqlite3SelectNew(tls, pParse,
Xsqlite3ExprListAppend(tls, pParse, uintptr(0), pRaise),
Xsqlite3SrcListAppend(tls, pParse, uintptr(0), bp+80, bp+96),
pWhere,
uintptr(0), uintptr(0), uintptr(0), uint32(0), uintptr(0))
pWhere = uintptr(0)
}
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable++
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz = U16(0)
pTrigger = Xsqlite3DbMallocZero(tls, db,
uint64(unsafe.Sizeof(Trigger{}))+uint64(unsafe.Sizeof(TriggerStep{}))+uint64(nFrom)+uint64(1))
if pTrigger != 0 {
pStep = libc.AssignPtrUintptr(pTrigger+56, pTrigger+1*72)
(*TriggerStep)(unsafe.Pointer(pStep)).FzTarget = pStep + 1*96
libc.X__builtin___memcpy_chk(tls, (*TriggerStep)(unsafe.Pointer(pStep)).FzTarget, zFrom, uint64(nFrom), libc.X__builtin_object_size(tls, (*TriggerStep)(unsafe.Pointer(pStep)).FzTarget, 0))
(*TriggerStep)(unsafe.Pointer(pStep)).FpWhere = Xsqlite3ExprDup(tls, db, pWhere, EXPRDUP_REDUCE)
(*TriggerStep)(unsafe.Pointer(pStep)).FpExprList = Xsqlite3ExprListDup(tls, db, pList, EXPRDUP_REDUCE)
(*TriggerStep)(unsafe.Pointer(pStep)).FpSelect = Xsqlite3SelectDup(tls, db, pSelect, EXPRDUP_REDUCE)
if pWhen != 0 {
pWhen = Xsqlite3PExpr(tls, pParse, TK_NOT, pWhen, uintptr(0))
(*Trigger)(unsafe.Pointer(pTrigger)).FpWhen = Xsqlite3ExprDup(tls, db, pWhen, EXPRDUP_REDUCE)
}
}
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable--
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz = func() uint16 {
if (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable != 0 {
return uint16(0)
}
return (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FszTrue
}()
Xsqlite3ExprDelete(tls, db, pWhere)
Xsqlite3ExprDelete(tls, db, pWhen)
Xsqlite3ExprListDelete(tls, db, pList)
Xsqlite3SelectDelete(tls, db, pSelect)
if int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 1 {
fkTriggerDelete(tls, db, pTrigger)
return uintptr(0)
}
switch action {
case OE_Restrict:
(*TriggerStep)(unsafe.Pointer(pStep)).Fop = U8(TK_SELECT)
break
fallthrough
case OE_Cascade:
if !(pChanges != 0) {
(*TriggerStep)(unsafe.Pointer(pStep)).Fop = U8(TK_DELETE)
break
}
fallthrough
default:
(*TriggerStep)(unsafe.Pointer(pStep)).Fop = U8(TK_UPDATE)
}
(*TriggerStep)(unsafe.Pointer(pStep)).FpTrig = pTrigger
(*Trigger)(unsafe.Pointer(pTrigger)).FpSchema = (*Table)(unsafe.Pointer(pTab)).FpSchema
(*Trigger)(unsafe.Pointer(pTrigger)).FpTabSchema = (*Table)(unsafe.Pointer(pTab)).FpSchema
*(*uintptr)(unsafe.Pointer(pFKey + 48 + uintptr(iAction)*8)) = pTrigger
(*Trigger)(unsafe.Pointer(pTrigger)).Fop = func() uint8 {
if pChanges != 0 {
return uint8(TK_UPDATE)
}
return uint8(TK_DELETE)
}()
}
return pTrigger
}
// This function is called when deleting or updating a row to implement
// any required CASCADE, SET NULL or SET DEFAULT actions.
func Xsqlite3FkActions(tls *libc.TLS, pParse uintptr, pTab uintptr, pChanges uintptr, regOld int32, aChange uintptr, bChngRowid int32) {
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Fflags&uint64(SQLITE_ForeignKeys) != 0 {
var pFKey uintptr
for pFKey = Xsqlite3FkReferences(tls, pTab); pFKey != 0; pFKey = (*FKey)(unsafe.Pointer(pFKey)).FpNextTo {
if aChange == uintptr(0) || fkParentIsModified(tls, pTab, pFKey, aChange, bChngRowid) != 0 {
var pAct uintptr = fkActionTrigger(tls, pParse, pTab, pFKey, pChanges)
if pAct != 0 {
Xsqlite3CodeRowTriggerDirect(tls, pParse, pAct, pTab, regOld, OE_Abort, 0)
}
}
}
}
}
// Free all memory associated with foreign key definitions attached to
// table pTab. Remove the deleted foreign keys from the Schema.fkeyHash
// hash table.
func Xsqlite3FkDelete(tls *libc.TLS, db uintptr, pTab uintptr) {
var pFKey uintptr
var pNext uintptr
for pFKey = *(*uintptr)(unsafe.Pointer(pTab + 64 + 8)); pFKey != 0; pFKey = pNext {
if (*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed == uintptr(0) {
if (*FKey)(unsafe.Pointer(pFKey)).FpPrevTo != 0 {
(*FKey)(unsafe.Pointer((*FKey)(unsafe.Pointer(pFKey)).FpPrevTo)).FpNextTo = (*FKey)(unsafe.Pointer(pFKey)).FpNextTo
} else {
var p uintptr = (*FKey)(unsafe.Pointer(pFKey)).FpNextTo
var z uintptr = func() uintptr {
if p != 0 {
return (*FKey)(unsafe.Pointer((*FKey)(unsafe.Pointer(pFKey)).FpNextTo)).FzTo
}
return (*FKey)(unsafe.Pointer(pFKey)).FzTo
}()
Xsqlite3HashInsert(tls, (*Table)(unsafe.Pointer(pTab)).FpSchema+80, z, p)
}
if (*FKey)(unsafe.Pointer(pFKey)).FpNextTo != 0 {
(*FKey)(unsafe.Pointer((*FKey)(unsafe.Pointer(pFKey)).FpNextTo)).FpPrevTo = (*FKey)(unsafe.Pointer(pFKey)).FpPrevTo
}
}
fkTriggerDelete(tls, db, *(*uintptr)(unsafe.Pointer(pFKey + 48)))
fkTriggerDelete(tls, db, *(*uintptr)(unsafe.Pointer(pFKey + 48 + 1*8)))
pNext = (*FKey)(unsafe.Pointer(pFKey)).FpNextFrom
Xsqlite3DbFree(tls, db, pFKey)
}
}
// Generate code that will
//
// (1) acquire a lock for table pTab then
// (2) open pTab as cursor iCur.
//
// If pTab is a WITHOUT ROWID table, then it is the PRIMARY KEY index
// for that table that is actually opened.
func Xsqlite3OpenTable(tls *libc.TLS, pParse uintptr, iCur int32, iDb int32, pTab uintptr, opcode int32) {
var v uintptr
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
Xsqlite3TableLock(tls, pParse, iDb, (*Table)(unsafe.Pointer(pTab)).Ftnum,
func() uint8 {
if opcode == OP_OpenWrite {
return uint8(1)
}
return uint8(0)
}(), (*Table)(unsafe.Pointer(pTab)).FzName)
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
Xsqlite3VdbeAddOp4Int(tls, v, opcode, iCur, int32((*Table)(unsafe.Pointer(pTab)).Ftnum), iDb, int32((*Table)(unsafe.Pointer(pTab)).FnNVCol))
} else {
var pPk uintptr = Xsqlite3PrimaryKeyIndex(tls, pTab)
Xsqlite3VdbeAddOp3(tls, v, opcode, iCur, int32((*Index)(unsafe.Pointer(pPk)).Ftnum), iDb)
Xsqlite3VdbeSetP4KeyInfo(tls, pParse, pPk)
}
}
// Return a pointer to the column affinity string associated with index
// pIdx. A column affinity string has one character for each column in
// the table, according to the affinity of the column:
//
// Character Column affinity
// ------------------------------
// 'A' BLOB
// 'B' TEXT
// 'C' NUMERIC
// 'D' INTEGER
// 'F' REAL
//
// An extra 'D' is appended to the end of the string to cover the
// rowid that appears as the last column in every index.
//
// Memory for the buffer containing the column index affinity string
// is managed along with the rest of the Index structure. It will be
// released when sqlite3DeleteIndex() is called.
func Xsqlite3IndexAffinityStr(tls *libc.TLS, db uintptr, pIdx uintptr) uintptr {
if !(int32((*Index)(unsafe.Pointer(pIdx)).FzColAff) != 0) {
var n int32
var pTab uintptr = (*Index)(unsafe.Pointer(pIdx)).FpTable
(*Index)(unsafe.Pointer(pIdx)).FzColAff = Xsqlite3DbMallocRaw(tls, uintptr(0), uint64(int32((*Index)(unsafe.Pointer(pIdx)).FnColumn)+1))
if !(int32((*Index)(unsafe.Pointer(pIdx)).FzColAff) != 0) {
Xsqlite3OomFault(tls, db)
return uintptr(0)
}
for n = 0; n < int32((*Index)(unsafe.Pointer(pIdx)).FnColumn); n++ {
var x I16 = *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(n)*2))
var aff int8
if int32(x) >= 0 {
aff = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(x)*24)).Faffinity
} else if int32(x) == -1 {
aff = int8(SQLITE_AFF_INTEGER)
} else {
aff = Xsqlite3ExprAffinity(tls, (*ExprList_item)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaColExpr+8+uintptr(n)*32)).FpExpr)
}
if int32(aff) < SQLITE_AFF_BLOB {
aff = int8(SQLITE_AFF_BLOB)
}
if int32(aff) > SQLITE_AFF_NUMERIC {
aff = int8(SQLITE_AFF_NUMERIC)
}
*(*int8)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FzColAff + uintptr(n))) = aff
}
*(*int8)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FzColAff + uintptr(n))) = int8(0)
}
return (*Index)(unsafe.Pointer(pIdx)).FzColAff
}
// Compute an affinity string for a table. Space is obtained
// from sqlite3DbMalloc(). The caller is responsible for freeing
// the space when done.
func Xsqlite3TableAffinityStr(tls *libc.TLS, db uintptr, pTab uintptr) uintptr {
var zColAff uintptr
zColAff = Xsqlite3DbMallocRaw(tls, db, uint64(int32((*Table)(unsafe.Pointer(pTab)).FnCol)+1))
if zColAff != 0 {
var i int32
var j int32
for i = libc.AssignInt32(&j, 0); i < int32((*Table)(unsafe.Pointer(pTab)).FnCol); i++ {
if int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_VIRTUAL == 0 {
*(*int8)(unsafe.Pointer(zColAff + uintptr(libc.PostIncInt32(&j, 1)))) = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(i)*24)).Faffinity
}
}
for __ccgo := true; __ccgo; __ccgo = j >= 0 && int32(*(*int8)(unsafe.Pointer(zColAff + uintptr(j)))) <= SQLITE_AFF_BLOB {
*(*int8)(unsafe.Pointer(zColAff + uintptr(libc.PostDecInt32(&j, 1)))) = int8(0)
}
}
return zColAff
}
// Make changes to the evolving bytecode to do affinity transformations
// of values that are about to be gathered into a row for table pTab.
//
// For ordinary (legacy, non-strict) tables:
// -----------------------------------------
//
// Compute the affinity string for table pTab, if it has not already been
// computed. As an optimization, omit trailing SQLITE_AFF_BLOB affinities.
//
// If the affinity string is empty (because it was all SQLITE_AFF_BLOB entries
// which were then optimized out) then this routine becomes a no-op.
//
// Otherwise if iReg>0 then code an OP_Affinity opcode that will set the
// affinities for register iReg and following. Or if iReg==0,
// then just set the P4 operand of the previous opcode (which should be
// an OP_MakeRecord) to the affinity string.
//
// A column affinity string has one character per column:
//
// Character Column affinity
// --------- ---------------
// 'A' BLOB
// 'B' TEXT
// 'C' NUMERIC
// 'D' INTEGER
// 'E' REAL
//
// For STRICT tables:
// ------------------
//
// Generate an appropropriate OP_TypeCheck opcode that will verify the
// datatypes against the column definitions in pTab. If iReg==0, that
// means an OP_MakeRecord opcode has already been generated and should be
// the last opcode generated. The new OP_TypeCheck needs to be inserted
// before the OP_MakeRecord. The new OP_TypeCheck should use the same
// register set as the OP_MakeRecord. If iReg>0 then register iReg is
// the first of a series of registers that will form the new record.
// Apply the type checking to that array of registers.
func Xsqlite3TableAffinity(tls *libc.TLS, v uintptr, pTab uintptr, iReg int32) {
var i int32
var zColAff uintptr
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_Strict) != 0 {
if iReg == 0 {
var pPrev uintptr
Xsqlite3VdbeAppendP4(tls, v, pTab, -5)
pPrev = Xsqlite3VdbeGetLastOp(tls, v)
(*VdbeOp)(unsafe.Pointer(pPrev)).Fopcode = U8(OP_TypeCheck)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, (*VdbeOp)(unsafe.Pointer(pPrev)).Fp1, (*VdbeOp)(unsafe.Pointer(pPrev)).Fp2, (*VdbeOp)(unsafe.Pointer(pPrev)).Fp3)
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_TypeCheck, iReg, int32((*Table)(unsafe.Pointer(pTab)).FnNVCol))
Xsqlite3VdbeAppendP4(tls, v, pTab, -5)
}
return
}
zColAff = (*Table)(unsafe.Pointer(pTab)).FzColAff
if zColAff == uintptr(0) {
zColAff = Xsqlite3TableAffinityStr(tls, uintptr(0), pTab)
if !(zColAff != 0) {
Xsqlite3OomFault(tls, Xsqlite3VdbeDb(tls, v))
return
}
(*Table)(unsafe.Pointer(pTab)).FzColAff = zColAff
}
i = int32(libc.Xstrlen(tls, zColAff) & uint64(0x3fffffff))
if i != 0 {
if iReg != 0 {
Xsqlite3VdbeAddOp4(tls, v, OP_Affinity, iReg, i, 0, zColAff, i)
} else {
Xsqlite3VdbeChangeP4(tls, v, -1, zColAff, i)
}
}
}
func readsTable(tls *libc.TLS, p uintptr, iDb int32, pTab uintptr) int32 {
var v uintptr = Xsqlite3GetVdbe(tls, p)
var i int32
var iEnd int32 = Xsqlite3VdbeCurrentAddr(tls, v)
var pVTab uintptr
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB {
pVTab = Xsqlite3GetVTable(tls, (*Parse)(unsafe.Pointer(p)).Fdb, pTab)
} else {
pVTab = uintptr(0)
}
for i = 1; i < iEnd; i++ {
var pOp uintptr = Xsqlite3VdbeGetOp(tls, v, i)
if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_OpenRead && (*VdbeOp)(unsafe.Pointer(pOp)).Fp3 == iDb {
var pIndex uintptr
var tnum Pgno = Pgno((*VdbeOp)(unsafe.Pointer(pOp)).Fp2)
if tnum == (*Table)(unsafe.Pointer(pTab)).Ftnum {
return 1
}
for pIndex = (*Table)(unsafe.Pointer(pTab)).FpIndex; pIndex != 0; pIndex = (*Index)(unsafe.Pointer(pIndex)).FpNext {
if tnum == (*Index)(unsafe.Pointer(pIndex)).Ftnum {
return 1
}
}
}
if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_VOpen && *(*uintptr)(unsafe.Pointer(pOp + 16)) == pVTab {
return 1
}
}
return 0
}
func exprColumnFlagUnion(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLUMN && int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn) >= 0 {
*(*U16)(unsafe.Pointer(pWalker + 36)) |= U16(int32((*Column)(unsafe.Pointer((*Table1)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pWalker + 40)))).FaCol + uintptr((*Expr)(unsafe.Pointer(pExpr)).FiColumn)*24)).FcolFlags))
}
return WRC_Continue
}
// All regular columns for table pTab have been puts into registers
// starting with iRegStore. The registers that correspond to STORED
// or VIRTUAL columns have not yet been initialized. This routine goes
// back and computes the values for those columns based on the previously
// computed normal columns.
func Xsqlite3ComputeGeneratedColumns(tls *libc.TLS, pParse uintptr, iRegStore int32, pTab uintptr) {
bp := tls.Alloc(56)
defer tls.Free(56)
var i int32
var pRedo uintptr
var eProgress int32
var pOp uintptr
Xsqlite3TableAffinity(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, pTab, iRegStore)
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasStored) != U32(0) {
pOp = Xsqlite3VdbeGetLastOp(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe)
if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_Affinity {
var ii int32
var jj int32
var zP4 uintptr = *(*uintptr)(unsafe.Pointer(pOp + 16))
for ii = libc.AssignInt32(&jj, 0); *(*int8)(unsafe.Pointer(zP4 + uintptr(jj))) != 0; ii++ {
if int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(ii)*24)).FcolFlags)&COLFLAG_VIRTUAL != 0 {
continue
}
if int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(ii)*24)).FcolFlags)&COLFLAG_STORED != 0 {
*(*int8)(unsafe.Pointer(zP4 + uintptr(jj))) = int8(SQLITE_AFF_NONE)
}
jj++
}
} else if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_TypeCheck {
(*VdbeOp)(unsafe.Pointer(pOp)).Fp3 = 1
}
}
for i = 0; i < int32((*Table)(unsafe.Pointer(pTab)).FnCol); i++ {
if int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_GENERATED != 0 {
*(*U16)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(i)*24 + 16)) |= U16(COLFLAG_NOTAVAIL)
}
}
*(*uintptr)(unsafe.Pointer(bp + 8 + 40)) = pTab
(*Walker)(unsafe.Pointer(bp + 8)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{exprColumnFlagUnion}))
(*Walker)(unsafe.Pointer(bp + 8)).FxSelectCallback = uintptr(0)
(*Walker)(unsafe.Pointer(bp + 8)).FxSelectCallback2 = uintptr(0)
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = -iRegStore
for __ccgo := true; __ccgo; __ccgo = pRedo != 0 && eProgress != 0 {
eProgress = 0
pRedo = uintptr(0)
for i = 0; i < int32((*Table)(unsafe.Pointer(pTab)).FnCol); i++ {
var pCol uintptr = (*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(i)*24
if int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_NOTAVAIL != 0 {
var x int32
*(*U16)(unsafe.Pointer(pCol + 16)) |= U16(COLFLAG_BUSY)
(*Walker)(unsafe.Pointer(bp + 8)).FeCode = U16(0)
Xsqlite3WalkExpr(tls, bp+8, Xsqlite3ColumnExpr(tls, pTab, pCol))
*(*U16)(unsafe.Pointer(pCol + 16)) &= libc.Uint16FromInt32(libc.CplInt32(COLFLAG_BUSY))
if int32((*Walker)(unsafe.Pointer(bp+8)).FeCode)&COLFLAG_NOTAVAIL != 0 {
pRedo = pCol
continue
}
eProgress = 1
x = int32(Xsqlite3TableColumnToStorage(tls, pTab, int16(i))) + iRegStore
Xsqlite3ExprCodeGeneratedColumn(tls, pParse, pTab, pCol, x)
*(*U16)(unsafe.Pointer(pCol + 16)) &= libc.Uint16FromInt32(libc.CplInt32(COLFLAG_NOTAVAIL))
}
}
}
if pRedo != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+8373, libc.VaList(bp, (*Column)(unsafe.Pointer(pRedo)).FzCnName))
}
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = 0
}
func autoIncBegin(tls *libc.TLS, pParse uintptr, iDb int32, pTab uintptr) int32 {
var memId int32 = 0
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_Autoincrement) != U32(0) &&
(*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmDbFlags&U32(DBFLAG_Vacuum) == U32(0) {
var pToplevel uintptr = func() uintptr {
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel != 0 {
return (*Parse)(unsafe.Pointer(pParse)).FpToplevel
}
return pParse
}()
var pInfo uintptr
var pSeqTab uintptr = (*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FaDb + uintptr(iDb)*32)).FpSchema)).FpSeqTab
if pSeqTab == uintptr(0) ||
!((*Table)(unsafe.Pointer(pSeqTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) ||
int32((*Table)(unsafe.Pointer(pSeqTab)).FeTabType) == TABTYP_VTAB ||
int32((*Table)(unsafe.Pointer(pSeqTab)).FnCol) != 2 {
(*Parse)(unsafe.Pointer(pParse)).FnErr++
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_CORRUPT | int32(2)<<8
return 0
}
pInfo = (*Parse)(unsafe.Pointer(pToplevel)).FpAinc
for pInfo != 0 && (*AutoincInfo)(unsafe.Pointer(pInfo)).FpTab != pTab {
pInfo = (*AutoincInfo)(unsafe.Pointer(pInfo)).FpNext
}
if pInfo == uintptr(0) {
pInfo = Xsqlite3DbMallocRawNN(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(AutoincInfo{})))
Xsqlite3ParserAddCleanup(tls, pToplevel, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3DbFree})), pInfo)
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed != 0 {
return 0
}
(*AutoincInfo)(unsafe.Pointer(pInfo)).FpNext = (*Parse)(unsafe.Pointer(pToplevel)).FpAinc
(*Parse)(unsafe.Pointer(pToplevel)).FpAinc = pInfo
(*AutoincInfo)(unsafe.Pointer(pInfo)).FpTab = pTab
(*AutoincInfo)(unsafe.Pointer(pInfo)).FiDb = iDb
(*Parse)(unsafe.Pointer(pToplevel)).FnMem++
(*AutoincInfo)(unsafe.Pointer(pInfo)).FregCtr = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pToplevel)).FnMem, 1)
*(*int32)(unsafe.Pointer(pToplevel + 56)) += 2
}
memId = (*AutoincInfo)(unsafe.Pointer(pInfo)).FregCtr
}
return memId
}
// This routine generates code that will initialize all of the
// register used by the autoincrement tracker.
func Xsqlite3AutoincrementBegin(tls *libc.TLS, pParse uintptr) {
var p uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pDb uintptr
var memId int32
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
for p = (*Parse)(unsafe.Pointer(pParse)).FpAinc; p != 0; p = (*AutoincInfo)(unsafe.Pointer(p)).FpNext {
var aOp uintptr
pDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr((*AutoincInfo)(unsafe.Pointer(p)).FiDb)*32
memId = (*AutoincInfo)(unsafe.Pointer(p)).FregCtr
Xsqlite3OpenTable(tls, pParse, 0, (*AutoincInfo)(unsafe.Pointer(p)).FiDb, (*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).FpSeqTab, OP_OpenRead)
Xsqlite3VdbeLoadString(tls, v, memId-1, (*Table)(unsafe.Pointer((*AutoincInfo)(unsafe.Pointer(p)).FpTab)).FzName)
aOp = Xsqlite3VdbeAddOpList(tls, v, int32(uint64(unsafe.Sizeof(autoInc))/uint64(unsafe.Sizeof(VdbeOpList{}))), uintptr(unsafe.Pointer(&autoInc)), iLn1)
if aOp == uintptr(0) {
break
}
(*VdbeOp)(unsafe.Pointer(aOp)).Fp2 = memId
(*VdbeOp)(unsafe.Pointer(aOp)).Fp3 = memId + 2
(*VdbeOp)(unsafe.Pointer(aOp + 2*24)).Fp3 = memId
(*VdbeOp)(unsafe.Pointer(aOp + 3*24)).Fp1 = memId - 1
(*VdbeOp)(unsafe.Pointer(aOp + 3*24)).Fp3 = memId
(*VdbeOp)(unsafe.Pointer(aOp + 3*24)).Fp5 = U16(SQLITE_JUMPIFNULL)
(*VdbeOp)(unsafe.Pointer(aOp + 4*24)).Fp2 = memId + 1
(*VdbeOp)(unsafe.Pointer(aOp + 5*24)).Fp3 = memId
(*VdbeOp)(unsafe.Pointer(aOp + 6*24)).Fp1 = memId
(*VdbeOp)(unsafe.Pointer(aOp + 7*24)).Fp2 = memId + 2
(*VdbeOp)(unsafe.Pointer(aOp + 7*24)).Fp1 = memId
(*VdbeOp)(unsafe.Pointer(aOp + 10*24)).Fp2 = memId
if (*Parse)(unsafe.Pointer(pParse)).FnTab == 0 {
(*Parse)(unsafe.Pointer(pParse)).FnTab = 1
}
}
}
var iLn1 int32 = 0
var autoInc = [12]VdbeOpList{
{Fopcode: U8(OP_Null)},
{Fopcode: U8(OP_Rewind), Fp2: int8(10)},
{Fopcode: U8(OP_Column)},
{Fopcode: U8(OP_Ne), Fp2: int8(9)},
{Fopcode: U8(OP_Rowid)},
{Fopcode: U8(OP_Column), Fp2: int8(1)},
{Fopcode: U8(OP_AddImm)},
{Fopcode: U8(OP_Copy)},
{Fopcode: U8(OP_Goto), Fp2: int8(11)},
{Fopcode: U8(OP_Next), Fp2: int8(2)},
{Fopcode: U8(OP_Integer)},
{Fopcode: U8(OP_Close)},
}
func autoIncStep(tls *libc.TLS, pParse uintptr, memId int32, regRowid int32) {
if memId > 0 {
Xsqlite3VdbeAddOp2(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, OP_MemMax, memId, regRowid)
}
}
func autoIncrementEnd(tls *libc.TLS, pParse uintptr) {
var p uintptr
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
for p = (*Parse)(unsafe.Pointer(pParse)).FpAinc; p != 0; p = (*AutoincInfo)(unsafe.Pointer(p)).FpNext {
var aOp uintptr
var pDb uintptr = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr((*AutoincInfo)(unsafe.Pointer(p)).FiDb)*32
var iRec int32
var memId int32 = (*AutoincInfo)(unsafe.Pointer(p)).FregCtr
iRec = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp3(tls, v, OP_Le, memId+2, Xsqlite3VdbeCurrentAddr(tls, v)+7, memId)
Xsqlite3OpenTable(tls, pParse, 0, (*AutoincInfo)(unsafe.Pointer(p)).FiDb, (*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).FpSeqTab, OP_OpenWrite)
aOp = Xsqlite3VdbeAddOpList(tls, v, int32(uint64(unsafe.Sizeof(autoIncEnd))/uint64(unsafe.Sizeof(VdbeOpList{}))), uintptr(unsafe.Pointer(&autoIncEnd)), iLn2)
if aOp == uintptr(0) {
break
}
(*VdbeOp)(unsafe.Pointer(aOp)).Fp1 = memId + 1
(*VdbeOp)(unsafe.Pointer(aOp + 1*24)).Fp2 = memId + 1
(*VdbeOp)(unsafe.Pointer(aOp + 2*24)).Fp1 = memId - 1
(*VdbeOp)(unsafe.Pointer(aOp + 2*24)).Fp3 = iRec
(*VdbeOp)(unsafe.Pointer(aOp + 3*24)).Fp2 = iRec
(*VdbeOp)(unsafe.Pointer(aOp + 3*24)).Fp3 = memId + 1
(*VdbeOp)(unsafe.Pointer(aOp + 3*24)).Fp5 = U16(OPFLAG_APPEND)
Xsqlite3ReleaseTempReg(tls, pParse, iRec)
}
}
var iLn2 int32 = 0
var autoIncEnd = [5]VdbeOpList{
{Fopcode: U8(OP_NotNull), Fp2: int8(2)},
{Fopcode: U8(OP_NewRowid)},
{Fopcode: U8(OP_MakeRecord), Fp2: int8(2)},
{Fopcode: U8(OP_Insert)},
{Fopcode: U8(OP_Close)},
}
func Xsqlite3AutoincrementEnd(tls *libc.TLS, pParse uintptr) {
if (*Parse)(unsafe.Pointer(pParse)).FpAinc != 0 {
autoIncrementEnd(tls, pParse)
}
}
// This routine is called to handle SQL of the following forms:
//
// insert into TABLE (IDLIST) values(EXPRLIST),(EXPRLIST),...
// insert into TABLE (IDLIST) select
// insert into TABLE (IDLIST) default values
//
// The IDLIST following the table name is always optional. If omitted,
// then a list of all (non-hidden) columns for the table is substituted.
// The IDLIST appears in the pColumn parameter. pColumn is NULL if IDLIST
// is omitted.
//
// For the pSelect parameter holds the values to be inserted for the
// first two forms shown above. A VALUES clause is really just short-hand
// for a SELECT statement that omits the FROM clause and everything else
// that follows. If the pSelect parameter is NULL, that means that the
// DEFAULT VALUES form of the INSERT statement is intended.
//
// The code generated follows one of four templates. For a simple
// insert with data coming from a single-row VALUES clause, the code executes
// once straight down through. Pseudo-code follows (we call this
// the "1st template"):
//
// open write cursor to <table> and its indices
// put VALUES clause expressions into registers
// write the resulting record into <table>
// cleanup
//
// The three remaining templates assume the statement is of the form
//
// INSERT INTO <table> SELECT ...
//
// If the SELECT clause is of the restricted form "SELECT * FROM <table2>" -
// in other words if the SELECT pulls all columns from a single table
// and there is no WHERE or LIMIT or GROUP BY or ORDER BY clauses, and
// if <table2> and <table1> are distinct tables but have identical
// schemas, including all the same indices, then a special optimization
// is invoked that copies raw records from <table2> over to <table1>.
// See the xferOptimization() function for the implementation of this
// template. This is the 2nd template.
//
// open a write cursor to <table>
// open read cursor on <table2>
// transfer all records in <table2> over to <table>
// close cursors
// foreach index on <table>
// open a write cursor on the <table> index
// open a read cursor on the corresponding <table2> index
// transfer all records from the read to the write cursors
// close cursors
// end foreach
//
// The 3rd template is for when the second template does not apply
// and the SELECT clause does not read from <table> at any time.
// The generated code follows this template:
//
// X <- A
// goto B
// A: setup for the SELECT
// loop over the rows in the SELECT
// load values into registers R..R+n
// yield X
// end loop
// cleanup after the SELECT
// end-coroutine X
// B: open write cursor to <table> and its indices
// C: yield X, at EOF goto D
// insert the select result into <table> from R..R+n
// goto C
// D: cleanup
//
// The 4th template is used if the insert statement takes its
// values from a SELECT but the data is being inserted into a table
// that is also read as part of the SELECT. In the third form,
// we have to use an intermediate table to store the results of
// the select. The template is like this:
//
// X <- A
// goto B
// A: setup for the SELECT
// loop over the tables in the SELECT
// load value into register R..R+n
// yield X
// end loop
// cleanup after the SELECT
// end co-routine R
// B: open temp table
// L: yield X, at EOF goto M
// insert row from R..R+n into temp table
// goto L
// M: open write cursor to <table> and its indices
// rewind temp table
// C: loop over rows of intermediate table
// transfer values form intermediate table into <table>
// end loop
// D: cleanup
func Xsqlite3Insert(tls *libc.TLS, pParse uintptr, pTabList uintptr, pSelect uintptr, pColumn uintptr, onError int32, pUpsert uintptr) {
bp := tls.Alloc(188)
defer tls.Free(188)
var db uintptr
var pTab uintptr
var i int32
var j int32
var v uintptr
var pIdx uintptr
var nColumn int32
var nHidden int32
var ipkColumn int32
var endOfLoop int32
var srcTab int32
var addrInsTop int32
var addrCont int32
var iDb int32
var useTempTable U8
var appendFlag U8
var withoutRowid U8
var bIdListInOrder U8
var pList uintptr
var iRegStore int32
var regFromSelect int32
var regAutoinc int32
var regRowCount int32
var regIns int32
var regRowid int32
var regData int32
var aRegIdx uintptr
var isView int32
var pTrigger uintptr
var regRec int32
var regTempRowid int32
var addrL int32
var regYield int32
var addrTop int32
var rc int32
var nIdx int32
var pNx uintptr
var pX uintptr
var y int32
var k int32
var colFlags U32
var addr1 int32
var regCols int32
var pIpk uintptr
var addr11 int32
var pVTab uintptr
var bUseSeek int32
nHidden = 0
*(*int32)(unsafe.Pointer(bp + 176)) = 0
*(*int32)(unsafe.Pointer(bp + 180)) = 0
ipkColumn = -1
srcTab = 0
addrInsTop = 0
addrCont = 0
useTempTable = U8(0)
appendFlag = U8(0)
pList = uintptr(0)
regFromSelect = 0
regAutoinc = 0
regRowCount = 0
aRegIdx = uintptr(0)
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __1
}
goto insert_cleanup
__1:
;
(*SelectDest)(unsafe.Pointer(bp + 80)).FiSDParm = 0
if !(pSelect != 0 && (*Select)(unsafe.Pointer(pSelect)).FselFlags&U32(SF_Values) != U32(0) && (*Select)(unsafe.Pointer(pSelect)).FpPrior == uintptr(0)) {
goto __2
}
pList = (*Select)(unsafe.Pointer(pSelect)).FpEList
(*Select)(unsafe.Pointer(pSelect)).FpEList = uintptr(0)
Xsqlite3SelectDelete(tls, db, pSelect)
pSelect = uintptr(0)
__2:
;
pTab = Xsqlite3SrcListLookup(tls, pParse, pTabList)
if !(pTab == uintptr(0)) {
goto __3
}
goto insert_cleanup
__3:
;
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
if !(Xsqlite3AuthCheck(tls, pParse, SQLITE_INSERT, (*Table)(unsafe.Pointer(pTab)).FzName, uintptr(0),
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName) != 0) {
goto __4
}
goto insert_cleanup
__4:
;
withoutRowid = libc.BoolUint8(!((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)))
pTrigger = Xsqlite3TriggersExist(tls, pParse, pTab, TK_INSERT, uintptr(0), bp+72)
isView = libc.Bool32(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW)
if !(Xsqlite3ViewGetColumnNames(tls, pParse, pTab) != 0) {
goto __5
}
goto insert_cleanup
__5:
;
if !(Xsqlite3IsReadOnly(tls, pParse, pTab, *(*int32)(unsafe.Pointer(bp + 72))) != 0) {
goto __6
}
goto insert_cleanup
__6:
;
v = Xsqlite3GetVdbe(tls, pParse)
if !(v == uintptr(0)) {
goto __7
}
goto insert_cleanup
__7:
;
if !(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) == 0) {
goto __8
}
Xsqlite3VdbeCountChanges(tls, v)
__8:
;
Xsqlite3BeginWriteOperation(tls, pParse, libc.Bool32(pSelect != 0 || pTrigger != 0), iDb)
if !(pColumn == uintptr(0) &&
pSelect != uintptr(0) &&
pTrigger == uintptr(0) &&
xferOptimization(tls, pParse, pTab, pSelect, onError, iDb) != 0) {
goto __9
}
goto insert_end
__9:
;
regAutoinc = autoIncBegin(tls, pParse, iDb, pTab)
regRowid = libc.AssignInt32(&regIns, (*Parse)(unsafe.Pointer(pParse)).FnMem+1)
*(*int32)(unsafe.Pointer(pParse + 56)) += int32((*Table)(unsafe.Pointer(pTab)).FnCol) + 1
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __10
}
regRowid++
(*Parse)(unsafe.Pointer(pParse)).FnMem++
__10:
;
regData = regRowid + 1
bIdListInOrder = U8(libc.Bool32((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_OOOHidden|TF_HasStored) == U32(0)))
if !(pColumn != 0) {
goto __11
}
(*IdList)(unsafe.Pointer(pColumn)).FeU4 = U8(EU4_IDX)
i = 0
__12:
if !(i < (*IdList)(unsafe.Pointer(pColumn)).FnId) {
goto __14
}
*(*int32)(unsafe.Pointer(pColumn + 8 + uintptr(i)*16 + 8)) = -1
goto __13
__13:
i++
goto __12
goto __14
__14:
;
i = 0
__15:
if !(i < (*IdList)(unsafe.Pointer(pColumn)).FnId) {
goto __17
}
j = 0
__18:
if !(j < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __20
}
if !(Xsqlite3StrICmp(tls, (*IdList_item)(unsafe.Pointer(pColumn+8+uintptr(i)*16)).FzName, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)).FzCnName) == 0) {
goto __21
}
*(*int32)(unsafe.Pointer(pColumn + 8 + uintptr(i)*16 + 8)) = j
if !(i != j) {
goto __22
}
bIdListInOrder = U8(0)
__22:
;
if !(j == int32((*Table)(unsafe.Pointer(pTab)).FiPKey)) {
goto __23
}
ipkColumn = i
__23:
;
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)).FcolFlags)&(COLFLAG_STORED|COLFLAG_VIRTUAL) != 0) {
goto __24
}
Xsqlite3ErrorMsg(tls, pParse,
ts+16060,
libc.VaList(bp, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)).FzCnName))
goto insert_cleanup
__24:
;
goto __20
__21:
;
goto __19
__19:
j++
goto __18
goto __20
__20:
;
if !(j >= int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __25
}
if !(Xsqlite3IsRowid(tls, (*IdList_item)(unsafe.Pointer(pColumn+8+uintptr(i)*16)).FzName) != 0 && !(withoutRowid != 0)) {
goto __26
}
ipkColumn = i
bIdListInOrder = U8(0)
goto __27
__26:
Xsqlite3ErrorMsg(tls, pParse, ts+16101,
libc.VaList(bp+8, pTabList+8, (*IdList_item)(unsafe.Pointer(pColumn+8+uintptr(i)*16)).FzName))
(*Parse)(unsafe.Pointer(pParse)).FcheckSchema = U8(1)
goto insert_cleanup
__27:
;
__25:
;
goto __16
__16:
i++
goto __15
goto __17
__17:
;
__11:
;
if !(pSelect != 0) {
goto __28
}
regYield = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
addrTop = Xsqlite3VdbeCurrentAddr(tls, v) + 1
Xsqlite3VdbeAddOp3(tls, v, OP_InitCoroutine, regYield, 0, addrTop)
Xsqlite3SelectDestInit(tls, bp+80, SRT_Coroutine, regYield)
(*SelectDest)(unsafe.Pointer(bp + 80)).FiSdst = func() int32 {
if bIdListInOrder != 0 {
return regData
}
return 0
}()
(*SelectDest)(unsafe.Pointer(bp + 80)).FnSdst = int32((*Table)(unsafe.Pointer(pTab)).FnCol)
rc = Xsqlite3Select(tls, pParse, pSelect, bp+80)
regFromSelect = (*SelectDest)(unsafe.Pointer(bp + 80)).FiSdst
if !(rc != 0 || (*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __30
}
goto insert_cleanup
__30:
;
Xsqlite3VdbeEndCoroutine(tls, v, regYield)
Xsqlite3VdbeJumpHere(tls, v, addrTop-1)
nColumn = (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(pSelect)).FpEList)).FnExpr
if !(pTrigger != 0 || readsTable(tls, pParse, iDb, pTab) != 0) {
goto __31
}
useTempTable = U8(1)
__31:
;
if !(useTempTable != 0) {
goto __32
}
srcTab = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
regRec = Xsqlite3GetTempReg(tls, pParse)
regTempRowid = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, srcTab, nColumn)
addrL = Xsqlite3VdbeAddOp1(tls, v, OP_Yield, (*SelectDest)(unsafe.Pointer(bp+80)).FiSDParm)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regFromSelect, nColumn, regRec)
Xsqlite3VdbeAddOp2(tls, v, OP_NewRowid, srcTab, regTempRowid)
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, srcTab, regRec, regTempRowid)
Xsqlite3VdbeGoto(tls, v, addrL)
Xsqlite3VdbeJumpHere(tls, v, addrL)
Xsqlite3ReleaseTempReg(tls, pParse, regRec)
Xsqlite3ReleaseTempReg(tls, pParse, regTempRowid)
__32:
;
goto __29
__28:
libc.X__builtin___memset_chk(tls, bp+120, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp+120, 0))
(*NameContext)(unsafe.Pointer(bp + 120)).FpParse = pParse
srcTab = -1
if !(pList != 0) {
goto __33
}
nColumn = (*ExprList)(unsafe.Pointer(pList)).FnExpr
if !(Xsqlite3ResolveExprListNames(tls, bp+120, pList) != 0) {
goto __35
}
goto insert_cleanup
__35:
;
goto __34
__33:
nColumn = 0
__34:
;
__29:
;
if !(pColumn == uintptr(0) && nColumn > 0) {
goto __36
}
ipkColumn = int32((*Table)(unsafe.Pointer(pTab)).FiPKey)
if !(ipkColumn >= 0 && (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasGenerated) != U32(0)) {
goto __37
}
i = ipkColumn - 1
__38:
if !(i >= 0) {
goto __40
}
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_GENERATED != 0) {
goto __41
}
ipkColumn--
__41:
;
goto __39
__39:
i--
goto __38
goto __40
__40:
;
__37:
;
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasGenerated|TF_HasHidden) != U32(0)) {
goto __42
}
i = 0
__43:
if !(i < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __45
}
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_NOINSERT != 0) {
goto __46
}
nHidden++
__46:
;
goto __44
__44:
i++
goto __43
goto __45
__45:
;
__42:
;
if !(nColumn != int32((*Table)(unsafe.Pointer(pTab)).FnCol)-nHidden) {
goto __47
}
Xsqlite3ErrorMsg(tls, pParse,
ts+16133,
libc.VaList(bp+24, pTabList+8, int32((*Table)(unsafe.Pointer(pTab)).FnCol)-nHidden, nColumn))
goto insert_cleanup
__47:
;
__36:
;
if !(pColumn != uintptr(0) && nColumn != (*IdList)(unsafe.Pointer(pColumn)).FnId) {
goto __48
}
Xsqlite3ErrorMsg(tls, pParse, ts+16185, libc.VaList(bp+48, nColumn, (*IdList)(unsafe.Pointer(pColumn)).FnId))
goto insert_cleanup
__48:
;
if !((*Sqlite3)(unsafe.Pointer(db)).Fflags&(uint64(0x00001)<<32) != uint64(0) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) != 0) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).FpTriggerTab) != 0) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).FbReturning) != 0)) {
goto __49
}
regRowCount = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, regRowCount)
__49:
;
if !!(isView != 0) {
goto __50
}
nIdx = Xsqlite3OpenTableAndIndices(tls, pParse, pTab, OP_OpenWrite, uint8(0), -1, uintptr(0),
bp+176, bp+180)
aRegIdx = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(int32(0)))*uint64(nIdx+2))
if !(aRegIdx == uintptr(0)) {
goto __51
}
goto insert_cleanup
__51:
;
i = 0
pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex
__52:
if !(i < nIdx) {
goto __54
}
*(*int32)(unsafe.Pointer(aRegIdx + uintptr(i)*4)) = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
*(*int32)(unsafe.Pointer(pParse + 56)) += int32((*Index)(unsafe.Pointer(pIdx)).FnColumn)
goto __53
__53:
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
i++
goto __52
goto __54
__54:
;
*(*int32)(unsafe.Pointer(aRegIdx + uintptr(i)*4)) = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
__50:
;
if !(pUpsert != 0) {
goto __55
}
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __56
}
Xsqlite3ErrorMsg(tls, pParse, ts+16210,
libc.VaList(bp+64, (*Table)(unsafe.Pointer(pTab)).FzName))
goto insert_cleanup
__56:
;
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW) {
goto __57
}
Xsqlite3ErrorMsg(tls, pParse, ts+16256, 0)
goto insert_cleanup
__57:
;
if !(Xsqlite3HasExplicitNulls(tls, pParse, (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertTarget) != 0) {
goto __58
}
goto insert_cleanup
__58:
;
(*SrcItem)(unsafe.Pointer(pTabList + 8)).FiCursor = *(*int32)(unsafe.Pointer(bp + 176))
pNx = pUpsert
__59:
(*Upsert)(unsafe.Pointer(pNx)).FpUpsertSrc = pTabList
(*Upsert)(unsafe.Pointer(pNx)).FregData = regData
(*Upsert)(unsafe.Pointer(pNx)).FiDataCur = *(*int32)(unsafe.Pointer(bp + 176))
(*Upsert)(unsafe.Pointer(pNx)).FiIdxCur = *(*int32)(unsafe.Pointer(bp + 180))
if !((*Upsert)(unsafe.Pointer(pNx)).FpUpsertTarget != 0) {
goto __62
}
if !(Xsqlite3UpsertAnalyzeTarget(tls, pParse, pTabList, pNx) != 0) {
goto __63
}
goto insert_cleanup
__63:
;
__62:
;
pNx = (*Upsert)(unsafe.Pointer(pNx)).FpNextUpsert
goto __60
__60:
if pNx != uintptr(0) {
goto __59
}
goto __61
__61:
;
__55:
;
if !(useTempTable != 0) {
goto __64
}
addrInsTop = Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, srcTab)
addrCont = Xsqlite3VdbeCurrentAddr(tls, v)
goto __65
__64:
if !(pSelect != 0) {
goto __66
}
addrInsTop = libc.AssignInt32(&addrCont, Xsqlite3VdbeAddOp1(tls, v, OP_Yield, (*SelectDest)(unsafe.Pointer(bp+80)).FiSDParm))
if !(ipkColumn >= 0) {
goto __67
}
Xsqlite3VdbeAddOp2(tls, v, OP_Copy, regFromSelect+ipkColumn, regRowid)
__67:
;
__66:
;
__65:
;
nHidden = 0
iRegStore = regData
i = 0
__68:
if !(i < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __70
}
if !(i == int32((*Table)(unsafe.Pointer(pTab)).FiPKey)) {
goto __71
}
Xsqlite3VdbeAddOp1(tls, v, OP_SoftNull, iRegStore)
goto __69
__71:
;
if !(libc.AssignUint32(&colFlags, U32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags))&U32(COLFLAG_NOINSERT) != U32(0)) {
goto __72
}
nHidden++
if !(colFlags&U32(COLFLAG_VIRTUAL) != U32(0)) {
goto __73
}
iRegStore--
goto __69
goto __74
__73:
if !(colFlags&U32(COLFLAG_STORED) != U32(0)) {
goto __75
}
if !(*(*int32)(unsafe.Pointer(bp + 72))&TRIGGER_BEFORE != 0) {
goto __77
}
Xsqlite3VdbeAddOp1(tls, v, OP_SoftNull, iRegStore)
__77:
;
goto __69
goto __76
__75:
if !(pColumn == uintptr(0)) {
goto __78
}
Xsqlite3ExprCodeFactorable(tls, pParse,
Xsqlite3ColumnExpr(tls, pTab, (*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24),
iRegStore)
goto __69
__78:
;
__76:
;
__74:
;
__72:
;
if !(pColumn != 0) {
goto __79
}
j = 0
__81:
if !(j < (*IdList)(unsafe.Pointer(pColumn)).FnId && *(*int32)(unsafe.Pointer(pColumn + 8 + uintptr(j)*16 + 8)) != i) {
goto __83
}
goto __82
__82:
j++
goto __81
goto __83
__83:
;
if !(j >= (*IdList)(unsafe.Pointer(pColumn)).FnId) {
goto __84
}
Xsqlite3ExprCodeFactorable(tls, pParse,
Xsqlite3ColumnExpr(tls, pTab, (*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24),
iRegStore)
goto __69
__84:
;
k = j
goto __80
__79:
if !(nColumn == 0) {
goto __85
}
Xsqlite3ExprCodeFactorable(tls, pParse,
Xsqlite3ColumnExpr(tls, pTab, (*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24),
iRegStore)
goto __69
goto __86
__85:
k = i - nHidden
__86:
;
__80:
;
if !(useTempTable != 0) {
goto __87
}
Xsqlite3VdbeAddOp3(tls, v, OP_Column, srcTab, k, iRegStore)
goto __88
__87:
if !(pSelect != 0) {
goto __89
}
if !(regFromSelect != regData) {
goto __91
}
Xsqlite3VdbeAddOp2(tls, v, OP_SCopy, regFromSelect+k, iRegStore)
__91:
;
goto __90
__89:
pX = (*ExprList_item)(unsafe.Pointer(pList + 8 + uintptr(k)*32)).FpExpr
y = Xsqlite3ExprCodeTarget(tls, pParse, pX, iRegStore)
if !(y != iRegStore) {
goto __92
}
Xsqlite3VdbeAddOp2(tls, v,
func() int32 {
if (*Expr)(unsafe.Pointer(pX)).Fflags&U32(EP_Subquery) != U32(0) {
return OP_Copy
}
return OP_SCopy
}(), y, iRegStore)
__92:
;
__90:
;
__88:
;
goto __69
__69:
i++
iRegStore++
goto __68
goto __70
__70:
;
endOfLoop = Xsqlite3VdbeMakeLabel(tls, pParse)
if !(*(*int32)(unsafe.Pointer(bp + 72))&TRIGGER_BEFORE != 0) {
goto __93
}
regCols = Xsqlite3GetTempRange(tls, pParse, int32((*Table)(unsafe.Pointer(pTab)).FnCol)+1)
if !(ipkColumn < 0) {
goto __94
}
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, -1, regCols)
goto __95
__94:
;
if !(useTempTable != 0) {
goto __96
}
Xsqlite3VdbeAddOp3(tls, v, OP_Column, srcTab, ipkColumn, regCols)
goto __97
__96:
;
Xsqlite3ExprCode(tls, pParse, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(ipkColumn)*32)).FpExpr, regCols)
__97:
;
addr1 = Xsqlite3VdbeAddOp1(tls, v, OP_NotNull, regCols)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, -1, regCols)
Xsqlite3VdbeJumpHere(tls, v, addr1)
Xsqlite3VdbeAddOp1(tls, v, OP_MustBeInt, regCols)
__95:
;
Xsqlite3VdbeAddOp3(tls, v, OP_Copy, regRowid+1, regCols+1, int32((*Table)(unsafe.Pointer(pTab)).FnNVCol)-1)
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasGenerated) != 0) {
goto __98
}
Xsqlite3ComputeGeneratedColumns(tls, pParse, regCols+1, pTab)
__98:
;
if !!(isView != 0) {
goto __99
}
Xsqlite3TableAffinity(tls, v, pTab, regCols+1)
__99:
;
Xsqlite3CodeRowTrigger(tls, pParse, pTrigger, TK_INSERT, uintptr(0), TRIGGER_BEFORE,
pTab, regCols-int32((*Table)(unsafe.Pointer(pTab)).FnCol)-1, onError, endOfLoop)
Xsqlite3ReleaseTempRange(tls, pParse, regCols, int32((*Table)(unsafe.Pointer(pTab)).FnCol)+1)
__93:
;
if !!(isView != 0) {
goto __100
}
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __101
}
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, regIns)
__101:
;
if !(ipkColumn >= 0) {
goto __102
}
if !(useTempTable != 0) {
goto __104
}
Xsqlite3VdbeAddOp3(tls, v, OP_Column, srcTab, ipkColumn, regRowid)
goto __105
__104:
if !(pSelect != 0) {
goto __106
}
goto __107
__106:
pIpk = (*ExprList_item)(unsafe.Pointer(pList + 8 + uintptr(ipkColumn)*32)).FpExpr
if !(int32((*Expr)(unsafe.Pointer(pIpk)).Fop) == TK_NULL && !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB)) {
goto __108
}
Xsqlite3VdbeAddOp3(tls, v, OP_NewRowid, *(*int32)(unsafe.Pointer(bp + 176)), regRowid, regAutoinc)
appendFlag = U8(1)
goto __109
__108:
Xsqlite3ExprCode(tls, pParse, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(ipkColumn)*32)).FpExpr, regRowid)
__109:
;
__107:
;
__105:
;
if !!(appendFlag != 0) {
goto __110
}
if !!(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __111
}
addr11 = Xsqlite3VdbeAddOp1(tls, v, OP_NotNull, regRowid)
Xsqlite3VdbeAddOp3(tls, v, OP_NewRowid, *(*int32)(unsafe.Pointer(bp + 176)), regRowid, regAutoinc)
Xsqlite3VdbeJumpHere(tls, v, addr11)
goto __112
__111:
addr11 = Xsqlite3VdbeCurrentAddr(tls, v)
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, regRowid, addr11+2)
__112:
;
Xsqlite3VdbeAddOp1(tls, v, OP_MustBeInt, regRowid)
__110:
;
goto __103
__102:
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB || withoutRowid != 0) {
goto __113
}
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, regRowid)
goto __114
__113:
Xsqlite3VdbeAddOp3(tls, v, OP_NewRowid, *(*int32)(unsafe.Pointer(bp + 176)), regRowid, regAutoinc)
appendFlag = U8(1)
__114:
;
__103:
;
autoIncStep(tls, pParse, regAutoinc, regRowid)
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasGenerated) != 0) {
goto __115
}
Xsqlite3ComputeGeneratedColumns(tls, pParse, regRowid+1, pTab)
__115:
;
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __116
}
pVTab = Xsqlite3GetVTable(tls, db, pTab)
Xsqlite3VtabMakeWritable(tls, pParse, pTab)
Xsqlite3VdbeAddOp4(tls, v, OP_VUpdate, 1, int32((*Table)(unsafe.Pointer(pTab)).FnCol)+2, regIns, pVTab, -11)
Xsqlite3VdbeChangeP5(tls, v, func() uint16 {
if onError == OE_Default {
return uint16(OE_Abort)
}
return uint16(onError)
}())
Xsqlite3MayAbort(tls, pParse)
goto __117
__116:
*(*int32)(unsafe.Pointer(bp + 184)) = 0
Xsqlite3GenerateConstraintChecks(tls, pParse, pTab, aRegIdx, *(*int32)(unsafe.Pointer(bp + 176)), *(*int32)(unsafe.Pointer(bp + 180)),
regIns, 0, uint8(libc.Bool32(ipkColumn >= 0)), uint8(onError), endOfLoop, bp+184, uintptr(0), pUpsert)
if !((*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_ForeignKeys) != 0) {
goto __118
}
Xsqlite3FkCheck(tls, pParse, pTab, 0, regIns, uintptr(0), 0)
__118:
;
bUseSeek = libc.Bool32(*(*int32)(unsafe.Pointer(bp + 184)) == 0 || !(Xsqlite3VdbeHasSubProgram(tls, v) != 0))
Xsqlite3CompleteInsertion(tls, pParse, pTab, *(*int32)(unsafe.Pointer(bp + 176)), *(*int32)(unsafe.Pointer(bp + 180)),
regIns, aRegIdx, 0, int32(appendFlag), bUseSeek)
__117:
;
__100:
;
if !(regRowCount != 0) {
goto __119
}
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, regRowCount, 1)
__119:
;
if !(pTrigger != 0) {
goto __120
}
Xsqlite3CodeRowTrigger(tls, pParse, pTrigger, TK_INSERT, uintptr(0), TRIGGER_AFTER,
pTab, regData-2-int32((*Table)(unsafe.Pointer(pTab)).FnCol), onError, endOfLoop)
__120:
;
Xsqlite3VdbeResolveLabel(tls, v, endOfLoop)
if !(useTempTable != 0) {
goto __121
}
Xsqlite3VdbeAddOp2(tls, v, OP_Next, srcTab, addrCont)
Xsqlite3VdbeJumpHere(tls, v, addrInsTop)
Xsqlite3VdbeAddOp1(tls, v, OP_Close, srcTab)
goto __122
__121:
if !(pSelect != 0) {
goto __123
}
Xsqlite3VdbeGoto(tls, v, addrCont)
Xsqlite3VdbeJumpHere(tls, v, addrInsTop)
__123:
;
__122:
;
insert_end:
if !(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) == 0 && (*Parse)(unsafe.Pointer(pParse)).FpTriggerTab == uintptr(0)) {
goto __124
}
Xsqlite3AutoincrementEnd(tls, pParse)
__124:
;
if !(regRowCount != 0) {
goto __125
}
Xsqlite3CodeChangeCount(tls, v, regRowCount, ts+16277)
__125:
;
insert_cleanup:
Xsqlite3SrcListDelete(tls, db, pTabList)
Xsqlite3ExprListDelete(tls, db, pList)
Xsqlite3UpsertDelete(tls, db, pUpsert)
Xsqlite3SelectDelete(tls, db, pSelect)
Xsqlite3IdListDelete(tls, db, pColumn)
if !(aRegIdx != 0) {
goto __126
}
Xsqlite3DbNNFreeNN(tls, db, aRegIdx)
__126:
}
func checkConstraintExprNode(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLUMN {
if int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn) >= 0 {
if *(*int32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pWalker + 40)) + uintptr((*Expr)(unsafe.Pointer(pExpr)).FiColumn)*4)) >= 0 {
*(*U16)(unsafe.Pointer(pWalker + 36)) |= U16(CKCNSTRNT_COLUMN)
}
} else {
*(*U16)(unsafe.Pointer(pWalker + 36)) |= U16(CKCNSTRNT_ROWID)
}
}
return WRC_Continue
}
// pExpr is a CHECK constraint on a row that is being UPDATE-ed. The
// only columns that are modified by the UPDATE are those for which
// aiChng[i]>=0, and also the ROWID is modified if chngRowid is true.
//
// Return true if CHECK constraint pExpr uses any of the
// changing columns (or the rowid if it is changing). In other words,
// return true if this CHECK constraint must be validated for
// the new row in the UPDATE statement.
//
// 2018-09-15: pExpr might also be an expression for an index-on-expressions.
// The operation of this routine is the same - return true if an only if
// the expression uses one or more of columns identified by the second and
// third arguments.
func Xsqlite3ExprReferencesUpdatedColumn(tls *libc.TLS, pExpr uintptr, aiChng uintptr, chngRowid int32) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
(*Walker)(unsafe.Pointer(bp)).FeCode = U16(0)
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{checkConstraintExprNode}))
*(*uintptr)(unsafe.Pointer(bp + 40)) = aiChng
Xsqlite3WalkExpr(tls, bp, pExpr)
if !(chngRowid != 0) {
*(*U16)(unsafe.Pointer(bp + 36)) &= libc.Uint16FromInt32(libc.CplInt32(CKCNSTRNT_ROWID))
}
return libc.Bool32(int32((*Walker)(unsafe.Pointer(bp)).FeCode) != 0)
}
// The sqlite3GenerateConstraintChecks() routine usually wants to visit
// the indexes of a table in the order provided in the Table->pIndex list.
// However, sometimes (rarely - when there is an upsert) it wants to visit
// the indexes in a different order. The following data structures accomplish
// this.
//
// The IndexIterator object is used to walk through all of the indexes
// of a table in either Index.pNext order, or in some other order established
// by an array of IndexListTerm objects.
type IndexListTerm1 = struct {
Fp uintptr
Fix int32
F__ccgo_pad1 [4]byte
}
// The sqlite3GenerateConstraintChecks() routine usually wants to visit
// the indexes of a table in the order provided in the Table->pIndex list.
// However, sometimes (rarely - when there is an upsert) it wants to visit
// the indexes in a different order. The following data structures accomplish
// this.
//
// The IndexIterator object is used to walk through all of the indexes
// of a table in either Index.pNext order, or in some other order established
// by an array of IndexListTerm objects.
type IndexListTerm = IndexListTerm1
type IndexIterator1 = struct {
FeType int32
Fi int32
Fu struct {
Flx struct{ FpIdx uintptr }
F__ccgo_pad1 [8]byte
}
}
type IndexIterator = IndexIterator1
func indexIteratorFirst(tls *libc.TLS, pIter uintptr, pIx uintptr) uintptr {
if (*IndexIterator)(unsafe.Pointer(pIter)).FeType != 0 {
*(*int32)(unsafe.Pointer(pIx)) = (*IndexListTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pIter + 8 + 8)))).Fix
return (*IndexListTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pIter + 8 + 8)))).Fp
} else {
*(*int32)(unsafe.Pointer(pIx)) = 0
return *(*uintptr)(unsafe.Pointer(pIter + 8))
}
return uintptr(0)
}
func indexIteratorNext(tls *libc.TLS, pIter uintptr, pIx uintptr) uintptr {
if (*IndexIterator)(unsafe.Pointer(pIter)).FeType != 0 {
var i int32 = libc.PreIncInt32(&(*IndexIterator)(unsafe.Pointer(pIter)).Fi, 1)
if i >= *(*int32)(unsafe.Pointer(pIter + 8)) {
*(*int32)(unsafe.Pointer(pIx)) = i
return uintptr(0)
}
*(*int32)(unsafe.Pointer(pIx)) = (*IndexListTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pIter + 8 + 8)) + uintptr(i)*16)).Fix
return (*IndexListTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pIter + 8 + 8)) + uintptr(i)*16)).Fp
} else {
*(*int32)(unsafe.Pointer(pIx))++
*(*uintptr)(unsafe.Pointer(pIter + 8)) = (*Index)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pIter + 8)))).FpNext
return *(*uintptr)(unsafe.Pointer(pIter + 8))
}
return uintptr(0)
}
// Generate code to do constraint checks prior to an INSERT or an UPDATE
// on table pTab.
//
// The regNewData parameter is the first register in a range that contains
// the data to be inserted or the data after the update. There will be
// pTab->nCol+1 registers in this range. The first register (the one
// that regNewData points to) will contain the new rowid, or NULL in the
// case of a WITHOUT ROWID table. The second register in the range will
// contain the content of the first table column. The third register will
// contain the content of the second table column. And so forth.
//
// The regOldData parameter is similar to regNewData except that it contains
// the data prior to an UPDATE rather than afterwards. regOldData is zero
// for an INSERT. This routine can distinguish between UPDATE and INSERT by
// checking regOldData for zero.
//
// For an UPDATE, the pkChng boolean is true if the true primary key (the
// rowid for a normal table or the PRIMARY KEY for a WITHOUT ROWID table)
// might be modified by the UPDATE. If pkChng is false, then the key of
// the iDataCur content table is guaranteed to be unchanged by the UPDATE.
//
// For an INSERT, the pkChng boolean indicates whether or not the rowid
// was explicitly specified as part of the INSERT statement. If pkChng
// is zero, it means that the either rowid is computed automatically or
// that the table is a WITHOUT ROWID table and has no rowid. On an INSERT,
// pkChng will only be true if the INSERT statement provides an integer
// value for either the rowid column or its INTEGER PRIMARY KEY alias.
//
// The code generated by this routine will store new index entries into
// registers identified by aRegIdx[]. No index entry is created for
// indices where aRegIdx[i]==0. The order of indices in aRegIdx[] is
// the same as the order of indices on the linked list of indices
// at pTab->pIndex.
//
// (2019-05-07) The generated code also creates a new record for the
// main table, if pTab is a rowid table, and stores that record in the
// register identified by aRegIdx[nIdx] - in other words in the first
// entry of aRegIdx[] past the last index. It is important that the
// record be generated during constraint checks to avoid affinity changes
// to the register content that occur after constraint checks but before
// the new record is inserted.
//
// The caller must have already opened writeable cursors on the main
// table and all applicable indices (that is to say, all indices for which
// aRegIdx[] is not zero). iDataCur is the cursor for the main table when
// inserting or updating a rowid table, or the cursor for the PRIMARY KEY
// index when operating on a WITHOUT ROWID table. iIdxCur is the cursor
// for the first index in the pTab->pIndex list. Cursors for other indices
// are at iIdxCur+N for the N-th element of the pTab->pIndex list.
//
// This routine also generates code to check constraints. NOT NULL,
// CHECK, and UNIQUE constraints are all checked. If a constraint fails,
// then the appropriate action is performed. There are five possible
// actions: ROLLBACK, ABORT, FAIL, REPLACE, and IGNORE.
//
// Constraint type Action What Happens
// --------------- ---------- ----------------------------------------
// any ROLLBACK The current transaction is rolled back and
// sqlite3_step() returns immediately with a
// return code of SQLITE_CONSTRAINT.
//
// any ABORT Back out changes from the current command
// only (do not do a complete rollback) then
// cause sqlite3_step() to return immediately
// with SQLITE_CONSTRAINT.
//
// any FAIL Sqlite3_step() returns immediately with a
// return code of SQLITE_CONSTRAINT. The
// transaction is not rolled back and any
// changes to prior rows are retained.
//
// any IGNORE The attempt in insert or update the current
// row is skipped, without throwing an error.
// Processing continues with the next row.
// (There is an immediate jump to ignoreDest.)
//
// NOT NULL REPLACE The NULL value is replace by the default
// value for that column. If the default value
// is NULL, the action is the same as ABORT.
//
// UNIQUE REPLACE The other row that conflicts with the row
// being inserted is removed.
//
// CHECK REPLACE Illegal. The results in an exception.
//
// Which action to take is determined by the overrideError parameter.
// Or if overrideError==OE_Default, then the pParse->onError parameter
// is used. Or if pParse->onError==OE_Default then the onError value
// for the constraint is used.
func Xsqlite3GenerateConstraintChecks(tls *libc.TLS, pParse uintptr, pTab uintptr, aRegIdx uintptr, iDataCur int32, iIdxCur int32, regNewData int32, regOldData int32, pkChng U8, overrideError U8, ignoreDest int32, pbMayReplace uintptr, aiChng uintptr, pUpsert uintptr) {
bp := tls.Alloc(72)
defer tls.Free(72)
var v uintptr
var pIdx uintptr
var pPk uintptr = uintptr(0)
var db uintptr
var i int32
var nCol int32
var onError int32
var seenReplace int32 = 0
var nPkField int32
var pUpsertClause uintptr = uintptr(0)
var isUpdate U8
var bAffinityDone U8 = U8(0)
var upsertIpkReturn int32 = 0
var upsertIpkDelay int32 = 0
var ipkTop int32 = 0
var ipkBottom int32 = 0
var regTrigCnt int32
var addrRecheck int32 = 0
var lblRecheckOk int32 = 0
var pTrigger uintptr
var nReplaceTrig int32 = 0
isUpdate = U8(libc.Bool32(regOldData != 0))
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
nCol = int32((*Table)(unsafe.Pointer(pTab)).FnCol)
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
pPk = uintptr(0)
nPkField = 1
} else {
pPk = Xsqlite3PrimaryKeyIndex(tls, pTab)
nPkField = int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol)
}
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasNotNull) != 0 {
var b2ndPass int32 = 0
var nSeenReplace int32 = 0
var nGenerated int32 = 0
for 1 != 0 {
for i = 0; i < nCol; i++ {
var iReg int32
var pCol uintptr = (*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(i)*24
var isGenerated int32
onError = int32(*(*uint8)(unsafe.Pointer(pCol + 8)) & 0xf >> 0)
if onError == OE_None {
continue
}
if i == int32((*Table)(unsafe.Pointer(pTab)).FiPKey) {
continue
}
isGenerated = int32((*Column)(unsafe.Pointer(pCol)).FcolFlags) & COLFLAG_GENERATED
if isGenerated != 0 && !(b2ndPass != 0) {
nGenerated++
continue
}
if aiChng != 0 && *(*int32)(unsafe.Pointer(aiChng + uintptr(i)*4)) < 0 && !(isGenerated != 0) {
continue
}
if int32(overrideError) != OE_Default {
onError = int32(overrideError)
} else if onError == OE_Default {
onError = OE_Abort
}
if onError == OE_Replace {
if b2ndPass != 0 ||
int32((*Column)(unsafe.Pointer(pCol)).FiDflt) == 0 {
onError = OE_Abort
} else {
}
} else if b2ndPass != 0 && !(isGenerated != 0) {
continue
}
iReg = int32(Xsqlite3TableColumnToStorage(tls, pTab, int16(i))) + regNewData + 1
switch onError {
case OE_Replace:
{
var addr1 int32 = Xsqlite3VdbeAddOp1(tls, v, OP_NotNull, iReg)
nSeenReplace++
Xsqlite3ExprCodeCopy(tls, pParse,
Xsqlite3ColumnExpr(tls, pTab, pCol), iReg)
Xsqlite3VdbeJumpHere(tls, v, addr1)
break
}
fallthrough
case OE_Abort:
Xsqlite3MayAbort(tls, pParse)
fallthrough
case OE_Rollback:
fallthrough
case OE_Fail:
{
var zMsg uintptr = Xsqlite3MPrintf(tls, db, ts+12464, libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName,
(*Column)(unsafe.Pointer(pCol)).FzCnName))
Xsqlite3VdbeAddOp3(tls, v, OP_HaltIfNull, SQLITE_CONSTRAINT|int32(5)<<8,
onError, iReg)
Xsqlite3VdbeAppendP4(tls, v, zMsg, -6)
Xsqlite3VdbeChangeP5(tls, v, uint16(P5_ConstraintNotNull))
break
}
fallthrough
default:
{
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, iReg, ignoreDest)
break
}
}
}
if nGenerated == 0 && nSeenReplace == 0 {
break
}
if b2ndPass != 0 {
break
}
b2ndPass = 1
if nSeenReplace > 0 && (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasGenerated) != U32(0) {
Xsqlite3ComputeGeneratedColumns(tls, pParse, regNewData+1, pTab)
}
}
}
if (*Table)(unsafe.Pointer(pTab)).FpCheck != 0 && (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_IgnoreChecks) == uint64(0) {
var pCheck uintptr = (*Table)(unsafe.Pointer(pTab)).FpCheck
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = -(regNewData + 1)
if int32(overrideError) != OE_Default {
onError = int32(overrideError)
} else {
onError = OE_Abort
}
for i = 0; i < (*ExprList)(unsafe.Pointer(pCheck)).FnExpr; i++ {
var allOk int32
var pCopy uintptr
var pExpr uintptr = (*ExprList_item)(unsafe.Pointer(pCheck + 8 + uintptr(i)*32)).FpExpr
if aiChng != 0 &&
!(Xsqlite3ExprReferencesUpdatedColumn(tls, pExpr, aiChng, int32(pkChng)) != 0) {
continue
}
if int32(bAffinityDone) == 0 {
Xsqlite3TableAffinity(tls, v, pTab, regNewData+1)
bAffinityDone = U8(1)
}
allOk = Xsqlite3VdbeMakeLabel(tls, pParse)
pCopy = Xsqlite3ExprDup(tls, db, pExpr, 0)
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
Xsqlite3ExprIfTrue(tls, pParse, pCopy, allOk, SQLITE_JUMPIFNULL)
}
Xsqlite3ExprDelete(tls, db, pCopy)
if onError == OE_Ignore {
Xsqlite3VdbeGoto(tls, v, ignoreDest)
} else {
var zName uintptr = (*ExprList_item)(unsafe.Pointer(pCheck + 8 + uintptr(i)*32)).FzEName
if onError == OE_Replace {
onError = OE_Abort
}
Xsqlite3HaltConstraint(tls, pParse, SQLITE_CONSTRAINT|int32(1)<<8,
onError, zName, int8(P4_TRANSIENT),
uint8(P5_ConstraintCheck))
}
Xsqlite3VdbeResolveLabel(tls, v, allOk)
}
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = 0
}
(*IndexIterator)(unsafe.Pointer(bp + 16)).FeType = 0
(*IndexIterator)(unsafe.Pointer(bp + 16)).Fi = 0
*(*uintptr)(unsafe.Pointer(bp + 16 + 8 + 8)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 16 + 8)) = (*Table)(unsafe.Pointer(pTab)).FpIndex
if pUpsert != 0 {
if (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertTarget == uintptr(0) {
if int32((*Upsert)(unsafe.Pointer(pUpsert)).FisDoUpdate) == 0 {
overrideError = U8(OE_Ignore)
pUpsert = uintptr(0)
} else {
overrideError = U8(OE_Update)
}
} else if (*Table)(unsafe.Pointer(pTab)).FpIndex != uintptr(0) {
var nIdx int32
var jj int32
var nByte U64
var pTerm uintptr
var bUsed uintptr
nIdx = 0
pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex
__1:
if !(pIdx != 0) {
goto __3
}
{
}
goto __2
__2:
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
nIdx++
goto __1
goto __3
__3:
;
(*IndexIterator)(unsafe.Pointer(bp + 16)).FeType = 1
*(*int32)(unsafe.Pointer(bp + 16 + 8)) = nIdx
nByte = (uint64(unsafe.Sizeof(IndexListTerm{}))+uint64(1))*uint64(nIdx) + uint64(nIdx)
*(*uintptr)(unsafe.Pointer(bp + 16 + 8 + 8)) = Xsqlite3DbMallocZero(tls, db, nByte)
if *(*uintptr)(unsafe.Pointer(bp + 16 + 8 + 8)) == uintptr(0) {
return
}
bUsed = *(*uintptr)(unsafe.Pointer(bp + 16 + 8 + 8)) + uintptr(nIdx)*16
(*Upsert)(unsafe.Pointer(pUpsert)).FpToFree = *(*uintptr)(unsafe.Pointer(bp + 16 + 8 + 8))
i = 0
pTerm = pUpsert
for ; pTerm != 0; pTerm = (*Upsert)(unsafe.Pointer(pTerm)).FpNextUpsert {
if (*Upsert)(unsafe.Pointer(pTerm)).FpUpsertTarget == uintptr(0) {
break
}
if (*Upsert)(unsafe.Pointer(pTerm)).FpUpsertIdx == uintptr(0) {
continue
}
jj = 0
pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex
for pIdx != uintptr(0) && pIdx != (*Upsert)(unsafe.Pointer(pTerm)).FpUpsertIdx {
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
jj++
}
if *(*U8)(unsafe.Pointer(bUsed + uintptr(jj))) != 0 {
continue
}
*(*U8)(unsafe.Pointer(bUsed + uintptr(jj))) = U8(1)
(*IndexListTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16 + 8 + 8)) + uintptr(i)*16)).Fp = pIdx
(*IndexListTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16 + 8 + 8)) + uintptr(i)*16)).Fix = jj
i++
}
jj = 0
pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex
__4:
if !(pIdx != 0) {
goto __6
}
{
if *(*U8)(unsafe.Pointer(bUsed + uintptr(jj))) != 0 {
goto __5
}
(*IndexListTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16 + 8 + 8)) + uintptr(i)*16)).Fp = pIdx
(*IndexListTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16 + 8 + 8)) + uintptr(i)*16)).Fix = jj
i++
}
goto __5
__5:
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
jj++
goto __4
goto __6
__6:
}
}
if (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_RecTriggers|SQLITE_ForeignKeys) == uint64(0) {
pTrigger = uintptr(0)
regTrigCnt = 0
} else {
if (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_RecTriggers) != 0 {
pTrigger = Xsqlite3TriggersExist(tls, pParse, pTab, TK_DELETE, uintptr(0), uintptr(0))
regTrigCnt = libc.Bool32(pTrigger != uintptr(0) || Xsqlite3FkRequired(tls, pParse, pTab, uintptr(0), 0) != 0)
} else {
pTrigger = uintptr(0)
regTrigCnt = Xsqlite3FkRequired(tls, pParse, pTab, uintptr(0), 0)
}
if regTrigCnt != 0 {
regTrigCnt = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, regTrigCnt)
lblRecheckOk = Xsqlite3VdbeMakeLabel(tls, pParse)
addrRecheck = lblRecheckOk
}
}
if pkChng != 0 && pPk == uintptr(0) {
var addrRowidOk int32 = Xsqlite3VdbeMakeLabel(tls, pParse)
onError = int32((*Table)(unsafe.Pointer(pTab)).FkeyConf)
if int32(overrideError) != OE_Default {
onError = int32(overrideError)
} else if onError == OE_Default {
onError = OE_Abort
}
if pUpsert != 0 {
pUpsertClause = Xsqlite3UpsertOfIndex(tls, pUpsert, uintptr(0))
if pUpsertClause != uintptr(0) {
if int32((*Upsert)(unsafe.Pointer(pUpsertClause)).FisDoUpdate) == 0 {
onError = OE_Ignore
} else {
onError = OE_Update
}
}
if pUpsertClause != pUpsert {
upsertIpkDelay = Xsqlite3VdbeAddOp0(tls, v, OP_Goto)
}
}
if onError == OE_Replace &&
onError != int32(overrideError) &&
(*Table)(unsafe.Pointer(pTab)).FpIndex != 0 &&
!(upsertIpkDelay != 0) {
ipkTop = Xsqlite3VdbeAddOp0(tls, v, OP_Goto) + 1
}
if isUpdate != 0 {
Xsqlite3VdbeAddOp3(tls, v, OP_Eq, regNewData, addrRowidOk, regOldData)
Xsqlite3VdbeChangeP5(tls, v, uint16(SQLITE_NOTNULL))
}
Xsqlite3VdbeAddOp3(tls, v, OP_NotExists, iDataCur, addrRowidOk, regNewData)
switch onError {
default:
{
onError = OE_Abort
}
fallthrough
case OE_Rollback:
fallthrough
case OE_Abort:
fallthrough
case OE_Fail:
{
Xsqlite3RowidConstraint(tls, pParse, onError, pTab)
break
}
fallthrough
case OE_Replace:
{
if regTrigCnt != 0 {
Xsqlite3MultiWrite(tls, pParse)
Xsqlite3GenerateRowDelete(tls, pParse, pTab, pTrigger, iDataCur, iIdxCur,
regNewData, int16(1), uint8(0), uint8(OE_Replace), uint8(1), -1)
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, regTrigCnt, 1)
nReplaceTrig++
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_Delete, iDataCur, OPFLAG_ISNOOP)
Xsqlite3VdbeAppendP4(tls, v, pTab, -5)
if (*Table)(unsafe.Pointer(pTab)).FpIndex != 0 {
Xsqlite3MultiWrite(tls, pParse)
Xsqlite3GenerateRowIndexDelete(tls, pParse, pTab, iDataCur, iIdxCur, uintptr(0), -1)
}
}
seenReplace = 1
break
}
fallthrough
case OE_Update:
{
Xsqlite3UpsertDoUpdate(tls, pParse, pUpsert, pTab, uintptr(0), iDataCur)
}
fallthrough
case OE_Ignore:
{
Xsqlite3VdbeGoto(tls, v, ignoreDest)
break
}
}
Xsqlite3VdbeResolveLabel(tls, v, addrRowidOk)
if pUpsert != 0 && pUpsertClause != pUpsert {
upsertIpkReturn = Xsqlite3VdbeAddOp0(tls, v, OP_Goto)
} else if ipkTop != 0 {
ipkBottom = Xsqlite3VdbeAddOp0(tls, v, OP_Goto)
Xsqlite3VdbeJumpHere(tls, v, ipkTop-1)
}
}
for pIdx = indexIteratorFirst(tls, bp+16, bp+40); pIdx != 0; pIdx = indexIteratorNext(tls, bp+16, bp+40) {
var regIdx int32
var regR int32
var iThisCur int32
var addrUniqueOk int32
var addrConflictCk int32
if *(*int32)(unsafe.Pointer(aRegIdx + uintptr(*(*int32)(unsafe.Pointer(bp + 40)))*4)) == 0 {
continue
}
if pUpsert != 0 {
pUpsertClause = Xsqlite3UpsertOfIndex(tls, pUpsert, pIdx)
if upsertIpkDelay != 0 && pUpsertClause == pUpsert {
Xsqlite3VdbeJumpHere(tls, v, upsertIpkDelay)
}
}
addrUniqueOk = Xsqlite3VdbeMakeLabel(tls, pParse)
if int32(bAffinityDone) == 0 {
Xsqlite3TableAffinity(tls, v, pTab, regNewData+1)
bAffinityDone = U8(1)
}
iThisCur = iIdxCur + *(*int32)(unsafe.Pointer(bp + 40))
if (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, *(*int32)(unsafe.Pointer(aRegIdx + uintptr(*(*int32)(unsafe.Pointer(bp + 40)))*4)))
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = -(regNewData + 1)
Xsqlite3ExprIfFalseDup(tls, pParse, (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere, addrUniqueOk,
SQLITE_JUMPIFNULL)
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = 0
}
regIdx = *(*int32)(unsafe.Pointer(aRegIdx + uintptr(*(*int32)(unsafe.Pointer(bp + 40)))*4)) + 1
for i = 0; i < int32((*Index)(unsafe.Pointer(pIdx)).FnColumn); i++ {
var iField int32 = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2)))
var x int32
if iField == -2 {
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = -(regNewData + 1)
Xsqlite3ExprCodeCopy(tls, pParse, (*ExprList_item)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaColExpr+8+uintptr(i)*32)).FpExpr, regIdx+i)
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = 0
} else if iField == -1 || iField == int32((*Table)(unsafe.Pointer(pTab)).FiPKey) {
x = regNewData
Xsqlite3VdbeAddOp2(tls, v, OP_IntCopy, x, regIdx+i)
} else {
x = int32(Xsqlite3TableColumnToStorage(tls, pTab, int16(iField))) + regNewData + 1
Xsqlite3VdbeAddOp2(tls, v, OP_SCopy, x, regIdx+i)
}
}
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regIdx, int32((*Index)(unsafe.Pointer(pIdx)).FnColumn), *(*int32)(unsafe.Pointer(aRegIdx + uintptr(*(*int32)(unsafe.Pointer(bp + 40)))*4)))
if isUpdate != 0 && pPk == pIdx && int32(pkChng) == 0 {
Xsqlite3VdbeResolveLabel(tls, v, addrUniqueOk)
continue
}
onError = int32((*Index)(unsafe.Pointer(pIdx)).FonError)
if onError == OE_None {
Xsqlite3VdbeResolveLabel(tls, v, addrUniqueOk)
continue
}
if int32(overrideError) != OE_Default {
onError = int32(overrideError)
} else if onError == OE_Default {
onError = OE_Abort
}
if pUpsertClause != 0 {
if int32((*Upsert)(unsafe.Pointer(pUpsertClause)).FisDoUpdate) == 0 {
onError = OE_Ignore
} else {
onError = OE_Update
}
}
addrConflictCk = Xsqlite3VdbeAddOp4Int(tls, v, OP_NoConflict, iThisCur, addrUniqueOk,
regIdx, int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol))
if pIdx == pPk {
regR = regIdx
} else {
regR = Xsqlite3GetTempRange(tls, pParse, nPkField)
}
if isUpdate != 0 || onError == OE_Replace {
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
Xsqlite3VdbeAddOp2(tls, v, OP_IdxRowid, iThisCur, regR)
if isUpdate != 0 {
Xsqlite3VdbeAddOp3(tls, v, OP_Eq, regR, addrUniqueOk, regOldData)
Xsqlite3VdbeChangeP5(tls, v, uint16(SQLITE_NOTNULL))
}
} else {
var x int32
if pIdx != pPk {
for i = 0; i < int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol); i++ {
x = int32(Xsqlite3TableColumnToIndex(tls, pIdx, *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(i)*2))))
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iThisCur, x, regR+i)
}
}
if isUpdate != 0 {
var addrJump int32 = Xsqlite3VdbeCurrentAddr(tls, v) + int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol)
var op int32 = OP_Ne
var regCmp int32 = func() int32 {
if int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY {
return regIdx
}
return regR
}()
for i = 0; i < int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol); i++ {
var p4 uintptr = Xsqlite3LocateCollSeq(tls, pParse, *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FazColl + uintptr(i)*8)))
x = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(i)*2)))
if i == int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol)-1 {
addrJump = addrUniqueOk
op = OP_Eq
}
x = int32(Xsqlite3TableColumnToStorage(tls, pTab, int16(x)))
Xsqlite3VdbeAddOp4(tls, v, op,
regOldData+1+x, addrJump, regCmp+i, p4, -2)
Xsqlite3VdbeChangeP5(tls, v, uint16(SQLITE_NOTNULL))
}
}
}
}
switch onError {
case OE_Rollback:
fallthrough
case OE_Abort:
fallthrough
case OE_Fail:
{
Xsqlite3UniqueConstraint(tls, pParse, onError, pIdx)
break
}
case OE_Update:
{
Xsqlite3UpsertDoUpdate(tls, pParse, pUpsert, pTab, pIdx, iIdxCur+*(*int32)(unsafe.Pointer(bp + 40)))
}
fallthrough
case OE_Ignore:
{
Xsqlite3VdbeGoto(tls, v, ignoreDest)
break
}
default:
{
var nConflictCk int32
nConflictCk = Xsqlite3VdbeCurrentAddr(tls, v) - addrConflictCk
if regTrigCnt != 0 {
Xsqlite3MultiWrite(tls, pParse)
nReplaceTrig++
}
if pTrigger != 0 && isUpdate != 0 {
Xsqlite3VdbeAddOp1(tls, v, OP_CursorLock, iDataCur)
}
Xsqlite3GenerateRowDelete(tls, pParse, pTab, pTrigger, iDataCur, iIdxCur,
regR, int16(nPkField), uint8(0), uint8(OE_Replace),
func() uint8 {
if pIdx == pPk {
return uint8(ONEPASS_SINGLE)
}
return uint8(ONEPASS_OFF)
}(), iThisCur)
if pTrigger != 0 && isUpdate != 0 {
Xsqlite3VdbeAddOp1(tls, v, OP_CursorUnlock, iDataCur)
}
if regTrigCnt != 0 {
var addrBypass int32
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, regTrigCnt, 1)
addrBypass = Xsqlite3VdbeAddOp0(tls, v, OP_Goto)
Xsqlite3VdbeResolveLabel(tls, v, lblRecheckOk)
lblRecheckOk = Xsqlite3VdbeMakeLabel(tls, pParse)
if (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, regIdx-1, lblRecheckOk)
}
for nConflictCk > 0 {
*(*VdbeOp)(unsafe.Pointer(bp + 48)) = *(*VdbeOp)(unsafe.Pointer(Xsqlite3VdbeGetOp(tls, v, addrConflictCk)))
if int32((*VdbeOp)(unsafe.Pointer(bp+48)).Fopcode) != OP_IdxRowid {
var p2 int32
var zP4 uintptr
if int32(Xsqlite3OpcodeProperty[(*VdbeOp)(unsafe.Pointer(bp+48)).Fopcode])&OPFLG_JUMP != 0 {
p2 = lblRecheckOk
} else {
p2 = (*VdbeOp)(unsafe.Pointer(bp + 48)).Fp2
}
if int32((*VdbeOp)(unsafe.Pointer(bp+48)).Fp4type) == -3 {
zP4 = uintptr(int64(*(*int32)(unsafe.Pointer(bp + 48 + 16))))
} else {
zP4 = *(*uintptr)(unsafe.Pointer(bp + 48 + 16))
}
Xsqlite3VdbeAddOp4(tls, v, int32((*VdbeOp)(unsafe.Pointer(bp+48)).Fopcode), (*VdbeOp)(unsafe.Pointer(bp+48)).Fp1, p2, (*VdbeOp)(unsafe.Pointer(bp+48)).Fp3, zP4, int32((*VdbeOp)(unsafe.Pointer(bp+48)).Fp4type))
Xsqlite3VdbeChangeP5(tls, v, (*VdbeOp)(unsafe.Pointer(bp+48)).Fp5)
}
nConflictCk--
addrConflictCk++
}
Xsqlite3UniqueConstraint(tls, pParse, OE_Abort, pIdx)
Xsqlite3VdbeJumpHere(tls, v, addrBypass)
}
seenReplace = 1
break
}
}
Xsqlite3VdbeResolveLabel(tls, v, addrUniqueOk)
if regR != regIdx {
Xsqlite3ReleaseTempRange(tls, pParse, regR, nPkField)
}
if pUpsertClause != 0 &&
upsertIpkReturn != 0 &&
Xsqlite3UpsertNextIsIPK(tls, pUpsertClause) != 0 {
Xsqlite3VdbeGoto(tls, v, upsertIpkDelay+1)
Xsqlite3VdbeJumpHere(tls, v, upsertIpkReturn)
upsertIpkReturn = 0
}
}
if ipkTop != 0 {
Xsqlite3VdbeGoto(tls, v, ipkTop)
Xsqlite3VdbeJumpHere(tls, v, ipkBottom)
}
if nReplaceTrig != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_IfNot, regTrigCnt, lblRecheckOk)
if !(pPk != 0) {
if isUpdate != 0 {
Xsqlite3VdbeAddOp3(tls, v, OP_Eq, regNewData, addrRecheck, regOldData)
Xsqlite3VdbeChangeP5(tls, v, uint16(SQLITE_NOTNULL))
}
Xsqlite3VdbeAddOp3(tls, v, OP_NotExists, iDataCur, addrRecheck, regNewData)
Xsqlite3RowidConstraint(tls, pParse, OE_Abort, pTab)
} else {
Xsqlite3VdbeGoto(tls, v, addrRecheck)
}
Xsqlite3VdbeResolveLabel(tls, v, lblRecheckOk)
}
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
var regRec int32 = *(*int32)(unsafe.Pointer(aRegIdx + uintptr(*(*int32)(unsafe.Pointer(bp + 40)))*4))
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regNewData+1, int32((*Table)(unsafe.Pointer(pTab)).FnNVCol), regRec)
if !(bAffinityDone != 0) {
Xsqlite3TableAffinity(tls, v, pTab, 0)
}
}
*(*int32)(unsafe.Pointer(pbMayReplace)) = seenReplace
}
func codeWithoutRowidPreupdate(tls *libc.TLS, pParse uintptr, pTab uintptr, iCur int32, regData int32) {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var r int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, r)
Xsqlite3VdbeAddOp4(tls, v, OP_Insert, iCur, regData, r, pTab, -5)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_ISNOOP))
Xsqlite3ReleaseTempReg(tls, pParse, r)
}
// This routine generates code to finish the INSERT or UPDATE operation
// that was started by a prior call to sqlite3GenerateConstraintChecks.
// A consecutive range of registers starting at regNewData contains the
// rowid and the content to be inserted.
//
// The arguments to this routine should be the same as the first six
// arguments to sqlite3GenerateConstraintChecks.
func Xsqlite3CompleteInsertion(tls *libc.TLS, pParse uintptr, pTab uintptr, iDataCur int32, iIdxCur int32, regNewData int32, aRegIdx uintptr, update_flags int32, appendBias int32, useSeekResult int32) {
var v uintptr
var pIdx uintptr
var pik_flags U8
var i int32
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
i = 0
pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex
__1:
if !(pIdx != 0) {
goto __3
}
{
if *(*int32)(unsafe.Pointer(aRegIdx + uintptr(i)*4)) == 0 {
goto __2
}
if (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, *(*int32)(unsafe.Pointer(aRegIdx + uintptr(i)*4)), Xsqlite3VdbeCurrentAddr(tls, v)+2)
}
pik_flags = func() uint8 {
if useSeekResult != 0 {
return uint8(OPFLAG_USESEEKRESULT)
}
return uint8(0)
}()
if int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY && !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
pik_flags = U8(int32(pik_flags) | OPFLAG_NCHANGE)
pik_flags = U8(int32(pik_flags) | update_flags&OPFLAG_SAVEPOSITION)
if update_flags == 0 {
codeWithoutRowidPreupdate(tls, pParse, pTab, iIdxCur+i, *(*int32)(unsafe.Pointer(aRegIdx + uintptr(i)*4)))
}
}
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, iIdxCur+i, *(*int32)(unsafe.Pointer(aRegIdx + uintptr(i)*4)),
*(*int32)(unsafe.Pointer(aRegIdx + uintptr(i)*4))+1,
func() int32 {
if uint32(int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x8>>3)) != 0 {
return int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)
}
return int32((*Index)(unsafe.Pointer(pIdx)).FnColumn)
}())
Xsqlite3VdbeChangeP5(tls, v, uint16(pik_flags))
}
goto __2
__2:
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
i++
goto __1
goto __3
__3:
;
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
return
}
if (*Parse)(unsafe.Pointer(pParse)).Fnested != 0 {
pik_flags = U8(0)
} else {
pik_flags = U8(OPFLAG_NCHANGE)
pik_flags = U8(int32(pik_flags) | func() int32 {
if update_flags != 0 {
return update_flags
}
return OPFLAG_LASTROWID
}())
}
if appendBias != 0 {
pik_flags = U8(int32(pik_flags) | OPFLAG_APPEND)
}
if useSeekResult != 0 {
pik_flags = U8(int32(pik_flags) | OPFLAG_USESEEKRESULT)
}
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, iDataCur, *(*int32)(unsafe.Pointer(aRegIdx + uintptr(i)*4)), regNewData)
if !(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) != 0) {
Xsqlite3VdbeAppendP4(tls, v, pTab, -5)
}
Xsqlite3VdbeChangeP5(tls, v, uint16(pik_flags))
}
// Allocate cursors for the pTab table and all its indices and generate
// code to open and initialized those cursors.
//
// The cursor for the object that contains the complete data (normally
// the table itself, but the PRIMARY KEY index in the case of a WITHOUT
// ROWID table) is returned in *piDataCur. The first index cursor is
// returned in *piIdxCur. The number of indices is returned.
//
// Use iBase as the first cursor (either the *piDataCur for rowid tables
// or the first index for WITHOUT ROWID tables) if it is non-negative.
// If iBase is negative, then allocate the next available cursor.
//
// For a rowid table, *piDataCur will be exactly one less than *piIdxCur.
// For a WITHOUT ROWID table, *piDataCur will be somewhere in the range
// of *piIdxCurs, depending on where the PRIMARY KEY index appears on the
// pTab->pIndex list.
//
// If pTab is a virtual table, then this routine is a no-op and the
// *piDataCur and *piIdxCur values are left uninitialized.
func Xsqlite3OpenTableAndIndices(tls *libc.TLS, pParse uintptr, pTab uintptr, op int32, p5 U8, iBase int32, aToOpen uintptr, piDataCur uintptr, piIdxCur uintptr) int32 {
var i int32
var iDb int32
var iDataCur int32
var pIdx uintptr
var v uintptr
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB {
*(*int32)(unsafe.Pointer(piDataCur)) = libc.AssignPtrInt32(piIdxCur, -999)
return 0
}
iDb = Xsqlite3SchemaToIndex(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Table)(unsafe.Pointer(pTab)).FpSchema)
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
if iBase < 0 {
iBase = (*Parse)(unsafe.Pointer(pParse)).FnTab
}
iDataCur = libc.PostIncInt32(&iBase, 1)
if piDataCur != 0 {
*(*int32)(unsafe.Pointer(piDataCur)) = iDataCur
}
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) && (aToOpen == uintptr(0) || *(*U8)(unsafe.Pointer(aToOpen)) != 0) {
Xsqlite3OpenTable(tls, pParse, iDataCur, iDb, pTab, op)
} else {
Xsqlite3TableLock(tls, pParse, iDb, (*Table)(unsafe.Pointer(pTab)).Ftnum, uint8(libc.Bool32(op == OP_OpenWrite)), (*Table)(unsafe.Pointer(pTab)).FzName)
}
if piIdxCur != 0 {
*(*int32)(unsafe.Pointer(piIdxCur)) = iBase
}
i = 0
pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex
__1:
if !(pIdx != 0) {
goto __3
}
{
var iIdxCur int32 = libc.PostIncInt32(&iBase, 1)
if int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY && !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
if piDataCur != 0 {
*(*int32)(unsafe.Pointer(piDataCur)) = iIdxCur
}
p5 = U8(0)
}
if aToOpen == uintptr(0) || *(*U8)(unsafe.Pointer(aToOpen + uintptr(i+1))) != 0 {
Xsqlite3VdbeAddOp3(tls, v, op, iIdxCur, int32((*Index)(unsafe.Pointer(pIdx)).Ftnum), iDb)
Xsqlite3VdbeSetP4KeyInfo(tls, pParse, pIdx)
Xsqlite3VdbeChangeP5(tls, v, uint16(p5))
}
}
goto __2
__2:
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
i++
goto __1
goto __3
__3:
;
if iBase > (*Parse)(unsafe.Pointer(pParse)).FnTab {
(*Parse)(unsafe.Pointer(pParse)).FnTab = iBase
}
return i
}
func xferCompatibleIndex(tls *libc.TLS, pDest uintptr, pSrc uintptr) int32 {
var i int32
if int32((*Index)(unsafe.Pointer(pDest)).FnKeyCol) != int32((*Index)(unsafe.Pointer(pSrc)).FnKeyCol) || int32((*Index)(unsafe.Pointer(pDest)).FnColumn) != int32((*Index)(unsafe.Pointer(pSrc)).FnColumn) {
return 0
}
if int32((*Index)(unsafe.Pointer(pDest)).FonError) != int32((*Index)(unsafe.Pointer(pSrc)).FonError) {
return 0
}
for i = 0; i < int32((*Index)(unsafe.Pointer(pSrc)).FnKeyCol); i++ {
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pSrc)).FaiColumn + uintptr(i)*2))) != int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pDest)).FaiColumn + uintptr(i)*2))) {
return 0
}
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pSrc)).FaiColumn + uintptr(i)*2))) == -2 {
if Xsqlite3ExprCompare(tls, uintptr(0), (*ExprList_item)(unsafe.Pointer((*Index)(unsafe.Pointer(pSrc)).FaColExpr+8+uintptr(i)*32)).FpExpr,
(*ExprList_item)(unsafe.Pointer((*Index)(unsafe.Pointer(pDest)).FaColExpr+8+uintptr(i)*32)).FpExpr, -1) != 0 {
return 0
}
}
if int32(*(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pSrc)).FaSortOrder + uintptr(i)))) != int32(*(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pDest)).FaSortOrder + uintptr(i)))) {
return 0
}
if Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pSrc)).FazColl + uintptr(i)*8)), *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pDest)).FazColl + uintptr(i)*8))) != 0 {
return 0
}
}
if Xsqlite3ExprCompare(tls, uintptr(0), (*Index)(unsafe.Pointer(pSrc)).FpPartIdxWhere, (*Index)(unsafe.Pointer(pDest)).FpPartIdxWhere, -1) != 0 {
return 0
}
return 1
}
func xferOptimization(tls *libc.TLS, pParse uintptr, pDest uintptr, pSelect uintptr, onError int32, iDbDest int32) int32 {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pEList uintptr
var pSrc uintptr
var pSrcIdx uintptr
var pDestIdx uintptr
var pItem uintptr
var i int32
var iDbSrc int32
var iSrc int32
var iDest int32
var addr1 int32
var addr2 int32
var emptyDestTest int32 = 0
var emptySrcTest int32 = 0
var v uintptr
var regAutoinc int32
var destHasUniqueIdx int32 = 0
var regData int32
var regRowid int32
if (*Parse)(unsafe.Pointer(pParse)).FpWith != 0 || (*Select)(unsafe.Pointer(pSelect)).FpWith != 0 {
return 0
}
if int32((*Table)(unsafe.Pointer(pDest)).FeTabType) == TABTYP_VTAB {
return 0
}
if onError == OE_Default {
if int32((*Table)(unsafe.Pointer(pDest)).FiPKey) >= 0 {
onError = int32((*Table)(unsafe.Pointer(pDest)).FkeyConf)
}
if onError == OE_Default {
onError = OE_Abort
}
}
if (*SrcList)(unsafe.Pointer((*Select)(unsafe.Pointer(pSelect)).FpSrc)).FnSrc != 1 {
return 0
}
if (*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(pSelect)).FpSrc+8)).FpSelect != 0 {
return 0
}
if (*Select)(unsafe.Pointer(pSelect)).FpWhere != 0 {
return 0
}
if (*Select)(unsafe.Pointer(pSelect)).FpOrderBy != 0 {
return 0
}
if (*Select)(unsafe.Pointer(pSelect)).FpGroupBy != 0 {
return 0
}
if (*Select)(unsafe.Pointer(pSelect)).FpLimit != 0 {
return 0
}
if (*Select)(unsafe.Pointer(pSelect)).FpPrior != 0 {
return 0
}
if (*Select)(unsafe.Pointer(pSelect)).FselFlags&U32(SF_Distinct) != 0 {
return 0
}
pEList = (*Select)(unsafe.Pointer(pSelect)).FpEList
if (*ExprList)(unsafe.Pointer(pEList)).FnExpr != 1 {
return 0
}
if int32((*Expr)(unsafe.Pointer((*ExprList_item)(unsafe.Pointer(pEList+8)).FpExpr)).Fop) != TK_ASTERISK {
return 0
}
pItem = (*Select)(unsafe.Pointer(pSelect)).FpSrc + 8
pSrc = Xsqlite3LocateTableItem(tls, pParse, uint32(0), pItem)
if pSrc == uintptr(0) {
return 0
}
if (*Table)(unsafe.Pointer(pSrc)).Ftnum == (*Table)(unsafe.Pointer(pDest)).Ftnum && (*Table)(unsafe.Pointer(pSrc)).FpSchema == (*Table)(unsafe.Pointer(pDest)).FpSchema {
return 0
}
if libc.Bool32((*Table)(unsafe.Pointer(pDest)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) != libc.Bool32((*Table)(unsafe.Pointer(pSrc)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
return 0
}
if !(int32((*Table)(unsafe.Pointer(pSrc)).FeTabType) == TABTYP_NORM) {
return 0
}
if int32((*Table)(unsafe.Pointer(pDest)).FnCol) != int32((*Table)(unsafe.Pointer(pSrc)).FnCol) {
return 0
}
if int32((*Table)(unsafe.Pointer(pDest)).FiPKey) != int32((*Table)(unsafe.Pointer(pSrc)).FiPKey) {
return 0
}
if (*Table)(unsafe.Pointer(pDest)).FtabFlags&U32(TF_Strict) != U32(0) && (*Table)(unsafe.Pointer(pSrc)).FtabFlags&U32(TF_Strict) == U32(0) {
return 0
}
for i = 0; i < int32((*Table)(unsafe.Pointer(pDest)).FnCol); i++ {
var pDestCol uintptr = (*Table)(unsafe.Pointer(pDest)).FaCol + uintptr(i)*24
var pSrcCol uintptr = (*Table)(unsafe.Pointer(pSrc)).FaCol + uintptr(i)*24
if int32((*Column)(unsafe.Pointer(pDestCol)).FcolFlags)&COLFLAG_GENERATED != int32((*Column)(unsafe.Pointer(pSrcCol)).FcolFlags)&COLFLAG_GENERATED {
return 0
}
if int32((*Column)(unsafe.Pointer(pDestCol)).FcolFlags)&COLFLAG_GENERATED != 0 {
if Xsqlite3ExprCompare(tls, uintptr(0),
Xsqlite3ColumnExpr(tls, pSrc, pSrcCol),
Xsqlite3ColumnExpr(tls, pDest, pDestCol), -1) != 0 {
return 0
}
}
if int32((*Column)(unsafe.Pointer(pDestCol)).Faffinity) != int32((*Column)(unsafe.Pointer(pSrcCol)).Faffinity) {
return 0
}
if Xsqlite3_stricmp(tls, Xsqlite3ColumnColl(tls, pDestCol),
Xsqlite3ColumnColl(tls, pSrcCol)) != 0 {
return 0
}
if uint32(int32(*(*uint8)(unsafe.Pointer(pDestCol + 8))&0xf>>0)) != 0 && !(int32(*(*uint8)(unsafe.Pointer(pSrcCol + 8))&0xf>>0) != 0) {
return 0
}
if int32((*Column)(unsafe.Pointer(pDestCol)).FcolFlags)&COLFLAG_GENERATED == 0 && i > 0 {
var pDestExpr uintptr = Xsqlite3ColumnExpr(tls, pDest, pDestCol)
var pSrcExpr uintptr = Xsqlite3ColumnExpr(tls, pSrc, pSrcCol)
if libc.Bool32(pDestExpr == uintptr(0)) != libc.Bool32(pSrcExpr == uintptr(0)) ||
pDestExpr != uintptr(0) && libc.Xstrcmp(tls, *(*uintptr)(unsafe.Pointer(pDestExpr + 8)),
*(*uintptr)(unsafe.Pointer(pSrcExpr + 8))) != 0 {
return 0
}
}
}
for pDestIdx = (*Table)(unsafe.Pointer(pDest)).FpIndex; pDestIdx != 0; pDestIdx = (*Index)(unsafe.Pointer(pDestIdx)).FpNext {
if int32((*Index)(unsafe.Pointer(pDestIdx)).FonError) != OE_None {
destHasUniqueIdx = 1
}
for pSrcIdx = (*Table)(unsafe.Pointer(pSrc)).FpIndex; pSrcIdx != 0; pSrcIdx = (*Index)(unsafe.Pointer(pSrcIdx)).FpNext {
if xferCompatibleIndex(tls, pDestIdx, pSrcIdx) != 0 {
break
}
}
if pSrcIdx == uintptr(0) {
return 0
}
if (*Index)(unsafe.Pointer(pSrcIdx)).Ftnum == (*Index)(unsafe.Pointer(pDestIdx)).Ftnum && (*Table)(unsafe.Pointer(pSrc)).FpSchema == (*Table)(unsafe.Pointer(pDest)).FpSchema &&
Xsqlite3FaultSim(tls, 411) == SQLITE_OK {
return 0
}
}
if (*Table)(unsafe.Pointer(pDest)).FpCheck != 0 && Xsqlite3ExprListCompare(tls, (*Table)(unsafe.Pointer(pSrc)).FpCheck, (*Table)(unsafe.Pointer(pDest)).FpCheck, -1) != 0 {
return 0
}
if (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_ForeignKeys) != uint64(0) && *(*uintptr)(unsafe.Pointer(pDest + 64 + 8)) != uintptr(0) {
return 0
}
if (*Sqlite3)(unsafe.Pointer(db)).Fflags&(uint64(0x00001)<<32) != uint64(0) {
return 0
}
iDbSrc = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pSrc)).FpSchema)
v = Xsqlite3GetVdbe(tls, pParse)
Xsqlite3CodeVerifySchema(tls, pParse, iDbSrc)
iSrc = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
iDest = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
regAutoinc = autoIncBegin(tls, pParse, iDbDest, pDest)
regData = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, regData)
regRowid = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3OpenTable(tls, pParse, iDest, iDbDest, pDest, OP_OpenWrite)
if (*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_Vacuum) == U32(0) && (int32((*Table)(unsafe.Pointer(pDest)).FiPKey) < 0 && (*Table)(unsafe.Pointer(pDest)).FpIndex != uintptr(0) ||
destHasUniqueIdx != 0 ||
onError != OE_Abort && onError != OE_Rollback) {
addr1 = Xsqlite3VdbeAddOp2(tls, v, OP_Rewind, iDest, 0)
emptyDestTest = Xsqlite3VdbeAddOp0(tls, v, OP_Goto)
Xsqlite3VdbeJumpHere(tls, v, addr1)
}
if (*Table)(unsafe.Pointer(pSrc)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
var insFlags U8
Xsqlite3OpenTable(tls, pParse, iSrc, iDbSrc, pSrc, OP_OpenRead)
emptySrcTest = Xsqlite3VdbeAddOp2(tls, v, OP_Rewind, iSrc, 0)
if int32((*Table)(unsafe.Pointer(pDest)).FiPKey) >= 0 {
addr1 = Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, iSrc, regRowid)
if (*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_Vacuum) == U32(0) {
addr2 = Xsqlite3VdbeAddOp3(tls, v, OP_NotExists, iDest, 0, regRowid)
Xsqlite3RowidConstraint(tls, pParse, onError, pDest)
Xsqlite3VdbeJumpHere(tls, v, addr2)
}
autoIncStep(tls, pParse, regAutoinc, regRowid)
} else if (*Table)(unsafe.Pointer(pDest)).FpIndex == uintptr(0) && !((*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_VacuumInto) != 0) {
addr1 = Xsqlite3VdbeAddOp2(tls, v, OP_NewRowid, iDest, regRowid)
} else {
addr1 = Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, iSrc, regRowid)
}
if (*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_Vacuum) != 0 {
Xsqlite3VdbeAddOp1(tls, v, OP_SeekEnd, iDest)
insFlags = U8(OPFLAG_APPEND | OPFLAG_USESEEKRESULT | OPFLAG_PREFORMAT)
} else {
insFlags = U8(OPFLAG_NCHANGE | OPFLAG_LASTROWID | OPFLAG_APPEND | OPFLAG_PREFORMAT)
}
if (*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_Vacuum) == U32(0) {
Xsqlite3VdbeAddOp3(tls, v, OP_RowData, iSrc, regData, 1)
insFlags = libc.Uint8FromInt32(int32(insFlags) & libc.CplInt32(OPFLAG_PREFORMAT))
} else {
Xsqlite3VdbeAddOp3(tls, v, OP_RowCell, iDest, iSrc, regRowid)
}
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, iDest, regData, regRowid)
if (*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_Vacuum) == U32(0) {
Xsqlite3VdbeChangeP4(tls, v, -1, pDest, -5)
}
Xsqlite3VdbeChangeP5(tls, v, uint16(insFlags))
Xsqlite3VdbeAddOp2(tls, v, OP_Next, iSrc, addr1)
Xsqlite3VdbeAddOp2(tls, v, OP_Close, iSrc, 0)
Xsqlite3VdbeAddOp2(tls, v, OP_Close, iDest, 0)
} else {
Xsqlite3TableLock(tls, pParse, iDbDest, (*Table)(unsafe.Pointer(pDest)).Ftnum, uint8(1), (*Table)(unsafe.Pointer(pDest)).FzName)
Xsqlite3TableLock(tls, pParse, iDbSrc, (*Table)(unsafe.Pointer(pSrc)).Ftnum, uint8(0), (*Table)(unsafe.Pointer(pSrc)).FzName)
}
for pDestIdx = (*Table)(unsafe.Pointer(pDest)).FpIndex; pDestIdx != 0; pDestIdx = (*Index)(unsafe.Pointer(pDestIdx)).FpNext {
var idxInsFlags U8 = U8(0)
for pSrcIdx = (*Table)(unsafe.Pointer(pSrc)).FpIndex; pSrcIdx != 0; pSrcIdx = (*Index)(unsafe.Pointer(pSrcIdx)).FpNext {
if xferCompatibleIndex(tls, pDestIdx, pSrcIdx) != 0 {
break
}
}
Xsqlite3VdbeAddOp3(tls, v, OP_OpenRead, iSrc, int32((*Index)(unsafe.Pointer(pSrcIdx)).Ftnum), iDbSrc)
Xsqlite3VdbeSetP4KeyInfo(tls, pParse, pSrcIdx)
Xsqlite3VdbeAddOp3(tls, v, OP_OpenWrite, iDest, int32((*Index)(unsafe.Pointer(pDestIdx)).Ftnum), iDbDest)
Xsqlite3VdbeSetP4KeyInfo(tls, pParse, pDestIdx)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_BULKCSR))
addr1 = Xsqlite3VdbeAddOp2(tls, v, OP_Rewind, iSrc, 0)
if (*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_Vacuum) != 0 {
for i = 0; i < int32((*Index)(unsafe.Pointer(pSrcIdx)).FnColumn); i++ {
var zColl uintptr = *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pSrcIdx)).FazColl + uintptr(i)*8))
if Xsqlite3_stricmp(tls, uintptr(unsafe.Pointer(&Xsqlite3StrBINARY)), zColl) != 0 {
break
}
}
if i == int32((*Index)(unsafe.Pointer(pSrcIdx)).FnColumn) {
idxInsFlags = U8(OPFLAG_USESEEKRESULT | OPFLAG_PREFORMAT)
Xsqlite3VdbeAddOp1(tls, v, OP_SeekEnd, iDest)
Xsqlite3VdbeAddOp2(tls, v, OP_RowCell, iDest, iSrc)
}
} else if !((*Table)(unsafe.Pointer(pSrc)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) && int32(*(*uint16)(unsafe.Pointer(pDestIdx + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY {
idxInsFlags = U8(int32(idxInsFlags) | OPFLAG_NCHANGE)
}
if int32(idxInsFlags) != OPFLAG_USESEEKRESULT|OPFLAG_PREFORMAT {
Xsqlite3VdbeAddOp3(tls, v, OP_RowData, iSrc, regData, 1)
if (*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_Vacuum) == U32(0) &&
!((*Table)(unsafe.Pointer(pDest)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) &&
int32(*(*uint16)(unsafe.Pointer(pDestIdx + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY {
codeWithoutRowidPreupdate(tls, pParse, pDest, iDest, regData)
}
}
Xsqlite3VdbeAddOp2(tls, v, OP_IdxInsert, iDest, regData)
Xsqlite3VdbeChangeP5(tls, v, uint16(int32(idxInsFlags)|OPFLAG_APPEND))
Xsqlite3VdbeAddOp2(tls, v, OP_Next, iSrc, addr1+1)
Xsqlite3VdbeJumpHere(tls, v, addr1)
Xsqlite3VdbeAddOp2(tls, v, OP_Close, iSrc, 0)
Xsqlite3VdbeAddOp2(tls, v, OP_Close, iDest, 0)
}
if emptySrcTest != 0 {
Xsqlite3VdbeJumpHere(tls, v, emptySrcTest)
}
Xsqlite3ReleaseTempReg(tls, pParse, regRowid)
Xsqlite3ReleaseTempReg(tls, pParse, regData)
if emptyDestTest != 0 {
Xsqlite3AutoincrementEnd(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_Halt, SQLITE_OK, 0)
Xsqlite3VdbeJumpHere(tls, v, emptyDestTest)
Xsqlite3VdbeAddOp2(tls, v, OP_Close, iDest, 0)
return 0
} else {
return 1
}
return int32(0)
}
// Execute SQL code. Return one of the SQLITE_ success/failure
// codes. Also write an error message into memory obtained from
// malloc() and make *pzErrMsg point to that message.
//
// If the SQL is a query, then for each row in the query result
// the xCallback() function is called. pArg becomes the first
// argument to xCallback(). If xCallback=NULL then no callback
// is invoked, even for queries.
func Xsqlite3_exec(tls *libc.TLS, db uintptr, zSql uintptr, xCallback Sqlite3_callback, pArg uintptr, pzErrMsg uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var rc int32
var azCols uintptr
var callbackIsInit int32
var i int32
var nCol int32
var azVals uintptr
rc = SQLITE_OK
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
azCols = uintptr(0)
if !!(Xsqlite3SafetyCheckOk(tls, db) != 0) {
goto __1
}
return Xsqlite3MisuseError(tls, 131895)
__1:
;
if !(zSql == uintptr(0)) {
goto __2
}
zSql = ts + 1547
__2:
;
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
Xsqlite3Error(tls, db, SQLITE_OK)
__3:
if !(rc == SQLITE_OK && *(*int8)(unsafe.Pointer(zSql)) != 0) {
goto __4
}
nCol = 0
azVals = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
rc = Xsqlite3_prepare_v2(tls, db, zSql, -1, bp, bp+8)
if !(rc != SQLITE_OK) {
goto __5
}
goto __3
__5:
;
if !!(*(*uintptr)(unsafe.Pointer(bp)) != 0) {
goto __6
}
zSql = *(*uintptr)(unsafe.Pointer(bp + 8))
goto __3
__6:
;
callbackIsInit = 0
__7:
if !(1 != 0) {
goto __8
}
rc = Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp)))
if !(xCallback != 0 && (SQLITE_ROW == rc || SQLITE_DONE == rc && !(callbackIsInit != 0) &&
(*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_NullCallback) != 0)) {
goto __9
}
if !!(callbackIsInit != 0) {
goto __10
}
nCol = Xsqlite3_column_count(tls, *(*uintptr)(unsafe.Pointer(bp)))
azCols = Xsqlite3DbMallocRaw(tls, db, uint64(2*nCol+1)*uint64(unsafe.Sizeof(uintptr(0))))
if !(azCols == uintptr(0)) {
goto __11
}
goto exec_out
__11:
;
i = 0
__12:
if !(i < nCol) {
goto __14
}
*(*uintptr)(unsafe.Pointer(azCols + uintptr(i)*8)) = Xsqlite3_column_name(tls, *(*uintptr)(unsafe.Pointer(bp)), i)
goto __13
__13:
i++
goto __12
goto __14
__14:
;
callbackIsInit = 1
__10:
;
if !(rc == SQLITE_ROW) {
goto __15
}
azVals = azCols + uintptr(nCol)*8
i = 0
__16:
if !(i < nCol) {
goto __18
}
*(*uintptr)(unsafe.Pointer(azVals + uintptr(i)*8)) = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp)), i)
if !(!(int32(*(*uintptr)(unsafe.Pointer(azVals + uintptr(i)*8))) != 0) && Xsqlite3_column_type(tls, *(*uintptr)(unsafe.Pointer(bp)), i) != SQLITE_NULL) {
goto __19
}
Xsqlite3OomFault(tls, db)
goto exec_out
__19:
;
goto __17
__17:
i++
goto __16
goto __18
__18:
;
*(*uintptr)(unsafe.Pointer(azVals + uintptr(i)*8)) = uintptr(0)
__15:
;
if !((*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xCallback})).f(tls, pArg, nCol, azVals, azCols) != 0) {
goto __20
}
rc = SQLITE_ABORT
Xsqlite3VdbeFinalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
Xsqlite3Error(tls, db, SQLITE_ABORT)
goto exec_out
__20:
;
__9:
;
if !(rc != SQLITE_ROW) {
goto __21
}
rc = Xsqlite3VdbeFinalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
zSql = *(*uintptr)(unsafe.Pointer(bp + 8))
__22:
if !(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zSql)))])&0x01 != 0) {
goto __23
}
zSql++
goto __22
__23:
;
goto __8
__21:
;
goto __7
__8:
;
Xsqlite3DbFree(tls, db, azCols)
azCols = uintptr(0)
goto __3
__4:
;
exec_out:
if !(*(*uintptr)(unsafe.Pointer(bp)) != 0) {
goto __24
}
Xsqlite3VdbeFinalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
__24:
;
Xsqlite3DbFree(tls, db, azCols)
rc = Xsqlite3ApiExit(tls, db, rc)
if !(rc != SQLITE_OK && pzErrMsg != 0) {
goto __25
}
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = Xsqlite3DbStrDup(tls, uintptr(0), Xsqlite3_errmsg(tls, db))
if !(*(*uintptr)(unsafe.Pointer(pzErrMsg)) == uintptr(0)) {
goto __27
}
rc = SQLITE_NOMEM
Xsqlite3Error(tls, db, SQLITE_NOMEM)
__27:
;
goto __26
__25:
if !(pzErrMsg != 0) {
goto __28
}
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = uintptr(0)
__28:
;
__26:
;
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// This is the function signature used for all extension entry points. It
// is also defined in the file "loadext.c".
type Sqlite3_loadext_entry = uintptr
var sqlite3Apis = Sqlite3_api_routines{
Faggregate_context: 0,
Faggregate_count: 0,
Fbind_blob: 0,
Fbind_double: 0,
Fbind_int: 0,
Fbind_int64: 0,
Fbind_null: 0,
Fbind_parameter_count: 0,
Fbind_parameter_index: 0,
Fbind_parameter_name: 0,
Fbind_text: 0,
Fbind_text16: 0,
Fbind_value: 0,
Fbusy_handler: 0,
Fbusy_timeout: 0,
Fchanges: 0,
Fclose: 0,
Fcollation_needed: 0,
Fcollation_needed16: 0,
Fcolumn_blob: 0,
Fcolumn_bytes: 0,
Fcolumn_bytes16: 0,
Fcolumn_count: 0,
Fcolumn_database_name: 0,
Fcolumn_database_name16: 0,
Fcolumn_decltype: 0,
Fcolumn_decltype16: 0,
Fcolumn_double: 0,
Fcolumn_int: 0,
Fcolumn_int64: 0,
Fcolumn_name: 0,
Fcolumn_name16: 0,
Fcolumn_origin_name: 0,
Fcolumn_origin_name16: 0,
Fcolumn_table_name: 0,
Fcolumn_table_name16: 0,
Fcolumn_text: 0,
Fcolumn_text16: 0,
Fcolumn_type: 0,
Fcolumn_value: 0,
Fcommit_hook: 0,
Fcomplete: 0,
Fcomplete16: 0,
Fcreate_collation: 0,
Fcreate_collation16: 0,
Fcreate_function: 0,
Fcreate_function16: 0,
Fcreate_module: 0,
Fdata_count: 0,
Fdb_handle: 0,
Fdeclare_vtab: 0,
Fenable_shared_cache: 0,
Ferrcode: 0,
Ferrmsg: 0,
Ferrmsg16: 0,
Fexec: 0,
Fexpired: 0,
Ffinalize: 0,
Ffree: 0,
Ffree_table: 0,
Fget_autocommit: 0,
Fget_auxdata: 0,
Fget_table: 0,
Finterruptx: 0,
Flast_insert_rowid: 0,
Flibversion: 0,
Flibversion_number: 0,
Fmalloc: 0,
Fmprintf: 0,
Fopen: 0,
Fopen16: 0,
Fprepare: 0,
Fprepare16: 0,
Fprofile: 0,
Fprogress_handler: 0,
Frealloc: 0,
Freset: 0,
Fresult_blob: 0,
Fresult_double: 0,
Fresult_error: 0,
Fresult_error16: 0,
Fresult_int: 0,
Fresult_int64: 0,
Fresult_null: 0,
Fresult_text: 0,
Fresult_text16: 0,
Fresult_text16be: 0,
Fresult_text16le: 0,
Fresult_value: 0,
Frollback_hook: 0,
Fset_authorizer: 0,
Fset_auxdata: 0,
Fxsnprintf: 0,
Fstep: 0,
Ftable_column_metadata: 0,
Fthread_cleanup: 0,
Ftotal_changes: 0,
Ftrace: 0,
Ftransfer_bindings: 0,
Fupdate_hook: 0,
Fuser_data: 0,
Fvalue_blob: 0,
Fvalue_bytes: 0,
Fvalue_bytes16: 0,
Fvalue_double: 0,
Fvalue_int: 0,
Fvalue_int64: 0,
Fvalue_numeric_type: 0,
Fvalue_text: 0,
Fvalue_text16: 0,
Fvalue_text16be: 0,
Fvalue_text16le: 0,
Fvalue_type: 0,
Fvmprintf: 0,
Foverload_function: 0,
Fprepare_v2: 0,
Fprepare16_v2: 0,
Fclear_bindings: 0,
Fcreate_module_v2: 0,
Fbind_zeroblob: 0,
Fblob_bytes: 0,
Fblob_close: 0,
Fblob_open: 0,
Fblob_read: 0,
Fblob_write: 0,
Fcreate_collation_v2: 0,
Ffile_control: 0,
Fmemory_highwater: 0,
Fmemory_used: 0,
Fmutex_alloc: 0,
Fmutex_enter: 0,
Fmutex_free: 0,
Fmutex_leave: 0,
Fmutex_try: 0,
Fopen_v2: 0,
Frelease_memory: 0,
Fresult_error_nomem: 0,
Fresult_error_toobig: 0,
Fsleep: 0,
Fsoft_heap_limit: 0,
Fvfs_find: 0,
Fvfs_register: 0,
Fvfs_unregister: 0,
Fxthreadsafe: 0,
Fresult_zeroblob: 0,
Fresult_error_code: 0,
Ftest_control: 0,
Frandomness: 0,
Fcontext_db_handle: 0,
Fextended_result_codes: 0,
Flimit: 0,
Fnext_stmt: 0,
Fsql: 0,
Fstatus: 0,
Fbackup_finish: 0,
Fbackup_init: 0,
Fbackup_pagecount: 0,
Fbackup_remaining: 0,
Fbackup_step: 0,
Fcompileoption_get: 0,
Fcompileoption_used: 0,
Fcreate_function_v2: 0,
Fdb_config: 0,
Fdb_mutex: 0,
Fdb_status: 0,
Fextended_errcode: 0,
Flog: 0,
Fsoft_heap_limit64: 0,
Fsourceid: 0,
Fstmt_status: 0,
Fstrnicmp: 0,
Funlock_notify: 0,
Fwal_autocheckpoint: 0,
Fwal_checkpoint: 0,
Fwal_hook: 0,
Fblob_reopen: 0,
Fvtab_config: 0,
Fvtab_on_conflict: 0,
Fclose_v2: 0,
Fdb_filename: 0,
Fdb_readonly: 0,
Fdb_release_memory: 0,
Ferrstr: 0,
Fstmt_busy: 0,
Fstmt_readonly: 0,
Fstricmp: 0,
Furi_boolean: 0,
Furi_int64: 0,
Furi_parameter: 0,
Fxvsnprintf: 0,
Fwal_checkpoint_v2: 0,
Fauto_extension: 0,
Fbind_blob64: 0,
Fbind_text64: 0,
Fcancel_auto_extension: 0,
Fload_extension: 0,
Fmalloc64: 0,
Fmsize: 0,
Frealloc64: 0,
Freset_auto_extension: 0,
Fresult_blob64: 0,
Fresult_text64: 0,
Fstrglob: 0,
Fvalue_dup: 0,
Fvalue_free: 0,
Fresult_zeroblob64: 0,
Fbind_zeroblob64: 0,
Fvalue_subtype: 0,
Fresult_subtype: 0,
Fstatus64: 0,
Fstrlike: 0,
Fdb_cacheflush: 0,
Fsystem_errno: 0,
Ftrace_v2: 0,
Fexpanded_sql: 0,
Fset_last_insert_rowid: 0,
Fprepare_v3: 0,
Fprepare16_v3: 0,
Fbind_pointer: 0,
Fresult_pointer: 0,
Fvalue_pointer: 0,
Fvtab_nochange: 0,
Fvalue_nochange: 0,
Fvtab_collation: 0,
Fkeyword_count: 0,
Fkeyword_name: 0,
Fkeyword_check: 0,
Fstr_new: 0,
Fstr_finish: 0,
Fstr_appendf: 0,
Fstr_vappendf: 0,
Fstr_append: 0,
Fstr_appendall: 0,
Fstr_appendchar: 0,
Fstr_reset: 0,
Fstr_errcode: 0,
Fstr_length: 0,
Fstr_value: 0,
Fcreate_window_function: 0,
Fstmt_isexplain: 0,
Fvalue_frombind: 0,
Fdrop_modules: 0,
Fhard_heap_limit64: 0,
Furi_key: 0,
Ffilename_database: 0,
Ffilename_journal: 0,
Ffilename_wal: 0,
Fcreate_filename: 0,
Ffree_filename: 0,
Fdatabase_file_object: 0,
Ftxn_state: 0,
Fchanges64: 0,
Ftotal_changes64: 0,
Fautovacuum_pages: 0,
Ferror_offset: 0,
Fvtab_rhs_value: 0,
Fvtab_distinct: 0,
Fvtab_in: 0,
Fvtab_in_first: 0,
Fvtab_in_next: 0,
Fdeserialize: 0,
Fserialize: 0,
Fdb_name: 0,
Fvalue_encoding: 0,
Fis_interrupted: 0,
}
func sqlite3LoadExtension(tls *libc.TLS, db uintptr, zFile uintptr, zProc uintptr, pzErrMsg uintptr) int32 {
bp := tls.Alloc(64)
defer tls.Free(64)
var pVfs uintptr
var handle uintptr
var xInit Sqlite3_loadext_entry
var zEntry uintptr
var zAltEntry uintptr
var aHandle uintptr
var nMsg U64
var ii int32
var rc int32
var zAltFile uintptr
var iFile int32
var iEntry int32
var c int32
var ncFile int32
pVfs = (*Sqlite3)(unsafe.Pointer(db)).FpVfs
*(*uintptr)(unsafe.Pointer(bp + 56)) = uintptr(0)
zAltEntry = uintptr(0)
nMsg = libc.Xstrlen(tls, zFile)
if !(pzErrMsg != 0) {
goto __1
}
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = uintptr(0)
__1:
;
if !((*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_LoadExtension) == uint64(0)) {
goto __2
}
if !(pzErrMsg != 0) {
goto __3
}
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = Xsqlite3_mprintf(tls, ts+12503, 0)
__3:
;
return SQLITE_ERROR
__2:
;
if zProc != 0 {
zEntry = zProc
} else {
zEntry = ts + 16291
}
if !(nMsg > uint64(FILENAME_MAX)) {
goto __4
}
goto extension_not_found
__4:
;
handle = Xsqlite3OsDlOpen(tls, pVfs, zFile)
ii = 0
__5:
if !(ii < int32(uint64(unsafe.Sizeof(azEndings))/uint64(unsafe.Sizeof(uintptr(0)))) && handle == uintptr(0)) {
goto __7
}
zAltFile = Xsqlite3_mprintf(tls, ts+12464, libc.VaList(bp, zFile, azEndings[ii]))
if !(zAltFile == uintptr(0)) {
goto __8
}
return SQLITE_NOMEM
__8:
;
handle = Xsqlite3OsDlOpen(tls, pVfs, zAltFile)
Xsqlite3_free(tls, zAltFile)
goto __6
__6:
ii++
goto __5
goto __7
__7:
;
if !(handle == uintptr(0)) {
goto __9
}
goto extension_not_found
__9:
;
xInit = Xsqlite3OsDlSym(tls, pVfs, handle, zEntry)
if !(xInit == uintptr(0) && zProc == uintptr(0)) {
goto __10
}
ncFile = Xsqlite3Strlen30(tls, zFile)
zAltEntry = Xsqlite3_malloc64(tls, uint64(ncFile+30))
if !(zAltEntry == uintptr(0)) {
goto __11
}
Xsqlite3OsDlClose(tls, pVfs, handle)
return SQLITE_NOMEM
__11:
;
libc.X__builtin___memcpy_chk(tls, zAltEntry, ts+16314, uint64(8), libc.X__builtin_object_size(tls, zAltEntry, 0))
iFile = ncFile - 1
__12:
if !(iFile >= 0 && !(int32(*(*int8)(unsafe.Pointer(zFile + uintptr(iFile)))) == '/')) {
goto __14
}
goto __13
__13:
iFile--
goto __12
goto __14
__14:
;
iFile++
if !(Xsqlite3_strnicmp(tls, zFile+uintptr(iFile), ts+16323, 3) == 0) {
goto __15
}
iFile = iFile + 3
__15:
;
iEntry = 8
__16:
if !(libc.AssignInt32(&c, int32(*(*int8)(unsafe.Pointer(zFile + uintptr(iFile))))) != 0 && c != '.') {
goto __18
}
if !(int32(Xsqlite3CtypeMap[uint8(c)])&0x02 != 0) {
goto __19
}
*(*int8)(unsafe.Pointer(zAltEntry + uintptr(libc.PostIncInt32(&iEntry, 1)))) = int8(Xsqlite3UpperToLower[uint32(c)])
__19:
;
goto __17
__17:
iFile++
goto __16
goto __18
__18:
;
libc.X__builtin___memcpy_chk(tls, zAltEntry+uintptr(iEntry), ts+16327, uint64(6), libc.X__builtin_object_size(tls, zAltEntry+uintptr(iEntry), 0))
zEntry = zAltEntry
xInit = Xsqlite3OsDlSym(tls, pVfs, handle, zEntry)
__10:
;
if !(xInit == uintptr(0)) {
goto __20
}
if !(pzErrMsg != 0) {
goto __21
}
nMsg = nMsg + (libc.Xstrlen(tls, zEntry) + uint64(300))
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = libc.AssignPtrUintptr(bp+56, Xsqlite3_malloc64(tls, nMsg))
if !(*(*uintptr)(unsafe.Pointer(bp + 56)) != 0) {
goto __22
}
Xsqlite3_snprintf(tls, int32(nMsg), *(*uintptr)(unsafe.Pointer(bp + 56)),
ts+16333, libc.VaList(bp+16, zEntry, zFile))
Xsqlite3OsDlError(tls, pVfs, int32(nMsg-uint64(1)), *(*uintptr)(unsafe.Pointer(bp + 56)))
__22:
;
__21:
;
Xsqlite3OsDlClose(tls, pVfs, handle)
Xsqlite3_free(tls, zAltEntry)
return SQLITE_ERROR
__20:
;
Xsqlite3_free(tls, zAltEntry)
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xInit})).f(tls, db, bp+56, uintptr(unsafe.Pointer(&sqlite3Apis)))
if !(rc != 0) {
goto __23
}
if !(rc == SQLITE_OK|int32(1)<<8) {
goto __24
}
return SQLITE_OK
__24:
;
if !(pzErrMsg != 0) {
goto __25
}
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = Xsqlite3_mprintf(tls, ts+16376, libc.VaList(bp+32, *(*uintptr)(unsafe.Pointer(bp + 56))))
__25:
;
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 56)))
Xsqlite3OsDlClose(tls, pVfs, handle)
return SQLITE_ERROR
__23:
;
aHandle = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(handle))*uint64((*Sqlite3)(unsafe.Pointer(db)).FnExtension+1))
if !(aHandle == uintptr(0)) {
goto __26
}
return SQLITE_NOMEM
__26:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FnExtension > 0) {
goto __27
}
libc.X__builtin___memcpy_chk(tls, aHandle, (*Sqlite3)(unsafe.Pointer(db)).FaExtension, uint64(unsafe.Sizeof(handle))*uint64((*Sqlite3)(unsafe.Pointer(db)).FnExtension), libc.X__builtin_object_size(tls, aHandle, 0))
__27:
;
Xsqlite3DbFree(tls, db, (*Sqlite3)(unsafe.Pointer(db)).FaExtension)
(*Sqlite3)(unsafe.Pointer(db)).FaExtension = aHandle
*(*uintptr)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaExtension + uintptr(libc.PostIncInt32(&(*Sqlite3)(unsafe.Pointer(db)).FnExtension, 1))*8)) = handle
return SQLITE_OK
extension_not_found:
if !(pzErrMsg != 0) {
goto __28
}
nMsg = nMsg + uint64(300)
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = libc.AssignPtrUintptr(bp+56, Xsqlite3_malloc64(tls, nMsg))
if !(*(*uintptr)(unsafe.Pointer(bp + 56)) != 0) {
goto __29
}
Xsqlite3_snprintf(tls, int32(nMsg), *(*uintptr)(unsafe.Pointer(bp + 56)),
ts+16408, libc.VaList(bp+40, FILENAME_MAX, zFile))
Xsqlite3OsDlError(tls, pVfs, int32(nMsg-uint64(1)), *(*uintptr)(unsafe.Pointer(bp + 56)))
__29:
;
__28:
;
return SQLITE_ERROR
}
var azEndings = [1]uintptr{
ts + 16445,
}
func Xsqlite3_load_extension(tls *libc.TLS, db uintptr, zFile uintptr, zProc uintptr, pzErrMsg uintptr) int32 {
var rc int32
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
rc = sqlite3LoadExtension(tls, db, zFile, zProc, pzErrMsg)
rc = Xsqlite3ApiExit(tls, db, rc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Call this routine when the database connection is closing in order
// to clean up loaded extensions
func Xsqlite3CloseExtensions(tls *libc.TLS, db uintptr) {
var i int32
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnExtension; i++ {
Xsqlite3OsDlClose(tls, (*Sqlite3)(unsafe.Pointer(db)).FpVfs, *(*uintptr)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaExtension + uintptr(i)*8)))
}
Xsqlite3DbFree(tls, db, (*Sqlite3)(unsafe.Pointer(db)).FaExtension)
}
// Enable or disable extension loading. Extension loading is disabled by
// default so as not to open security holes in older applications.
func Xsqlite3_enable_load_extension(tls *libc.TLS, db uintptr, onoff int32) int32 {
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if onoff != 0 {
*(*U64)(unsafe.Pointer(db + 48)) |= uint64(SQLITE_LoadExtension | SQLITE_LoadExtFunc)
} else {
*(*U64)(unsafe.Pointer(db + 48)) &= libc.CplUint64(uint64(SQLITE_LoadExtension | SQLITE_LoadExtFunc))
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return SQLITE_OK
}
type sqlite3AutoExtList = struct {
FnExt U32
F__ccgo_pad1 [4]byte
FaExt uintptr
}
// The following object holds the list of automatically loaded
// extensions.
//
// This list is shared across threads. The SQLITE_MUTEX_STATIC_MAIN
// mutex must be held while accessing this list.
type Sqlite3AutoExtList = sqlite3AutoExtList
var sqlite3Autoext = sqlite3AutoExtList{}
// Register a statically linked extension that is automatically
// loaded by every new database connection.
func Xsqlite3_auto_extension(tls *libc.TLS, xInit uintptr) int32 {
var rc int32 = SQLITE_OK
rc = Xsqlite3_initialize(tls)
if rc != 0 {
return rc
} else {
var i U32
var mutex uintptr = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MAIN)
Xsqlite3_mutex_enter(tls, mutex)
for i = U32(0); i < sqlite3Autoext.FnExt; i++ {
if *(*uintptr)(unsafe.Pointer(sqlite3Autoext.FaExt + uintptr(i)*8)) == xInit {
break
}
}
if i == sqlite3Autoext.FnExt {
var nByte U64 = uint64(sqlite3Autoext.FnExt+U32(1)) * uint64(unsafe.Sizeof(uintptr(0)))
var aNew uintptr
aNew = Xsqlite3_realloc64(tls, sqlite3Autoext.FaExt, nByte)
if aNew == uintptr(0) {
rc = SQLITE_NOMEM
} else {
sqlite3Autoext.FaExt = aNew
*(*uintptr)(unsafe.Pointer(sqlite3Autoext.FaExt + uintptr(sqlite3Autoext.FnExt)*8)) = xInit
sqlite3Autoext.FnExt++
}
}
Xsqlite3_mutex_leave(tls, mutex)
return rc
}
return int32(0)
}
// Cancel a prior call to sqlite3_auto_extension. Remove xInit from the
// set of routines that is invoked for each new database connection, if it
// is currently on the list. If xInit is not on the list, then this
// routine is a no-op.
//
// Return 1 if xInit was found on the list and removed. Return 0 if xInit
// was not on the list.
func Xsqlite3_cancel_auto_extension(tls *libc.TLS, xInit uintptr) int32 {
var mutex uintptr = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MAIN)
var i int32
var n int32 = 0
Xsqlite3_mutex_enter(tls, mutex)
for i = int32(sqlite3Autoext.FnExt) - 1; i >= 0; i-- {
if *(*uintptr)(unsafe.Pointer(sqlite3Autoext.FaExt + uintptr(i)*8)) == xInit {
sqlite3Autoext.FnExt--
*(*uintptr)(unsafe.Pointer(sqlite3Autoext.FaExt + uintptr(i)*8)) = *(*uintptr)(unsafe.Pointer(sqlite3Autoext.FaExt + uintptr(sqlite3Autoext.FnExt)*8))
n++
break
}
}
Xsqlite3_mutex_leave(tls, mutex)
return n
}
// Reset the automatic extension loading mechanism.
func Xsqlite3_reset_auto_extension(tls *libc.TLS) {
if Xsqlite3_initialize(tls) == SQLITE_OK {
var mutex uintptr = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MAIN)
Xsqlite3_mutex_enter(tls, mutex)
Xsqlite3_free(tls, sqlite3Autoext.FaExt)
sqlite3Autoext.FaExt = uintptr(0)
sqlite3Autoext.FnExt = U32(0)
Xsqlite3_mutex_leave(tls, mutex)
}
}
// Load all automatic extensions.
//
// If anything goes wrong, set an error in the database connection.
func Xsqlite3AutoLoadExtensions(tls *libc.TLS, db uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
var i U32
var go1 int32 = 1
var rc int32
var xInit Sqlite3_loadext_entry
if sqlite3Autoext.FnExt == U32(0) {
return
}
for i = U32(0); go1 != 0; i++ {
var mutex uintptr = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MAIN)
var pThunk uintptr = uintptr(unsafe.Pointer(&sqlite3Apis))
Xsqlite3_mutex_enter(tls, mutex)
if i >= sqlite3Autoext.FnExt {
xInit = uintptr(0)
go1 = 0
} else {
xInit = *(*uintptr)(unsafe.Pointer(sqlite3Autoext.FaExt + uintptr(i)*8))
}
Xsqlite3_mutex_leave(tls, mutex)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
if xInit != 0 && libc.AssignInt32(&rc, (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xInit})).f(tls, db, bp+8, pThunk)) != 0 {
Xsqlite3ErrorWithMsg(tls, db, rc,
ts+16451, libc.VaList(bp, *(*uintptr)(unsafe.Pointer(bp + 8))))
go1 = 0
}
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
}
var pragCName = [57]uintptr{
ts + 5460,
ts + 16490,
ts + 9279,
ts + 16494,
ts + 16499,
ts + 16502,
ts + 16512,
ts + 16522,
ts + 16528,
ts + 16532,
ts + 16537,
ts + 16542,
ts + 16550,
ts + 16561,
ts + 16564,
ts + 16571,
ts + 16532,
ts + 16537,
ts + 16578,
ts + 16583,
ts + 16586,
ts + 16593,
ts + 16528,
ts + 16532,
ts + 16599,
ts + 16604,
ts + 16609,
ts + 16532,
ts + 16613,
ts + 16537,
ts + 16621,
ts + 16625,
ts + 16630,
ts + 11895,
ts + 11891,
ts + 16636,
ts + 16641,
ts + 16646,
ts + 16490,
ts + 16532,
ts + 16651,
ts + 16658,
ts + 16665,
ts + 9279,
ts + 16673,
ts + 5463,
ts + 16679,
ts + 16490,
ts + 16532,
ts + 16684,
ts + 16689,
ts + 15883,
ts + 16694,
ts + 16707,
ts + 16716,
ts + 16723,
ts + 16734,
}
// Definitions of all built-in pragmas
type PragmaName1 = struct {
FzName uintptr
FePragTyp U8
FmPragFlg U8
FiPragCName U8
FnPragCName U8
F__ccgo_pad1 [4]byte
FiArg U64
}
// Definitions of all built-in pragmas
type PragmaName = PragmaName1
var aPragmaName = [67]PragmaName{
{FzName: ts + 16742,
FePragTyp: U8(PragTyp_ANALYSIS_LIMIT),
FmPragFlg: U8(PragFlg_Result0)},
{FzName: ts + 16757,
FePragTyp: U8(PragTyp_HEADER_VALUE),
FmPragFlg: U8(PragFlg_NoColumns1 | PragFlg_Result0),
FiArg: uint64(BTREE_APPLICATION_ID)},
{FzName: ts + 16772,
FePragTyp: U8(PragTyp_AUTO_VACUUM),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result0 | PragFlg_SchemaReq | PragFlg_NoColumns1)},
{FzName: ts + 16784,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_AutoIndex)},
{FzName: ts + 16800,
FePragTyp: U8(PragTyp_BUSY_TIMEOUT),
FmPragFlg: U8(PragFlg_Result0),
FiPragCName: U8(56), FnPragCName: U8(1)},
{FzName: ts + 16723,
FePragTyp: U8(PragTyp_CACHE_SIZE),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result0 | PragFlg_SchemaReq | PragFlg_NoColumns1)},
{FzName: ts + 16813,
FePragTyp: U8(PragTyp_CACHE_SPILL),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_SchemaReq | PragFlg_NoColumns1)},
{FzName: ts + 16825,
FePragTyp: U8(PragTyp_CASE_SENSITIVE_LIKE),
FmPragFlg: U8(PragFlg_NoColumns)},
{FzName: ts + 16845,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_CellSizeCk)},
{FzName: ts + 16861,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_CkptFullFSync)},
{FzName: ts + 16882,
FePragTyp: U8(PragTyp_COLLATION_LIST),
FmPragFlg: U8(PragFlg_Result0),
FiPragCName: U8(38), FnPragCName: U8(2)},
{FzName: ts + 16897,
FePragTyp: U8(PragTyp_COMPILE_OPTIONS),
FmPragFlg: U8(PragFlg_Result0)},
{FzName: ts + 16913,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(0x00001) << 32},
{FzName: ts + 16927,
FePragTyp: U8(PragTyp_HEADER_VALUE),
FmPragFlg: U8(PragFlg_ReadOnly | PragFlg_Result0),
FiArg: uint64(BTREE_DATA_VERSION)},
{FzName: ts + 16940,
FePragTyp: U8(PragTyp_DATABASE_LIST),
FmPragFlg: U8(PragFlg_Result0),
FiPragCName: U8(47), FnPragCName: U8(3)},
{FzName: ts + 16954,
FePragTyp: U8(PragTyp_DEFAULT_CACHE_SIZE),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result0 | PragFlg_SchemaReq | PragFlg_NoColumns1),
FiPragCName: U8(55), FnPragCName: U8(1)},
{FzName: ts + 16973,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_DeferFKs)},
{FzName: ts + 16992,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_NullCallback)},
{FzName: ts + 17015,
FePragTyp: U8(PragTyp_ENCODING),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1)},
{FzName: ts + 17024,
FePragTyp: U8(PragTyp_FOREIGN_KEY_CHECK),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result0 | PragFlg_Result1 | PragFlg_SchemaOpt),
FiPragCName: U8(43), FnPragCName: U8(4)},
{FzName: ts + 17042,
FePragTyp: U8(PragTyp_FOREIGN_KEY_LIST),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result1 | PragFlg_SchemaOpt), FnPragCName: U8(8)},
{FzName: ts + 17059,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_ForeignKeys)},
{FzName: ts + 17072,
FePragTyp: U8(PragTyp_HEADER_VALUE),
FmPragFlg: U8(PragFlg_ReadOnly | PragFlg_Result0)},
{FzName: ts + 17087,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_FullColNames)},
{FzName: ts + 17105,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_FullFSync)},
{FzName: ts + 17115,
FePragTyp: U8(PragTyp_FUNCTION_LIST),
FmPragFlg: U8(PragFlg_Result0),
FiPragCName: U8(27), FnPragCName: U8(6)},
{FzName: ts + 17129,
FePragTyp: U8(PragTyp_HARD_HEAP_LIMIT),
FmPragFlg: U8(PragFlg_Result0)},
{FzName: ts + 17145,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_IgnoreChecks)},
{FzName: ts + 17170,
FePragTyp: U8(PragTyp_INCREMENTAL_VACUUM),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_NoColumns)},
{FzName: ts + 17189,
FePragTyp: U8(PragTyp_INDEX_INFO),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result1 | PragFlg_SchemaOpt),
FiPragCName: U8(21), FnPragCName: U8(3)},
{FzName: ts + 17200,
FePragTyp: U8(PragTyp_INDEX_LIST),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result1 | PragFlg_SchemaOpt),
FiPragCName: U8(38), FnPragCName: U8(5)},
{FzName: ts + 17211,
FePragTyp: U8(PragTyp_INDEX_INFO),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result1 | PragFlg_SchemaOpt),
FiPragCName: U8(21), FnPragCName: U8(6),
FiArg: uint64(1)},
{FzName: ts + 17223,
FePragTyp: U8(PragTyp_INTEGRITY_CHECK),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result0 | PragFlg_Result1 | PragFlg_SchemaOpt)},
{FzName: ts + 17239,
FePragTyp: U8(PragTyp_JOURNAL_MODE),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result0 | PragFlg_SchemaReq)},
{FzName: ts + 17252,
FePragTyp: U8(PragTyp_JOURNAL_SIZE_LIMIT),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_SchemaReq)},
{FzName: ts + 17271,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_LegacyAlter)},
{FzName: ts + 17290,
FePragTyp: U8(PragTyp_LOCK_PROXY_FILE),
FmPragFlg: U8(PragFlg_NoColumns1)},
{FzName: ts + 17306,
FePragTyp: U8(PragTyp_LOCKING_MODE),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_SchemaReq)},
{FzName: ts + 17319,
FePragTyp: U8(PragTyp_PAGE_COUNT),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result0 | PragFlg_SchemaReq)},
{FzName: ts + 17334,
FePragTyp: U8(PragTyp_MMAP_SIZE)},
{FzName: ts + 17344,
FePragTyp: U8(PragTyp_MODULE_LIST),
FmPragFlg: U8(PragFlg_Result0),
FiPragCName: U8(9), FnPragCName: U8(1)},
{FzName: ts + 17356,
FePragTyp: U8(PragTyp_OPTIMIZE),
FmPragFlg: U8(PragFlg_Result1 | PragFlg_NeedSchema)},
{FzName: ts + 17365,
FePragTyp: U8(PragTyp_PAGE_COUNT),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result0 | PragFlg_SchemaReq)},
{FzName: ts + 17376,
FePragTyp: U8(PragTyp_PAGE_SIZE),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_SchemaReq | PragFlg_NoColumns1)},
{FzName: ts + 17386,
FePragTyp: U8(PragTyp_PRAGMA_LIST),
FmPragFlg: U8(PragFlg_Result0),
FiPragCName: U8(9), FnPragCName: U8(1)},
{FzName: ts + 17398,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_QueryOnly)},
{FzName: ts + 17409,
FePragTyp: U8(PragTyp_INTEGRITY_CHECK),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result0 | PragFlg_Result1 | PragFlg_SchemaOpt)},
{FzName: ts + 17421,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_ReadUncommit)},
{FzName: ts + 17438,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_RecTriggers)},
{FzName: ts + 17457,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_ReverseOrder)},
{FzName: ts + 17483,
FePragTyp: U8(PragTyp_HEADER_VALUE),
FmPragFlg: U8(PragFlg_NoColumns1 | PragFlg_Result0),
FiArg: uint64(BTREE_SCHEMA_VERSION)},
{FzName: ts + 17498,
FePragTyp: U8(PragTyp_SECURE_DELETE),
FmPragFlg: U8(PragFlg_Result0)},
{FzName: ts + 17512,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_ShortColNames)},
{FzName: ts + 17531,
FePragTyp: U8(PragTyp_SHRINK_MEMORY),
FmPragFlg: U8(PragFlg_NoColumns)},
{FzName: ts + 17545,
FePragTyp: U8(PragTyp_SOFT_HEAP_LIMIT),
FmPragFlg: U8(PragFlg_Result0)},
{FzName: ts + 17561,
FePragTyp: U8(PragTyp_SYNCHRONOUS),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result0 | PragFlg_SchemaReq | PragFlg_NoColumns1)},
{FzName: ts + 17573,
FePragTyp: U8(PragTyp_TABLE_INFO),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result1 | PragFlg_SchemaOpt),
FiPragCName: U8(8), FnPragCName: U8(6)},
{FzName: ts + 17584,
FePragTyp: U8(PragTyp_TABLE_LIST),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result1),
FiPragCName: U8(15), FnPragCName: U8(6)},
{FzName: ts + 17595,
FePragTyp: U8(PragTyp_TABLE_INFO),
FmPragFlg: U8(PragFlg_NeedSchema | PragFlg_Result1 | PragFlg_SchemaOpt),
FiPragCName: U8(8), FnPragCName: U8(7),
FiArg: uint64(1)},
{FzName: ts + 17607,
FePragTyp: U8(PragTyp_TEMP_STORE),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1)},
{FzName: ts + 17618,
FePragTyp: U8(PragTyp_TEMP_STORE_DIRECTORY),
FmPragFlg: U8(PragFlg_NoColumns1)},
{FzName: ts + 17639,
FePragTyp: U8(PragTyp_THREADS),
FmPragFlg: U8(PragFlg_Result0)},
{FzName: ts + 17647,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_TrustedSchema)},
{FzName: ts + 17662,
FePragTyp: U8(PragTyp_HEADER_VALUE),
FmPragFlg: U8(PragFlg_NoColumns1 | PragFlg_Result0),
FiArg: uint64(BTREE_USER_VERSION)},
{FzName: ts + 17675,
FePragTyp: U8(PragTyp_WAL_AUTOCHECKPOINT)},
{FzName: ts + 17694,
FePragTyp: U8(PragTyp_WAL_CHECKPOINT),
FmPragFlg: U8(PragFlg_NeedSchema),
FiPragCName: U8(50), FnPragCName: U8(3)},
{FzName: ts + 17709,
FePragTyp: U8(PragTyp_FLAG),
FmPragFlg: U8(PragFlg_Result0 | PragFlg_NoColumns1),
FiArg: uint64(SQLITE_WriteSchema | SQLITE_NoSchemaError)},
}
func getSafetyLevel(tls *libc.TLS, z uintptr, omitFull int32, dflt U8) U8 {
var i int32
var n int32
if int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z)))])&0x04 != 0 {
return U8(Xsqlite3Atoi(tls, z))
}
n = Xsqlite3Strlen30(tls, z)
for i = 0; i < int32(uint64(unsafe.Sizeof(iLength))/uint64(unsafe.Sizeof(U8(0)))); i++ {
if int32(iLength[i]) == n && Xsqlite3_strnicmp(tls, uintptr(unsafe.Pointer(&zText))+uintptr(iOffset[i]), z, n) == 0 &&
(!(omitFull != 0) || int32(iValue[i]) <= 1) {
return iValue[i]
}
}
return dflt
}
var zText = *(*[25]int8)(unsafe.Pointer(ts + 17725))
var iOffset = [8]U8{U8(0), U8(1), U8(2), U8(4), U8(9), U8(12), U8(15), U8(20)}
var iLength = [8]U8{U8(2), U8(2), U8(3), U8(5), U8(3), U8(4), U8(5), U8(4)}
var iValue = [8]U8{U8(1), U8(0), U8(0), U8(0), U8(1), U8(1), U8(3), U8(2)}
// Interpret the given string as a boolean value.
func Xsqlite3GetBoolean(tls *libc.TLS, z uintptr, dflt U8) U8 {
return U8(libc.Bool32(int32(getSafetyLevel(tls, z, 1, dflt)) != 0))
}
func getLockingMode(tls *libc.TLS, z uintptr) int32 {
if z != 0 {
if 0 == Xsqlite3StrICmp(tls, z, ts+17750) {
return PAGER_LOCKINGMODE_EXCLUSIVE
}
if 0 == Xsqlite3StrICmp(tls, z, ts+17760) {
return PAGER_LOCKINGMODE_NORMAL
}
}
return -1
}
func getAutoVacuum(tls *libc.TLS, z uintptr) int32 {
var i int32
if 0 == Xsqlite3StrICmp(tls, z, ts+8429) {
return BTREE_AUTOVACUUM_NONE
}
if 0 == Xsqlite3StrICmp(tls, z, ts+17767) {
return BTREE_AUTOVACUUM_FULL
}
if 0 == Xsqlite3StrICmp(tls, z, ts+17772) {
return BTREE_AUTOVACUUM_INCR
}
i = Xsqlite3Atoi(tls, z)
return int32(func() uint8 {
if i >= 0 && i <= 2 {
return uint8(i)
}
return uint8(0)
}())
}
func getTempStore(tls *libc.TLS, z uintptr) int32 {
if int32(*(*int8)(unsafe.Pointer(z))) >= '0' && int32(*(*int8)(unsafe.Pointer(z))) <= '2' {
return int32(*(*int8)(unsafe.Pointer(z))) - '0'
} else if Xsqlite3StrICmp(tls, z, ts+16684) == 0 {
return 1
} else if Xsqlite3StrICmp(tls, z, ts+17784) == 0 {
return 2
} else {
return 0
}
return int32(0)
}
func invalidateTempStorage(tls *libc.TLS, pParse uintptr) int32 {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpBt != uintptr(0) {
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FautoCommit) != 0) ||
Xsqlite3BtreeTxnState(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpBt) != SQLITE_TXN_NONE {
Xsqlite3ErrorMsg(tls, pParse,
ts+17791, 0)
return SQLITE_ERROR
}
Xsqlite3BtreeClose(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpBt)
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + 1*32)).FpBt = uintptr(0)
Xsqlite3ResetAllSchemasOfConnection(tls, db)
}
return SQLITE_OK
}
func changeTempStorage(tls *libc.TLS, pParse uintptr, zStorageType uintptr) int32 {
var ts int32 = getTempStore(tls, zStorageType)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if int32((*Sqlite3)(unsafe.Pointer(db)).Ftemp_store) == ts {
return SQLITE_OK
}
if invalidateTempStorage(tls, pParse) != SQLITE_OK {
return SQLITE_ERROR
}
(*Sqlite3)(unsafe.Pointer(db)).Ftemp_store = U8(ts)
return SQLITE_OK
}
func setPragmaResultColumnNames(tls *libc.TLS, v uintptr, pPragma uintptr) {
var n U8 = (*PragmaName)(unsafe.Pointer(pPragma)).FnPragCName
Xsqlite3VdbeSetNumCols(tls, v, func() int32 {
if int32(n) == 0 {
return 1
}
return int32(n)
}())
if int32(n) == 0 {
Xsqlite3VdbeSetColName(tls, v, 0, COLNAME_NAME, (*PragmaName)(unsafe.Pointer(pPragma)).FzName, uintptr(0))
} else {
var i int32
var j int32
i = 0
j = int32((*PragmaName)(unsafe.Pointer(pPragma)).FiPragCName)
__1:
if !(i < int32(n)) {
goto __3
}
{
Xsqlite3VdbeSetColName(tls, v, i, COLNAME_NAME, pragCName[j], uintptr(0))
}
goto __2
__2:
i++
j++
goto __1
goto __3
__3:
}
}
func returnSingleInt(tls *libc.TLS, v uintptr, value I64) {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*I64)(unsafe.Pointer(bp)) = value
Xsqlite3VdbeAddOp4Dup8(tls, v, OP_Int64, 0, 1, 0, bp, -13)
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, 1, 1)
}
func returnSingleText(tls *libc.TLS, v uintptr, zValue uintptr) {
if zValue != 0 {
Xsqlite3VdbeLoadString(tls, v, 1, zValue)
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, 1, 1)
}
}
func setAllPagerFlags(tls *libc.TLS, db uintptr) {
if (*Sqlite3)(unsafe.Pointer(db)).FautoCommit != 0 {
var pDb uintptr = (*Sqlite3)(unsafe.Pointer(db)).FaDb
var n int32 = (*Sqlite3)(unsafe.Pointer(db)).FnDb
for libc.PostDecInt32(&n, 1) > 0 {
if (*Db)(unsafe.Pointer(pDb)).FpBt != 0 {
Xsqlite3BtreeSetPagerFlags(tls, (*Db)(unsafe.Pointer(pDb)).FpBt,
uint32(U64((*Db)(unsafe.Pointer(pDb)).Fsafety_level)|(*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(PAGER_FLAGS_MASK)))
}
pDb += 32
}
}
}
func actionName(tls *libc.TLS, action U8) uintptr {
var zName uintptr
switch int32(action) {
case OE_SetNull:
zName = ts + 17853
break
case OE_SetDflt:
zName = ts + 17862
break
case OE_Cascade:
zName = ts + 17874
break
case OE_Restrict:
zName = ts + 17882
break
default:
zName = ts + 17891
break
}
return zName
}
// Parameter eMode must be one of the PAGER_JOURNALMODE_XXX constants
// defined in pager.h. This function returns the associated lowercase
// journal-mode name.
func Xsqlite3JournalModename(tls *libc.TLS, eMode int32) uintptr {
if eMode == int32(uint64(unsafe.Sizeof(azModeName))/uint64(unsafe.Sizeof(uintptr(0)))) {
return uintptr(0)
}
return azModeName[eMode]
}
var azModeName = [6]uintptr{
ts + 17901, ts + 17908, ts + 17916, ts + 17920, ts + 17784, ts + 17929,
}
func pragmaLocate(tls *libc.TLS, zName uintptr) uintptr {
var upr int32
var lwr int32
var mid int32 = 0
var rc int32
lwr = 0
upr = int32(uint64(unsafe.Sizeof(aPragmaName))/uint64(unsafe.Sizeof(PragmaName{}))) - 1
for lwr <= upr {
mid = (lwr + upr) / 2
rc = Xsqlite3_stricmp(tls, zName, aPragmaName[mid].FzName)
if rc == 0 {
break
}
if rc < 0 {
upr = mid - 1
} else {
lwr = mid + 1
}
}
if lwr > upr {
return uintptr(0)
}
return uintptr(unsafe.Pointer(&aPragmaName)) + uintptr(mid)*24
}
func pragmaFunclistLine(tls *libc.TLS, v uintptr, p uintptr, isBuiltin int32, showInternFuncs int32) {
bp := tls.Alloc(48)
defer tls.Free(48)
var mask U32 = U32(SQLITE_DETERMINISTIC | SQLITE_DIRECTONLY | SQLITE_SUBTYPE | SQLITE_INNOCUOUS | SQLITE_FUNC_INTERNAL)
if showInternFuncs != 0 {
mask = 0xffffffff
}
for ; p != 0; p = (*FuncDef)(unsafe.Pointer(p)).FpNext {
var zType uintptr
if (*FuncDef)(unsafe.Pointer(p)).FxSFunc == uintptr(0) {
continue
}
if (*FuncDef)(unsafe.Pointer(p)).FfuncFlags&U32(SQLITE_FUNC_INTERNAL) != U32(0) &&
showInternFuncs == 0 {
continue
}
if (*FuncDef)(unsafe.Pointer(p)).FxValue != uintptr(0) {
zType = ts + 17933
} else if (*FuncDef)(unsafe.Pointer(p)).FxFinalize != uintptr(0) {
zType = ts + 17935
} else {
zType = ts + 7931
}
Xsqlite3VdbeMultiLoad(tls, v, 1, ts+17937,
libc.VaList(bp, (*FuncDef)(unsafe.Pointer(p)).FzName, isBuiltin,
zType, azEnc[(*FuncDef)(unsafe.Pointer(p)).FfuncFlags&U32(SQLITE_FUNC_ENCMASK)],
int32((*FuncDef)(unsafe.Pointer(p)).FnArg),
(*FuncDef)(unsafe.Pointer(p)).FfuncFlags&mask^U32(SQLITE_INNOCUOUS)))
}
}
var azEnc = [4]uintptr{uintptr(0), ts + 17944, ts + 17949, ts + 17957}
func integrityCheckResultRow(tls *libc.TLS, v uintptr) int32 {
var addr int32
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, 3, 1)
addr = Xsqlite3VdbeAddOp3(tls, v, OP_IfPos, 1, Xsqlite3VdbeCurrentAddr(tls, v)+2, 1)
Xsqlite3VdbeAddOp0(tls, v, OP_Halt)
return addr
}
// Process a pragma statement.
//
// Pragmas are of this form:
//
// PRAGMA [schema.]id [= value]
//
// The identifier might also be a string. The value is a string, and
// identifier, or a number. If minusFlag is true, then the value is
// a number that was preceded by a minus sign.
//
// If the left side is "database.id" then pId1 is the database name
// and pId2 is the id. If the left side is just "id" then pId1 is the
// id and pId2 is any empty string.
func Xsqlite3Pragma(tls *libc.TLS, pParse uintptr, pId1 uintptr, pId2 uintptr, pValue uintptr, minusFlag int32) {
bp := tls.Alloc(680)
defer tls.Free(680)
var zLeft uintptr
var zRight uintptr
var zDb uintptr
var iDb int32
var rc int32
var db uintptr
var pDb uintptr
var v uintptr
var pPragma uintptr
var size int32
var aOp uintptr
var size1 int32
var pBt uintptr
var ii int32
var pBt1 uintptr
var b int32
var iReg int32
var ii1 int32
var pPager uintptr
var zRet uintptr
var eMode int32
var zMode uintptr
var n int32
var eMode1 int32
var ii2 int32
var pPager1 uintptr
var aOp1 uintptr
var iAddr int32
var eAuto int32
var pBt2 uintptr
var addr int32
var size2 int32
var ii3 int32
var pPager2 uintptr
var pFile uintptr
var pPager3 uintptr
var pFile1 uintptr
var res1 int32
var iLevel int32
var mask U64
var isHidden int32
var pColExpr uintptr
var i int32
var k int32
var nHidden int32
var pCol uintptr
var pPk uintptr
var pTab uintptr
var zSql uintptr
var pTab1 uintptr
var pTab2 uintptr
var zType uintptr
var k1 uintptr
var pHash uintptr
var initNCol int32
var ii4 int32
var cnum I16
var iIdxDb int32
var i1 int32
var mx int32
var pIdx uintptr
var pTab3 uintptr
var iTabDb int32
var pIdx1 uintptr
var pTab4 uintptr
var i2 int32
var i3 int32
var pColl uintptr
var i4 int32
var p uintptr
var i5 int32
var j uintptr
var p1 uintptr
var showInternFunc int32
var pMod uintptr
var j1 uintptr
var i6 int32
var j2 int32
var iTabDb1 int32
var i7 int32
var pFK uintptr
var pTab5 uintptr
var iCol int32
var jmp int32
var pFK1 uintptr
var pTab6 uintptr
var pParent uintptr
var i8 int32
var j3 int32
var k2 uintptr
var x1 int32
var regResult int32
var regRow int32
var addrTop int32
var addrOk int32
var pTab7 uintptr
var pIdx3 uintptr
var nIdx int32
var pTab8 uintptr
var pIdx4 uintptr
var a1 int32
var zErr uintptr
var jmp2 int32
var zErr1 uintptr
var pCol1 uintptr
var labelError int32
var labelOk int32
var p11 int32
var p3 int32
var p4 int32
var doTypeCheck int32
var addrCkFault int32
var addrCkOk int32
var zErr2 uintptr
var k3 int32
var pCheck uintptr
var jmp6 int32
var iCol1 int32
var uniqOk int32
var jmp61 int32
var jmp21 int32
var jmp4 int32
var jmp5 int32
var label6 int32
var kk int32
var ckUniq int32
var pTab9 uintptr
var pIdx5 uintptr
var pPk1 uintptr
var pPrior uintptr
var loopTop int32
var r1 int32
var bStrict int32
var r2 int32
var mxCol int32
var x2 uintptr
var pTbls uintptr
var aRoot uintptr
var cnt int32
var mxIdx int32
var aOp2 uintptr
var i9 int32
var j4 int32
var addr1 int32
var pObjTab uintptr
var isQuick int32
var enc U8
var pEnc uintptr
var aOp3 uintptr
var aOp4 uintptr
var iCookie int32
var i10 int32
var zOpt uintptr
var iBt int32
var eMode2 int32
var r11 int32
var iDbLast int32
var iTabCur int32
var k4 uintptr
var pSchema uintptr
var pTab10 uintptr
var pIdx6 uintptr
var szThreshold LogEst
var zSubSql uintptr
var opMask U32
var iPrior Sqlite3_int64
zLeft = uintptr(0)
zRight = uintptr(0)
zDb = uintptr(0)
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
v = Xsqlite3GetVdbe(tls, pParse)
if !(v == uintptr(0)) {
goto __1
}
return
__1:
;
Xsqlite3VdbeRunOnlyOnce(tls, v)
(*Parse)(unsafe.Pointer(pParse)).FnMem = 2
iDb = Xsqlite3TwoPartName(tls, pParse, pId1, pId2, bp+480)
if !(iDb < 0) {
goto __2
}
return
__2:
;
pDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32
if !(iDb == 1 && Xsqlite3OpenTempDatabase(tls, pParse) != 0) {
goto __3
}
return
__3:
;
zLeft = Xsqlite3NameFromToken(tls, db, *(*uintptr)(unsafe.Pointer(bp + 480)))
if !!(zLeft != 0) {
goto __4
}
return
__4:
;
if !(minusFlag != 0) {
goto __5
}
zRight = Xsqlite3MPrintf(tls, db, ts+17965, libc.VaList(bp, pValue))
goto __6
__5:
zRight = Xsqlite3NameFromToken(tls, db, pValue)
__6:
;
if (*Token)(unsafe.Pointer(pId2)).Fn > uint32(0) {
zDb = (*Db)(unsafe.Pointer(pDb)).FzDbSName
} else {
zDb = uintptr(0)
}
if !(Xsqlite3AuthCheck(tls, pParse, SQLITE_PRAGMA, zLeft, zRight, zDb) != 0) {
goto __7
}
goto pragma_out
__7:
;
*(*uintptr)(unsafe.Pointer(bp + 488)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 488 + 1*8)) = zLeft
*(*uintptr)(unsafe.Pointer(bp + 488 + 2*8)) = zRight
*(*uintptr)(unsafe.Pointer(bp + 488 + 3*8)) = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).FbusyHandler.FnBusy = 0
rc = Xsqlite3_file_control(tls, db, zDb, SQLITE_FCNTL_PRAGMA, bp+488)
if !(rc == SQLITE_OK) {
goto __8
}
Xsqlite3VdbeSetNumCols(tls, v, 1)
Xsqlite3VdbeSetColName(tls, v, 0, COLNAME_NAME, *(*uintptr)(unsafe.Pointer(bp + 488)), libc.UintptrFromInt32(-1))
returnSingleText(tls, v, *(*uintptr)(unsafe.Pointer(bp + 488)))
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 488)))
goto pragma_out
__8:
;
if !(rc != SQLITE_NOTFOUND) {
goto __9
}
if !(*(*uintptr)(unsafe.Pointer(bp + 488)) != 0) {
goto __10
}
Xsqlite3ErrorMsg(tls, pParse, ts+3658, libc.VaList(bp+8, *(*uintptr)(unsafe.Pointer(bp + 488))))
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 488)))
__10:
;
(*Parse)(unsafe.Pointer(pParse)).FnErr++
(*Parse)(unsafe.Pointer(pParse)).Frc = rc
goto pragma_out
__9:
;
pPragma = pragmaLocate(tls, zLeft)
if !(pPragma == uintptr(0)) {
goto __11
}
goto pragma_out
__11:
;
if !(int32((*PragmaName)(unsafe.Pointer(pPragma)).FmPragFlg)&PragFlg_NeedSchema != 0) {
goto __12
}
if !(Xsqlite3ReadSchema(tls, pParse) != 0) {
goto __13
}
goto pragma_out
__13:
;
__12:
;
if !(int32((*PragmaName)(unsafe.Pointer(pPragma)).FmPragFlg)&PragFlg_NoColumns == 0 &&
(int32((*PragmaName)(unsafe.Pointer(pPragma)).FmPragFlg)&PragFlg_NoColumns1 == 0 || zRight == uintptr(0))) {
goto __14
}
setPragmaResultColumnNames(tls, v, pPragma)
__14:
;
switch int32((*PragmaName)(unsafe.Pointer(pPragma)).FePragTyp) {
case PragTyp_DEFAULT_CACHE_SIZE:
goto __16
case PragTyp_PAGE_SIZE:
goto __17
case PragTyp_SECURE_DELETE:
goto __18
case PragTyp_PAGE_COUNT:
goto __19
case PragTyp_LOCKING_MODE:
goto __20
case PragTyp_JOURNAL_MODE:
goto __21
case PragTyp_JOURNAL_SIZE_LIMIT:
goto __22
case PragTyp_AUTO_VACUUM:
goto __23
case PragTyp_INCREMENTAL_VACUUM:
goto __24
case PragTyp_CACHE_SIZE:
goto __25
case PragTyp_CACHE_SPILL:
goto __26
case PragTyp_MMAP_SIZE:
goto __27
case PragTyp_TEMP_STORE:
goto __28
case PragTyp_TEMP_STORE_DIRECTORY:
goto __29
case PragTyp_LOCK_PROXY_FILE:
goto __30
case PragTyp_SYNCHRONOUS:
goto __31
case PragTyp_FLAG:
goto __32
case PragTyp_TABLE_INFO:
goto __33
case PragTyp_TABLE_LIST:
goto __34
case PragTyp_INDEX_INFO:
goto __35
case PragTyp_INDEX_LIST:
goto __36
case PragTyp_DATABASE_LIST:
goto __37
case PragTyp_COLLATION_LIST:
goto __38
case PragTyp_FUNCTION_LIST:
goto __39
case PragTyp_MODULE_LIST:
goto __40
case PragTyp_PRAGMA_LIST:
goto __41
case PragTyp_FOREIGN_KEY_LIST:
goto __42
case PragTyp_FOREIGN_KEY_CHECK:
goto __43
case PragTyp_CASE_SENSITIVE_LIKE:
goto __44
case PragTyp_INTEGRITY_CHECK:
goto __45
case PragTyp_ENCODING:
goto __46
case PragTyp_HEADER_VALUE:
goto __47
case PragTyp_COMPILE_OPTIONS:
goto __48
case PragTyp_WAL_CHECKPOINT:
goto __49
case PragTyp_WAL_AUTOCHECKPOINT:
goto __50
case PragTyp_SHRINK_MEMORY:
goto __51
case PragTyp_OPTIMIZE:
goto __52
default:
goto __53
case PragTyp_SOFT_HEAP_LIMIT:
goto __54
case PragTyp_HARD_HEAP_LIMIT:
goto __55
case PragTyp_THREADS:
goto __56
case PragTyp_ANALYSIS_LIMIT:
goto __57
}
goto __15
__16:
Xsqlite3VdbeUsesBtree(tls, v, iDb)
if !!(zRight != 0) {
goto __58
}
*(*int32)(unsafe.Pointer(pParse + 56)) += 2
aOp = Xsqlite3VdbeAddOpList(tls, v, int32(uint64(unsafe.Sizeof(getCacheSize))/uint64(unsafe.Sizeof(VdbeOpList{}))), uintptr(unsafe.Pointer(&getCacheSize)), iLn3)
if !(0 != 0) {
goto __60
}
goto __15
__60:
;
(*VdbeOp)(unsafe.Pointer(aOp)).Fp1 = iDb
(*VdbeOp)(unsafe.Pointer(aOp + 1*24)).Fp1 = iDb
(*VdbeOp)(unsafe.Pointer(aOp + 6*24)).Fp1 = -2000
goto __59
__58:
size = Xsqlite3AbsInt32(tls, Xsqlite3Atoi(tls, zRight))
Xsqlite3BeginWriteOperation(tls, pParse, 0, iDb)
Xsqlite3VdbeAddOp3(tls, v, OP_SetCookie, iDb, BTREE_DEFAULT_CACHE_SIZE, size)
(*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Fcache_size = size
Xsqlite3BtreeSetCacheSize(tls, (*Db)(unsafe.Pointer(pDb)).FpBt, (*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Fcache_size)
__59:
;
goto __15
__17:
pBt = (*Db)(unsafe.Pointer(pDb)).FpBt
if !!(zRight != 0) {
goto __61
}
if pBt != 0 {
size1 = Xsqlite3BtreeGetPageSize(tls, pBt)
} else {
size1 = 0
}
returnSingleInt(tls, v, int64(size1))
goto __62
__61:
(*Sqlite3)(unsafe.Pointer(db)).FnextPagesize = Xsqlite3Atoi(tls, zRight)
if !(SQLITE_NOMEM == Xsqlite3BtreeSetPageSize(tls, pBt, (*Sqlite3)(unsafe.Pointer(db)).FnextPagesize, 0, 0)) {
goto __63
}
Xsqlite3OomFault(tls, db)
__63:
;
__62:
;
goto __15
__18:
pBt1 = (*Db)(unsafe.Pointer(pDb)).FpBt
b = -1
if !(zRight != 0) {
goto __64
}
if !(Xsqlite3_stricmp(tls, zRight, ts+17969) == 0) {
goto __65
}
b = 2
goto __66
__65:
b = int32(Xsqlite3GetBoolean(tls, zRight, uint8(0)))
__66:
;
__64:
;
if !((*Token)(unsafe.Pointer(pId2)).Fn == uint32(0) && b >= 0) {
goto __67
}
ii = 0
__68:
if !(ii < (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __70
}
Xsqlite3BtreeSecureDelete(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(ii)*32)).FpBt, b)
goto __69
__69:
ii++
goto __68
goto __70
__70:
;
__67:
;
b = Xsqlite3BtreeSecureDelete(tls, pBt1, b)
returnSingleInt(tls, v, int64(b))
goto __15
__19:
*(*I64)(unsafe.Pointer(bp + 520)) = int64(0)
Xsqlite3CodeVerifySchema(tls, pParse, iDb)
iReg = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
if !(int32(Xsqlite3UpperToLower[uint8(*(*int8)(unsafe.Pointer(zLeft)))]) == 'p') {
goto __71
}
Xsqlite3VdbeAddOp2(tls, v, OP_Pagecount, iDb, iReg)
goto __72
__71:
if !(zRight != 0 && Xsqlite3DecOrHexToI64(tls, zRight, bp+520) == 0) {
goto __73
}
if !(*(*I64)(unsafe.Pointer(bp + 520)) < int64(0)) {
goto __75
}
*(*I64)(unsafe.Pointer(bp + 520)) = int64(0)
goto __76
__75:
if !(*(*I64)(unsafe.Pointer(bp + 520)) > int64(0xfffffffe)) {
goto __77
}
*(*I64)(unsafe.Pointer(bp + 520)) = int64(0xfffffffe)
__77:
;
__76:
;
goto __74
__73:
*(*I64)(unsafe.Pointer(bp + 520)) = int64(0)
__74:
;
Xsqlite3VdbeAddOp3(tls, v, OP_MaxPgcnt, iDb, iReg, int32(*(*I64)(unsafe.Pointer(bp + 520))))
__72:
;
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, iReg, 1)
goto __15
__20:
zRet = ts + 17760
eMode = getLockingMode(tls, zRight)
if !((*Token)(unsafe.Pointer(pId2)).Fn == uint32(0) && eMode == -1) {
goto __78
}
eMode = int32((*Sqlite3)(unsafe.Pointer(db)).FdfltLockMode)
goto __79
__78:
if !((*Token)(unsafe.Pointer(pId2)).Fn == uint32(0)) {
goto __80
}
ii1 = 2
__81:
if !(ii1 < (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __83
}
pPager = Xsqlite3BtreePager(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(ii1)*32)).FpBt)
Xsqlite3PagerLockingMode(tls, pPager, eMode)
goto __82
__82:
ii1++
goto __81
goto __83
__83:
;
(*Sqlite3)(unsafe.Pointer(db)).FdfltLockMode = U8(eMode)
__80:
;
pPager = Xsqlite3BtreePager(tls, (*Db)(unsafe.Pointer(pDb)).FpBt)
eMode = Xsqlite3PagerLockingMode(tls, pPager, eMode)
__79:
;
if !(eMode == PAGER_LOCKINGMODE_EXCLUSIVE) {
goto __84
}
zRet = ts + 17750
__84:
;
returnSingleText(tls, v, zRet)
goto __15
__21:
if !(zRight == uintptr(0)) {
goto __85
}
eMode1 = -1
goto __86
__85:
n = Xsqlite3Strlen30(tls, zRight)
eMode1 = 0
__87:
if !(libc.AssignUintptr(&zMode, Xsqlite3JournalModename(tls, eMode1)) != uintptr(0)) {
goto __89
}
if !(Xsqlite3_strnicmp(tls, zRight, zMode, n) == 0) {
goto __90
}
goto __89
__90:
;
goto __88
__88:
eMode1++
goto __87
goto __89
__89:
;
if !!(zMode != 0) {
goto __91
}
eMode1 = -1
__91:
;
if !(eMode1 == PAGER_JOURNALMODE_OFF && (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_Defensive) != uint64(0)) {
goto __92
}
eMode1 = -1
__92:
;
__86:
;
if !(eMode1 == -1 && (*Token)(unsafe.Pointer(pId2)).Fn == uint32(0)) {
goto __93
}
iDb = 0
(*Token)(unsafe.Pointer(pId2)).Fn = uint32(1)
__93:
;
ii2 = (*Sqlite3)(unsafe.Pointer(db)).FnDb - 1
__94:
if !(ii2 >= 0) {
goto __96
}
if !((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(ii2)*32)).FpBt != 0 && (ii2 == iDb || (*Token)(unsafe.Pointer(pId2)).Fn == uint32(0))) {
goto __97
}
Xsqlite3VdbeUsesBtree(tls, v, ii2)
Xsqlite3VdbeAddOp3(tls, v, OP_JournalMode, ii2, 1, eMode1)
__97:
;
goto __95
__95:
ii2--
goto __94
goto __96
__96:
;
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, 1, 1)
goto __15
__22:
pPager1 = Xsqlite3BtreePager(tls, (*Db)(unsafe.Pointer(pDb)).FpBt)
*(*I64)(unsafe.Pointer(bp + 528)) = int64(-2)
if !(zRight != 0) {
goto __98
}
Xsqlite3DecOrHexToI64(tls, zRight, bp+528)
if !(*(*I64)(unsafe.Pointer(bp + 528)) < int64(-1)) {
goto __99
}
*(*I64)(unsafe.Pointer(bp + 528)) = int64(-1)
__99:
;
__98:
;
*(*I64)(unsafe.Pointer(bp + 528)) = Xsqlite3PagerJournalSizeLimit(tls, pPager1, *(*I64)(unsafe.Pointer(bp + 528)))
returnSingleInt(tls, v, *(*I64)(unsafe.Pointer(bp + 528)))
goto __15
__23:
pBt2 = (*Db)(unsafe.Pointer(pDb)).FpBt
if !!(zRight != 0) {
goto __100
}
returnSingleInt(tls, v, int64(Xsqlite3BtreeGetAutoVacuum(tls, pBt2)))
goto __101
__100:
eAuto = getAutoVacuum(tls, zRight)
(*Sqlite3)(unsafe.Pointer(db)).FnextAutovac = int8(U8(eAuto))
rc = Xsqlite3BtreeSetAutoVacuum(tls, pBt2, eAuto)
if !(rc == SQLITE_OK && (eAuto == 1 || eAuto == 2)) {
goto __102
}
iAddr = Xsqlite3VdbeCurrentAddr(tls, v)
aOp1 = Xsqlite3VdbeAddOpList(tls, v, int32(uint64(unsafe.Sizeof(setMeta6))/uint64(unsafe.Sizeof(VdbeOpList{}))), uintptr(unsafe.Pointer(&setMeta6)), iLn4)
if !(0 != 0) {
goto __103
}
goto __15
__103:
;
(*VdbeOp)(unsafe.Pointer(aOp1)).Fp1 = iDb
(*VdbeOp)(unsafe.Pointer(aOp1 + 1*24)).Fp1 = iDb
(*VdbeOp)(unsafe.Pointer(aOp1 + 2*24)).Fp2 = iAddr + 4
(*VdbeOp)(unsafe.Pointer(aOp1 + 4*24)).Fp1 = iDb
(*VdbeOp)(unsafe.Pointer(aOp1 + 4*24)).Fp3 = eAuto - 1
Xsqlite3VdbeUsesBtree(tls, v, iDb)
__102:
;
__101:
;
goto __15
__24:
*(*int32)(unsafe.Pointer(bp + 536)) = 0
if !(zRight == uintptr(0) || !(Xsqlite3GetInt32(tls, zRight, bp+536) != 0) || *(*int32)(unsafe.Pointer(bp + 536)) <= 0) {
goto __104
}
*(*int32)(unsafe.Pointer(bp + 536)) = 0x7fffffff
__104:
;
Xsqlite3BeginWriteOperation(tls, pParse, 0, iDb)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, *(*int32)(unsafe.Pointer(bp + 536)), 1)
addr = Xsqlite3VdbeAddOp1(tls, v, OP_IncrVacuum, iDb)
Xsqlite3VdbeAddOp1(tls, v, OP_ResultRow, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, 1, -1)
Xsqlite3VdbeAddOp2(tls, v, OP_IfPos, 1, addr)
Xsqlite3VdbeJumpHere(tls, v, addr)
goto __15
__25:
;
if !!(zRight != 0) {
goto __105
}
returnSingleInt(tls, v, int64((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Fcache_size))
goto __106
__105:
size2 = Xsqlite3Atoi(tls, zRight)
(*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Fcache_size = size2
Xsqlite3BtreeSetCacheSize(tls, (*Db)(unsafe.Pointer(pDb)).FpBt, (*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Fcache_size)
__106:
;
goto __15
__26:
;
if !!(zRight != 0) {
goto __107
}
returnSingleInt(tls, v,
func() int64 {
if (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_CacheSpill) == uint64(0) {
return int64(0)
}
return int64(Xsqlite3BtreeSetSpillSize(tls, (*Db)(unsafe.Pointer(pDb)).FpBt, 0))
}())
goto __108
__107:
*(*int32)(unsafe.Pointer(bp + 540)) = 1
if !(Xsqlite3GetInt32(tls, zRight, bp+540) != 0) {
goto __109
}
Xsqlite3BtreeSetSpillSize(tls, (*Db)(unsafe.Pointer(pDb)).FpBt, *(*int32)(unsafe.Pointer(bp + 540)))
__109:
;
if !(Xsqlite3GetBoolean(tls, zRight, uint8(libc.Bool32(*(*int32)(unsafe.Pointer(bp + 540)) != 0))) != 0) {
goto __110
}
*(*U64)(unsafe.Pointer(db + 48)) |= uint64(SQLITE_CacheSpill)
goto __111
__110:
*(*U64)(unsafe.Pointer(db + 48)) &= libc.CplUint64(uint64(SQLITE_CacheSpill))
__111:
;
setAllPagerFlags(tls, db)
__108:
;
goto __15
__27:
;
if !(zRight != 0) {
goto __112
}
Xsqlite3DecOrHexToI64(tls, zRight, bp+544)
if !(*(*Sqlite3_int64)(unsafe.Pointer(bp + 544)) < int64(0)) {
goto __113
}
*(*Sqlite3_int64)(unsafe.Pointer(bp + 544)) = Xsqlite3Config.FszMmap
__113:
;
if !((*Token)(unsafe.Pointer(pId2)).Fn == uint32(0)) {
goto __114
}
(*Sqlite3)(unsafe.Pointer(db)).FszMmap = *(*Sqlite3_int64)(unsafe.Pointer(bp + 544))
__114:
;
ii3 = (*Sqlite3)(unsafe.Pointer(db)).FnDb - 1
__115:
if !(ii3 >= 0) {
goto __117
}
if !((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(ii3)*32)).FpBt != 0 && (ii3 == iDb || (*Token)(unsafe.Pointer(pId2)).Fn == uint32(0))) {
goto __118
}
Xsqlite3BtreeSetMmapLimit(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(ii3)*32)).FpBt, *(*Sqlite3_int64)(unsafe.Pointer(bp + 544)))
__118:
;
goto __116
__116:
ii3--
goto __115
goto __117
__117:
;
__112:
;
*(*Sqlite3_int64)(unsafe.Pointer(bp + 544)) = int64(-1)
rc = Xsqlite3_file_control(tls, db, zDb, SQLITE_FCNTL_MMAP_SIZE, bp+544)
if !(rc == SQLITE_OK) {
goto __119
}
returnSingleInt(tls, v, *(*Sqlite3_int64)(unsafe.Pointer(bp + 544)))
goto __120
__119:
if !(rc != SQLITE_NOTFOUND) {
goto __121
}
(*Parse)(unsafe.Pointer(pParse)).FnErr++
(*Parse)(unsafe.Pointer(pParse)).Frc = rc
__121:
;
__120:
;
goto __15
__28:
if !!(zRight != 0) {
goto __122
}
returnSingleInt(tls, v, int64((*Sqlite3)(unsafe.Pointer(db)).Ftemp_store))
goto __123
__122:
changeTempStorage(tls, pParse, zRight)
__123:
;
goto __15
__29:
Xsqlite3_mutex_enter(tls, Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_VFS1))
if !!(zRight != 0) {
goto __124
}
returnSingleText(tls, v, Xsqlite3_temp_directory)
goto __125
__124:
if !(*(*int8)(unsafe.Pointer(zRight)) != 0) {
goto __126
}
rc = Xsqlite3OsAccess(tls, (*Sqlite3)(unsafe.Pointer(db)).FpVfs, zRight, SQLITE_ACCESS_READWRITE, bp+552)
if !(rc != SQLITE_OK || *(*int32)(unsafe.Pointer(bp + 552)) == 0) {
goto __127
}
Xsqlite3ErrorMsg(tls, pParse, ts+17974, 0)
Xsqlite3_mutex_leave(tls, Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_VFS1))
goto pragma_out
__127:
;
__126:
;
if !(SQLITE_TEMP_STORE == 0 ||
SQLITE_TEMP_STORE == 1 && int32((*Sqlite3)(unsafe.Pointer(db)).Ftemp_store) <= 1 ||
SQLITE_TEMP_STORE == 2 && int32((*Sqlite3)(unsafe.Pointer(db)).Ftemp_store) == 1) {
goto __128
}
invalidateTempStorage(tls, pParse)
__128:
;
Xsqlite3_free(tls, Xsqlite3_temp_directory)
if !(*(*int8)(unsafe.Pointer(zRight)) != 0) {
goto __129
}
Xsqlite3_temp_directory = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp+16, zRight))
goto __130
__129:
Xsqlite3_temp_directory = uintptr(0)
__130:
;
__125:
;
Xsqlite3_mutex_leave(tls, Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_VFS1))
goto __15
__30:
if !!(zRight != 0) {
goto __131
}
pPager2 = Xsqlite3BtreePager(tls, (*Db)(unsafe.Pointer(pDb)).FpBt)
*(*uintptr)(unsafe.Pointer(bp + 560)) = uintptr(0)
pFile = Xsqlite3PagerFile(tls, pPager2)
Xsqlite3OsFileControlHint(tls, pFile, SQLITE_FCNTL_GET_LOCKPROXYFILE,
bp+560)
returnSingleText(tls, v, *(*uintptr)(unsafe.Pointer(bp + 560)))
goto __132
__131:
pPager3 = Xsqlite3BtreePager(tls, (*Db)(unsafe.Pointer(pDb)).FpBt)
pFile1 = Xsqlite3PagerFile(tls, pPager3)
if !(*(*int8)(unsafe.Pointer(zRight)) != 0) {
goto __133
}
res1 = Xsqlite3OsFileControl(tls, pFile1, SQLITE_FCNTL_SET_LOCKPROXYFILE,
zRight)
goto __134
__133:
res1 = Xsqlite3OsFileControl(tls, pFile1, SQLITE_FCNTL_SET_LOCKPROXYFILE,
uintptr(0))
__134:
;
if !(res1 != SQLITE_OK) {
goto __135
}
Xsqlite3ErrorMsg(tls, pParse, ts+17999, 0)
goto pragma_out
__135:
;
__132:
;
goto __15
__31:
if !!(zRight != 0) {
goto __136
}
returnSingleInt(tls, v, int64(int32((*Db)(unsafe.Pointer(pDb)).Fsafety_level)-1))
goto __137
__136:
if !!(int32((*Sqlite3)(unsafe.Pointer(db)).FautoCommit) != 0) {
goto __138
}
Xsqlite3ErrorMsg(tls, pParse,
ts+18029, 0)
goto __139
__138:
if !(iDb != 1) {
goto __140
}
iLevel = (int32(getSafetyLevel(tls, zRight, 0, uint8(1))) + 1) & PAGER_SYNCHRONOUS_MASK
if !(iLevel == 0) {
goto __141
}
iLevel = 1
__141:
;
(*Db)(unsafe.Pointer(pDb)).Fsafety_level = U8(iLevel)
(*Db)(unsafe.Pointer(pDb)).FbSyncSet = U8(1)
setAllPagerFlags(tls, db)
__140:
;
__139:
;
__137:
;
goto __15
__32:
if !(zRight == uintptr(0)) {
goto __142
}
setPragmaResultColumnNames(tls, v, pPragma)
returnSingleInt(tls, v, int64(libc.Bool32((*Sqlite3)(unsafe.Pointer(db)).Fflags&(*PragmaName)(unsafe.Pointer(pPragma)).FiArg != uint64(0))))
goto __143
__142:
mask = (*PragmaName)(unsafe.Pointer(pPragma)).FiArg
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FautoCommit) == 0) {
goto __144
}
mask = mask & libc.Uint64FromInt32(libc.CplInt32(SQLITE_ForeignKeys))
__144:
;
if !(Xsqlite3GetBoolean(tls, zRight, uint8(0)) != 0) {
goto __145
}
*(*U64)(unsafe.Pointer(db + 48)) |= mask
goto __146
__145:
*(*U64)(unsafe.Pointer(db + 48)) &= ^mask
if !(mask == uint64(SQLITE_DeferFKs)) {
goto __147
}
(*Sqlite3)(unsafe.Pointer(db)).FnDeferredImmCons = int64(0)
__147:
;
if !(mask&uint64(SQLITE_WriteSchema) != uint64(0) &&
Xsqlite3_stricmp(tls, zRight, ts+18082) == 0) {
goto __148
}
Xsqlite3ResetAllSchemasOfConnection(tls, db)
__148:
;
__146:
;
Xsqlite3VdbeAddOp0(tls, v, OP_Expire)
setAllPagerFlags(tls, db)
__143:
;
goto __15
__33:
if !(zRight != 0) {
goto __149
}
Xsqlite3CodeVerifyNamedSchema(tls, pParse, zDb)
pTab = Xsqlite3LocateTable(tls, pParse, uint32(LOCATE_NOERR), zRight, zDb)
if !(pTab != 0) {
goto __150
}
nHidden = 0
pPk = Xsqlite3PrimaryKeyIndex(tls, pTab)
(*Parse)(unsafe.Pointer(pParse)).FnMem = 7
Xsqlite3ViewGetColumnNames(tls, pParse, pTab)
i = 0
pCol = (*Table)(unsafe.Pointer(pTab)).FaCol
__151:
if !(i < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __153
}
isHidden = 0
if !(int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_NOINSERT != 0) {
goto __154
}
if !((*PragmaName)(unsafe.Pointer(pPragma)).FiArg == uint64(0)) {
goto __155
}
nHidden++
goto __152
__155:
;
if !(int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_VIRTUAL != 0) {
goto __156
}
isHidden = 2
goto __157
__156:
if !(int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_STORED != 0) {
goto __158
}
isHidden = 3
goto __159
__158:
;
isHidden = 1
__159:
;
__157:
;
__154:
;
if !(int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_PRIMKEY == 0) {
goto __160
}
k = 0
goto __161
__160:
if !(pPk == uintptr(0)) {
goto __162
}
k = 1
goto __163
__162:
k = 1
__164:
if !(k <= int32((*Table)(unsafe.Pointer(pTab)).FnCol) && int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(k-1)*2))) != i) {
goto __166
}
goto __165
__165:
k++
goto __164
goto __166
__166:
;
__163:
;
__161:
;
pColExpr = Xsqlite3ColumnExpr(tls, pTab, pCol)
Xsqlite3VdbeMultiLoad(tls, v, 1, func() uintptr {
if (*PragmaName)(unsafe.Pointer(pPragma)).FiArg != 0 {
return ts + 18088
}
return ts + 18096
}(),
libc.VaList(bp+24, i-nHidden,
(*Column)(unsafe.Pointer(pCol)).FzCnName,
Xsqlite3ColumnType(tls, pCol, ts+1547),
func() int32 {
if uint32(int32(*(*uint8)(unsafe.Pointer(pCol + 8))&0xf>>0)) != 0 {
return 1
}
return 0
}(),
func() uintptr {
if isHidden >= 2 || pColExpr == uintptr(0) {
return uintptr(0)
}
return *(*uintptr)(unsafe.Pointer(pColExpr + 8))
}(),
k,
isHidden))
goto __152
__152:
i++
pCol += 24
goto __151
goto __153
__153:
;
__150:
;
__149:
;
goto __15
__34:
(*Parse)(unsafe.Pointer(pParse)).FnMem = 6
Xsqlite3CodeVerifyNamedSchema(tls, pParse, zDb)
ii4 = 0
__167:
if !(ii4 < (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __169
}
if !(zDb != 0 && Xsqlite3_stricmp(tls, zDb, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(ii4)*32)).FzDbSName) != 0) {
goto __170
}
goto __168
__170:
;
pHash = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(ii4)*32)).FpSchema + 8
initNCol = int32((*Hash)(unsafe.Pointer(pHash)).Fcount)
__171:
if !(libc.PostDecInt32(&initNCol, 1) != 0) {
goto __172
}
k1 = (*Hash)(unsafe.Pointer(pHash)).Ffirst
__173:
if !(1 != 0) {
goto __175
}
if !(k1 == uintptr(0)) {
goto __176
}
initNCol = 0
goto __175
__176:
;
pTab1 = (*HashElem)(unsafe.Pointer(k1)).Fdata
if !(int32((*Table)(unsafe.Pointer(pTab1)).FnCol) == 0) {
goto __177
}
zSql = Xsqlite3MPrintf(tls, db, ts+18103, libc.VaList(bp+80, (*Table)(unsafe.Pointer(pTab1)).FzName))
if !(zSql != 0) {
goto __178
}
*(*uintptr)(unsafe.Pointer(bp + 568)) = uintptr(0)
Xsqlite3_prepare(tls, db, zSql, -1, bp+568, uintptr(0))
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 568)))
Xsqlite3DbFree(tls, db, zSql)
__178:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __179
}
Xsqlite3ErrorMsg(tls, (*Sqlite3)(unsafe.Pointer(db)).FpParse, ts+1483, 0)
(*Parse)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FpParse)).Frc = SQLITE_NOMEM
__179:
;
pHash = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(ii4)*32)).FpSchema + 8
goto __175
__177:
;
goto __174
__174:
k1 = (*HashElem)(unsafe.Pointer(k1)).Fnext
goto __173
goto __175
__175:
;
goto __171
__172:
;
k1 = (*Hash)(unsafe.Pointer(pHash)).Ffirst
__180:
if !(k1 != 0) {
goto __182
}
pTab2 = (*HashElem)(unsafe.Pointer(k1)).Fdata
if !(zRight != 0 && Xsqlite3_stricmp(tls, zRight, (*Table)(unsafe.Pointer(pTab2)).FzName) != 0) {
goto __183
}
goto __181
__183:
;
if !(int32((*Table)(unsafe.Pointer(pTab2)).FeTabType) == TABTYP_VIEW) {
goto __184
}
zType = ts + 10894
goto __185
__184:
if !(int32((*Table)(unsafe.Pointer(pTab2)).FeTabType) == TABTYP_VTAB) {
goto __186
}
zType = ts + 13124
goto __187
__186:
if !((*Table)(unsafe.Pointer(pTab2)).FtabFlags&U32(TF_Shadow) != 0) {
goto __188
}
zType = ts + 18119
goto __189
__188:
zType = ts + 9279
__189:
;
__187:
;
__185:
;
Xsqlite3VdbeMultiLoad(tls, v, 1, ts+18126,
libc.VaList(bp+88, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(ii4)*32)).FzDbSName,
Xsqlite3PreferredTableName(tls, (*Table)(unsafe.Pointer(pTab2)).FzName),
zType,
int32((*Table)(unsafe.Pointer(pTab2)).FnCol),
libc.Bool32((*Table)(unsafe.Pointer(pTab2)).FtabFlags&U32(TF_WithoutRowid) != U32(0)),
libc.Bool32((*Table)(unsafe.Pointer(pTab2)).FtabFlags&U32(TF_Strict) != U32(0))))
goto __181
__181:
k1 = (*HashElem)(unsafe.Pointer(k1)).Fnext
goto __180
goto __182
__182:
;
goto __168
__168:
ii4++
goto __167
goto __169
__169:
;
goto __15
__35:
if !(zRight != 0) {
goto __190
}
pIdx = Xsqlite3FindIndex(tls, db, zRight, zDb)
if !(pIdx == uintptr(0)) {
goto __191
}
pTab3 = Xsqlite3LocateTable(tls, pParse, uint32(LOCATE_NOERR), zRight, zDb)
if !(pTab3 != 0 && !((*Table)(unsafe.Pointer(pTab3)).FtabFlags&U32(TF_WithoutRowid) == U32(0))) {
goto __192
}
pIdx = Xsqlite3PrimaryKeyIndex(tls, pTab3)
__192:
;
__191:
;
if !(pIdx != 0) {
goto __193
}
iIdxDb = Xsqlite3SchemaToIndex(tls, db, (*Index)(unsafe.Pointer(pIdx)).FpSchema)
if !((*PragmaName)(unsafe.Pointer(pPragma)).FiArg != 0) {
goto __194
}
mx = int32((*Index)(unsafe.Pointer(pIdx)).FnColumn)
(*Parse)(unsafe.Pointer(pParse)).FnMem = 6
goto __195
__194:
mx = int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)
(*Parse)(unsafe.Pointer(pParse)).FnMem = 3
__195:
;
pTab3 = (*Index)(unsafe.Pointer(pIdx)).FpTable
Xsqlite3CodeVerifySchema(tls, pParse, iIdxDb)
i1 = 0
__196:
if !(i1 < mx) {
goto __198
}
cnum = *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i1)*2))
Xsqlite3VdbeMultiLoad(tls, v, 1, ts+18133, libc.VaList(bp+136, i1, int32(cnum),
func() uintptr {
if int32(cnum) < 0 {
return uintptr(0)
}
return (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab3)).FaCol + uintptr(cnum)*24)).FzCnName
}()))
if !((*PragmaName)(unsafe.Pointer(pPragma)).FiArg != 0) {
goto __199
}
Xsqlite3VdbeMultiLoad(tls, v, 4, ts+18138,
libc.VaList(bp+160, int32(*(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaSortOrder + uintptr(i1)))),
*(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(i1)*8)),
libc.Bool32(i1 < int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol))))
__199:
;
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, 1, (*Parse)(unsafe.Pointer(pParse)).FnMem)
goto __197
__197:
i1++
goto __196
goto __198
__198:
;
__193:
;
__190:
;
goto __15
__36:
if !(zRight != 0) {
goto __200
}
pTab4 = Xsqlite3FindTable(tls, db, zRight, zDb)
if !(pTab4 != 0) {
goto __201
}
iTabDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab4)).FpSchema)
(*Parse)(unsafe.Pointer(pParse)).FnMem = 5
Xsqlite3CodeVerifySchema(tls, pParse, iTabDb)
pIdx1 = (*Table)(unsafe.Pointer(pTab4)).FpIndex
i2 = 0
__202:
if !(pIdx1 != 0) {
goto __204
}
*(*[3]uintptr)(unsafe.Pointer(bp + 576)) = [3]uintptr{ts + 18143, ts + 18145, ts + 16561}
Xsqlite3VdbeMultiLoad(tls, v, 1, ts+18147,
libc.VaList(bp+184, i2,
(*Index)(unsafe.Pointer(pIdx1)).FzName,
libc.Bool32(int32((*Index)(unsafe.Pointer(pIdx1)).FonError) != OE_None),
*(*uintptr)(unsafe.Pointer(bp + 576 + uintptr(uint32(int32(*(*uint16)(unsafe.Pointer(pIdx1 + 100))&0x3>>0)))*8)),
libc.Bool32((*Index)(unsafe.Pointer(pIdx1)).FpPartIdxWhere != uintptr(0))))
goto __203
__203:
pIdx1 = (*Index)(unsafe.Pointer(pIdx1)).FpNext
i2++
goto __202
goto __204
__204:
;
__201:
;
__200:
;
goto __15
__37:
(*Parse)(unsafe.Pointer(pParse)).FnMem = 3
i3 = 0
__205:
if !(i3 < (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __207
}
if !((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i3)*32)).FpBt == uintptr(0)) {
goto __208
}
goto __206
__208:
;
Xsqlite3VdbeMultiLoad(tls, v, 1, ts+18153,
libc.VaList(bp+224, i3,
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i3)*32)).FzDbSName,
Xsqlite3BtreeGetFilename(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i3)*32)).FpBt)))
goto __206
__206:
i3++
goto __205
goto __207
__207:
;
goto __15
__38:
i4 = 0
(*Parse)(unsafe.Pointer(pParse)).FnMem = 2
p = (*Hash)(unsafe.Pointer(db + 648)).Ffirst
__209:
if !(p != 0) {
goto __211
}
pColl = (*HashElem)(unsafe.Pointer(p)).Fdata
Xsqlite3VdbeMultiLoad(tls, v, 1, ts+18157, libc.VaList(bp+248, libc.PostIncInt32(&i4, 1), (*CollSeq)(unsafe.Pointer(pColl)).FzName))
goto __210
__210:
p = (*HashElem)(unsafe.Pointer(p)).Fnext
goto __209
goto __211
__211:
;
goto __15
__39:
showInternFunc = libc.Bool32((*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_InternalFunc) != U32(0))
(*Parse)(unsafe.Pointer(pParse)).FnMem = 6
i5 = 0
__212:
if !(i5 < SQLITE_FUNC_HASH_SZ) {
goto __214
}
p1 = *(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&Xsqlite3BuiltinFunctions)) + uintptr(i5)*8))
__215:
if !(p1 != 0) {
goto __217
}
pragmaFunclistLine(tls, v, p1, 1, showInternFunc)
goto __216
__216:
p1 = *(*uintptr)(unsafe.Pointer(p1 + 64))
goto __215
goto __217
__217:
;
goto __213
__213:
i5++
goto __212
goto __214
__214:
;
j = (*Hash)(unsafe.Pointer(db + 624)).Ffirst
__218:
if !(j != 0) {
goto __220
}
p1 = (*HashElem)(unsafe.Pointer(j)).Fdata
pragmaFunclistLine(tls, v, p1, 0, showInternFunc)
goto __219
__219:
j = (*HashElem)(unsafe.Pointer(j)).Fnext
goto __218
goto __220
__220:
;
goto __15
__40:
(*Parse)(unsafe.Pointer(pParse)).FnMem = 1
j1 = (*Hash)(unsafe.Pointer(db + 576)).Ffirst
__221:
if !(j1 != 0) {
goto __223
}
pMod = (*HashElem)(unsafe.Pointer(j1)).Fdata
Xsqlite3VdbeMultiLoad(tls, v, 1, ts+7931, libc.VaList(bp+264, (*Module)(unsafe.Pointer(pMod)).FzName))
goto __222
__222:
j1 = (*HashElem)(unsafe.Pointer(j1)).Fnext
goto __221
goto __223
__223:
;
goto __15
__41:
i6 = 0
__224:
if !(i6 < int32(uint64(unsafe.Sizeof(aPragmaName))/uint64(unsafe.Sizeof(PragmaName{})))) {
goto __226
}
Xsqlite3VdbeMultiLoad(tls, v, 1, ts+7931, libc.VaList(bp+272, aPragmaName[i6].FzName))
goto __225
__225:
i6++
goto __224
goto __226
__226:
;
goto __15
__42:
if !(zRight != 0) {
goto __227
}
pTab5 = Xsqlite3FindTable(tls, db, zRight, zDb)
if !(pTab5 != 0 && int32((*Table)(unsafe.Pointer(pTab5)).FeTabType) == TABTYP_NORM) {
goto __228
}
pFK = *(*uintptr)(unsafe.Pointer(pTab5 + 64 + 8))
if !(pFK != 0) {
goto __229
}
iTabDb1 = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab5)).FpSchema)
i7 = 0
(*Parse)(unsafe.Pointer(pParse)).FnMem = 8
Xsqlite3CodeVerifySchema(tls, pParse, iTabDb1)
__230:
if !(pFK != 0) {
goto __231
}
j2 = 0
__232:
if !(j2 < (*FKey)(unsafe.Pointer(pFK)).FnCol) {
goto __234
}
Xsqlite3VdbeMultiLoad(tls, v, 1, ts+18160,
libc.VaList(bp+280, i7,
j2,
(*FKey)(unsafe.Pointer(pFK)).FzTo,
(*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab5)).FaCol+uintptr((*sColMap)(unsafe.Pointer(pFK+64+uintptr(j2)*16)).FiFrom)*24)).FzCnName,
(*sColMap)(unsafe.Pointer(pFK+64+uintptr(j2)*16)).FzCol,
actionName(tls, *(*U8)(unsafe.Pointer(pFK + 45 + 1))),
actionName(tls, *(*U8)(unsafe.Pointer(pFK + 45))),
ts+18169))
goto __233
__233:
j2++
goto __232
goto __234
__234:
;
i7++
pFK = (*FKey)(unsafe.Pointer(pFK)).FpNextFrom
goto __230
__231:
;
__229:
;
__228:
;
__227:
;
goto __15
__43:
regResult = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += 4
regRow = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
k2 = (*Hash)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpSchema + 8)).Ffirst
__235:
if !(k2 != 0) {
goto __236
}
if !(zRight != 0) {
goto __237
}
pTab6 = Xsqlite3LocateTable(tls, pParse, uint32(0), zRight, zDb)
k2 = uintptr(0)
goto __238
__237:
pTab6 = (*HashElem)(unsafe.Pointer(k2)).Fdata
k2 = (*HashElem)(unsafe.Pointer(k2)).Fnext
__238:
;
if !(pTab6 == uintptr(0) || !(int32((*Table)(unsafe.Pointer(pTab6)).FeTabType) == TABTYP_NORM) || *(*uintptr)(unsafe.Pointer(pTab6 + 64 + 8)) == uintptr(0)) {
goto __239
}
goto __235
__239:
;
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab6)).FpSchema)
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
Xsqlite3CodeVerifySchema(tls, pParse, iDb)
Xsqlite3TableLock(tls, pParse, iDb, (*Table)(unsafe.Pointer(pTab6)).Ftnum, uint8(0), (*Table)(unsafe.Pointer(pTab6)).FzName)
if !(int32((*Table)(unsafe.Pointer(pTab6)).FnCol)+regRow > (*Parse)(unsafe.Pointer(pParse)).FnMem) {
goto __240
}
(*Parse)(unsafe.Pointer(pParse)).FnMem = int32((*Table)(unsafe.Pointer(pTab6)).FnCol) + regRow
__240:
;
Xsqlite3OpenTable(tls, pParse, 0, iDb, pTab6, OP_OpenRead)
Xsqlite3VdbeLoadString(tls, v, regResult, (*Table)(unsafe.Pointer(pTab6)).FzName)
i8 = 1
pFK1 = *(*uintptr)(unsafe.Pointer(pTab6 + 64 + 8))
__241:
if !(pFK1 != 0) {
goto __243
}
pParent = Xsqlite3FindTable(tls, db, (*FKey)(unsafe.Pointer(pFK1)).FzTo, zDb)
if !(pParent == uintptr(0)) {
goto __244
}
goto __242
__244:
;
*(*uintptr)(unsafe.Pointer(bp + 600)) = uintptr(0)
Xsqlite3TableLock(tls, pParse, iDb, (*Table)(unsafe.Pointer(pParent)).Ftnum, uint8(0), (*Table)(unsafe.Pointer(pParent)).FzName)
x1 = Xsqlite3FkLocateIndex(tls, pParse, pParent, pFK1, bp+600, uintptr(0))
if !(x1 == 0) {
goto __245
}
if !(*(*uintptr)(unsafe.Pointer(bp + 600)) == uintptr(0)) {
goto __247
}
Xsqlite3OpenTable(tls, pParse, i8, iDb, pParent, OP_OpenRead)
goto __248
__247:
Xsqlite3VdbeAddOp3(tls, v, OP_OpenRead, i8, int32((*Index)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 600)))).Ftnum), iDb)
Xsqlite3VdbeSetP4KeyInfo(tls, pParse, *(*uintptr)(unsafe.Pointer(bp + 600)))
__248:
;
goto __246
__245:
k2 = uintptr(0)
goto __243
__246:
;
goto __242
__242:
i8++
pFK1 = (*FKey)(unsafe.Pointer(pFK1)).FpNextFrom
goto __241
goto __243
__243:
;
if !(pFK1 != 0) {
goto __249
}
goto __236
__249:
;
if !((*Parse)(unsafe.Pointer(pParse)).FnTab < i8) {
goto __250
}
(*Parse)(unsafe.Pointer(pParse)).FnTab = i8
__250:
;
addrTop = Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, 0)
i8 = 1
pFK1 = *(*uintptr)(unsafe.Pointer(pTab6 + 64 + 8))
__251:
if !(pFK1 != 0) {
goto __253
}
pParent = Xsqlite3FindTable(tls, db, (*FKey)(unsafe.Pointer(pFK1)).FzTo, zDb)
*(*uintptr)(unsafe.Pointer(bp + 600)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 608)) = uintptr(0)
if !(pParent != 0) {
goto __254
}
x1 = Xsqlite3FkLocateIndex(tls, pParse, pParent, pFK1, bp+600, bp+608)
__254:
;
addrOk = Xsqlite3VdbeMakeLabel(tls, pParse)
if !(regRow+(*FKey)(unsafe.Pointer(pFK1)).FnCol > (*Parse)(unsafe.Pointer(pParse)).FnMem) {
goto __255
}
(*Parse)(unsafe.Pointer(pParse)).FnMem = regRow + (*FKey)(unsafe.Pointer(pFK1)).FnCol
__255:
;
j3 = 0
__256:
if !(j3 < (*FKey)(unsafe.Pointer(pFK1)).FnCol) {
goto __258
}
if *(*uintptr)(unsafe.Pointer(bp + 608)) != 0 {
iCol = *(*int32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 608)) + uintptr(j3)*4))
} else {
iCol = (*sColMap)(unsafe.Pointer(pFK1 + 64 + uintptr(j3)*16)).FiFrom
}
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab6, 0, iCol, regRow+j3)
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, regRow+j3, addrOk)
goto __257
__257:
j3++
goto __256
goto __258
__258:
;
if !(*(*uintptr)(unsafe.Pointer(bp + 600)) != 0) {
goto __259
}
Xsqlite3VdbeAddOp4(tls, v, OP_Affinity, regRow, (*FKey)(unsafe.Pointer(pFK1)).FnCol, 0,
Xsqlite3IndexAffinityStr(tls, db, *(*uintptr)(unsafe.Pointer(bp + 600))), (*FKey)(unsafe.Pointer(pFK1)).FnCol)
Xsqlite3VdbeAddOp4Int(tls, v, OP_Found, i8, addrOk, regRow, (*FKey)(unsafe.Pointer(pFK1)).FnCol)
goto __260
__259:
if !(pParent != 0) {
goto __261
}
jmp = Xsqlite3VdbeCurrentAddr(tls, v) + 2
Xsqlite3VdbeAddOp3(tls, v, OP_SeekRowid, i8, jmp, regRow)
Xsqlite3VdbeGoto(tls, v, addrOk)
__261:
;
__260:
;
if !((*Table)(unsafe.Pointer(pTab6)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __262
}
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, 0, regResult+1)
goto __263
__262:
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, regResult+1)
__263:
;
Xsqlite3VdbeMultiLoad(tls, v, regResult+2, ts+18174, libc.VaList(bp+344, (*FKey)(unsafe.Pointer(pFK1)).FzTo, i8-1))
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, regResult, 4)
Xsqlite3VdbeResolveLabel(tls, v, addrOk)
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 608)))
goto __252
__252:
i8++
pFK1 = (*FKey)(unsafe.Pointer(pFK1)).FpNextFrom
goto __251
goto __253
__253:
;
Xsqlite3VdbeAddOp2(tls, v, OP_Next, 0, addrTop+1)
Xsqlite3VdbeJumpHere(tls, v, addrTop)
goto __235
__236:
;
goto __15
__44:
if !(zRight != 0) {
goto __264
}
Xsqlite3RegisterLikeFunctions(tls, db, int32(Xsqlite3GetBoolean(tls, zRight, uint8(0))))
__264:
;
goto __15
__45:
pObjTab = uintptr(0)
isQuick = libc.Bool32(int32(Xsqlite3UpperToLower[uint8(*(*int8)(unsafe.Pointer(zLeft)))]) == 'q')
if !((*Token)(unsafe.Pointer(pId2)).Fz == uintptr(0)) {
goto __265
}
iDb = -1
__265:
;
(*Parse)(unsafe.Pointer(pParse)).FnMem = 6
*(*int32)(unsafe.Pointer(bp + 616)) = SQLITE_INTEGRITY_CHECK_ERROR_MAX
if !(zRight != 0) {
goto __266
}
if !(Xsqlite3GetInt32(tls, zRight, bp+616) != 0) {
goto __267
}
if !(*(*int32)(unsafe.Pointer(bp + 616)) <= 0) {
goto __269
}
*(*int32)(unsafe.Pointer(bp + 616)) = SQLITE_INTEGRITY_CHECK_ERROR_MAX
__269:
;
goto __268
__267:
pObjTab = Xsqlite3LocateTable(tls, pParse, uint32(0), zRight,
func() uintptr {
if iDb >= 0 {
return (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
}
return uintptr(0)
}())
__268:
;
__266:
;
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, *(*int32)(unsafe.Pointer(bp + 616))-1, 1)
i9 = 0
__270:
if !(i9 < (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __272
}
cnt = 0
mxIdx = 0
if !(0 != 0 && i9 == 1) {
goto __273
}
goto __271
__273:
;
if !(iDb >= 0 && i9 != iDb) {
goto __274
}
goto __271
__274:
;
Xsqlite3CodeVerifySchema(tls, pParse, i9)
pTbls = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i9)*32)).FpSchema + 8
cnt = 0
x2 = (*Hash)(unsafe.Pointer(pTbls)).Ffirst
__275:
if !(x2 != 0) {
goto __277
}
pTab7 = (*HashElem)(unsafe.Pointer(x2)).Fdata
if !(pObjTab != 0 && pObjTab != pTab7) {
goto __278
}
goto __276
__278:
;
if !((*Table)(unsafe.Pointer(pTab7)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __279
}
cnt++
__279:
;
nIdx = 0
pIdx3 = (*Table)(unsafe.Pointer(pTab7)).FpIndex
__280:
if !(pIdx3 != 0) {
goto __282
}
cnt++
goto __281
__281:
pIdx3 = (*Index)(unsafe.Pointer(pIdx3)).FpNext
nIdx++
goto __280
goto __282
__282:
;
if !(nIdx > mxIdx) {
goto __283
}
mxIdx = nIdx
__283:
;
goto __276
__276:
x2 = (*HashElem)(unsafe.Pointer(x2)).Fnext
goto __275
goto __277
__277:
;
if !(cnt == 0) {
goto __284
}
goto __271
__284:
;
if !(pObjTab != 0) {
goto __285
}
cnt++
__285:
;
aRoot = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(int32(0)))*uint64(cnt+1))
if !(aRoot == uintptr(0)) {
goto __286
}
goto __272
__286:
;
cnt = 0
if !(pObjTab != 0) {
goto __287
}
*(*int32)(unsafe.Pointer(aRoot + uintptr(libc.PreIncInt32(&cnt, 1))*4)) = 0
__287:
;
x2 = (*Hash)(unsafe.Pointer(pTbls)).Ffirst
__288:
if !(x2 != 0) {
goto __290
}
pTab8 = (*HashElem)(unsafe.Pointer(x2)).Fdata
if !(pObjTab != 0 && pObjTab != pTab8) {
goto __291
}
goto __289
__291:
;
if !((*Table)(unsafe.Pointer(pTab8)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __292
}
*(*int32)(unsafe.Pointer(aRoot + uintptr(libc.PreIncInt32(&cnt, 1))*4)) = int32((*Table)(unsafe.Pointer(pTab8)).Ftnum)
__292:
;
pIdx4 = (*Table)(unsafe.Pointer(pTab8)).FpIndex
__293:
if !(pIdx4 != 0) {
goto __295
}
*(*int32)(unsafe.Pointer(aRoot + uintptr(libc.PreIncInt32(&cnt, 1))*4)) = int32((*Index)(unsafe.Pointer(pIdx4)).Ftnum)
goto __294
__294:
pIdx4 = (*Index)(unsafe.Pointer(pIdx4)).FpNext
goto __293
goto __295
__295:
;
goto __289
__289:
x2 = (*HashElem)(unsafe.Pointer(x2)).Fnext
goto __288
goto __290
__290:
;
*(*int32)(unsafe.Pointer(aRoot)) = cnt
(*Parse)(unsafe.Pointer(pParse)).FnMem = func() int32 {
if (*Parse)(unsafe.Pointer(pParse)).FnMem > 8+mxIdx {
return (*Parse)(unsafe.Pointer(pParse)).FnMem
}
return 8 + mxIdx
}()
Xsqlite3ClearTempRegCache(tls, pParse)
Xsqlite3VdbeAddOp4(tls, v, OP_IntegrityCk, 2, cnt, 1, aRoot, -14)
Xsqlite3VdbeChangeP5(tls, v, uint16(U8(i9)))
addr1 = Xsqlite3VdbeAddOp1(tls, v, OP_IsNull, 2)
Xsqlite3VdbeAddOp4(tls, v, OP_String8, 0, 3, 0,
Xsqlite3MPrintf(tls, db, ts+18178, libc.VaList(bp+360, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i9)*32)).FzDbSName)),
-6)
Xsqlite3VdbeAddOp3(tls, v, OP_Concat, 2, 3, 3)
integrityCheckResultRow(tls, v)
Xsqlite3VdbeJumpHere(tls, v, addr1)
x2 = (*Hash)(unsafe.Pointer(pTbls)).Ffirst
__296:
if !(x2 != 0) {
goto __298
}
pTab9 = (*HashElem)(unsafe.Pointer(x2)).Fdata
pPrior = uintptr(0)
r1 = -1
if !!(int32((*Table)(unsafe.Pointer(pTab9)).FeTabType) == TABTYP_NORM) {
goto __299
}
goto __297
__299:
;
if !(pObjTab != 0 && pObjTab != pTab9) {
goto __300
}
goto __297
__300:
;
if !(isQuick != 0 || (*Table)(unsafe.Pointer(pTab9)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __301
}
pPk1 = uintptr(0)
r2 = 0
goto __302
__301:
pPk1 = Xsqlite3PrimaryKeyIndex(tls, pTab9)
r2 = Xsqlite3GetTempRange(tls, pParse, int32((*Index)(unsafe.Pointer(pPk1)).FnKeyCol))
Xsqlite3VdbeAddOp3(tls, v, OP_Null, 1, r2, r2+int32((*Index)(unsafe.Pointer(pPk1)).FnKeyCol)-1)
__302:
;
Xsqlite3OpenTableAndIndices(tls, pParse, pTab9, OP_OpenRead, uint8(0),
1, uintptr(0), bp+620, bp+624)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, 7)
j4 = 0
pIdx5 = (*Table)(unsafe.Pointer(pTab9)).FpIndex
__303:
if !(pIdx5 != 0) {
goto __305
}
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, 8+j4)
goto __304
__304:
pIdx5 = (*Index)(unsafe.Pointer(pIdx5)).FpNext
j4++
goto __303
goto __305
__305:
;
Xsqlite3VdbeAddOp2(tls, v, OP_Rewind, *(*int32)(unsafe.Pointer(bp + 620)), 0)
loopTop = Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, 7, 1)
if !((*Table)(unsafe.Pointer(pTab9)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __306
}
mxCol = -1
j4 = 0
__308:
if !(j4 < int32((*Table)(unsafe.Pointer(pTab9)).FnCol)) {
goto __310
}
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab9)).FaCol+uintptr(j4)*24)).FcolFlags)&COLFLAG_VIRTUAL == 0) {
goto __311
}
mxCol++
__311:
;
goto __309
__309:
j4++
goto __308
goto __310
__310:
;
if !(mxCol == int32((*Table)(unsafe.Pointer(pTab9)).FiPKey)) {
goto __312
}
mxCol--
__312:
;
goto __307
__306:
mxCol = int32((*Index)(unsafe.Pointer(Xsqlite3PrimaryKeyIndex(tls, pTab9))).FnColumn) - 1
__307:
;
if !(mxCol >= 0) {
goto __313
}
Xsqlite3VdbeAddOp3(tls, v, OP_Column, *(*int32)(unsafe.Pointer(bp + 620)), mxCol, 3)
Xsqlite3VdbeTypeofColumn(tls, v, 3)
__313:
;
if !!(isQuick != 0) {
goto __314
}
if !(pPk1 != 0) {
goto __315
}
a1 = Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxGT, *(*int32)(unsafe.Pointer(bp + 620)), 0, r2, int32((*Index)(unsafe.Pointer(pPk1)).FnKeyCol))
Xsqlite3VdbeAddOp1(tls, v, OP_IsNull, r2)
zErr = Xsqlite3MPrintf(tls, db,
ts+18202,
libc.VaList(bp+368, (*Table)(unsafe.Pointer(pTab9)).FzName))
Xsqlite3VdbeAddOp4(tls, v, OP_String8, 0, 3, 0, zErr, -6)
integrityCheckResultRow(tls, v)
Xsqlite3VdbeJumpHere(tls, v, a1)
Xsqlite3VdbeJumpHere(tls, v, a1+1)
j4 = 0
__316:
if !(j4 < int32((*Index)(unsafe.Pointer(pPk1)).FnKeyCol)) {
goto __318
}
Xsqlite3ExprCodeLoadIndexColumn(tls, pParse, pPk1, *(*int32)(unsafe.Pointer(bp + 620)), j4, r2+j4)
goto __317
__317:
j4++
goto __316
goto __318
__318:
;
__315:
;
__314:
;
bStrict = libc.Bool32((*Table)(unsafe.Pointer(pTab9)).FtabFlags&U32(TF_Strict) != U32(0))
j4 = 0
__319:
if !(j4 < int32((*Table)(unsafe.Pointer(pTab9)).FnCol)) {
goto __321
}
pCol1 = (*Table)(unsafe.Pointer(pTab9)).FaCol + uintptr(j4)*24
if !(j4 == int32((*Table)(unsafe.Pointer(pTab9)).FiPKey)) {
goto __322
}
goto __320
__322:
;
if !(bStrict != 0) {
goto __323
}
doTypeCheck = libc.Bool32(int32(*(*uint8)(unsafe.Pointer(pCol1 + 8))&0xf0>>4) > COLTYPE_ANY)
goto __324
__323:
doTypeCheck = libc.Bool32(int32((*Column)(unsafe.Pointer(pCol1)).Faffinity) > SQLITE_AFF_BLOB)
__324:
;
if !(int32(*(*uint8)(unsafe.Pointer(pCol1 + 8))&0xf>>0) == 0 && !(doTypeCheck != 0)) {
goto __325
}
goto __320
__325:
;
p4 = SQLITE_NULL
if !(int32((*Column)(unsafe.Pointer(pCol1)).FcolFlags)&COLFLAG_VIRTUAL != 0) {
goto __326
}
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab9, *(*int32)(unsafe.Pointer(bp + 620)), j4, 3)
p11 = -1
p3 = 3
goto __327
__326:
if !((*Column)(unsafe.Pointer(pCol1)).FiDflt != 0) {
goto __328
}
*(*uintptr)(unsafe.Pointer(bp + 632)) = uintptr(0)
Xsqlite3ValueFromExpr(tls, db, Xsqlite3ColumnExpr(tls, pTab9, pCol1), (*Sqlite3)(unsafe.Pointer(db)).Fenc,
uint8((*Column)(unsafe.Pointer(pCol1)).Faffinity), bp+632)
if !(*(*uintptr)(unsafe.Pointer(bp + 632)) != 0) {
goto __329
}
p4 = Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(bp + 632)))
Xsqlite3ValueFree(tls, *(*uintptr)(unsafe.Pointer(bp + 632)))
__329:
;
__328:
;
p11 = *(*int32)(unsafe.Pointer(bp + 620))
if !!((*Table)(unsafe.Pointer(pTab9)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __330
}
p3 = int32(Xsqlite3TableColumnToIndex(tls, Xsqlite3PrimaryKeyIndex(tls, pTab9), int16(j4)))
goto __331
__330:
p3 = int32(Xsqlite3TableColumnToStorage(tls, pTab9, int16(j4)))
__331:
;
__327:
;
labelError = Xsqlite3VdbeMakeLabel(tls, pParse)
labelOk = Xsqlite3VdbeMakeLabel(tls, pParse)
if !(uint32(int32(*(*uint8)(unsafe.Pointer(pCol1 + 8))&0xf>>0)) != 0) {
goto __332
}
jmp2 = Xsqlite3VdbeAddOp4Int(tls, v, OP_IsType, p11, labelOk, p3, p4)
Xsqlite3VdbeChangeP5(tls, v, uint16(0x0f))
zErr1 = Xsqlite3MPrintf(tls, db, ts+18238, libc.VaList(bp+376, (*Table)(unsafe.Pointer(pTab9)).FzName,
(*Column)(unsafe.Pointer(pCol1)).FzCnName))
Xsqlite3VdbeAddOp4(tls, v, OP_String8, 0, 3, 0, zErr1, -6)
if !(doTypeCheck != 0) {
goto __333
}
Xsqlite3VdbeGoto(tls, v, labelError)
Xsqlite3VdbeJumpHere(tls, v, jmp2)
goto __334
__333:
;
__334:
;
__332:
;
if !(bStrict != 0 && doTypeCheck != 0) {
goto __335
}
Xsqlite3VdbeAddOp4Int(tls, v, OP_IsType, p11, labelOk, p3, p4)
Xsqlite3VdbeChangeP5(tls, v, uint16(aStdTypeMask[(int32(*(*uint8)(unsafe.Pointer(pCol1 + 8))&0xf0>>4)-1)&0xf<<28>>28]))
zErr1 = Xsqlite3MPrintf(tls, db, ts+18258,
libc.VaList(bp+392, Xsqlite3StdType[(int32(*(*uint8)(unsafe.Pointer(pCol1 + 8))&0xf0>>4)-1)&0xf<<28>>28],
(*Table)(unsafe.Pointer(pTab9)).FzName, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab9)).FaCol+uintptr(j4)*24)).FzCnName))
Xsqlite3VdbeAddOp4(tls, v, OP_String8, 0, 3, 0, zErr1, -6)
goto __336
__335:
if !(!(bStrict != 0) && int32((*Column)(unsafe.Pointer(pCol1)).Faffinity) == SQLITE_AFF_TEXT) {
goto __337
}
Xsqlite3VdbeAddOp4Int(tls, v, OP_IsType, p11, labelOk, p3, p4)
Xsqlite3VdbeChangeP5(tls, v, uint16(0x1c))
zErr1 = Xsqlite3MPrintf(tls, db, ts+18280,
libc.VaList(bp+416, (*Table)(unsafe.Pointer(pTab9)).FzName, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab9)).FaCol+uintptr(j4)*24)).FzCnName))
Xsqlite3VdbeAddOp4(tls, v, OP_String8, 0, 3, 0, zErr1, -6)
goto __338
__337:
if !(!(bStrict != 0) && int32((*Column)(unsafe.Pointer(pCol1)).Faffinity) >= SQLITE_AFF_NUMERIC) {
goto __339
}
Xsqlite3VdbeAddOp4Int(tls, v, OP_IsType, p11, labelOk, p3, p4)
Xsqlite3VdbeChangeP5(tls, v, uint16(0x1b))
if !(p11 >= 0) {
goto __340
}
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab9, *(*int32)(unsafe.Pointer(bp + 620)), j4, 3)
__340:
;
Xsqlite3VdbeAddOp4(tls, v, OP_Affinity, 3, 1, 0, ts+18303, -1)
Xsqlite3VdbeAddOp4Int(tls, v, OP_IsType, -1, labelOk, 3, p4)
Xsqlite3VdbeChangeP5(tls, v, uint16(0x1c))
zErr1 = Xsqlite3MPrintf(tls, db, ts+18305,
libc.VaList(bp+432, (*Table)(unsafe.Pointer(pTab9)).FzName, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab9)).FaCol+uintptr(j4)*24)).FzCnName))
Xsqlite3VdbeAddOp4(tls, v, OP_String8, 0, 3, 0, zErr1, -6)
__339:
;
__338:
;
__336:
;
Xsqlite3VdbeResolveLabel(tls, v, labelError)
integrityCheckResultRow(tls, v)
Xsqlite3VdbeResolveLabel(tls, v, labelOk)
goto __320
__320:
j4++
goto __319
goto __321
__321:
;
if !((*Table)(unsafe.Pointer(pTab9)).FpCheck != 0 && (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_IgnoreChecks) == uint64(0)) {
goto __341
}
pCheck = Xsqlite3ExprListDup(tls, db, (*Table)(unsafe.Pointer(pTab9)).FpCheck, 0)
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0) {
goto __342
}
addrCkFault = Xsqlite3VdbeMakeLabel(tls, pParse)
addrCkOk = Xsqlite3VdbeMakeLabel(tls, pParse)
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = *(*int32)(unsafe.Pointer(bp + 620)) + 1
k3 = (*ExprList)(unsafe.Pointer(pCheck)).FnExpr - 1
__343:
if !(k3 > 0) {
goto __345
}
Xsqlite3ExprIfFalse(tls, pParse, (*ExprList_item)(unsafe.Pointer(pCheck+8+uintptr(k3)*32)).FpExpr, addrCkFault, 0)
goto __344
__344:
k3--
goto __343
goto __345
__345:
;
Xsqlite3ExprIfTrue(tls, pParse, (*ExprList_item)(unsafe.Pointer(pCheck+8)).FpExpr, addrCkOk,
SQLITE_JUMPIFNULL)
Xsqlite3VdbeResolveLabel(tls, v, addrCkFault)
(*Parse)(unsafe.Pointer(pParse)).FiSelfTab = 0
zErr2 = Xsqlite3MPrintf(tls, db, ts+18325,
libc.VaList(bp+448, (*Table)(unsafe.Pointer(pTab9)).FzName))
Xsqlite3VdbeAddOp4(tls, v, OP_String8, 0, 3, 0, zErr2, -6)
integrityCheckResultRow(tls, v)
Xsqlite3VdbeResolveLabel(tls, v, addrCkOk)
__342:
;
Xsqlite3ExprListDelete(tls, db, pCheck)
__341:
;
if !!(isQuick != 0) {
goto __346
}
j4 = 0
pIdx5 = (*Table)(unsafe.Pointer(pTab9)).FpIndex
__347:
if !(pIdx5 != 0) {
goto __349
}
ckUniq = Xsqlite3VdbeMakeLabel(tls, pParse)
if !(pPk1 == pIdx5) {
goto __350
}
goto __348
__350:
;
r1 = Xsqlite3GenerateIndexKey(tls, pParse, pIdx5, *(*int32)(unsafe.Pointer(bp + 620)), 0, 0, bp+640,
pPrior, r1)
pPrior = pIdx5
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, 8+j4, 1)
jmp21 = Xsqlite3VdbeAddOp4Int(tls, v, OP_Found, *(*int32)(unsafe.Pointer(bp + 624))+j4, ckUniq, r1,
int32((*Index)(unsafe.Pointer(pIdx5)).FnColumn))
Xsqlite3VdbeLoadString(tls, v, 3, ts+18355)
Xsqlite3VdbeAddOp3(tls, v, OP_Concat, 7, 3, 3)
Xsqlite3VdbeLoadString(tls, v, 4, ts+18360)
Xsqlite3VdbeAddOp3(tls, v, OP_Concat, 4, 3, 3)
jmp5 = Xsqlite3VdbeLoadString(tls, v, 4, (*Index)(unsafe.Pointer(pIdx5)).FzName)
Xsqlite3VdbeAddOp3(tls, v, OP_Concat, 4, 3, 3)
jmp4 = integrityCheckResultRow(tls, v)
Xsqlite3VdbeJumpHere(tls, v, jmp21)
label6 = 0
kk = 0
__351:
if !(kk < int32((*Index)(unsafe.Pointer(pIdx5)).FnKeyCol)) {
goto __353
}
if !(*(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx5)).FazColl + uintptr(kk)*8)) == uintptr(unsafe.Pointer(&Xsqlite3StrBINARY))) {
goto __354
}
goto __352
__354:
;
if !(label6 == 0) {
goto __355
}
label6 = Xsqlite3VdbeMakeLabel(tls, pParse)
__355:
;
Xsqlite3VdbeAddOp3(tls, v, OP_Column, *(*int32)(unsafe.Pointer(bp + 624))+j4, kk, 3)
Xsqlite3VdbeAddOp3(tls, v, OP_Ne, 3, label6, r1+kk)
goto __352
__352:
kk++
goto __351
goto __353
__353:
;
if !(label6 != 0) {
goto __356
}
jmp6 = Xsqlite3VdbeAddOp0(tls, v, OP_Goto)
Xsqlite3VdbeResolveLabel(tls, v, label6)
Xsqlite3VdbeLoadString(tls, v, 3, ts+18355)
Xsqlite3VdbeAddOp3(tls, v, OP_Concat, 7, 3, 3)
Xsqlite3VdbeLoadString(tls, v, 4, ts+18381)
Xsqlite3VdbeGoto(tls, v, jmp5-1)
Xsqlite3VdbeJumpHere(tls, v, jmp6)
__356:
;
if !(int32((*Index)(unsafe.Pointer(pIdx5)).FonError) != OE_None) {
goto __357
}
uniqOk = Xsqlite3VdbeMakeLabel(tls, pParse)
kk = 0
__358:
if !(kk < int32((*Index)(unsafe.Pointer(pIdx5)).FnKeyCol)) {
goto __360
}
iCol1 = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx5)).FaiColumn + uintptr(kk)*2)))
if !(iCol1 >= 0 && uint32(int32(*(*uint8)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab9)).FaCol + uintptr(iCol1)*24 + 8))&0xf>>0)) != 0) {
goto __361
}
goto __359
__361:
;
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, r1+kk, uniqOk)
goto __359
__359:
kk++
goto __358
goto __360
__360:
;
jmp61 = Xsqlite3VdbeAddOp1(tls, v, OP_Next, *(*int32)(unsafe.Pointer(bp + 624))+j4)
Xsqlite3VdbeGoto(tls, v, uniqOk)
Xsqlite3VdbeJumpHere(tls, v, jmp61)
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxGT, *(*int32)(unsafe.Pointer(bp + 624))+j4, uniqOk, r1,
int32((*Index)(unsafe.Pointer(pIdx5)).FnKeyCol))
Xsqlite3VdbeLoadString(tls, v, 3, ts+18408)
Xsqlite3VdbeGoto(tls, v, jmp5)
Xsqlite3VdbeResolveLabel(tls, v, uniqOk)
__357:
;
Xsqlite3VdbeJumpHere(tls, v, jmp4)
Xsqlite3ResolvePartIdxLabel(tls, pParse, *(*int32)(unsafe.Pointer(bp + 640)))
goto __348
__348:
pIdx5 = (*Index)(unsafe.Pointer(pIdx5)).FpNext
j4++
goto __347
goto __349
__349:
;
__346:
;
Xsqlite3VdbeAddOp2(tls, v, OP_Next, *(*int32)(unsafe.Pointer(bp + 620)), loopTop)
Xsqlite3VdbeJumpHere(tls, v, loopTop-1)
if !!(isQuick != 0) {
goto __362
}
Xsqlite3VdbeLoadString(tls, v, 2, ts+18435)
j4 = 0
pIdx5 = (*Table)(unsafe.Pointer(pTab9)).FpIndex
__363:
if !(pIdx5 != 0) {
goto __365
}
if !(pPk1 == pIdx5) {
goto __366
}
goto __364
__366:
;
Xsqlite3VdbeAddOp2(tls, v, OP_Count, *(*int32)(unsafe.Pointer(bp + 624))+j4, 3)
addr1 = Xsqlite3VdbeAddOp3(tls, v, OP_Eq, 8+j4, 0, 3)
Xsqlite3VdbeChangeP5(tls, v, uint16(SQLITE_NOTNULL))
Xsqlite3VdbeLoadString(tls, v, 4, (*Index)(unsafe.Pointer(pIdx5)).FzName)
Xsqlite3VdbeAddOp3(tls, v, OP_Concat, 4, 2, 3)
integrityCheckResultRow(tls, v)
Xsqlite3VdbeJumpHere(tls, v, addr1)
goto __364
__364:
pIdx5 = (*Index)(unsafe.Pointer(pIdx5)).FpNext
j4++
goto __363
goto __365
__365:
;
if !(pPk1 != 0) {
goto __367
}
Xsqlite3ReleaseTempRange(tls, pParse, r2, int32((*Index)(unsafe.Pointer(pPk1)).FnKeyCol))
__367:
;
__362:
;
goto __297
__297:
x2 = (*HashElem)(unsafe.Pointer(x2)).Fnext
goto __296
goto __298
__298:
;
goto __271
__271:
i9++
goto __270
goto __272
__272:
;
aOp2 = Xsqlite3VdbeAddOpList(tls, v, int32(uint64(unsafe.Sizeof(endCode))/uint64(unsafe.Sizeof(VdbeOpList{}))), uintptr(unsafe.Pointer(&endCode)), iLn5)
if !(aOp2 != 0) {
goto __368
}
(*VdbeOp)(unsafe.Pointer(aOp2)).Fp2 = 1 - *(*int32)(unsafe.Pointer(bp + 616))
(*VdbeOp)(unsafe.Pointer(aOp2 + 2*24)).Fp4type = int8(-1)
*(*uintptr)(unsafe.Pointer(aOp2 + 2*24 + 16)) = ts + 18464
(*VdbeOp)(unsafe.Pointer(aOp2 + 5*24)).Fp4type = int8(-1)
*(*uintptr)(unsafe.Pointer(aOp2 + 5*24 + 16)) = Xsqlite3ErrStr(tls, SQLITE_CORRUPT)
__368:
;
Xsqlite3VdbeChangeP3(tls, v, 0, Xsqlite3VdbeCurrentAddr(tls, v)-2)
goto __15
__46:
if !!(zRight != 0) {
goto __369
}
if !(Xsqlite3ReadSchema(tls, pParse) != 0) {
goto __371
}
goto pragma_out
__371:
;
returnSingleText(tls, v, encnames1[(*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Fenc].FzName)
goto __370
__369:
if !((*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_EncodingFixed) == U32(0)) {
goto __372
}
pEnc = uintptr(unsafe.Pointer(&encnames1))
__373:
if !((*EncName)(unsafe.Pointer(pEnc)).FzName != 0) {
goto __375
}
if !(0 == Xsqlite3StrICmp(tls, zRight, (*EncName)(unsafe.Pointer(pEnc)).FzName)) {
goto __376
}
if (*EncName)(unsafe.Pointer(pEnc)).Fenc != 0 {
enc = (*EncName)(unsafe.Pointer(pEnc)).Fenc
} else {
enc = uint8(SQLITE_UTF16LE)
}
(*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpSchema)).Fenc = enc
Xsqlite3SetTextEncoding(tls, db, enc)
goto __375
__376:
;
goto __374
__374:
pEnc += 16
goto __373
goto __375
__375:
;
if !!(int32((*EncName)(unsafe.Pointer(pEnc)).FzName) != 0) {
goto __377
}
Xsqlite3ErrorMsg(tls, pParse, ts+18467, libc.VaList(bp+456, zRight))
__377:
;
__372:
;
__370:
;
goto __15
__47:
iCookie = int32((*PragmaName)(unsafe.Pointer(pPragma)).FiArg)
Xsqlite3VdbeUsesBtree(tls, v, iDb)
if !(zRight != 0 && int32((*PragmaName)(unsafe.Pointer(pPragma)).FmPragFlg)&PragFlg_ReadOnly == 0) {
goto __378
}
aOp3 = Xsqlite3VdbeAddOpList(tls, v, int32(uint64(unsafe.Sizeof(setCookie))/uint64(unsafe.Sizeof(VdbeOpList{}))), uintptr(unsafe.Pointer(&setCookie)), 0)
if !(0 != 0) {
goto __380
}
goto __15
__380:
;
(*VdbeOp)(unsafe.Pointer(aOp3)).Fp1 = iDb
(*VdbeOp)(unsafe.Pointer(aOp3 + 1*24)).Fp1 = iDb
(*VdbeOp)(unsafe.Pointer(aOp3 + 1*24)).Fp2 = iCookie
(*VdbeOp)(unsafe.Pointer(aOp3 + 1*24)).Fp3 = Xsqlite3Atoi(tls, zRight)
(*VdbeOp)(unsafe.Pointer(aOp3 + 1*24)).Fp5 = U16(1)
if !(iCookie == BTREE_SCHEMA_VERSION && (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_Defensive) != uint64(0)) {
goto __381
}
(*VdbeOp)(unsafe.Pointer(aOp3 + 1*24)).Fopcode = U8(OP_Noop)
__381:
;
goto __379
__378:
;
aOp4 = Xsqlite3VdbeAddOpList(tls, v, int32(uint64(unsafe.Sizeof(readCookie))/uint64(unsafe.Sizeof(VdbeOpList{}))), uintptr(unsafe.Pointer(&readCookie)), 0)
if !(0 != 0) {
goto __382
}
goto __15
__382:
;
(*VdbeOp)(unsafe.Pointer(aOp4)).Fp1 = iDb
(*VdbeOp)(unsafe.Pointer(aOp4 + 1*24)).Fp1 = iDb
(*VdbeOp)(unsafe.Pointer(aOp4 + 1*24)).Fp3 = iCookie
Xsqlite3VdbeReusable(tls, v)
__379:
;
goto __15
__48:
i10 = 0
(*Parse)(unsafe.Pointer(pParse)).FnMem = 1
__383:
if !(libc.AssignUintptr(&zOpt, Xsqlite3_compileoption_get(tls, libc.PostIncInt32(&i10, 1))) != uintptr(0)) {
goto __384
}
Xsqlite3VdbeLoadString(tls, v, 1, zOpt)
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, 1, 1)
goto __383
__384:
;
Xsqlite3VdbeReusable(tls, v)
goto __15
__49:
iBt = func() int32 {
if (*Token)(unsafe.Pointer(pId2)).Fz != 0 {
return iDb
}
return SQLITE_MAX_ATTACHED + 2
}()
eMode2 = SQLITE_CHECKPOINT_PASSIVE
if !(zRight != 0) {
goto __385
}
if !(Xsqlite3StrICmp(tls, zRight, ts+17767) == 0) {
goto __386
}
eMode2 = SQLITE_CHECKPOINT_FULL
goto __387
__386:
if !(Xsqlite3StrICmp(tls, zRight, ts+18492) == 0) {
goto __388
}
eMode2 = SQLITE_CHECKPOINT_RESTART
goto __389
__388:
if !(Xsqlite3StrICmp(tls, zRight, ts+17920) == 0) {
goto __390
}
eMode2 = SQLITE_CHECKPOINT_TRUNCATE
__390:
;
__389:
;
__387:
;
__385:
;
(*Parse)(unsafe.Pointer(pParse)).FnMem = 3
Xsqlite3VdbeAddOp3(tls, v, OP_Checkpoint, iBt, eMode2, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, 1, 3)
goto __15
__50:
if !(zRight != 0) {
goto __391
}
Xsqlite3_wal_autocheckpoint(tls, db, Xsqlite3Atoi(tls, zRight))
__391:
;
returnSingleInt(tls, v,
func() int64 {
if (*Sqlite3)(unsafe.Pointer(db)).FxWalCallback == *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32) int32
}{Xsqlite3WalDefaultHook})) {
return int64(int32((*Sqlite3)(unsafe.Pointer(db)).FpWalArg))
}
return int64(0)
}())
goto __15
__51:
Xsqlite3_db_release_memory(tls, db)
goto __15
__52:
if !(zRight != 0) {
goto __392
}
opMask = U32(Xsqlite3Atoi(tls, zRight))
if !(opMask&U32(0x02) == U32(0)) {
goto __394
}
goto __15
__394:
;
goto __393
__392:
opMask = U32(0xfffe)
__393:
;
iTabCur = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
iDbLast = func() int32 {
if zDb != 0 {
return iDb
}
return (*Sqlite3)(unsafe.Pointer(db)).FnDb - 1
}()
__395:
if !(iDb <= iDbLast) {
goto __397
}
if !(iDb == 1) {
goto __398
}
goto __396
__398:
;
Xsqlite3CodeVerifySchema(tls, pParse, iDb)
pSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpSchema
k4 = (*Hash)(unsafe.Pointer(pSchema + 8)).Ffirst
__399:
if !(k4 != 0) {
goto __401
}
pTab10 = (*HashElem)(unsafe.Pointer(k4)).Fdata
if !((*Table)(unsafe.Pointer(pTab10)).FtabFlags&U32(TF_StatsUsed) == U32(0)) {
goto __402
}
goto __400
__402:
;
szThreshold = LogEst(int32((*Table)(unsafe.Pointer(pTab10)).FnRowLogEst) + 46)
pIdx6 = (*Table)(unsafe.Pointer(pTab10)).FpIndex
__403:
if !(pIdx6 != 0) {
goto __405
}
if !!(int32(*(*uint16)(unsafe.Pointer(pIdx6 + 100))&0x80>>7) != 0) {
goto __406
}
szThreshold = int16(0)
goto __405
__406:
;
goto __404
__404:
pIdx6 = (*Index)(unsafe.Pointer(pIdx6)).FpNext
goto __403
goto __405
__405:
;
if !(szThreshold != 0) {
goto __407
}
Xsqlite3OpenTable(tls, pParse, iTabCur, iDb, pTab10, OP_OpenRead)
Xsqlite3VdbeAddOp3(tls, v, OP_IfSmaller, iTabCur,
int32(U32(Xsqlite3VdbeCurrentAddr(tls, v)+2)+opMask&U32(1)), int32(szThreshold))
__407:
;
zSubSql = Xsqlite3MPrintf(tls, db, ts+18500,
libc.VaList(bp+464, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName, (*Table)(unsafe.Pointer(pTab10)).FzName))
if !(opMask&U32(0x01) != 0) {
goto __408
}
r11 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp4(tls, v, OP_String8, 0, r11, 0, zSubSql, -6)
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, r11, 1)
goto __409
__408:
Xsqlite3VdbeAddOp4(tls, v, OP_SqlExec, 0, 0, 0, zSubSql, -6)
__409:
;
goto __400
__400:
k4 = (*HashElem)(unsafe.Pointer(k4)).Fnext
goto __399
goto __401
__401:
;
goto __396
__396:
iDb++
goto __395
goto __397
__397:
;
Xsqlite3VdbeAddOp0(tls, v, OP_Expire)
goto __15
__53:
;
if !(zRight != 0) {
goto __410
}
Xsqlite3_busy_timeout(tls, db, Xsqlite3Atoi(tls, zRight))
__410:
;
returnSingleInt(tls, v, int64((*Sqlite3)(unsafe.Pointer(db)).FbusyTimeout))
goto __15
__54:
if !(zRight != 0 && Xsqlite3DecOrHexToI64(tls, zRight, bp+648) == SQLITE_OK) {
goto __411
}
Xsqlite3_soft_heap_limit64(tls, *(*Sqlite3_int64)(unsafe.Pointer(bp + 648)))
__411:
;
returnSingleInt(tls, v, Xsqlite3_soft_heap_limit64(tls, int64(-1)))
goto __15
__55:
if !(zRight != 0 && Xsqlite3DecOrHexToI64(tls, zRight, bp+656) == SQLITE_OK) {
goto __412
}
iPrior = Xsqlite3_hard_heap_limit64(tls, int64(-1))
if !(*(*Sqlite3_int64)(unsafe.Pointer(bp + 656)) > int64(0) && (iPrior == int64(0) || iPrior > *(*Sqlite3_int64)(unsafe.Pointer(bp + 656)))) {
goto __413
}
Xsqlite3_hard_heap_limit64(tls, *(*Sqlite3_int64)(unsafe.Pointer(bp + 656)))
__413:
;
__412:
;
returnSingleInt(tls, v, Xsqlite3_hard_heap_limit64(tls, int64(-1)))
goto __15
__56:
if !(zRight != 0 &&
Xsqlite3DecOrHexToI64(tls, zRight, bp+664) == SQLITE_OK &&
*(*Sqlite3_int64)(unsafe.Pointer(bp + 664)) >= int64(0)) {
goto __414
}
Xsqlite3_limit(tls, db, SQLITE_LIMIT_WORKER_THREADS, int32(*(*Sqlite3_int64)(unsafe.Pointer(bp + 664))&int64(0x7fffffff)))
__414:
;
returnSingleInt(tls, v, int64(Xsqlite3_limit(tls, db, SQLITE_LIMIT_WORKER_THREADS, -1)))
goto __15
__57:
if !(zRight != 0 &&
Xsqlite3DecOrHexToI64(tls, zRight, bp+672) == SQLITE_OK &&
*(*Sqlite3_int64)(unsafe.Pointer(bp + 672)) >= int64(0)) {
goto __415
}
(*Sqlite3)(unsafe.Pointer(db)).FnAnalysisLimit = int32(*(*Sqlite3_int64)(unsafe.Pointer(bp + 672)) & int64(0x7fffffff))
__415:
;
returnSingleInt(tls, v, int64((*Sqlite3)(unsafe.Pointer(db)).FnAnalysisLimit))
goto __15
__15:
;
if !(int32((*PragmaName)(unsafe.Pointer(pPragma)).FmPragFlg)&PragFlg_NoColumns1 != 0 && zRight != 0) {
goto __416
}
__416:
;
pragma_out:
Xsqlite3DbFree(tls, db, zLeft)
Xsqlite3DbFree(tls, db, zRight)
}
type EncName = struct {
FzName uintptr
Fenc U8
F__ccgo_pad1 [7]byte
}
var iLn3 int32 = 0
var getCacheSize = [9]VdbeOpList{
{Fopcode: U8(OP_Transaction)},
{Fopcode: U8(OP_ReadCookie), Fp2: int8(1), Fp3: int8(BTREE_DEFAULT_CACHE_SIZE)},
{Fopcode: U8(OP_IfPos), Fp1: int8(1), Fp2: int8(8)},
{Fopcode: U8(OP_Integer), Fp2: int8(2)},
{Fopcode: U8(OP_Subtract), Fp1: int8(1), Fp2: int8(2), Fp3: int8(1)},
{Fopcode: U8(OP_IfPos), Fp1: int8(1), Fp2: int8(8)},
{Fopcode: U8(OP_Integer), Fp2: int8(1)},
{Fopcode: U8(OP_Noop)},
{Fopcode: U8(OP_ResultRow), Fp1: int8(1), Fp2: int8(1)},
}
var iLn4 int32 = 0
var setMeta6 = [5]VdbeOpList{
{Fopcode: U8(OP_Transaction), Fp2: int8(1)},
{Fopcode: U8(OP_ReadCookie), Fp2: int8(1), Fp3: int8(BTREE_LARGEST_ROOT_PAGE)},
{Fopcode: U8(OP_If), Fp1: int8(1)},
{Fopcode: U8(OP_Halt), Fp2: int8(OE_Abort)},
{Fopcode: U8(OP_SetCookie), Fp2: int8(BTREE_INCR_VACUUM)},
}
var aStdTypeMask = [6]uint8{
uint8(0x1f),
uint8(0x18),
uint8(0x11),
uint8(0x11),
uint8(0x13),
uint8(0x14),
}
var iLn5 int32 = 0
var endCode = [7]VdbeOpList{
{Fopcode: U8(OP_AddImm), Fp1: int8(1)},
{Fopcode: U8(OP_IfNotZero), Fp1: int8(1), Fp2: int8(4)},
{Fopcode: U8(OP_String8), Fp2: int8(3)},
{Fopcode: U8(OP_ResultRow), Fp1: int8(3), Fp2: int8(1)},
{Fopcode: U8(OP_Halt)},
{Fopcode: U8(OP_String8), Fp2: int8(3)},
{Fopcode: U8(OP_Goto), Fp2: int8(3)},
}
var encnames1 = [9]EncName{
{FzName: ts + 18518, Fenc: U8(SQLITE_UTF8)},
{FzName: ts + 18523, Fenc: U8(SQLITE_UTF8)},
{FzName: ts + 18529, Fenc: U8(SQLITE_UTF16LE)},
{FzName: ts + 18538, Fenc: U8(SQLITE_UTF16BE)},
{FzName: ts + 18547, Fenc: U8(SQLITE_UTF16LE)},
{FzName: ts + 18555, Fenc: U8(SQLITE_UTF16BE)},
{FzName: ts + 18563},
{FzName: ts + 18570},
{},
}
var setCookie = [2]VdbeOpList{
{Fopcode: U8(OP_Transaction), Fp2: int8(1)},
{Fopcode: U8(OP_SetCookie)},
}
var readCookie = [3]VdbeOpList{
{Fopcode: U8(OP_Transaction)},
{Fopcode: U8(OP_ReadCookie), Fp2: int8(1)},
{Fopcode: U8(OP_ResultRow), Fp1: int8(1), Fp2: int8(1)},
}
// ****************************************************************************
//
// Implementation of an eponymous virtual table that runs a pragma.
type PragmaVtab1 = struct {
Fbase Sqlite3_vtab
Fdb uintptr
FpName uintptr
FnHidden U8
FiHidden U8
F__ccgo_pad1 [6]byte
}
// ****************************************************************************
//
// Implementation of an eponymous virtual table that runs a pragma.
type PragmaVtab = PragmaVtab1
type PragmaVtabCursor1 = struct {
Fbase Sqlite3_vtab_cursor
FpPragma uintptr
FiRowid Sqlite_int64
FazArg [2]uintptr
}
type PragmaVtabCursor = PragmaVtabCursor1
func pragmaVtabConnect(tls *libc.TLS, db uintptr, pAux uintptr, argc int32, argv uintptr, ppVtab uintptr, pzErr uintptr) int32 {
bp := tls.Alloc(264)
defer tls.Free(264)
var pPragma uintptr = pAux
var pTab uintptr = uintptr(0)
var rc int32
var i int32
var j int32
var cSep int8 = int8('(')
_ = argc
_ = argv
Xsqlite3StrAccumInit(tls, bp+32, uintptr(0), bp+64, int32(unsafe.Sizeof([200]int8{})), 0)
Xsqlite3_str_appendall(tls, bp+32, ts+18576)
i = 0
j = int32((*PragmaName)(unsafe.Pointer(pPragma)).FiPragCName)
__1:
if !(i < int32((*PragmaName)(unsafe.Pointer(pPragma)).FnPragCName)) {
goto __3
}
{
Xsqlite3_str_appendf(tls, bp+32, ts+18591, libc.VaList(bp, int32(cSep), pragCName[j]))
cSep = int8(',')
}
goto __2
__2:
i++
j++
goto __1
goto __3
__3:
;
if i == 0 {
Xsqlite3_str_appendf(tls, bp+32, ts+18598, libc.VaList(bp+16, (*PragmaName)(unsafe.Pointer(pPragma)).FzName))
i++
}
j = 0
if int32((*PragmaName)(unsafe.Pointer(pPragma)).FmPragFlg)&PragFlg_Result1 != 0 {
Xsqlite3_str_appendall(tls, bp+32, ts+18604)
j++
}
if int32((*PragmaName)(unsafe.Pointer(pPragma)).FmPragFlg)&(PragFlg_SchemaOpt|PragFlg_SchemaReq) != 0 {
Xsqlite3_str_appendall(tls, bp+32, ts+18616)
j++
}
Xsqlite3_str_append(tls, bp+32, ts+5360, 1)
Xsqlite3StrAccumFinish(tls, bp+32)
rc = Xsqlite3_declare_vtab(tls, db, bp+64)
if rc == SQLITE_OK {
pTab = Xsqlite3_malloc(tls, int32(unsafe.Sizeof(PragmaVtab{})))
if pTab == uintptr(0) {
rc = SQLITE_NOMEM
} else {
libc.X__builtin___memset_chk(tls, pTab, 0, uint64(unsafe.Sizeof(PragmaVtab{})), libc.X__builtin_object_size(tls, pTab, 0))
(*PragmaVtab)(unsafe.Pointer(pTab)).FpName = pPragma
(*PragmaVtab)(unsafe.Pointer(pTab)).Fdb = db
(*PragmaVtab)(unsafe.Pointer(pTab)).FiHidden = U8(i)
(*PragmaVtab)(unsafe.Pointer(pTab)).FnHidden = U8(j)
}
} else {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp+24, Xsqlite3_errmsg(tls, db)))
}
*(*uintptr)(unsafe.Pointer(ppVtab)) = pTab
return rc
}
func pragmaVtabDisconnect(tls *libc.TLS, pVtab uintptr) int32 {
var pTab uintptr = pVtab
Xsqlite3_free(tls, pTab)
return SQLITE_OK
}
func pragmaVtabBestIndex(tls *libc.TLS, tab uintptr, pIdxInfo uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pTab uintptr = tab
var pConstraint uintptr
var i int32
var j int32
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedCost = float64(1)
if int32((*PragmaVtab)(unsafe.Pointer(pTab)).FnHidden) == 0 {
return SQLITE_OK
}
pConstraint = (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraint
*(*int32)(unsafe.Pointer(bp)) = 0
*(*int32)(unsafe.Pointer(bp + 1*4)) = 0
i = 0
__1:
if !(i < (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FnConstraint) {
goto __3
}
{
if int32((*sqlite3_index_constraint)(unsafe.Pointer(pConstraint)).Fusable) == 0 {
goto __2
}
if int32((*sqlite3_index_constraint)(unsafe.Pointer(pConstraint)).Fop) != SQLITE_INDEX_CONSTRAINT_EQ {
goto __2
}
if (*sqlite3_index_constraint)(unsafe.Pointer(pConstraint)).FiColumn < int32((*PragmaVtab)(unsafe.Pointer(pTab)).FiHidden) {
goto __2
}
j = (*sqlite3_index_constraint)(unsafe.Pointer(pConstraint)).FiColumn - int32((*PragmaVtab)(unsafe.Pointer(pTab)).FiHidden)
*(*int32)(unsafe.Pointer(bp + uintptr(j)*4)) = i + 1
}
goto __2
__2:
i++
pConstraint += 12
goto __1
goto __3
__3:
;
if *(*int32)(unsafe.Pointer(bp)) == 0 {
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedCost = float64(2147483647)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedRows = int64(2147483647)
return SQLITE_OK
}
j = *(*int32)(unsafe.Pointer(bp)) - 1
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(j)*8)).FargvIndex = 1
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(j)*8)).Fomit = uint8(1)
if *(*int32)(unsafe.Pointer(bp + 1*4)) == 0 {
return SQLITE_OK
}
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedCost = float64(20)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedRows = int64(20)
j = *(*int32)(unsafe.Pointer(bp + 1*4)) - 1
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(j)*8)).FargvIndex = 2
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(j)*8)).Fomit = uint8(1)
return SQLITE_OK
}
func pragmaVtabOpen(tls *libc.TLS, pVtab uintptr, ppCursor uintptr) int32 {
var pCsr uintptr
pCsr = Xsqlite3_malloc(tls, int32(unsafe.Sizeof(PragmaVtabCursor{})))
if pCsr == uintptr(0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, pCsr, 0, uint64(unsafe.Sizeof(PragmaVtabCursor{})), libc.X__builtin_object_size(tls, pCsr, 0))
(*PragmaVtabCursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab = pVtab
*(*uintptr)(unsafe.Pointer(ppCursor)) = pCsr
return SQLITE_OK
}
func pragmaVtabCursorClear(tls *libc.TLS, pCsr uintptr) {
var i int32
Xsqlite3_finalize(tls, (*PragmaVtabCursor)(unsafe.Pointer(pCsr)).FpPragma)
(*PragmaVtabCursor)(unsafe.Pointer(pCsr)).FpPragma = uintptr(0)
for i = 0; i < int32(uint64(unsafe.Sizeof([2]uintptr{}))/uint64(unsafe.Sizeof(uintptr(0)))); i++ {
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(pCsr + 24 + uintptr(i)*8)))
*(*uintptr)(unsafe.Pointer(pCsr + 24 + uintptr(i)*8)) = uintptr(0)
}
}
func pragmaVtabClose(tls *libc.TLS, cur uintptr) int32 {
var pCsr uintptr = cur
pragmaVtabCursorClear(tls, pCsr)
Xsqlite3_free(tls, pCsr)
return SQLITE_OK
}
func pragmaVtabNext(tls *libc.TLS, pVtabCursor uintptr) int32 {
var pCsr uintptr = pVtabCursor
var rc int32 = SQLITE_OK
(*PragmaVtabCursor)(unsafe.Pointer(pCsr)).FiRowid++
if SQLITE_ROW != Xsqlite3_step(tls, (*PragmaVtabCursor)(unsafe.Pointer(pCsr)).FpPragma) {
rc = Xsqlite3_finalize(tls, (*PragmaVtabCursor)(unsafe.Pointer(pCsr)).FpPragma)
(*PragmaVtabCursor)(unsafe.Pointer(pCsr)).FpPragma = uintptr(0)
pragmaVtabCursorClear(tls, pCsr)
}
return rc
}
func pragmaVtabFilter(tls *libc.TLS, pVtabCursor uintptr, idxNum int32, idxStr uintptr, argc int32, argv uintptr) int32 {
bp := tls.Alloc(64)
defer tls.Free(64)
var pCsr uintptr = pVtabCursor
var pTab uintptr = (*Sqlite3_vtab_cursor)(unsafe.Pointer(pVtabCursor)).FpVtab
var rc int32
var i int32
var j int32
var zSql uintptr
_ = idxNum
_ = idxStr
pragmaVtabCursorClear(tls, pCsr)
if int32((*PragmaName)(unsafe.Pointer((*PragmaVtab)(unsafe.Pointer(pTab)).FpName)).FmPragFlg)&PragFlg_Result1 != 0 {
j = 0
} else {
j = 1
}
i = 0
__1:
if !(i < argc) {
goto __3
}
{
var zText uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8)))
if zText != 0 {
*(*uintptr)(unsafe.Pointer(pCsr + 24 + uintptr(j)*8)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp, zText))
if *(*uintptr)(unsafe.Pointer(pCsr + 24 + uintptr(j)*8)) == uintptr(0) {
return SQLITE_NOMEM
}
}
}
goto __2
__2:
i++
j++
goto __1
goto __3
__3:
;
Xsqlite3StrAccumInit(tls, bp+32, uintptr(0), uintptr(0), 0, *(*int32)(unsafe.Pointer((*PragmaVtab)(unsafe.Pointer(pTab)).Fdb + 136 + 1*4)))
Xsqlite3_str_appendall(tls, bp+32, ts+18631)
if *(*uintptr)(unsafe.Pointer(pCsr + 24 + 1*8)) != 0 {
Xsqlite3_str_appendf(tls, bp+32, ts+18639, libc.VaList(bp+8, *(*uintptr)(unsafe.Pointer(pCsr + 24 + 1*8))))
}
Xsqlite3_str_appendall(tls, bp+32, (*PragmaName)(unsafe.Pointer((*PragmaVtab)(unsafe.Pointer(pTab)).FpName)).FzName)
if *(*uintptr)(unsafe.Pointer(pCsr + 24)) != 0 {
Xsqlite3_str_appendf(tls, bp+32, ts+18643, libc.VaList(bp+16, *(*uintptr)(unsafe.Pointer(pCsr + 24))))
}
zSql = Xsqlite3StrAccumFinish(tls, bp+32)
if zSql == uintptr(0) {
return SQLITE_NOMEM
}
rc = Xsqlite3_prepare_v2(tls, (*PragmaVtab)(unsafe.Pointer(pTab)).Fdb, zSql, -1, pCsr+8, uintptr(0))
Xsqlite3_free(tls, zSql)
if rc != SQLITE_OK {
(*PragmaVtab)(unsafe.Pointer(pTab)).Fbase.FzErrMsg = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp+24, Xsqlite3_errmsg(tls, (*PragmaVtab)(unsafe.Pointer(pTab)).Fdb)))
return rc
}
return pragmaVtabNext(tls, pVtabCursor)
}
func pragmaVtabEof(tls *libc.TLS, pVtabCursor uintptr) int32 {
var pCsr uintptr = pVtabCursor
return libc.Bool32((*PragmaVtabCursor)(unsafe.Pointer(pCsr)).FpPragma == uintptr(0))
}
func pragmaVtabColumn(tls *libc.TLS, pVtabCursor uintptr, ctx uintptr, i int32) int32 {
var pCsr uintptr = pVtabCursor
var pTab uintptr = (*Sqlite3_vtab_cursor)(unsafe.Pointer(pVtabCursor)).FpVtab
if i < int32((*PragmaVtab)(unsafe.Pointer(pTab)).FiHidden) {
Xsqlite3_result_value(tls, ctx, Xsqlite3_column_value(tls, (*PragmaVtabCursor)(unsafe.Pointer(pCsr)).FpPragma, i))
} else {
Xsqlite3_result_text(tls, ctx, *(*uintptr)(unsafe.Pointer(pCsr + 24 + uintptr(i-int32((*PragmaVtab)(unsafe.Pointer(pTab)).FiHidden))*8)), -1, libc.UintptrFromInt32(-1))
}
return SQLITE_OK
}
func pragmaVtabRowid(tls *libc.TLS, pVtabCursor uintptr, p uintptr) int32 {
var pCsr uintptr = pVtabCursor
*(*Sqlite_int64)(unsafe.Pointer(p)) = (*PragmaVtabCursor)(unsafe.Pointer(pCsr)).FiRowid
return SQLITE_OK
}
var pragmaVtabModule = Sqlite3_module{
FxConnect: 0,
FxBestIndex: 0,
FxDisconnect: 0,
FxOpen: 0,
FxClose: 0,
FxFilter: 0,
FxNext: 0,
FxEof: 0,
FxColumn: 0,
FxRowid: 0,
}
// Check to see if zTabName is really the name of a pragma. If it is,
// then register an eponymous virtual table for that pragma and return
// a pointer to the Module object for the new virtual table.
func Xsqlite3PragmaVtabRegister(tls *libc.TLS, db uintptr, zName uintptr) uintptr {
var pName uintptr
pName = pragmaLocate(tls, zName+uintptr(7))
if pName == uintptr(0) {
return uintptr(0)
}
if int32((*PragmaName)(unsafe.Pointer(pName)).FmPragFlg)&(PragFlg_Result0|PragFlg_Result1) == 0 {
return uintptr(0)
}
return Xsqlite3VtabCreateModule(tls, db, zName, uintptr(unsafe.Pointer(&pragmaVtabModule)), pName, uintptr(0))
}
func corruptSchema(tls *libc.TLS, pData uintptr, azObj uintptr, zExtra uintptr) {
bp := tls.Alloc(56)
defer tls.Free(56)
var db uintptr = (*InitData)(unsafe.Pointer(pData)).Fdb
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
(*InitData)(unsafe.Pointer(pData)).Frc = SQLITE_NOMEM
} else if *(*uintptr)(unsafe.Pointer((*InitData)(unsafe.Pointer(pData)).FpzErrMsg)) != uintptr(0) {
} else if (*InitData)(unsafe.Pointer(pData)).FmInitFlags&U32(INITFLAG_AlterMask) != 0 {
*(*uintptr)(unsafe.Pointer((*InitData)(unsafe.Pointer(pData)).FpzErrMsg)) = Xsqlite3MPrintf(tls, db,
ts+18647, libc.VaList(bp, *(*uintptr)(unsafe.Pointer(azObj)), *(*uintptr)(unsafe.Pointer(azObj + 1*8)),
azAlterType[(*InitData)(unsafe.Pointer(pData)).FmInitFlags&U32(INITFLAG_AlterMask)-U32(1)],
zExtra))
(*InitData)(unsafe.Pointer(pData)).Frc = SQLITE_ERROR
} else if (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_WriteSchema) != 0 {
(*InitData)(unsafe.Pointer(pData)).Frc = Xsqlite3CorruptError(tls, 137196)
} else {
var z uintptr
var zObj uintptr
if *(*uintptr)(unsafe.Pointer(azObj + 1*8)) != 0 {
zObj = *(*uintptr)(unsafe.Pointer(azObj + 1*8))
} else {
zObj = ts + 5411
}
z = Xsqlite3MPrintf(tls, db, ts+18675, libc.VaList(bp+32, zObj))
if zExtra != 0 && *(*int8)(unsafe.Pointer(zExtra)) != 0 {
z = Xsqlite3MPrintf(tls, db, ts+18706, libc.VaList(bp+40, z, zExtra))
}
*(*uintptr)(unsafe.Pointer((*InitData)(unsafe.Pointer(pData)).FpzErrMsg)) = z
(*InitData)(unsafe.Pointer(pData)).Frc = Xsqlite3CorruptError(tls, 137203)
}
}
var azAlterType = [3]uintptr{
ts + 18714,
ts + 18721,
ts + 18733,
}
// Check to see if any sibling index (another index on the same table)
// of pIndex has the same root page number, and if it does, return true.
// This would indicate a corrupt schema.
func Xsqlite3IndexHasDuplicateRootPage(tls *libc.TLS, pIndex uintptr) int32 {
var p uintptr
for p = (*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FpTable)).FpIndex; p != 0; p = (*Index)(unsafe.Pointer(p)).FpNext {
if (*Index)(unsafe.Pointer(p)).Ftnum == (*Index)(unsafe.Pointer(pIndex)).Ftnum && p != pIndex {
return 1
}
}
return 0
}
// This is the callback routine for the code that initializes the
// database. See sqlite3Init() below for additional information.
// This routine is also called from the OP_ParseSchema opcode of the VDBE.
//
// Each callback contains the following information:
//
// argv[0] = type of object: "table", "index", "trigger", or "view".
// argv[1] = name of thing being created
// argv[2] = associated table if an index or trigger
// argv[3] = root page number for table or index. 0 for trigger or view.
// argv[4] = SQL text for the CREATE statement.
func Xsqlite3InitCallback(tls *libc.TLS, pInit uintptr, argc int32, argv uintptr, NotUsed uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pData uintptr = pInit
var db uintptr = (*InitData)(unsafe.Pointer(pData)).Fdb
var iDb int32 = (*InitData)(unsafe.Pointer(pData)).FiDb
_ = NotUsed
_ = argc
*(*U32)(unsafe.Pointer(db + 44)) |= U32(DBFLAG_EncodingFixed)
if argv == uintptr(0) {
return 0
}
(*InitData)(unsafe.Pointer(pData)).FnInitRow++
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
corruptSchema(tls, pData, argv, uintptr(0))
return 1
}
if *(*uintptr)(unsafe.Pointer(argv + 3*8)) == uintptr(0) {
corruptSchema(tls, pData, argv, uintptr(0))
} else if *(*uintptr)(unsafe.Pointer(argv + 4*8)) != 0 &&
'c' == int32(Xsqlite3UpperToLower[uint8(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(argv + 4*8)))))]) &&
'r' == int32(Xsqlite3UpperToLower[uint8(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(argv + 4*8)) + 1)))]) {
var rc int32
var saved_iDb U8 = (*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb
(*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb = U8(iDb)
if Xsqlite3GetUInt32(tls, *(*uintptr)(unsafe.Pointer(argv + 3*8)), db+192) == 0 ||
(*Sqlite3)(unsafe.Pointer(db)).Finit.FnewTnum > (*InitData)(unsafe.Pointer(pData)).FmxPage && (*InitData)(unsafe.Pointer(pData)).FmxPage > Pgno(0) {
if Xsqlite3Config.FbExtraSchemaChecks != 0 {
corruptSchema(tls, pData, argv, ts+14543)
}
}
libc.SetBitFieldPtr8Uint32(db+192+8, uint32(0), 0, 0x1)
(*Sqlite3)(unsafe.Pointer(db)).Finit.FazInit = argv
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
sqlite3Prepare(tls, db, *(*uintptr)(unsafe.Pointer(argv + 4*8)), -1, uint32(0), uintptr(0), bp, uintptr(0))
rc = (*Sqlite3)(unsafe.Pointer(db)).FerrCode
(*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb = saved_iDb
if SQLITE_OK != rc {
if uint32(int32(*(*uint8)(unsafe.Pointer(db + 192 + 8))&0x1>>0)) != 0 {
} else {
if rc > (*InitData)(unsafe.Pointer(pData)).Frc {
(*InitData)(unsafe.Pointer(pData)).Frc = rc
}
if rc == SQLITE_NOMEM {
Xsqlite3OomFault(tls, db)
} else if rc != SQLITE_INTERRUPT && rc&0xFF != SQLITE_LOCKED {
corruptSchema(tls, pData, argv, Xsqlite3_errmsg(tls, db))
}
}
}
(*Sqlite3)(unsafe.Pointer(db)).Finit.FazInit = uintptr(unsafe.Pointer(&Xsqlite3StdType))
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
} else if *(*uintptr)(unsafe.Pointer(argv + 1*8)) == uintptr(0) || *(*uintptr)(unsafe.Pointer(argv + 4*8)) != uintptr(0) && int32(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(argv + 4*8))))) != 0 {
corruptSchema(tls, pData, argv, uintptr(0))
} else {
var pIndex uintptr
pIndex = Xsqlite3FindIndex(tls, db, *(*uintptr)(unsafe.Pointer(argv + 1*8)), (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName)
if pIndex == uintptr(0) {
corruptSchema(tls, pData, argv, ts+18744)
} else if Xsqlite3GetUInt32(tls, *(*uintptr)(unsafe.Pointer(argv + 3*8)), pIndex+88) == 0 ||
(*Index)(unsafe.Pointer(pIndex)).Ftnum < Pgno(2) ||
(*Index)(unsafe.Pointer(pIndex)).Ftnum > (*InitData)(unsafe.Pointer(pData)).FmxPage ||
Xsqlite3IndexHasDuplicateRootPage(tls, pIndex) != 0 {
if Xsqlite3Config.FbExtraSchemaChecks != 0 {
corruptSchema(tls, pData, argv, ts+14543)
}
}
}
return 0
}
// Attempt to read the database schema and initialize internal
// data structures for a single database file. The index of the
// database file is given by iDb. iDb==0 is used for the main
// database. iDb==1 should never be used. iDb>=2 is used for
// auxiliary databases. Return one of the SQLITE_ error codes to
// indicate success or failure.
func Xsqlite3InitOne(tls *libc.TLS, db uintptr, iDb int32, pzErrMsg uintptr, mFlags U32) int32 {
bp := tls.Alloc(124)
defer tls.Free(124)
var rc int32
var i int32
var size int32
var pDb uintptr
var zSchemaTabName uintptr
var openedTransaction int32
var mask int32
var encoding U8
var xAuth Sqlite3_xauth
var zSql uintptr
openedTransaction = 0
mask = int32((*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_EncodingFixed) | libc.Uint32FromInt32(libc.CplInt32(DBFLAG_EncodingFixed)))
(*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy = U8(1)
*(*uintptr)(unsafe.Pointer(bp + 16)) = ts + 9279
*(*uintptr)(unsafe.Pointer(bp + 16 + 1*8)) = libc.AssignUintptr(&zSchemaTabName, func() uintptr {
if !(0 != 0) && iDb == 1 {
return ts + 6792
}
return ts + 6286
}())
*(*uintptr)(unsafe.Pointer(bp + 16 + 2*8)) = *(*uintptr)(unsafe.Pointer(bp + 16 + 1*8))
*(*uintptr)(unsafe.Pointer(bp + 16 + 3*8)) = ts + 8341
*(*uintptr)(unsafe.Pointer(bp + 16 + 4*8)) = ts + 18757
*(*uintptr)(unsafe.Pointer(bp + 16 + 5*8)) = uintptr(0)
(*InitData)(unsafe.Pointer(bp + 64)).Fdb = db
(*InitData)(unsafe.Pointer(bp + 64)).FiDb = iDb
(*InitData)(unsafe.Pointer(bp + 64)).Frc = SQLITE_OK
(*InitData)(unsafe.Pointer(bp + 64)).FpzErrMsg = pzErrMsg
(*InitData)(unsafe.Pointer(bp + 64)).FmInitFlags = mFlags
(*InitData)(unsafe.Pointer(bp + 64)).FnInitRow = U32(0)
(*InitData)(unsafe.Pointer(bp + 64)).FmxPage = Pgno(0)
Xsqlite3InitCallback(tls, bp+64, 5, bp+16, uintptr(0))
*(*U32)(unsafe.Pointer(db + 44)) &= U32(mask)
if !((*InitData)(unsafe.Pointer(bp+64)).Frc != 0) {
goto __1
}
rc = (*InitData)(unsafe.Pointer(bp + 64)).Frc
goto error_out
__1:
;
pDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32
if !((*Db)(unsafe.Pointer(pDb)).FpBt == uintptr(0)) {
goto __2
}
*(*U16)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema + 114)) |= U16(DB_SchemaLoaded)
rc = SQLITE_OK
goto error_out
__2:
;
Xsqlite3BtreeEnter(tls, (*Db)(unsafe.Pointer(pDb)).FpBt)
if !(Xsqlite3BtreeTxnState(tls, (*Db)(unsafe.Pointer(pDb)).FpBt) == SQLITE_TXN_NONE) {
goto __3
}
rc = Xsqlite3BtreeBeginTrans(tls, (*Db)(unsafe.Pointer(pDb)).FpBt, 0, uintptr(0))
if !(rc != SQLITE_OK) {
goto __4
}
Xsqlite3SetString(tls, pzErrMsg, db, Xsqlite3ErrStr(tls, rc))
goto initone_error_out
__4:
;
openedTransaction = 1
__3:
;
i = 0
__5:
if !(i < int32(uint64(unsafe.Sizeof([5]int32{}))/uint64(unsafe.Sizeof(int32(0))))) {
goto __7
}
Xsqlite3BtreeGetMeta(tls, (*Db)(unsafe.Pointer(pDb)).FpBt, i+1, bp+104+uintptr(i)*4)
goto __6
__6:
i++
goto __5
goto __7
__7:
;
if !((*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_ResetDatabase) != uint64(0)) {
goto __8
}
libc.X__builtin___memset_chk(tls, bp+104, 0, uint64(unsafe.Sizeof([5]int32{})), libc.X__builtin_object_size(tls, bp+104, 0))
__8:
;
(*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Fschema_cookie = *(*int32)(unsafe.Pointer(bp + 104))
if !(*(*int32)(unsafe.Pointer(bp + 104 + 4*4)) != 0) {
goto __9
}
if !(iDb == 0 && (*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_EncodingFixed) == U32(0)) {
goto __10
}
encoding = U8(int32(U8(*(*int32)(unsafe.Pointer(bp + 104 + 4*4)))) & 3)
if !(int32(encoding) == 0) {
goto __12
}
encoding = U8(SQLITE_UTF8)
__12:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FnVdbeActive > 0 && int32(encoding) != int32((*Sqlite3)(unsafe.Pointer(db)).Fenc)) {
goto __13
}
rc = SQLITE_LOCKED
goto initone_error_out
goto __14
__13:
Xsqlite3SetTextEncoding(tls, db, encoding)
__14:
;
goto __11
__10:
if !(*(*int32)(unsafe.Pointer(bp + 104 + 4*4))&3 != int32((*Sqlite3)(unsafe.Pointer(db)).Fenc)) {
goto __15
}
Xsqlite3SetString(tls, pzErrMsg, db,
ts+12178)
rc = SQLITE_ERROR
goto initone_error_out
__15:
;
__11:
;
__9:
;
(*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Fenc = (*Sqlite3)(unsafe.Pointer(db)).Fenc
if !((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Fcache_size == 0) {
goto __16
}
size = Xsqlite3AbsInt32(tls, *(*int32)(unsafe.Pointer(bp + 104 + 2*4)))
if !(size == 0) {
goto __17
}
size = -2000
__17:
;
(*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Fcache_size = size
Xsqlite3BtreeSetCacheSize(tls, (*Db)(unsafe.Pointer(pDb)).FpBt, (*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Fcache_size)
__16:
;
(*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Ffile_format = U8(*(*int32)(unsafe.Pointer(bp + 104 + 1*4)))
if !(int32((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Ffile_format) == 0) {
goto __18
}
(*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Ffile_format = U8(1)
__18:
;
if !(int32((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer(pDb)).FpSchema)).Ffile_format) > SQLITE_MAX_FILE_FORMAT) {
goto __19
}
Xsqlite3SetString(tls, pzErrMsg, db, ts+18829)
rc = SQLITE_ERROR
goto initone_error_out
__19:
;
if !(iDb == 0 && *(*int32)(unsafe.Pointer(bp + 104 + 1*4)) >= 4) {
goto __20
}
*(*U64)(unsafe.Pointer(db + 48)) &= libc.CplUint64(uint64(SQLITE_LegacyFileFmt))
__20:
;
(*InitData)(unsafe.Pointer(bp + 64)).FmxPage = Xsqlite3BtreeLastPage(tls, (*Db)(unsafe.Pointer(pDb)).FpBt)
zSql = Xsqlite3MPrintf(tls, db,
ts+18853,
libc.VaList(bp, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName, zSchemaTabName))
xAuth = (*Sqlite3)(unsafe.Pointer(db)).FxAuth
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = uintptr(0)
rc = Xsqlite3_exec(tls, db, zSql, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32
}{Xsqlite3InitCallback})), bp+64, uintptr(0))
(*Sqlite3)(unsafe.Pointer(db)).FxAuth = xAuth
if !(rc == SQLITE_OK) {
goto __21
}
rc = (*InitData)(unsafe.Pointer(bp + 64)).Frc
__21:
;
Xsqlite3DbFree(tls, db, zSql)
if !(rc == SQLITE_OK) {
goto __22
}
Xsqlite3AnalysisLoad(tls, db, iDb)
__22:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __23
}
rc = SQLITE_NOMEM
Xsqlite3ResetAllSchemasOfConnection(tls, db)
pDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32
goto __24
__23:
if !(rc == SQLITE_OK || (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_NoSchemaError) != 0 && rc != SQLITE_NOMEM) {
goto __25
}
*(*U16)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpSchema + 114)) |= U16(DB_SchemaLoaded)
rc = SQLITE_OK
__25:
;
__24:
;
initone_error_out:
if !(openedTransaction != 0) {
goto __26
}
Xsqlite3BtreeCommit(tls, (*Db)(unsafe.Pointer(pDb)).FpBt)
__26:
;
Xsqlite3BtreeLeave(tls, (*Db)(unsafe.Pointer(pDb)).FpBt)
error_out:
if !(rc != 0) {
goto __27
}
if !(rc == SQLITE_NOMEM || rc == SQLITE_IOERR|int32(12)<<8) {
goto __28
}
Xsqlite3OomFault(tls, db)
__28:
;
Xsqlite3ResetOneSchema(tls, db, iDb)
__27:
;
(*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy = U8(0)
return rc
}
// Initialize all database files - the main database file, the file
// used to store temporary tables, and any additional database files
// created using ATTACH statements. Return a success code. If an
// error occurs, write an error message into *pzErrMsg.
//
// After a database is initialized, the DB_SchemaLoaded bit is set
// bit is set in the flags field of the Db structure.
func Xsqlite3Init(tls *libc.TLS, db uintptr, pzErrMsg uintptr) int32 {
var i int32
var rc int32
var commit_internal int32 = libc.BoolInt32(!((*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_SchemaChange) != 0))
(*Sqlite3)(unsafe.Pointer(db)).Fenc = (*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpSchema)).Fenc
if !(int32((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpSchema)).FschemaFlags)&DB_SchemaLoaded == DB_SchemaLoaded) {
rc = Xsqlite3InitOne(tls, db, 0, pzErrMsg, uint32(0))
if rc != 0 {
return rc
}
}
for i = (*Sqlite3)(unsafe.Pointer(db)).FnDb - 1; i > 0; i-- {
if !(int32((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FpSchema)).FschemaFlags)&DB_SchemaLoaded == DB_SchemaLoaded) {
rc = Xsqlite3InitOne(tls, db, i, pzErrMsg, uint32(0))
if rc != 0 {
return rc
}
}
}
if commit_internal != 0 {
Xsqlite3CommitInternalChanges(tls, db)
}
return SQLITE_OK
}
// This routine is a no-op if the database schema is already initialized.
// Otherwise, the schema is loaded. An error code is returned.
func Xsqlite3ReadSchema(tls *libc.TLS, pParse uintptr) int32 {
var rc int32 = SQLITE_OK
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if !(int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) != 0) {
rc = Xsqlite3Init(tls, db, pParse+8)
if rc != SQLITE_OK {
(*Parse)(unsafe.Pointer(pParse)).Frc = rc
(*Parse)(unsafe.Pointer(pParse)).FnErr++
} else if (*Sqlite3)(unsafe.Pointer(db)).FnoSharedCache != 0 {
*(*U32)(unsafe.Pointer(db + 44)) |= U32(DBFLAG_SchemaKnownOk)
}
}
return rc
}
func schemaIsValid(tls *libc.TLS, pParse uintptr) {
bp := tls.Alloc(4)
defer tls.Free(4)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var iDb int32
var rc int32
for iDb = 0; iDb < (*Sqlite3)(unsafe.Pointer(db)).FnDb; iDb++ {
var openedTransaction int32 = 0
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpBt
if pBt == uintptr(0) {
continue
}
if Xsqlite3BtreeTxnState(tls, pBt) == SQLITE_TXN_NONE {
rc = Xsqlite3BtreeBeginTrans(tls, pBt, 0, uintptr(0))
if rc == SQLITE_NOMEM || rc == SQLITE_IOERR|int32(12)<<8 {
Xsqlite3OomFault(tls, db)
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_NOMEM
}
if rc != SQLITE_OK {
return
}
openedTransaction = 1
}
Xsqlite3BtreeGetMeta(tls, pBt, BTREE_SCHEMA_VERSION, bp)
if *(*int32)(unsafe.Pointer(bp)) != (*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpSchema)).Fschema_cookie {
if int32((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpSchema)).FschemaFlags)&DB_SchemaLoaded == DB_SchemaLoaded {
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_SCHEMA
}
Xsqlite3ResetOneSchema(tls, db, iDb)
}
if openedTransaction != 0 {
Xsqlite3BtreeCommit(tls, pBt)
}
}
}
// Convert a schema pointer into the iDb index that indicates
// which database file in db->aDb[] the schema refers to.
//
// If the same database is attached more than once, the first
// attached database is returned.
func Xsqlite3SchemaToIndex(tls *libc.TLS, db uintptr, pSchema uintptr) int32 {
var i int32 = -32768
if pSchema != 0 {
for i = 0; 1 != 0; i++ {
if (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FpSchema == pSchema {
break
}
}
}
return i
}
// Free all memory allocations in the pParse object
func Xsqlite3ParseObjectReset(tls *libc.TLS, pParse uintptr) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*Parse)(unsafe.Pointer(pParse)).FaTableLock != 0 {
Xsqlite3DbNNFreeNN(tls, db, (*Parse)(unsafe.Pointer(pParse)).FaTableLock)
}
for (*Parse)(unsafe.Pointer(pParse)).FpCleanup != 0 {
var pCleanup uintptr = (*Parse)(unsafe.Pointer(pParse)).FpCleanup
(*Parse)(unsafe.Pointer(pParse)).FpCleanup = (*ParseCleanup)(unsafe.Pointer(pCleanup)).FpNext
(*struct {
f func(*libc.TLS, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*ParseCleanup)(unsafe.Pointer(pCleanup)).FxCleanup})).f(tls, db, (*ParseCleanup)(unsafe.Pointer(pCleanup)).FpPtr)
Xsqlite3DbNNFreeNN(tls, db, pCleanup)
}
if (*Parse)(unsafe.Pointer(pParse)).FaLabel != 0 {
Xsqlite3DbNNFreeNN(tls, db, (*Parse)(unsafe.Pointer(pParse)).FaLabel)
}
if (*Parse)(unsafe.Pointer(pParse)).FpConstExpr != 0 {
Xsqlite3ExprListDelete(tls, db, (*Parse)(unsafe.Pointer(pParse)).FpConstExpr)
}
*(*U32)(unsafe.Pointer(db + 440)) -= U32((*Parse)(unsafe.Pointer(pParse)).FdisableLookaside)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz = func() uint16 {
if (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable != 0 {
return uint16(0)
}
return (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FszTrue
}()
(*Sqlite3)(unsafe.Pointer(db)).FpParse = (*Parse)(unsafe.Pointer(pParse)).FpOuterParse
(*Parse)(unsafe.Pointer(pParse)).Fdb = uintptr(0)
(*Parse)(unsafe.Pointer(pParse)).FdisableLookaside = U8(0)
}
// Add a new cleanup operation to a Parser. The cleanup should happen when
// the parser object is destroyed. But, beware: the cleanup might happen
// immediately.
//
// Use this mechanism for uncommon cleanups. There is a higher setup
// cost for this mechansim (an extra malloc), so it should not be used
// for common cleanups that happen on most calls. But for less
// common cleanups, we save a single NULL-pointer comparison in
// sqlite3ParseObjectReset(), which reduces the total CPU cycle count.
//
// If a memory allocation error occurs, then the cleanup happens immediately.
// When either SQLITE_DEBUG or SQLITE_COVERAGE_TEST are defined, the
// pParse->earlyCleanup flag is set in that case. Calling code show verify
// that test cases exist for which this happens, to guard against possible
// use-after-free errors following an OOM. The preferred way to do this is
// to immediately follow the call to this routine with:
//
// testcase( pParse->earlyCleanup );
//
// This routine returns a copy of its pPtr input (the third parameter)
// except if an early cleanup occurs, in which case it returns NULL. So
// another way to check for early cleanup is to check the return value.
// Or, stop using the pPtr parameter with this call and use only its
// return value thereafter. Something like this:
//
// pObj = sqlite3ParserAddCleanup(pParse, destructor, pObj);
func Xsqlite3ParserAddCleanup(tls *libc.TLS, pParse uintptr, xCleanup uintptr, pPtr uintptr) uintptr {
var pCleanup uintptr = Xsqlite3DbMallocRaw(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(ParseCleanup{})))
if pCleanup != 0 {
(*ParseCleanup)(unsafe.Pointer(pCleanup)).FpNext = (*Parse)(unsafe.Pointer(pParse)).FpCleanup
(*Parse)(unsafe.Pointer(pParse)).FpCleanup = pCleanup
(*ParseCleanup)(unsafe.Pointer(pCleanup)).FpPtr = pPtr
(*ParseCleanup)(unsafe.Pointer(pCleanup)).FxCleanup = xCleanup
} else {
(*struct {
f func(*libc.TLS, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{xCleanup})).f(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pPtr)
pPtr = uintptr(0)
}
return pPtr
}
// Turn bulk memory into a valid Parse object and link that Parse object
// into database connection db.
//
// Call sqlite3ParseObjectReset() to undo this operation.
//
// Caution: Do not confuse this routine with sqlite3ParseObjectInit() which
// is generated by Lemon.
func Xsqlite3ParseObjectInit(tls *libc.TLS, pParse uintptr, db uintptr) {
libc.X__builtin___memset_chk(tls, pParse+uintptr(uint64(uintptr(0)+8)), 0, uint64(uintptr(0)+228)-uint64(uintptr(0)+8), libc.X__builtin_object_size(tls, pParse+uintptr(uint64(uintptr(0)+8)), 0))
libc.X__builtin___memset_chk(tls, pParse+uintptr(uint64(uintptr(0)+288)), 0, uint64(unsafe.Sizeof(Parse{}))-uint64(uintptr(0)+288), libc.X__builtin_object_size(tls, pParse+uintptr(uint64(uintptr(0)+288)), 0))
(*Parse)(unsafe.Pointer(pParse)).FpOuterParse = (*Sqlite3)(unsafe.Pointer(db)).FpParse
(*Sqlite3)(unsafe.Pointer(db)).FpParse = pParse
(*Parse)(unsafe.Pointer(pParse)).Fdb = db
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+1483, 0)
}
}
func sqlite3Prepare(tls *libc.TLS, db uintptr, zSql uintptr, nBytes int32, prepFlags U32, pReprepare uintptr, ppStmt uintptr, pzTail uintptr) int32 {
bp := tls.Alloc(440)
defer tls.Free(440)
var rc int32
var i int32
var zDb uintptr
var pBt uintptr
var zSqlCopy uintptr
var mxLen int32
var pT uintptr
rc = SQLITE_OK
libc.X__builtin___memset_chk(tls, bp+16+uintptr(uint64(uintptr(0)+8)), 0, uint64(uintptr(0)+228)-uint64(uintptr(0)+8), libc.X__builtin_object_size(tls, bp+16+uintptr(uint64(uintptr(0)+8)), 0))
libc.X__builtin___memset_chk(tls, bp+16+uintptr(uint64(uintptr(0)+288)), 0, uint64(unsafe.Sizeof(Parse{}))-uint64(uintptr(0)+288), libc.X__builtin_object_size(tls, bp+16+uintptr(uint64(uintptr(0)+288)), 0))
(*Parse)(unsafe.Pointer(bp + 16)).FpOuterParse = (*Sqlite3)(unsafe.Pointer(db)).FpParse
(*Sqlite3)(unsafe.Pointer(db)).FpParse = bp + 16
(*Parse)(unsafe.Pointer(bp + 16)).Fdb = db
(*Parse)(unsafe.Pointer(bp + 16)).FpReprepare = pReprepare
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __1
}
Xsqlite3ErrorMsg(tls, bp+16, ts+1483, 0)
__1:
;
if !(prepFlags&U32(SQLITE_PREPARE_PERSISTENT) != 0) {
goto __2
}
(*Parse)(unsafe.Pointer(bp+16)).FdisableLookaside++
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable++
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz = U16(0)
__2:
;
(*Parse)(unsafe.Pointer(bp + 16)).FprepFlags = U8(prepFlags & U32(0xff))
if !!(int32((*Sqlite3)(unsafe.Pointer(db)).FnoSharedCache) != 0) {
goto __3
}
i = 0
__4:
if !(i < (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __6
}
pBt = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if !(pBt != 0) {
goto __7
}
rc = Xsqlite3BtreeSchemaLocked(tls, pBt)
if !(rc != 0) {
goto __8
}
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FzDbSName
Xsqlite3ErrorWithMsg(tls, db, rc, ts+18887, libc.VaList(bp, zDb))
goto end_prepare
__8:
;
__7:
;
goto __5
__5:
i++
goto __4
goto __6
__6:
;
__3:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FpDisconnect != 0) {
goto __9
}
Xsqlite3VtabUnlockList(tls, db)
__9:
;
if !(nBytes >= 0 && (nBytes == 0 || int32(*(*int8)(unsafe.Pointer(zSql + uintptr(nBytes-1)))) != 0)) {
goto __10
}
mxLen = *(*int32)(unsafe.Pointer(db + 136 + 1*4))
if !(nBytes > mxLen) {
goto __12
}
Xsqlite3ErrorWithMsg(tls, db, SQLITE_TOOBIG, ts+18917, 0)
rc = Xsqlite3ApiExit(tls, db, SQLITE_TOOBIG)
goto end_prepare
__12:
;
zSqlCopy = Xsqlite3DbStrNDup(tls, db, zSql, uint64(nBytes))
if !(zSqlCopy != 0) {
goto __13
}
Xsqlite3RunParser(tls, bp+16, zSqlCopy)
(*Parse)(unsafe.Pointer(bp + 16)).FzTail = zSql + uintptr((int64((*Parse)(unsafe.Pointer(bp+16)).FzTail)-int64(zSqlCopy))/1)
Xsqlite3DbFree(tls, db, zSqlCopy)
goto __14
__13:
(*Parse)(unsafe.Pointer(bp + 16)).FzTail = zSql + uintptr(nBytes)
__14:
;
goto __11
__10:
Xsqlite3RunParser(tls, bp+16, zSql)
__11:
;
if !(pzTail != 0) {
goto __15
}
*(*uintptr)(unsafe.Pointer(pzTail)) = (*Parse)(unsafe.Pointer(bp + 16)).FzTail
__15:
;
if !(int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) == 0) {
goto __16
}
Xsqlite3VdbeSetSql(tls, (*Parse)(unsafe.Pointer(bp+16)).FpVdbe, zSql, int32((int64((*Parse)(unsafe.Pointer(bp+16)).FzTail)-int64(zSql))/1), uint8(prepFlags))
__16:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __17
}
(*Parse)(unsafe.Pointer(bp + 16)).Frc = SQLITE_NOMEM
(*Parse)(unsafe.Pointer(bp + 16)).FcheckSchema = U8(0)
__17:
;
if !((*Parse)(unsafe.Pointer(bp+16)).Frc != SQLITE_OK && (*Parse)(unsafe.Pointer(bp+16)).Frc != SQLITE_DONE) {
goto __18
}
if !((*Parse)(unsafe.Pointer(bp+16)).FcheckSchema != 0 && int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) == 0) {
goto __20
}
schemaIsValid(tls, bp+16)
__20:
;
if !((*Parse)(unsafe.Pointer(bp+16)).FpVdbe != 0) {
goto __21
}
Xsqlite3VdbeFinalize(tls, (*Parse)(unsafe.Pointer(bp+16)).FpVdbe)
__21:
;
rc = (*Parse)(unsafe.Pointer(bp + 16)).Frc
if !((*Parse)(unsafe.Pointer(bp+16)).FzErrMsg != 0) {
goto __22
}
Xsqlite3ErrorWithMsg(tls, db, rc, ts+3658, libc.VaList(bp+8, (*Parse)(unsafe.Pointer(bp+16)).FzErrMsg))
Xsqlite3DbFree(tls, db, (*Parse)(unsafe.Pointer(bp+16)).FzErrMsg)
goto __23
__22:
Xsqlite3Error(tls, db, rc)
__23:
;
goto __19
__18:
;
*(*uintptr)(unsafe.Pointer(ppStmt)) = (*Parse)(unsafe.Pointer(bp + 16)).FpVdbe
rc = SQLITE_OK
Xsqlite3ErrorClear(tls, db)
__19:
;
__24:
if !((*Parse)(unsafe.Pointer(bp+16)).FpTriggerPrg != 0) {
goto __25
}
pT = (*Parse)(unsafe.Pointer(bp + 16)).FpTriggerPrg
(*Parse)(unsafe.Pointer(bp + 16)).FpTriggerPrg = (*TriggerPrg)(unsafe.Pointer(pT)).FpNext
Xsqlite3DbFree(tls, db, pT)
goto __24
__25:
;
end_prepare:
Xsqlite3ParseObjectReset(tls, bp+16)
return rc
}
func sqlite3LockAndPrepare(tls *libc.TLS, db uintptr, zSql uintptr, nBytes int32, prepFlags U32, pOld uintptr, ppStmt uintptr, pzTail uintptr) int32 {
var rc int32
var cnt int32 = 0
*(*uintptr)(unsafe.Pointer(ppStmt)) = uintptr(0)
if !(Xsqlite3SafetyCheckOk(tls, db) != 0) || zSql == uintptr(0) {
return Xsqlite3MisuseError(tls, 137995)
}
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
Xsqlite3BtreeEnterAll(tls, db)
for __ccgo := true; __ccgo; __ccgo = rc == SQLITE_ERROR|int32(2)<<8 && libc.PostIncInt32(&cnt, 1) < SQLITE_MAX_PREPARE_RETRY ||
rc == SQLITE_SCHEMA && func() int32 { Xsqlite3ResetOneSchema(tls, db, -1); return libc.PostIncInt32(&cnt, 1) }() == 0 {
rc = sqlite3Prepare(tls, db, zSql, nBytes, prepFlags, pOld, ppStmt, pzTail)
if rc == SQLITE_OK || (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
break
}
}
Xsqlite3BtreeLeaveAll(tls, db)
rc = Xsqlite3ApiExit(tls, db, rc)
(*Sqlite3)(unsafe.Pointer(db)).FbusyHandler.FnBusy = 0
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Rerun the compilation of a statement after a schema change.
//
// If the statement is successfully recompiled, return SQLITE_OK. Otherwise,
// if the statement cannot be recompiled because another connection has
// locked the sqlite3_schema table, return SQLITE_LOCKED. If any other error
// occurs, return SQLITE_SCHEMA.
func Xsqlite3Reprepare(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
var zSql uintptr
var db uintptr
var prepFlags U8
zSql = Xsqlite3_sql(tls, p)
db = Xsqlite3VdbeDb(tls, p)
prepFlags = Xsqlite3VdbePrepareFlags(tls, p)
rc = sqlite3LockAndPrepare(tls, db, zSql, -1, uint32(prepFlags), p, bp, uintptr(0))
if rc != 0 {
if rc == SQLITE_NOMEM {
Xsqlite3OomFault(tls, db)
}
return rc
} else {
}
Xsqlite3VdbeSwap(tls, *(*uintptr)(unsafe.Pointer(bp)), p)
Xsqlite3TransferBindings(tls, *(*uintptr)(unsafe.Pointer(bp)), p)
Xsqlite3VdbeResetStepResult(tls, *(*uintptr)(unsafe.Pointer(bp)))
Xsqlite3VdbeFinalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
return SQLITE_OK
}
// Two versions of the official API. Legacy and new use. In the legacy
// version, the original SQL text is not saved in the prepared statement
// and so if a schema change occurs, SQLITE_SCHEMA is returned by
// sqlite3_step(). In the new version, the original SQL text is retained
// and the statement is automatically recompiled if an schema change
// occurs.
func Xsqlite3_prepare(tls *libc.TLS, db uintptr, zSql uintptr, nBytes int32, ppStmt uintptr, pzTail uintptr) int32 {
var rc int32
rc = sqlite3LockAndPrepare(tls, db, zSql, nBytes, uint32(0), uintptr(0), ppStmt, pzTail)
return rc
}
func Xsqlite3_prepare_v2(tls *libc.TLS, db uintptr, zSql uintptr, nBytes int32, ppStmt uintptr, pzTail uintptr) int32 {
var rc int32
rc = sqlite3LockAndPrepare(tls, db, zSql, nBytes, uint32(SQLITE_PREPARE_SAVESQL), uintptr(0),
ppStmt, pzTail)
return rc
}
func Xsqlite3_prepare_v3(tls *libc.TLS, db uintptr, zSql uintptr, nBytes int32, prepFlags uint32, ppStmt uintptr, pzTail uintptr) int32 {
var rc int32
rc = sqlite3LockAndPrepare(tls, db, zSql, nBytes,
uint32(SQLITE_PREPARE_SAVESQL)|prepFlags&uint32(SQLITE_PREPARE_MASK),
uintptr(0), ppStmt, pzTail)
return rc
}
func sqlite3Prepare16(tls *libc.TLS, db uintptr, zSql uintptr, nBytes int32, prepFlags U32, ppStmt uintptr, pzTail uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var zSql8 uintptr
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var rc int32 = SQLITE_OK
*(*uintptr)(unsafe.Pointer(ppStmt)) = uintptr(0)
if !(Xsqlite3SafetyCheckOk(tls, db) != 0) || zSql == uintptr(0) {
return Xsqlite3MisuseError(tls, 138143)
}
if nBytes >= 0 {
var sz int32
var z uintptr = zSql
for sz = 0; sz < nBytes && (int32(*(*int8)(unsafe.Pointer(z + uintptr(sz)))) != 0 || int32(*(*int8)(unsafe.Pointer(z + uintptr(sz+1)))) != 0); sz = sz + 2 {
}
nBytes = sz
}
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
zSql8 = Xsqlite3Utf16to8(tls, db, zSql, nBytes, uint8(SQLITE_UTF16LE))
if zSql8 != 0 {
rc = sqlite3LockAndPrepare(tls, db, zSql8, -1, prepFlags, uintptr(0), ppStmt, bp)
}
if *(*uintptr)(unsafe.Pointer(bp)) != 0 && pzTail != 0 {
var chars_parsed int32 = Xsqlite3Utf8CharLen(tls, zSql8, int32((int64(*(*uintptr)(unsafe.Pointer(bp)))-int64(zSql8))/1))
*(*uintptr)(unsafe.Pointer(pzTail)) = zSql + uintptr(Xsqlite3Utf16ByteLen(tls, zSql, chars_parsed))
}
Xsqlite3DbFree(tls, db, zSql8)
rc = Xsqlite3ApiExit(tls, db, rc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Two versions of the official API. Legacy and new use. In the legacy
// version, the original SQL text is not saved in the prepared statement
// and so if a schema change occurs, SQLITE_SCHEMA is returned by
// sqlite3_step(). In the new version, the original SQL text is retained
// and the statement is automatically recompiled if an schema change
// occurs.
func Xsqlite3_prepare16(tls *libc.TLS, db uintptr, zSql uintptr, nBytes int32, ppStmt uintptr, pzTail uintptr) int32 {
var rc int32
rc = sqlite3Prepare16(tls, db, zSql, nBytes, uint32(0), ppStmt, pzTail)
return rc
}
func Xsqlite3_prepare16_v2(tls *libc.TLS, db uintptr, zSql uintptr, nBytes int32, ppStmt uintptr, pzTail uintptr) int32 {
var rc int32
rc = sqlite3Prepare16(tls, db, zSql, nBytes, uint32(SQLITE_PREPARE_SAVESQL), ppStmt, pzTail)
return rc
}
func Xsqlite3_prepare16_v3(tls *libc.TLS, db uintptr, zSql uintptr, nBytes int32, prepFlags uint32, ppStmt uintptr, pzTail uintptr) int32 {
var rc int32
rc = sqlite3Prepare16(tls, db, zSql, nBytes,
uint32(SQLITE_PREPARE_SAVESQL)|prepFlags&uint32(SQLITE_PREPARE_MASK),
ppStmt, pzTail)
return rc
}
// An instance of the following object is used to record information about
// how to process the DISTINCT keyword, to simplify passing that information
// into the selectInnerLoop() routine.
type DistinctCtx1 = struct {
FisTnct U8
FeTnctType U8
F__ccgo_pad1 [2]byte
FtabTnct int32
FaddrTnct int32
}
// An instance of the following object is used to record information about
// how to process the DISTINCT keyword, to simplify passing that information
// into the selectInnerLoop() routine.
type DistinctCtx = DistinctCtx1
// An instance of the following object is used to record information about
// the ORDER BY (or GROUP BY) clause of query is being coded.
//
// The aDefer[] array is used by the sorter-references optimization. For
// example, assuming there is no index that can be used for the ORDER BY,
// for the query:
//
// SELECT a, bigblob FROM t1 ORDER BY a LIMIT 10;
//
// it may be more efficient to add just the "a" values to the sorter, and
// retrieve the associated "bigblob" values directly from table t1 as the
// 10 smallest "a" values are extracted from the sorter.
//
// When the sorter-reference optimization is used, there is one entry in the
// aDefer[] array for each database table that may be read as values are
// extracted from the sorter.
type SortCtx1 = struct {
FpOrderBy uintptr
FnOBSat int32
FiECursor int32
FregReturn int32
FlabelBkOut int32
FaddrSortIndex int32
FlabelDone int32
FlabelOBLopt int32
FsortFlags U8
F__ccgo_pad1 [3]byte
FpDeferredRowLoad uintptr
}
// An instance of the following object is used to record information about
// the ORDER BY (or GROUP BY) clause of query is being coded.
//
// The aDefer[] array is used by the sorter-references optimization. For
// example, assuming there is no index that can be used for the ORDER BY,
// for the query:
//
// SELECT a, bigblob FROM t1 ORDER BY a LIMIT 10;
//
// it may be more efficient to add just the "a" values to the sorter, and
// retrieve the associated "bigblob" values directly from table t1 as the
// 10 smallest "a" values are extracted from the sorter.
//
// When the sorter-reference optimization is used, there is one entry in the
// aDefer[] array for each database table that may be read as values are
// extracted from the sorter.
type SortCtx = SortCtx1
type RowLoadInfo1 = struct {
FregResult int32
FecelFlags U8
F__ccgo_pad1 [3]byte
}
func clearSelect(tls *libc.TLS, db uintptr, p uintptr, bFree int32) {
for p != 0 {
var pPrior uintptr = (*Select)(unsafe.Pointer(p)).FpPrior
Xsqlite3ExprListDelete(tls, db, (*Select)(unsafe.Pointer(p)).FpEList)
Xsqlite3SrcListDelete(tls, db, (*Select)(unsafe.Pointer(p)).FpSrc)
Xsqlite3ExprDelete(tls, db, (*Select)(unsafe.Pointer(p)).FpWhere)
Xsqlite3ExprListDelete(tls, db, (*Select)(unsafe.Pointer(p)).FpGroupBy)
Xsqlite3ExprDelete(tls, db, (*Select)(unsafe.Pointer(p)).FpHaving)
Xsqlite3ExprListDelete(tls, db, (*Select)(unsafe.Pointer(p)).FpOrderBy)
Xsqlite3ExprDelete(tls, db, (*Select)(unsafe.Pointer(p)).FpLimit)
if (*Select)(unsafe.Pointer(p)).FpWith != 0 {
Xsqlite3WithDelete(tls, db, (*Select)(unsafe.Pointer(p)).FpWith)
}
if (*Select)(unsafe.Pointer(p)).FpWinDefn != 0 {
Xsqlite3WindowListDelete(tls, db, (*Select)(unsafe.Pointer(p)).FpWinDefn)
}
for (*Select)(unsafe.Pointer(p)).FpWin != 0 {
Xsqlite3WindowUnlinkFromSelect(tls, (*Select)(unsafe.Pointer(p)).FpWin)
}
if bFree != 0 {
Xsqlite3DbNNFreeNN(tls, db, p)
}
p = pPrior
bFree = 1
}
}
// Initialize a SelectDest structure.
func Xsqlite3SelectDestInit(tls *libc.TLS, pDest uintptr, eDest int32, iParm int32) {
(*SelectDest)(unsafe.Pointer(pDest)).FeDest = U8(eDest)
(*SelectDest)(unsafe.Pointer(pDest)).FiSDParm = iParm
(*SelectDest)(unsafe.Pointer(pDest)).FiSDParm2 = 0
(*SelectDest)(unsafe.Pointer(pDest)).FzAffSdst = uintptr(0)
(*SelectDest)(unsafe.Pointer(pDest)).FiSdst = 0
(*SelectDest)(unsafe.Pointer(pDest)).FnSdst = 0
}
// Allocate a new Select structure and return a pointer to that
// structure.
func Xsqlite3SelectNew(tls *libc.TLS, pParse uintptr, pEList uintptr, pSrc uintptr, pWhere uintptr, pGroupBy uintptr, pHaving uintptr, pOrderBy uintptr, selFlags U32, pLimit uintptr) uintptr {
bp := tls.Alloc(128)
defer tls.Free(128)
var pNew uintptr
var pAllocated uintptr
pAllocated = libc.AssignUintptr(&pNew, Xsqlite3DbMallocRawNN(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(Select{}))))
if pNew == uintptr(0) {
pNew = bp
}
if pEList == uintptr(0) {
pEList = Xsqlite3ExprListAppend(tls, pParse, uintptr(0),
Xsqlite3Expr(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, TK_ASTERISK, uintptr(0)))
}
(*Select)(unsafe.Pointer(pNew)).FpEList = pEList
(*Select)(unsafe.Pointer(pNew)).Fop = U8(TK_SELECT)
(*Select)(unsafe.Pointer(pNew)).FselFlags = selFlags
(*Select)(unsafe.Pointer(pNew)).FiLimit = 0
(*Select)(unsafe.Pointer(pNew)).FiOffset = 0
(*Select)(unsafe.Pointer(pNew)).FselId = U32(libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnSelect, 1))
*(*int32)(unsafe.Pointer(pNew + 20)) = -1
*(*int32)(unsafe.Pointer(pNew + 20 + 1*4)) = -1
(*Select)(unsafe.Pointer(pNew)).FnSelectRow = int16(0)
if pSrc == uintptr(0) {
pSrc = Xsqlite3DbMallocZero(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(SrcList{})))
}
(*Select)(unsafe.Pointer(pNew)).FpSrc = pSrc
(*Select)(unsafe.Pointer(pNew)).FpWhere = pWhere
(*Select)(unsafe.Pointer(pNew)).FpGroupBy = pGroupBy
(*Select)(unsafe.Pointer(pNew)).FpHaving = pHaving
(*Select)(unsafe.Pointer(pNew)).FpOrderBy = pOrderBy
(*Select)(unsafe.Pointer(pNew)).FpPrior = uintptr(0)
(*Select)(unsafe.Pointer(pNew)).FpNext = uintptr(0)
(*Select)(unsafe.Pointer(pNew)).FpLimit = pLimit
(*Select)(unsafe.Pointer(pNew)).FpWith = uintptr(0)
(*Select)(unsafe.Pointer(pNew)).FpWin = uintptr(0)
(*Select)(unsafe.Pointer(pNew)).FpWinDefn = uintptr(0)
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed != 0 {
clearSelect(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pNew, libc.Bool32(pNew != bp))
pAllocated = uintptr(0)
} else {
}
return pAllocated
}
// Delete the given Select structure and all of its substructures.
func Xsqlite3SelectDelete(tls *libc.TLS, db uintptr, p uintptr) {
if p != 0 {
clearSelect(tls, db, p, 1)
}
}
func findRightmost(tls *libc.TLS, p uintptr) uintptr {
for (*Select)(unsafe.Pointer(p)).FpNext != 0 {
p = (*Select)(unsafe.Pointer(p)).FpNext
}
return p
}
// Given 1 to 3 identifiers preceding the JOIN keyword, determine the
// type of join. Return an integer constant that expresses that type
// in terms of the following bit values:
//
// JT_INNER
// JT_CROSS
// JT_OUTER
// JT_NATURAL
// JT_LEFT
// JT_RIGHT
//
// A full outer join is the combination of JT_LEFT and JT_RIGHT.
//
// If an illegal or unsupported join type is seen, then still return
// a join type, but put an error in the pParse structure.
//
// These are the valid join types:
//
// pA pB pC Return Value
// ------- ----- ----- ------------
// CROSS - - JT_CROSS
// INNER - - JT_INNER
// LEFT - - JT_LEFT|JT_OUTER
// LEFT OUTER - JT_LEFT|JT_OUTER
// RIGHT - - JT_RIGHT|JT_OUTER
// RIGHT OUTER - JT_RIGHT|JT_OUTER
// FULL - - JT_LEFT|JT_RIGHT|JT_OUTER
// FULL OUTER - JT_LEFT|JT_RIGHT|JT_OUTER
// NATURAL INNER - JT_NATURAL|JT_INNER
// NATURAL LEFT - JT_NATURAL|JT_LEFT|JT_OUTER
// NATURAL LEFT OUTER JT_NATURAL|JT_LEFT|JT_OUTER
// NATURAL RIGHT - JT_NATURAL|JT_RIGHT|JT_OUTER
// NATURAL RIGHT OUTER JT_NATURAL|JT_RIGHT|JT_OUTER
// NATURAL FULL - JT_NATURAL|JT_LEFT|JT_RIGHT
// NATURAL FULL OUTER JT_NATRUAL|JT_LEFT|JT_RIGHT
//
// To preserve historical compatibly, SQLite also accepts a variety
// of other non-standard and in many cases non-sensical join types.
// This routine makes as much sense at it can from the nonsense join
// type and returns a result. Examples of accepted nonsense join types
// include but are not limited to:
//
// INNER CROSS JOIN -> same as JOIN
// NATURAL CROSS JOIN -> same as NATURAL JOIN
// OUTER LEFT JOIN -> same as LEFT JOIN
// LEFT NATURAL JOIN -> same as NATURAL LEFT JOIN
// LEFT RIGHT JOIN -> same as FULL JOIN
// RIGHT OUTER FULL JOIN -> same as FULL JOIN
// CROSS CROSS CROSS JOIN -> same as JOIN
//
// The only restrictions on the join type name are:
//
// - "INNER" cannot appear together with "OUTER", "LEFT", "RIGHT",
// or "FULL".
//
// - "CROSS" cannot appear together with "OUTER", "LEFT", "RIGHT,
// or "FULL".
//
// - If "OUTER" is present then there must also be one of
// "LEFT", "RIGHT", or "FULL"
func Xsqlite3JoinType(tls *libc.TLS, pParse uintptr, pA uintptr, pB uintptr, pC uintptr) int32 {
bp := tls.Alloc(64)
defer tls.Free(64)
var jointype int32 = 0
var p uintptr
var i int32
var j int32
*(*uintptr)(unsafe.Pointer(bp + 40)) = pA
*(*uintptr)(unsafe.Pointer(bp + 40 + 1*8)) = pB
*(*uintptr)(unsafe.Pointer(bp + 40 + 2*8)) = pC
for i = 0; i < 3 && *(*uintptr)(unsafe.Pointer(bp + 40 + uintptr(i)*8)) != 0; i++ {
p = *(*uintptr)(unsafe.Pointer(bp + 40 + uintptr(i)*8))
for j = 0; j < int32(uint64(unsafe.Sizeof(aKeyword))/uint64(unsafe.Sizeof(struct {
Fi U8
FnChar U8
Fcode U8
}{}))); j++ {
if (*Token)(unsafe.Pointer(p)).Fn == uint32(aKeyword[j].FnChar) &&
Xsqlite3_strnicmp(tls, (*Token)(unsafe.Pointer(p)).Fz, uintptr(unsafe.Pointer(&zKeyText))+uintptr(aKeyword[j].Fi), int32((*Token)(unsafe.Pointer(p)).Fn)) == 0 {
jointype = jointype | int32(aKeyword[j].Fcode)
break
}
}
if j >= int32(uint64(unsafe.Sizeof(aKeyword))/uint64(unsafe.Sizeof(struct {
Fi U8
FnChar U8
Fcode U8
}{}))) {
jointype = jointype | JT_ERROR
break
}
}
if jointype&(JT_INNER|JT_OUTER) == JT_INNER|JT_OUTER || jointype&JT_ERROR != 0 || jointype&(JT_OUTER|JT_LEFT|JT_RIGHT) == JT_OUTER {
var zSp1 uintptr = ts + 11323
var zSp2 uintptr = ts + 11323
if pB == uintptr(0) {
zSp1++
}
if pC == uintptr(0) {
zSp2++
}
Xsqlite3ErrorMsg(tls, pParse,
ts+18936, libc.VaList(bp, pA, zSp1, pB, zSp2, pC))
jointype = JT_INNER
}
return jointype
}
var zKeyText = *(*[34]int8)(unsafe.Pointer(ts + 18966))
var aKeyword = [7]struct {
Fi U8
FnChar U8
Fcode U8
}{
{FnChar: U8(7), Fcode: U8(JT_NATURAL)},
{Fi: U8(6), FnChar: U8(4), Fcode: U8(JT_LEFT | JT_OUTER)},
{Fi: U8(10), FnChar: U8(5), Fcode: U8(JT_OUTER)},
{Fi: U8(14), FnChar: U8(5), Fcode: U8(JT_RIGHT | JT_OUTER)},
{Fi: U8(19), FnChar: U8(4), Fcode: U8(JT_LEFT | JT_RIGHT | JT_OUTER)},
{Fi: U8(23), FnChar: U8(5), Fcode: U8(JT_INNER)},
{Fi: U8(28), FnChar: U8(5), Fcode: U8(JT_INNER | JT_CROSS)},
}
// Return the index of a column in a table. Return -1 if the column
// is not contained in the table.
func Xsqlite3ColumnIndex(tls *libc.TLS, pTab uintptr, zCol uintptr) int32 {
var i int32
var h U8 = Xsqlite3StrIHash(tls, zCol)
var pCol uintptr
pCol = (*Table)(unsafe.Pointer(pTab)).FaCol
i = 0
__1:
if !(i < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __3
}
{
if int32((*Column)(unsafe.Pointer(pCol)).FhName) == int32(h) && Xsqlite3StrICmp(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName, zCol) == 0 {
return i
}
}
goto __2
__2:
pCol += 24
i++
goto __1
goto __3
__3:
;
return -1
}
// Mark a subquery result column as having been used.
func Xsqlite3SrcItemColumnUsed(tls *libc.TLS, pItem uintptr, iCol int32) {
if uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x2000>>13)) != 0 {
var pResults uintptr
pResults = (*Select)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pItem)).FpSelect)).FpEList
libc.SetBitFieldPtr16Uint32(pResults+8+uintptr(iCol)*32+16+4, uint32(1), 6, 0x40)
}
}
func tableAndColumnIndex(tls *libc.TLS, pSrc uintptr, iStart int32, iEnd int32, zCol uintptr, piTab uintptr, piCol uintptr, bIgnoreHidden int32) int32 {
var i int32
var iCol int32
for i = iStart; i <= iEnd; i++ {
iCol = Xsqlite3ColumnIndex(tls, (*SrcItem)(unsafe.Pointer(pSrc+8+uintptr(i)*104)).FpTab, zCol)
if iCol >= 0 &&
(bIgnoreHidden == 0 || libc.Bool32(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pSrc+8+uintptr(i)*104)).FpTab)).FaCol+uintptr(iCol)*24)).FcolFlags)&COLFLAG_HIDDEN != 0) == 0) {
if piTab != 0 {
Xsqlite3SrcItemColumnUsed(tls, pSrc+8+uintptr(i)*104, iCol)
*(*int32)(unsafe.Pointer(piTab)) = i
*(*int32)(unsafe.Pointer(piCol)) = iCol
}
return 1
}
}
return 0
}
// Set the EP_OuterON property on all terms of the given expression.
// And set the Expr.w.iJoin to iTable for every term in the
// expression.
//
// The EP_OuterON property is used on terms of an expression to tell
// the OUTER JOIN processing logic that this term is part of the
// join restriction specified in the ON or USING clause and not a part
// of the more general WHERE clause. These terms are moved over to the
// WHERE clause during join processing but we need to remember that they
// originated in the ON or USING clause.
//
// The Expr.w.iJoin tells the WHERE clause processing that the
// expression depends on table w.iJoin even if that table is not
// explicitly mentioned in the expression. That information is needed
// for cases like this:
//
// SELECT * FROM t1 LEFT JOIN t2 ON t1.a=t2.b AND t1.x=5
//
// The where clause needs to defer the handling of the t1.x=5
// term until after the t2 loop of the join. In that way, a
// NULL t2 row will be inserted whenever t1.x!=5. If we do not
// defer the handling of t1.x=5, it will be processed immediately
// after the t1 loop and rows with t1.x!=5 will never appear in
// the output, which is incorrect.
func Xsqlite3SetJoinExpr(tls *libc.TLS, p uintptr, iTable int32, joinFlag U32) {
for p != 0 {
*(*U32)(unsafe.Pointer(p + 4)) |= joinFlag
*(*int32)(unsafe.Pointer(p + 52)) = iTable
if int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_FUNCTION {
if *(*uintptr)(unsafe.Pointer(p + 32)) != 0 {
var i int32
for i = 0; i < (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 32)))).FnExpr; i++ {
Xsqlite3SetJoinExpr(tls, (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 32))+8+uintptr(i)*32)).FpExpr, iTable, joinFlag)
}
}
}
Xsqlite3SetJoinExpr(tls, (*Expr)(unsafe.Pointer(p)).FpLeft, iTable, joinFlag)
p = (*Expr)(unsafe.Pointer(p)).FpRight
}
}
func unsetJoinExpr(tls *libc.TLS, p uintptr, iTable int32, nullable int32) {
for p != 0 {
if iTable < 0 || (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_OuterON) != U32(0) && *(*int32)(unsafe.Pointer(p + 52)) == iTable {
*(*U32)(unsafe.Pointer(p + 4)) &= libc.Uint32FromInt32(libc.CplInt32(EP_OuterON | EP_InnerON))
if iTable >= 0 {
*(*U32)(unsafe.Pointer(p + 4)) |= U32(EP_InnerON)
}
}
if int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_COLUMN && (*Expr)(unsafe.Pointer(p)).FiTable == iTable && !(nullable != 0) {
*(*U32)(unsafe.Pointer(p + 4)) &= libc.Uint32FromInt32(libc.CplInt32(EP_CanBeNull))
}
if int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_FUNCTION {
if *(*uintptr)(unsafe.Pointer(p + 32)) != 0 {
var i int32
for i = 0; i < (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 32)))).FnExpr; i++ {
unsetJoinExpr(tls, (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 32))+8+uintptr(i)*32)).FpExpr, iTable, nullable)
}
}
}
unsetJoinExpr(tls, (*Expr)(unsafe.Pointer(p)).FpLeft, iTable, nullable)
p = (*Expr)(unsafe.Pointer(p)).FpRight
}
}
func sqlite3ProcessJoin(tls *libc.TLS, pParse uintptr, p uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var pSrc uintptr
var i int32
var j int32
var pLeft uintptr
var pRight uintptr
pSrc = (*Select)(unsafe.Pointer(p)).FpSrc
pLeft = pSrc + 8
pRight = pLeft + 1*104
i = 0
__1:
if !(i < (*SrcList)(unsafe.Pointer(pSrc)).FnSrc-1) {
goto __3
}
{
var pRightTab uintptr = (*SrcItem)(unsafe.Pointer(pRight)).FpTab
var joinType U32
if (*SrcItem)(unsafe.Pointer(pLeft)).FpTab == uintptr(0) || pRightTab == uintptr(0) {
goto __2
}
if int32((*SrcItem)(unsafe.Pointer(pRight)).Ffg.Fjointype)&JT_OUTER != 0 {
joinType = uint32(EP_OuterON)
} else {
joinType = uint32(EP_InnerON)
}
if int32((*SrcItem)(unsafe.Pointer(pRight)).Ffg.Fjointype)&JT_NATURAL != 0 {
var pUsing uintptr = uintptr(0)
if uint32(int32(*(*uint16)(unsafe.Pointer(pRight + 60 + 4))&0x400>>10)) != 0 || *(*uintptr)(unsafe.Pointer(pRight + 72)) != 0 {
Xsqlite3ErrorMsg(tls, pParse,
ts+19000, libc.VaList(bp, 0))
return 1
}
for j = 0; j < int32((*Table)(unsafe.Pointer(pRightTab)).FnCol); j++ {
var zName uintptr
if int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pRightTab)).FaCol+uintptr(j)*24)).FcolFlags)&COLFLAG_HIDDEN != 0 {
continue
}
zName = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pRightTab)).FaCol + uintptr(j)*24)).FzCnName
if tableAndColumnIndex(tls, pSrc, 0, i, zName, uintptr(0), uintptr(0), 1) != 0 {
pUsing = Xsqlite3IdListAppend(tls, pParse, pUsing, uintptr(0))
if pUsing != 0 {
(*IdList_item)(unsafe.Pointer(pUsing + 8 + uintptr((*IdList)(unsafe.Pointer(pUsing)).FnId-1)*16)).FzName = Xsqlite3DbStrDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, zName)
}
}
}
if pUsing != 0 {
libc.SetBitFieldPtr16Uint32(pRight+60+4, uint32(1), 10, 0x400)
libc.SetBitFieldPtr16Uint32(pRight+60+4, uint32(1), 12, 0x1000)
*(*uintptr)(unsafe.Pointer(pRight + 72)) = pUsing
}
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return 1
}
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pRight + 60 + 4))&0x400>>10)) != 0 {
var pList uintptr = *(*uintptr)(unsafe.Pointer(pRight + 72))
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
for j = 0; j < (*IdList)(unsafe.Pointer(pList)).FnId; j++ {
var zName uintptr
var iRightCol int32
var pE1 uintptr
var pE2 uintptr
var pEq uintptr
zName = (*IdList_item)(unsafe.Pointer(pList + 8 + uintptr(j)*16)).FzName
iRightCol = Xsqlite3ColumnIndex(tls, pRightTab, zName)
if iRightCol < 0 ||
tableAndColumnIndex(tls, pSrc, 0, i, zName, bp+24, bp+28,
int32(*(*uint16)(unsafe.Pointer(pRight + 60 + 4))&0x1000>>12)) == 0 {
Xsqlite3ErrorMsg(tls, pParse,
ts+19050, libc.VaList(bp+8, zName))
return 1
}
pE1 = Xsqlite3CreateColumnExpr(tls, db, pSrc, *(*int32)(unsafe.Pointer(bp + 24)), *(*int32)(unsafe.Pointer(bp + 28)))
Xsqlite3SrcItemColumnUsed(tls, pSrc+8+uintptr(*(*int32)(unsafe.Pointer(bp + 24)))*104, *(*int32)(unsafe.Pointer(bp + 28)))
if int32((*SrcItem)(unsafe.Pointer(pSrc+8)).Ffg.Fjointype)&JT_LTORJ != 0 {
var pFuncArgs uintptr = uintptr(0)
for tableAndColumnIndex(tls, pSrc, *(*int32)(unsafe.Pointer(bp + 24))+1, i, zName, bp+24, bp+28,
int32(*(*uint16)(unsafe.Pointer(pRight + 60 + 4))&0x1000>>12)) != 0 {
if int32(*(*uint16)(unsafe.Pointer(pSrc + 8 + uintptr(*(*int32)(unsafe.Pointer(bp + 24)))*104 + 60 + 4))&0x400>>10) == 0 ||
Xsqlite3IdListIndex(tls, *(*uintptr)(unsafe.Pointer(pSrc + 8 + uintptr(*(*int32)(unsafe.Pointer(bp + 24)))*104 + 72)), zName) < 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+19114,
libc.VaList(bp+16, zName))
break
}
pFuncArgs = Xsqlite3ExprListAppend(tls, pParse, pFuncArgs, pE1)
pE1 = Xsqlite3CreateColumnExpr(tls, db, pSrc, *(*int32)(unsafe.Pointer(bp + 24)), *(*int32)(unsafe.Pointer(bp + 28)))
Xsqlite3SrcItemColumnUsed(tls, pSrc+8+uintptr(*(*int32)(unsafe.Pointer(bp + 24)))*104, *(*int32)(unsafe.Pointer(bp + 28)))
}
if pFuncArgs != 0 {
pFuncArgs = Xsqlite3ExprListAppend(tls, pParse, pFuncArgs, pE1)
pE1 = Xsqlite3ExprFunction(tls, pParse, pFuncArgs, uintptr(unsafe.Pointer(&tkCoalesce)), 0)
}
}
pE2 = Xsqlite3CreateColumnExpr(tls, db, pSrc, i+1, iRightCol)
Xsqlite3SrcItemColumnUsed(tls, pRight, iRightCol)
pEq = Xsqlite3PExpr(tls, pParse, TK_EQ, pE1, pE2)
if pEq != 0 {
*(*U32)(unsafe.Pointer(pEq + 4)) |= joinType
*(*int32)(unsafe.Pointer(pEq + 52)) = (*Expr)(unsafe.Pointer(pE2)).FiTable
}
(*Select)(unsafe.Pointer(p)).FpWhere = Xsqlite3ExprAnd(tls, pParse, (*Select)(unsafe.Pointer(p)).FpWhere, pEq)
}
} else if *(*uintptr)(unsafe.Pointer(pRight + 72)) != 0 {
Xsqlite3SetJoinExpr(tls, *(*uintptr)(unsafe.Pointer(pRight + 72)), (*SrcItem)(unsafe.Pointer(pRight)).FiCursor, joinType)
(*Select)(unsafe.Pointer(p)).FpWhere = Xsqlite3ExprAnd(tls, pParse, (*Select)(unsafe.Pointer(p)).FpWhere, *(*uintptr)(unsafe.Pointer(pRight + 72)))
*(*uintptr)(unsafe.Pointer(pRight + 72)) = uintptr(0)
libc.SetBitFieldPtr16Uint32(pRight+60+4, uint32(1), 11, 0x800)
}
}
goto __2
__2:
i++
pRight += 104
pLeft += 104
goto __1
goto __3
__3:
;
return 0
}
var tkCoalesce = Token{Fz: ts + 6989, Fn: uint32(8)}
// An instance of this object holds information (beyond pParse and pSelect)
// needed to load the next result row that is to be added to the sorter.
type RowLoadInfo = RowLoadInfo1
func innerLoopLoadRow(tls *libc.TLS, pParse uintptr, pSelect uintptr, pInfo uintptr) {
Xsqlite3ExprCodeExprList(tls, pParse, (*Select)(unsafe.Pointer(pSelect)).FpEList, (*RowLoadInfo)(unsafe.Pointer(pInfo)).FregResult,
0, (*RowLoadInfo)(unsafe.Pointer(pInfo)).FecelFlags)
}
func makeSorterRecord(tls *libc.TLS, pParse uintptr, pSort uintptr, pSelect uintptr, regBase int32, nBase int32) int32 {
var nOBSat int32 = (*SortCtx)(unsafe.Pointer(pSort)).FnOBSat
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var regOut int32 = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
if (*SortCtx)(unsafe.Pointer(pSort)).FpDeferredRowLoad != 0 {
innerLoopLoadRow(tls, pParse, pSelect, (*SortCtx)(unsafe.Pointer(pSort)).FpDeferredRowLoad)
}
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regBase+nOBSat, nBase-nOBSat, regOut)
return regOut
}
func pushOntoSorter(tls *libc.TLS, pParse uintptr, pSort uintptr, pSelect uintptr, regData int32, regOrigData int32, nData int32, nPrefixReg int32) {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var bSeq int32 = libc.Bool32(int32((*SortCtx)(unsafe.Pointer(pSort)).FsortFlags)&SORTFLAG_UseSorter == 0)
var nExpr int32 = (*ExprList)(unsafe.Pointer((*SortCtx)(unsafe.Pointer(pSort)).FpOrderBy)).FnExpr
var nBase int32 = nExpr + bSeq + nData
var regBase int32
var regRecord int32 = 0
var nOBSat int32 = (*SortCtx)(unsafe.Pointer(pSort)).FnOBSat
var op int32
var iLimit int32
var iSkip int32 = 0
if nPrefixReg != 0 {
regBase = regData - nPrefixReg
} else {
regBase = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nBase
}
if (*Select)(unsafe.Pointer(pSelect)).FiOffset != 0 {
iLimit = (*Select)(unsafe.Pointer(pSelect)).FiOffset + 1
} else {
iLimit = (*Select)(unsafe.Pointer(pSelect)).FiLimit
}
(*SortCtx)(unsafe.Pointer(pSort)).FlabelDone = Xsqlite3VdbeMakeLabel(tls, pParse)
Xsqlite3ExprCodeExprList(tls, pParse, (*SortCtx)(unsafe.Pointer(pSort)).FpOrderBy, regBase, regOrigData,
uint8(SQLITE_ECEL_DUP|func() int32 {
if regOrigData != 0 {
return SQLITE_ECEL_REF
}
return 0
}()))
if bSeq != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_Sequence, (*SortCtx)(unsafe.Pointer(pSort)).FiECursor, regBase+nExpr)
}
if nPrefixReg == 0 && nData > 0 {
Xsqlite3ExprCodeMove(tls, pParse, regData, regBase+nExpr+bSeq, nData)
}
if nOBSat > 0 {
var regPrevKey int32
var addrFirst int32
var addrJmp int32
var pOp uintptr
var nKey int32
var pKI uintptr
regRecord = makeSorterRecord(tls, pParse, pSort, pSelect, regBase, nBase)
regPrevKey = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += (*SortCtx)(unsafe.Pointer(pSort)).FnOBSat
nKey = nExpr - (*SortCtx)(unsafe.Pointer(pSort)).FnOBSat + bSeq
if bSeq != 0 {
addrFirst = Xsqlite3VdbeAddOp1(tls, v, OP_IfNot, regBase+nExpr)
} else {
addrFirst = Xsqlite3VdbeAddOp1(tls, v, OP_SequenceTest, (*SortCtx)(unsafe.Pointer(pSort)).FiECursor)
}
Xsqlite3VdbeAddOp3(tls, v, OP_Compare, regPrevKey, regBase, (*SortCtx)(unsafe.Pointer(pSort)).FnOBSat)
pOp = Xsqlite3VdbeGetOp(tls, v, (*SortCtx)(unsafe.Pointer(pSort)).FaddrSortIndex)
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed != 0 {
return
}
(*VdbeOp)(unsafe.Pointer(pOp)).Fp2 = nKey + nData
pKI = *(*uintptr)(unsafe.Pointer(pOp + 16))
libc.X__builtin___memset_chk(tls, (*KeyInfo)(unsafe.Pointer(pKI)).FaSortFlags, 0, uint64((*KeyInfo)(unsafe.Pointer(pKI)).FnKeyField), libc.X__builtin_object_size(tls, (*KeyInfo)(unsafe.Pointer(pKI)).FaSortFlags, 0))
Xsqlite3VdbeChangeP4(tls, v, -1, pKI, -8)
*(*uintptr)(unsafe.Pointer(pOp + 16)) = Xsqlite3KeyInfoFromExprList(tls, pParse, (*SortCtx)(unsafe.Pointer(pSort)).FpOrderBy, nOBSat,
int32((*KeyInfo)(unsafe.Pointer(pKI)).FnAllField)-int32((*KeyInfo)(unsafe.Pointer(pKI)).FnKeyField)-1)
pOp = uintptr(0)
addrJmp = Xsqlite3VdbeCurrentAddr(tls, v)
Xsqlite3VdbeAddOp3(tls, v, OP_Jump, addrJmp+1, 0, addrJmp+1)
(*SortCtx)(unsafe.Pointer(pSort)).FlabelBkOut = Xsqlite3VdbeMakeLabel(tls, pParse)
(*SortCtx)(unsafe.Pointer(pSort)).FregReturn = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, (*SortCtx)(unsafe.Pointer(pSort)).FregReturn, (*SortCtx)(unsafe.Pointer(pSort)).FlabelBkOut)
Xsqlite3VdbeAddOp1(tls, v, OP_ResetSorter, (*SortCtx)(unsafe.Pointer(pSort)).FiECursor)
if iLimit != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_IfNot, iLimit, (*SortCtx)(unsafe.Pointer(pSort)).FlabelDone)
}
Xsqlite3VdbeJumpHere(tls, v, addrFirst)
Xsqlite3ExprCodeMove(tls, pParse, regBase, regPrevKey, (*SortCtx)(unsafe.Pointer(pSort)).FnOBSat)
Xsqlite3VdbeJumpHere(tls, v, addrJmp)
}
if iLimit != 0 {
var iCsr int32 = (*SortCtx)(unsafe.Pointer(pSort)).FiECursor
Xsqlite3VdbeAddOp2(tls, v, OP_IfNotZero, iLimit, Xsqlite3VdbeCurrentAddr(tls, v)+4)
Xsqlite3VdbeAddOp2(tls, v, OP_Last, iCsr, 0)
iSkip = Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxLE,
iCsr, 0, regBase+nOBSat, nExpr-nOBSat)
Xsqlite3VdbeAddOp1(tls, v, OP_Delete, iCsr)
}
if regRecord == 0 {
regRecord = makeSorterRecord(tls, pParse, pSort, pSelect, regBase, nBase)
}
if int32((*SortCtx)(unsafe.Pointer(pSort)).FsortFlags)&SORTFLAG_UseSorter != 0 {
op = OP_SorterInsert
} else {
op = OP_IdxInsert
}
Xsqlite3VdbeAddOp4Int(tls, v, op, (*SortCtx)(unsafe.Pointer(pSort)).FiECursor, regRecord,
regBase+nOBSat, nBase-nOBSat)
if iSkip != 0 {
Xsqlite3VdbeChangeP2(tls, v, iSkip,
func() int32 {
if (*SortCtx)(unsafe.Pointer(pSort)).FlabelOBLopt != 0 {
return (*SortCtx)(unsafe.Pointer(pSort)).FlabelOBLopt
}
return Xsqlite3VdbeCurrentAddr(tls, v)
}())
}
}
func codeOffset(tls *libc.TLS, v uintptr, iOffset int32, iContinue int32) {
if iOffset > 0 {
Xsqlite3VdbeAddOp3(tls, v, OP_IfPos, iOffset, iContinue, 1)
}
}
func codeDistinct(tls *libc.TLS, pParse uintptr, eTnctType int32, iTab int32, addrRepeat int32, pEList uintptr, regElem int32) int32 {
var iRet int32 = 0
var nResultCol int32 = (*ExprList)(unsafe.Pointer(pEList)).FnExpr
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
switch eTnctType {
case WHERE_DISTINCT_ORDERED:
{
var i int32
var iJump int32
var regPrev int32
iRet = libc.AssignInt32(&regPrev, (*Parse)(unsafe.Pointer(pParse)).FnMem+1)
*(*int32)(unsafe.Pointer(pParse + 56)) += nResultCol
iJump = Xsqlite3VdbeCurrentAddr(tls, v) + nResultCol
for i = 0; i < nResultCol; i++ {
var pColl uintptr = Xsqlite3ExprCollSeq(tls, pParse, (*ExprList_item)(unsafe.Pointer(pEList+8+uintptr(i)*32)).FpExpr)
if i < nResultCol-1 {
Xsqlite3VdbeAddOp3(tls, v, OP_Ne, regElem+i, iJump, regPrev+i)
} else {
Xsqlite3VdbeAddOp3(tls, v, OP_Eq, regElem+i, addrRepeat, regPrev+i)
}
Xsqlite3VdbeChangeP4(tls, v, -1, pColl, -2)
Xsqlite3VdbeChangeP5(tls, v, uint16(SQLITE_NULLEQ))
}
Xsqlite3VdbeAddOp3(tls, v, OP_Copy, regElem, regPrev, nResultCol-1)
break
}
case WHERE_DISTINCT_UNIQUE:
{
break
}
default:
{
var r1 int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp4Int(tls, v, OP_Found, iTab, addrRepeat, regElem, nResultCol)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regElem, nResultCol, r1)
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, iTab, r1, regElem, nResultCol)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_USESEEKRESULT))
Xsqlite3ReleaseTempReg(tls, pParse, r1)
iRet = iTab
break
}
}
return iRet
}
func fixDistinctOpenEph(tls *libc.TLS, pParse uintptr, eTnctType int32, iVal int32, iOpenEphAddr int32) {
if (*Parse)(unsafe.Pointer(pParse)).FnErr == 0 &&
(eTnctType == WHERE_DISTINCT_UNIQUE || eTnctType == WHERE_DISTINCT_ORDERED) {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
Xsqlite3VdbeChangeToNoop(tls, v, iOpenEphAddr)
if int32((*VdbeOp)(unsafe.Pointer(Xsqlite3VdbeGetOp(tls, v, iOpenEphAddr+1))).Fopcode) == OP_Explain {
Xsqlite3VdbeChangeToNoop(tls, v, iOpenEphAddr+1)
}
if eTnctType == WHERE_DISTINCT_ORDERED {
var pOp uintptr = Xsqlite3VdbeGetOp(tls, v, iOpenEphAddr)
(*VdbeOp)(unsafe.Pointer(pOp)).Fopcode = U8(OP_Null)
(*VdbeOp)(unsafe.Pointer(pOp)).Fp1 = 1
(*VdbeOp)(unsafe.Pointer(pOp)).Fp2 = iVal
}
}
}
func selectInnerLoop(tls *libc.TLS, pParse uintptr, p uintptr, srcTab int32, pSort uintptr, pDistinct uintptr, pDest uintptr, iContinue int32, iBreak int32) {
bp := tls.Alloc(8)
defer tls.Free(8)
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var i int32
var hasDistinct int32
var eDest int32 = int32((*SelectDest)(unsafe.Pointer(pDest)).FeDest)
var iParm int32 = (*SelectDest)(unsafe.Pointer(pDest)).FiSDParm
var nResultCol int32
var nPrefixReg int32 = 0
var regResult int32
var regOrig int32
if pDistinct != 0 {
hasDistinct = int32((*DistinctCtx)(unsafe.Pointer(pDistinct)).FeTnctType)
} else {
hasDistinct = WHERE_DISTINCT_NOOP
}
if pSort != 0 && (*SortCtx)(unsafe.Pointer(pSort)).FpOrderBy == uintptr(0) {
pSort = uintptr(0)
}
if pSort == uintptr(0) && !(hasDistinct != 0) {
codeOffset(tls, v, (*Select)(unsafe.Pointer(p)).FiOffset, iContinue)
}
nResultCol = (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpEList)).FnExpr
if (*SelectDest)(unsafe.Pointer(pDest)).FiSdst == 0 {
if pSort != 0 {
nPrefixReg = (*ExprList)(unsafe.Pointer((*SortCtx)(unsafe.Pointer(pSort)).FpOrderBy)).FnExpr
if !(int32((*SortCtx)(unsafe.Pointer(pSort)).FsortFlags)&SORTFLAG_UseSorter != 0) {
nPrefixReg++
}
*(*int32)(unsafe.Pointer(pParse + 56)) += nPrefixReg
}
(*SelectDest)(unsafe.Pointer(pDest)).FiSdst = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nResultCol
} else if (*SelectDest)(unsafe.Pointer(pDest)).FiSdst+nResultCol > (*Parse)(unsafe.Pointer(pParse)).FnMem {
*(*int32)(unsafe.Pointer(pParse + 56)) += nResultCol
}
(*SelectDest)(unsafe.Pointer(pDest)).FnSdst = nResultCol
regOrig = libc.AssignInt32(&regResult, (*SelectDest)(unsafe.Pointer(pDest)).FiSdst)
if srcTab >= 0 {
for i = 0; i < nResultCol; i++ {
Xsqlite3VdbeAddOp3(tls, v, OP_Column, srcTab, i, regResult+i)
}
} else if eDest != SRT_Exists {
var ecelFlags U8
var pEList uintptr
if eDest == SRT_Mem || eDest == SRT_Output || eDest == SRT_Coroutine {
ecelFlags = U8(SQLITE_ECEL_DUP)
} else {
ecelFlags = U8(0)
}
if pSort != 0 && hasDistinct == 0 && eDest != SRT_EphemTab && eDest != SRT_Table {
ecelFlags = U8(int32(ecelFlags) | (SQLITE_ECEL_OMITREF | SQLITE_ECEL_REF))
for i = (*SortCtx)(unsafe.Pointer(pSort)).FnOBSat; i < (*ExprList)(unsafe.Pointer((*SortCtx)(unsafe.Pointer(pSort)).FpOrderBy)).FnExpr; i++ {
var j int32
if libc.AssignInt32(&j, int32(*(*U16)(unsafe.Pointer((*SortCtx)(unsafe.Pointer(pSort)).FpOrderBy + 8 + uintptr(i)*32 + 24)))) > 0 {
*(*U16)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpEList + 8 + uintptr(j-1)*32 + 24)) = U16(i + 1 - (*SortCtx)(unsafe.Pointer(pSort)).FnOBSat)
}
}
pEList = (*Select)(unsafe.Pointer(p)).FpEList
for i = 0; i < (*ExprList)(unsafe.Pointer(pEList)).FnExpr; i++ {
if int32(*(*U16)(unsafe.Pointer(pEList + 8 + uintptr(i)*32 + 24))) > 0 {
nResultCol--
regOrig = 0
}
}
}
(*RowLoadInfo)(unsafe.Pointer(bp)).FregResult = regResult
(*RowLoadInfo)(unsafe.Pointer(bp)).FecelFlags = ecelFlags
if (*Select)(unsafe.Pointer(p)).FiLimit != 0 &&
int32(ecelFlags)&SQLITE_ECEL_OMITREF != 0 &&
nPrefixReg > 0 {
(*SortCtx)(unsafe.Pointer(pSort)).FpDeferredRowLoad = bp
regOrig = 0
} else {
innerLoopLoadRow(tls, pParse, p, bp)
}
}
if hasDistinct != 0 {
var eType int32 = int32((*DistinctCtx)(unsafe.Pointer(pDistinct)).FeTnctType)
var iTab int32 = (*DistinctCtx)(unsafe.Pointer(pDistinct)).FtabTnct
iTab = codeDistinct(tls, pParse, eType, iTab, iContinue, (*Select)(unsafe.Pointer(p)).FpEList, regResult)
fixDistinctOpenEph(tls, pParse, eType, iTab, (*DistinctCtx)(unsafe.Pointer(pDistinct)).FaddrTnct)
if pSort == uintptr(0) {
codeOffset(tls, v, (*Select)(unsafe.Pointer(p)).FiOffset, iContinue)
}
}
switch eDest {
case SRT_Union:
{
var r1 int32
r1 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regResult, nResultCol, r1)
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, iParm, r1, regResult, nResultCol)
Xsqlite3ReleaseTempReg(tls, pParse, r1)
break
}
case SRT_Except:
{
Xsqlite3VdbeAddOp3(tls, v, OP_IdxDelete, iParm, regResult, nResultCol)
break
}
case SRT_Fifo:
fallthrough
case SRT_DistFifo:
fallthrough
case SRT_Table:
fallthrough
case SRT_EphemTab:
{
var r1 int32 = Xsqlite3GetTempRange(tls, pParse, nPrefixReg+1)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regResult, nResultCol, r1+nPrefixReg)
if eDest == SRT_DistFifo {
var addr int32 = Xsqlite3VdbeCurrentAddr(tls, v) + 4
Xsqlite3VdbeAddOp4Int(tls, v, OP_Found, iParm+1, addr, r1, 0)
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, iParm+1, r1, regResult, nResultCol)
}
if pSort != 0 {
pushOntoSorter(tls, pParse, pSort, p, r1+nPrefixReg, regOrig, 1, nPrefixReg)
} else {
var r2 int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_NewRowid, iParm, r2)
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, iParm, r1, r2)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_APPEND))
Xsqlite3ReleaseTempReg(tls, pParse, r2)
}
Xsqlite3ReleaseTempRange(tls, pParse, r1, nPrefixReg+1)
break
}
case SRT_Upfrom:
{
if pSort != 0 {
pushOntoSorter(tls,
pParse, pSort, p, regResult, regOrig, nResultCol, nPrefixReg)
} else {
var i2 int32 = (*SelectDest)(unsafe.Pointer(pDest)).FiSDParm2
var r1 int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, regResult, iBreak)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord,
regResult+libc.Bool32(i2 < 0), nResultCol-libc.Bool32(i2 < 0), r1)
if i2 < 0 {
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, iParm, r1, regResult)
} else {
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, iParm, r1, regResult, i2)
}
}
break
}
case SRT_Set:
{
if pSort != 0 {
pushOntoSorter(tls,
pParse, pSort, p, regResult, regOrig, nResultCol, nPrefixReg)
} else {
var r1 int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp4(tls, v, OP_MakeRecord, regResult, nResultCol,
r1, (*SelectDest)(unsafe.Pointer(pDest)).FzAffSdst, nResultCol)
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, iParm, r1, regResult, nResultCol)
Xsqlite3ReleaseTempReg(tls, pParse, r1)
}
break
}
case SRT_Exists:
{
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, iParm)
break
}
case SRT_Mem:
{
if pSort != 0 {
pushOntoSorter(tls,
pParse, pSort, p, regResult, regOrig, nResultCol, nPrefixReg)
} else {
}
break
}
case SRT_Coroutine:
fallthrough
case SRT_Output:
{
if pSort != 0 {
pushOntoSorter(tls, pParse, pSort, p, regResult, regOrig, nResultCol,
nPrefixReg)
} else if eDest == SRT_Coroutine {
Xsqlite3VdbeAddOp1(tls, v, OP_Yield, (*SelectDest)(unsafe.Pointer(pDest)).FiSDParm)
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, regResult, nResultCol)
}
break
}
case SRT_DistQueue:
fallthrough
case SRT_Queue:
{
var nKey int32
var r1 int32
var r2 int32
var r3 int32
var addrTest int32 = 0
var pSO uintptr
pSO = (*SelectDest)(unsafe.Pointer(pDest)).FpOrderBy
nKey = (*ExprList)(unsafe.Pointer(pSO)).FnExpr
r1 = Xsqlite3GetTempReg(tls, pParse)
r2 = Xsqlite3GetTempRange(tls, pParse, nKey+2)
r3 = r2 + nKey + 1
if eDest == SRT_DistQueue {
addrTest = Xsqlite3VdbeAddOp4Int(tls, v, OP_Found, iParm+1, 0,
regResult, nResultCol)
}
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regResult, nResultCol, r3)
if eDest == SRT_DistQueue {
Xsqlite3VdbeAddOp2(tls, v, OP_IdxInsert, iParm+1, r3)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_USESEEKRESULT))
}
for i = 0; i < nKey; i++ {
Xsqlite3VdbeAddOp2(tls, v, OP_SCopy,
regResult+int32(*(*U16)(unsafe.Pointer(pSO + 8 + uintptr(i)*32 + 24)))-1,
r2+i)
}
Xsqlite3VdbeAddOp2(tls, v, OP_Sequence, iParm, r2+nKey)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, r2, nKey+2, r1)
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, iParm, r1, r2, nKey+2)
if addrTest != 0 {
Xsqlite3VdbeJumpHere(tls, v, addrTest)
}
Xsqlite3ReleaseTempReg(tls, pParse, r1)
Xsqlite3ReleaseTempRange(tls, pParse, r2, nKey+2)
break
}
default:
{
break
}
}
if pSort == uintptr(0) && (*Select)(unsafe.Pointer(p)).FiLimit != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_DecrJumpZero, (*Select)(unsafe.Pointer(p)).FiLimit, iBreak)
}
}
// Allocate a KeyInfo object sufficient for an index of N key columns and
// X extra columns.
func Xsqlite3KeyInfoAlloc(tls *libc.TLS, db uintptr, N int32, X int32) uintptr {
var nExtra int32 = int32(uint64(N+X)*(uint64(unsafe.Sizeof(uintptr(0)))+uint64(1)) - uint64(unsafe.Sizeof(uintptr(0))))
var p uintptr = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(KeyInfo{}))+uint64(nExtra))
if p != 0 {
(*KeyInfo)(unsafe.Pointer(p)).FaSortFlags = p + 32 + uintptr(N+X)*8
(*KeyInfo)(unsafe.Pointer(p)).FnKeyField = U16(N)
(*KeyInfo)(unsafe.Pointer(p)).FnAllField = U16(N + X)
(*KeyInfo)(unsafe.Pointer(p)).Fenc = (*Sqlite3)(unsafe.Pointer(db)).Fenc
(*KeyInfo)(unsafe.Pointer(p)).Fdb = db
(*KeyInfo)(unsafe.Pointer(p)).FnRef = U32(1)
libc.X__builtin___memset_chk(tls, p+1*40, 0, uint64(nExtra), libc.X__builtin_object_size(tls, p+1*40, 0))
} else {
return Xsqlite3OomFault(tls, db)
}
return p
}
// Deallocate a KeyInfo object
func Xsqlite3KeyInfoUnref(tls *libc.TLS, p uintptr) {
if p != 0 {
(*KeyInfo)(unsafe.Pointer(p)).FnRef--
if (*KeyInfo)(unsafe.Pointer(p)).FnRef == U32(0) {
Xsqlite3DbNNFreeNN(tls, (*KeyInfo)(unsafe.Pointer(p)).Fdb, p)
}
}
}
// Make a new pointer to a KeyInfo object
func Xsqlite3KeyInfoRef(tls *libc.TLS, p uintptr) uintptr {
if p != 0 {
(*KeyInfo)(unsafe.Pointer(p)).FnRef++
}
return p
}
// Given an expression list, generate a KeyInfo structure that records
// the collating sequence for each expression in that expression list.
//
// If the ExprList is an ORDER BY or GROUP BY clause then the resulting
// KeyInfo structure is appropriate for initializing a virtual index to
// implement that clause. If the ExprList is the result set of a SELECT
// then the KeyInfo structure is appropriate for initializing a virtual
// index to implement a DISTINCT test.
//
// Space to hold the KeyInfo structure is obtained from malloc. The calling
// function is responsible for seeing that this structure is eventually
// freed.
func Xsqlite3KeyInfoFromExprList(tls *libc.TLS, pParse uintptr, pList uintptr, iStart int32, nExtra int32) uintptr {
var nExpr int32
var pInfo uintptr
var pItem uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var i int32
nExpr = (*ExprList)(unsafe.Pointer(pList)).FnExpr
pInfo = Xsqlite3KeyInfoAlloc(tls, db, nExpr-iStart, nExtra+1)
if pInfo != 0 {
i = iStart
pItem = pList + 8 + uintptr(iStart)*32
__1:
if !(i < nExpr) {
goto __3
}
{
*(*uintptr)(unsafe.Pointer(pInfo + 32 + uintptr(i-iStart)*8)) = Xsqlite3ExprNNCollSeq(tls, pParse, (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr)
*(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer(pInfo)).FaSortFlags + uintptr(i-iStart))) = (*ExprList_item)(unsafe.Pointer(pItem)).Ffg.FsortFlags
}
goto __2
__2:
i++
pItem += 32
goto __1
goto __3
__3:
}
return pInfo
}
// Name of the connection operator, used for error messages.
func Xsqlite3SelectOpName(tls *libc.TLS, id int32) uintptr {
var z uintptr
switch id {
case TK_ALL:
z = ts + 19151
break
case TK_INTERSECT:
z = ts + 19161
break
case TK_EXCEPT:
z = ts + 19171
break
default:
z = ts + 19178
break
}
return z
}
func explainTempTable(tls *libc.TLS, pParse uintptr, zUsage uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
Xsqlite3VdbeExplain(tls, pParse, uint8(0), ts+19184, libc.VaList(bp, zUsage))
}
func generateSortTail(tls *libc.TLS, pParse uintptr, p uintptr, pSort uintptr, nColumn int32, pDest uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var addrBreak int32 = (*SortCtx)(unsafe.Pointer(pSort)).FlabelDone
var addrContinue int32 = Xsqlite3VdbeMakeLabel(tls, pParse)
var addr int32
var addrOnce int32 = 0
var iTab int32
var pOrderBy uintptr = (*SortCtx)(unsafe.Pointer(pSort)).FpOrderBy
var eDest int32 = int32((*SelectDest)(unsafe.Pointer(pDest)).FeDest)
var iParm int32 = (*SelectDest)(unsafe.Pointer(pDest)).FiSDParm
var regRow int32
var regRowid int32
var iCol int32
var nKey int32
var iSortTab int32
var i int32
var bSeq int32
var nRefKey int32 = 0
var aOutEx uintptr = (*Select)(unsafe.Pointer(p)).FpEList + 8
Xsqlite3VdbeExplain(tls, pParse, uint8(0), ts+19207, libc.VaList(bp, func() uintptr {
if (*SortCtx)(unsafe.Pointer(pSort)).FnOBSat > 0 {
return ts + 19238
}
return ts + 1547
}()))
if (*SortCtx)(unsafe.Pointer(pSort)).FlabelBkOut != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, (*SortCtx)(unsafe.Pointer(pSort)).FregReturn, (*SortCtx)(unsafe.Pointer(pSort)).FlabelBkOut)
Xsqlite3VdbeGoto(tls, v, addrBreak)
Xsqlite3VdbeResolveLabel(tls, v, (*SortCtx)(unsafe.Pointer(pSort)).FlabelBkOut)
}
iTab = (*SortCtx)(unsafe.Pointer(pSort)).FiECursor
if eDest == SRT_Output || eDest == SRT_Coroutine || eDest == SRT_Mem {
if eDest == SRT_Mem && (*Select)(unsafe.Pointer(p)).FiOffset != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, (*SelectDest)(unsafe.Pointer(pDest)).FiSdst)
}
regRowid = 0
regRow = (*SelectDest)(unsafe.Pointer(pDest)).FiSdst
} else {
regRowid = Xsqlite3GetTempReg(tls, pParse)
if eDest == SRT_EphemTab || eDest == SRT_Table {
regRow = Xsqlite3GetTempReg(tls, pParse)
nColumn = 0
} else {
regRow = Xsqlite3GetTempRange(tls, pParse, nColumn)
}
}
nKey = (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr - (*SortCtx)(unsafe.Pointer(pSort)).FnOBSat
if int32((*SortCtx)(unsafe.Pointer(pSort)).FsortFlags)&SORTFLAG_UseSorter != 0 {
var regSortOut int32 = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
iSortTab = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
if (*SortCtx)(unsafe.Pointer(pSort)).FlabelBkOut != 0 {
addrOnce = Xsqlite3VdbeAddOp0(tls, v, OP_Once)
}
Xsqlite3VdbeAddOp3(tls, v, OP_OpenPseudo, iSortTab, regSortOut,
nKey+1+nColumn+nRefKey)
if addrOnce != 0 {
Xsqlite3VdbeJumpHere(tls, v, addrOnce)
}
addr = 1 + Xsqlite3VdbeAddOp2(tls, v, OP_SorterSort, iTab, addrBreak)
Xsqlite3VdbeAddOp3(tls, v, OP_SorterData, iTab, regSortOut, iSortTab)
bSeq = 0
} else {
addr = 1 + Xsqlite3VdbeAddOp2(tls, v, OP_Sort, iTab, addrBreak)
codeOffset(tls, v, (*Select)(unsafe.Pointer(p)).FiOffset, addrContinue)
iSortTab = iTab
bSeq = 1
if (*Select)(unsafe.Pointer(p)).FiOffset > 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, (*Select)(unsafe.Pointer(p)).FiLimit, -1)
}
}
i = 0
iCol = nKey + bSeq - 1
for ; i < nColumn; i++ {
if int32(*(*U16)(unsafe.Pointer(aOutEx + uintptr(i)*32 + 24))) == 0 {
iCol++
}
}
for i = nColumn - 1; i >= 0; i-- {
{
var iRead int32
if *(*U16)(unsafe.Pointer(aOutEx + uintptr(i)*32 + 24)) != 0 {
iRead = int32(*(*U16)(unsafe.Pointer(aOutEx + uintptr(i)*32 + 24))) - 1
} else {
iRead = libc.PostDecInt32(&iCol, 1)
}
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iSortTab, iRead, regRow+i)
}
}
switch eDest {
case SRT_Table:
fallthrough
case SRT_EphemTab:
{
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iSortTab, nKey+bSeq, regRow)
Xsqlite3VdbeAddOp2(tls, v, OP_NewRowid, iParm, regRowid)
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, iParm, regRow, regRowid)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_APPEND))
break
}
case SRT_Set:
{
Xsqlite3VdbeAddOp4(tls, v, OP_MakeRecord, regRow, nColumn, regRowid,
(*SelectDest)(unsafe.Pointer(pDest)).FzAffSdst, nColumn)
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, iParm, regRowid, regRow, nColumn)
break
}
case SRT_Mem:
{
break
}
case SRT_Upfrom:
{
var i2 int32 = (*SelectDest)(unsafe.Pointer(pDest)).FiSDParm2
var r1 int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regRow+libc.Bool32(i2 < 0), nColumn-libc.Bool32(i2 < 0), r1)
if i2 < 0 {
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, iParm, r1, regRow)
} else {
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, iParm, r1, regRow, i2)
}
break
}
default:
{
if eDest == SRT_Output {
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, (*SelectDest)(unsafe.Pointer(pDest)).FiSdst, nColumn)
} else {
Xsqlite3VdbeAddOp1(tls, v, OP_Yield, (*SelectDest)(unsafe.Pointer(pDest)).FiSDParm)
}
break
}
}
if regRowid != 0 {
if eDest == SRT_Set {
Xsqlite3ReleaseTempRange(tls, pParse, regRow, nColumn)
} else {
Xsqlite3ReleaseTempReg(tls, pParse, regRow)
}
Xsqlite3ReleaseTempReg(tls, pParse, regRowid)
}
Xsqlite3VdbeResolveLabel(tls, v, addrContinue)
if int32((*SortCtx)(unsafe.Pointer(pSort)).FsortFlags)&SORTFLAG_UseSorter != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_SorterNext, iTab, addr)
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_Next, iTab, addr)
}
if (*SortCtx)(unsafe.Pointer(pSort)).FregReturn != 0 {
Xsqlite3VdbeAddOp1(tls, v, OP_Return, (*SortCtx)(unsafe.Pointer(pSort)).FregReturn)
}
Xsqlite3VdbeResolveLabel(tls, v, addrBreak)
}
func columnTypeImpl(tls *libc.TLS, pNC uintptr, pExpr uintptr, pzOrigDb uintptr, pzOrigTab uintptr, pzOrigCol uintptr) uintptr {
bp := tls.Alloc(136)
defer tls.Free(136)
var zType uintptr = uintptr(0)
var j int32
*(*uintptr)(unsafe.Pointer(bp + 56)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 64)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 72)) = uintptr(0)
switch int32((*Expr)(unsafe.Pointer(pExpr)).Fop) {
case TK_COLUMN:
{
var pTab uintptr = uintptr(0)
var pS uintptr = uintptr(0)
var iCol int32 = int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn)
for pNC != 0 && !(pTab != 0) {
var pTabList uintptr = (*NameContext)(unsafe.Pointer(pNC)).FpSrcList
for j = 0; j < (*SrcList)(unsafe.Pointer(pTabList)).FnSrc && (*SrcItem)(unsafe.Pointer(pTabList+8+uintptr(j)*104)).FiCursor != (*Expr)(unsafe.Pointer(pExpr)).FiTable; j++ {
}
if j < (*SrcList)(unsafe.Pointer(pTabList)).FnSrc {
pTab = (*SrcItem)(unsafe.Pointer(pTabList + 8 + uintptr(j)*104)).FpTab
pS = (*SrcItem)(unsafe.Pointer(pTabList + 8 + uintptr(j)*104)).FpSelect
} else {
pNC = (*NameContext)(unsafe.Pointer(pNC)).FpNext
}
}
if pTab == uintptr(0) {
break
}
if pS != 0 {
if iCol < (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(pS)).FpEList)).FnExpr &&
iCol >= 0 {
var p uintptr = (*ExprList_item)(unsafe.Pointer((*Select)(unsafe.Pointer(pS)).FpEList + 8 + uintptr(iCol)*32)).FpExpr
(*NameContext)(unsafe.Pointer(bp)).FpSrcList = (*Select)(unsafe.Pointer(pS)).FpSrc
(*NameContext)(unsafe.Pointer(bp)).FpNext = pNC
(*NameContext)(unsafe.Pointer(bp)).FpParse = (*NameContext)(unsafe.Pointer(pNC)).FpParse
zType = columnTypeImpl(tls, bp, p, bp+56, bp+64, bp+72)
}
} else {
if iCol < 0 {
iCol = int32((*Table)(unsafe.Pointer(pTab)).FiPKey)
}
if iCol < 0 {
zType = ts + 1112
*(*uintptr)(unsafe.Pointer(bp + 72)) = ts + 16673
} else {
*(*uintptr)(unsafe.Pointer(bp + 72)) = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(iCol)*24)).FzCnName
zType = Xsqlite3ColumnType(tls, (*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(iCol)*24, uintptr(0))
}
*(*uintptr)(unsafe.Pointer(bp + 64)) = (*Table)(unsafe.Pointer(pTab)).FzName
if (*NameContext)(unsafe.Pointer(pNC)).FpParse != 0 && (*Table)(unsafe.Pointer(pTab)).FpSchema != 0 {
var iDb int32 = Xsqlite3SchemaToIndex(tls, (*Parse)(unsafe.Pointer((*NameContext)(unsafe.Pointer(pNC)).FpParse)).Fdb, (*Table)(unsafe.Pointer(pTab)).FpSchema)
*(*uintptr)(unsafe.Pointer(bp + 56)) = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer((*NameContext)(unsafe.Pointer(pNC)).FpParse)).Fdb)).FaDb + uintptr(iDb)*32)).FzDbSName
}
}
break
}
case TK_SELECT:
{
var pS uintptr
var p uintptr
pS = *(*uintptr)(unsafe.Pointer(pExpr + 32))
p = (*ExprList_item)(unsafe.Pointer((*Select)(unsafe.Pointer(pS)).FpEList + 8)).FpExpr
(*NameContext)(unsafe.Pointer(bp + 80)).FpSrcList = (*Select)(unsafe.Pointer(pS)).FpSrc
(*NameContext)(unsafe.Pointer(bp + 80)).FpNext = pNC
(*NameContext)(unsafe.Pointer(bp + 80)).FpParse = (*NameContext)(unsafe.Pointer(pNC)).FpParse
zType = columnTypeImpl(tls, bp+80, p, bp+56, bp+64, bp+72)
break
}
}
if pzOrigDb != 0 {
*(*uintptr)(unsafe.Pointer(pzOrigDb)) = *(*uintptr)(unsafe.Pointer(bp + 56))
*(*uintptr)(unsafe.Pointer(pzOrigTab)) = *(*uintptr)(unsafe.Pointer(bp + 64))
*(*uintptr)(unsafe.Pointer(pzOrigCol)) = *(*uintptr)(unsafe.Pointer(bp + 72))
}
return zType
}
func generateColumnTypes(tls *libc.TLS, pParse uintptr, pTabList uintptr, pEList uintptr) {
bp := tls.Alloc(80)
defer tls.Free(80)
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var i int32
(*NameContext)(unsafe.Pointer(bp)).FpSrcList = pTabList
(*NameContext)(unsafe.Pointer(bp)).FpParse = pParse
(*NameContext)(unsafe.Pointer(bp)).FpNext = uintptr(0)
for i = 0; i < (*ExprList)(unsafe.Pointer(pEList)).FnExpr; i++ {
var p uintptr = (*ExprList_item)(unsafe.Pointer(pEList + 8 + uintptr(i)*32)).FpExpr
var zType uintptr
*(*uintptr)(unsafe.Pointer(bp + 56)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 64)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 72)) = uintptr(0)
zType = columnTypeImpl(tls, bp, p, bp+56, bp+64, bp+72)
Xsqlite3VdbeSetColName(tls, v, i, COLNAME_DATABASE, *(*uintptr)(unsafe.Pointer(bp + 56)), libc.UintptrFromInt32(-1))
Xsqlite3VdbeSetColName(tls, v, i, COLNAME_TABLE, *(*uintptr)(unsafe.Pointer(bp + 64)), libc.UintptrFromInt32(-1))
Xsqlite3VdbeSetColName(tls, v, i, COLNAME_COLUMN, *(*uintptr)(unsafe.Pointer(bp + 72)), libc.UintptrFromInt32(-1))
Xsqlite3VdbeSetColName(tls, v, i, COLNAME_DECLTYPE, zType, libc.UintptrFromInt32(-1))
}
}
// Compute the column names for a SELECT statement.
//
// The only guarantee that SQLite makes about column names is that if the
// column has an AS clause assigning it a name, that will be the name used.
// That is the only documented guarantee. However, countless applications
// developed over the years have made baseless assumptions about column names
// and will break if those assumptions changes. Hence, use extreme caution
// when modifying this routine to avoid breaking legacy.
//
// See Also: sqlite3ColumnsFromExprList()
//
// The PRAGMA short_column_names and PRAGMA full_column_names settings are
// deprecated. The default setting is short=ON, full=OFF. 99.9% of all
// applications should operate this way. Nevertheless, we need to support the
// other modes for legacy:
//
// short=OFF, full=OFF: Column name is the text of the expression has it
// originally appears in the SELECT statement. In
// other words, the zSpan of the result expression.
//
// short=ON, full=OFF: (This is the default setting). If the result
// refers directly to a table column, then the
// result column name is just the table column
// name: COLUMN. Otherwise use zSpan.
//
// full=ON, short=ANY: If the result refers directly to a table column,
// then the result column name with the table name
// prefix, ex: TABLE.COLUMN. Otherwise use zSpan.
func Xsqlite3GenerateColumnNames(tls *libc.TLS, pParse uintptr, pSelect uintptr) {
bp := tls.Alloc(24)
defer tls.Free(24)
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var i int32
var pTab uintptr
var pTabList uintptr
var pEList uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var fullName int32
var srcName int32
if (*Parse)(unsafe.Pointer(pParse)).Fexplain != 0 {
return
}
if (*Parse)(unsafe.Pointer(pParse)).FcolNamesSet != 0 {
return
}
for (*Select)(unsafe.Pointer(pSelect)).FpPrior != 0 {
pSelect = (*Select)(unsafe.Pointer(pSelect)).FpPrior
}
pTabList = (*Select)(unsafe.Pointer(pSelect)).FpSrc
pEList = (*Select)(unsafe.Pointer(pSelect)).FpEList
(*Parse)(unsafe.Pointer(pParse)).FcolNamesSet = U8(1)
fullName = libc.Bool32((*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_FullColNames) != uint64(0))
srcName = libc.Bool32((*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_ShortColNames) != uint64(0) || fullName != 0)
Xsqlite3VdbeSetNumCols(tls, v, (*ExprList)(unsafe.Pointer(pEList)).FnExpr)
for i = 0; i < (*ExprList)(unsafe.Pointer(pEList)).FnExpr; i++ {
var p uintptr = (*ExprList_item)(unsafe.Pointer(pEList + 8 + uintptr(i)*32)).FpExpr
if (*ExprList_item)(unsafe.Pointer(pEList+8+uintptr(i)*32)).FzEName != 0 && int32(*(*uint16)(unsafe.Pointer(pEList + 8 + uintptr(i)*32 + 16 + 4))&0x3>>0) == ENAME_NAME {
var zName uintptr = (*ExprList_item)(unsafe.Pointer(pEList + 8 + uintptr(i)*32)).FzEName
Xsqlite3VdbeSetColName(tls, v, i, COLNAME_NAME, zName, libc.UintptrFromInt32(-1))
} else if srcName != 0 && int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_COLUMN {
var zCol uintptr
var iCol int32 = int32((*Expr)(unsafe.Pointer(p)).FiColumn)
pTab = *(*uintptr)(unsafe.Pointer(p + 64))
if iCol < 0 {
iCol = int32((*Table)(unsafe.Pointer(pTab)).FiPKey)
}
if iCol < 0 {
zCol = ts + 16673
} else {
zCol = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(iCol)*24)).FzCnName
}
if fullName != 0 {
var zName uintptr = uintptr(0)
zName = Xsqlite3MPrintf(tls, db, ts+12464, libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName, zCol))
Xsqlite3VdbeSetColName(tls, v, i, COLNAME_NAME, zName, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3OomClear})))
} else {
Xsqlite3VdbeSetColName(tls, v, i, COLNAME_NAME, zCol, libc.UintptrFromInt32(-1))
}
} else {
var z uintptr = (*ExprList_item)(unsafe.Pointer(pEList + 8 + uintptr(i)*32)).FzEName
if z == uintptr(0) {
z = Xsqlite3MPrintf(tls, db, ts+19253, libc.VaList(bp+16, i+1))
} else {
z = Xsqlite3DbStrDup(tls, db, z)
}
Xsqlite3VdbeSetColName(tls, v, i, COLNAME_NAME, z, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3OomClear})))
}
}
generateColumnTypes(tls, pParse, pTabList, pEList)
}
// Given an expression list (which is really the list of expressions
// that form the result set of a SELECT statement) compute appropriate
// column names for a table that would hold the expression list.
//
// All column names will be unique.
//
// Only the column names are computed. Column.zType, Column.zColl,
// and other fields of Column are zeroed.
//
// Return SQLITE_OK on success. If a memory allocation error occurs,
// store NULL in *paCol and 0 in *pnCol and return SQLITE_NOMEM.
//
// The only guarantee that SQLite makes about column names is that if the
// column has an AS clause assigning it a name, that will be the name used.
// That is the only documented guarantee. However, countless applications
// developed over the years have made baseless assumptions about column names
// and will break if those assumptions changes. Hence, use extreme caution
// when modifying this routine to avoid breaking legacy.
//
// See Also: sqlite3GenerateColumnNames()
func Xsqlite3ColumnsFromExprList(tls *libc.TLS, pParse uintptr, pEList uintptr, pnCol uintptr, paCol uintptr) int32 {
bp := tls.Alloc(60)
defer tls.Free(60)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var i int32
var j int32
var aCol uintptr
var pCol uintptr
var nCol int32
var zName uintptr
var nName int32
var pTab uintptr
Xsqlite3HashInit(tls, bp+32)
if pEList != 0 {
nCol = (*ExprList)(unsafe.Pointer(pEList)).FnExpr
aCol = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Column{}))*uint64(nCol))
if nCol > 32767 {
nCol = 32767
}
} else {
nCol = 0
aCol = uintptr(0)
}
*(*I16)(unsafe.Pointer(pnCol)) = I16(nCol)
*(*uintptr)(unsafe.Pointer(paCol)) = aCol
i = 0
pCol = aCol
__1:
if !(i < nCol && !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0)) {
goto __3
}
{
var pX uintptr = pEList + 8 + uintptr(i)*32
var pCollide uintptr
if libc.AssignUintptr(&zName, (*ExprList_item)(unsafe.Pointer(pX)).FzEName) != uintptr(0) && int32(*(*uint16)(unsafe.Pointer(pX + 16 + 4))&0x3>>0) == ENAME_NAME {
} else {
var pColExpr uintptr = Xsqlite3ExprSkipCollateAndLikely(tls, (*ExprList_item)(unsafe.Pointer(pX)).FpExpr)
for pColExpr != uintptr(0) && int32((*Expr)(unsafe.Pointer(pColExpr)).Fop) == TK_DOT {
pColExpr = (*Expr)(unsafe.Pointer(pColExpr)).FpRight
}
if int32((*Expr)(unsafe.Pointer(pColExpr)).Fop) == TK_COLUMN &&
(*Expr)(unsafe.Pointer(pColExpr)).Fflags&U32(EP_WinFunc|EP_Subrtn) == U32(0) &&
*(*uintptr)(unsafe.Pointer(pColExpr + 64)) != uintptr(0) {
var iCol int32 = int32((*Expr)(unsafe.Pointer(pColExpr)).FiColumn)
pTab = *(*uintptr)(unsafe.Pointer(pColExpr + 64))
if iCol < 0 {
iCol = int32((*Table)(unsafe.Pointer(pTab)).FiPKey)
}
if iCol >= 0 {
zName = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(iCol)*24)).FzCnName
} else {
zName = ts + 16673
}
} else if int32((*Expr)(unsafe.Pointer(pColExpr)).Fop) == TK_ID {
zName = *(*uintptr)(unsafe.Pointer(pColExpr + 8))
} else {
}
}
if zName != 0 && !(Xsqlite3IsTrueOrFalse(tls, zName) != 0) {
zName = Xsqlite3DbStrDup(tls, db, zName)
} else {
zName = Xsqlite3MPrintf(tls, db, ts+19253, libc.VaList(bp, i+1))
}
*(*U32)(unsafe.Pointer(bp + 56)) = U32(0)
for zName != 0 && libc.AssignUintptr(&pCollide, Xsqlite3HashFind(tls, bp+32, zName)) != uintptr(0) {
if uint32(int32(*(*uint16)(unsafe.Pointer(pCollide + 16 + 4))&0x80>>7)) != 0 {
*(*U16)(unsafe.Pointer(pCol + 16)) |= U16(COLFLAG_NOEXPAND)
}
nName = Xsqlite3Strlen30(tls, zName)
if nName > 0 {
for j = nName - 1; j > 0 && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zName + uintptr(j))))])&0x04 != 0; j-- {
}
if int32(*(*int8)(unsafe.Pointer(zName + uintptr(j)))) == ':' {
nName = j
}
}
zName = Xsqlite3MPrintf(tls, db, ts+19262, libc.VaList(bp+8, nName, zName, libc.PreIncUint32(&*(*U32)(unsafe.Pointer(bp + 56)), 1)))
Xsqlite3ProgressCheck(tls, pParse)
if *(*U32)(unsafe.Pointer(bp + 56)) > U32(3) {
Xsqlite3_randomness(tls, int32(unsafe.Sizeof(U32(0))), bp+56)
}
}
(*Column)(unsafe.Pointer(pCol)).FzCnName = zName
(*Column)(unsafe.Pointer(pCol)).FhName = Xsqlite3StrIHash(tls, zName)
if uint32(int32(*(*uint16)(unsafe.Pointer(pX + 16 + 4))&0x100>>8)) != 0 {
*(*U16)(unsafe.Pointer(pCol + 16)) |= U16(COLFLAG_NOEXPAND)
}
if zName != 0 && Xsqlite3HashInsert(tls, bp+32, zName, pX) == pX {
Xsqlite3OomFault(tls, db)
}
}
goto __2
__2:
i++
pCol += 24
goto __1
goto __3
__3:
;
Xsqlite3HashClear(tls, bp+32)
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
for j = 0; j < i; j++ {
Xsqlite3DbFree(tls, db, (*Column)(unsafe.Pointer(aCol+uintptr(j)*24)).FzCnName)
}
Xsqlite3DbFree(tls, db, aCol)
*(*uintptr)(unsafe.Pointer(paCol)) = uintptr(0)
*(*I16)(unsafe.Pointer(pnCol)) = int16(0)
return (*Parse)(unsafe.Pointer(pParse)).Frc
}
return SQLITE_OK
}
// pTab is a transient Table object that represents a subquery of some
// kind (maybe a parenthesized subquery in the FROM clause of a larger
// query, or a VIEW, or a CTE). This routine computes type information
// for that Table object based on the Select object that implements the
// subquery. For the purposes of this routine, "type infomation" means:
//
// - The datatype name, as it might appear in a CREATE TABLE statement
// - Which collating sequence to use for the column
// - The affinity of the column
func Xsqlite3SubqueryColumnTypes(tls *libc.TLS, pParse uintptr, pTab uintptr, pSelect uintptr, aff int8) {
bp := tls.Alloc(56)
defer tls.Free(56)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pCol uintptr
var pColl uintptr
var i int32
var j int32
var p uintptr
var a uintptr
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return
}
for (*Select)(unsafe.Pointer(pSelect)).FpPrior != 0 {
pSelect = (*Select)(unsafe.Pointer(pSelect)).FpPrior
}
a = (*Select)(unsafe.Pointer(pSelect)).FpEList + 8
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp, 0))
(*NameContext)(unsafe.Pointer(bp)).FpSrcList = (*Select)(unsafe.Pointer(pSelect)).FpSrc
i = 0
pCol = (*Table)(unsafe.Pointer(pTab)).FaCol
__1:
if !(i < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __3
}
{
var zType uintptr
var n I64
*(*U32)(unsafe.Pointer(pTab + 48)) |= U32(int32((*Column)(unsafe.Pointer(pCol)).FcolFlags) & COLFLAG_NOINSERT)
p = (*ExprList_item)(unsafe.Pointer(a + uintptr(i)*32)).FpExpr
(*Column)(unsafe.Pointer(pCol)).Faffinity = Xsqlite3ExprAffinity(tls, p)
if int32((*Column)(unsafe.Pointer(pCol)).Faffinity) <= SQLITE_AFF_NONE {
(*Column)(unsafe.Pointer(pCol)).Faffinity = aff
} else if int32((*Column)(unsafe.Pointer(pCol)).Faffinity) >= SQLITE_AFF_NUMERIC && int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_CAST {
(*Column)(unsafe.Pointer(pCol)).Faffinity = int8(SQLITE_AFF_FLEXNUM)
}
if int32((*Column)(unsafe.Pointer(pCol)).Faffinity) >= SQLITE_AFF_TEXT && (*Select)(unsafe.Pointer(pSelect)).FpNext != 0 {
var m int32 = 0
var pS2 uintptr
m = 0
pS2 = (*Select)(unsafe.Pointer(pSelect)).FpNext
for ; pS2 != 0; pS2 = (*Select)(unsafe.Pointer(pS2)).FpNext {
m = m | Xsqlite3ExprDataType(tls, (*ExprList_item)(unsafe.Pointer((*Select)(unsafe.Pointer(pS2)).FpEList+8+uintptr(i)*32)).FpExpr)
}
if int32((*Column)(unsafe.Pointer(pCol)).Faffinity) == SQLITE_AFF_TEXT && m&0x01 != 0 {
(*Column)(unsafe.Pointer(pCol)).Faffinity = int8(SQLITE_AFF_BLOB)
} else if int32((*Column)(unsafe.Pointer(pCol)).Faffinity) >= SQLITE_AFF_NUMERIC && m&0x02 != 0 {
(*Column)(unsafe.Pointer(pCol)).Faffinity = int8(SQLITE_AFF_BLOB)
}
}
zType = columnTypeImpl(tls, bp, p, uintptr(0), uintptr(0), uintptr(0))
if zType == uintptr(0) || int32((*Column)(unsafe.Pointer(pCol)).Faffinity) != int32(Xsqlite3AffinityType(tls, zType, uintptr(0))) {
if int32((*Column)(unsafe.Pointer(pCol)).Faffinity) == SQLITE_AFF_NUMERIC ||
int32((*Column)(unsafe.Pointer(pCol)).Faffinity) == SQLITE_AFF_FLEXNUM {
zType = ts + 19270
} else {
zType = uintptr(0)
for j = 1; j < SQLITE_N_STDTYPE; j++ {
if int32(Xsqlite3StdTypeAffinity[j]) == int32((*Column)(unsafe.Pointer(pCol)).Faffinity) {
zType = Xsqlite3StdType[j]
break
}
}
}
}
if zType != 0 {
var m I64 = I64(Xsqlite3Strlen30(tls, zType))
n = I64(Xsqlite3Strlen30(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName))
(*Column)(unsafe.Pointer(pCol)).FzCnName = Xsqlite3DbReallocOrFree(tls, db, (*Column)(unsafe.Pointer(pCol)).FzCnName, uint64(n+m+int64(2)))
if (*Column)(unsafe.Pointer(pCol)).FzCnName != 0 {
libc.X__builtin___memcpy_chk(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName+uintptr(n+int64(1)), zType, uint64(m+int64(1)), libc.X__builtin_object_size(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName+uintptr(n+int64(1)), 0))
*(*U16)(unsafe.Pointer(pCol + 16)) |= U16(COLFLAG_HASTYPE)
} else {
*(*U16)(unsafe.Pointer(pCol + 16)) &= libc.Uint16FromInt32(libc.CplInt32(COLFLAG_HASTYPE | COLFLAG_HASCOLL))
}
}
pColl = Xsqlite3ExprCollSeq(tls, pParse, p)
if pColl != 0 {
Xsqlite3ColumnSetColl(tls, db, pCol, (*CollSeq)(unsafe.Pointer(pColl)).FzName)
}
}
goto __2
__2:
i++
pCol += 24
goto __1
goto __3
__3:
;
(*Table)(unsafe.Pointer(pTab)).FszTabRow = int16(1)
}
// Given a SELECT statement, generate a Table structure that describes
// the result set of that SELECT.
func Xsqlite3ResultSetOfSelect(tls *libc.TLS, pParse uintptr, pSelect uintptr, aff int8) uintptr {
var pTab uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var savedFlags U64
savedFlags = (*Sqlite3)(unsafe.Pointer(db)).Fflags
*(*U64)(unsafe.Pointer(db + 48)) &= libc.CplUint64(uint64(SQLITE_FullColNames))
*(*U64)(unsafe.Pointer(db + 48)) |= uint64(SQLITE_ShortColNames)
Xsqlite3SelectPrep(tls, pParse, pSelect, uintptr(0))
(*Sqlite3)(unsafe.Pointer(db)).Fflags = savedFlags
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return uintptr(0)
}
for (*Select)(unsafe.Pointer(pSelect)).FpPrior != 0 {
pSelect = (*Select)(unsafe.Pointer(pSelect)).FpPrior
}
pTab = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Table{})))
if pTab == uintptr(0) {
return uintptr(0)
}
(*Table)(unsafe.Pointer(pTab)).FnTabRef = U32(1)
(*Table)(unsafe.Pointer(pTab)).FzName = uintptr(0)
(*Table)(unsafe.Pointer(pTab)).FnRowLogEst = int16(200)
Xsqlite3ColumnsFromExprList(tls, pParse, (*Select)(unsafe.Pointer(pSelect)).FpEList, pTab+54, pTab+8)
Xsqlite3SubqueryColumnTypes(tls, pParse, pTab, pSelect, aff)
(*Table)(unsafe.Pointer(pTab)).FiPKey = int16(-1)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
Xsqlite3DeleteTable(tls, db, pTab)
return uintptr(0)
}
return pTab
}
// Get a VDBE for the given parser context. Create a new one if necessary.
// If an error occurs, return NULL and leave a message in pParse.
func Xsqlite3GetVdbe(tls *libc.TLS, pParse uintptr) uintptr {
if (*Parse)(unsafe.Pointer(pParse)).FpVdbe != 0 {
return (*Parse)(unsafe.Pointer(pParse)).FpVdbe
}
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel == uintptr(0) &&
(*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FdbOptFlags&U32(SQLITE_FactorOutConst) == U32(0) {
(*Parse)(unsafe.Pointer(pParse)).FokConstFactor = U8(1)
}
return Xsqlite3VdbeCreate(tls, pParse)
}
func computeLimitRegisters(tls *libc.TLS, pParse uintptr, p uintptr, iBreak int32) {
bp := tls.Alloc(4)
defer tls.Free(4)
var v uintptr = uintptr(0)
var iLimit int32 = 0
var iOffset int32
var pLimit uintptr = (*Select)(unsafe.Pointer(p)).FpLimit
if (*Select)(unsafe.Pointer(p)).FiLimit != 0 {
return
}
if pLimit != 0 {
(*Select)(unsafe.Pointer(p)).FiLimit = libc.AssignInt32(&iLimit, libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1))
v = Xsqlite3GetVdbe(tls, pParse)
if Xsqlite3ExprIsInteger(tls, (*Expr)(unsafe.Pointer(pLimit)).FpLeft, bp) != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, *(*int32)(unsafe.Pointer(bp)), iLimit)
if *(*int32)(unsafe.Pointer(bp)) == 0 {
Xsqlite3VdbeGoto(tls, v, iBreak)
} else if *(*int32)(unsafe.Pointer(bp)) >= 0 && int32((*Select)(unsafe.Pointer(p)).FnSelectRow) > int32(Xsqlite3LogEst(tls, U64(*(*int32)(unsafe.Pointer(bp))))) {
(*Select)(unsafe.Pointer(p)).FnSelectRow = Xsqlite3LogEst(tls, U64(*(*int32)(unsafe.Pointer(bp))))
*(*U32)(unsafe.Pointer(p + 4)) |= U32(SF_FixedLimit)
}
} else {
Xsqlite3ExprCode(tls, pParse, (*Expr)(unsafe.Pointer(pLimit)).FpLeft, iLimit)
Xsqlite3VdbeAddOp1(tls, v, OP_MustBeInt, iLimit)
Xsqlite3VdbeAddOp2(tls, v, OP_IfNot, iLimit, iBreak)
}
if (*Expr)(unsafe.Pointer(pLimit)).FpRight != 0 {
(*Select)(unsafe.Pointer(p)).FiOffset = libc.AssignInt32(&iOffset, libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1))
(*Parse)(unsafe.Pointer(pParse)).FnMem++
Xsqlite3ExprCode(tls, pParse, (*Expr)(unsafe.Pointer(pLimit)).FpRight, iOffset)
Xsqlite3VdbeAddOp1(tls, v, OP_MustBeInt, iOffset)
Xsqlite3VdbeAddOp3(tls, v, OP_OffsetLimit, iLimit, iOffset+1, iOffset)
}
}
}
func multiSelectCollSeq(tls *libc.TLS, pParse uintptr, p uintptr, iCol int32) uintptr {
var pRet uintptr
if (*Select)(unsafe.Pointer(p)).FpPrior != 0 {
pRet = multiSelectCollSeq(tls, pParse, (*Select)(unsafe.Pointer(p)).FpPrior, iCol)
} else {
pRet = uintptr(0)
}
if pRet == uintptr(0) && iCol < (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpEList)).FnExpr {
pRet = Xsqlite3ExprCollSeq(tls, pParse, (*ExprList_item)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpEList+8+uintptr(iCol)*32)).FpExpr)
}
return pRet
}
func multiSelectOrderByKeyInfo(tls *libc.TLS, pParse uintptr, p uintptr, nExtra int32) uintptr {
var pOrderBy uintptr = (*Select)(unsafe.Pointer(p)).FpOrderBy
var nOrderBy int32
if pOrderBy != uintptr(0) {
nOrderBy = (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr
} else {
nOrderBy = 0
}
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pRet uintptr = Xsqlite3KeyInfoAlloc(tls, db, nOrderBy+nExtra, 1)
if pRet != 0 {
var i int32
for i = 0; i < nOrderBy; i++ {
var pItem uintptr = pOrderBy + 8 + uintptr(i)*32
var pTerm uintptr = (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr
var pColl uintptr
if (*Expr)(unsafe.Pointer(pTerm)).Fflags&U32(EP_Collate) != 0 {
pColl = Xsqlite3ExprCollSeq(tls, pParse, pTerm)
} else {
pColl = multiSelectCollSeq(tls, pParse, p, int32(*(*U16)(unsafe.Pointer(pItem + 24)))-1)
if pColl == uintptr(0) {
pColl = (*Sqlite3)(unsafe.Pointer(db)).FpDfltColl
}
(*ExprList_item)(unsafe.Pointer(pOrderBy + 8 + uintptr(i)*32)).FpExpr = Xsqlite3ExprAddCollateString(tls, pParse, pTerm, (*CollSeq)(unsafe.Pointer(pColl)).FzName)
}
*(*uintptr)(unsafe.Pointer(pRet + 32 + uintptr(i)*8)) = pColl
*(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer(pRet)).FaSortFlags + uintptr(i))) = (*ExprList_item)(unsafe.Pointer(pOrderBy + 8 + uintptr(i)*32)).Ffg.FsortFlags
}
}
return pRet
}
func generateWithRecursiveQuery(tls *libc.TLS, pParse uintptr, p uintptr, pDest uintptr) {
bp := tls.Alloc(40)
defer tls.Free(40)
var pSrc uintptr
var nCol int32
var v uintptr
var pSetup uintptr
var pFirstRec uintptr
var addrTop int32
var addrCont int32
var addrBreak int32
var iCurrent int32
var regCurrent int32
var iQueue int32
var iDistinct int32
var eDest int32
var i int32
var rc int32
var pOrderBy uintptr
var pLimit uintptr
var regLimit int32
var regOffset int32
var pKeyInfo uintptr
pSrc = (*Select)(unsafe.Pointer(p)).FpSrc
nCol = (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpEList)).FnExpr
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
iCurrent = 0
iDistinct = 0
eDest = SRT_Fifo
if !((*Select)(unsafe.Pointer(p)).FpWin != 0) {
goto __1
}
Xsqlite3ErrorMsg(tls, pParse, ts+19274, 0)
return
__1:
;
if !(Xsqlite3AuthCheck(tls, pParse, SQLITE_RECURSIVE, uintptr(0), uintptr(0), uintptr(0)) != 0) {
goto __2
}
return
__2:
;
addrBreak = Xsqlite3VdbeMakeLabel(tls, pParse)
(*Select)(unsafe.Pointer(p)).FnSelectRow = int16(320)
computeLimitRegisters(tls, pParse, p, addrBreak)
pLimit = (*Select)(unsafe.Pointer(p)).FpLimit
regLimit = (*Select)(unsafe.Pointer(p)).FiLimit
regOffset = (*Select)(unsafe.Pointer(p)).FiOffset
(*Select)(unsafe.Pointer(p)).FpLimit = uintptr(0)
(*Select)(unsafe.Pointer(p)).FiLimit = libc.AssignPtrInt32(p+12, 0)
pOrderBy = (*Select)(unsafe.Pointer(p)).FpOrderBy
i = 0
__3:
if !(i < (*SrcList)(unsafe.Pointer(pSrc)).FnSrc) {
goto __5
}
if !(uint32(int32(*(*uint16)(unsafe.Pointer(pSrc + 8 + uintptr(i)*104 + 60 + 4))&0x40>>6)) != 0) {
goto __6
}
iCurrent = (*SrcItem)(unsafe.Pointer(pSrc + 8 + uintptr(i)*104)).FiCursor
goto __5
__6:
;
goto __4
__4:
i++
goto __3
goto __5
__5:
;
iQueue = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
if !(int32((*Select)(unsafe.Pointer(p)).Fop) == TK_UNION) {
goto __7
}
if pOrderBy != 0 {
eDest = SRT_DistQueue
} else {
eDest = SRT_DistFifo
}
iDistinct = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
goto __8
__7:
if pOrderBy != 0 {
eDest = SRT_Queue
} else {
eDest = SRT_Fifo
}
__8:
;
Xsqlite3SelectDestInit(tls, bp, eDest, iQueue)
regCurrent = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp3(tls, v, OP_OpenPseudo, iCurrent, regCurrent, nCol)
if !(pOrderBy != 0) {
goto __9
}
pKeyInfo = multiSelectOrderByKeyInfo(tls, pParse, p, 1)
Xsqlite3VdbeAddOp4(tls, v, OP_OpenEphemeral, iQueue, (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr+2, 0,
pKeyInfo, -8)
(*SelectDest)(unsafe.Pointer(bp)).FpOrderBy = pOrderBy
goto __10
__9:
Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, iQueue, nCol)
__10:
;
if !(iDistinct != 0) {
goto __11
}
*(*int32)(unsafe.Pointer(p + 20)) = Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, iDistinct, 0)
*(*U32)(unsafe.Pointer(p + 4)) |= U32(SF_UsesEphemeral)
__11:
;
(*Select)(unsafe.Pointer(p)).FpOrderBy = uintptr(0)
pFirstRec = p
__12:
if !(pFirstRec != uintptr(0)) {
goto __14
}
if !((*Select)(unsafe.Pointer(pFirstRec)).FselFlags&U32(SF_Aggregate) != 0) {
goto __15
}
Xsqlite3ErrorMsg(tls, pParse, ts+19323, 0)
goto end_of_recursive_query
__15:
;
(*Select)(unsafe.Pointer(pFirstRec)).Fop = U8(TK_ALL)
if !((*Select)(unsafe.Pointer((*Select)(unsafe.Pointer(pFirstRec)).FpPrior)).FselFlags&U32(SF_Recursive) == U32(0)) {
goto __16
}
goto __14
__16:
;
goto __13
__13:
pFirstRec = (*Select)(unsafe.Pointer(pFirstRec)).FpPrior
goto __12
goto __14
__14:
;
pSetup = (*Select)(unsafe.Pointer(pFirstRec)).FpPrior
(*Select)(unsafe.Pointer(pSetup)).FpNext = uintptr(0)
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+19365, 0)
rc = Xsqlite3Select(tls, pParse, pSetup, bp)
(*Select)(unsafe.Pointer(pSetup)).FpNext = p
if !(rc != 0) {
goto __17
}
goto end_of_recursive_query
__17:
;
addrTop = Xsqlite3VdbeAddOp2(tls, v, OP_Rewind, iQueue, addrBreak)
Xsqlite3VdbeAddOp1(tls, v, OP_NullRow, iCurrent)
if !(pOrderBy != 0) {
goto __18
}
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iQueue, (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr+1, regCurrent)
goto __19
__18:
Xsqlite3VdbeAddOp2(tls, v, OP_RowData, iQueue, regCurrent)
__19:
;
Xsqlite3VdbeAddOp1(tls, v, OP_Delete, iQueue)
addrCont = Xsqlite3VdbeMakeLabel(tls, pParse)
codeOffset(tls, v, regOffset, addrCont)
selectInnerLoop(tls, pParse, p, iCurrent,
uintptr(0), uintptr(0), pDest, addrCont, addrBreak)
if !(regLimit != 0) {
goto __20
}
Xsqlite3VdbeAddOp2(tls, v, OP_DecrJumpZero, regLimit, addrBreak)
__20:
;
Xsqlite3VdbeResolveLabel(tls, v, addrCont)
(*Select)(unsafe.Pointer(pFirstRec)).FpPrior = uintptr(0)
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+19371, 0)
Xsqlite3Select(tls, pParse, p, bp)
(*Select)(unsafe.Pointer(pFirstRec)).FpPrior = pSetup
Xsqlite3VdbeGoto(tls, v, addrTop)
Xsqlite3VdbeResolveLabel(tls, v, addrBreak)
end_of_recursive_query:
Xsqlite3ExprListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Select)(unsafe.Pointer(p)).FpOrderBy)
(*Select)(unsafe.Pointer(p)).FpOrderBy = pOrderBy
(*Select)(unsafe.Pointer(p)).FpLimit = pLimit
return
}
func multiSelectValues(tls *libc.TLS, pParse uintptr, p uintptr, pDest uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var nRow int32 = 1
var rc int32 = 0
var bShowAll int32 = libc.Bool32((*Select)(unsafe.Pointer(p)).FpLimit == uintptr(0))
for __ccgo := true; __ccgo; __ccgo = 1 != 0 {
if (*Select)(unsafe.Pointer(p)).FpWin != 0 {
return -1
}
if (*Select)(unsafe.Pointer(p)).FpPrior == uintptr(0) {
break
}
p = (*Select)(unsafe.Pointer(p)).FpPrior
nRow = nRow + bShowAll
}
Xsqlite3VdbeExplain(tls, pParse, uint8(0), ts+19386, libc.VaList(bp, nRow, func() uintptr {
if nRow == 1 {
return ts + 1547
}
return ts + 3548
}()))
for p != 0 {
selectInnerLoop(tls, pParse, p, -1, uintptr(0), uintptr(0), pDest, 1, 1)
if !(bShowAll != 0) {
break
}
(*Select)(unsafe.Pointer(p)).FnSelectRow = LogEst(nRow)
p = (*Select)(unsafe.Pointer(p)).FpNext
}
return rc
}
func hasAnchor(tls *libc.TLS, p uintptr) int32 {
for p != 0 && (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Recursive) != U32(0) {
p = (*Select)(unsafe.Pointer(p)).FpPrior
}
return libc.Bool32(p != uintptr(0))
}
func multiSelect(tls *libc.TLS, pParse uintptr, p uintptr, pDest uintptr) int32 {
bp := tls.Alloc(144)
defer tls.Free(144)
var rc int32
var pPrior uintptr
var v uintptr
var pDelete uintptr
var db uintptr
var addr int32
var iCont int32
var iBreak int32
var iStart int32
var unionTab int32
var op U8
var priorOp int32
var pLimit uintptr
var addr1 int32
var tab1 int32
var tab2 int32
var iCont1 int32
var iBreak1 int32
var iStart1 int32
var pLimit1 uintptr
var addr2 int32
var r1 int32
var addr3 int32
var i int32
var pKeyInfo uintptr
var pLoop uintptr
var apColl uintptr
var nCol int32
rc = SQLITE_OK
pDelete = uintptr(0)
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
pPrior = (*Select)(unsafe.Pointer(p)).FpPrior
*(*SelectDest)(unsafe.Pointer(bp + 16)) = *(*SelectDest)(unsafe.Pointer(pDest))
v = Xsqlite3GetVdbe(tls, pParse)
if !(int32((*SelectDest)(unsafe.Pointer(bp+16)).FeDest) == SRT_EphemTab) {
goto __1
}
Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, (*SelectDest)(unsafe.Pointer(bp+16)).FiSDParm, (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpEList)).FnExpr)
(*SelectDest)(unsafe.Pointer(bp + 16)).FeDest = U8(SRT_Table)
__1:
;
if !((*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_MultiValue) != 0) {
goto __2
}
rc = multiSelectValues(tls, pParse, p, bp+16)
if !(rc >= 0) {
goto __3
}
goto multi_select_end
__3:
;
rc = SQLITE_OK
__2:
;
if !((*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Recursive) != U32(0) && hasAnchor(tls, p) != 0) {
goto __4
}
generateWithRecursiveQuery(tls, pParse, p, bp+16)
goto __5
__4:
if !((*Select)(unsafe.Pointer(p)).FpOrderBy != 0) {
goto __6
}
return multiSelectOrderBy(tls, pParse, p, pDest)
goto __7
__6:
if !((*Select)(unsafe.Pointer(pPrior)).FpPrior == uintptr(0)) {
goto __8
}
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+19409, 0)
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+19424, 0)
__8:
;
switch int32((*Select)(unsafe.Pointer(p)).Fop) {
case TK_ALL:
goto __10
case TK_EXCEPT:
goto __11
case TK_UNION:
goto __12
default:
goto __13
}
goto __9
__10:
addr = 0
*(*int32)(unsafe.Pointer(bp + 56)) = 0
(*Select)(unsafe.Pointer(pPrior)).FiLimit = (*Select)(unsafe.Pointer(p)).FiLimit
(*Select)(unsafe.Pointer(pPrior)).FiOffset = (*Select)(unsafe.Pointer(p)).FiOffset
(*Select)(unsafe.Pointer(pPrior)).FpLimit = (*Select)(unsafe.Pointer(p)).FpLimit
rc = Xsqlite3Select(tls, pParse, pPrior, bp+16)
(*Select)(unsafe.Pointer(pPrior)).FpLimit = uintptr(0)
if !(rc != 0) {
goto __14
}
goto multi_select_end
__14:
;
(*Select)(unsafe.Pointer(p)).FpPrior = uintptr(0)
(*Select)(unsafe.Pointer(p)).FiLimit = (*Select)(unsafe.Pointer(pPrior)).FiLimit
(*Select)(unsafe.Pointer(p)).FiOffset = (*Select)(unsafe.Pointer(pPrior)).FiOffset
if !((*Select)(unsafe.Pointer(p)).FiLimit != 0) {
goto __15
}
addr = Xsqlite3VdbeAddOp1(tls, v, OP_IfNot, (*Select)(unsafe.Pointer(p)).FiLimit)
if !((*Select)(unsafe.Pointer(p)).FiOffset != 0) {
goto __16
}
Xsqlite3VdbeAddOp3(tls, v, OP_OffsetLimit,
(*Select)(unsafe.Pointer(p)).FiLimit, (*Select)(unsafe.Pointer(p)).FiOffset+1, (*Select)(unsafe.Pointer(p)).FiOffset)
__16:
;
__15:
;
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+19151, 0)
rc = Xsqlite3Select(tls, pParse, p, bp+16)
pDelete = (*Select)(unsafe.Pointer(p)).FpPrior
(*Select)(unsafe.Pointer(p)).FpPrior = pPrior
(*Select)(unsafe.Pointer(p)).FnSelectRow = Xsqlite3LogEstAdd(tls, (*Select)(unsafe.Pointer(p)).FnSelectRow, (*Select)(unsafe.Pointer(pPrior)).FnSelectRow)
if !((*Select)(unsafe.Pointer(p)).FpLimit != 0 &&
Xsqlite3ExprIsInteger(tls, (*Expr)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpLimit)).FpLeft, bp+56) != 0 &&
*(*int32)(unsafe.Pointer(bp + 56)) > 0 && int32((*Select)(unsafe.Pointer(p)).FnSelectRow) > int32(Xsqlite3LogEst(tls, U64(*(*int32)(unsafe.Pointer(bp + 56)))))) {
goto __17
}
(*Select)(unsafe.Pointer(p)).FnSelectRow = Xsqlite3LogEst(tls, U64(*(*int32)(unsafe.Pointer(bp + 56))))
__17:
;
if !(addr != 0) {
goto __18
}
Xsqlite3VdbeJumpHere(tls, v, addr)
__18:
;
goto __9
__11:
__12:
op = U8(0)
priorOp = SRT_Union
if !(int32((*SelectDest)(unsafe.Pointer(bp+16)).FeDest) == priorOp) {
goto __19
}
unionTab = (*SelectDest)(unsafe.Pointer(bp + 16)).FiSDParm
goto __20
__19:
unionTab = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
addr1 = Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, unionTab, 0)
*(*int32)(unsafe.Pointer(p + 20)) = addr1
*(*U32)(unsafe.Pointer(findRightmost(tls, p) + 4)) |= U32(SF_UsesEphemeral)
__20:
;
Xsqlite3SelectDestInit(tls, bp+64, priorOp, unionTab)
rc = Xsqlite3Select(tls, pParse, pPrior, bp+64)
if !(rc != 0) {
goto __21
}
goto multi_select_end
__21:
;
if !(int32((*Select)(unsafe.Pointer(p)).Fop) == TK_EXCEPT) {
goto __22
}
op = U8(SRT_Except)
goto __23
__22:
;
op = U8(SRT_Union)
__23:
;
(*Select)(unsafe.Pointer(p)).FpPrior = uintptr(0)
pLimit = (*Select)(unsafe.Pointer(p)).FpLimit
(*Select)(unsafe.Pointer(p)).FpLimit = uintptr(0)
(*SelectDest)(unsafe.Pointer(bp + 64)).FeDest = op
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+19443, libc.VaList(bp, Xsqlite3SelectOpName(tls, int32((*Select)(unsafe.Pointer(p)).Fop))))
rc = Xsqlite3Select(tls, pParse, p, bp+64)
pDelete = (*Select)(unsafe.Pointer(p)).FpPrior
(*Select)(unsafe.Pointer(p)).FpPrior = pPrior
(*Select)(unsafe.Pointer(p)).FpOrderBy = uintptr(0)
if !(int32((*Select)(unsafe.Pointer(p)).Fop) == TK_UNION) {
goto __24
}
(*Select)(unsafe.Pointer(p)).FnSelectRow = Xsqlite3LogEstAdd(tls, (*Select)(unsafe.Pointer(p)).FnSelectRow, (*Select)(unsafe.Pointer(pPrior)).FnSelectRow)
__24:
;
Xsqlite3ExprDelete(tls, db, (*Select)(unsafe.Pointer(p)).FpLimit)
(*Select)(unsafe.Pointer(p)).FpLimit = pLimit
(*Select)(unsafe.Pointer(p)).FiLimit = 0
(*Select)(unsafe.Pointer(p)).FiOffset = 0
if !(int32((*SelectDest)(unsafe.Pointer(bp+16)).FeDest) != priorOp && int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0) {
goto __25
}
iBreak = Xsqlite3VdbeMakeLabel(tls, pParse)
iCont = Xsqlite3VdbeMakeLabel(tls, pParse)
computeLimitRegisters(tls, pParse, p, iBreak)
Xsqlite3VdbeAddOp2(tls, v, OP_Rewind, unionTab, iBreak)
iStart = Xsqlite3VdbeCurrentAddr(tls, v)
selectInnerLoop(tls, pParse, p, unionTab,
uintptr(0), uintptr(0), bp+16, iCont, iBreak)
Xsqlite3VdbeResolveLabel(tls, v, iCont)
Xsqlite3VdbeAddOp2(tls, v, OP_Next, unionTab, iStart)
Xsqlite3VdbeResolveLabel(tls, v, iBreak)
Xsqlite3VdbeAddOp2(tls, v, OP_Close, unionTab, 0)
__25:
;
goto __9
__13:
;
tab1 = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
tab2 = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
addr2 = Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, tab1, 0)
*(*int32)(unsafe.Pointer(p + 20)) = addr2
*(*U32)(unsafe.Pointer(findRightmost(tls, p) + 4)) |= U32(SF_UsesEphemeral)
Xsqlite3SelectDestInit(tls, bp+104, SRT_Union, tab1)
rc = Xsqlite3Select(tls, pParse, pPrior, bp+104)
if !(rc != 0) {
goto __26
}
goto multi_select_end
__26:
;
addr2 = Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, tab2, 0)
*(*int32)(unsafe.Pointer(p + 20 + 1*4)) = addr2
(*Select)(unsafe.Pointer(p)).FpPrior = uintptr(0)
pLimit1 = (*Select)(unsafe.Pointer(p)).FpLimit
(*Select)(unsafe.Pointer(p)).FpLimit = uintptr(0)
(*SelectDest)(unsafe.Pointer(bp + 104)).FiSDParm = tab2
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+19443, libc.VaList(bp+8, Xsqlite3SelectOpName(tls, int32((*Select)(unsafe.Pointer(p)).Fop))))
rc = Xsqlite3Select(tls, pParse, p, bp+104)
pDelete = (*Select)(unsafe.Pointer(p)).FpPrior
(*Select)(unsafe.Pointer(p)).FpPrior = pPrior
if !(int32((*Select)(unsafe.Pointer(p)).FnSelectRow) > int32((*Select)(unsafe.Pointer(pPrior)).FnSelectRow)) {
goto __27
}
(*Select)(unsafe.Pointer(p)).FnSelectRow = (*Select)(unsafe.Pointer(pPrior)).FnSelectRow
__27:
;
Xsqlite3ExprDelete(tls, db, (*Select)(unsafe.Pointer(p)).FpLimit)
(*Select)(unsafe.Pointer(p)).FpLimit = pLimit1
if !(rc != 0) {
goto __28
}
goto __9
__28:
;
iBreak1 = Xsqlite3VdbeMakeLabel(tls, pParse)
iCont1 = Xsqlite3VdbeMakeLabel(tls, pParse)
computeLimitRegisters(tls, pParse, p, iBreak1)
Xsqlite3VdbeAddOp2(tls, v, OP_Rewind, tab1, iBreak1)
r1 = Xsqlite3GetTempReg(tls, pParse)
iStart1 = Xsqlite3VdbeAddOp2(tls, v, OP_RowData, tab1, r1)
Xsqlite3VdbeAddOp4Int(tls, v, OP_NotFound, tab2, iCont1, r1, 0)
Xsqlite3ReleaseTempReg(tls, pParse, r1)
selectInnerLoop(tls, pParse, p, tab1,
uintptr(0), uintptr(0), bp+16, iCont1, iBreak1)
Xsqlite3VdbeResolveLabel(tls, v, iCont1)
Xsqlite3VdbeAddOp2(tls, v, OP_Next, tab1, iStart1)
Xsqlite3VdbeResolveLabel(tls, v, iBreak1)
Xsqlite3VdbeAddOp2(tls, v, OP_Close, tab2, 0)
Xsqlite3VdbeAddOp2(tls, v, OP_Close, tab1, 0)
goto __9
__9:
;
if !((*Select)(unsafe.Pointer(p)).FpNext == uintptr(0)) {
goto __29
}
Xsqlite3VdbeExplainPop(tls, pParse)
__29:
;
__7:
;
__5:
;
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __30
}
goto multi_select_end
__30:
;
if !((*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_UsesEphemeral) != 0) {
goto __31
}
nCol = (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpEList)).FnExpr
pKeyInfo = Xsqlite3KeyInfoAlloc(tls, db, nCol, 1)
if !!(pKeyInfo != 0) {
goto __32
}
rc = SQLITE_NOMEM
goto multi_select_end
__32:
;
i = 0
apColl = pKeyInfo + 32
__33:
if !(i < nCol) {
goto __35
}
*(*uintptr)(unsafe.Pointer(apColl)) = multiSelectCollSeq(tls, pParse, p, i)
if !(uintptr(0) == *(*uintptr)(unsafe.Pointer(apColl))) {
goto __36
}
*(*uintptr)(unsafe.Pointer(apColl)) = (*Sqlite3)(unsafe.Pointer(db)).FpDfltColl
__36:
;
goto __34
__34:
i++
apColl += 8
goto __33
goto __35
__35:
;
pLoop = p
__37:
if !(pLoop != 0) {
goto __39
}
i = 0
__40:
if !(i < 2) {
goto __42
}
addr3 = *(*int32)(unsafe.Pointer(pLoop + 20 + uintptr(i)*4))
if !(addr3 < 0) {
goto __43
}
goto __42
__43:
;
Xsqlite3VdbeChangeP2(tls, v, addr3, nCol)
Xsqlite3VdbeChangeP4(tls, v, addr3, Xsqlite3KeyInfoRef(tls, pKeyInfo),
-8)
*(*int32)(unsafe.Pointer(pLoop + 20 + uintptr(i)*4)) = -1
goto __41
__41:
i++
goto __40
goto __42
__42:
;
goto __38
__38:
pLoop = (*Select)(unsafe.Pointer(pLoop)).FpPrior
goto __37
goto __39
__39:
;
Xsqlite3KeyInfoUnref(tls, pKeyInfo)
__31:
;
multi_select_end:
(*SelectDest)(unsafe.Pointer(pDest)).FiSdst = (*SelectDest)(unsafe.Pointer(bp + 16)).FiSdst
(*SelectDest)(unsafe.Pointer(pDest)).FnSdst = (*SelectDest)(unsafe.Pointer(bp + 16)).FnSdst
if !(pDelete != 0) {
goto __44
}
Xsqlite3ParserAddCleanup(tls, pParse,
*(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3SelectDelete})),
pDelete)
__44:
;
return rc
}
// Error message for when two or more terms of a compound select have different
// size result sets.
func Xsqlite3SelectWrongNumTermsError(tls *libc.TLS, pParse uintptr, p uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Values) != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+19464, 0)
} else {
Xsqlite3ErrorMsg(tls, pParse,
ts+19510,
libc.VaList(bp, Xsqlite3SelectOpName(tls, int32((*Select)(unsafe.Pointer(p)).Fop))))
}
}
func generateOutputSubroutine(tls *libc.TLS, pParse uintptr, p uintptr, pIn uintptr, pDest uintptr, regReturn int32, regPrev int32, pKeyInfo uintptr, iBreak int32) int32 {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var iContinue int32
var addr int32
addr = Xsqlite3VdbeCurrentAddr(tls, v)
iContinue = Xsqlite3VdbeMakeLabel(tls, pParse)
if regPrev != 0 {
var addr1 int32
var addr2 int32
addr1 = Xsqlite3VdbeAddOp1(tls, v, OP_IfNot, regPrev)
addr2 = Xsqlite3VdbeAddOp4(tls, v, OP_Compare, (*SelectDest)(unsafe.Pointer(pIn)).FiSdst, regPrev+1, (*SelectDest)(unsafe.Pointer(pIn)).FnSdst,
Xsqlite3KeyInfoRef(tls, pKeyInfo), -8)
Xsqlite3VdbeAddOp3(tls, v, OP_Jump, addr2+2, iContinue, addr2+2)
Xsqlite3VdbeJumpHere(tls, v, addr1)
Xsqlite3VdbeAddOp3(tls, v, OP_Copy, (*SelectDest)(unsafe.Pointer(pIn)).FiSdst, regPrev+1, (*SelectDest)(unsafe.Pointer(pIn)).FnSdst-1)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, regPrev)
}
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed != 0 {
return 0
}
codeOffset(tls, v, (*Select)(unsafe.Pointer(p)).FiOffset, iContinue)
switch int32((*SelectDest)(unsafe.Pointer(pDest)).FeDest) {
case SRT_EphemTab:
{
var r1 int32 = Xsqlite3GetTempReg(tls, pParse)
var r2 int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, (*SelectDest)(unsafe.Pointer(pIn)).FiSdst, (*SelectDest)(unsafe.Pointer(pIn)).FnSdst, r1)
Xsqlite3VdbeAddOp2(tls, v, OP_NewRowid, (*SelectDest)(unsafe.Pointer(pDest)).FiSDParm, r2)
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, (*SelectDest)(unsafe.Pointer(pDest)).FiSDParm, r1, r2)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_APPEND))
Xsqlite3ReleaseTempReg(tls, pParse, r2)
Xsqlite3ReleaseTempReg(tls, pParse, r1)
break
}
case SRT_Set:
{
var r1 int32
r1 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp4(tls, v, OP_MakeRecord, (*SelectDest)(unsafe.Pointer(pIn)).FiSdst, (*SelectDest)(unsafe.Pointer(pIn)).FnSdst,
r1, (*SelectDest)(unsafe.Pointer(pDest)).FzAffSdst, (*SelectDest)(unsafe.Pointer(pIn)).FnSdst)
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, (*SelectDest)(unsafe.Pointer(pDest)).FiSDParm, r1,
(*SelectDest)(unsafe.Pointer(pIn)).FiSdst, (*SelectDest)(unsafe.Pointer(pIn)).FnSdst)
Xsqlite3ReleaseTempReg(tls, pParse, r1)
break
}
case SRT_Mem:
{
Xsqlite3ExprCodeMove(tls, pParse, (*SelectDest)(unsafe.Pointer(pIn)).FiSdst, (*SelectDest)(unsafe.Pointer(pDest)).FiSDParm, (*SelectDest)(unsafe.Pointer(pIn)).FnSdst)
break
}
case SRT_Coroutine:
{
if (*SelectDest)(unsafe.Pointer(pDest)).FiSdst == 0 {
(*SelectDest)(unsafe.Pointer(pDest)).FiSdst = Xsqlite3GetTempRange(tls, pParse, (*SelectDest)(unsafe.Pointer(pIn)).FnSdst)
(*SelectDest)(unsafe.Pointer(pDest)).FnSdst = (*SelectDest)(unsafe.Pointer(pIn)).FnSdst
}
Xsqlite3ExprCodeMove(tls, pParse, (*SelectDest)(unsafe.Pointer(pIn)).FiSdst, (*SelectDest)(unsafe.Pointer(pDest)).FiSdst, (*SelectDest)(unsafe.Pointer(pIn)).FnSdst)
Xsqlite3VdbeAddOp1(tls, v, OP_Yield, (*SelectDest)(unsafe.Pointer(pDest)).FiSDParm)
break
}
default:
{
Xsqlite3VdbeAddOp2(tls, v, OP_ResultRow, (*SelectDest)(unsafe.Pointer(pIn)).FiSdst, (*SelectDest)(unsafe.Pointer(pIn)).FnSdst)
break
}
}
if (*Select)(unsafe.Pointer(p)).FiLimit != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_DecrJumpZero, (*Select)(unsafe.Pointer(p)).FiLimit, iBreak)
}
Xsqlite3VdbeResolveLabel(tls, v, iContinue)
Xsqlite3VdbeAddOp1(tls, v, OP_Return, regReturn)
return addr
}
func multiSelectOrderBy(tls *libc.TLS, pParse uintptr, p uintptr, pDest uintptr) int32 {
bp := tls.Alloc(88)
defer tls.Free(88)
var i int32
var j int32
var pPrior uintptr
var pSplit uintptr
var nSelect int32
var v uintptr
var regAddrA int32
var regAddrB int32
var addrSelectA int32
var addrSelectB int32
var regOutA int32
var regOutB int32
var addrOutA int32
var addrOutB int32 = 0
var addrEofA int32
var addrEofA_noB int32
var addrEofB int32
var addrAltB int32
var addrAeqB int32
var addrAgtB int32
var regLimitA int32
var regLimitB int32
var regPrev int32
var savedLimit int32
var savedOffset int32
var labelCmpr int32
var labelEnd int32
var addr1 int32
var op int32
var pKeyDup uintptr = uintptr(0)
var pKeyMerge uintptr
var db uintptr
var pOrderBy uintptr
var nOrderBy int32
var aPermute uintptr
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
labelEnd = Xsqlite3VdbeMakeLabel(tls, pParse)
labelCmpr = Xsqlite3VdbeMakeLabel(tls, pParse)
op = int32((*Select)(unsafe.Pointer(p)).Fop)
pOrderBy = (*Select)(unsafe.Pointer(p)).FpOrderBy
nOrderBy = (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr
if op != TK_ALL {
for i = 1; int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0 && i <= (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpEList)).FnExpr; i++ {
var pItem uintptr
j = 0
pItem = pOrderBy + 8
__1:
if !(j < nOrderBy) {
goto __3
}
{
if int32(*(*U16)(unsafe.Pointer(pItem + 24))) == i {
goto __3
}
}
goto __2
__2:
j++
pItem += 32
goto __1
goto __3
__3:
;
if j == nOrderBy {
var pNew uintptr = Xsqlite3Expr(tls, db, TK_INTEGER, uintptr(0))
if pNew == uintptr(0) {
return SQLITE_NOMEM
}
*(*U32)(unsafe.Pointer(pNew + 4)) |= U32(EP_IntValue)
*(*int32)(unsafe.Pointer(pNew + 8)) = i
(*Select)(unsafe.Pointer(p)).FpOrderBy = libc.AssignUintptr(&pOrderBy, Xsqlite3ExprListAppend(tls, pParse, pOrderBy, pNew))
if pOrderBy != 0 {
*(*U16)(unsafe.Pointer(pOrderBy + 8 + uintptr(libc.PostIncInt32(&nOrderBy, 1))*32 + 24)) = U16(i)
}
}
}
}
aPermute = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(U32(0)))*uint64(nOrderBy+1))
if aPermute != 0 {
var pItem uintptr
*(*U32)(unsafe.Pointer(aPermute)) = U32(nOrderBy)
i = 1
pItem = pOrderBy + 8
__4:
if !(i <= nOrderBy) {
goto __6
}
{
*(*U32)(unsafe.Pointer(aPermute + uintptr(i)*4)) = U32(int32(*(*U16)(unsafe.Pointer(pItem + 24))) - 1)
}
goto __5
__5:
i++
pItem += 32
goto __4
goto __6
__6:
;
pKeyMerge = multiSelectOrderByKeyInfo(tls, pParse, p, 1)
} else {
pKeyMerge = uintptr(0)
}
if op == TK_ALL {
regPrev = 0
} else {
var nExpr int32 = (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpEList)).FnExpr
regPrev = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nExpr + 1
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, regPrev)
pKeyDup = Xsqlite3KeyInfoAlloc(tls, db, nExpr, 1)
if pKeyDup != 0 {
for i = 0; i < nExpr; i++ {
*(*uintptr)(unsafe.Pointer(pKeyDup + 32 + uintptr(i)*8)) = multiSelectCollSeq(tls, pParse, p, i)
*(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer(pKeyDup)).FaSortFlags + uintptr(i))) = U8(0)
}
}
}
nSelect = 1
if (op == TK_ALL || op == TK_UNION) &&
(*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_BalancedMerge) == U32(0) {
for pSplit = p; (*Select)(unsafe.Pointer(pSplit)).FpPrior != uintptr(0) && int32((*Select)(unsafe.Pointer(pSplit)).Fop) == op; pSplit = (*Select)(unsafe.Pointer(pSplit)).FpPrior {
nSelect++
}
}
if nSelect <= 3 {
pSplit = p
} else {
pSplit = p
for i = 2; i < nSelect; i = i + 2 {
pSplit = (*Select)(unsafe.Pointer(pSplit)).FpPrior
}
}
pPrior = (*Select)(unsafe.Pointer(pSplit)).FpPrior
(*Select)(unsafe.Pointer(pSplit)).FpPrior = uintptr(0)
(*Select)(unsafe.Pointer(pPrior)).FpNext = uintptr(0)
(*Select)(unsafe.Pointer(pPrior)).FpOrderBy = Xsqlite3ExprListDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pOrderBy, 0)
Xsqlite3ResolveOrderGroupBy(tls, pParse, p, (*Select)(unsafe.Pointer(p)).FpOrderBy, ts+7637)
Xsqlite3ResolveOrderGroupBy(tls, pParse, pPrior, (*Select)(unsafe.Pointer(pPrior)).FpOrderBy, ts+7637)
computeLimitRegisters(tls, pParse, p, labelEnd)
if (*Select)(unsafe.Pointer(p)).FiLimit != 0 && op == TK_ALL {
regLimitA = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
regLimitB = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Copy, func() int32 {
if (*Select)(unsafe.Pointer(p)).FiOffset != 0 {
return (*Select)(unsafe.Pointer(p)).FiOffset + 1
}
return (*Select)(unsafe.Pointer(p)).FiLimit
}(),
regLimitA)
Xsqlite3VdbeAddOp2(tls, v, OP_Copy, regLimitA, regLimitB)
} else {
regLimitA = libc.AssignInt32(&regLimitB, 0)
}
Xsqlite3ExprDelete(tls, db, (*Select)(unsafe.Pointer(p)).FpLimit)
(*Select)(unsafe.Pointer(p)).FpLimit = uintptr(0)
regAddrA = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
regAddrB = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
regOutA = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
regOutB = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3SelectDestInit(tls, bp+8, SRT_Coroutine, regAddrA)
Xsqlite3SelectDestInit(tls, bp+48, SRT_Coroutine, regAddrB)
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+19592, libc.VaList(bp, Xsqlite3SelectOpName(tls, int32((*Select)(unsafe.Pointer(p)).Fop))))
addrSelectA = Xsqlite3VdbeCurrentAddr(tls, v) + 1
addr1 = Xsqlite3VdbeAddOp3(tls, v, OP_InitCoroutine, regAddrA, 0, addrSelectA)
(*Select)(unsafe.Pointer(pPrior)).FiLimit = regLimitA
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+19603, 0)
Xsqlite3Select(tls, pParse, pPrior, bp+8)
Xsqlite3VdbeEndCoroutine(tls, v, regAddrA)
Xsqlite3VdbeJumpHere(tls, v, addr1)
addrSelectB = Xsqlite3VdbeCurrentAddr(tls, v) + 1
addr1 = Xsqlite3VdbeAddOp3(tls, v, OP_InitCoroutine, regAddrB, 0, addrSelectB)
savedLimit = (*Select)(unsafe.Pointer(p)).FiLimit
savedOffset = (*Select)(unsafe.Pointer(p)).FiOffset
(*Select)(unsafe.Pointer(p)).FiLimit = regLimitB
(*Select)(unsafe.Pointer(p)).FiOffset = 0
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+19608, 0)
Xsqlite3Select(tls, pParse, p, bp+48)
(*Select)(unsafe.Pointer(p)).FiLimit = savedLimit
(*Select)(unsafe.Pointer(p)).FiOffset = savedOffset
Xsqlite3VdbeEndCoroutine(tls, v, regAddrB)
addrOutA = generateOutputSubroutine(tls, pParse,
p, bp+8, pDest, regOutA,
regPrev, pKeyDup, labelEnd)
if op == TK_ALL || op == TK_UNION {
addrOutB = generateOutputSubroutine(tls, pParse,
p, bp+48, pDest, regOutB,
regPrev, pKeyDup, labelEnd)
}
Xsqlite3KeyInfoUnref(tls, pKeyDup)
if op == TK_EXCEPT || op == TK_INTERSECT {
addrEofA_noB = libc.AssignInt32(&addrEofA, labelEnd)
} else {
addrEofA = Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, regOutB, addrOutB)
addrEofA_noB = Xsqlite3VdbeAddOp2(tls, v, OP_Yield, regAddrB, labelEnd)
Xsqlite3VdbeGoto(tls, v, addrEofA)
(*Select)(unsafe.Pointer(p)).FnSelectRow = Xsqlite3LogEstAdd(tls, (*Select)(unsafe.Pointer(p)).FnSelectRow, (*Select)(unsafe.Pointer(pPrior)).FnSelectRow)
}
if op == TK_INTERSECT {
addrEofB = addrEofA
if int32((*Select)(unsafe.Pointer(p)).FnSelectRow) > int32((*Select)(unsafe.Pointer(pPrior)).FnSelectRow) {
(*Select)(unsafe.Pointer(p)).FnSelectRow = (*Select)(unsafe.Pointer(pPrior)).FnSelectRow
}
} else {
addrEofB = Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, regOutA, addrOutA)
Xsqlite3VdbeAddOp2(tls, v, OP_Yield, regAddrA, labelEnd)
Xsqlite3VdbeGoto(tls, v, addrEofB)
}
addrAltB = Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, regOutA, addrOutA)
Xsqlite3VdbeAddOp2(tls, v, OP_Yield, regAddrA, addrEofA)
Xsqlite3VdbeGoto(tls, v, labelCmpr)
if op == TK_ALL {
addrAeqB = addrAltB
} else if op == TK_INTERSECT {
addrAeqB = addrAltB
addrAltB++
} else {
addrAeqB = Xsqlite3VdbeAddOp2(tls, v, OP_Yield, regAddrA, addrEofA)
Xsqlite3VdbeGoto(tls, v, labelCmpr)
}
addrAgtB = Xsqlite3VdbeCurrentAddr(tls, v)
if op == TK_ALL || op == TK_UNION {
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, regOutB, addrOutB)
}
Xsqlite3VdbeAddOp2(tls, v, OP_Yield, regAddrB, addrEofB)
Xsqlite3VdbeGoto(tls, v, labelCmpr)
Xsqlite3VdbeJumpHere(tls, v, addr1)
Xsqlite3VdbeAddOp2(tls, v, OP_Yield, regAddrA, addrEofA_noB)
Xsqlite3VdbeAddOp2(tls, v, OP_Yield, regAddrB, addrEofB)
Xsqlite3VdbeResolveLabel(tls, v, labelCmpr)
Xsqlite3VdbeAddOp4(tls, v, OP_Permutation, 0, 0, 0, aPermute, -14)
Xsqlite3VdbeAddOp4(tls, v, OP_Compare, (*SelectDest)(unsafe.Pointer(bp+8)).FiSdst, (*SelectDest)(unsafe.Pointer(bp+48)).FiSdst, nOrderBy,
pKeyMerge, -8)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_PERMUTE))
Xsqlite3VdbeAddOp3(tls, v, OP_Jump, addrAltB, addrAeqB, addrAgtB)
Xsqlite3VdbeResolveLabel(tls, v, labelEnd)
if (*Select)(unsafe.Pointer(pSplit)).FpPrior != 0 {
Xsqlite3ParserAddCleanup(tls, pParse,
*(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3SelectDelete})), (*Select)(unsafe.Pointer(pSplit)).FpPrior)
}
(*Select)(unsafe.Pointer(pSplit)).FpPrior = pPrior
(*Select)(unsafe.Pointer(pPrior)).FpNext = pSplit
Xsqlite3ExprListDelete(tls, db, (*Select)(unsafe.Pointer(pPrior)).FpOrderBy)
(*Select)(unsafe.Pointer(pPrior)).FpOrderBy = uintptr(0)
Xsqlite3VdbeExplainPop(tls, pParse)
return libc.Bool32((*Parse)(unsafe.Pointer(pParse)).FnErr != 0)
}
// An instance of the SubstContext object describes an substitution edit
// to be performed on a parse tree.
//
// All references to columns in table iTable are to be replaced by corresponding
// expressions in pEList.
//
// ## About "isOuterJoin":
//
// The isOuterJoin column indicates that the replacement will occur into a
// position in the parent that NULL-able due to an OUTER JOIN. Either the
// target slot in the parent is the right operand of a LEFT JOIN, or one of
// the left operands of a RIGHT JOIN. In either case, we need to potentially
// bypass the substituted expression with OP_IfNullRow.
//
// Suppose the original expression is an integer constant. Even though the table
// has the nullRow flag set, because the expression is an integer constant,
// it will not be NULLed out. So instead, we insert an OP_IfNullRow opcode
// that checks to see if the nullRow flag is set on the table. If the nullRow
// flag is set, then the value in the register is set to NULL and the original
// expression is bypassed. If the nullRow flag is not set, then the original
// expression runs to populate the register.
//
// Example where this is needed:
//
// CREATE TABLE t1(a INTEGER PRIMARY KEY, b INT);
// CREATE TABLE t2(x INT UNIQUE);
//
// SELECT a,b,m,x FROM t1 LEFT JOIN (SELECT 59 AS m,x FROM t2) ON b=x;
//
// When the subquery on the right side of the LEFT JOIN is flattened, we
// have to add OP_IfNullRow in front of the OP_Integer that implements the
// "m" value of the subquery so that a NULL will be loaded instead of 59
// when processing a non-matched row of the left.
type SubstContext1 = struct {
FpParse uintptr
FiTable int32
FiNewTable int32
FisOuterJoin int32
F__ccgo_pad1 [4]byte
FpEList uintptr
FpCList uintptr
}
// An instance of the SubstContext object describes an substitution edit
// to be performed on a parse tree.
//
// All references to columns in table iTable are to be replaced by corresponding
// expressions in pEList.
//
// ## About "isOuterJoin":
//
// The isOuterJoin column indicates that the replacement will occur into a
// position in the parent that NULL-able due to an OUTER JOIN. Either the
// target slot in the parent is the right operand of a LEFT JOIN, or one of
// the left operands of a RIGHT JOIN. In either case, we need to potentially
// bypass the substituted expression with OP_IfNullRow.
//
// Suppose the original expression is an integer constant. Even though the table
// has the nullRow flag set, because the expression is an integer constant,
// it will not be NULLed out. So instead, we insert an OP_IfNullRow opcode
// that checks to see if the nullRow flag is set on the table. If the nullRow
// flag is set, then the value in the register is set to NULL and the original
// expression is bypassed. If the nullRow flag is not set, then the original
// expression runs to populate the register.
//
// Example where this is needed:
//
// CREATE TABLE t1(a INTEGER PRIMARY KEY, b INT);
// CREATE TABLE t2(x INT UNIQUE);
//
// SELECT a,b,m,x FROM t1 LEFT JOIN (SELECT 59 AS m,x FROM t2) ON b=x;
//
// When the subquery on the right side of the LEFT JOIN is flattened, we
// have to add OP_IfNullRow in front of the OP_Integer that implements the
// "m" value of the subquery so that a NULL will be loaded instead of 59
// when processing a non-matched row of the left.
type SubstContext = SubstContext1
func substExpr(tls *libc.TLS, pSubst uintptr, pExpr uintptr) uintptr {
bp := tls.Alloc(72)
defer tls.Free(72)
if pExpr == uintptr(0) {
return uintptr(0)
}
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON|EP_InnerON) != U32(0) &&
*(*int32)(unsafe.Pointer(pExpr + 52)) == (*SubstContext)(unsafe.Pointer(pSubst)).FiTable {
*(*int32)(unsafe.Pointer(pExpr + 52)) = (*SubstContext)(unsafe.Pointer(pSubst)).FiNewTable
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLUMN &&
(*Expr)(unsafe.Pointer(pExpr)).FiTable == (*SubstContext)(unsafe.Pointer(pSubst)).FiTable &&
!((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_FixedCol) != U32(0)) {
{
var pNew uintptr
var iColumn int32 = int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn)
var pCopy uintptr = (*ExprList_item)(unsafe.Pointer((*SubstContext)(unsafe.Pointer(pSubst)).FpEList + 8 + uintptr(iColumn)*32)).FpExpr
if Xsqlite3ExprIsVector(tls, pCopy) != 0 {
Xsqlite3VectorErrorMsg(tls, (*SubstContext)(unsafe.Pointer(pSubst)).FpParse, pCopy)
} else {
var db uintptr = (*Parse)(unsafe.Pointer((*SubstContext)(unsafe.Pointer(pSubst)).FpParse)).Fdb
if (*SubstContext)(unsafe.Pointer(pSubst)).FisOuterJoin != 0 && int32((*Expr)(unsafe.Pointer(pCopy)).Fop) != TK_COLUMN {
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Expr{})), libc.X__builtin_object_size(tls, bp, 0))
(*Expr)(unsafe.Pointer(bp)).Fop = U8(TK_IF_NULL_ROW)
(*Expr)(unsafe.Pointer(bp)).FpLeft = pCopy
(*Expr)(unsafe.Pointer(bp)).FiTable = (*SubstContext)(unsafe.Pointer(pSubst)).FiNewTable
(*Expr)(unsafe.Pointer(bp)).FiColumn = int16(-99)
(*Expr)(unsafe.Pointer(bp)).Fflags = U32(EP_IfNullRow)
pCopy = bp
}
pNew = Xsqlite3ExprDup(tls, db, pCopy, 0)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
Xsqlite3ExprDelete(tls, db, pNew)
return pExpr
}
if (*SubstContext)(unsafe.Pointer(pSubst)).FisOuterJoin != 0 {
*(*U32)(unsafe.Pointer(pNew + 4)) |= U32(EP_CanBeNull)
}
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON|EP_InnerON) != U32(0) {
Xsqlite3SetJoinExpr(tls, pNew, *(*int32)(unsafe.Pointer(pExpr + 52)),
(*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON|EP_InnerON))
}
Xsqlite3ExprDelete(tls, db, pExpr)
pExpr = pNew
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_TRUEFALSE {
*(*int32)(unsafe.Pointer(pExpr + 8)) = Xsqlite3ExprTruthValue(tls, pExpr)
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_INTEGER)
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_IntValue)
}
{
var pNat uintptr = Xsqlite3ExprCollSeq(tls, (*SubstContext)(unsafe.Pointer(pSubst)).FpParse, pExpr)
var pColl uintptr = Xsqlite3ExprCollSeq(tls, (*SubstContext)(unsafe.Pointer(pSubst)).FpParse,
(*ExprList_item)(unsafe.Pointer((*SubstContext)(unsafe.Pointer(pSubst)).FpCList+8+uintptr(iColumn)*32)).FpExpr)
if pNat != pColl || int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_COLUMN && int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_COLLATE {
pExpr = Xsqlite3ExprAddCollateString(tls, (*SubstContext)(unsafe.Pointer(pSubst)).FpParse, pExpr,
func() uintptr {
if pColl != 0 {
return (*CollSeq)(unsafe.Pointer(pColl)).FzName
}
return ts + 1092
}())
}
}
*(*U32)(unsafe.Pointer(pExpr + 4)) &= libc.Uint32FromInt32(libc.CplInt32(EP_Collate))
}
}
} else {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_IF_NULL_ROW && (*Expr)(unsafe.Pointer(pExpr)).FiTable == (*SubstContext)(unsafe.Pointer(pSubst)).FiTable {
(*Expr)(unsafe.Pointer(pExpr)).FiTable = (*SubstContext)(unsafe.Pointer(pSubst)).FiNewTable
}
(*Expr)(unsafe.Pointer(pExpr)).FpLeft = substExpr(tls, pSubst, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
(*Expr)(unsafe.Pointer(pExpr)).FpRight = substExpr(tls, pSubst, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_xIsSelect) != U32(0) {
substSelect(tls, pSubst, *(*uintptr)(unsafe.Pointer(pExpr + 32)), 1)
} else {
substExprList(tls, pSubst, *(*uintptr)(unsafe.Pointer(pExpr + 32)))
}
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc) != U32(0) {
var pWin uintptr = *(*uintptr)(unsafe.Pointer(pExpr + 64))
(*Window)(unsafe.Pointer(pWin)).FpFilter = substExpr(tls, pSubst, (*Window)(unsafe.Pointer(pWin)).FpFilter)
substExprList(tls, pSubst, (*Window)(unsafe.Pointer(pWin)).FpPartition)
substExprList(tls, pSubst, (*Window)(unsafe.Pointer(pWin)).FpOrderBy)
}
}
return pExpr
}
func substExprList(tls *libc.TLS, pSubst uintptr, pList uintptr) {
var i int32
if pList == uintptr(0) {
return
}
for i = 0; i < (*ExprList)(unsafe.Pointer(pList)).FnExpr; i++ {
(*ExprList_item)(unsafe.Pointer(pList + 8 + uintptr(i)*32)).FpExpr = substExpr(tls, pSubst, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(i)*32)).FpExpr)
}
}
func substSelect(tls *libc.TLS, pSubst uintptr, p uintptr, doPrior int32) {
var pSrc uintptr
var pItem uintptr
var i int32
if !(p != 0) {
return
}
for __ccgo := true; __ccgo; __ccgo = doPrior != 0 && libc.AssignUintptr(&p, (*Select)(unsafe.Pointer(p)).FpPrior) != uintptr(0) {
substExprList(tls, pSubst, (*Select)(unsafe.Pointer(p)).FpEList)
substExprList(tls, pSubst, (*Select)(unsafe.Pointer(p)).FpGroupBy)
substExprList(tls, pSubst, (*Select)(unsafe.Pointer(p)).FpOrderBy)
(*Select)(unsafe.Pointer(p)).FpHaving = substExpr(tls, pSubst, (*Select)(unsafe.Pointer(p)).FpHaving)
(*Select)(unsafe.Pointer(p)).FpWhere = substExpr(tls, pSubst, (*Select)(unsafe.Pointer(p)).FpWhere)
pSrc = (*Select)(unsafe.Pointer(p)).FpSrc
i = (*SrcList)(unsafe.Pointer(pSrc)).FnSrc
pItem = pSrc + 8
__1:
if !(i > 0) {
goto __3
}
{
substSelect(tls, pSubst, (*SrcItem)(unsafe.Pointer(pItem)).FpSelect, 1)
if uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x4>>2)) != 0 {
substExprList(tls, pSubst, *(*uintptr)(unsafe.Pointer(pItem + 88)))
}
}
goto __2
__2:
i--
pItem += 104
goto __1
goto __3
__3:
}
}
func recomputeColumnsUsedExpr(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
var pItem uintptr
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_COLUMN {
return WRC_Continue
}
pItem = *(*uintptr)(unsafe.Pointer(pWalker + 40))
if (*SrcItem)(unsafe.Pointer(pItem)).FiCursor != (*Expr)(unsafe.Pointer(pExpr)).FiTable {
return WRC_Continue
}
if int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn) < 0 {
return WRC_Continue
}
*(*Bitmask)(unsafe.Pointer(pItem + 80)) |= Xsqlite3ExprColUsed(tls, pExpr)
return WRC_Continue
}
func recomputeColumnsUsed(tls *libc.TLS, pSelect uintptr, pSrcItem uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
if (*SrcItem)(unsafe.Pointer(pSrcItem)).FpTab == uintptr(0) {
return
}
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{recomputeColumnsUsedExpr}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{Xsqlite3SelectWalkNoop}))
*(*uintptr)(unsafe.Pointer(bp + 40)) = pSrcItem
(*SrcItem)(unsafe.Pointer(pSrcItem)).FcolUsed = uint64(0)
Xsqlite3WalkSelect(tls, bp, pSelect)
}
func srclistRenumberCursors(tls *libc.TLS, pParse uintptr, aCsrMap uintptr, pSrc uintptr, iExcept int32) {
var i int32
var pItem uintptr
i = 0
pItem = pSrc + 8
__1:
if !(i < (*SrcList)(unsafe.Pointer(pSrc)).FnSrc) {
goto __3
}
{
if i != iExcept {
var p uintptr
if !(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x40>>6) != 0) || *(*int32)(unsafe.Pointer(aCsrMap + uintptr((*SrcItem)(unsafe.Pointer(pItem)).FiCursor+1)*4)) == 0 {
*(*int32)(unsafe.Pointer(aCsrMap + uintptr((*SrcItem)(unsafe.Pointer(pItem)).FiCursor+1)*4)) = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
}
(*SrcItem)(unsafe.Pointer(pItem)).FiCursor = *(*int32)(unsafe.Pointer(aCsrMap + uintptr((*SrcItem)(unsafe.Pointer(pItem)).FiCursor+1)*4))
for p = (*SrcItem)(unsafe.Pointer(pItem)).FpSelect; p != 0; p = (*Select)(unsafe.Pointer(p)).FpPrior {
srclistRenumberCursors(tls, pParse, aCsrMap, (*Select)(unsafe.Pointer(p)).FpSrc, -1)
}
}
}
goto __2
__2:
i++
pItem += 104
goto __1
goto __3
__3:
}
func renumberCursorDoMapping(tls *libc.TLS, pWalker uintptr, piCursor uintptr) {
var aCsrMap uintptr = *(*uintptr)(unsafe.Pointer(pWalker + 40))
var iCsr int32 = *(*int32)(unsafe.Pointer(piCursor))
if iCsr < *(*int32)(unsafe.Pointer(aCsrMap)) && *(*int32)(unsafe.Pointer(aCsrMap + uintptr(iCsr+1)*4)) > 0 {
*(*int32)(unsafe.Pointer(piCursor)) = *(*int32)(unsafe.Pointer(aCsrMap + uintptr(iCsr+1)*4))
}
}
func renumberCursorsCb(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
var op int32 = int32((*Expr)(unsafe.Pointer(pExpr)).Fop)
if op == TK_COLUMN || op == TK_IF_NULL_ROW {
renumberCursorDoMapping(tls, pWalker, pExpr+44)
}
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON) != U32(0) {
renumberCursorDoMapping(tls, pWalker, pExpr+52)
}
return WRC_Continue
}
func renumberCursors(tls *libc.TLS, pParse uintptr, p uintptr, iExcept int32, aCsrMap uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
srclistRenumberCursors(tls, pParse, aCsrMap, (*Select)(unsafe.Pointer(p)).FpSrc, iExcept)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
*(*uintptr)(unsafe.Pointer(bp + 40)) = aCsrMap
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{renumberCursorsCb}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{Xsqlite3SelectWalkNoop}))
Xsqlite3WalkSelect(tls, bp, p)
}
func findLeftmostExprlist(tls *libc.TLS, pSel uintptr) uintptr {
for (*Select)(unsafe.Pointer(pSel)).FpPrior != 0 {
pSel = (*Select)(unsafe.Pointer(pSel)).FpPrior
}
return (*Select)(unsafe.Pointer(pSel)).FpEList
}
func compoundHasDifferentAffinities(tls *libc.TLS, p uintptr) int32 {
var ii int32
var pList uintptr
pList = (*Select)(unsafe.Pointer(p)).FpEList
for ii = 0; ii < (*ExprList)(unsafe.Pointer(pList)).FnExpr; ii++ {
var aff int8
var pSub1 uintptr
aff = Xsqlite3ExprAffinity(tls, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(ii)*32)).FpExpr)
for pSub1 = (*Select)(unsafe.Pointer(p)).FpPrior; pSub1 != 0; pSub1 = (*Select)(unsafe.Pointer(pSub1)).FpPrior {
if int32(Xsqlite3ExprAffinity(tls, (*ExprList_item)(unsafe.Pointer((*Select)(unsafe.Pointer(pSub1)).FpEList+8+uintptr(ii)*32)).FpExpr)) != int32(aff) {
return 1
}
}
}
return 0
}
func flattenSubquery(tls *libc.TLS, pParse uintptr, p uintptr, iFrom int32, isAgg int32) int32 {
bp := tls.Alloc(88)
defer tls.Free(88)
var zSavedAuthContext uintptr = (*Parse)(unsafe.Pointer(pParse)).FzAuthContext
var pParent uintptr
var pSub uintptr
var pSub1 uintptr
var pSrc uintptr
var pSubSrc uintptr
var iParent int32
var iNewParent int32 = -1
var isOuterJoin int32 = 0
var i int32
var pWhere uintptr
var pSubitem uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var aCsrMap uintptr = uintptr(0)
if (*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_QueryFlattener) != U32(0) {
return 0
}
pSrc = (*Select)(unsafe.Pointer(p)).FpSrc
pSubitem = pSrc + 8 + uintptr(iFrom)*104
iParent = (*SrcItem)(unsafe.Pointer(pSubitem)).FiCursor
pSub = (*SrcItem)(unsafe.Pointer(pSubitem)).FpSelect
if (*Select)(unsafe.Pointer(p)).FpWin != 0 || (*Select)(unsafe.Pointer(pSub)).FpWin != 0 {
return 0
}
pSubSrc = (*Select)(unsafe.Pointer(pSub)).FpSrc
if (*Select)(unsafe.Pointer(pSub)).FpLimit != 0 && (*Select)(unsafe.Pointer(p)).FpLimit != 0 {
return 0
}
if (*Select)(unsafe.Pointer(pSub)).FpLimit != 0 && (*Expr)(unsafe.Pointer((*Select)(unsafe.Pointer(pSub)).FpLimit)).FpRight != 0 {
return 0
}
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Compound) != U32(0) && (*Select)(unsafe.Pointer(pSub)).FpLimit != 0 {
return 0
}
if (*SrcList)(unsafe.Pointer(pSubSrc)).FnSrc == 0 {
return 0
}
if (*Select)(unsafe.Pointer(pSub)).FselFlags&U32(SF_Distinct) != 0 {
return 0
}
if (*Select)(unsafe.Pointer(pSub)).FpLimit != 0 && ((*SrcList)(unsafe.Pointer(pSrc)).FnSrc > 1 || isAgg != 0) {
return 0
}
if (*Select)(unsafe.Pointer(p)).FpOrderBy != 0 && (*Select)(unsafe.Pointer(pSub)).FpOrderBy != 0 {
return 0
}
if isAgg != 0 && (*Select)(unsafe.Pointer(pSub)).FpOrderBy != 0 {
return 0
}
if (*Select)(unsafe.Pointer(pSub)).FpLimit != 0 && (*Select)(unsafe.Pointer(p)).FpWhere != 0 {
return 0
}
if (*Select)(unsafe.Pointer(pSub)).FpLimit != 0 && (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Distinct) != U32(0) {
return 0
}
if (*Select)(unsafe.Pointer(pSub)).FselFlags&U32(SF_Recursive) != 0 {
return 0
}
if int32((*SrcItem)(unsafe.Pointer(pSubitem)).Ffg.Fjointype)&(JT_OUTER|JT_LTORJ) != 0 {
if (*SrcList)(unsafe.Pointer(pSubSrc)).FnSrc > 1 ||
int32((*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pSubSrc+8)).FpTab)).FeTabType) == TABTYP_VTAB ||
(*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Distinct) != U32(0) ||
int32((*SrcItem)(unsafe.Pointer(pSubitem)).Ffg.Fjointype)&JT_RIGHT != 0 {
return 0
}
isOuterJoin = 1
}
if iFrom > 0 && int32((*SrcItem)(unsafe.Pointer(pSubSrc+8)).Ffg.Fjointype)&JT_LTORJ != 0 {
return 0
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pSubitem + 60 + 4))&0x100>>8)) != 0 && int32((*CteUse)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pSubitem + 96)))).FeM10d) == M10d_Yes {
return 0
}
if (*Select)(unsafe.Pointer(pSub)).FpPrior != 0 {
var ii int32
if (*Select)(unsafe.Pointer(pSub)).FpOrderBy != 0 {
return 0
}
if isAgg != 0 || (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Distinct) != U32(0) || isOuterJoin > 0 {
return 0
}
for pSub1 = pSub; pSub1 != 0; pSub1 = (*Select)(unsafe.Pointer(pSub1)).FpPrior {
if (*Select)(unsafe.Pointer(pSub1)).FselFlags&U32(SF_Distinct|SF_Aggregate) != U32(0) ||
(*Select)(unsafe.Pointer(pSub1)).FpPrior != 0 && int32((*Select)(unsafe.Pointer(pSub1)).Fop) != TK_ALL ||
(*SrcList)(unsafe.Pointer((*Select)(unsafe.Pointer(pSub1)).FpSrc)).FnSrc < 1 ||
(*Select)(unsafe.Pointer(pSub1)).FpWin != 0 {
return 0
}
if iFrom > 0 && int32((*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(pSub1)).FpSrc+8)).Ffg.Fjointype)&JT_LTORJ != 0 {
return 0
}
}
if (*Select)(unsafe.Pointer(p)).FpOrderBy != 0 {
for ii = 0; ii < (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpOrderBy)).FnExpr; ii++ {
if int32(*(*U16)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpOrderBy + 8 + uintptr(ii)*32 + 24))) == 0 {
return 0
}
}
}
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Recursive) != 0 {
return 0
}
if compoundHasDifferentAffinities(tls, pSub) != 0 {
return 0
}
if (*SrcList)(unsafe.Pointer(pSrc)).FnSrc > 1 {
if (*Parse)(unsafe.Pointer(pParse)).FnSelect > 500 {
return 0
}
if (*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_FlttnUnionAll) != U32(0) {
return 0
}
aCsrMap = Xsqlite3DbMallocZero(tls, db, uint64(I64((*Parse)(unsafe.Pointer(pParse)).FnTab)+int64(1))*uint64(unsafe.Sizeof(int32(0))))
if aCsrMap != 0 {
*(*int32)(unsafe.Pointer(aCsrMap)) = (*Parse)(unsafe.Pointer(pParse)).FnTab
}
}
}
(*Parse)(unsafe.Pointer(pParse)).FzAuthContext = (*SrcItem)(unsafe.Pointer(pSubitem)).FzName
Xsqlite3AuthCheck(tls, pParse, SQLITE_SELECT, uintptr(0), uintptr(0), uintptr(0))
(*Parse)(unsafe.Pointer(pParse)).FzAuthContext = zSavedAuthContext
pSub1 = (*SrcItem)(unsafe.Pointer(pSubitem)).FpSelect
Xsqlite3DbFree(tls, db, (*SrcItem)(unsafe.Pointer(pSubitem)).FzDatabase)
Xsqlite3DbFree(tls, db, (*SrcItem)(unsafe.Pointer(pSubitem)).FzName)
Xsqlite3DbFree(tls, db, (*SrcItem)(unsafe.Pointer(pSubitem)).FzAlias)
(*SrcItem)(unsafe.Pointer(pSubitem)).FzDatabase = uintptr(0)
(*SrcItem)(unsafe.Pointer(pSubitem)).FzName = uintptr(0)
(*SrcItem)(unsafe.Pointer(pSubitem)).FzAlias = uintptr(0)
(*SrcItem)(unsafe.Pointer(pSubitem)).FpSelect = uintptr(0)
for pSub = (*Select)(unsafe.Pointer(pSub)).FpPrior; pSub != 0; pSub = (*Select)(unsafe.Pointer(pSub)).FpPrior {
var pNew uintptr
var pOrderBy uintptr = (*Select)(unsafe.Pointer(p)).FpOrderBy
var pLimit uintptr = (*Select)(unsafe.Pointer(p)).FpLimit
var pPrior uintptr = (*Select)(unsafe.Pointer(p)).FpPrior
var pItemTab uintptr = (*SrcItem)(unsafe.Pointer(pSubitem)).FpTab
(*SrcItem)(unsafe.Pointer(pSubitem)).FpTab = uintptr(0)
(*Select)(unsafe.Pointer(p)).FpOrderBy = uintptr(0)
(*Select)(unsafe.Pointer(p)).FpPrior = uintptr(0)
(*Select)(unsafe.Pointer(p)).FpLimit = uintptr(0)
pNew = Xsqlite3SelectDup(tls, db, p, 0)
(*Select)(unsafe.Pointer(p)).FpLimit = pLimit
(*Select)(unsafe.Pointer(p)).FpOrderBy = pOrderBy
(*Select)(unsafe.Pointer(p)).Fop = U8(TK_ALL)
(*SrcItem)(unsafe.Pointer(pSubitem)).FpTab = pItemTab
if pNew == uintptr(0) {
(*Select)(unsafe.Pointer(p)).FpPrior = pPrior
} else {
(*Select)(unsafe.Pointer(pNew)).FselId = U32(libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnSelect, 1))
if aCsrMap != 0 && int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0 {
renumberCursors(tls, pParse, pNew, iFrom, aCsrMap)
}
(*Select)(unsafe.Pointer(pNew)).FpPrior = pPrior
if pPrior != 0 {
(*Select)(unsafe.Pointer(pPrior)).FpNext = pNew
}
(*Select)(unsafe.Pointer(pNew)).FpNext = p
(*Select)(unsafe.Pointer(p)).FpPrior = pNew
}
}
Xsqlite3DbFree(tls, db, aCsrMap)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
(*SrcItem)(unsafe.Pointer(pSubitem)).FpSelect = pSub1
return 1
}
if (*SrcItem)(unsafe.Pointer(pSubitem)).FpTab != uintptr(0) {
var pTabToDel uintptr = (*SrcItem)(unsafe.Pointer(pSubitem)).FpTab
if (*Table)(unsafe.Pointer(pTabToDel)).FnTabRef == U32(1) {
var pToplevel uintptr = func() uintptr {
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel != 0 {
return (*Parse)(unsafe.Pointer(pParse)).FpToplevel
}
return pParse
}()
Xsqlite3ParserAddCleanup(tls, pToplevel,
*(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3DeleteTable})),
pTabToDel)
} else {
(*Table)(unsafe.Pointer(pTabToDel)).FnTabRef--
}
(*SrcItem)(unsafe.Pointer(pSubitem)).FpTab = uintptr(0)
}
pSub = pSub1
pParent = p
__1:
if !(pParent != 0) {
goto __3
}
{
var nSubSrc int32
var jointype U8 = U8(0)
var ltorj U8 = U8(int32((*SrcItem)(unsafe.Pointer(pSrc+8+uintptr(iFrom)*104)).Ffg.Fjointype) & JT_LTORJ)
pSubSrc = (*Select)(unsafe.Pointer(pSub)).FpSrc
nSubSrc = (*SrcList)(unsafe.Pointer(pSubSrc)).FnSrc
pSrc = (*Select)(unsafe.Pointer(pParent)).FpSrc
if pParent == p {
jointype = (*SrcItem)(unsafe.Pointer(pSubitem)).Ffg.Fjointype
}
if nSubSrc > 1 {
pSrc = Xsqlite3SrcListEnlarge(tls, pParse, pSrc, nSubSrc-1, iFrom+1)
if pSrc == uintptr(0) {
goto __3
}
(*Select)(unsafe.Pointer(pParent)).FpSrc = pSrc
}
for i = 0; i < nSubSrc; i++ {
var pItem uintptr = pSrc + 8 + uintptr(i+iFrom)*104
if uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x400>>10)) != 0 {
Xsqlite3IdListDelete(tls, db, *(*uintptr)(unsafe.Pointer(pItem + 72)))
}
*(*SrcItem)(unsafe.Pointer(pItem)) = *(*SrcItem)(unsafe.Pointer(pSubSrc + 8 + uintptr(i)*104))
*(*U8)(unsafe.Pointer(pItem + 60)) |= U8(int32(ltorj))
iNewParent = (*SrcItem)(unsafe.Pointer(pSubSrc + 8 + uintptr(i)*104)).FiCursor
libc.X__builtin___memset_chk(tls, pSubSrc+8+uintptr(i)*104, 0, uint64(unsafe.Sizeof(SrcItem{})), libc.X__builtin_object_size(tls, pSubSrc+8+uintptr(i)*104, 0))
}
*(*U8)(unsafe.Pointer(pSrc + 8 + uintptr(iFrom)*104 + 60)) &= U8(JT_LTORJ)
*(*U8)(unsafe.Pointer(pSrc + 8 + uintptr(iFrom)*104 + 60)) |= U8(int32(jointype) | int32(ltorj))
if (*Select)(unsafe.Pointer(pSub)).FpOrderBy != 0 && (*Select)(unsafe.Pointer(pParent)).FselFlags&U32(SF_NoopOrderBy) == U32(0) {
var pOrderBy uintptr = (*Select)(unsafe.Pointer(pSub)).FpOrderBy
for i = 0; i < (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr; i++ {
*(*U16)(unsafe.Pointer(pOrderBy + 8 + uintptr(i)*32 + 24)) = U16(0)
}
(*Select)(unsafe.Pointer(pParent)).FpOrderBy = pOrderBy
(*Select)(unsafe.Pointer(pSub)).FpOrderBy = uintptr(0)
}
pWhere = (*Select)(unsafe.Pointer(pSub)).FpWhere
(*Select)(unsafe.Pointer(pSub)).FpWhere = uintptr(0)
if isOuterJoin > 0 {
Xsqlite3SetJoinExpr(tls, pWhere, iNewParent, uint32(EP_OuterON))
}
if pWhere != 0 {
if (*Select)(unsafe.Pointer(pParent)).FpWhere != 0 {
(*Select)(unsafe.Pointer(pParent)).FpWhere = Xsqlite3PExpr(tls, pParse, TK_AND, pWhere, (*Select)(unsafe.Pointer(pParent)).FpWhere)
} else {
(*Select)(unsafe.Pointer(pParent)).FpWhere = pWhere
}
}
if int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0 {
(*SubstContext)(unsafe.Pointer(bp)).FpParse = pParse
(*SubstContext)(unsafe.Pointer(bp)).FiTable = iParent
(*SubstContext)(unsafe.Pointer(bp)).FiNewTable = iNewParent
(*SubstContext)(unsafe.Pointer(bp)).FisOuterJoin = isOuterJoin
(*SubstContext)(unsafe.Pointer(bp)).FpEList = (*Select)(unsafe.Pointer(pSub)).FpEList
(*SubstContext)(unsafe.Pointer(bp)).FpCList = findLeftmostExprlist(tls, pSub)
substSelect(tls, bp, pParent, 0)
}
*(*U32)(unsafe.Pointer(pParent + 4)) |= (*Select)(unsafe.Pointer(pSub)).FselFlags & U32(SF_Compound)
if (*Select)(unsafe.Pointer(pSub)).FpLimit != 0 {
(*Select)(unsafe.Pointer(pParent)).FpLimit = (*Select)(unsafe.Pointer(pSub)).FpLimit
(*Select)(unsafe.Pointer(pSub)).FpLimit = uintptr(0)
}
for i = 0; i < nSubSrc; i++ {
recomputeColumnsUsed(tls, pParent, pSrc+8+uintptr(i+iFrom)*104)
}
}
goto __2
__2:
pParent = (*Select)(unsafe.Pointer(pParent)).FpPrior
pSub = (*Select)(unsafe.Pointer(pSub)).FpPrior
goto __1
goto __3
__3:
;
Xsqlite3AggInfoPersistWalkerInit(tls, bp+40, pParse)
Xsqlite3WalkSelect(tls, bp+40, pSub1)
Xsqlite3SelectDelete(tls, db, pSub1)
return 1
}
// A structure to keep track of all of the column values that are fixed to
// a known value due to WHERE clause constraints of the form COLUMN=VALUE.
type WhereConst = WhereConst1
func constInsert(tls *libc.TLS, pConst uintptr, pColumn uintptr, pValue uintptr, pExpr uintptr) {
var i int32
if (*Expr)(unsafe.Pointer(pColumn)).Fflags&U32(EP_FixedCol) != U32(0) {
return
}
if int32(Xsqlite3ExprAffinity(tls, pValue)) != 0 {
return
}
if !(Xsqlite3IsBinary(tls, Xsqlite3ExprCompareCollSeq(tls, (*WhereConst)(unsafe.Pointer(pConst)).FpParse, pExpr)) != 0) {
return
}
for i = 0; i < (*WhereConst)(unsafe.Pointer(pConst)).FnConst; i++ {
var pE2 uintptr = *(*uintptr)(unsafe.Pointer((*WhereConst)(unsafe.Pointer(pConst)).FapExpr + uintptr(i*2)*8))
if (*Expr)(unsafe.Pointer(pE2)).FiTable == (*Expr)(unsafe.Pointer(pColumn)).FiTable &&
int32((*Expr)(unsafe.Pointer(pE2)).FiColumn) == int32((*Expr)(unsafe.Pointer(pColumn)).FiColumn) {
return
}
}
if int32(Xsqlite3ExprAffinity(tls, pColumn)) == SQLITE_AFF_BLOB {
(*WhereConst)(unsafe.Pointer(pConst)).FbHasAffBlob = 1
}
(*WhereConst)(unsafe.Pointer(pConst)).FnConst++
(*WhereConst)(unsafe.Pointer(pConst)).FapExpr = Xsqlite3DbReallocOrFree(tls, (*Parse)(unsafe.Pointer((*WhereConst)(unsafe.Pointer(pConst)).FpParse)).Fdb, (*WhereConst)(unsafe.Pointer(pConst)).FapExpr,
uint64((*WhereConst)(unsafe.Pointer(pConst)).FnConst*2)*uint64(unsafe.Sizeof(uintptr(0))))
if (*WhereConst)(unsafe.Pointer(pConst)).FapExpr == uintptr(0) {
(*WhereConst)(unsafe.Pointer(pConst)).FnConst = 0
} else {
*(*uintptr)(unsafe.Pointer((*WhereConst)(unsafe.Pointer(pConst)).FapExpr + uintptr((*WhereConst)(unsafe.Pointer(pConst)).FnConst*2-2)*8)) = pColumn
*(*uintptr)(unsafe.Pointer((*WhereConst)(unsafe.Pointer(pConst)).FapExpr + uintptr((*WhereConst)(unsafe.Pointer(pConst)).FnConst*2-1)*8)) = pValue
}
}
func findConstInWhere(tls *libc.TLS, pConst uintptr, pExpr uintptr) {
var pRight uintptr
var pLeft uintptr
if pExpr == uintptr(0) {
return
}
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&(*WhereConst)(unsafe.Pointer(pConst)).FmExcludeOn != U32(0) {
return
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_AND {
findConstInWhere(tls, pConst, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
findConstInWhere(tls, pConst, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
return
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_EQ {
return
}
pRight = (*Expr)(unsafe.Pointer(pExpr)).FpRight
pLeft = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
if int32((*Expr)(unsafe.Pointer(pRight)).Fop) == TK_COLUMN && Xsqlite3ExprIsConstant(tls, pLeft) != 0 {
constInsert(tls, pConst, pRight, pLeft, pExpr)
}
if int32((*Expr)(unsafe.Pointer(pLeft)).Fop) == TK_COLUMN && Xsqlite3ExprIsConstant(tls, pRight) != 0 {
constInsert(tls, pConst, pLeft, pRight, pExpr)
}
}
func propagateConstantExprRewriteOne(tls *libc.TLS, pConst uintptr, pExpr uintptr, bIgnoreAffBlob int32) int32 {
var i int32
if *(*U8)(unsafe.Pointer((*WhereConst)(unsafe.Pointer(pConst)).FpOomFault)) != 0 {
return WRC_Prune
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_COLUMN {
return WRC_Continue
}
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&(U32(EP_FixedCol)|(*WhereConst)(unsafe.Pointer(pConst)).FmExcludeOn) != U32(0) {
return WRC_Continue
}
for i = 0; i < (*WhereConst)(unsafe.Pointer(pConst)).FnConst; i++ {
var pColumn uintptr = *(*uintptr)(unsafe.Pointer((*WhereConst)(unsafe.Pointer(pConst)).FapExpr + uintptr(i*2)*8))
if pColumn == pExpr {
continue
}
if (*Expr)(unsafe.Pointer(pColumn)).FiTable != (*Expr)(unsafe.Pointer(pExpr)).FiTable {
continue
}
if int32((*Expr)(unsafe.Pointer(pColumn)).FiColumn) != int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn) {
continue
}
if bIgnoreAffBlob != 0 && int32(Xsqlite3ExprAffinity(tls, pColumn)) == SQLITE_AFF_BLOB {
break
}
(*WhereConst)(unsafe.Pointer(pConst)).FnChng++
*(*U32)(unsafe.Pointer(pExpr + 4)) &= libc.Uint32FromInt32(libc.CplInt32(EP_Leaf))
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_FixedCol)
(*Expr)(unsafe.Pointer(pExpr)).FpLeft = Xsqlite3ExprDup(tls, (*Parse)(unsafe.Pointer((*WhereConst)(unsafe.Pointer(pConst)).FpParse)).Fdb, *(*uintptr)(unsafe.Pointer((*WhereConst)(unsafe.Pointer(pConst)).FapExpr + uintptr(i*2+1)*8)), 0)
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer((*WhereConst)(unsafe.Pointer(pConst)).FpParse)).Fdb)).FmallocFailed != 0 {
return WRC_Prune
}
break
}
return WRC_Prune
}
func propagateConstantExprRewrite(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
var pConst uintptr = *(*uintptr)(unsafe.Pointer(pWalker + 40))
if (*WhereConst)(unsafe.Pointer(pConst)).FbHasAffBlob != 0 {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) >= TK_EQ && int32((*Expr)(unsafe.Pointer(pExpr)).Fop) <= TK_GE ||
int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_IS {
propagateConstantExprRewriteOne(tls, pConst, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, 0)
if *(*U8)(unsafe.Pointer((*WhereConst)(unsafe.Pointer(pConst)).FpOomFault)) != 0 {
return WRC_Prune
}
if int32(Xsqlite3ExprAffinity(tls, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)) != SQLITE_AFF_TEXT {
propagateConstantExprRewriteOne(tls, pConst, (*Expr)(unsafe.Pointer(pExpr)).FpRight, 0)
}
}
}
return propagateConstantExprRewriteOne(tls, pConst, pExpr, (*WhereConst)(unsafe.Pointer(pConst)).FbHasAffBlob)
}
func propagateConstants(tls *libc.TLS, pParse uintptr, p uintptr) int32 {
bp := tls.Alloc(88)
defer tls.Free(88)
var nChng int32 = 0
(*WhereConst)(unsafe.Pointer(bp)).FpParse = pParse
(*WhereConst)(unsafe.Pointer(bp)).FpOomFault = (*Parse)(unsafe.Pointer(pParse)).Fdb + 103
for __ccgo := true; __ccgo; __ccgo = (*WhereConst)(unsafe.Pointer(bp)).FnChng != 0 {
(*WhereConst)(unsafe.Pointer(bp)).FnConst = 0
(*WhereConst)(unsafe.Pointer(bp)).FnChng = 0
(*WhereConst)(unsafe.Pointer(bp)).FapExpr = uintptr(0)
(*WhereConst)(unsafe.Pointer(bp)).FbHasAffBlob = 0
if (*Select)(unsafe.Pointer(p)).FpSrc != uintptr(0) &&
(*SrcList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc)).FnSrc > 0 &&
int32((*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc+8)).Ffg.Fjointype)&JT_LTORJ != 0 {
(*WhereConst)(unsafe.Pointer(bp)).FmExcludeOn = U32(EP_InnerON | EP_OuterON)
} else {
(*WhereConst)(unsafe.Pointer(bp)).FmExcludeOn = U32(EP_OuterON)
}
findConstInWhere(tls, bp, (*Select)(unsafe.Pointer(p)).FpWhere)
if (*WhereConst)(unsafe.Pointer(bp)).FnConst != 0 {
libc.X__builtin___memset_chk(tls, bp+40, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp+40, 0))
(*Walker)(unsafe.Pointer(bp + 40)).FpParse = pParse
(*Walker)(unsafe.Pointer(bp + 40)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{propagateConstantExprRewrite}))
(*Walker)(unsafe.Pointer(bp + 40)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{Xsqlite3SelectWalkNoop}))
(*Walker)(unsafe.Pointer(bp + 40)).FxSelectCallback2 = uintptr(0)
(*Walker)(unsafe.Pointer(bp + 40)).FwalkerDepth = 0
*(*uintptr)(unsafe.Pointer(bp + 40 + 40)) = bp
Xsqlite3WalkExpr(tls, bp+40, (*Select)(unsafe.Pointer(p)).FpWhere)
Xsqlite3DbFree(tls, (*Parse)(unsafe.Pointer((*WhereConst)(unsafe.Pointer(bp)).FpParse)).Fdb, (*WhereConst)(unsafe.Pointer(bp)).FapExpr)
nChng = nChng + (*WhereConst)(unsafe.Pointer(bp)).FnChng
}
}
return nChng
}
func pushDownWindowCheck(tls *libc.TLS, pParse uintptr, pSubq uintptr, pExpr uintptr) int32 {
return Xsqlite3ExprIsConstantOrGroupBy(tls, pParse, pExpr, (*Window)(unsafe.Pointer((*Select)(unsafe.Pointer(pSubq)).FpWin)).FpPartition)
}
func pushDownWhereTerms(tls *libc.TLS, pParse uintptr, pSubq uintptr, pWhere uintptr, pSrc uintptr) int32 {
bp := tls.Alloc(40)
defer tls.Free(40)
var pNew uintptr
var nChng int32 = 0
if pWhere == uintptr(0) {
return 0
}
if (*Select)(unsafe.Pointer(pSubq)).FselFlags&U32(SF_Recursive|SF_MultiPart) != 0 {
return 0
}
if int32((*SrcItem)(unsafe.Pointer(pSrc)).Ffg.Fjointype)&(JT_LTORJ|JT_RIGHT) != 0 {
return 0
}
if (*Select)(unsafe.Pointer(pSubq)).FpPrior != 0 {
var pSel uintptr
var notUnionAll int32 = 0
for pSel = pSubq; pSel != 0; pSel = (*Select)(unsafe.Pointer(pSel)).FpPrior {
var op U8 = (*Select)(unsafe.Pointer(pSel)).Fop
if int32(op) != TK_ALL && int32(op) != TK_SELECT {
notUnionAll = 1
}
if (*Select)(unsafe.Pointer(pSel)).FpWin != 0 {
return 0
}
}
if compoundHasDifferentAffinities(tls, pSubq) != 0 {
return 0
}
if notUnionAll != 0 {
for pSel = pSubq; pSel != 0; pSel = (*Select)(unsafe.Pointer(pSel)).FpPrior {
var ii int32
var pList uintptr = (*Select)(unsafe.Pointer(pSel)).FpEList
for ii = 0; ii < (*ExprList)(unsafe.Pointer(pList)).FnExpr; ii++ {
var pColl uintptr = Xsqlite3ExprCollSeq(tls, pParse, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(ii)*32)).FpExpr)
if !(Xsqlite3IsBinary(tls, pColl) != 0) {
return 0
}
}
}
}
} else {
if (*Select)(unsafe.Pointer(pSubq)).FpWin != 0 && (*Window)(unsafe.Pointer((*Select)(unsafe.Pointer(pSubq)).FpWin)).FpPartition == uintptr(0) {
return 0
}
}
if (*Select)(unsafe.Pointer(pSubq)).FpLimit != uintptr(0) {
return 0
}
for int32((*Expr)(unsafe.Pointer(pWhere)).Fop) == TK_AND {
nChng = nChng + pushDownWhereTerms(tls, pParse, pSubq, (*Expr)(unsafe.Pointer(pWhere)).FpRight, pSrc)
pWhere = (*Expr)(unsafe.Pointer(pWhere)).FpLeft
}
if Xsqlite3ExprIsTableConstraint(tls, pWhere, pSrc) != 0 {
nChng++
*(*U32)(unsafe.Pointer(pSubq + 4)) |= U32(SF_PushDown)
for pSubq != 0 {
pNew = Xsqlite3ExprDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pWhere, 0)
unsetJoinExpr(tls, pNew, -1, 1)
(*SubstContext)(unsafe.Pointer(bp)).FpParse = pParse
(*SubstContext)(unsafe.Pointer(bp)).FiTable = (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor
(*SubstContext)(unsafe.Pointer(bp)).FiNewTable = (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor
(*SubstContext)(unsafe.Pointer(bp)).FisOuterJoin = 0
(*SubstContext)(unsafe.Pointer(bp)).FpEList = (*Select)(unsafe.Pointer(pSubq)).FpEList
(*SubstContext)(unsafe.Pointer(bp)).FpCList = findLeftmostExprlist(tls, pSubq)
pNew = substExpr(tls, bp, pNew)
if (*Select)(unsafe.Pointer(pSubq)).FpWin != 0 && 0 == pushDownWindowCheck(tls, pParse, pSubq, pNew) {
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pNew)
nChng--
break
}
if (*Select)(unsafe.Pointer(pSubq)).FselFlags&U32(SF_Aggregate) != 0 {
(*Select)(unsafe.Pointer(pSubq)).FpHaving = Xsqlite3ExprAnd(tls, pParse, (*Select)(unsafe.Pointer(pSubq)).FpHaving, pNew)
} else {
(*Select)(unsafe.Pointer(pSubq)).FpWhere = Xsqlite3ExprAnd(tls, pParse, (*Select)(unsafe.Pointer(pSubq)).FpWhere, pNew)
}
pSubq = (*Select)(unsafe.Pointer(pSubq)).FpPrior
}
}
return nChng
}
func minMaxQuery(tls *libc.TLS, db uintptr, pFunc uintptr, ppMinMax uintptr) U8 {
var eRet int32 = WHERE_ORDERBY_NORMAL
var pEList uintptr
var zFunc uintptr
var pOrderBy uintptr
var sortFlags U8 = U8(0)
pEList = *(*uintptr)(unsafe.Pointer(pFunc + 32))
if pEList == uintptr(0) ||
(*ExprList)(unsafe.Pointer(pEList)).FnExpr != 1 ||
(*Expr)(unsafe.Pointer(pFunc)).Fflags&U32(EP_WinFunc) != U32(0) ||
(*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_MinMaxOpt) != U32(0) {
return U8(eRet)
}
zFunc = *(*uintptr)(unsafe.Pointer(pFunc + 8))
if Xsqlite3StrICmp(tls, zFunc, ts+15567) == 0 {
eRet = WHERE_ORDERBY_MIN
if Xsqlite3ExprCanBeNull(tls, (*ExprList_item)(unsafe.Pointer(pEList+8)).FpExpr) != 0 {
sortFlags = U8(KEYINFO_ORDER_BIGNULL)
}
} else if Xsqlite3StrICmp(tls, zFunc, ts+15571) == 0 {
eRet = WHERE_ORDERBY_MAX
sortFlags = U8(KEYINFO_ORDER_DESC)
} else {
return U8(eRet)
}
*(*uintptr)(unsafe.Pointer(ppMinMax)) = libc.AssignUintptr(&pOrderBy, Xsqlite3ExprListDup(tls, db, pEList, 0))
if pOrderBy != 0 {
(*ExprList_item)(unsafe.Pointer(pOrderBy + 8)).Ffg.FsortFlags = sortFlags
}
return U8(eRet)
}
func isSimpleCount(tls *libc.TLS, p uintptr, pAggInfo uintptr) uintptr {
var pTab uintptr
var pExpr uintptr
if (*Select)(unsafe.Pointer(p)).FpWhere != 0 ||
(*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpEList)).FnExpr != 1 ||
(*SrcList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc)).FnSrc != 1 ||
(*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc+8)).FpSelect != 0 ||
(*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc != 1 ||
(*Select)(unsafe.Pointer(p)).FpHaving != 0 {
return uintptr(0)
}
pTab = (*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc + 8)).FpTab
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_NORM) {
return uintptr(0)
}
pExpr = (*ExprList_item)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpEList + 8)).FpExpr
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_AGG_FUNCTION {
return uintptr(0)
}
if (*Expr)(unsafe.Pointer(pExpr)).FpAggInfo != pAggInfo {
return uintptr(0)
}
if (*FuncDef)(unsafe.Pointer((*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc)).FpFunc)).FfuncFlags&U32(SQLITE_FUNC_COUNT) == U32(0) {
return uintptr(0)
}
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Distinct|EP_WinFunc) != U32(0) {
return uintptr(0)
}
return pTab
}
// If the source-list item passed as an argument was augmented with an
// INDEXED BY clause, then try to locate the specified index. If there
// was such a clause and the named index cannot be found, return
// SQLITE_ERROR and leave an error in pParse. Otherwise, populate
// pFrom->pIndex and return SQLITE_OK.
func Xsqlite3IndexedByLookup(tls *libc.TLS, pParse uintptr, pFrom uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var pTab uintptr = (*SrcItem)(unsafe.Pointer(pFrom)).FpTab
var zIndexedBy uintptr = *(*uintptr)(unsafe.Pointer(pFrom + 88))
var pIdx uintptr
for pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex; pIdx != 0 && Xsqlite3StrICmp(tls, (*Index)(unsafe.Pointer(pIdx)).FzName, zIndexedBy) != 0; pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext {
}
if !(pIdx != 0) {
Xsqlite3ErrorMsg(tls, pParse, ts+19614, libc.VaList(bp, zIndexedBy, 0))
(*Parse)(unsafe.Pointer(pParse)).FcheckSchema = U8(1)
return SQLITE_ERROR
}
*(*uintptr)(unsafe.Pointer(pFrom + 96)) = pIdx
return SQLITE_OK
}
func convertCompoundSelectToSubquery(tls *libc.TLS, pWalker uintptr, p uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var i int32
var pNew uintptr
var pX uintptr
var db uintptr
var a uintptr
var pNewSrc uintptr
var pParse uintptr
if (*Select)(unsafe.Pointer(p)).FpPrior == uintptr(0) {
return WRC_Continue
}
if (*Select)(unsafe.Pointer(p)).FpOrderBy == uintptr(0) {
return WRC_Continue
}
for pX = p; pX != 0 && (int32((*Select)(unsafe.Pointer(pX)).Fop) == TK_ALL || int32((*Select)(unsafe.Pointer(pX)).Fop) == TK_SELECT); pX = (*Select)(unsafe.Pointer(pX)).FpPrior {
}
if pX == uintptr(0) {
return WRC_Continue
}
a = (*Select)(unsafe.Pointer(p)).FpOrderBy + 8
if *(*U16)(unsafe.Pointer(a + 24)) != 0 {
return WRC_Continue
}
for i = (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpOrderBy)).FnExpr - 1; i >= 0; i-- {
if (*Expr)(unsafe.Pointer((*ExprList_item)(unsafe.Pointer(a+uintptr(i)*32)).FpExpr)).Fflags&U32(EP_Collate) != 0 {
break
}
}
if i < 0 {
return WRC_Continue
}
pParse = (*Walker)(unsafe.Pointer(pWalker)).FpParse
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
pNew = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Select{})))
if pNew == uintptr(0) {
return WRC_Abort
}
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Token{})), libc.X__builtin_object_size(tls, bp, 0))
pNewSrc = Xsqlite3SrcListAppendFromTerm(tls, pParse, uintptr(0), uintptr(0), uintptr(0), bp, pNew, uintptr(0))
if pNewSrc == uintptr(0) {
return WRC_Abort
}
*(*Select)(unsafe.Pointer(pNew)) = *(*Select)(unsafe.Pointer(p))
(*Select)(unsafe.Pointer(p)).FpSrc = pNewSrc
(*Select)(unsafe.Pointer(p)).FpEList = Xsqlite3ExprListAppend(tls, pParse, uintptr(0), Xsqlite3Expr(tls, db, TK_ASTERISK, uintptr(0)))
(*Select)(unsafe.Pointer(p)).Fop = U8(TK_SELECT)
(*Select)(unsafe.Pointer(p)).FpWhere = uintptr(0)
(*Select)(unsafe.Pointer(pNew)).FpGroupBy = uintptr(0)
(*Select)(unsafe.Pointer(pNew)).FpHaving = uintptr(0)
(*Select)(unsafe.Pointer(pNew)).FpOrderBy = uintptr(0)
(*Select)(unsafe.Pointer(p)).FpPrior = uintptr(0)
(*Select)(unsafe.Pointer(p)).FpNext = uintptr(0)
(*Select)(unsafe.Pointer(p)).FpWith = uintptr(0)
(*Select)(unsafe.Pointer(p)).FpWinDefn = uintptr(0)
*(*U32)(unsafe.Pointer(p + 4)) &= libc.Uint32FromInt32(libc.CplInt32(SF_Compound))
*(*U32)(unsafe.Pointer(p + 4)) |= U32(SF_Converted)
(*Select)(unsafe.Pointer((*Select)(unsafe.Pointer(pNew)).FpPrior)).FpNext = pNew
(*Select)(unsafe.Pointer(pNew)).FpLimit = uintptr(0)
return WRC_Continue
}
func cannotBeFunction(tls *libc.TLS, pParse uintptr, pFrom uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
if uint32(int32(*(*uint16)(unsafe.Pointer(pFrom + 60 + 4))&0x4>>2)) != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+19632, libc.VaList(bp, (*SrcItem)(unsafe.Pointer(pFrom)).FzName))
return 1
}
return 0
}
func searchWith(tls *libc.TLS, pWith uintptr, pItem uintptr, ppContext uintptr) uintptr {
var zName uintptr = (*SrcItem)(unsafe.Pointer(pItem)).FzName
var p uintptr
for p = pWith; p != 0; p = (*With)(unsafe.Pointer(p)).FpOuter {
var i int32
for i = 0; i < (*With)(unsafe.Pointer(p)).FnCte; i++ {
if Xsqlite3StrICmp(tls, zName, (*Cte)(unsafe.Pointer(p+16+uintptr(i)*48)).FzName) == 0 {
*(*uintptr)(unsafe.Pointer(ppContext)) = p
return p + 16 + uintptr(i)*48
}
}
if (*With)(unsafe.Pointer(p)).FbView != 0 {
break
}
}
return uintptr(0)
}
// The code generator maintains a stack of active WITH clauses
// with the inner-most WITH clause being at the top of the stack.
//
// This routine pushes the WITH clause passed as the second argument
// onto the top of the stack. If argument bFree is true, then this
// WITH clause will never be popped from the stack but should instead
// be freed along with the Parse object. In other cases, when
// bFree==0, the With object will be freed along with the SELECT
// statement with which it is associated.
//
// This routine returns a copy of pWith. Or, if bFree is true and
// the pWith object is destroyed immediately due to an OOM condition,
// then this routine return NULL.
//
// If bFree is true, do not continue to use the pWith pointer after
// calling this routine, Instead, use only the return value.
func Xsqlite3WithPush(tls *libc.TLS, pParse uintptr, pWith uintptr, bFree U8) uintptr {
if pWith != 0 {
if bFree != 0 {
pWith = Xsqlite3ParserAddCleanup(tls, pParse,
*(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3WithDelete})),
pWith)
if pWith == uintptr(0) {
return uintptr(0)
}
}
if (*Parse)(unsafe.Pointer(pParse)).FnErr == 0 {
(*With)(unsafe.Pointer(pWith)).FpOuter = (*Parse)(unsafe.Pointer(pParse)).FpWith
(*Parse)(unsafe.Pointer(pParse)).FpWith = pWith
}
}
return pWith
}
func resolveFromTermToCte(tls *libc.TLS, pParse uintptr, pWalker uintptr, pFrom uintptr) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
var pCte uintptr
if (*Parse)(unsafe.Pointer(pParse)).FpWith == uintptr(0) {
return 0
}
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return 0
}
if (*SrcItem)(unsafe.Pointer(pFrom)).FzDatabase != uintptr(0) {
return 0
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pFrom + 60 + 4))&0x200>>9)) != 0 {
return 0
}
pCte = searchWith(tls, (*Parse)(unsafe.Pointer(pParse)).FpWith, pFrom, bp+48)
if pCte != 0 {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pTab uintptr
var pEList uintptr
var pSel uintptr
var pLeft uintptr
var pRecTerm uintptr
var bMayRecursive int32
var pSavedWith uintptr
var iRecTab int32 = -1
var pCteUse uintptr
if (*Cte)(unsafe.Pointer(pCte)).FzCteErr != 0 {
Xsqlite3ErrorMsg(tls, pParse, (*Cte)(unsafe.Pointer(pCte)).FzCteErr, libc.VaList(bp, (*Cte)(unsafe.Pointer(pCte)).FzName))
return 2
}
if cannotBeFunction(tls, pParse, pFrom) != 0 {
return 2
}
pTab = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Table{})))
if pTab == uintptr(0) {
return 2
}
pCteUse = (*Cte)(unsafe.Pointer(pCte)).FpUse
if pCteUse == uintptr(0) {
(*Cte)(unsafe.Pointer(pCte)).FpUse = libc.AssignUintptr(&pCteUse, Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(CteUse{}))))
if pCteUse == uintptr(0) ||
Xsqlite3ParserAddCleanup(tls, pParse, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3DbFree})), pCteUse) == uintptr(0) {
Xsqlite3DbFree(tls, db, pTab)
return 2
}
(*CteUse)(unsafe.Pointer(pCteUse)).FeM10d = (*Cte)(unsafe.Pointer(pCte)).FeM10d
}
(*SrcItem)(unsafe.Pointer(pFrom)).FpTab = pTab
(*Table)(unsafe.Pointer(pTab)).FnTabRef = U32(1)
(*Table)(unsafe.Pointer(pTab)).FzName = Xsqlite3DbStrDup(tls, db, (*Cte)(unsafe.Pointer(pCte)).FzName)
(*Table)(unsafe.Pointer(pTab)).FiPKey = int16(-1)
(*Table)(unsafe.Pointer(pTab)).FnRowLogEst = int16(200)
*(*U32)(unsafe.Pointer(pTab + 48)) |= U32(TF_Ephemeral | TF_NoVisibleRowid)
(*SrcItem)(unsafe.Pointer(pFrom)).FpSelect = Xsqlite3SelectDup(tls, db, (*Cte)(unsafe.Pointer(pCte)).FpSelect, 0)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return 2
}
*(*U32)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pFrom)).FpSelect + 4)) |= U32(SF_CopyCte)
if uint32(int32(*(*uint16)(unsafe.Pointer(pFrom + 60 + 4))&0x2>>1)) != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+19655, libc.VaList(bp+8, *(*uintptr)(unsafe.Pointer(pFrom + 88))))
return 2
}
libc.SetBitFieldPtr16Uint32(pFrom+60+4, uint32(1), 8, 0x100)
*(*uintptr)(unsafe.Pointer(pFrom + 96)) = pCteUse
(*CteUse)(unsafe.Pointer(pCteUse)).FnUse++
pRecTerm = libc.AssignUintptr(&pSel, (*SrcItem)(unsafe.Pointer(pFrom)).FpSelect)
bMayRecursive = libc.Bool32(int32((*Select)(unsafe.Pointer(pSel)).Fop) == TK_ALL || int32((*Select)(unsafe.Pointer(pSel)).Fop) == TK_UNION)
for bMayRecursive != 0 && int32((*Select)(unsafe.Pointer(pRecTerm)).Fop) == int32((*Select)(unsafe.Pointer(pSel)).Fop) {
var i int32
var pSrc uintptr = (*Select)(unsafe.Pointer(pRecTerm)).FpSrc
for i = 0; i < (*SrcList)(unsafe.Pointer(pSrc)).FnSrc; i++ {
var pItem uintptr = pSrc + 8 + uintptr(i)*104
if (*SrcItem)(unsafe.Pointer(pItem)).FzDatabase == uintptr(0) &&
(*SrcItem)(unsafe.Pointer(pItem)).FzName != uintptr(0) &&
0 == Xsqlite3StrICmp(tls, (*SrcItem)(unsafe.Pointer(pItem)).FzName, (*Cte)(unsafe.Pointer(pCte)).FzName) {
(*SrcItem)(unsafe.Pointer(pItem)).FpTab = pTab
(*Table)(unsafe.Pointer(pTab)).FnTabRef++
libc.SetBitFieldPtr16Uint32(pItem+60+4, uint32(1), 6, 0x40)
if (*Select)(unsafe.Pointer(pRecTerm)).FselFlags&U32(SF_Recursive) != 0 {
Xsqlite3ErrorMsg(tls, pParse,
ts+19675, libc.VaList(bp+16, (*Cte)(unsafe.Pointer(pCte)).FzName))
return 2
}
*(*U32)(unsafe.Pointer(pRecTerm + 4)) |= U32(SF_Recursive)
if iRecTab < 0 {
iRecTab = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
}
(*SrcItem)(unsafe.Pointer(pItem)).FiCursor = iRecTab
}
}
if (*Select)(unsafe.Pointer(pRecTerm)).FselFlags&U32(SF_Recursive) == U32(0) {
break
}
pRecTerm = (*Select)(unsafe.Pointer(pRecTerm)).FpPrior
}
(*Cte)(unsafe.Pointer(pCte)).FzCteErr = ts + 19718
pSavedWith = (*Parse)(unsafe.Pointer(pParse)).FpWith
(*Parse)(unsafe.Pointer(pParse)).FpWith = *(*uintptr)(unsafe.Pointer(bp + 48))
if (*Select)(unsafe.Pointer(pSel)).FselFlags&U32(SF_Recursive) != 0 {
var rc int32
(*Select)(unsafe.Pointer(pRecTerm)).FpWith = (*Select)(unsafe.Pointer(pSel)).FpWith
rc = Xsqlite3WalkSelect(tls, pWalker, pRecTerm)
(*Select)(unsafe.Pointer(pRecTerm)).FpWith = uintptr(0)
if rc != 0 {
(*Parse)(unsafe.Pointer(pParse)).FpWith = pSavedWith
return 2
}
} else {
if Xsqlite3WalkSelect(tls, pWalker, pSel) != 0 {
(*Parse)(unsafe.Pointer(pParse)).FpWith = pSavedWith
return 2
}
}
(*Parse)(unsafe.Pointer(pParse)).FpWith = *(*uintptr)(unsafe.Pointer(bp + 48))
for pLeft = pSel; (*Select)(unsafe.Pointer(pLeft)).FpPrior != 0; pLeft = (*Select)(unsafe.Pointer(pLeft)).FpPrior {
}
pEList = (*Select)(unsafe.Pointer(pLeft)).FpEList
if (*Cte)(unsafe.Pointer(pCte)).FpCols != 0 {
if pEList != 0 && (*ExprList)(unsafe.Pointer(pEList)).FnExpr != (*ExprList)(unsafe.Pointer((*Cte)(unsafe.Pointer(pCte)).FpCols)).FnExpr {
Xsqlite3ErrorMsg(tls, pParse, ts+19741,
libc.VaList(bp+24, (*Cte)(unsafe.Pointer(pCte)).FzName, (*ExprList)(unsafe.Pointer(pEList)).FnExpr, (*ExprList)(unsafe.Pointer((*Cte)(unsafe.Pointer(pCte)).FpCols)).FnExpr))
(*Parse)(unsafe.Pointer(pParse)).FpWith = pSavedWith
return 2
}
pEList = (*Cte)(unsafe.Pointer(pCte)).FpCols
}
Xsqlite3ColumnsFromExprList(tls, pParse, pEList, pTab+54, pTab+8)
if bMayRecursive != 0 {
if (*Select)(unsafe.Pointer(pSel)).FselFlags&U32(SF_Recursive) != 0 {
(*Cte)(unsafe.Pointer(pCte)).FzCteErr = ts + 19779
} else {
(*Cte)(unsafe.Pointer(pCte)).FzCteErr = ts + 19813
}
Xsqlite3WalkSelect(tls, pWalker, pSel)
}
(*Cte)(unsafe.Pointer(pCte)).FzCteErr = uintptr(0)
(*Parse)(unsafe.Pointer(pParse)).FpWith = pSavedWith
return 1
}
return 0
}
// If the SELECT passed as the second argument has an associated WITH
// clause, pop it from the stack stored as part of the Parse object.
//
// This function is used as the xSelectCallback2() callback by
// sqlite3SelectExpand() when walking a SELECT tree to resolve table
// names and other FROM clause elements.
func Xsqlite3SelectPopWith(tls *libc.TLS, pWalker uintptr, p uintptr) {
var pParse uintptr = (*Walker)(unsafe.Pointer(pWalker)).FpParse
if (*Parse)(unsafe.Pointer(pParse)).FpWith != 0 && (*Select)(unsafe.Pointer(p)).FpPrior == uintptr(0) {
var pWith uintptr = (*Select)(unsafe.Pointer(findRightmost(tls, p))).FpWith
if pWith != uintptr(0) {
(*Parse)(unsafe.Pointer(pParse)).FpWith = (*With)(unsafe.Pointer(pWith)).FpOuter
}
}
}
// The SrcItem structure passed as the second argument represents a
// sub-query in the FROM clause of a SELECT statement. This function
// allocates and populates the SrcItem.pTab object. If successful,
// SQLITE_OK is returned. Otherwise, if an OOM error is encountered,
// SQLITE_NOMEM.
func Xsqlite3ExpandSubquery(tls *libc.TLS, pParse uintptr, pFrom uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pSel uintptr = (*SrcItem)(unsafe.Pointer(pFrom)).FpSelect
var pTab uintptr
(*SrcItem)(unsafe.Pointer(pFrom)).FpTab = libc.AssignUintptr(&pTab, Xsqlite3DbMallocZero(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(Table{}))))
if pTab == uintptr(0) {
return SQLITE_NOMEM
}
(*Table)(unsafe.Pointer(pTab)).FnTabRef = U32(1)
if (*SrcItem)(unsafe.Pointer(pFrom)).FzAlias != 0 {
(*Table)(unsafe.Pointer(pTab)).FzName = Xsqlite3DbStrDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*SrcItem)(unsafe.Pointer(pFrom)).FzAlias)
} else {
(*Table)(unsafe.Pointer(pTab)).FzName = Xsqlite3MPrintf(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, ts+19851, libc.VaList(bp, pFrom))
}
for (*Select)(unsafe.Pointer(pSel)).FpPrior != 0 {
pSel = (*Select)(unsafe.Pointer(pSel)).FpPrior
}
Xsqlite3ColumnsFromExprList(tls, pParse, (*Select)(unsafe.Pointer(pSel)).FpEList, pTab+54, pTab+8)
(*Table)(unsafe.Pointer(pTab)).FiPKey = int16(-1)
(*Table)(unsafe.Pointer(pTab)).FnRowLogEst = int16(200)
*(*U32)(unsafe.Pointer(pTab + 48)) |= U32(TF_Ephemeral | TF_NoVisibleRowid)
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return SQLITE_ERROR
}
return SQLITE_OK
}
func inAnyUsingClause(tls *libc.TLS, zName uintptr, pBase uintptr, N int32) int32 {
for N > 0 {
N--
pBase += 104
if int32(*(*uint16)(unsafe.Pointer(pBase + 60 + 4))&0x400>>10) == 0 {
continue
}
if *(*uintptr)(unsafe.Pointer(pBase + 72)) == uintptr(0) {
continue
}
if Xsqlite3IdListIndex(tls, *(*uintptr)(unsafe.Pointer(pBase + 72)), zName) >= 0 {
return 1
}
}
return 0
}
func selectExpander(tls *libc.TLS, pWalker uintptr, p uintptr) int32 {
bp := tls.Alloc(80)
defer tls.Free(80)
var pParse uintptr = (*Walker)(unsafe.Pointer(pWalker)).FpParse
var i int32
var j int32
var k int32
var rc int32
var pTabList uintptr
var pEList uintptr
var pFrom uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pE uintptr
var pRight uintptr
var pExpr uintptr
var selFlags U16 = U16((*Select)(unsafe.Pointer(p)).FselFlags)
var elistFlags U32 = U32(0)
*(*U32)(unsafe.Pointer(p + 4)) |= U32(SF_Expanded)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return WRC_Abort
}
if int32(selFlags)&SF_Expanded != 0 {
return WRC_Prune
}
if (*Walker)(unsafe.Pointer(pWalker)).FeCode != 0 {
(*Select)(unsafe.Pointer(p)).FselId = U32(libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnSelect, 1))
}
pTabList = (*Select)(unsafe.Pointer(p)).FpSrc
pEList = (*Select)(unsafe.Pointer(p)).FpEList
if (*Parse)(unsafe.Pointer(pParse)).FpWith != 0 && (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_View) != 0 {
if (*Select)(unsafe.Pointer(p)).FpWith == uintptr(0) {
(*Select)(unsafe.Pointer(p)).FpWith = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(With{})))
if (*Select)(unsafe.Pointer(p)).FpWith == uintptr(0) {
return WRC_Abort
}
}
(*With)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpWith)).FbView = 1
}
Xsqlite3WithPush(tls, pParse, (*Select)(unsafe.Pointer(p)).FpWith, uint8(0))
Xsqlite3SrcListAssignCursors(tls, pParse, pTabList)
i = 0
pFrom = pTabList + 8
__1:
if !(i < (*SrcList)(unsafe.Pointer(pTabList)).FnSrc) {
goto __3
}
{
var pTab uintptr
if (*SrcItem)(unsafe.Pointer(pFrom)).FpTab != 0 {
goto __2
}
if (*SrcItem)(unsafe.Pointer(pFrom)).FzName == uintptr(0) {
var pSel uintptr = (*SrcItem)(unsafe.Pointer(pFrom)).FpSelect
if Xsqlite3WalkSelect(tls, pWalker, pSel) != 0 {
return WRC_Abort
}
if Xsqlite3ExpandSubquery(tls, pParse, pFrom) != 0 {
return WRC_Abort
}
} else if libc.AssignInt32(&rc, resolveFromTermToCte(tls, pParse, pWalker, pFrom)) != 0 {
if rc > 1 {
return WRC_Abort
}
pTab = (*SrcItem)(unsafe.Pointer(pFrom)).FpTab
} else {
(*SrcItem)(unsafe.Pointer(pFrom)).FpTab = libc.AssignUintptr(&pTab, Xsqlite3LocateTableItem(tls, pParse, uint32(0), pFrom))
if pTab == uintptr(0) {
return WRC_Abort
}
if (*Table)(unsafe.Pointer(pTab)).FnTabRef >= U32(0xffff) {
Xsqlite3ErrorMsg(tls, pParse, ts+19855,
libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName))
(*SrcItem)(unsafe.Pointer(pFrom)).FpTab = uintptr(0)
return WRC_Abort
}
(*Table)(unsafe.Pointer(pTab)).FnTabRef++
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) && cannotBeFunction(tls, pParse, pFrom) != 0 {
return WRC_Abort
}
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_NORM) {
var nCol I16
var eCodeOrig U8 = U8((*Walker)(unsafe.Pointer(pWalker)).FeCode)
if Xsqlite3ViewGetColumnNames(tls, pParse, pTab) != 0 {
return WRC_Abort
}
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW {
if (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_EnableView) == uint64(0) &&
(*Table)(unsafe.Pointer(pTab)).FpSchema != (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema {
Xsqlite3ErrorMsg(tls, pParse, ts+19894,
libc.VaList(bp+8, (*Table)(unsafe.Pointer(pTab)).FzName))
}
(*SrcItem)(unsafe.Pointer(pFrom)).FpSelect = Xsqlite3SelectDup(tls, db, *(*uintptr)(unsafe.Pointer(pTab + 64)), 0)
} else if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB &&
uint32(int32(*(*uint16)(unsafe.Pointer(pFrom + 60 + 4))&0x80>>7)) != 0 &&
*(*uintptr)(unsafe.Pointer(pTab + 64 + 16)) != uintptr(0) &&
int32((*VTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pTab + 64 + 16)))).FeVtabRisk) > libc.Bool32((*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_TrustedSchema) != uint64(0)) {
Xsqlite3ErrorMsg(tls, pParse, ts+15136,
libc.VaList(bp+16, (*Table)(unsafe.Pointer(pTab)).FzName))
}
nCol = (*Table)(unsafe.Pointer(pTab)).FnCol
(*Table)(unsafe.Pointer(pTab)).FnCol = int16(-1)
(*Walker)(unsafe.Pointer(pWalker)).FeCode = U16(1)
Xsqlite3WalkSelect(tls, pWalker, (*SrcItem)(unsafe.Pointer(pFrom)).FpSelect)
(*Walker)(unsafe.Pointer(pWalker)).FeCode = U16(eCodeOrig)
(*Table)(unsafe.Pointer(pTab)).FnCol = nCol
}
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pFrom + 60 + 4))&0x2>>1)) != 0 && Xsqlite3IndexedByLookup(tls, pParse, pFrom) != 0 {
return WRC_Abort
}
}
goto __2
__2:
i++
pFrom += 104
goto __1
goto __3
__3:
;
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 || sqlite3ProcessJoin(tls, pParse, p) != 0 {
return WRC_Abort
}
for k = 0; k < (*ExprList)(unsafe.Pointer(pEList)).FnExpr; k++ {
pE = (*ExprList_item)(unsafe.Pointer(pEList + 8 + uintptr(k)*32)).FpExpr
if int32((*Expr)(unsafe.Pointer(pE)).Fop) == TK_ASTERISK {
break
}
if int32((*Expr)(unsafe.Pointer(pE)).Fop) == TK_DOT && int32((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pE)).FpRight)).Fop) == TK_ASTERISK {
break
}
elistFlags = elistFlags | (*Expr)(unsafe.Pointer(pE)).Fflags
}
if k < (*ExprList)(unsafe.Pointer(pEList)).FnExpr {
var a uintptr = pEList + 8
var pNew uintptr = uintptr(0)
var flags int32 = int32((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Fflags)
var longNames int32 = libc.Bool32(flags&SQLITE_FullColNames != 0 &&
flags&SQLITE_ShortColNames == 0)
for k = 0; k < (*ExprList)(unsafe.Pointer(pEList)).FnExpr; k++ {
pE = (*ExprList_item)(unsafe.Pointer(a + uintptr(k)*32)).FpExpr
elistFlags = elistFlags | (*Expr)(unsafe.Pointer(pE)).Fflags
pRight = (*Expr)(unsafe.Pointer(pE)).FpRight
if int32((*Expr)(unsafe.Pointer(pE)).Fop) != TK_ASTERISK &&
(int32((*Expr)(unsafe.Pointer(pE)).Fop) != TK_DOT || int32((*Expr)(unsafe.Pointer(pRight)).Fop) != TK_ASTERISK) {
pNew = Xsqlite3ExprListAppend(tls, pParse, pNew, (*ExprList_item)(unsafe.Pointer(a+uintptr(k)*32)).FpExpr)
if pNew != 0 {
(*ExprList_item)(unsafe.Pointer(pNew + 8 + uintptr((*ExprList)(unsafe.Pointer(pNew)).FnExpr-1)*32)).FzEName = (*ExprList_item)(unsafe.Pointer(a + uintptr(k)*32)).FzEName
libc.SetBitFieldPtr16Uint32(pNew+8+uintptr((*ExprList)(unsafe.Pointer(pNew)).FnExpr-1)*32+16+4, uint32(int32(*(*uint16)(unsafe.Pointer(a + uintptr(k)*32 + 16 + 4))&0x3>>0)), 0, 0x3)
(*ExprList_item)(unsafe.Pointer(a + uintptr(k)*32)).FzEName = uintptr(0)
}
(*ExprList_item)(unsafe.Pointer(a + uintptr(k)*32)).FpExpr = uintptr(0)
} else {
var tableSeen int32 = 0
var zTName uintptr = uintptr(0)
if int32((*Expr)(unsafe.Pointer(pE)).Fop) == TK_DOT {
zTName = *(*uintptr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pE)).FpLeft + 8))
}
i = 0
pFrom = pTabList + 8
__4:
if !(i < (*SrcList)(unsafe.Pointer(pTabList)).FnSrc) {
goto __6
}
{
var pTab uintptr = (*SrcItem)(unsafe.Pointer(pFrom)).FpTab
var pNestedFrom uintptr
var zTabName uintptr
var zSchemaName uintptr = uintptr(0)
var iDb int32
var pUsing uintptr
if libc.AssignUintptr(&zTabName, (*SrcItem)(unsafe.Pointer(pFrom)).FzAlias) == uintptr(0) {
zTabName = (*Table)(unsafe.Pointer(pTab)).FzName
}
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
goto __6
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pFrom + 60 + 4))&0x2000>>13)) != 0 {
pNestedFrom = (*Select)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pFrom)).FpSelect)).FpEList
} else {
if zTName != 0 && Xsqlite3StrICmp(tls, zTName, zTabName) != 0 {
goto __5
}
pNestedFrom = uintptr(0)
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
if iDb >= 0 {
zSchemaName = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
} else {
zSchemaName = ts + 6849
}
}
if i+1 < (*SrcList)(unsafe.Pointer(pTabList)).FnSrc &&
uint32(int32(*(*uint16)(unsafe.Pointer(pFrom + 1*104 + 60 + 4))&0x400>>10)) != 0 &&
int32(selFlags)&SF_NestedFrom != 0 {
var ii int32
pUsing = *(*uintptr)(unsafe.Pointer(pFrom + 1*104 + 72))
for ii = 0; ii < (*IdList)(unsafe.Pointer(pUsing)).FnId; ii++ {
var zUName uintptr = (*IdList_item)(unsafe.Pointer(pUsing + 8 + uintptr(ii)*16)).FzName
pRight = Xsqlite3Expr(tls, db, TK_ID, zUName)
pNew = Xsqlite3ExprListAppend(tls, pParse, pNew, pRight)
if pNew != 0 {
var pX uintptr = pNew + 8 + uintptr((*ExprList)(unsafe.Pointer(pNew)).FnExpr-1)*32
(*ExprList_item)(unsafe.Pointer(pX)).FzEName = Xsqlite3MPrintf(tls, db, ts+19925, libc.VaList(bp+24, zUName))
libc.SetBitFieldPtr16Uint32(pX+16+4, uint32(ENAME_TAB), 0, 0x3)
libc.SetBitFieldPtr16Uint32(pX+16+4, uint32(1), 7, 0x80)
}
}
} else {
pUsing = uintptr(0)
}
for j = 0; j < int32((*Table)(unsafe.Pointer(pTab)).FnCol); j++ {
var zName uintptr = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(j)*24)).FzCnName
var pX uintptr
if zTName != 0 &&
pNestedFrom != 0 &&
Xsqlite3MatchEName(tls, pNestedFrom+8+uintptr(j)*32, uintptr(0), zTName, uintptr(0)) == 0 {
continue
}
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_IncludeHidden) == U32(0) &&
int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)).FcolFlags)&COLFLAG_HIDDEN != 0 {
continue
}
if int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)).FcolFlags)&COLFLAG_NOEXPAND != 0 &&
zTName == uintptr(0) &&
int32(selFlags)&SF_NestedFrom == 0 {
continue
}
tableSeen = 1
if i > 0 && zTName == uintptr(0) && int32(selFlags)&SF_NestedFrom == 0 {
if uint32(int32(*(*uint16)(unsafe.Pointer(pFrom + 60 + 4))&0x400>>10)) != 0 &&
Xsqlite3IdListIndex(tls, *(*uintptr)(unsafe.Pointer(pFrom + 72)), zName) >= 0 {
continue
}
}
pRight = Xsqlite3Expr(tls, db, TK_ID, zName)
if (*SrcList)(unsafe.Pointer(pTabList)).FnSrc > 1 &&
(int32((*SrcItem)(unsafe.Pointer(pFrom)).Ffg.Fjointype)&JT_LTORJ == 0 ||
int32(selFlags)&SF_NestedFrom != 0 ||
!(inAnyUsingClause(tls, zName, pFrom, (*SrcList)(unsafe.Pointer(pTabList)).FnSrc-i-1) != 0)) ||
int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
var pLeft uintptr
pLeft = Xsqlite3Expr(tls, db, TK_ID, zTabName)
pExpr = Xsqlite3PExpr(tls, pParse, TK_DOT, pLeft, pRight)
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME && (*Expr)(unsafe.Pointer(pE)).FpLeft != 0 {
Xsqlite3RenameTokenRemap(tls, pParse, pLeft, (*Expr)(unsafe.Pointer(pE)).FpLeft)
}
if zSchemaName != 0 {
pLeft = Xsqlite3Expr(tls, db, TK_ID, zSchemaName)
pExpr = Xsqlite3PExpr(tls, pParse, TK_DOT, pLeft, pExpr)
}
} else {
pExpr = pRight
}
pNew = Xsqlite3ExprListAppend(tls, pParse, pNew, pExpr)
if pNew == uintptr(0) {
break
}
pX = pNew + 8 + uintptr((*ExprList)(unsafe.Pointer(pNew)).FnExpr-1)*32
if int32(selFlags)&SF_NestedFrom != 0 && !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
if pNestedFrom != 0 {
(*ExprList_item)(unsafe.Pointer(pX)).FzEName = Xsqlite3DbStrDup(tls, db, (*ExprList_item)(unsafe.Pointer(pNestedFrom+8+uintptr(j)*32)).FzEName)
} else {
(*ExprList_item)(unsafe.Pointer(pX)).FzEName = Xsqlite3MPrintf(tls, db, ts+19930,
libc.VaList(bp+32, zSchemaName, zTabName, zName))
}
libc.SetBitFieldPtr16Uint32(pX+16+4, uint32(ENAME_TAB), 0, 0x3)
if uint32(int32(*(*uint16)(unsafe.Pointer(pFrom + 60 + 4))&0x400>>10)) != 0 &&
Xsqlite3IdListIndex(tls, *(*uintptr)(unsafe.Pointer(pFrom + 72)), zName) >= 0 ||
pUsing != 0 && Xsqlite3IdListIndex(tls, pUsing, zName) >= 0 ||
int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)).FcolFlags)&COLFLAG_NOEXPAND != 0 {
libc.SetBitFieldPtr16Uint32(pX+16+4, uint32(1), 8, 0x100)
}
} else if longNames != 0 {
(*ExprList_item)(unsafe.Pointer(pX)).FzEName = Xsqlite3MPrintf(tls, db, ts+12464, libc.VaList(bp+56, zTabName, zName))
libc.SetBitFieldPtr16Uint32(pX+16+4, uint32(ENAME_NAME), 0, 0x3)
} else {
(*ExprList_item)(unsafe.Pointer(pX)).FzEName = Xsqlite3DbStrDup(tls, db, zName)
libc.SetBitFieldPtr16Uint32(pX+16+4, uint32(ENAME_NAME), 0, 0x3)
}
}
}
goto __5
__5:
i++
pFrom += 104
goto __4
goto __6
__6:
;
if !(tableSeen != 0) {
if zTName != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+19939, libc.VaList(bp+72, zTName))
} else {
Xsqlite3ErrorMsg(tls, pParse, ts+19957, 0)
}
}
}
}
Xsqlite3ExprListDelete(tls, db, pEList)
(*Select)(unsafe.Pointer(p)).FpEList = pNew
}
if (*Select)(unsafe.Pointer(p)).FpEList != 0 {
if (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpEList)).FnExpr > *(*int32)(unsafe.Pointer(db + 136 + 2*4)) {
Xsqlite3ErrorMsg(tls, pParse, ts+19977, 0)
return WRC_Abort
}
if elistFlags&U32(EP_HasFunc|EP_Subquery) != U32(0) {
*(*U32)(unsafe.Pointer(p + 4)) |= U32(SF_ComplexResult)
}
}
return WRC_Continue
}
func sqlite3SelectExpand(tls *libc.TLS, pParse uintptr, pSelect uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{Xsqlite3ExprWalkNoop}))
(*Walker)(unsafe.Pointer(bp)).FpParse = pParse
if (*Parse)(unsafe.Pointer(pParse)).FhasCompound != 0 {
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{convertCompoundSelectToSubquery}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback2 = uintptr(0)
Xsqlite3WalkSelect(tls, bp, pSelect)
}
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{selectExpander}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback2 = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3SelectPopWith}))
(*Walker)(unsafe.Pointer(bp)).FeCode = U16(0)
Xsqlite3WalkSelect(tls, bp, pSelect)
}
func selectAddSubqueryTypeInfo(tls *libc.TLS, pWalker uintptr, p uintptr) {
var pParse uintptr
var i int32
var pTabList uintptr
var pFrom uintptr
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_HasTypeInfo) != 0 {
return
}
*(*U32)(unsafe.Pointer(p + 4)) |= U32(SF_HasTypeInfo)
pParse = (*Walker)(unsafe.Pointer(pWalker)).FpParse
pTabList = (*Select)(unsafe.Pointer(p)).FpSrc
i = 0
pFrom = pTabList + 8
__1:
if !(i < (*SrcList)(unsafe.Pointer(pTabList)).FnSrc) {
goto __3
}
{
var pTab uintptr = (*SrcItem)(unsafe.Pointer(pFrom)).FpTab
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_Ephemeral) != U32(0) {
var pSel uintptr = (*SrcItem)(unsafe.Pointer(pFrom)).FpSelect
if pSel != 0 {
Xsqlite3SubqueryColumnTypes(tls, pParse, pTab, pSel, int8(SQLITE_AFF_NONE))
}
}
}
goto __2
__2:
i++
pFrom += 104
goto __1
goto __3
__3:
}
func sqlite3SelectAddTypeInfo(tls *libc.TLS, pParse uintptr, pSelect uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{Xsqlite3SelectWalkNoop}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback2 = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{selectAddSubqueryTypeInfo}))
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{Xsqlite3ExprWalkNoop}))
(*Walker)(unsafe.Pointer(bp)).FpParse = pParse
Xsqlite3WalkSelect(tls, bp, pSelect)
}
// This routine sets up a SELECT statement for processing. The
// following is accomplished:
//
// - VDBE Cursor numbers are assigned to all FROM-clause terms.
// - Ephemeral Table objects are created for all FROM-clause subqueries.
// - ON and USING clauses are shifted into WHERE statements
// - Wildcards "*" and "TABLE.*" in result sets are expanded.
// - Identifiers in expression are matched to tables.
//
// This routine acts recursively on all subqueries within the SELECT.
func Xsqlite3SelectPrep(tls *libc.TLS, pParse uintptr, p uintptr, pOuterNC uintptr) {
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed != 0 {
return
}
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_HasTypeInfo) != 0 {
return
}
sqlite3SelectExpand(tls, pParse, p)
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return
}
Xsqlite3ResolveSelectNames(tls, pParse, p, pOuterNC)
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return
}
sqlite3SelectAddTypeInfo(tls, pParse, p)
}
func analyzeAggFuncArgs(tls *libc.TLS, pAggInfo uintptr, pNC uintptr) {
var i int32
*(*int32)(unsafe.Pointer(pNC + 40)) |= NC_InAggFunc
for i = 0; i < (*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc; i++ {
var pExpr uintptr = (*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc + uintptr(i)*24)).FpFExpr
Xsqlite3ExprAnalyzeAggList(tls, pNC, *(*uintptr)(unsafe.Pointer(pExpr + 32)))
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc) != U32(0) {
Xsqlite3ExprAnalyzeAggregates(tls, pNC, (*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 64)))).FpFilter)
}
}
*(*int32)(unsafe.Pointer(pNC + 40)) &= libc.CplInt32(NC_InAggFunc)
}
func optimizeAggregateUseOfIndexedExpr(tls *libc.TLS, pParse uintptr, pSelect uintptr, pAggInfo uintptr, pNC uintptr) {
(*AggInfo)(unsafe.Pointer(pAggInfo)).FnColumn = (*AggInfo)(unsafe.Pointer(pAggInfo)).FnAccumulator
if int32((*AggInfo)(unsafe.Pointer(pAggInfo)).FnSortingColumn) > 0 {
if (*AggInfo)(unsafe.Pointer(pAggInfo)).FnColumn == 0 {
(*AggInfo)(unsafe.Pointer(pAggInfo)).FnSortingColumn = U16(0)
} else {
(*AggInfo)(unsafe.Pointer(pAggInfo)).FnSortingColumn = U16(int32((*AggInfo_col)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaCol+uintptr((*AggInfo)(unsafe.Pointer(pAggInfo)).FnColumn-1)*24)).FiSorterColumn) + 1)
}
}
analyzeAggFuncArgs(tls, pAggInfo, pNC)
_ = pSelect
_ = pParse
}
func aggregateIdxEprRefToColCallback(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
var pAggInfo uintptr
var pCol uintptr
_ = pWalker
if (*Expr)(unsafe.Pointer(pExpr)).FpAggInfo == uintptr(0) {
return WRC_Continue
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_AGG_COLUMN {
return WRC_Continue
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_AGG_FUNCTION {
return WRC_Continue
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_IF_NULL_ROW {
return WRC_Continue
}
pAggInfo = (*Expr)(unsafe.Pointer(pExpr)).FpAggInfo
pCol = (*AggInfo)(unsafe.Pointer(pAggInfo)).FaCol + uintptr((*Expr)(unsafe.Pointer(pExpr)).FiAgg)*24
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_AGG_COLUMN)
(*Expr)(unsafe.Pointer(pExpr)).FiTable = (*AggInfo_col)(unsafe.Pointer(pCol)).FiTable
(*Expr)(unsafe.Pointer(pExpr)).FiColumn = (*AggInfo_col)(unsafe.Pointer(pCol)).FiColumn
return WRC_Prune
}
func aggregateConvertIndexedExprRefToColumn(tls *libc.TLS, pAggInfo uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
var i int32
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{aggregateIdxEprRefToColCallback}))
for i = 0; i < (*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc; i++ {
Xsqlite3WalkExpr(tls, bp, (*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc+uintptr(i)*24)).FpFExpr)
}
}
func assignAggregateRegisters(tls *libc.TLS, pParse uintptr, pAggInfo uintptr) {
(*AggInfo)(unsafe.Pointer(pAggInfo)).FiFirstReg = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += (*AggInfo)(unsafe.Pointer(pAggInfo)).FnColumn + (*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc
}
func resetAccumulator(tls *libc.TLS, pParse uintptr, pAggInfo uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var i int32
var pFunc uintptr
var nReg int32 = (*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc + (*AggInfo)(unsafe.Pointer(pAggInfo)).FnColumn
if nReg == 0 {
return
}
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return
}
Xsqlite3VdbeAddOp3(tls, v, OP_Null, 0, (*AggInfo)(unsafe.Pointer(pAggInfo)).FiFirstReg,
(*AggInfo)(unsafe.Pointer(pAggInfo)).FiFirstReg+nReg-1)
pFunc = (*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc
i = 0
__1:
if !(i < (*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc) {
goto __3
}
{
if (*AggInfo_func)(unsafe.Pointer(pFunc)).FiDistinct >= 0 {
var pE uintptr = (*AggInfo_func)(unsafe.Pointer(pFunc)).FpFExpr
if *(*uintptr)(unsafe.Pointer(pE + 32)) == uintptr(0) || (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pE + 32)))).FnExpr != 1 {
Xsqlite3ErrorMsg(tls, pParse,
ts+20008, 0)
(*AggInfo_func)(unsafe.Pointer(pFunc)).FiDistinct = -1
} else {
var pKeyInfo uintptr = Xsqlite3KeyInfoFromExprList(tls, pParse, *(*uintptr)(unsafe.Pointer(pE + 32)), 0, 0)
(*AggInfo_func)(unsafe.Pointer(pFunc)).FiDistAddr = Xsqlite3VdbeAddOp4(tls, v, OP_OpenEphemeral,
(*AggInfo_func)(unsafe.Pointer(pFunc)).FiDistinct, 0, 0, pKeyInfo, -8)
Xsqlite3VdbeExplain(tls, pParse, uint8(0), ts+20059, libc.VaList(bp, (*FuncDef)(unsafe.Pointer((*AggInfo_func)(unsafe.Pointer(pFunc)).FpFunc)).FzName))
}
}
}
goto __2
__2:
i++
pFunc += 24
goto __1
goto __3
__3:
}
func finalizeAggFunctions(tls *libc.TLS, pParse uintptr, pAggInfo uintptr) {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var i int32
var pF uintptr
i = 0
pF = (*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc
__1:
if !(i < (*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc) {
goto __3
}
{
var pList uintptr
pList = *(*uintptr)(unsafe.Pointer((*AggInfo_func)(unsafe.Pointer(pF)).FpFExpr + 32))
Xsqlite3VdbeAddOp2(tls, v, OP_AggFinal, func() int32 {
return (*AggInfo)(unsafe.Pointer(pAggInfo)).FiFirstReg + (*AggInfo)(unsafe.Pointer(pAggInfo)).FnColumn + i
}(),
func() int32 {
if pList != 0 {
return (*ExprList)(unsafe.Pointer(pList)).FnExpr
}
return 0
}())
Xsqlite3VdbeAppendP4(tls, v, (*AggInfo_func)(unsafe.Pointer(pF)).FpFunc, -7)
}
goto __2
__2:
i++
pF += 24
goto __1
goto __3
__3:
}
func updateAccumulator(tls *libc.TLS, pParse uintptr, regAcc int32, pAggInfo uintptr, eDistinctType int32) {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var i int32
var regHit int32 = 0
var addrHitTest int32 = 0
var pF uintptr
var pC uintptr
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return
}
(*AggInfo)(unsafe.Pointer(pAggInfo)).FdirectMode = U8(1)
i = 0
pF = (*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc
__1:
if !(i < (*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc) {
goto __3
}
{
var nArg int32
var addrNext int32 = 0
var regAgg int32
var pList uintptr
pList = *(*uintptr)(unsafe.Pointer((*AggInfo_func)(unsafe.Pointer(pF)).FpFExpr + 32))
if (*Expr)(unsafe.Pointer((*AggInfo_func)(unsafe.Pointer(pF)).FpFExpr)).Fflags&U32(EP_WinFunc) != U32(0) {
var pFilter uintptr = (*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*AggInfo_func)(unsafe.Pointer(pF)).FpFExpr + 64)))).FpFilter
if (*AggInfo)(unsafe.Pointer(pAggInfo)).FnAccumulator != 0 &&
(*FuncDef)(unsafe.Pointer((*AggInfo_func)(unsafe.Pointer(pF)).FpFunc)).FfuncFlags&U32(SQLITE_FUNC_NEEDCOLL) != 0 &&
regAcc != 0 {
if regHit == 0 {
regHit = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
}
Xsqlite3VdbeAddOp2(tls, v, OP_Copy, regAcc, regHit)
}
addrNext = Xsqlite3VdbeMakeLabel(tls, pParse)
Xsqlite3ExprIfFalse(tls, pParse, pFilter, addrNext, SQLITE_JUMPIFNULL)
}
if pList != 0 {
nArg = (*ExprList)(unsafe.Pointer(pList)).FnExpr
regAgg = Xsqlite3GetTempRange(tls, pParse, nArg)
Xsqlite3ExprCodeExprList(tls, pParse, pList, regAgg, 0, uint8(SQLITE_ECEL_DUP))
} else {
nArg = 0
regAgg = 0
}
if (*AggInfo_func)(unsafe.Pointer(pF)).FiDistinct >= 0 && pList != 0 {
if addrNext == 0 {
addrNext = Xsqlite3VdbeMakeLabel(tls, pParse)
}
(*AggInfo_func)(unsafe.Pointer(pF)).FiDistinct = codeDistinct(tls, pParse, eDistinctType,
(*AggInfo_func)(unsafe.Pointer(pF)).FiDistinct, addrNext, pList, regAgg)
}
if (*FuncDef)(unsafe.Pointer((*AggInfo_func)(unsafe.Pointer(pF)).FpFunc)).FfuncFlags&U32(SQLITE_FUNC_NEEDCOLL) != 0 {
var pColl uintptr = uintptr(0)
var pItem uintptr
var j int32
j = 0
pItem = pList + 8
__4:
if !(!(pColl != 0) && j < nArg) {
goto __6
}
{
pColl = Xsqlite3ExprCollSeq(tls, pParse, (*ExprList_item)(unsafe.Pointer(pItem)).FpExpr)
}
goto __5
__5:
j++
pItem += 32
goto __4
goto __6
__6:
;
if !(pColl != 0) {
pColl = (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FpDfltColl
}
if regHit == 0 && (*AggInfo)(unsafe.Pointer(pAggInfo)).FnAccumulator != 0 {
regHit = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
}
Xsqlite3VdbeAddOp4(tls, v, OP_CollSeq, regHit, 0, 0, pColl, -2)
}
Xsqlite3VdbeAddOp3(tls, v, OP_AggStep, 0, regAgg, func() int32 {
return (*AggInfo)(unsafe.Pointer(pAggInfo)).FiFirstReg + (*AggInfo)(unsafe.Pointer(pAggInfo)).FnColumn + i
}())
Xsqlite3VdbeAppendP4(tls, v, (*AggInfo_func)(unsafe.Pointer(pF)).FpFunc, -7)
Xsqlite3VdbeChangeP5(tls, v, uint16(U8(nArg)))
Xsqlite3ReleaseTempRange(tls, pParse, regAgg, nArg)
if addrNext != 0 {
Xsqlite3VdbeResolveLabel(tls, v, addrNext)
}
}
goto __2
__2:
i++
pF += 24
goto __1
goto __3
__3:
;
if regHit == 0 && (*AggInfo)(unsafe.Pointer(pAggInfo)).FnAccumulator != 0 {
regHit = regAcc
}
if regHit != 0 {
addrHitTest = Xsqlite3VdbeAddOp1(tls, v, OP_If, regHit)
}
i = 0
pC = (*AggInfo)(unsafe.Pointer(pAggInfo)).FaCol
__7:
if !(i < (*AggInfo)(unsafe.Pointer(pAggInfo)).FnAccumulator) {
goto __9
}
{
Xsqlite3ExprCode(tls, pParse, (*AggInfo_col)(unsafe.Pointer(pC)).FpCExpr, func() int32 { ; return (*AggInfo)(unsafe.Pointer(pAggInfo)).FiFirstReg + i }())
}
goto __8
__8:
i++
pC += 24
goto __7
goto __9
__9:
;
(*AggInfo)(unsafe.Pointer(pAggInfo)).FdirectMode = U8(0)
if addrHitTest != 0 {
Xsqlite3VdbeJumpHereOrPopInst(tls, v, addrHitTest)
}
}
func explainSimpleCount(tls *libc.TLS, pParse uintptr, pTab uintptr, pIdx uintptr) {
bp := tls.Alloc(24)
defer tls.Free(24)
if int32((*Parse)(unsafe.Pointer(pParse)).Fexplain) == 2 {
var bCover int32 = libc.Bool32(pIdx != uintptr(0) && ((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) || !(int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY)))
Xsqlite3VdbeExplain(tls, pParse, uint8(0), ts+20092,
libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName,
func() uintptr {
if bCover != 0 {
return ts + 20104
}
return ts + 1547
}(),
func() uintptr {
if bCover != 0 {
return (*Index)(unsafe.Pointer(pIdx)).FzName
}
return ts + 1547
}()))
}
}
func havingToWhereExprCb(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_AND {
var pS uintptr = *(*uintptr)(unsafe.Pointer(pWalker + 40))
if Xsqlite3ExprIsConstantOrGroupBy(tls, (*Walker)(unsafe.Pointer(pWalker)).FpParse, pExpr, (*Select)(unsafe.Pointer(pS)).FpGroupBy) != 0 &&
libc.Bool32((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON|EP_IsFalse) == U32(EP_IsFalse)) == 0 &&
(*Expr)(unsafe.Pointer(pExpr)).FpAggInfo == uintptr(0) {
var db uintptr = (*Parse)(unsafe.Pointer((*Walker)(unsafe.Pointer(pWalker)).FpParse)).Fdb
var pNew uintptr = Xsqlite3Expr(tls, db, TK_INTEGER, ts+8341)
if pNew != 0 {
var pWhere uintptr = (*Select)(unsafe.Pointer(pS)).FpWhere
{
var t = *(*Expr)(unsafe.Pointer(pNew))
*(*Expr)(unsafe.Pointer(pNew)) = *(*Expr)(unsafe.Pointer(pExpr))
*(*Expr)(unsafe.Pointer(pExpr)) = t
}
pNew = Xsqlite3ExprAnd(tls, (*Walker)(unsafe.Pointer(pWalker)).FpParse, pWhere, pNew)
(*Select)(unsafe.Pointer(pS)).FpWhere = pNew
(*Walker)(unsafe.Pointer(pWalker)).FeCode = U16(1)
}
}
return WRC_Prune
}
return WRC_Continue
}
func havingToWhere(tls *libc.TLS, pParse uintptr, p uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
(*Walker)(unsafe.Pointer(bp)).FpParse = pParse
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{havingToWhereExprCb}))
*(*uintptr)(unsafe.Pointer(bp + 40)) = p
Xsqlite3WalkExpr(tls, bp, (*Select)(unsafe.Pointer(p)).FpHaving)
}
func isSelfJoinView(tls *libc.TLS, pTabList uintptr, pThis uintptr, iFirst int32, iEnd int32) uintptr {
var pItem uintptr
if (*Select)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pThis)).FpSelect)).FselFlags&U32(SF_PushDown) != 0 {
return uintptr(0)
}
for iFirst < iEnd {
var pS1 uintptr
pItem = pTabList + 8 + uintptr(libc.PostIncInt32(&iFirst, 1))*104
if (*SrcItem)(unsafe.Pointer(pItem)).FpSelect == uintptr(0) {
continue
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x20>>5)) != 0 {
continue
}
if (*SrcItem)(unsafe.Pointer(pItem)).FzName == uintptr(0) {
continue
}
if (*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pItem)).FpTab)).FpSchema != (*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pThis)).FpTab)).FpSchema {
continue
}
if Xsqlite3_stricmp(tls, (*SrcItem)(unsafe.Pointer(pItem)).FzName, (*SrcItem)(unsafe.Pointer(pThis)).FzName) != 0 {
continue
}
pS1 = (*SrcItem)(unsafe.Pointer(pItem)).FpSelect
if (*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pItem)).FpTab)).FpSchema == uintptr(0) && (*Select)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pThis)).FpSelect)).FselId != (*Select)(unsafe.Pointer(pS1)).FselId {
continue
}
if (*Select)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pItem)).FpSelect)).FselFlags&U32(SF_PushDown) != 0 {
continue
}
return pItem
}
return uintptr(0)
}
func agginfoFree(tls *libc.TLS, db uintptr, p uintptr) {
Xsqlite3DbFree(tls, db, (*AggInfo)(unsafe.Pointer(p)).FaCol)
Xsqlite3DbFree(tls, db, (*AggInfo)(unsafe.Pointer(p)).FaFunc)
Xsqlite3DbFreeNN(tls, db, p)
}
func sameSrcAlias(tls *libc.TLS, p0 uintptr, pSrc uintptr) int32 {
var i int32
for i = 0; i < (*SrcList)(unsafe.Pointer(pSrc)).FnSrc; i++ {
var p1 uintptr = pSrc + 8 + uintptr(i)*104
if p1 == p0 {
continue
}
if (*SrcItem)(unsafe.Pointer(p0)).FpTab == (*SrcItem)(unsafe.Pointer(p1)).FpTab && 0 == Xsqlite3_stricmp(tls, (*SrcItem)(unsafe.Pointer(p0)).FzAlias, (*SrcItem)(unsafe.Pointer(p1)).FzAlias) {
return 1
}
if (*SrcItem)(unsafe.Pointer(p1)).FpSelect != 0 &&
(*Select)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(p1)).FpSelect)).FselFlags&U32(SF_NestedFrom) != U32(0) &&
sameSrcAlias(tls, p0, (*Select)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(p1)).FpSelect)).FpSrc) != 0 {
return 1
}
}
return 0
}
func fromClauseTermCanBeCoroutine(tls *libc.TLS, pParse uintptr, pTabList uintptr, i int32, selFlags int32) int32 {
var pItem uintptr = pTabList + 8 + uintptr(i)*104
if uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x100>>8)) != 0 {
var pCteUse uintptr = *(*uintptr)(unsafe.Pointer(pItem + 96))
if int32((*CteUse)(unsafe.Pointer(pCteUse)).FeM10d) == M10d_Yes {
return 0
}
if (*CteUse)(unsafe.Pointer(pCteUse)).FnUse >= 2 && int32((*CteUse)(unsafe.Pointer(pCteUse)).FeM10d) != M10d_No {
return 0
}
}
if int32((*SrcItem)(unsafe.Pointer(pTabList+8)).Ffg.Fjointype)&JT_LTORJ != 0 {
return 0
}
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FdbOptFlags&U32(SQLITE_Coroutines) != U32(0) {
return 0
}
if isSelfJoinView(tls, pTabList, pItem, i+1, (*SrcList)(unsafe.Pointer(pTabList)).FnSrc) != uintptr(0) {
return 0
}
if i == 0 {
if (*SrcList)(unsafe.Pointer(pTabList)).FnSrc == 1 {
return 1
}
if int32((*SrcItem)(unsafe.Pointer(pTabList+8+1*104)).Ffg.Fjointype)&JT_CROSS != 0 {
return 1
}
if selFlags&SF_UpdateFrom != 0 {
return 0
}
return 1
}
if selFlags&SF_UpdateFrom != 0 {
return 0
}
for 1 != 0 {
if int32((*SrcItem)(unsafe.Pointer(pItem)).Ffg.Fjointype)&(JT_OUTER|JT_CROSS) != 0 {
return 0
}
if i == 0 {
break
}
i--
pItem -= 104
if (*SrcItem)(unsafe.Pointer(pItem)).FpSelect != uintptr(0) {
return 0
}
}
return 1
}
// Generate code for the SELECT statement given in the p argument.
//
// The results are returned according to the SelectDest structure.
// See comments in sqliteInt.h for further information.
//
// This routine returns the number of errors. If any errors are
// encountered, then an appropriate error message is left in
// pParse->zErrMsg.
//
// This routine does NOT free the Select structure passed in. The
// calling function needs to do that.
func Xsqlite3Select(tls *libc.TLS, pParse uintptr, p uintptr, pDest uintptr) int32 {
bp := tls.Alloc(216)
defer tls.Free(216)
var i int32
var j int32
var pWInfo uintptr
var v uintptr
var isAgg int32
var pEList uintptr
var pTabList uintptr
var pWhere uintptr
var pGroupBy uintptr
var pHaving uintptr
var pAggInfo uintptr
var rc int32
var iEnd int32
var db uintptr
var minMaxFlag U8
var p0 uintptr
var pItem uintptr
var pSub uintptr
var pTab uintptr
var addrTop int32
var pCteUse uintptr
var pCteUse1 uintptr
var topAddr int32
var onceAddr int32
var pItem1 uintptr
var pPrior uintptr
var pSub1 uintptr
var zSavedAuthContext uintptr
var pKeyInfo uintptr
var ii int32
var addrGosub int32
var iCont int32
var iBreak int32
var regGosub int32
var wctrlFlags U16
var pWin uintptr
var sortFlags U8
var ii1 int32
var k int32
var pItem2 uintptr
var pExpr uintptr
var pCol uintptr
var regBase int32
var regRecord int32
var nCol int32
var nGroupBy int32
var pF uintptr
var pKeyInfo1 uintptr
var addr1 int32
var addrOutputRow int32
var regOutputRow int32
var addrSetAbort int32
var addrTopOfLoop int32
var addrSortingIdx int32
var addrReset int32
var regReset int32
var pDistinct uintptr
var distFlag U16
var eDist int32
var iDb int32
var iCsr int32
var pIdx uintptr
var pKeyInfo2 uintptr
var pBest uintptr
var iRoot Pgno
var pF1 uintptr
var regAcc int32
var pDistinct1 uintptr
var distFlag1 U16
var eDist1 int32
var pTab1 uintptr
var iAMem int32
var iBMem int32
var iUseFlag int32
var iAbortFlag int32
var groupBySort int32
var addrEnd int32
var sortPTab int32
var sortOut int32
var orderByGrp int32
pEList = uintptr(0)
pAggInfo = uintptr(0)
rc = 1
*(*uintptr)(unsafe.Pointer(bp + 208)) = uintptr(0)
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
v = Xsqlite3GetVdbe(tls, pParse)
if !(p == uintptr(0) || (*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __1
}
return 1
__1:
;
if !(Xsqlite3AuthCheck(tls, pParse, SQLITE_SELECT, uintptr(0), uintptr(0), uintptr(0)) != 0) {
goto __2
}
return 1
__2:
;
if !(int32((*SelectDest)(unsafe.Pointer(pDest)).FeDest) <= SRT_DistQueue) {
goto __3
}
if !((*Select)(unsafe.Pointer(p)).FpOrderBy != 0) {
goto __4
}
Xsqlite3ParserAddCleanup(tls, pParse,
*(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3ExprListDelete})),
(*Select)(unsafe.Pointer(p)).FpOrderBy)
(*Select)(unsafe.Pointer(p)).FpOrderBy = uintptr(0)
__4:
;
*(*U32)(unsafe.Pointer(p + 4)) &= libc.Uint32FromInt32(libc.CplInt32(SF_Distinct))
*(*U32)(unsafe.Pointer(p + 4)) |= U32(SF_NoopOrderBy)
__3:
;
Xsqlite3SelectPrep(tls, pParse, p, uintptr(0))
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __5
}
goto select_end
__5:
;
if !((*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_UFSrcCheck) != 0) {
goto __6
}
p0 = (*Select)(unsafe.Pointer(p)).FpSrc + 8
if !(sameSrcAlias(tls, p0, (*Select)(unsafe.Pointer(p)).FpSrc) != 0) {
goto __7
}
Xsqlite3ErrorMsg(tls, pParse,
ts+20127,
libc.VaList(bp, func() uintptr {
if (*SrcItem)(unsafe.Pointer(p0)).FzAlias != 0 {
return (*SrcItem)(unsafe.Pointer(p0)).FzAlias
}
return (*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(p0)).FpTab)).FzName
}()))
goto select_end
__7:
;
*(*U32)(unsafe.Pointer(p + 4)) &= libc.Uint32FromInt32(libc.CplInt32(SF_UFSrcCheck))
__6:
;
if !(int32((*SelectDest)(unsafe.Pointer(pDest)).FeDest) == SRT_Output) {
goto __8
}
Xsqlite3GenerateColumnNames(tls, pParse, p)
__8:
;
if !(Xsqlite3WindowRewrite(tls, pParse, p) != 0) {
goto __9
}
goto select_end
__9:
;
pTabList = (*Select)(unsafe.Pointer(p)).FpSrc
isAgg = libc.Bool32((*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Aggregate) != U32(0))
libc.X__builtin___memset_chk(tls, bp+48, 0, uint64(unsafe.Sizeof(SortCtx{})), libc.X__builtin_object_size(tls, bp+48, 0))
(*SortCtx)(unsafe.Pointer(bp + 48)).FpOrderBy = (*Select)(unsafe.Pointer(p)).FpOrderBy
i = 0
__10:
if !(!(int32((*Select)(unsafe.Pointer(p)).FpPrior) != 0) && i < (*SrcList)(unsafe.Pointer(pTabList)).FnSrc) {
goto __12
}
pItem = pTabList + 8 + uintptr(i)*104
pSub = (*SrcItem)(unsafe.Pointer(pItem)).FpSelect
pTab = (*SrcItem)(unsafe.Pointer(pItem)).FpTab
if !(int32((*SrcItem)(unsafe.Pointer(pItem)).Ffg.Fjointype)&(JT_LEFT|JT_RIGHT) == JT_LEFT &&
Xsqlite3ExprImpliesNonNullRow(tls, (*Select)(unsafe.Pointer(p)).FpWhere, (*SrcItem)(unsafe.Pointer(pItem)).FiCursor) != 0 &&
(*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_SimplifyJoin) == U32(0)) {
goto __13
}
*(*U8)(unsafe.Pointer(pItem + 60)) &= libc.Uint8FromInt32(libc.CplInt32(JT_LEFT | JT_OUTER))
unsetJoinExpr(tls, (*Select)(unsafe.Pointer(p)).FpWhere, (*SrcItem)(unsafe.Pointer(pItem)).FiCursor,
int32((*SrcItem)(unsafe.Pointer(pTabList+8)).Ffg.Fjointype)&JT_LTORJ)
__13:
;
if !(pSub == uintptr(0)) {
goto __14
}
goto __11
__14:
;
if !(int32((*Table)(unsafe.Pointer(pTab)).FnCol) != (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(pSub)).FpEList)).FnExpr) {
goto __15
}
Xsqlite3ErrorMsg(tls, pParse, ts+20181,
libc.VaList(bp+8, int32((*Table)(unsafe.Pointer(pTab)).FnCol), (*Table)(unsafe.Pointer(pTab)).FzName, (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(pSub)).FpEList)).FnExpr))
goto select_end
__15:
;
if !((*Select)(unsafe.Pointer(pSub)).FselFlags&U32(SF_Aggregate) != U32(0)) {
goto __16
}
goto __11
__16:
;
if !((*Select)(unsafe.Pointer(pSub)).FpOrderBy != uintptr(0) &&
((*Select)(unsafe.Pointer(p)).FpOrderBy != uintptr(0) || (*SrcList)(unsafe.Pointer(pTabList)).FnSrc > 1) &&
(*Select)(unsafe.Pointer(pSub)).FpLimit == uintptr(0) &&
(*Select)(unsafe.Pointer(pSub)).FselFlags&U32(SF_OrderByReqd) == U32(0) &&
(*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_OrderByReqd) == U32(0) &&
(*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_OmitOrderBy) == U32(0)) {
goto __17
}
Xsqlite3ParserAddCleanup(tls, pParse,
*(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3ExprListDelete})),
(*Select)(unsafe.Pointer(pSub)).FpOrderBy)
(*Select)(unsafe.Pointer(pSub)).FpOrderBy = uintptr(0)
__17:
;
if !((*Select)(unsafe.Pointer(pSub)).FpOrderBy != uintptr(0) &&
i == 0 &&
(*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_ComplexResult) != U32(0) &&
((*SrcList)(unsafe.Pointer(pTabList)).FnSrc == 1 ||
int32((*SrcItem)(unsafe.Pointer(pTabList+8+1*104)).Ffg.Fjointype)&(JT_OUTER|JT_CROSS) != 0)) {
goto __18
}
goto __11
__18:
;
if !(flattenSubquery(tls, pParse, p, i, isAgg) != 0) {
goto __19
}
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __20
}
goto select_end
__20:
;
i = -1
__19:
;
pTabList = (*Select)(unsafe.Pointer(p)).FpSrc
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __21
}
goto select_end
__21:
;
if !!(int32((*SelectDest)(unsafe.Pointer(pDest)).FeDest) <= SRT_Fifo) {
goto __22
}
(*SortCtx)(unsafe.Pointer(bp + 48)).FpOrderBy = (*Select)(unsafe.Pointer(p)).FpOrderBy
__22:
;
goto __11
__11:
i++
goto __10
goto __12
__12:
;
if !((*Select)(unsafe.Pointer(p)).FpPrior != 0) {
goto __23
}
rc = multiSelect(tls, pParse, p, pDest)
if !((*Select)(unsafe.Pointer(p)).FpNext == uintptr(0)) {
goto __24
}
Xsqlite3VdbeExplainPop(tls, pParse)
__24:
;
return rc
__23:
;
if !((*Select)(unsafe.Pointer(p)).FpWhere != uintptr(0) &&
int32((*Expr)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpWhere)).Fop) == TK_AND &&
(*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_PropagateConst) == U32(0) &&
propagateConstants(tls, pParse, p) != 0) {
goto __25
}
goto __26
__25:
;
__26:
;
i = 0
__27:
if !(i < (*SrcList)(unsafe.Pointer(pTabList)).FnSrc) {
goto __29
}
pItem1 = pTabList + 8 + uintptr(i)*104
if !((*SrcItem)(unsafe.Pointer(pItem1)).FcolUsed == uint64(0) && (*SrcItem)(unsafe.Pointer(pItem1)).FzName != uintptr(0)) {
goto __30
}
Xsqlite3AuthCheck(tls, pParse, SQLITE_READ, (*SrcItem)(unsafe.Pointer(pItem1)).FzName, ts+1547, (*SrcItem)(unsafe.Pointer(pItem1)).FzDatabase)
__30:
;
pSub1 = (*SrcItem)(unsafe.Pointer(pItem1)).FpSelect
if !(pSub1 == uintptr(0)) {
goto __31
}
goto __28
__31:
;
*(*int32)(unsafe.Pointer(pParse + 316)) += Xsqlite3SelectExprHeight(tls, p)
if !((*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_PushDown) == U32(0) &&
(int32(*(*uint16)(unsafe.Pointer(pItem1 + 60 + 4))&0x100>>8) == 0 ||
int32((*CteUse)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pItem1 + 96)))).FeM10d) != M10d_Yes && (*CteUse)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pItem1 + 96)))).FnUse < 2) &&
pushDownWhereTerms(tls, pParse, pSub1, (*Select)(unsafe.Pointer(p)).FpWhere, pItem1) != 0) {
goto __32
}
goto __33
__32:
;
__33:
;
zSavedAuthContext = (*Parse)(unsafe.Pointer(pParse)).FzAuthContext
(*Parse)(unsafe.Pointer(pParse)).FzAuthContext = (*SrcItem)(unsafe.Pointer(pItem1)).FzName
if !(fromClauseTermCanBeCoroutine(tls, pParse, pTabList, i, int32((*Select)(unsafe.Pointer(p)).FselFlags)) != 0) {
goto __34
}
addrTop = Xsqlite3VdbeCurrentAddr(tls, v) + 1
(*SrcItem)(unsafe.Pointer(pItem1)).FregReturn = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp3(tls, v, OP_InitCoroutine, (*SrcItem)(unsafe.Pointer(pItem1)).FregReturn, 0, addrTop)
(*SrcItem)(unsafe.Pointer(pItem1)).FaddrFillSub = addrTop
Xsqlite3SelectDestInit(tls, bp+96, SRT_Coroutine, (*SrcItem)(unsafe.Pointer(pItem1)).FregReturn)
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+20221, libc.VaList(bp+32, pItem1))
Xsqlite3Select(tls, pParse, pSub1, bp+96)
(*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pItem1)).FpTab)).FnRowLogEst = (*Select)(unsafe.Pointer(pSub1)).FnSelectRow
libc.SetBitFieldPtr16Uint32(pItem1+60+4, uint32(1), 5, 0x20)
(*SrcItem)(unsafe.Pointer(pItem1)).FregResult = (*SelectDest)(unsafe.Pointer(bp + 96)).FiSdst
Xsqlite3VdbeEndCoroutine(tls, v, (*SrcItem)(unsafe.Pointer(pItem1)).FregReturn)
Xsqlite3VdbeJumpHere(tls, v, addrTop-1)
Xsqlite3ClearTempRegCache(tls, pParse)
goto __35
__34:
if !(uint32(int32(*(*uint16)(unsafe.Pointer(pItem1 + 60 + 4))&0x100>>8)) != 0 && (*CteUse)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pItem1 + 96)))).FaddrM9e > 0) {
goto __36
}
pCteUse = *(*uintptr)(unsafe.Pointer(pItem1 + 96))
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, (*CteUse)(unsafe.Pointer(pCteUse)).FregRtn, (*CteUse)(unsafe.Pointer(pCteUse)).FaddrM9e)
if !((*SrcItem)(unsafe.Pointer(pItem1)).FiCursor != (*CteUse)(unsafe.Pointer(pCteUse)).FiCur) {
goto __38
}
Xsqlite3VdbeAddOp2(tls, v, OP_OpenDup, (*SrcItem)(unsafe.Pointer(pItem1)).FiCursor, (*CteUse)(unsafe.Pointer(pCteUse)).FiCur)
__38:
;
(*Select)(unsafe.Pointer(pSub1)).FnSelectRow = (*CteUse)(unsafe.Pointer(pCteUse)).FnRowEst
goto __37
__36:
if !(libc.AssignUintptr(&pPrior, isSelfJoinView(tls, pTabList, pItem1, 0, i)) != uintptr(0)) {
goto __39
}
if !((*SrcItem)(unsafe.Pointer(pPrior)).FaddrFillSub != 0) {
goto __41
}
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, (*SrcItem)(unsafe.Pointer(pPrior)).FregReturn, (*SrcItem)(unsafe.Pointer(pPrior)).FaddrFillSub)
__41:
;
Xsqlite3VdbeAddOp2(tls, v, OP_OpenDup, (*SrcItem)(unsafe.Pointer(pItem1)).FiCursor, (*SrcItem)(unsafe.Pointer(pPrior)).FiCursor)
(*Select)(unsafe.Pointer(pSub1)).FnSelectRow = (*Select)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pPrior)).FpSelect)).FnSelectRow
goto __40
__39:
onceAddr = 0
(*SrcItem)(unsafe.Pointer(pItem1)).FregReturn = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
topAddr = Xsqlite3VdbeAddOp0(tls, v, OP_Goto)
(*SrcItem)(unsafe.Pointer(pItem1)).FaddrFillSub = topAddr + 1
libc.SetBitFieldPtr16Uint32(pItem1+60+4, uint32(1), 4, 0x10)
if !(int32(*(*uint16)(unsafe.Pointer(pItem1 + 60 + 4))&0x8>>3) == 0) {
goto __42
}
onceAddr = Xsqlite3VdbeAddOp0(tls, v, OP_Once)
goto __43
__42:
;
__43:
;
Xsqlite3SelectDestInit(tls, bp+96, SRT_EphemTab, (*SrcItem)(unsafe.Pointer(pItem1)).FiCursor)
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+20236, libc.VaList(bp+40, pItem1))
Xsqlite3Select(tls, pParse, pSub1, bp+96)
(*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pItem1)).FpTab)).FnRowLogEst = (*Select)(unsafe.Pointer(pSub1)).FnSelectRow
if !(onceAddr != 0) {
goto __44
}
Xsqlite3VdbeJumpHere(tls, v, onceAddr)
__44:
;
Xsqlite3VdbeAddOp2(tls, v, OP_Return, (*SrcItem)(unsafe.Pointer(pItem1)).FregReturn, topAddr+1)
Xsqlite3VdbeJumpHere(tls, v, topAddr)
Xsqlite3ClearTempRegCache(tls, pParse)
if !(uint32(int32(*(*uint16)(unsafe.Pointer(pItem1 + 60 + 4))&0x100>>8)) != 0 && int32(*(*uint16)(unsafe.Pointer(pItem1 + 60 + 4))&0x8>>3) == 0) {
goto __45
}
pCteUse1 = *(*uintptr)(unsafe.Pointer(pItem1 + 96))
(*CteUse)(unsafe.Pointer(pCteUse1)).FaddrM9e = (*SrcItem)(unsafe.Pointer(pItem1)).FaddrFillSub
(*CteUse)(unsafe.Pointer(pCteUse1)).FregRtn = (*SrcItem)(unsafe.Pointer(pItem1)).FregReturn
(*CteUse)(unsafe.Pointer(pCteUse1)).FiCur = (*SrcItem)(unsafe.Pointer(pItem1)).FiCursor
(*CteUse)(unsafe.Pointer(pCteUse1)).FnRowEst = (*Select)(unsafe.Pointer(pSub1)).FnSelectRow
__45:
;
__40:
;
__37:
;
__35:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __46
}
goto select_end
__46:
;
*(*int32)(unsafe.Pointer(pParse + 316)) -= Xsqlite3SelectExprHeight(tls, p)
(*Parse)(unsafe.Pointer(pParse)).FzAuthContext = zSavedAuthContext
goto __28
__28:
i++
goto __27
goto __29
__29:
;
pEList = (*Select)(unsafe.Pointer(p)).FpEList
pWhere = (*Select)(unsafe.Pointer(p)).FpWhere
pGroupBy = (*Select)(unsafe.Pointer(p)).FpGroupBy
pHaving = (*Select)(unsafe.Pointer(p)).FpHaving
(*DistinctCtx)(unsafe.Pointer(bp + 136)).FisTnct = U8(libc.Bool32((*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Distinct) != U32(0)))
if !((*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Distinct|SF_Aggregate) == U32(SF_Distinct) &&
Xsqlite3ExprListCompare(tls, (*SortCtx)(unsafe.Pointer(bp+48)).FpOrderBy, pEList, -1) == 0 &&
(*Select)(unsafe.Pointer(p)).FpWin == uintptr(0)) {
goto __47
}
*(*U32)(unsafe.Pointer(p + 4)) &= libc.Uint32FromInt32(libc.CplInt32(SF_Distinct))
pGroupBy = libc.AssignPtrUintptr(p+56, Xsqlite3ExprListDup(tls, db, pEList, 0))
*(*U32)(unsafe.Pointer(p + 4)) |= U32(SF_Aggregate)
(*DistinctCtx)(unsafe.Pointer(bp + 136)).FisTnct = U8(2)
__47:
;
if !((*SortCtx)(unsafe.Pointer(bp+48)).FpOrderBy != 0) {
goto __48
}
pKeyInfo = Xsqlite3KeyInfoFromExprList(tls,
pParse, (*SortCtx)(unsafe.Pointer(bp+48)).FpOrderBy, 0, (*ExprList)(unsafe.Pointer(pEList)).FnExpr)
(*SortCtx)(unsafe.Pointer(bp + 48)).FiECursor = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
(*SortCtx)(unsafe.Pointer(bp + 48)).FaddrSortIndex = Xsqlite3VdbeAddOp4(tls, v, OP_OpenEphemeral,
(*SortCtx)(unsafe.Pointer(bp+48)).FiECursor, (*ExprList)(unsafe.Pointer((*SortCtx)(unsafe.Pointer(bp+48)).FpOrderBy)).FnExpr+1+(*ExprList)(unsafe.Pointer(pEList)).FnExpr, 0,
pKeyInfo, -8)
goto __49
__48:
(*SortCtx)(unsafe.Pointer(bp + 48)).FaddrSortIndex = -1
__49:
;
if !(int32((*SelectDest)(unsafe.Pointer(pDest)).FeDest) == SRT_EphemTab) {
goto __50
}
Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, (*SelectDest)(unsafe.Pointer(pDest)).FiSDParm, (*ExprList)(unsafe.Pointer(pEList)).FnExpr)
if !((*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_NestedFrom) != 0) {
goto __51
}
ii = (*ExprList)(unsafe.Pointer(pEList)).FnExpr - 1
__52:
if !(ii > 0 && int32(*(*uint16)(unsafe.Pointer(pEList + 8 + uintptr(ii)*32 + 16 + 4))&0x40>>6) == 0) {
goto __54
}
Xsqlite3ExprDelete(tls, db, (*ExprList_item)(unsafe.Pointer(pEList+8+uintptr(ii)*32)).FpExpr)
Xsqlite3DbFree(tls, db, (*ExprList_item)(unsafe.Pointer(pEList+8+uintptr(ii)*32)).FzEName)
(*ExprList)(unsafe.Pointer(pEList)).FnExpr--
goto __53
__53:
ii--
goto __52
goto __54
__54:
;
ii = 0
__55:
if !(ii < (*ExprList)(unsafe.Pointer(pEList)).FnExpr) {
goto __57
}
if !(int32(*(*uint16)(unsafe.Pointer(pEList + 8 + uintptr(ii)*32 + 16 + 4))&0x40>>6) == 0) {
goto __58
}
(*Expr)(unsafe.Pointer((*ExprList_item)(unsafe.Pointer(pEList + 8 + uintptr(ii)*32)).FpExpr)).Fop = U8(TK_NULL)
__58:
;
goto __56
__56:
ii++
goto __55
goto __57
__57:
;
__51:
;
__50:
;
iEnd = Xsqlite3VdbeMakeLabel(tls, pParse)
if !((*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_FixedLimit) == U32(0)) {
goto __59
}
(*Select)(unsafe.Pointer(p)).FnSelectRow = int16(320)
__59:
;
if !((*Select)(unsafe.Pointer(p)).FpLimit != 0) {
goto __60
}
computeLimitRegisters(tls, pParse, p, iEnd)
__60:
;
if !((*Select)(unsafe.Pointer(p)).FiLimit == 0 && (*SortCtx)(unsafe.Pointer(bp+48)).FaddrSortIndex >= 0) {
goto __61
}
Xsqlite3VdbeChangeOpcode(tls, v, (*SortCtx)(unsafe.Pointer(bp+48)).FaddrSortIndex, uint8(OP_SorterOpen))
*(*U8)(unsafe.Pointer(bp + 48 + 36)) |= U8(SORTFLAG_UseSorter)
__61:
;
if !((*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Distinct) != 0) {
goto __62
}
(*DistinctCtx)(unsafe.Pointer(bp + 136)).FtabTnct = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
(*DistinctCtx)(unsafe.Pointer(bp + 136)).FaddrTnct = Xsqlite3VdbeAddOp4(tls, v, OP_OpenEphemeral,
(*DistinctCtx)(unsafe.Pointer(bp+136)).FtabTnct, 0, 0,
Xsqlite3KeyInfoFromExprList(tls, pParse, (*Select)(unsafe.Pointer(p)).FpEList, 0, 0),
-8)
Xsqlite3VdbeChangeP5(tls, v, uint16(BTREE_UNORDERED))
(*DistinctCtx)(unsafe.Pointer(bp + 136)).FeTnctType = U8(WHERE_DISTINCT_UNORDERED)
goto __63
__62:
(*DistinctCtx)(unsafe.Pointer(bp + 136)).FeTnctType = U8(WHERE_DISTINCT_NOOP)
__63:
;
if !(!(isAgg != 0) && pGroupBy == uintptr(0)) {
goto __64
}
wctrlFlags = U16(func() uint32 {
if (*DistinctCtx)(unsafe.Pointer(bp+136)).FisTnct != 0 {
return uint32(WHERE_WANT_DISTINCT)
}
return uint32(0)
}() |
(*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_FixedLimit))
pWin = (*Select)(unsafe.Pointer(p)).FpWin
if !(pWin != 0) {
goto __66
}
Xsqlite3WindowCodeInit(tls, pParse, p)
__66:
;
pWInfo = Xsqlite3WhereBegin(tls, pParse, pTabList, pWhere, (*SortCtx)(unsafe.Pointer(bp+48)).FpOrderBy,
(*Select)(unsafe.Pointer(p)).FpEList, p, wctrlFlags, int32((*Select)(unsafe.Pointer(p)).FnSelectRow))
if !(pWInfo == uintptr(0)) {
goto __67
}
goto select_end
__67:
;
if !(int32(Xsqlite3WhereOutputRowCount(tls, pWInfo)) < int32((*Select)(unsafe.Pointer(p)).FnSelectRow)) {
goto __68
}
(*Select)(unsafe.Pointer(p)).FnSelectRow = Xsqlite3WhereOutputRowCount(tls, pWInfo)
__68:
;
if !((*DistinctCtx)(unsafe.Pointer(bp+136)).FisTnct != 0 && Xsqlite3WhereIsDistinct(tls, pWInfo) != 0) {
goto __69
}
(*DistinctCtx)(unsafe.Pointer(bp + 136)).FeTnctType = U8(Xsqlite3WhereIsDistinct(tls, pWInfo))
__69:
;
if !((*SortCtx)(unsafe.Pointer(bp+48)).FpOrderBy != 0) {
goto __70
}
(*SortCtx)(unsafe.Pointer(bp + 48)).FnOBSat = Xsqlite3WhereIsOrdered(tls, pWInfo)
(*SortCtx)(unsafe.Pointer(bp + 48)).FlabelOBLopt = Xsqlite3WhereOrderByLimitOptLabel(tls, pWInfo)
if !((*SortCtx)(unsafe.Pointer(bp+48)).FnOBSat == (*ExprList)(unsafe.Pointer((*SortCtx)(unsafe.Pointer(bp+48)).FpOrderBy)).FnExpr) {
goto __71
}
(*SortCtx)(unsafe.Pointer(bp + 48)).FpOrderBy = uintptr(0)
__71:
;
__70:
;
if !((*SortCtx)(unsafe.Pointer(bp+48)).FaddrSortIndex >= 0 && (*SortCtx)(unsafe.Pointer(bp+48)).FpOrderBy == uintptr(0)) {
goto __72
}
Xsqlite3VdbeChangeToNoop(tls, v, (*SortCtx)(unsafe.Pointer(bp+48)).FaddrSortIndex)
__72:
;
if !(pWin != 0) {
goto __73
}
addrGosub = Xsqlite3VdbeMakeLabel(tls, pParse)
iCont = Xsqlite3VdbeMakeLabel(tls, pParse)
iBreak = Xsqlite3VdbeMakeLabel(tls, pParse)
regGosub = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3WindowCodeStep(tls, pParse, p, pWInfo, regGosub, addrGosub)
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, iBreak)
Xsqlite3VdbeResolveLabel(tls, v, addrGosub)
(*SortCtx)(unsafe.Pointer(bp + 48)).FlabelOBLopt = 0
selectInnerLoop(tls, pParse, p, -1, bp+48, bp+136, pDest, iCont, iBreak)
Xsqlite3VdbeResolveLabel(tls, v, iCont)
Xsqlite3VdbeAddOp1(tls, v, OP_Return, regGosub)
Xsqlite3VdbeResolveLabel(tls, v, iBreak)
goto __74
__73:
selectInnerLoop(tls, pParse, p, -1, bp+48, bp+136, pDest,
Xsqlite3WhereContinueLabel(tls, pWInfo),
Xsqlite3WhereBreakLabel(tls, pWInfo))
Xsqlite3WhereEnd(tls, pWInfo)
__74:
;
goto __65
__64:
sortPTab = 0
sortOut = 0
orderByGrp = 0
if !(pGroupBy != 0) {
goto __75
}
k = (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpEList)).FnExpr
pItem2 = (*Select)(unsafe.Pointer(p)).FpEList + 8
__77:
if !(k > 0) {
goto __79
}
*(*U16)(unsafe.Pointer(pItem2 + 24 + 2)) = U16(0)
goto __78
__78:
k--
pItem2 += 32
goto __77
goto __79
__79:
;
k = (*ExprList)(unsafe.Pointer(pGroupBy)).FnExpr
pItem2 = pGroupBy + 8
__80:
if !(k > 0) {
goto __82
}
*(*U16)(unsafe.Pointer(pItem2 + 24 + 2)) = U16(0)
goto __81
__81:
k--
pItem2 += 32
goto __80
goto __82
__82:
;
if !(int32((*Select)(unsafe.Pointer(p)).FnSelectRow) > 66) {
goto __83
}
(*Select)(unsafe.Pointer(p)).FnSelectRow = int16(66)
__83:
;
if !((*SortCtx)(unsafe.Pointer(bp+48)).FpOrderBy != 0 && (*ExprList)(unsafe.Pointer(pGroupBy)).FnExpr == (*ExprList)(unsafe.Pointer((*SortCtx)(unsafe.Pointer(bp+48)).FpOrderBy)).FnExpr) {
goto __84
}
ii1 = 0
__85:
if !(ii1 < (*ExprList)(unsafe.Pointer(pGroupBy)).FnExpr) {
goto __87
}
sortFlags = U8(int32((*ExprList_item)(unsafe.Pointer((*SortCtx)(unsafe.Pointer(bp+48)).FpOrderBy+8+uintptr(ii1)*32)).Ffg.FsortFlags) & KEYINFO_ORDER_DESC)
(*ExprList_item)(unsafe.Pointer(pGroupBy + 8 + uintptr(ii1)*32)).Ffg.FsortFlags = sortFlags
goto __86
__86:
ii1++
goto __85
goto __87
__87:
;
if !(Xsqlite3ExprListCompare(tls, pGroupBy, (*SortCtx)(unsafe.Pointer(bp+48)).FpOrderBy, -1) == 0) {
goto __88
}
orderByGrp = 1
__88:
;
__84:
;
goto __76
__75:
;
(*Select)(unsafe.Pointer(p)).FnSelectRow = int16(0)
__76:
;
addrEnd = Xsqlite3VdbeMakeLabel(tls, pParse)
pAggInfo = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(AggInfo{})))
if !(pAggInfo != 0) {
goto __89
}
Xsqlite3ParserAddCleanup(tls, pParse,
*(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{agginfoFree})), pAggInfo)
__89:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __90
}
goto select_end
__90:
;
(*AggInfo)(unsafe.Pointer(pAggInfo)).FselId = (*Select)(unsafe.Pointer(p)).FselId
libc.X__builtin___memset_chk(tls, bp+152, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp+152, 0))
(*NameContext)(unsafe.Pointer(bp + 152)).FpParse = pParse
(*NameContext)(unsafe.Pointer(bp + 152)).FpSrcList = pTabList
*(*uintptr)(unsafe.Pointer(bp + 152 + 16)) = pAggInfo
(*AggInfo)(unsafe.Pointer(pAggInfo)).FnSortingColumn = func() uint16 {
if pGroupBy != 0 {
return uint16((*ExprList)(unsafe.Pointer(pGroupBy)).FnExpr)
}
return uint16(0)
}()
(*AggInfo)(unsafe.Pointer(pAggInfo)).FpGroupBy = pGroupBy
Xsqlite3ExprAnalyzeAggList(tls, bp+152, pEList)
Xsqlite3ExprAnalyzeAggList(tls, bp+152, (*SortCtx)(unsafe.Pointer(bp+48)).FpOrderBy)
if !(pHaving != 0) {
goto __91
}
if !(pGroupBy != 0) {
goto __92
}
havingToWhere(tls, pParse, p)
pWhere = (*Select)(unsafe.Pointer(p)).FpWhere
__92:
;
Xsqlite3ExprAnalyzeAggregates(tls, bp+152, pHaving)
__91:
;
(*AggInfo)(unsafe.Pointer(pAggInfo)).FnAccumulator = (*AggInfo)(unsafe.Pointer(pAggInfo)).FnColumn
if !((*Select)(unsafe.Pointer(p)).FpGroupBy == uintptr(0) && (*Select)(unsafe.Pointer(p)).FpHaving == uintptr(0) && (*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc == 1) {
goto __93
}
minMaxFlag = minMaxQuery(tls, db, (*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc)).FpFExpr, bp+208)
goto __94
__93:
minMaxFlag = U8(WHERE_ORDERBY_NORMAL)
__94:
;
analyzeAggFuncArgs(tls, pAggInfo, bp+152)
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __95
}
goto select_end
__95:
;
if !(pGroupBy != 0) {
goto __96
}
pDistinct = uintptr(0)
distFlag = U16(0)
eDist = WHERE_DISTINCT_NOOP
if !((*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc == 1 &&
(*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc)).FiDistinct >= 0 &&
(*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc)).FpFExpr != uintptr(0) &&
(*Expr)(unsafe.Pointer((*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc)).FpFExpr)).Fflags&U32(EP_xIsSelect) == U32(0) &&
*(*uintptr)(unsafe.Pointer((*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc)).FpFExpr + 32)) != uintptr(0)) {
goto __98
}
pExpr = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc)).FpFExpr + 32)) + 8)).FpExpr
pExpr = Xsqlite3ExprDup(tls, db, pExpr, 0)
pDistinct = Xsqlite3ExprListDup(tls, db, pGroupBy, 0)
pDistinct = Xsqlite3ExprListAppend(tls, pParse, pDistinct, pExpr)
if pDistinct != 0 {
distFlag = uint16(WHERE_WANT_DISTINCT | WHERE_AGG_DISTINCT)
} else {
distFlag = uint16(0)
}
__98:
;
(*AggInfo)(unsafe.Pointer(pAggInfo)).FsortingIdx = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
pKeyInfo1 = Xsqlite3KeyInfoFromExprList(tls, pParse, pGroupBy,
0, (*AggInfo)(unsafe.Pointer(pAggInfo)).FnColumn)
addrSortingIdx = Xsqlite3VdbeAddOp4(tls, v, OP_SorterOpen,
(*AggInfo)(unsafe.Pointer(pAggInfo)).FsortingIdx, int32((*AggInfo)(unsafe.Pointer(pAggInfo)).FnSortingColumn),
0, pKeyInfo1, -8)
iUseFlag = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
iAbortFlag = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
regOutputRow = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
addrOutputRow = Xsqlite3VdbeMakeLabel(tls, pParse)
regReset = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
addrReset = Xsqlite3VdbeMakeLabel(tls, pParse)
iAMem = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += (*ExprList)(unsafe.Pointer(pGroupBy)).FnExpr
iBMem = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += (*ExprList)(unsafe.Pointer(pGroupBy)).FnExpr
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, iAbortFlag)
Xsqlite3VdbeAddOp3(tls, v, OP_Null, 0, iAMem, iAMem+(*ExprList)(unsafe.Pointer(pGroupBy)).FnExpr-1)
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, regReset, addrReset)
pWInfo = Xsqlite3WhereBegin(tls, pParse, pTabList, pWhere, pGroupBy, pDistinct,
p, uint16(func() int32 {
if int32((*DistinctCtx)(unsafe.Pointer(bp+136)).FisTnct) == 2 {
return WHERE_DISTINCTBY
}
return WHERE_GROUPBY
}()|
func() int32 {
if orderByGrp != 0 {
return WHERE_SORTBYGROUP
}
return 0
}()|int32(distFlag)), 0)
if !(pWInfo == uintptr(0)) {
goto __99
}
Xsqlite3ExprListDelete(tls, db, pDistinct)
goto select_end
__99:
;
if !((*Parse)(unsafe.Pointer(pParse)).FpIdxEpr != 0) {
goto __100
}
optimizeAggregateUseOfIndexedExpr(tls, pParse, p, pAggInfo, bp+152)
__100:
;
assignAggregateRegisters(tls, pParse, pAggInfo)
eDist = Xsqlite3WhereIsDistinct(tls, pWInfo)
if !(Xsqlite3WhereIsOrdered(tls, pWInfo) == (*ExprList)(unsafe.Pointer(pGroupBy)).FnExpr) {
goto __101
}
groupBySort = 0
goto __102
__101:
explainTempTable(tls, pParse,
func() uintptr {
if (*DistinctCtx)(unsafe.Pointer(bp+136)).FisTnct != 0 && (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Distinct) == U32(0) {
return ts + 20252
}
return ts + 20261
}())
groupBySort = 1
nGroupBy = (*ExprList)(unsafe.Pointer(pGroupBy)).FnExpr
nCol = nGroupBy
j = nGroupBy
i = 0
__103:
if !(i < (*AggInfo)(unsafe.Pointer(pAggInfo)).FnColumn) {
goto __105
}
if !(int32((*AggInfo_col)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaCol+uintptr(i)*24)).FiSorterColumn) >= j) {
goto __106
}
nCol++
j++
__106:
;
goto __104
__104:
i++
goto __103
goto __105
__105:
;
regBase = Xsqlite3GetTempRange(tls, pParse, nCol)
Xsqlite3ExprCodeExprList(tls, pParse, pGroupBy, regBase, 0, uint8(0))
j = nGroupBy
(*AggInfo)(unsafe.Pointer(pAggInfo)).FdirectMode = U8(1)
i = 0
__107:
if !(i < (*AggInfo)(unsafe.Pointer(pAggInfo)).FnColumn) {
goto __109
}
pCol = (*AggInfo)(unsafe.Pointer(pAggInfo)).FaCol + uintptr(i)*24
if !(int32((*AggInfo_col)(unsafe.Pointer(pCol)).FiSorterColumn) >= j) {
goto __110
}
Xsqlite3ExprCode(tls, pParse, (*AggInfo_col)(unsafe.Pointer(pCol)).FpCExpr, j+regBase)
j++
__110:
;
goto __108
__108:
i++
goto __107
goto __109
__109:
;
(*AggInfo)(unsafe.Pointer(pAggInfo)).FdirectMode = U8(0)
regRecord = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regBase, nCol, regRecord)
Xsqlite3VdbeAddOp2(tls, v, OP_SorterInsert, (*AggInfo)(unsafe.Pointer(pAggInfo)).FsortingIdx, regRecord)
Xsqlite3ReleaseTempReg(tls, pParse, regRecord)
Xsqlite3ReleaseTempRange(tls, pParse, regBase, nCol)
Xsqlite3WhereEnd(tls, pWInfo)
(*AggInfo)(unsafe.Pointer(pAggInfo)).FsortingIdxPTab = libc.AssignInt32(&sortPTab, libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1))
sortOut = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp3(tls, v, OP_OpenPseudo, sortPTab, sortOut, nCol)
Xsqlite3VdbeAddOp2(tls, v, OP_SorterSort, (*AggInfo)(unsafe.Pointer(pAggInfo)).FsortingIdx, addrEnd)
(*AggInfo)(unsafe.Pointer(pAggInfo)).FuseSortingIdx = U8(1)
__102:
;
if !((*Parse)(unsafe.Pointer(pParse)).FpIdxEpr != 0) {
goto __111
}
aggregateConvertIndexedExprRefToColumn(tls, pAggInfo)
__111:
;
if !(orderByGrp != 0 && (*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_GroupByOrder) == U32(0) &&
(groupBySort != 0 || Xsqlite3WhereIsSorted(tls, pWInfo) != 0)) {
goto __112
}
(*SortCtx)(unsafe.Pointer(bp + 48)).FpOrderBy = uintptr(0)
Xsqlite3VdbeChangeToNoop(tls, v, (*SortCtx)(unsafe.Pointer(bp+48)).FaddrSortIndex)
__112:
;
addrTopOfLoop = Xsqlite3VdbeCurrentAddr(tls, v)
if !(groupBySort != 0) {
goto __113
}
Xsqlite3VdbeAddOp3(tls, v, OP_SorterData, (*AggInfo)(unsafe.Pointer(pAggInfo)).FsortingIdx,
sortOut, sortPTab)
__113:
;
j = 0
__114:
if !(j < (*ExprList)(unsafe.Pointer(pGroupBy)).FnExpr) {
goto __116
}
if !(groupBySort != 0) {
goto __117
}
Xsqlite3VdbeAddOp3(tls, v, OP_Column, sortPTab, j, iBMem+j)
goto __118
__117:
(*AggInfo)(unsafe.Pointer(pAggInfo)).FdirectMode = U8(1)
Xsqlite3ExprCode(tls, pParse, (*ExprList_item)(unsafe.Pointer(pGroupBy+8+uintptr(j)*32)).FpExpr, iBMem+j)
__118:
;
goto __115
__115:
j++
goto __114
goto __116
__116:
;
Xsqlite3VdbeAddOp4(tls, v, OP_Compare, iAMem, iBMem, (*ExprList)(unsafe.Pointer(pGroupBy)).FnExpr,
Xsqlite3KeyInfoRef(tls, pKeyInfo1), -8)
addr1 = Xsqlite3VdbeCurrentAddr(tls, v)
Xsqlite3VdbeAddOp3(tls, v, OP_Jump, addr1+1, 0, addr1+1)
Xsqlite3ExprCodeMove(tls, pParse, iBMem, iAMem, (*ExprList)(unsafe.Pointer(pGroupBy)).FnExpr)
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, regOutputRow, addrOutputRow)
Xsqlite3VdbeAddOp2(tls, v, OP_IfPos, iAbortFlag, addrEnd)
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, regReset, addrReset)
Xsqlite3VdbeJumpHere(tls, v, addr1)
updateAccumulator(tls, pParse, iUseFlag, pAggInfo, eDist)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, iUseFlag)
if !(groupBySort != 0) {
goto __119
}
Xsqlite3VdbeAddOp2(tls, v, OP_SorterNext, (*AggInfo)(unsafe.Pointer(pAggInfo)).FsortingIdx, addrTopOfLoop)
goto __120
__119:
;
Xsqlite3WhereEnd(tls, pWInfo)
Xsqlite3VdbeChangeToNoop(tls, v, addrSortingIdx)
__120:
;
Xsqlite3ExprListDelete(tls, db, pDistinct)
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, regOutputRow, addrOutputRow)
Xsqlite3VdbeGoto(tls, v, addrEnd)
addrSetAbort = Xsqlite3VdbeCurrentAddr(tls, v)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, iAbortFlag)
Xsqlite3VdbeAddOp1(tls, v, OP_Return, regOutputRow)
Xsqlite3VdbeResolveLabel(tls, v, addrOutputRow)
addrOutputRow = Xsqlite3VdbeCurrentAddr(tls, v)
Xsqlite3VdbeAddOp2(tls, v, OP_IfPos, iUseFlag, addrOutputRow+2)
Xsqlite3VdbeAddOp1(tls, v, OP_Return, regOutputRow)
finalizeAggFunctions(tls, pParse, pAggInfo)
Xsqlite3ExprIfFalse(tls, pParse, pHaving, addrOutputRow+1, SQLITE_JUMPIFNULL)
selectInnerLoop(tls, pParse, p, -1, bp+48,
bp+136, pDest,
addrOutputRow+1, addrSetAbort)
Xsqlite3VdbeAddOp1(tls, v, OP_Return, regOutputRow)
Xsqlite3VdbeResolveLabel(tls, v, addrReset)
resetAccumulator(tls, pParse, pAggInfo)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, iUseFlag)
Xsqlite3VdbeAddOp1(tls, v, OP_Return, regReset)
if !(int32(distFlag) != 0 && eDist != WHERE_DISTINCT_NOOP) {
goto __121
}
pF = (*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc
fixDistinctOpenEph(tls, pParse, eDist, (*AggInfo_func)(unsafe.Pointer(pF)).FiDistinct, (*AggInfo_func)(unsafe.Pointer(pF)).FiDistAddr)
__121:
;
goto __97
__96:
if !(libc.AssignUintptr(&pTab1, isSimpleCount(tls, p, pAggInfo)) != uintptr(0)) {
goto __122
}
iDb = Xsqlite3SchemaToIndex(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Table)(unsafe.Pointer(pTab1)).FpSchema)
iCsr = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
pKeyInfo2 = uintptr(0)
pBest = uintptr(0)
iRoot = (*Table)(unsafe.Pointer(pTab1)).Ftnum
Xsqlite3CodeVerifySchema(tls, pParse, iDb)
Xsqlite3TableLock(tls, pParse, iDb, (*Table)(unsafe.Pointer(pTab1)).Ftnum, uint8(0), (*Table)(unsafe.Pointer(pTab1)).FzName)
if !!((*Table)(unsafe.Pointer(pTab1)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __124
}
pBest = Xsqlite3PrimaryKeyIndex(tls, pTab1)
__124:
;
if !!(int32(*(*uint16)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc + 8 + 60 + 4))&0x1>>0) != 0) {
goto __125
}
pIdx = (*Table)(unsafe.Pointer(pTab1)).FpIndex
__126:
if !(pIdx != 0) {
goto __128
}
if !(int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x4>>2) == 0 &&
int32((*Index)(unsafe.Pointer(pIdx)).FszIdxRow) < int32((*Table)(unsafe.Pointer(pTab1)).FszTabRow) &&
(*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere == uintptr(0) &&
(!(pBest != 0) || int32((*Index)(unsafe.Pointer(pIdx)).FszIdxRow) < int32((*Index)(unsafe.Pointer(pBest)).FszIdxRow))) {
goto __129
}
pBest = pIdx
__129:
;
goto __127
__127:
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
goto __126
goto __128
__128:
;
__125:
;
if !(pBest != 0) {
goto __130
}
iRoot = (*Index)(unsafe.Pointer(pBest)).Ftnum
pKeyInfo2 = Xsqlite3KeyInfoOfIndex(tls, pParse, pBest)
__130:
;
Xsqlite3VdbeAddOp4Int(tls, v, OP_OpenRead, iCsr, int32(iRoot), iDb, 1)
if !(pKeyInfo2 != 0) {
goto __131
}
Xsqlite3VdbeChangeP4(tls, v, -1, pKeyInfo2, -8)
__131:
;
assignAggregateRegisters(tls, pParse, pAggInfo)
Xsqlite3VdbeAddOp2(tls, v, OP_Count, iCsr, func() int32 {
return (*AggInfo)(unsafe.Pointer(pAggInfo)).FiFirstReg + (*AggInfo)(unsafe.Pointer(pAggInfo)).FnColumn + 0
}())
Xsqlite3VdbeAddOp1(tls, v, OP_Close, iCsr)
explainSimpleCount(tls, pParse, pTab1, pBest)
goto __123
__122:
regAcc = 0
pDistinct1 = uintptr(0)
distFlag1 = U16(0)
if !((*AggInfo)(unsafe.Pointer(pAggInfo)).FnAccumulator != 0) {
goto __132
}
i = 0
__134:
if !(i < (*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc) {
goto __136
}
if !((*Expr)(unsafe.Pointer((*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc+uintptr(i)*24)).FpFExpr)).Fflags&U32(EP_WinFunc) != U32(0)) {
goto __137
}
goto __135
__137:
;
if !((*FuncDef)(unsafe.Pointer((*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc+uintptr(i)*24)).FpFunc)).FfuncFlags&U32(SQLITE_FUNC_NEEDCOLL) != 0) {
goto __138
}
goto __136
__138:
;
goto __135
__135:
i++
goto __134
goto __136
__136:
;
if !(i == (*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc) {
goto __139
}
regAcc = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, regAcc)
__139:
;
goto __133
__132:
if !((*AggInfo)(unsafe.Pointer(pAggInfo)).FnFunc == 1 && (*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc)).FiDistinct >= 0) {
goto __140
}
pDistinct1 = *(*uintptr)(unsafe.Pointer((*AggInfo_func)(unsafe.Pointer((*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc)).FpFExpr + 32))
if pDistinct1 != 0 {
distFlag1 = uint16(WHERE_WANT_DISTINCT | WHERE_AGG_DISTINCT)
} else {
distFlag1 = uint16(0)
}
__140:
;
__133:
;
assignAggregateRegisters(tls, pParse, pAggInfo)
resetAccumulator(tls, pParse, pAggInfo)
pWInfo = Xsqlite3WhereBegin(tls, pParse, pTabList, pWhere, *(*uintptr)(unsafe.Pointer(bp + 208)),
pDistinct1, p, uint16(int32(minMaxFlag)|int32(distFlag1)), 0)
if !(pWInfo == uintptr(0)) {
goto __141
}
goto select_end
__141:
;
eDist1 = Xsqlite3WhereIsDistinct(tls, pWInfo)
updateAccumulator(tls, pParse, regAcc, pAggInfo, eDist1)
if !(eDist1 != WHERE_DISTINCT_NOOP) {
goto __142
}
pF1 = (*AggInfo)(unsafe.Pointer(pAggInfo)).FaFunc
if !(pF1 != 0) {
goto __143
}
fixDistinctOpenEph(tls, pParse, eDist1, (*AggInfo_func)(unsafe.Pointer(pF1)).FiDistinct, (*AggInfo_func)(unsafe.Pointer(pF1)).FiDistAddr)
__143:
;
__142:
;
if !(regAcc != 0) {
goto __144
}
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, regAcc)
__144:
;
if !(minMaxFlag != 0) {
goto __145
}
Xsqlite3WhereMinMaxOptEarlyOut(tls, v, pWInfo)
__145:
;
Xsqlite3WhereEnd(tls, pWInfo)
finalizeAggFunctions(tls, pParse, pAggInfo)
__123:
;
(*SortCtx)(unsafe.Pointer(bp + 48)).FpOrderBy = uintptr(0)
Xsqlite3ExprIfFalse(tls, pParse, pHaving, addrEnd, SQLITE_JUMPIFNULL)
selectInnerLoop(tls, pParse, p, -1, uintptr(0), uintptr(0),
pDest, addrEnd, addrEnd)
__97:
;
Xsqlite3VdbeResolveLabel(tls, v, addrEnd)
__65:
;
if !(int32((*DistinctCtx)(unsafe.Pointer(bp+136)).FeTnctType) == WHERE_DISTINCT_UNORDERED) {
goto __146
}
explainTempTable(tls, pParse, ts+20252)
__146:
;
if !((*SortCtx)(unsafe.Pointer(bp+48)).FpOrderBy != 0) {
goto __147
}
generateSortTail(tls, pParse, p, bp+48, (*ExprList)(unsafe.Pointer(pEList)).FnExpr, pDest)
__147:
;
Xsqlite3VdbeResolveLabel(tls, v, iEnd)
rc = libc.Bool32((*Parse)(unsafe.Pointer(pParse)).FnErr > 0)
select_end:
;
Xsqlite3ExprListDelete(tls, db, *(*uintptr)(unsafe.Pointer(bp + 208)))
Xsqlite3VdbeExplainPop(tls, pParse)
return rc
}
// This structure is used to pass data from sqlite3_get_table() through
// to the callback function is uses to build the result.
type TabResult1 = struct {
FazResult uintptr
FzErrMsg uintptr
FnAlloc U32
FnRow U32
FnColumn U32
FnData U32
Frc int32
F__ccgo_pad1 [4]byte
}
// This structure is used to pass data from sqlite3_get_table() through
// to the callback function is uses to build the result.
type TabResult = TabResult1
func sqlite3_get_table_cb(tls *libc.TLS, pArg uintptr, nCol int32, argv uintptr, colv uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var p uintptr
var need int32
var i int32
var z uintptr
var azNew uintptr
var n int32
p = pArg
if !((*TabResult)(unsafe.Pointer(p)).FnRow == U32(0) && argv != uintptr(0)) {
goto __1
}
need = nCol * 2
goto __2
__1:
need = nCol
__2:
;
if !((*TabResult)(unsafe.Pointer(p)).FnData+U32(need) > (*TabResult)(unsafe.Pointer(p)).FnAlloc) {
goto __3
}
(*TabResult)(unsafe.Pointer(p)).FnAlloc = (*TabResult)(unsafe.Pointer(p)).FnAlloc*U32(2) + U32(need)
azNew = Xsqlite3Realloc(tls, (*TabResult)(unsafe.Pointer(p)).FazResult, uint64(unsafe.Sizeof(uintptr(0)))*uint64((*TabResult)(unsafe.Pointer(p)).FnAlloc))
if !(azNew == uintptr(0)) {
goto __4
}
goto malloc_failed
__4:
;
(*TabResult)(unsafe.Pointer(p)).FazResult = azNew
__3:
;
if !((*TabResult)(unsafe.Pointer(p)).FnRow == U32(0)) {
goto __5
}
(*TabResult)(unsafe.Pointer(p)).FnColumn = U32(nCol)
i = 0
__7:
if !(i < nCol) {
goto __9
}
z = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp, *(*uintptr)(unsafe.Pointer(colv + uintptr(i)*8))))
if !(z == uintptr(0)) {
goto __10
}
goto malloc_failed
__10:
;
*(*uintptr)(unsafe.Pointer((*TabResult)(unsafe.Pointer(p)).FazResult + uintptr(libc.PostIncUint32(&(*TabResult)(unsafe.Pointer(p)).FnData, 1))*8)) = z
goto __8
__8:
i++
goto __7
goto __9
__9:
;
goto __6
__5:
if !(int32((*TabResult)(unsafe.Pointer(p)).FnColumn) != nCol) {
goto __11
}
Xsqlite3_free(tls, (*TabResult)(unsafe.Pointer(p)).FzErrMsg)
(*TabResult)(unsafe.Pointer(p)).FzErrMsg = Xsqlite3_mprintf(tls,
ts+20270, 0)
(*TabResult)(unsafe.Pointer(p)).Frc = SQLITE_ERROR
return 1
__11:
;
__6:
;
if !(argv != uintptr(0)) {
goto __12
}
i = 0
__13:
if !(i < nCol) {
goto __15
}
if !(*(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8)) == uintptr(0)) {
goto __16
}
z = uintptr(0)
goto __17
__16:
n = Xsqlite3Strlen30(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8))) + 1
z = Xsqlite3_malloc64(tls, uint64(n))
if !(z == uintptr(0)) {
goto __18
}
goto malloc_failed
__18:
;
libc.X__builtin___memcpy_chk(tls, z, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8)), uint64(n), libc.X__builtin_object_size(tls, z, 0))
__17:
;
*(*uintptr)(unsafe.Pointer((*TabResult)(unsafe.Pointer(p)).FazResult + uintptr(libc.PostIncUint32(&(*TabResult)(unsafe.Pointer(p)).FnData, 1))*8)) = z
goto __14
__14:
i++
goto __13
goto __15
__15:
;
(*TabResult)(unsafe.Pointer(p)).FnRow++
__12:
;
return 0
malloc_failed:
(*TabResult)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
return 1
}
// Query the database. But instead of invoking a callback for each row,
// malloc() for space to hold the result and return the entire results
// at the conclusion of the call.
//
// The result that is written to ***pazResult is held in memory obtained
// from malloc(). But the caller cannot free this memory directly.
// Instead, the entire table should be passed to sqlite3_free_table() when
// the calling procedure is finished using it.
func Xsqlite3_get_table(tls *libc.TLS, db uintptr, zSql uintptr, pazResult uintptr, pnRow uintptr, pnColumn uintptr, pzErrMsg uintptr) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
var rc int32
*(*uintptr)(unsafe.Pointer(pazResult)) = uintptr(0)
if pnColumn != 0 {
*(*int32)(unsafe.Pointer(pnColumn)) = 0
}
if pnRow != 0 {
*(*int32)(unsafe.Pointer(pnRow)) = 0
}
if pzErrMsg != 0 {
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = uintptr(0)
}
(*TabResult)(unsafe.Pointer(bp + 8)).FzErrMsg = uintptr(0)
(*TabResult)(unsafe.Pointer(bp + 8)).FnRow = U32(0)
(*TabResult)(unsafe.Pointer(bp + 8)).FnColumn = U32(0)
(*TabResult)(unsafe.Pointer(bp + 8)).FnData = U32(1)
(*TabResult)(unsafe.Pointer(bp + 8)).FnAlloc = U32(20)
(*TabResult)(unsafe.Pointer(bp + 8)).Frc = SQLITE_OK
(*TabResult)(unsafe.Pointer(bp + 8)).FazResult = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(uintptr(0)))*uint64((*TabResult)(unsafe.Pointer(bp+8)).FnAlloc))
if (*TabResult)(unsafe.Pointer(bp+8)).FazResult == uintptr(0) {
(*Sqlite3)(unsafe.Pointer(db)).FerrCode = SQLITE_NOMEM
return SQLITE_NOMEM
}
*(*uintptr)(unsafe.Pointer((*TabResult)(unsafe.Pointer(bp + 8)).FazResult)) = uintptr(0)
rc = Xsqlite3_exec(tls, db, zSql, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32
}{sqlite3_get_table_cb})), bp+8, pzErrMsg)
*(*uintptr)(unsafe.Pointer((*TabResult)(unsafe.Pointer(bp + 8)).FazResult)) = uintptr(int64((*TabResult)(unsafe.Pointer(bp + 8)).FnData))
if rc&0xff == SQLITE_ABORT {
Xsqlite3_free_table(tls, (*TabResult)(unsafe.Pointer(bp+8)).FazResult+1*8)
if (*TabResult)(unsafe.Pointer(bp+8)).FzErrMsg != 0 {
if pzErrMsg != 0 {
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(pzErrMsg)))
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp, (*TabResult)(unsafe.Pointer(bp+8)).FzErrMsg))
}
Xsqlite3_free(tls, (*TabResult)(unsafe.Pointer(bp+8)).FzErrMsg)
}
(*Sqlite3)(unsafe.Pointer(db)).FerrCode = (*TabResult)(unsafe.Pointer(bp + 8)).Frc
return (*TabResult)(unsafe.Pointer(bp + 8)).Frc
}
Xsqlite3_free(tls, (*TabResult)(unsafe.Pointer(bp+8)).FzErrMsg)
if rc != SQLITE_OK {
Xsqlite3_free_table(tls, (*TabResult)(unsafe.Pointer(bp+8)).FazResult+1*8)
return rc
}
if (*TabResult)(unsafe.Pointer(bp+8)).FnAlloc > (*TabResult)(unsafe.Pointer(bp+8)).FnData {
var azNew uintptr
azNew = Xsqlite3Realloc(tls, (*TabResult)(unsafe.Pointer(bp+8)).FazResult, uint64(unsafe.Sizeof(uintptr(0)))*uint64((*TabResult)(unsafe.Pointer(bp+8)).FnData))
if azNew == uintptr(0) {
Xsqlite3_free_table(tls, (*TabResult)(unsafe.Pointer(bp+8)).FazResult+1*8)
(*Sqlite3)(unsafe.Pointer(db)).FerrCode = SQLITE_NOMEM
return SQLITE_NOMEM
}
(*TabResult)(unsafe.Pointer(bp + 8)).FazResult = azNew
}
*(*uintptr)(unsafe.Pointer(pazResult)) = (*TabResult)(unsafe.Pointer(bp+8)).FazResult + 1*8
if pnColumn != 0 {
*(*int32)(unsafe.Pointer(pnColumn)) = int32((*TabResult)(unsafe.Pointer(bp + 8)).FnColumn)
}
if pnRow != 0 {
*(*int32)(unsafe.Pointer(pnRow)) = int32((*TabResult)(unsafe.Pointer(bp + 8)).FnRow)
}
return rc
}
// This routine frees the space the sqlite3_get_table() malloced.
func Xsqlite3_free_table(tls *libc.TLS, azResult uintptr) {
if azResult != 0 {
var i int32
var n int32
azResult -= 8
n = int32(*(*uintptr)(unsafe.Pointer(azResult)))
for i = 1; i < n; i++ {
if *(*uintptr)(unsafe.Pointer(azResult + uintptr(i)*8)) != 0 {
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(azResult + uintptr(i)*8)))
}
}
Xsqlite3_free(tls, azResult)
}
}
// Delete a linked list of TriggerStep structures.
func Xsqlite3DeleteTriggerStep(tls *libc.TLS, db uintptr, pTriggerStep uintptr) {
for pTriggerStep != 0 {
var pTmp uintptr = pTriggerStep
pTriggerStep = (*TriggerStep)(unsafe.Pointer(pTriggerStep)).FpNext
Xsqlite3ExprDelete(tls, db, (*TriggerStep)(unsafe.Pointer(pTmp)).FpWhere)
Xsqlite3ExprListDelete(tls, db, (*TriggerStep)(unsafe.Pointer(pTmp)).FpExprList)
Xsqlite3SelectDelete(tls, db, (*TriggerStep)(unsafe.Pointer(pTmp)).FpSelect)
Xsqlite3IdListDelete(tls, db, (*TriggerStep)(unsafe.Pointer(pTmp)).FpIdList)
Xsqlite3UpsertDelete(tls, db, (*TriggerStep)(unsafe.Pointer(pTmp)).FpUpsert)
Xsqlite3SrcListDelete(tls, db, (*TriggerStep)(unsafe.Pointer(pTmp)).FpFrom)
Xsqlite3DbFree(tls, db, (*TriggerStep)(unsafe.Pointer(pTmp)).FzSpan)
Xsqlite3DbFree(tls, db, pTmp)
}
}
// Given table pTab, return a list of all the triggers attached to
// the table. The list is connected by Trigger.pNext pointers.
//
// All of the triggers on pTab that are in the same database as pTab
// are already attached to pTab->pTrigger. But there might be additional
// triggers on pTab in the TEMP schema. This routine prepends all
// TEMP triggers on pTab to the beginning of the pTab->pTrigger list
// and returns the combined list.
//
// To state it another way: This routine returns a list of all triggers
// that fire off of pTab. The list will include any TEMP triggers on
// pTab as well as the triggers lised in pTab->pTrigger.
func Xsqlite3TriggerList(tls *libc.TLS, pParse uintptr, pTab uintptr) uintptr {
var pTmpSchema uintptr
var pList uintptr
var p uintptr
pTmpSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FaDb + 1*32)).FpSchema
p = (*Hash)(unsafe.Pointer(pTmpSchema + 56)).Ffirst
pList = (*Table)(unsafe.Pointer(pTab)).FpTrigger
for p != 0 {
var pTrig uintptr = (*HashElem)(unsafe.Pointer(p)).Fdata
if (*Trigger)(unsafe.Pointer(pTrig)).FpTabSchema == (*Table)(unsafe.Pointer(pTab)).FpSchema &&
(*Trigger)(unsafe.Pointer(pTrig)).Ftable != 0 &&
0 == Xsqlite3StrICmp(tls, (*Trigger)(unsafe.Pointer(pTrig)).Ftable, (*Table)(unsafe.Pointer(pTab)).FzName) &&
((*Trigger)(unsafe.Pointer(pTrig)).FpTabSchema != pTmpSchema || (*Trigger)(unsafe.Pointer(pTrig)).FbReturning != 0) {
(*Trigger)(unsafe.Pointer(pTrig)).FpNext = pList
pList = pTrig
} else if int32((*Trigger)(unsafe.Pointer(pTrig)).Fop) == TK_RETURNING {
(*Trigger)(unsafe.Pointer(pTrig)).Ftable = (*Table)(unsafe.Pointer(pTab)).FzName
(*Trigger)(unsafe.Pointer(pTrig)).FpTabSchema = (*Table)(unsafe.Pointer(pTab)).FpSchema
(*Trigger)(unsafe.Pointer(pTrig)).FpNext = pList
pList = pTrig
}
p = (*HashElem)(unsafe.Pointer(p)).Fnext
}
return pList
}
// This is called by the parser when it sees a CREATE TRIGGER statement
// up to the point of the BEGIN before the trigger actions. A Trigger
// structure is generated based on the information available and stored
// in pParse->pNewTrigger. After the trigger actions have been parsed, the
// sqlite3FinishTrigger() function is called to complete the trigger
// construction process.
func Xsqlite3BeginTrigger(tls *libc.TLS, pParse uintptr, pName1 uintptr, pName2 uintptr, tr_tm int32, op int32, pColumns uintptr, pTableName uintptr, pWhen uintptr, isTemp int32, noErr int32) {
bp := tls.Alloc(136)
defer tls.Free(136)
var pTrigger uintptr
var pTab uintptr
var zName uintptr
var db uintptr
var iDb int32
var iTabDb int32
var code int32
var zDb uintptr
var zDbTrig uintptr
pTrigger = uintptr(0)
zName = uintptr(0)
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if !(isTemp != 0) {
goto __1
}
if !((*Token)(unsafe.Pointer(pName2)).Fn > uint32(0)) {
goto __3
}
Xsqlite3ErrorMsg(tls, pParse, ts+20335, 0)
goto trigger_cleanup
__3:
;
iDb = 1
*(*uintptr)(unsafe.Pointer(bp + 32)) = pName1
goto __2
__1:
iDb = Xsqlite3TwoPartName(tls, pParse, pName1, pName2, bp+32)
if !(iDb < 0) {
goto __4
}
goto trigger_cleanup
__4:
;
__2:
;
if !(!(pTableName != 0) || (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __5
}
goto trigger_cleanup
__5:
;
if !((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy != 0 && iDb != 1) {
goto __6
}
Xsqlite3DbFree(tls, db, (*SrcItem)(unsafe.Pointer(pTableName+8)).FzDatabase)
(*SrcItem)(unsafe.Pointer(pTableName + 8)).FzDatabase = uintptr(0)
__6:
;
pTab = Xsqlite3SrcListLookup(tls, pParse, pTableName)
if !(int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) == 0 && (*Token)(unsafe.Pointer(pName2)).Fn == uint32(0) && pTab != 0 &&
(*Table)(unsafe.Pointer(pTab)).FpSchema == (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema) {
goto __7
}
iDb = 1
__7:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __8
}
goto trigger_cleanup
__8:
;
Xsqlite3FixInit(tls, bp+40, pParse, iDb, ts+20381, *(*uintptr)(unsafe.Pointer(bp + 32)))
if !(Xsqlite3FixSrcList(tls, bp+40, pTableName) != 0) {
goto __9
}
goto trigger_cleanup
__9:
;
pTab = Xsqlite3SrcListLookup(tls, pParse, pTableName)
if !!(pTab != 0) {
goto __10
}
goto trigger_orphan_error
__10:
;
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __11
}
Xsqlite3ErrorMsg(tls, pParse, ts+20389, 0)
goto trigger_orphan_error
__11:
;
zName = Xsqlite3NameFromToken(tls, db, *(*uintptr)(unsafe.Pointer(bp + 32)))
if !(zName == uintptr(0)) {
goto __12
}
goto trigger_cleanup
__12:
;
if !(Xsqlite3CheckObjectName(tls, pParse, zName, ts+20381, (*Table)(unsafe.Pointer(pTab)).FzName) != 0) {
goto __13
}
goto trigger_cleanup
__13:
;
if !!(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __14
}
if !(Xsqlite3HashFind(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpSchema+56, zName) != 0) {
goto __15
}
if !!(noErr != 0) {
goto __16
}
Xsqlite3ErrorMsg(tls, pParse, ts+20430, libc.VaList(bp, *(*uintptr)(unsafe.Pointer(bp + 32))))
goto __17
__16:
;
Xsqlite3CodeVerifySchema(tls, pParse, iDb)
__17:
;
goto trigger_cleanup
__15:
;
__14:
;
if !(Xsqlite3_strnicmp(tls, (*Table)(unsafe.Pointer(pTab)).FzName, ts+6784, 7) == 0) {
goto __18
}
Xsqlite3ErrorMsg(tls, pParse, ts+20456, 0)
goto trigger_cleanup
__18:
;
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW && tr_tm != TK_INSTEAD) {
goto __19
}
Xsqlite3ErrorMsg(tls, pParse, ts+20494,
libc.VaList(bp+8, func() uintptr {
if tr_tm == TK_BEFORE {
return ts + 20531
}
return ts + 20538
}(), pTableName+8))
goto trigger_orphan_error
__19:
;
if !(!(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW) && tr_tm == TK_INSTEAD) {
goto __20
}
Xsqlite3ErrorMsg(tls, pParse,
ts+20544, libc.VaList(bp+24, pTableName+8))
goto trigger_orphan_error
__20:
;
if !!(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __21
}
iTabDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
code = SQLITE_CREATE_TRIGGER
zDb = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iTabDb)*32)).FzDbSName
if isTemp != 0 {
zDbTrig = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + 1*32)).FzDbSName
} else {
zDbTrig = zDb
}
if !(iTabDb == 1 || isTemp != 0) {
goto __22
}
code = SQLITE_CREATE_TEMP_TRIGGER
__22:
;
if !(Xsqlite3AuthCheck(tls, pParse, code, zName, (*Table)(unsafe.Pointer(pTab)).FzName, zDbTrig) != 0) {
goto __23
}
goto trigger_cleanup
__23:
;
if !(Xsqlite3AuthCheck(tls, pParse, SQLITE_INSERT, func() uintptr {
if !(0 != 0) && iTabDb == 1 {
return ts + 6792
}
return ts + 6286
}(), uintptr(0), zDb) != 0) {
goto __24
}
goto trigger_cleanup
__24:
;
__21:
;
if !(tr_tm == TK_INSTEAD) {
goto __25
}
tr_tm = TK_BEFORE
__25:
;
pTrigger = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Trigger{})))
if !(pTrigger == uintptr(0)) {
goto __26
}
goto trigger_cleanup
__26:
;
(*Trigger)(unsafe.Pointer(pTrigger)).FzName = zName
zName = uintptr(0)
(*Trigger)(unsafe.Pointer(pTrigger)).Ftable = Xsqlite3DbStrDup(tls, db, (*SrcItem)(unsafe.Pointer(pTableName+8)).FzName)
(*Trigger)(unsafe.Pointer(pTrigger)).FpSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpSchema
(*Trigger)(unsafe.Pointer(pTrigger)).FpTabSchema = (*Table)(unsafe.Pointer(pTab)).FpSchema
(*Trigger)(unsafe.Pointer(pTrigger)).Fop = U8(op)
(*Trigger)(unsafe.Pointer(pTrigger)).Ftr_tm = func() uint8 {
if tr_tm == TK_BEFORE {
return uint8(TRIGGER_BEFORE)
}
return uint8(TRIGGER_AFTER)
}()
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __27
}
Xsqlite3RenameTokenRemap(tls, pParse, (*Trigger)(unsafe.Pointer(pTrigger)).Ftable, (*SrcItem)(unsafe.Pointer(pTableName+8)).FzName)
(*Trigger)(unsafe.Pointer(pTrigger)).FpWhen = pWhen
pWhen = uintptr(0)
goto __28
__27:
(*Trigger)(unsafe.Pointer(pTrigger)).FpWhen = Xsqlite3ExprDup(tls, db, pWhen, EXPRDUP_REDUCE)
__28:
;
(*Trigger)(unsafe.Pointer(pTrigger)).FpColumns = pColumns
pColumns = uintptr(0)
(*Parse)(unsafe.Pointer(pParse)).FpNewTrigger = pTrigger
trigger_cleanup:
Xsqlite3DbFree(tls, db, zName)
Xsqlite3SrcListDelete(tls, db, pTableName)
Xsqlite3IdListDelete(tls, db, pColumns)
Xsqlite3ExprDelete(tls, db, pWhen)
if !!(int32((*Parse)(unsafe.Pointer(pParse)).FpNewTrigger) != 0) {
goto __29
}
Xsqlite3DeleteTrigger(tls, db, pTrigger)
goto __30
__29:
;
__30:
;
return
trigger_orphan_error:
if !(int32((*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb) == 1) {
goto __31
}
libc.SetBitFieldPtr8Uint32(db+192+8, uint32(1), 0, 0x1)
__31:
;
goto trigger_cleanup
}
// This routine is called after all of the trigger actions have been parsed
// in order to complete the process of building the trigger.
func Xsqlite3FinishTrigger(tls *libc.TLS, pParse uintptr, pStepList uintptr, pAll uintptr) {
bp := tls.Alloc(168)
defer tls.Free(168)
var pTrig uintptr
var zName uintptr
var db uintptr
var iDb int32
var pStep uintptr
var v uintptr
var z uintptr
var pTab uintptr
var pLink uintptr
var pHash uintptr
pTrig = (*Parse)(unsafe.Pointer(pParse)).FpNewTrigger
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
(*Parse)(unsafe.Pointer(pParse)).FpNewTrigger = uintptr(0)
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0 || !(pTrig != 0)) {
goto __1
}
goto triggerfinish_cleanup
__1:
;
zName = (*Trigger)(unsafe.Pointer(pTrig)).FzName
iDb = Xsqlite3SchemaToIndex(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Trigger)(unsafe.Pointer(pTrig)).FpSchema)
(*Trigger)(unsafe.Pointer(pTrig)).Fstep_list = pStepList
__2:
if !(pStepList != 0) {
goto __3
}
(*TriggerStep)(unsafe.Pointer(pStepList)).FpTrig = pTrig
pStepList = (*TriggerStep)(unsafe.Pointer(pStepList)).FpNext
goto __2
__3:
;
Xsqlite3TokenInit(tls, bp+56, (*Trigger)(unsafe.Pointer(pTrig)).FzName)
Xsqlite3FixInit(tls, bp+72, pParse, iDb, ts+20381, bp+56)
if !(Xsqlite3FixTriggerStep(tls, bp+72, (*Trigger)(unsafe.Pointer(pTrig)).Fstep_list) != 0 ||
Xsqlite3FixExpr(tls, bp+72, (*Trigger)(unsafe.Pointer(pTrig)).FpWhen) != 0) {
goto __4
}
goto triggerfinish_cleanup
__4:
;
if !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
goto __5
}
(*Parse)(unsafe.Pointer(pParse)).FpNewTrigger = pTrig
pTrig = uintptr(0)
goto __6
__5:
if !!(int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) != 0) {
goto __7
}
if !(Xsqlite3ReadOnlyShadowTables(tls, db) != 0) {
goto __8
}
pStep = (*Trigger)(unsafe.Pointer(pTrig)).Fstep_list
__9:
if !(pStep != 0) {
goto __11
}
if !((*TriggerStep)(unsafe.Pointer(pStep)).FzTarget != uintptr(0) &&
Xsqlite3ShadowTableName(tls, db, (*TriggerStep)(unsafe.Pointer(pStep)).FzTarget) != 0) {
goto __12
}
Xsqlite3ErrorMsg(tls, pParse,
ts+20590,
libc.VaList(bp, (*Trigger)(unsafe.Pointer(pTrig)).FzName, (*TriggerStep)(unsafe.Pointer(pStep)).FzTarget))
goto triggerfinish_cleanup
__12:
;
goto __10
__10:
pStep = (*TriggerStep)(unsafe.Pointer(pStep)).FpNext
goto __9
goto __11
__11:
;
__8:
;
v = Xsqlite3GetVdbe(tls, pParse)
if !(v == uintptr(0)) {
goto __13
}
goto triggerfinish_cleanup
__13:
;
Xsqlite3BeginWriteOperation(tls, pParse, 0, iDb)
z = Xsqlite3DbStrNDup(tls, db, (*Token)(unsafe.Pointer(pAll)).Fz, uint64((*Token)(unsafe.Pointer(pAll)).Fn))
Xsqlite3NestedParse(tls, pParse,
ts+20638,
libc.VaList(bp+16, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName, zName,
(*Trigger)(unsafe.Pointer(pTrig)).Ftable, z))
Xsqlite3DbFree(tls, db, z)
Xsqlite3ChangeCookie(tls, pParse, iDb)
Xsqlite3VdbeAddParseSchemaOp(tls, v, iDb,
Xsqlite3MPrintf(tls, db, ts+20713, libc.VaList(bp+48, zName)), uint16(0))
__7:
;
__6:
;
if !((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy != 0) {
goto __14
}
pLink = pTrig
pHash = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpSchema + 56
pTrig = Xsqlite3HashInsert(tls, pHash, zName, pTrig)
if !(pTrig != 0) {
goto __15
}
Xsqlite3OomFault(tls, db)
goto __16
__15:
if !((*Trigger)(unsafe.Pointer(pLink)).FpSchema == (*Trigger)(unsafe.Pointer(pLink)).FpTabSchema) {
goto __17
}
pTab = Xsqlite3HashFind(tls, (*Trigger)(unsafe.Pointer(pLink)).FpTabSchema+8, (*Trigger)(unsafe.Pointer(pLink)).Ftable)
(*Trigger)(unsafe.Pointer(pLink)).FpNext = (*Table)(unsafe.Pointer(pTab)).FpTrigger
(*Table)(unsafe.Pointer(pTab)).FpTrigger = pLink
__17:
;
__16:
;
__14:
;
triggerfinish_cleanup:
Xsqlite3DeleteTrigger(tls, db, pTrig)
Xsqlite3DeleteTriggerStep(tls, db, pStepList)
}
func triggerSpanDup(tls *libc.TLS, db uintptr, zStart uintptr, zEnd uintptr) uintptr {
var z uintptr = Xsqlite3DbSpanDup(tls, db, zStart, zEnd)
var i int32
if z != 0 {
for i = 0; *(*int8)(unsafe.Pointer(z + uintptr(i))) != 0; i++ {
if int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z + uintptr(i))))])&0x01 != 0 {
*(*int8)(unsafe.Pointer(z + uintptr(i))) = int8(' ')
}
}
}
return z
}
// Turn a SELECT statement (that the pSelect parameter points to) into
// a trigger step. Return a pointer to a TriggerStep structure.
//
// The parser calls this routine when it finds a SELECT statement in
// body of a TRIGGER.
func Xsqlite3TriggerSelectStep(tls *libc.TLS, db uintptr, pSelect uintptr, zStart uintptr, zEnd uintptr) uintptr {
var pTriggerStep uintptr = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(TriggerStep{})))
if pTriggerStep == uintptr(0) {
Xsqlite3SelectDelete(tls, db, pSelect)
return uintptr(0)
}
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).Fop = U8(TK_SELECT)
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FpSelect = pSelect
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).Forconf = U8(OE_Default)
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FzSpan = triggerSpanDup(tls, db, zStart, zEnd)
return pTriggerStep
}
func triggerStepAllocate(tls *libc.TLS, pParse uintptr, op U8, pName uintptr, zStart uintptr, zEnd uintptr) uintptr {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pTriggerStep uintptr
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return uintptr(0)
}
pTriggerStep = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(TriggerStep{}))+uint64((*Token)(unsafe.Pointer(pName)).Fn)+uint64(1))
if pTriggerStep != 0 {
var z uintptr = pTriggerStep + 1*96
libc.X__builtin___memcpy_chk(tls, z, (*Token)(unsafe.Pointer(pName)).Fz, uint64((*Token)(unsafe.Pointer(pName)).Fn), libc.X__builtin_object_size(tls, z, 0))
Xsqlite3Dequote(tls, z)
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FzTarget = z
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).Fop = op
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FzSpan = triggerSpanDup(tls, db, zStart, zEnd)
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
Xsqlite3RenameTokenMap(tls, pParse, (*TriggerStep)(unsafe.Pointer(pTriggerStep)).FzTarget, pName)
}
}
return pTriggerStep
}
// Build a trigger step out of an INSERT statement. Return a pointer
// to the new trigger step.
//
// The parser calls this routine when it sees an INSERT inside the
// body of a trigger.
func Xsqlite3TriggerInsertStep(tls *libc.TLS, pParse uintptr, pTableName uintptr, pColumn uintptr, pSelect uintptr, orconf U8, pUpsert uintptr, zStart uintptr, zEnd uintptr) uintptr {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pTriggerStep uintptr
pTriggerStep = triggerStepAllocate(tls, pParse, uint8(TK_INSERT), pTableName, zStart, zEnd)
if pTriggerStep != 0 {
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FpSelect = pSelect
pSelect = uintptr(0)
} else {
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FpSelect = Xsqlite3SelectDup(tls, db, pSelect, EXPRDUP_REDUCE)
}
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FpIdList = pColumn
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FpUpsert = pUpsert
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).Forconf = orconf
if pUpsert != 0 {
Xsqlite3HasExplicitNulls(tls, pParse, (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertTarget)
}
} else {
Xsqlite3IdListDelete(tls, db, pColumn)
Xsqlite3UpsertDelete(tls, db, pUpsert)
}
Xsqlite3SelectDelete(tls, db, pSelect)
return pTriggerStep
}
// Construct a trigger step that implements an UPDATE statement and return
// a pointer to that trigger step. The parser calls this routine when it
// sees an UPDATE statement inside the body of a CREATE TRIGGER.
func Xsqlite3TriggerUpdateStep(tls *libc.TLS, pParse uintptr, pTableName uintptr, pFrom uintptr, pEList uintptr, pWhere uintptr, orconf U8, zStart uintptr, zEnd uintptr) uintptr {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pTriggerStep uintptr
pTriggerStep = triggerStepAllocate(tls, pParse, uint8(TK_UPDATE), pTableName, zStart, zEnd)
if pTriggerStep != 0 {
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FpExprList = pEList
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FpWhere = pWhere
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FpFrom = pFrom
pEList = uintptr(0)
pWhere = uintptr(0)
pFrom = uintptr(0)
} else {
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FpExprList = Xsqlite3ExprListDup(tls, db, pEList, EXPRDUP_REDUCE)
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FpWhere = Xsqlite3ExprDup(tls, db, pWhere, EXPRDUP_REDUCE)
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FpFrom = Xsqlite3SrcListDup(tls, db, pFrom, EXPRDUP_REDUCE)
}
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).Forconf = orconf
}
Xsqlite3ExprListDelete(tls, db, pEList)
Xsqlite3ExprDelete(tls, db, pWhere)
Xsqlite3SrcListDelete(tls, db, pFrom)
return pTriggerStep
}
// Construct a trigger step that implements a DELETE statement and return
// a pointer to that trigger step. The parser calls this routine when it
// sees a DELETE statement inside the body of a CREATE TRIGGER.
func Xsqlite3TriggerDeleteStep(tls *libc.TLS, pParse uintptr, pTableName uintptr, pWhere uintptr, zStart uintptr, zEnd uintptr) uintptr {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pTriggerStep uintptr
pTriggerStep = triggerStepAllocate(tls, pParse, uint8(TK_DELETE), pTableName, zStart, zEnd)
if pTriggerStep != 0 {
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FpWhere = pWhere
pWhere = uintptr(0)
} else {
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).FpWhere = Xsqlite3ExprDup(tls, db, pWhere, EXPRDUP_REDUCE)
}
(*TriggerStep)(unsafe.Pointer(pTriggerStep)).Forconf = U8(OE_Default)
}
Xsqlite3ExprDelete(tls, db, pWhere)
return pTriggerStep
}
// Recursively delete a Trigger structure
func Xsqlite3DeleteTrigger(tls *libc.TLS, db uintptr, pTrigger uintptr) {
if pTrigger == uintptr(0) || (*Trigger)(unsafe.Pointer(pTrigger)).FbReturning != 0 {
return
}
Xsqlite3DeleteTriggerStep(tls, db, (*Trigger)(unsafe.Pointer(pTrigger)).Fstep_list)
Xsqlite3DbFree(tls, db, (*Trigger)(unsafe.Pointer(pTrigger)).FzName)
Xsqlite3DbFree(tls, db, (*Trigger)(unsafe.Pointer(pTrigger)).Ftable)
Xsqlite3ExprDelete(tls, db, (*Trigger)(unsafe.Pointer(pTrigger)).FpWhen)
Xsqlite3IdListDelete(tls, db, (*Trigger)(unsafe.Pointer(pTrigger)).FpColumns)
Xsqlite3DbFree(tls, db, pTrigger)
}
// This function is called to drop a trigger from the database schema.
//
// This may be called directly from the parser and therefore identifies
// the trigger by name. The sqlite3DropTriggerPtr() routine does the
// same job as this routine except it takes a pointer to the trigger
// instead of the trigger name.
func Xsqlite3DropTrigger(tls *libc.TLS, pParse uintptr, pName uintptr, noErr int32) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pTrigger uintptr
var i int32
var zDb uintptr
var zName uintptr
var db uintptr
var j int32
pTrigger = uintptr(0)
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __1
}
goto drop_trigger_cleanup
__1:
;
if !(SQLITE_OK != Xsqlite3ReadSchema(tls, pParse)) {
goto __2
}
goto drop_trigger_cleanup
__2:
;
zDb = (*SrcItem)(unsafe.Pointer(pName + 8)).FzDatabase
zName = (*SrcItem)(unsafe.Pointer(pName + 8)).FzName
i = OMIT_TEMPDB
__3:
if !(i < (*Sqlite3)(unsafe.Pointer(db)).FnDb) {
goto __5
}
if i < 2 {
j = i ^ 1
} else {
j = i
}
if !(zDb != 0 && Xsqlite3DbIsNamed(tls, db, j, zDb) == 0) {
goto __6
}
goto __4
__6:
;
pTrigger = Xsqlite3HashFind(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(j)*32)).FpSchema+56, zName)
if !(pTrigger != 0) {
goto __7
}
goto __5
__7:
;
goto __4
__4:
i++
goto __3
goto __5
__5:
;
if !!(pTrigger != 0) {
goto __8
}
if !!(noErr != 0) {
goto __9
}
Xsqlite3ErrorMsg(tls, pParse, ts+20742, libc.VaList(bp, pName+8))
goto __10
__9:
Xsqlite3CodeVerifyNamedSchema(tls, pParse, zDb)
__10:
;
(*Parse)(unsafe.Pointer(pParse)).FcheckSchema = U8(1)
goto drop_trigger_cleanup
__8:
;
Xsqlite3DropTriggerPtr(tls, pParse, pTrigger)
drop_trigger_cleanup:
Xsqlite3SrcListDelete(tls, db, pName)
}
func tableOfTrigger(tls *libc.TLS, pTrigger uintptr) uintptr {
return Xsqlite3HashFind(tls, (*Trigger)(unsafe.Pointer(pTrigger)).FpTabSchema+8, (*Trigger)(unsafe.Pointer(pTrigger)).Ftable)
}
// Drop a trigger given a pointer to that trigger.
func Xsqlite3DropTriggerPtr(tls *libc.TLS, pParse uintptr, pTrigger uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
var pTable uintptr
var v uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var iDb int32
iDb = Xsqlite3SchemaToIndex(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Trigger)(unsafe.Pointer(pTrigger)).FpSchema)
pTable = tableOfTrigger(tls, pTrigger)
if pTable != 0 {
var code int32 = SQLITE_DROP_TRIGGER
var zDb uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
var zTab uintptr = func() uintptr {
if !(0 != 0) && iDb == 1 {
return ts + 6792
}
return ts + 6286
}()
if iDb == 1 {
code = SQLITE_DROP_TEMP_TRIGGER
}
if Xsqlite3AuthCheck(tls, pParse, code, (*Trigger)(unsafe.Pointer(pTrigger)).FzName, (*Table)(unsafe.Pointer(pTable)).FzName, zDb) != 0 || Xsqlite3AuthCheck(tls, pParse, SQLITE_DELETE, zTab, uintptr(0), zDb) != 0 {
return
}
}
if libc.AssignUintptr(&v, Xsqlite3GetVdbe(tls, pParse)) != uintptr(0) {
Xsqlite3NestedParse(tls, pParse,
ts+20762,
libc.VaList(bp, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName, (*Trigger)(unsafe.Pointer(pTrigger)).FzName))
Xsqlite3ChangeCookie(tls, pParse, iDb)
Xsqlite3VdbeAddOp4(tls, v, OP_DropTrigger, iDb, 0, 0, (*Trigger)(unsafe.Pointer(pTrigger)).FzName, 0)
}
}
// Remove a trigger from the hash tables of the sqlite* pointer.
func Xsqlite3UnlinkAndDeleteTrigger(tls *libc.TLS, db uintptr, iDb int32, zName uintptr) {
var pTrigger uintptr
var pHash uintptr
pHash = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpSchema + 56
pTrigger = Xsqlite3HashInsert(tls, pHash, zName, uintptr(0))
if pTrigger != 0 {
if (*Trigger)(unsafe.Pointer(pTrigger)).FpSchema == (*Trigger)(unsafe.Pointer(pTrigger)).FpTabSchema {
var pTab uintptr = tableOfTrigger(tls, pTrigger)
if pTab != 0 {
var pp uintptr
for pp = pTab + 88; *(*uintptr)(unsafe.Pointer(pp)) != 0; pp = *(*uintptr)(unsafe.Pointer(pp)) + 64 {
if *(*uintptr)(unsafe.Pointer(pp)) == pTrigger {
*(*uintptr)(unsafe.Pointer(pp)) = (*Trigger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).FpNext
break
}
}
}
}
Xsqlite3DeleteTrigger(tls, db, pTrigger)
*(*U32)(unsafe.Pointer(db + 44)) |= U32(DBFLAG_SchemaChange)
}
}
func checkColumnOverlap(tls *libc.TLS, pIdList uintptr, pEList uintptr) int32 {
var e int32
if pIdList == uintptr(0) || pEList == uintptr(0) {
return 1
}
for e = 0; e < (*ExprList)(unsafe.Pointer(pEList)).FnExpr; e++ {
if Xsqlite3IdListIndex(tls, pIdList, (*ExprList_item)(unsafe.Pointer(pEList+8+uintptr(e)*32)).FzEName) >= 0 {
return 1
}
}
return 0
}
func tempTriggersExist(tls *libc.TLS, db uintptr) int32 {
if (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema == uintptr(0) {
return 0
}
if (*Hash)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema+56)).Ffirst == uintptr(0) {
return 0
}
return 1
}
func triggersReallyExist(tls *libc.TLS, pParse uintptr, pTab uintptr, op int32, pChanges uintptr, pMask uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var mask int32
var pList uintptr
var p uintptr
mask = 0
pList = uintptr(0)
pList = Xsqlite3TriggerList(tls, pParse, pTab)
if !(pList != uintptr(0)) {
goto __1
}
p = pList
if !((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Fflags&uint64(SQLITE_EnableTrigger) == uint64(0) &&
(*Table)(unsafe.Pointer(pTab)).FpTrigger != uintptr(0)) {
goto __2
}
if !(pList == (*Table)(unsafe.Pointer(pTab)).FpTrigger) {
goto __3
}
pList = uintptr(0)
goto exit_triggers_exist
__3:
;
__4:
if !((*Trigger)(unsafe.Pointer(p)).FpNext != 0 && (*Trigger)(unsafe.Pointer(p)).FpNext != (*Table)(unsafe.Pointer(pTab)).FpTrigger) {
goto __5
}
p = (*Trigger)(unsafe.Pointer(p)).FpNext
goto __4
__5:
;
(*Trigger)(unsafe.Pointer(p)).FpNext = uintptr(0)
p = pList
__2:
;
__6:
if !(int32((*Trigger)(unsafe.Pointer(p)).Fop) == op && checkColumnOverlap(tls, (*Trigger)(unsafe.Pointer(p)).FpColumns, pChanges) != 0) {
goto __9
}
mask = mask | int32((*Trigger)(unsafe.Pointer(p)).Ftr_tm)
goto __10
__9:
if !(int32((*Trigger)(unsafe.Pointer(p)).Fop) == TK_RETURNING) {
goto __11
}
(*Trigger)(unsafe.Pointer(p)).Fop = U8(op)
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __13
}
if !(op != TK_INSERT) {
goto __15
}
Xsqlite3ErrorMsg(tls, pParse,
ts+20824,
libc.VaList(bp, func() uintptr {
if op == TK_DELETE {
return ts + 20872
}
return ts + 20879
}()))
__15:
;
(*Trigger)(unsafe.Pointer(p)).Ftr_tm = U8(TRIGGER_BEFORE)
goto __14
__13:
(*Trigger)(unsafe.Pointer(p)).Ftr_tm = U8(TRIGGER_AFTER)
__14:
;
mask = mask | int32((*Trigger)(unsafe.Pointer(p)).Ftr_tm)
goto __12
__11:
if !((*Trigger)(unsafe.Pointer(p)).FbReturning != 0 && int32((*Trigger)(unsafe.Pointer(p)).Fop) == TK_INSERT && op == TK_UPDATE &&
(*Parse)(unsafe.Pointer(pParse)).FpToplevel == uintptr(0)) {
goto __16
}
mask = mask | int32((*Trigger)(unsafe.Pointer(p)).Ftr_tm)
__16:
;
__12:
;
__10:
;
p = (*Trigger)(unsafe.Pointer(p)).FpNext
goto __7
__7:
if p != 0 {
goto __6
}
goto __8
__8:
;
__1:
;
exit_triggers_exist:
if !(pMask != 0) {
goto __17
}
*(*int32)(unsafe.Pointer(pMask)) = mask
__17:
;
return func() uintptr {
if mask != 0 {
return pList
}
return uintptr(0)
}()
}
func Xsqlite3TriggersExist(tls *libc.TLS, pParse uintptr, pTab uintptr, op int32, pChanges uintptr, pMask uintptr) uintptr {
if (*Table)(unsafe.Pointer(pTab)).FpTrigger == uintptr(0) && !(tempTriggersExist(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb) != 0) ||
(*Parse)(unsafe.Pointer(pParse)).FdisableTriggers != 0 {
if pMask != 0 {
*(*int32)(unsafe.Pointer(pMask)) = 0
}
return uintptr(0)
}
return triggersReallyExist(tls, pParse, pTab, op, pChanges, pMask)
}
// Convert the pStep->zTarget string into a SrcList and return a pointer
// to that SrcList.
//
// This routine adds a specific database name, if needed, to the target when
// forming the SrcList. This prevents a trigger in one database from
// referring to a target in another database. An exception is when the
// trigger is in TEMP in which case it can refer to any other database it
// wants.
func Xsqlite3TriggerStepSrc(tls *libc.TLS, pParse uintptr, pStep uintptr) uintptr {
bp := tls.Alloc(16)
defer tls.Free(16)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pSrc uintptr
var zName uintptr = Xsqlite3DbStrDup(tls, db, (*TriggerStep)(unsafe.Pointer(pStep)).FzTarget)
pSrc = Xsqlite3SrcListAppend(tls, pParse, uintptr(0), uintptr(0), uintptr(0))
if pSrc != 0 {
var pSchema uintptr = (*Trigger)(unsafe.Pointer((*TriggerStep)(unsafe.Pointer(pStep)).FpTrig)).FpSchema
(*SrcItem)(unsafe.Pointer(pSrc + 8)).FzName = zName
if pSchema != (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema {
(*SrcItem)(unsafe.Pointer(pSrc + 8)).FpSchema = pSchema
}
if (*TriggerStep)(unsafe.Pointer(pStep)).FpFrom != 0 {
var pDup uintptr = Xsqlite3SrcListDup(tls, db, (*TriggerStep)(unsafe.Pointer(pStep)).FpFrom, 0)
if pDup != 0 && (*SrcList)(unsafe.Pointer(pDup)).FnSrc > 1 && !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
var pSubquery uintptr
pSubquery = Xsqlite3SelectNew(tls, pParse, uintptr(0), pDup, uintptr(0), uintptr(0), uintptr(0), uintptr(0), uint32(SF_NestedFrom), uintptr(0))
(*Token)(unsafe.Pointer(bp)).Fn = uint32(0)
(*Token)(unsafe.Pointer(bp)).Fz = uintptr(0)
pDup = Xsqlite3SrcListAppendFromTerm(tls, pParse, uintptr(0), uintptr(0), uintptr(0), bp, pSubquery, uintptr(0))
}
pSrc = Xsqlite3SrcListAppendList(tls, pParse, pSrc, pDup)
}
} else {
Xsqlite3DbFree(tls, db, zName)
}
return pSrc
}
func isAsteriskTerm(tls *libc.TLS, pParse uintptr, pTerm uintptr) int32 {
if int32((*Expr)(unsafe.Pointer(pTerm)).Fop) == TK_ASTERISK {
return 1
}
if int32((*Expr)(unsafe.Pointer(pTerm)).Fop) != TK_DOT {
return 0
}
if int32((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pTerm)).FpRight)).Fop) != TK_ASTERISK {
return 0
}
Xsqlite3ErrorMsg(tls, pParse, ts+20886, 0)
return 1
}
func sqlite3ExpandReturning(tls *libc.TLS, pParse uintptr, pList uintptr, pTab uintptr) uintptr {
var pNew uintptr = uintptr(0)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var i int32
for i = 0; i < (*ExprList)(unsafe.Pointer(pList)).FnExpr; i++ {
var pOldExpr uintptr = (*ExprList_item)(unsafe.Pointer(pList + 8 + uintptr(i)*32)).FpExpr
if pOldExpr == uintptr(0) {
continue
}
if isAsteriskTerm(tls, pParse, pOldExpr) != 0 {
var jj int32
for jj = 0; jj < int32((*Table)(unsafe.Pointer(pTab)).FnCol); jj++ {
var pNewExpr uintptr
if int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(jj)*24)).FcolFlags)&COLFLAG_HIDDEN != 0 {
continue
}
pNewExpr = Xsqlite3Expr(tls, db, TK_ID, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(jj)*24)).FzCnName)
pNew = Xsqlite3ExprListAppend(tls, pParse, pNew, pNewExpr)
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
var pItem uintptr = pNew + 8 + uintptr((*ExprList)(unsafe.Pointer(pNew)).FnExpr-1)*32
(*ExprList_item)(unsafe.Pointer(pItem)).FzEName = Xsqlite3DbStrDup(tls, db, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(jj)*24)).FzCnName)
libc.SetBitFieldPtr16Uint32(pItem+16+4, uint32(ENAME_NAME), 0, 0x3)
}
}
} else {
var pNewExpr uintptr = Xsqlite3ExprDup(tls, db, pOldExpr, 0)
pNew = Xsqlite3ExprListAppend(tls, pParse, pNew, pNewExpr)
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) && (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(i)*32)).FzEName != uintptr(0) {
var pItem uintptr = pNew + 8 + uintptr((*ExprList)(unsafe.Pointer(pNew)).FnExpr-1)*32
(*ExprList_item)(unsafe.Pointer(pItem)).FzEName = Xsqlite3DbStrDup(tls, db, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(i)*32)).FzEName)
libc.SetBitFieldPtr16Uint32(pItem+16+4, uint32(int32(*(*uint16)(unsafe.Pointer(pList + 8 + uintptr(i)*32 + 16 + 4))&0x3>>0)), 0, 0x3)
}
}
}
return pNew
}
func codeReturningTrigger(tls *libc.TLS, pParse uintptr, pTrigger uintptr, pTab uintptr, regIn int32) {
bp := tls.Alloc(296)
defer tls.Free(296)
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pNew uintptr
var pReturning uintptr
pReturning = *(*uintptr)(unsafe.Pointer(pParse + 200))
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Select{})), libc.X__builtin_object_size(tls, bp, 0))
libc.X__builtin___memset_chk(tls, bp+128, 0, uint64(unsafe.Sizeof(SrcList{})), libc.X__builtin_object_size(tls, bp+128, 0))
(*Select)(unsafe.Pointer(bp)).FpEList = Xsqlite3ExprListDup(tls, db, (*Returning)(unsafe.Pointer(pReturning)).FpReturnEL, 0)
(*Select)(unsafe.Pointer(bp)).FpSrc = bp + 128
(*SrcList)(unsafe.Pointer(bp + 128)).FnSrc = 1
(*SrcItem)(unsafe.Pointer(bp + 128 + 8)).FpTab = pTab
(*SrcItem)(unsafe.Pointer(bp + 128 + 8)).FiCursor = -1
Xsqlite3SelectPrep(tls, pParse, bp, uintptr(0))
if (*Parse)(unsafe.Pointer(pParse)).FnErr == 0 {
Xsqlite3GenerateColumnNames(tls, pParse, bp)
}
Xsqlite3ExprListDelete(tls, db, (*Select)(unsafe.Pointer(bp)).FpEList)
pNew = sqlite3ExpandReturning(tls, pParse, (*Returning)(unsafe.Pointer(pReturning)).FpReturnEL, pTab)
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
libc.X__builtin___memset_chk(tls, bp+240, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp+240, 0))
if (*Returning)(unsafe.Pointer(pReturning)).FnRetCol == 0 {
(*Returning)(unsafe.Pointer(pReturning)).FnRetCol = (*ExprList)(unsafe.Pointer(pNew)).FnExpr
(*Returning)(unsafe.Pointer(pReturning)).FiRetCur = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
}
(*NameContext)(unsafe.Pointer(bp + 240)).FpParse = pParse
*(*int32)(unsafe.Pointer(bp + 240 + 16)) = regIn
(*NameContext)(unsafe.Pointer(bp + 240)).FncFlags = NC_UBaseReg
(*Parse)(unsafe.Pointer(pParse)).FeTriggerOp = (*Trigger)(unsafe.Pointer(pTrigger)).Fop
(*Parse)(unsafe.Pointer(pParse)).FpTriggerTab = pTab
if Xsqlite3ResolveExprListNames(tls, bp+240, pNew) == SQLITE_OK &&
!(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
var i int32
var nCol int32 = (*ExprList)(unsafe.Pointer(pNew)).FnExpr
var reg int32 = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nCol + 2
(*Returning)(unsafe.Pointer(pReturning)).FiRetReg = reg
for i = 0; i < nCol; i++ {
var pCol uintptr = (*ExprList_item)(unsafe.Pointer(pNew + 8 + uintptr(i)*32)).FpExpr
Xsqlite3ExprCodeFactorable(tls, pParse, pCol, reg+i)
if int32(Xsqlite3ExprAffinity(tls, pCol)) == SQLITE_AFF_REAL {
Xsqlite3VdbeAddOp1(tls, v, OP_RealAffinity, reg+i)
}
}
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, reg, i, reg+i)
Xsqlite3VdbeAddOp2(tls, v, OP_NewRowid, (*Returning)(unsafe.Pointer(pReturning)).FiRetCur, reg+i+1)
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, (*Returning)(unsafe.Pointer(pReturning)).FiRetCur, reg+i, reg+i+1)
}
}
Xsqlite3ExprListDelete(tls, db, pNew)
(*Parse)(unsafe.Pointer(pParse)).FeTriggerOp = U8(0)
(*Parse)(unsafe.Pointer(pParse)).FpTriggerTab = uintptr(0)
}
func codeTriggerProgram(tls *libc.TLS, pParse uintptr, pStepList uintptr, orconf int32) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
var pStep uintptr
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
for pStep = pStepList; pStep != 0; pStep = (*TriggerStep)(unsafe.Pointer(pStep)).FpNext {
(*Parse)(unsafe.Pointer(pParse)).FeOrconf = func() uint8 {
if orconf == OE_Default {
return (*TriggerStep)(unsafe.Pointer(pStep)).Forconf
}
return U8(orconf)
}()
if (*TriggerStep)(unsafe.Pointer(pStep)).FzSpan != 0 {
Xsqlite3VdbeAddOp4(tls, v, OP_Trace, 0x7fffffff, 1, 0,
Xsqlite3MPrintf(tls, db, ts+6483, libc.VaList(bp, (*TriggerStep)(unsafe.Pointer(pStep)).FzSpan)),
-6)
}
switch int32((*TriggerStep)(unsafe.Pointer(pStep)).Fop) {
case TK_UPDATE:
{
Xsqlite3Update(tls, pParse,
Xsqlite3TriggerStepSrc(tls, pParse, pStep),
Xsqlite3ExprListDup(tls, db, (*TriggerStep)(unsafe.Pointer(pStep)).FpExprList, 0),
Xsqlite3ExprDup(tls, db, (*TriggerStep)(unsafe.Pointer(pStep)).FpWhere, 0),
int32((*Parse)(unsafe.Pointer(pParse)).FeOrconf), uintptr(0), uintptr(0), uintptr(0))
Xsqlite3VdbeAddOp0(tls, v, OP_ResetCount)
break
}
case TK_INSERT:
{
Xsqlite3Insert(tls, pParse,
Xsqlite3TriggerStepSrc(tls, pParse, pStep),
Xsqlite3SelectDup(tls, db, (*TriggerStep)(unsafe.Pointer(pStep)).FpSelect, 0),
Xsqlite3IdListDup(tls, db, (*TriggerStep)(unsafe.Pointer(pStep)).FpIdList),
int32((*Parse)(unsafe.Pointer(pParse)).FeOrconf),
Xsqlite3UpsertDup(tls, db, (*TriggerStep)(unsafe.Pointer(pStep)).FpUpsert))
Xsqlite3VdbeAddOp0(tls, v, OP_ResetCount)
break
}
case TK_DELETE:
{
Xsqlite3DeleteFrom(tls, pParse,
Xsqlite3TriggerStepSrc(tls, pParse, pStep),
Xsqlite3ExprDup(tls, db, (*TriggerStep)(unsafe.Pointer(pStep)).FpWhere, 0), uintptr(0), uintptr(0))
Xsqlite3VdbeAddOp0(tls, v, OP_ResetCount)
break
}
default:
{
var pSelect uintptr = Xsqlite3SelectDup(tls, db, (*TriggerStep)(unsafe.Pointer(pStep)).FpSelect, 0)
Xsqlite3SelectDestInit(tls, bp+8, SRT_Discard, 0)
Xsqlite3Select(tls, pParse, pSelect, bp+8)
Xsqlite3SelectDelete(tls, db, pSelect)
break
}
}
}
return 0
}
func transferParseError(tls *libc.TLS, pTo uintptr, pFrom uintptr) {
if (*Parse)(unsafe.Pointer(pTo)).FnErr == 0 {
(*Parse)(unsafe.Pointer(pTo)).FzErrMsg = (*Parse)(unsafe.Pointer(pFrom)).FzErrMsg
(*Parse)(unsafe.Pointer(pTo)).FnErr = (*Parse)(unsafe.Pointer(pFrom)).FnErr
(*Parse)(unsafe.Pointer(pTo)).Frc = (*Parse)(unsafe.Pointer(pFrom)).Frc
} else {
Xsqlite3DbFree(tls, (*Parse)(unsafe.Pointer(pFrom)).Fdb, (*Parse)(unsafe.Pointer(pFrom)).FzErrMsg)
}
}
func codeRowTrigger(tls *libc.TLS, pParse uintptr, pTrigger uintptr, pTab uintptr, orconf int32) uintptr {
bp := tls.Alloc(488)
defer tls.Free(488)
var pTop uintptr = func() uintptr {
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel != 0 {
return (*Parse)(unsafe.Pointer(pParse)).FpToplevel
}
return pParse
}()
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pPrg uintptr
var pWhen uintptr = uintptr(0)
var v uintptr
var pProgram uintptr = uintptr(0)
var iEndTrigger int32 = 0
pPrg = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(TriggerPrg{})))
if !(pPrg != 0) {
return uintptr(0)
}
(*TriggerPrg)(unsafe.Pointer(pPrg)).FpNext = (*Parse)(unsafe.Pointer(pTop)).FpTriggerPrg
(*Parse)(unsafe.Pointer(pTop)).FpTriggerPrg = pPrg
(*TriggerPrg)(unsafe.Pointer(pPrg)).FpProgram = libc.AssignUintptr(&pProgram, Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(SubProgram{}))))
if !(pProgram != 0) {
return uintptr(0)
}
Xsqlite3VdbeLinkSubProgram(tls, (*Parse)(unsafe.Pointer(pTop)).FpVdbe, pProgram)
(*TriggerPrg)(unsafe.Pointer(pPrg)).FpTrigger = pTrigger
(*TriggerPrg)(unsafe.Pointer(pPrg)).Forconf = orconf
*(*U32)(unsafe.Pointer(pPrg + 28)) = 0xffffffff
*(*U32)(unsafe.Pointer(pPrg + 28 + 1*4)) = 0xffffffff
Xsqlite3ParseObjectInit(tls, bp+8, db)
libc.X__builtin___memset_chk(tls, bp+432, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp+432, 0))
(*NameContext)(unsafe.Pointer(bp + 432)).FpParse = bp + 8
(*Parse)(unsafe.Pointer(bp + 8)).FpTriggerTab = pTab
(*Parse)(unsafe.Pointer(bp + 8)).FpToplevel = pTop
(*Parse)(unsafe.Pointer(bp + 8)).FzAuthContext = (*Trigger)(unsafe.Pointer(pTrigger)).FzName
(*Parse)(unsafe.Pointer(bp + 8)).FeTriggerOp = (*Trigger)(unsafe.Pointer(pTrigger)).Fop
(*Parse)(unsafe.Pointer(bp + 8)).FnQueryLoop = (*Parse)(unsafe.Pointer(pParse)).FnQueryLoop
(*Parse)(unsafe.Pointer(bp + 8)).FprepFlags = (*Parse)(unsafe.Pointer(pParse)).FprepFlags
v = Xsqlite3GetVdbe(tls, bp+8)
if v != 0 {
if (*Trigger)(unsafe.Pointer(pTrigger)).FzName != 0 {
Xsqlite3VdbeChangeP4(tls, v, -1,
Xsqlite3MPrintf(tls, db, ts+20928, libc.VaList(bp, (*Trigger)(unsafe.Pointer(pTrigger)).FzName)), -6)
}
if (*Trigger)(unsafe.Pointer(pTrigger)).FpWhen != 0 {
pWhen = Xsqlite3ExprDup(tls, db, (*Trigger)(unsafe.Pointer(pTrigger)).FpWhen, 0)
if int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0 &&
SQLITE_OK == Xsqlite3ResolveExprNames(tls, bp+432, pWhen) {
iEndTrigger = Xsqlite3VdbeMakeLabel(tls, bp+8)
Xsqlite3ExprIfFalse(tls, bp+8, pWhen, iEndTrigger, SQLITE_JUMPIFNULL)
}
Xsqlite3ExprDelete(tls, db, pWhen)
}
codeTriggerProgram(tls, bp+8, (*Trigger)(unsafe.Pointer(pTrigger)).Fstep_list, orconf)
if iEndTrigger != 0 {
Xsqlite3VdbeResolveLabel(tls, v, iEndTrigger)
}
Xsqlite3VdbeAddOp0(tls, v, OP_Halt)
transferParseError(tls, pParse, bp+8)
if (*Parse)(unsafe.Pointer(pParse)).FnErr == 0 {
(*SubProgram)(unsafe.Pointer(pProgram)).FaOp = Xsqlite3VdbeTakeOpArray(tls, v, pProgram+8, pTop+136)
}
(*SubProgram)(unsafe.Pointer(pProgram)).FnMem = (*Parse)(unsafe.Pointer(bp + 8)).FnMem
(*SubProgram)(unsafe.Pointer(pProgram)).FnCsr = (*Parse)(unsafe.Pointer(bp + 8)).FnTab
(*SubProgram)(unsafe.Pointer(pProgram)).Ftoken = pTrigger
*(*U32)(unsafe.Pointer(pPrg + 28)) = (*Parse)(unsafe.Pointer(bp + 8)).Foldmask
*(*U32)(unsafe.Pointer(pPrg + 28 + 1*4)) = (*Parse)(unsafe.Pointer(bp + 8)).Fnewmask
Xsqlite3VdbeDelete(tls, v)
} else {
transferParseError(tls, pParse, bp+8)
}
Xsqlite3ParseObjectReset(tls, bp+8)
return pPrg
}
func getRowTrigger(tls *libc.TLS, pParse uintptr, pTrigger uintptr, pTab uintptr, orconf int32) uintptr {
var pRoot uintptr = func() uintptr {
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel != 0 {
return (*Parse)(unsafe.Pointer(pParse)).FpToplevel
}
return pParse
}()
var pPrg uintptr
for pPrg = (*Parse)(unsafe.Pointer(pRoot)).FpTriggerPrg; pPrg != 0 && ((*TriggerPrg)(unsafe.Pointer(pPrg)).FpTrigger != pTrigger || (*TriggerPrg)(unsafe.Pointer(pPrg)).Forconf != orconf); pPrg = (*TriggerPrg)(unsafe.Pointer(pPrg)).FpNext {
}
if !(pPrg != 0) {
pPrg = codeRowTrigger(tls, pParse, pTrigger, pTab, orconf)
(*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FerrByteOffset = -1
}
return pPrg
}
// Generate code for the trigger program associated with trigger p on
// table pTab. The reg, orconf and ignoreJump parameters passed to this
// function are the same as those described in the header function for
// sqlite3CodeRowTrigger()
func Xsqlite3CodeRowTriggerDirect(tls *libc.TLS, pParse uintptr, p uintptr, pTab uintptr, reg int32, orconf int32, ignoreJump int32) {
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
var pPrg uintptr
pPrg = getRowTrigger(tls, pParse, p, pTab, orconf)
if pPrg != 0 {
var bRecursive int32 = libc.Bool32((*Trigger)(unsafe.Pointer(p)).FzName != 0 && uint64(0) == (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Fflags&uint64(SQLITE_RecTriggers))
Xsqlite3VdbeAddOp4(tls, v, OP_Program, reg, ignoreJump, libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1),
(*TriggerPrg)(unsafe.Pointer(pPrg)).FpProgram, -4)
Xsqlite3VdbeChangeP5(tls, v, uint16(U8(bRecursive)))
}
}
// This is called to code the required FOR EACH ROW triggers for an operation
// on table pTab. The operation to code triggers for (INSERT, UPDATE or DELETE)
// is given by the op parameter. The tr_tm parameter determines whether the
// BEFORE or AFTER triggers are coded. If the operation is an UPDATE, then
// parameter pChanges is passed the list of columns being modified.
//
// If there are no triggers that fire at the specified time for the specified
// operation on pTab, this function is a no-op.
//
// The reg argument is the address of the first in an array of registers
// that contain the values substituted for the new.* and old.* references
// in the trigger program. If N is the number of columns in table pTab
// (a copy of pTab->nCol), then registers are populated as follows:
//
// Register Contains
// ------------------------------------------------------
// reg+0 OLD.rowid
// reg+1 OLD.* value of left-most column of pTab
// ... ...
// reg+N OLD.* value of right-most column of pTab
// reg+N+1 NEW.rowid
// reg+N+2 NEW.* value of left-most column of pTab
// ... ...
// reg+N+N+1 NEW.* value of right-most column of pTab
//
// For ON DELETE triggers, the registers containing the NEW.* values will
// never be accessed by the trigger program, so they are not allocated or
// populated by the caller (there is no data to populate them with anyway).
// Similarly, for ON INSERT triggers the values stored in the OLD.* registers
// are never accessed, and so are not allocated by the caller. So, for an
// ON INSERT trigger, the value passed to this function as parameter reg
// is not a readable register, although registers (reg+N) through
// (reg+N+N+1) are.
//
// Parameter orconf is the default conflict resolution algorithm for the
// trigger program to use (REPLACE, IGNORE etc.). Parameter ignoreJump
// is the instruction that control should jump to if a trigger program
// raises an IGNORE exception.
func Xsqlite3CodeRowTrigger(tls *libc.TLS, pParse uintptr, pTrigger uintptr, op int32, pChanges uintptr, tr_tm int32, pTab uintptr, reg int32, orconf int32, ignoreJump int32) {
var p uintptr
for p = pTrigger; p != 0; p = (*Trigger)(unsafe.Pointer(p)).FpNext {
if (int32((*Trigger)(unsafe.Pointer(p)).Fop) == op || (*Trigger)(unsafe.Pointer(p)).FbReturning != 0 && int32((*Trigger)(unsafe.Pointer(p)).Fop) == TK_INSERT && op == TK_UPDATE) &&
int32((*Trigger)(unsafe.Pointer(p)).Ftr_tm) == tr_tm &&
checkColumnOverlap(tls, (*Trigger)(unsafe.Pointer(p)).FpColumns, pChanges) != 0 {
if !(int32((*Trigger)(unsafe.Pointer(p)).FbReturning) != 0) {
Xsqlite3CodeRowTriggerDirect(tls, pParse, p, pTab, reg, orconf, ignoreJump)
} else if (*Parse)(unsafe.Pointer(pParse)).FpToplevel == uintptr(0) {
codeReturningTrigger(tls, pParse, p, pTab, reg)
}
}
}
}
// Triggers may access values stored in the old.* or new.* pseudo-table.
// This function returns a 32-bit bitmask indicating which columns of the
// old.* or new.* tables actually are used by triggers. This information
// may be used by the caller, for example, to avoid having to load the entire
// old.* record into memory when executing an UPDATE or DELETE command.
//
// Bit 0 of the returned mask is set if the left-most column of the
// table may be accessed using an [old|new].<col> reference. Bit 1 is set if
// the second leftmost column value is required, and so on. If there
// are more than 32 columns in the table, and at least one of the columns
// with an index greater than 32 may be accessed, 0xffffffff is returned.
//
// It is not possible to determine if the old.rowid or new.rowid column is
// accessed by triggers. The caller must always assume that it is.
//
// Parameter isNew must be either 1 or 0. If it is 0, then the mask returned
// applies to the old.* table. If 1, the new.* table.
//
// Parameter tr_tm must be a mask with one or both of the TRIGGER_BEFORE
// and TRIGGER_AFTER bits set. Values accessed by BEFORE triggers are only
// included in the returned mask if the TRIGGER_BEFORE bit is set in the
// tr_tm parameter. Similarly, values accessed by AFTER triggers are only
// included in the returned mask if the TRIGGER_AFTER bit is set in tr_tm.
func Xsqlite3TriggerColmask(tls *libc.TLS, pParse uintptr, pTrigger uintptr, pChanges uintptr, isNew int32, tr_tm int32, pTab uintptr, orconf int32) U32 {
var op int32
if pChanges != 0 {
op = TK_UPDATE
} else {
op = TK_DELETE
}
var mask U32 = U32(0)
var p uintptr
for p = pTrigger; p != 0; p = (*Trigger)(unsafe.Pointer(p)).FpNext {
if int32((*Trigger)(unsafe.Pointer(p)).Fop) == op &&
tr_tm&int32((*Trigger)(unsafe.Pointer(p)).Ftr_tm) != 0 &&
checkColumnOverlap(tls, (*Trigger)(unsafe.Pointer(p)).FpColumns, pChanges) != 0 {
if (*Trigger)(unsafe.Pointer(p)).FbReturning != 0 {
mask = 0xffffffff
} else {
var pPrg uintptr
pPrg = getRowTrigger(tls, pParse, p, pTab, orconf)
if pPrg != 0 {
mask = mask | *(*U32)(unsafe.Pointer(pPrg + 28 + uintptr(isNew)*4))
}
}
}
}
return mask
}
// The most recently coded instruction was an OP_Column to retrieve the
// i-th column of table pTab. This routine sets the P4 parameter of the
// OP_Column to the default value, if any.
//
// The default value of a column is specified by a DEFAULT clause in the
// column definition. This was either supplied by the user when the table
// was created, or added later to the table definition by an ALTER TABLE
// command. If the latter, then the row-records in the table btree on disk
// may not contain a value for the column and the default value, taken
// from the P4 parameter of the OP_Column instruction, is returned instead.
// If the former, then all row-records are guaranteed to include a value
// for the column and the P4 value is not required.
//
// Column definitions created by an ALTER TABLE command may only have
// literal default values specified: a number, null or a string. (If a more
// complicated default expression value was provided, it is evaluated
// when the ALTER TABLE is executed and one of the literal values written
// into the sqlite_schema table.)
//
// Therefore, the P4 parameter is only required if the default value for
// the column is a literal number, string or null. The sqlite3ValueFromExpr()
// function is capable of transforming these types of expressions into
// sqlite3_value objects.
//
// If column as REAL affinity and the table is an ordinary b-tree table
// (not a virtual table) then the value might have been stored as an
// integer. In that case, add an OP_RealAffinity opcode to make sure
// it has been converted into REAL.
func Xsqlite3ColumnDefault(tls *libc.TLS, v uintptr, pTab uintptr, i int32, iReg int32) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pCol uintptr
pCol = (*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(i)*24
if (*Column)(unsafe.Pointer(pCol)).FiDflt != 0 {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var enc U8 = (*Sqlite3)(unsafe.Pointer(Xsqlite3VdbeDb(tls, v))).Fenc
Xsqlite3ValueFromExpr(tls, Xsqlite3VdbeDb(tls, v),
Xsqlite3ColumnExpr(tls, pTab, pCol), enc,
uint8((*Column)(unsafe.Pointer(pCol)).Faffinity), bp)
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
Xsqlite3VdbeAppendP4(tls, v, *(*uintptr)(unsafe.Pointer(bp)), -10)
}
}
if int32((*Column)(unsafe.Pointer(pCol)).Faffinity) == SQLITE_AFF_REAL && !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
Xsqlite3VdbeAddOp1(tls, v, OP_RealAffinity, iReg)
}
}
func indexColumnIsBeingUpdated(tls *libc.TLS, pIdx uintptr, iCol int32, aXRef uintptr, chngRowid int32) int32 {
var iIdxCol I16 = *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(iCol)*2))
if int32(iIdxCol) >= 0 {
return libc.Bool32(*(*int32)(unsafe.Pointer(aXRef + uintptr(iIdxCol)*4)) >= 0)
}
return Xsqlite3ExprReferencesUpdatedColumn(tls, (*ExprList_item)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaColExpr+8+uintptr(iCol)*32)).FpExpr,
aXRef, chngRowid)
}
func indexWhereClauseMightChange(tls *libc.TLS, pIdx uintptr, aXRef uintptr, chngRowid int32) int32 {
if (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere == uintptr(0) {
return 0
}
return Xsqlite3ExprReferencesUpdatedColumn(tls, (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere,
aXRef, chngRowid)
}
func exprRowColumn(tls *libc.TLS, pParse uintptr, iCol int32) uintptr {
var pRet uintptr = Xsqlite3PExpr(tls, pParse, TK_ROW, uintptr(0), uintptr(0))
if pRet != 0 {
(*Expr)(unsafe.Pointer(pRet)).FiColumn = YnVar(iCol + 1)
}
return pRet
}
func updateFromSelect(tls *libc.TLS, pParse uintptr, iEph int32, pPk uintptr, pChanges uintptr, pTabList uintptr, pWhere uintptr, pOrderBy uintptr, pLimit uintptr) {
bp := tls.Alloc(40)
defer tls.Free(40)
var i int32
var pSelect uintptr = uintptr(0)
var pList uintptr = uintptr(0)
var pGrp uintptr = uintptr(0)
var pLimit2 uintptr = uintptr(0)
var pOrderBy2 uintptr = uintptr(0)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pTab uintptr = (*SrcItem)(unsafe.Pointer(pTabList + 8)).FpTab
var pSrc uintptr
var pWhere2 uintptr
var eDest int32
_ = pOrderBy
_ = pLimit
pSrc = Xsqlite3SrcListDup(tls, db, pTabList, 0)
pWhere2 = Xsqlite3ExprDup(tls, db, pWhere, 0)
if pSrc != 0 {
libc.SetBitFieldPtr16Uint32(pSrc+8+60+4, uint32(1), 9, 0x200)
(*SrcItem)(unsafe.Pointer(pSrc + 8)).FiCursor = -1
(*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pSrc+8)).FpTab)).FnTabRef--
(*SrcItem)(unsafe.Pointer(pSrc + 8)).FpTab = uintptr(0)
}
if pPk != 0 {
for i = 0; i < int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol); i++ {
var pNew uintptr = exprRowColumn(tls, pParse, int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(i)*2))))
pList = Xsqlite3ExprListAppend(tls, pParse, pList, pNew)
}
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB {
eDest = SRT_Table
} else {
eDest = SRT_Upfrom
}
} else if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW {
for i = 0; i < int32((*Table)(unsafe.Pointer(pTab)).FnCol); i++ {
pList = Xsqlite3ExprListAppend(tls, pParse, pList, exprRowColumn(tls, pParse, i))
}
eDest = SRT_Table
} else {
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB {
eDest = SRT_Table
} else {
eDest = SRT_Upfrom
}
pList = Xsqlite3ExprListAppend(tls, pParse, uintptr(0), Xsqlite3PExpr(tls, pParse, TK_ROW, uintptr(0), uintptr(0)))
}
if pChanges != 0 {
for i = 0; i < (*ExprList)(unsafe.Pointer(pChanges)).FnExpr; i++ {
pList = Xsqlite3ExprListAppend(tls, pParse, pList,
Xsqlite3ExprDup(tls, db, (*ExprList_item)(unsafe.Pointer(pChanges+8+uintptr(i)*32)).FpExpr, 0))
}
}
pSelect = Xsqlite3SelectNew(tls, pParse, pList,
pSrc, pWhere2, pGrp, uintptr(0), pOrderBy2,
uint32(SF_UFSrcCheck|SF_IncludeHidden|SF_UpdateFrom), pLimit2)
if pSelect != 0 {
*(*U32)(unsafe.Pointer(pSelect + 4)) |= U32(SF_OrderByReqd)
}
Xsqlite3SelectDestInit(tls, bp, eDest, iEph)
(*SelectDest)(unsafe.Pointer(bp)).FiSDParm2 = func() int32 {
if pPk != 0 {
return int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol)
}
return -1
}()
Xsqlite3Select(tls, pParse, pSelect, bp)
Xsqlite3SelectDelete(tls, db, pSelect)
}
// Process an UPDATE statement.
//
// UPDATE OR IGNORE tbl SET a=b, c=d FROM tbl2... WHERE e<5 AND f NOT NULL;
// \_______/ \_/ \______/ \_____/ \________________/
// onError | pChanges | pWhere
// \_______________________/
// pTabList
func Xsqlite3Update(tls *libc.TLS, pParse uintptr, pTabList uintptr, pChanges uintptr, pWhere uintptr, onError int32, pOrderBy uintptr, pLimit uintptr, pUpsert uintptr) {
bp := tls.Alloc(108)
defer tls.Free(108)
var i int32
var j int32
var k int32
var pTab uintptr
var addrTop int32
var pWInfo uintptr
var v uintptr
var pIdx uintptr
var pPk uintptr
var nIdx int32
var nAllIdx int32
var iBaseCur int32
var iDataCur int32
var iIdxCur int32
var db uintptr
var aRegIdx uintptr
var aXRef uintptr
var aToOpen uintptr
var chngPk U8
var chngRowid U8
var chngKey U8
var pRowidExpr uintptr
var iRowidExpr int32
var iDb int32
var eOnePass int32
var hasFK int32
var labelBreak int32
var labelContinue int32
var flags int32
var isView int32
var pTrigger uintptr
var newmask int32
var iEph int32
var nKey int32
var addrOpen int32
var iPk int32
var nPk I16
var bFinishSeek int32
var nChangeFrom int32
var regRowCount int32
var regOldRowid int32
var regNewRowid int32
var regNew int32
var regOld int32
var regRowSet int32
var regKey int32
var rc int32
var hCol U8
var bProgress int32
var reg int32
var pKeyInfo uintptr
var nEphCol int32
var iCur int32
var addrOnce int32
var colFlags U32
var oldmask U32
var nOff int32
addrTop = 0
pWInfo = uintptr(0)
aRegIdx = uintptr(0)
aXRef = uintptr(0)
pRowidExpr = uintptr(0)
iRowidExpr = -1
iEph = 0
nKey = 0
addrOpen = 0
iPk = 0
nPk = int16(0)
*(*int32)(unsafe.Pointer(bp + 104)) = 0
bFinishSeek = 1
nChangeFrom = 0
regRowCount = 0
regOldRowid = 0
regNewRowid = 0
regNew = 0
regOld = 0
regRowSet = 0
regKey = 0
libc.X__builtin___memset_chk(tls, bp+16, 0, uint64(unsafe.Sizeof(AuthContext{})), libc.X__builtin_object_size(tls, bp+16, 0))
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __1
}
goto update_cleanup
__1:
;
pTab = Xsqlite3SrcListLookup(tls, pParse, pTabList)
if !(pTab == uintptr(0)) {
goto __2
}
goto update_cleanup
__2:
;
iDb = Xsqlite3SchemaToIndex(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Table)(unsafe.Pointer(pTab)).FpSchema)
pTrigger = Xsqlite3TriggersExist(tls, pParse, pTab, TK_UPDATE, pChanges, bp+32)
isView = libc.Bool32(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW)
if (*SrcList)(unsafe.Pointer(pTabList)).FnSrc > 1 {
nChangeFrom = (*ExprList)(unsafe.Pointer(pChanges)).FnExpr
} else {
nChangeFrom = 0
}
if !(Xsqlite3ViewGetColumnNames(tls, pParse, pTab) != 0) {
goto __3
}
goto update_cleanup
__3:
;
if !(Xsqlite3IsReadOnly(tls, pParse, pTab, *(*int32)(unsafe.Pointer(bp + 32))) != 0) {
goto __4
}
goto update_cleanup
__4:
;
iBaseCur = libc.AssignInt32(&iDataCur, libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1))
iIdxCur = iDataCur + 1
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
pPk = uintptr(0)
} else {
pPk = Xsqlite3PrimaryKeyIndex(tls, pTab)
}
nIdx = 0
pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex
__5:
if !(pIdx != 0) {
goto __7
}
if !(pPk == pIdx) {
goto __8
}
iDataCur = (*Parse)(unsafe.Pointer(pParse)).FnTab
__8:
;
(*Parse)(unsafe.Pointer(pParse)).FnTab++
goto __6
__6:
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
nIdx++
goto __5
goto __7
__7:
;
if !(pUpsert != 0) {
goto __9
}
iDataCur = (*Upsert)(unsafe.Pointer(pUpsert)).FiDataCur
iIdxCur = (*Upsert)(unsafe.Pointer(pUpsert)).FiIdxCur
(*Parse)(unsafe.Pointer(pParse)).FnTab = iBaseCur
__9:
;
(*SrcItem)(unsafe.Pointer(pTabList + 8)).FiCursor = iDataCur
aXRef = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(int32(0)))*uint64(int32((*Table)(unsafe.Pointer(pTab)).FnCol)+nIdx+1)+uint64(nIdx)+uint64(2))
if !(aXRef == uintptr(0)) {
goto __10
}
goto update_cleanup
__10:
;
aRegIdx = aXRef + uintptr((*Table)(unsafe.Pointer(pTab)).FnCol)*4
aToOpen = aRegIdx + uintptr(nIdx)*4 + uintptr(1)*4
libc.X__builtin___memset_chk(tls, aToOpen, 1, uint64(nIdx+1), libc.X__builtin_object_size(tls, aToOpen, 0))
*(*U8)(unsafe.Pointer(aToOpen + uintptr(nIdx+1))) = U8(0)
i = 0
__11:
if !(i < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __13
}
*(*int32)(unsafe.Pointer(aXRef + uintptr(i)*4)) = -1
goto __12
__12:
i++
goto __11
goto __13
__13:
;
libc.X__builtin___memset_chk(tls, bp+40, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp+40, 0))
(*NameContext)(unsafe.Pointer(bp + 40)).FpParse = pParse
(*NameContext)(unsafe.Pointer(bp + 40)).FpSrcList = pTabList
*(*uintptr)(unsafe.Pointer(bp + 40 + 16)) = pUpsert
(*NameContext)(unsafe.Pointer(bp + 40)).FncFlags = NC_UUpsert
v = Xsqlite3GetVdbe(tls, pParse)
if !(v == uintptr(0)) {
goto __14
}
goto update_cleanup
__14:
;
chngRowid = libc.AssignUint8(&chngPk, U8(0))
i = 0
__15:
if !(i < (*ExprList)(unsafe.Pointer(pChanges)).FnExpr) {
goto __17
}
hCol = Xsqlite3StrIHash(tls, (*ExprList_item)(unsafe.Pointer(pChanges+8+uintptr(i)*32)).FzEName)
if !(nChangeFrom == 0 && Xsqlite3ResolveExprNames(tls, bp+40, (*ExprList_item)(unsafe.Pointer(pChanges+8+uintptr(i)*32)).FpExpr) != 0) {
goto __18
}
goto update_cleanup
__18:
;
j = 0
__19:
if !(j < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __21
}
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)).FhName) == int32(hCol) &&
Xsqlite3StrICmp(tls, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)).FzCnName, (*ExprList_item)(unsafe.Pointer(pChanges+8+uintptr(i)*32)).FzEName) == 0) {
goto __22
}
if !(j == int32((*Table)(unsafe.Pointer(pTab)).FiPKey)) {
goto __23
}
chngRowid = U8(1)
pRowidExpr = (*ExprList_item)(unsafe.Pointer(pChanges + 8 + uintptr(i)*32)).FpExpr
iRowidExpr = i
goto __24
__23:
if !(pPk != 0 && int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)).FcolFlags)&COLFLAG_PRIMKEY != 0) {
goto __25
}
chngPk = U8(1)
goto __26
__25:
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)).FcolFlags)&COLFLAG_GENERATED != 0) {
goto __27
}
Xsqlite3ErrorMsg(tls, pParse,
ts+20942,
libc.VaList(bp, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)).FzCnName))
goto update_cleanup
__27:
;
__26:
;
__24:
;
*(*int32)(unsafe.Pointer(aXRef + uintptr(j)*4)) = i
goto __21
__22:
;
goto __20
__20:
j++
goto __19
goto __21
__21:
;
if !(j >= int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __28
}
if !(pPk == uintptr(0) && Xsqlite3IsRowid(tls, (*ExprList_item)(unsafe.Pointer(pChanges+8+uintptr(i)*32)).FzEName) != 0) {
goto __29
}
j = -1
chngRowid = U8(1)
pRowidExpr = (*ExprList_item)(unsafe.Pointer(pChanges + 8 + uintptr(i)*32)).FpExpr
iRowidExpr = i
goto __30
__29:
Xsqlite3ErrorMsg(tls, pParse, ts+20978, libc.VaList(bp+8, (*ExprList_item)(unsafe.Pointer(pChanges+8+uintptr(i)*32)).FzEName))
(*Parse)(unsafe.Pointer(pParse)).FcheckSchema = U8(1)
goto update_cleanup
__30:
;
__28:
;
rc = Xsqlite3AuthCheck(tls, pParse, SQLITE_UPDATE, (*Table)(unsafe.Pointer(pTab)).FzName,
func() uintptr {
if j < 0 {
return ts + 8116
}
return (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(j)*24)).FzCnName
}(),
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName)
if !(rc == SQLITE_DENY) {
goto __31
}
goto update_cleanup
goto __32
__31:
if !(rc == SQLITE_IGNORE) {
goto __33
}
*(*int32)(unsafe.Pointer(aXRef + uintptr(j)*4)) = -1
__33:
;
__32:
;
goto __16
__16:
i++
goto __15
goto __17
__17:
;
chngKey = U8(int32(chngRowid) + int32(chngPk))
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasGenerated) != 0) {
goto __34
}
__35:
bProgress = 0
i = 0
__38:
if !(i < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __40
}
if !(*(*int32)(unsafe.Pointer(aXRef + uintptr(i)*4)) >= 0) {
goto __41
}
goto __39
__41:
;
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_GENERATED == 0) {
goto __42
}
goto __39
__42:
;
if !(Xsqlite3ExprReferencesUpdatedColumn(tls,
Xsqlite3ColumnExpr(tls, pTab, (*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24),
aXRef, int32(chngRowid)) != 0) {
goto __43
}
*(*int32)(unsafe.Pointer(aXRef + uintptr(i)*4)) = 99999
bProgress = 1
__43:
;
goto __39
__39:
i++
goto __38
goto __40
__40:
;
goto __36
__36:
if bProgress != 0 {
goto __35
}
goto __37
__37:
;
__34:
;
(*SrcItem)(unsafe.Pointer(pTabList + 8)).FcolUsed = func() uint64 {
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB {
return libc.Uint64(libc.Uint64FromInt32(-1))
}
return uint64(0)
}()
hasFK = Xsqlite3FkRequired(tls, pParse, pTab, aXRef, int32(chngKey))
if !(onError == OE_Replace) {
goto __44
}
*(*int32)(unsafe.Pointer(bp + 104)) = 1
__44:
;
nAllIdx = 0
pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex
__45:
if !(pIdx != 0) {
goto __47
}
if !(chngKey != 0 || hasFK > 1 || pIdx == pPk ||
indexWhereClauseMightChange(tls, pIdx, aXRef, int32(chngRowid)) != 0) {
goto __48
}
reg = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
*(*int32)(unsafe.Pointer(pParse + 56)) += int32((*Index)(unsafe.Pointer(pIdx)).FnColumn)
goto __49
__48:
reg = 0
i = 0
__50:
if !(i < int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)) {
goto __52
}
if !(indexColumnIsBeingUpdated(tls, pIdx, i, aXRef, int32(chngRowid)) != 0) {
goto __53
}
reg = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
*(*int32)(unsafe.Pointer(pParse + 56)) += int32((*Index)(unsafe.Pointer(pIdx)).FnColumn)
if !(onError == OE_Default && int32((*Index)(unsafe.Pointer(pIdx)).FonError) == OE_Replace) {
goto __54
}
*(*int32)(unsafe.Pointer(bp + 104)) = 1
__54:
;
goto __52
__53:
;
goto __51
__51:
i++
goto __50
goto __52
__52:
;
__49:
;
if !(reg == 0) {
goto __55
}
*(*U8)(unsafe.Pointer(aToOpen + uintptr(nAllIdx+1))) = U8(0)
__55:
;
*(*int32)(unsafe.Pointer(aRegIdx + uintptr(nAllIdx)*4)) = reg
goto __46
__46:
pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext
nAllIdx++
goto __45
goto __47
__47:
;
*(*int32)(unsafe.Pointer(aRegIdx + uintptr(nAllIdx)*4)) = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
if !(*(*int32)(unsafe.Pointer(bp + 104)) != 0) {
goto __56
}
libc.X__builtin___memset_chk(tls, aToOpen, 1, uint64(nIdx+1), libc.X__builtin_object_size(tls, aToOpen, 0))
__56:
;
if !(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) == 0) {
goto __57
}
Xsqlite3VdbeCountChanges(tls, v)
__57:
;
Xsqlite3BeginWriteOperation(tls, pParse, libc.Bool32(pTrigger != 0 || hasFK != 0), iDb)
if !!(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __58
}
regRowSet = *(*int32)(unsafe.Pointer(aRegIdx + uintptr(nAllIdx)*4))
regOldRowid = libc.AssignInt32(&regNewRowid, libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1))
if !(chngPk != 0 || pTrigger != 0 || hasFK != 0) {
goto __59
}
regOld = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += int32((*Table)(unsafe.Pointer(pTab)).FnCol)
__59:
;
if !(chngKey != 0 || pTrigger != 0 || hasFK != 0) {
goto __60
}
regNewRowid = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
__60:
;
regNew = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += int32((*Table)(unsafe.Pointer(pTab)).FnCol)
__58:
;
if !(isView != 0) {
goto __61
}
Xsqlite3AuthContextPush(tls, pParse, bp+16, (*Table)(unsafe.Pointer(pTab)).FzName)
__61:
;
if !(nChangeFrom == 0 && isView != 0) {
goto __62
}
Xsqlite3MaterializeView(tls, pParse, pTab,
pWhere, pOrderBy, pLimit, iDataCur)
pOrderBy = uintptr(0)
pLimit = uintptr(0)
__62:
;
if !(nChangeFrom == 0 && Xsqlite3ResolveExprNames(tls, bp+40, pWhere) != 0) {
goto __63
}
goto update_cleanup
__63:
;
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __64
}
updateVirtualTable(tls, pParse, pTabList, pTab, pChanges, pRowidExpr, aXRef,
pWhere, onError)
goto update_cleanup
__64:
;
labelContinue = libc.AssignInt32(&labelBreak, Xsqlite3VdbeMakeLabel(tls, pParse))
if !((*Sqlite3)(unsafe.Pointer(db)).Fflags&(uint64(0x00001)<<32) != uint64(0) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).FpTriggerTab) != 0) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) != 0) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).FbReturning) != 0) &&
pUpsert == uintptr(0)) {
goto __65
}
regRowCount = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, regRowCount)
__65:
;
if !(nChangeFrom == 0 && (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __66
}
Xsqlite3VdbeAddOp3(tls, v, OP_Null, 0, regRowSet, regOldRowid)
iEph = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
addrOpen = Xsqlite3VdbeAddOp3(tls, v, OP_OpenEphemeral, iEph, 0, regRowSet)
goto __67
__66:
;
if pPk != 0 {
nPk = int16((*Index)(unsafe.Pointer(pPk)).FnKeyCol)
} else {
nPk = int16(0)
}
iPk = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += int32(nPk)
*(*int32)(unsafe.Pointer(pParse + 56)) += nChangeFrom
regKey = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
if !(pUpsert == uintptr(0)) {
goto __68
}
nEphCol = int32(nPk) + nChangeFrom + func() int32 {
if isView != 0 {
return int32((*Table)(unsafe.Pointer(pTab)).FnCol)
}
return 0
}()
iEph = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
if !(pPk != 0) {
goto __69
}
Xsqlite3VdbeAddOp3(tls, v, OP_Null, 0, iPk, iPk+int32(nPk)-1)
__69:
;
addrOpen = Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, iEph, nEphCol)
if !(pPk != 0) {
goto __70
}
pKeyInfo = Xsqlite3KeyInfoOfIndex(tls, pParse, pPk)
if !(pKeyInfo != 0) {
goto __71
}
(*KeyInfo)(unsafe.Pointer(pKeyInfo)).FnAllField = U16(nEphCol)
Xsqlite3VdbeAppendP4(tls, v, pKeyInfo, -8)
__71:
;
__70:
;
if !(nChangeFrom != 0) {
goto __72
}
updateFromSelect(tls,
pParse, iEph, pPk, pChanges, pTabList, pWhere, pOrderBy, pLimit)
if !(isView != 0) {
goto __73
}
iDataCur = iEph
__73:
;
__72:
;
__68:
;
__67:
;
if !(nChangeFrom != 0) {
goto __74
}
Xsqlite3MultiWrite(tls, pParse)
eOnePass = ONEPASS_OFF
nKey = int32(nPk)
regKey = iPk
goto __75
__74:
if !(pUpsert != 0) {
goto __76
}
pWInfo = uintptr(0)
eOnePass = ONEPASS_SINGLE
Xsqlite3ExprIfFalse(tls, pParse, pWhere, labelBreak, SQLITE_JUMPIFNULL)
bFinishSeek = 0
goto __77
__76:
flags = WHERE_ONEPASS_DESIRED
if !(!(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) != 0) && !(pTrigger != 0) && !(hasFK != 0) && !(chngKey != 0) && !(*(*int32)(unsafe.Pointer(bp + 104)) != 0)) {
goto __78
}
flags = flags | WHERE_ONEPASS_MULTIROW
__78:
;
pWInfo = Xsqlite3WhereBegin(tls, pParse, pTabList, pWhere, uintptr(0), uintptr(0), uintptr(0), uint16(flags), iIdxCur)
if !(pWInfo == uintptr(0)) {
goto __79
}
goto update_cleanup
__79:
;
eOnePass = Xsqlite3WhereOkOnePass(tls, pWInfo, bp+96)
bFinishSeek = Xsqlite3WhereUsesDeferredSeek(tls, pWInfo)
if !(eOnePass != ONEPASS_SINGLE) {
goto __80
}
Xsqlite3MultiWrite(tls, pParse)
if !(eOnePass == ONEPASS_MULTI) {
goto __81
}
iCur = *(*int32)(unsafe.Pointer(bp + 96 + 1*4))
if !(iCur >= 0 && iCur != iDataCur && *(*U8)(unsafe.Pointer(aToOpen + uintptr(iCur-iBaseCur))) != 0) {
goto __82
}
eOnePass = ONEPASS_OFF
__82:
;
__81:
;
__80:
;
__77:
;
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __83
}
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, iDataCur, regOldRowid)
if !(eOnePass == ONEPASS_OFF) {
goto __85
}
*(*int32)(unsafe.Pointer(aRegIdx + uintptr(nAllIdx)*4)) = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, iEph, regRowSet, regOldRowid)
goto __86
__85:
if !(addrOpen != 0) {
goto __87
}
Xsqlite3VdbeChangeToNoop(tls, v, addrOpen)
__87:
;
__86:
;
goto __84
__83:
i = 0
__88:
if !(i < int32(nPk)) {
goto __90
}
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab, iDataCur,
int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(i)*2))), iPk+i)
goto __89
__89:
i++
goto __88
goto __90
__90:
;
if !(eOnePass != 0) {
goto __91
}
if !(addrOpen != 0) {
goto __93
}
Xsqlite3VdbeChangeToNoop(tls, v, addrOpen)
__93:
;
nKey = int32(nPk)
regKey = iPk
goto __92
__91:
Xsqlite3VdbeAddOp4(tls, v, OP_MakeRecord, iPk, int32(nPk), regKey,
Xsqlite3IndexAffinityStr(tls, db, pPk), int32(nPk))
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, iEph, regKey, iPk, int32(nPk))
__92:
;
__84:
;
__75:
;
if !(pUpsert == uintptr(0)) {
goto __94
}
if !(nChangeFrom == 0 && eOnePass != ONEPASS_MULTI) {
goto __95
}
Xsqlite3WhereEnd(tls, pWInfo)
__95:
;
if !!(isView != 0) {
goto __96
}
addrOnce = 0
if !(eOnePass != ONEPASS_OFF) {
goto __97
}
if !(*(*int32)(unsafe.Pointer(bp + 96)) >= 0) {
goto __98
}
*(*U8)(unsafe.Pointer(aToOpen + uintptr(*(*int32)(unsafe.Pointer(bp + 96))-iBaseCur))) = U8(0)
__98:
;
if !(*(*int32)(unsafe.Pointer(bp + 96 + 1*4)) >= 0) {
goto __99
}
*(*U8)(unsafe.Pointer(aToOpen + uintptr(*(*int32)(unsafe.Pointer(bp + 96 + 1*4))-iBaseCur))) = U8(0)
__99:
;
__97:
;
if !(eOnePass == ONEPASS_MULTI && nIdx-libc.Bool32(*(*int32)(unsafe.Pointer(bp + 96 + 1*4)) >= 0) > 0) {
goto __100
}
addrOnce = Xsqlite3VdbeAddOp0(tls, v, OP_Once)
__100:
;
Xsqlite3OpenTableAndIndices(tls, pParse, pTab, OP_OpenWrite, uint8(0), iBaseCur,
aToOpen, uintptr(0), uintptr(0))
if !(addrOnce != 0) {
goto __101
}
Xsqlite3VdbeJumpHereOrPopInst(tls, v, addrOnce)
__101:
;
__96:
;
if !(eOnePass != ONEPASS_OFF) {
goto __102
}
if !(*(*int32)(unsafe.Pointer(bp + 96)) != iDataCur &&
*(*int32)(unsafe.Pointer(bp + 96 + 1*4)) != iDataCur) {
goto __104
}
Xsqlite3VdbeAddOp4Int(tls, v, OP_NotFound, iDataCur, labelBreak, regKey, nKey)
__104:
;
if !(eOnePass != ONEPASS_SINGLE) {
goto __105
}
labelContinue = Xsqlite3VdbeMakeLabel(tls, pParse)
__105:
;
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, func() int32 {
if pPk != 0 {
return regKey
}
return regOldRowid
}(), labelBreak)
goto __103
__102:
if !(pPk != 0 || nChangeFrom != 0) {
goto __106
}
labelContinue = Xsqlite3VdbeMakeLabel(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_Rewind, iEph, labelBreak)
addrTop = Xsqlite3VdbeCurrentAddr(tls, v)
if !(nChangeFrom != 0) {
goto __108
}
if !!(isView != 0) {
goto __110
}
if !(pPk != 0) {
goto __111
}
i = 0
__113:
if !(i < int32(nPk)) {
goto __115
}
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iEph, i, iPk+i)
goto __114
__114:
i++
goto __113
goto __115
__115:
;
Xsqlite3VdbeAddOp4Int(tls,
v, OP_NotFound, iDataCur, labelContinue, iPk, int32(nPk))
goto __112
__111:
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, iEph, regOldRowid)
Xsqlite3VdbeAddOp3(tls,
v, OP_NotExists, iDataCur, labelContinue, regOldRowid)
__112:
;
__110:
;
goto __109
__108:
Xsqlite3VdbeAddOp2(tls, v, OP_RowData, iEph, regKey)
Xsqlite3VdbeAddOp4Int(tls, v, OP_NotFound, iDataCur, labelContinue, regKey, 0)
__109:
;
goto __107
__106:
Xsqlite3VdbeAddOp2(tls, v, OP_Rewind, iEph, labelBreak)
labelContinue = Xsqlite3VdbeMakeLabel(tls, pParse)
addrTop = Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, iEph, regOldRowid)
Xsqlite3VdbeAddOp3(tls, v, OP_NotExists, iDataCur, labelContinue, regOldRowid)
__107:
;
__103:
;
__94:
;
if !(chngRowid != 0) {
goto __116
}
if !(nChangeFrom == 0) {
goto __117
}
Xsqlite3ExprCode(tls, pParse, pRowidExpr, regNewRowid)
goto __118
__117:
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iEph, iRowidExpr, regNewRowid)
__118:
;
Xsqlite3VdbeAddOp1(tls, v, OP_MustBeInt, regNewRowid)
__116:
;
if !(chngPk != 0 || hasFK != 0 || pTrigger != 0) {
goto __119
}
oldmask = func() uint32 {
if hasFK != 0 {
return Xsqlite3FkOldmask(tls, pParse, pTab)
}
return uint32(0)
}()
oldmask = oldmask | Xsqlite3TriggerColmask(tls, pParse,
pTrigger, pChanges, 0, TRIGGER_BEFORE|TRIGGER_AFTER, pTab, onError)
i = 0
__120:
if !(i < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __122
}
colFlags = U32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(i)*24)).FcolFlags)
k = int32(Xsqlite3TableColumnToStorage(tls, pTab, int16(i))) + regOld
if !(oldmask == 0xffffffff ||
i < 32 && oldmask&(uint32(1)<<i) != U32(0) ||
colFlags&U32(COLFLAG_PRIMKEY) != U32(0)) {
goto __123
}
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab, iDataCur, i, k)
goto __124
__123:
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, k)
__124:
;
goto __121
__121:
i++
goto __120
goto __122
__122:
;
if !(int32(chngRowid) == 0 && pPk == uintptr(0)) {
goto __125
}
Xsqlite3VdbeAddOp2(tls, v, OP_Copy, regOldRowid, regNewRowid)
__125:
;
__119:
;
newmask = int32(Xsqlite3TriggerColmask(tls,
pParse, pTrigger, pChanges, 1, TRIGGER_BEFORE, pTab, onError))
i = 0
k = regNew
__126:
if !(i < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __128
}
if !(i == int32((*Table)(unsafe.Pointer(pTab)).FiPKey)) {
goto __129
}
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, k)
goto __130
__129:
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_GENERATED != 0) {
goto __131
}
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_VIRTUAL != 0) {
goto __133
}
k--
__133:
;
goto __132
__131:
j = *(*int32)(unsafe.Pointer(aXRef + uintptr(i)*4))
if !(j >= 0) {
goto __134
}
if !(nChangeFrom != 0) {
goto __136
}
nOff = func() int32 {
if isView != 0 {
return int32((*Table)(unsafe.Pointer(pTab)).FnCol)
}
return int32(nPk)
}()
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iEph, nOff+j, k)
goto __137
__136:
Xsqlite3ExprCode(tls, pParse, (*ExprList_item)(unsafe.Pointer(pChanges+8+uintptr(j)*32)).FpExpr, k)
__137:
;
goto __135
__134:
if !(0 == *(*int32)(unsafe.Pointer(bp + 32))&TRIGGER_BEFORE || i > 31 || uint32(newmask)&(uint32(1)<<i) != 0) {
goto __138
}
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab, iDataCur, i, k)
bFinishSeek = 0
goto __139
__138:
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, k)
__139:
;
__135:
;
__132:
;
__130:
;
goto __127
__127:
i++
k++
goto __126
goto __128
__128:
;
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasGenerated) != 0) {
goto __140
}
Xsqlite3ComputeGeneratedColumns(tls, pParse, regNew, pTab)
__140:
;
if !(*(*int32)(unsafe.Pointer(bp + 32))&TRIGGER_BEFORE != 0) {
goto __141
}
Xsqlite3TableAffinity(tls, v, pTab, regNew)
Xsqlite3CodeRowTrigger(tls, pParse, pTrigger, TK_UPDATE, pChanges,
TRIGGER_BEFORE, pTab, regOldRowid, onError, labelContinue)
if !!(isView != 0) {
goto __142
}
if !(pPk != 0) {
goto __143
}
Xsqlite3VdbeAddOp4Int(tls, v, OP_NotFound, iDataCur, labelContinue, regKey, nKey)
goto __144
__143:
Xsqlite3VdbeAddOp3(tls, v, OP_NotExists, iDataCur, labelContinue, regOldRowid)
__144:
;
i = 0
k = regNew
__145:
if !(i < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __147
}
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_GENERATED != 0) {
goto __148
}
if !(int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).FcolFlags)&COLFLAG_VIRTUAL != 0) {
goto __150
}
k--
__150:
;
goto __149
__148:
if !(*(*int32)(unsafe.Pointer(aXRef + uintptr(i)*4)) < 0 && i != int32((*Table)(unsafe.Pointer(pTab)).FiPKey)) {
goto __151
}
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab, iDataCur, i, k)
__151:
;
__149:
;
goto __146
__146:
i++
k++
goto __145
goto __147
__147:
;
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasGenerated) != 0) {
goto __152
}
Xsqlite3ComputeGeneratedColumns(tls, pParse, regNew, pTab)
__152:
;
__142:
;
__141:
;
if !!(isView != 0) {
goto __153
}
Xsqlite3GenerateConstraintChecks(tls, pParse, pTab, aRegIdx, iDataCur, iIdxCur,
regNewRowid, regOldRowid, chngKey, uint8(onError), labelContinue, bp+104,
aXRef, uintptr(0))
if !(*(*int32)(unsafe.Pointer(bp + 104)) != 0 || chngKey != 0) {
goto __154
}
if !(pPk != 0) {
goto __155
}
Xsqlite3VdbeAddOp4Int(tls, v, OP_NotFound, iDataCur, labelContinue, regKey, nKey)
goto __156
__155:
Xsqlite3VdbeAddOp3(tls, v, OP_NotExists, iDataCur, labelContinue, regOldRowid)
__156:
;
__154:
;
if !(hasFK != 0) {
goto __157
}
Xsqlite3FkCheck(tls, pParse, pTab, regOldRowid, 0, aXRef, int32(chngKey))
__157:
;
Xsqlite3GenerateRowIndexDelete(tls, pParse, pTab, iDataCur, iIdxCur, aRegIdx, -1)
if !(bFinishSeek != 0) {
goto __158
}
Xsqlite3VdbeAddOp1(tls, v, OP_FinishSeek, iDataCur)
__158:
;
Xsqlite3VdbeAddOp3(tls, v, OP_Delete, iDataCur,
OPFLAG_ISUPDATE|func() int32 {
if hasFK > 1 || chngKey != 0 {
return 0
}
return OPFLAG_ISNOOP
}(),
regNewRowid)
if !(eOnePass == ONEPASS_MULTI) {
goto __159
}
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_SAVEPOSITION))
__159:
;
if !!(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) != 0) {
goto __160
}
Xsqlite3VdbeAppendP4(tls, v, pTab, -5)
__160:
;
if !(hasFK != 0) {
goto __161
}
Xsqlite3FkCheck(tls, pParse, pTab, 0, regNewRowid, aXRef, int32(chngKey))
__161:
;
Xsqlite3CompleteInsertion(tls,
pParse, pTab, iDataCur, iIdxCur, regNewRowid, aRegIdx,
OPFLAG_ISUPDATE|func() int32 {
if eOnePass == ONEPASS_MULTI {
return OPFLAG_SAVEPOSITION
}
return 0
}(),
0, 0)
if !(hasFK != 0) {
goto __162
}
Xsqlite3FkActions(tls, pParse, pTab, pChanges, regOldRowid, aXRef, int32(chngKey))
__162:
;
__153:
;
if !(regRowCount != 0) {
goto __163
}
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, regRowCount, 1)
__163:
;
Xsqlite3CodeRowTrigger(tls, pParse, pTrigger, TK_UPDATE, pChanges,
TRIGGER_AFTER, pTab, regOldRowid, onError, labelContinue)
if !(eOnePass == ONEPASS_SINGLE) {
goto __164
}
goto __165
__164:
if !(eOnePass == ONEPASS_MULTI) {
goto __166
}
Xsqlite3VdbeResolveLabel(tls, v, labelContinue)
Xsqlite3WhereEnd(tls, pWInfo)
goto __167
__166:
Xsqlite3VdbeResolveLabel(tls, v, labelContinue)
Xsqlite3VdbeAddOp2(tls, v, OP_Next, iEph, addrTop)
__167:
;
__165:
;
Xsqlite3VdbeResolveLabel(tls, v, labelBreak)
if !(int32((*Parse)(unsafe.Pointer(pParse)).Fnested) == 0 && (*Parse)(unsafe.Pointer(pParse)).FpTriggerTab == uintptr(0) && pUpsert == uintptr(0)) {
goto __168
}
Xsqlite3AutoincrementEnd(tls, pParse)
__168:
;
if !(regRowCount != 0) {
goto __169
}
Xsqlite3CodeChangeCount(tls, v, regRowCount, ts+20997)
__169:
;
update_cleanup:
Xsqlite3AuthContextPop(tls, bp+16)
Xsqlite3DbFree(tls, db, aXRef)
Xsqlite3SrcListDelete(tls, db, pTabList)
Xsqlite3ExprListDelete(tls, db, pChanges)
Xsqlite3ExprDelete(tls, db, pWhere)
return
}
func updateVirtualTable(tls *libc.TLS, pParse uintptr, pSrc uintptr, pTab uintptr, pChanges uintptr, pRowid uintptr, aXRef uintptr, pWhere uintptr, onError int32) {
bp := tls.Alloc(8)
defer tls.Free(8)
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var ephemTab int32
var i int32
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pVTab uintptr = Xsqlite3GetVTable(tls, db, pTab)
var pWInfo uintptr = uintptr(0)
var nArg int32 = 2 + int32((*Table)(unsafe.Pointer(pTab)).FnCol)
var regArg int32
var regRec int32
var regRowid int32
var iCsr int32 = (*SrcItem)(unsafe.Pointer(pSrc + 8)).FiCursor
var eOnePass int32
var addr int32
ephemTab = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
addr = Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, ephemTab, nArg)
regArg = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nArg
if (*SrcList)(unsafe.Pointer(pSrc)).FnSrc > 1 {
var pPk uintptr = uintptr(0)
var pRow uintptr
var pList uintptr
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
if pRowid != 0 {
pRow = Xsqlite3ExprDup(tls, db, pRowid, 0)
} else {
pRow = Xsqlite3PExpr(tls, pParse, TK_ROW, uintptr(0), uintptr(0))
}
} else {
var iPk I16
pPk = Xsqlite3PrimaryKeyIndex(tls, pTab)
iPk = *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn))
if *(*int32)(unsafe.Pointer(aXRef + uintptr(iPk)*4)) >= 0 {
pRow = Xsqlite3ExprDup(tls, db, (*ExprList_item)(unsafe.Pointer(pChanges+8+uintptr(*(*int32)(unsafe.Pointer(aXRef + uintptr(iPk)*4)))*32)).FpExpr, 0)
} else {
pRow = exprRowColumn(tls, pParse, int32(iPk))
}
}
pList = Xsqlite3ExprListAppend(tls, pParse, uintptr(0), pRow)
for i = 0; i < int32((*Table)(unsafe.Pointer(pTab)).FnCol); i++ {
if *(*int32)(unsafe.Pointer(aXRef + uintptr(i)*4)) >= 0 {
pList = Xsqlite3ExprListAppend(tls, pParse, pList,
Xsqlite3ExprDup(tls, db, (*ExprList_item)(unsafe.Pointer(pChanges+8+uintptr(*(*int32)(unsafe.Pointer(aXRef + uintptr(i)*4)))*32)).FpExpr, 0))
} else {
pList = Xsqlite3ExprListAppend(tls, pParse, pList, exprRowColumn(tls, pParse, i))
}
}
updateFromSelect(tls, pParse, ephemTab, pPk, pList, pSrc, pWhere, uintptr(0), uintptr(0))
Xsqlite3ExprListDelete(tls, db, pList)
eOnePass = ONEPASS_OFF
} else {
regRec = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
regRowid = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
pWInfo = Xsqlite3WhereBegin(tls,
pParse, pSrc, pWhere, uintptr(0), uintptr(0), uintptr(0), uint16(WHERE_ONEPASS_DESIRED), 0)
if pWInfo == uintptr(0) {
return
}
for i = 0; i < int32((*Table)(unsafe.Pointer(pTab)).FnCol); i++ {
if *(*int32)(unsafe.Pointer(aXRef + uintptr(i)*4)) >= 0 {
Xsqlite3ExprCode(tls, pParse, (*ExprList_item)(unsafe.Pointer(pChanges+8+uintptr(*(*int32)(unsafe.Pointer(aXRef + uintptr(i)*4)))*32)).FpExpr, regArg+2+i)
} else {
Xsqlite3VdbeAddOp3(tls, v, OP_VColumn, iCsr, i, regArg+2+i)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_NOCHNG))
}
}
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, iCsr, regArg)
if pRowid != 0 {
Xsqlite3ExprCode(tls, pParse, pRowid, regArg+1)
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, iCsr, regArg+1)
}
} else {
var pPk uintptr
var iPk I16
pPk = Xsqlite3PrimaryKeyIndex(tls, pTab)
iPk = *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn))
Xsqlite3VdbeAddOp3(tls, v, OP_VColumn, iCsr, int32(iPk), regArg)
Xsqlite3VdbeAddOp2(tls, v, OP_SCopy, regArg+2+int32(iPk), regArg+1)
}
eOnePass = Xsqlite3WhereOkOnePass(tls, pWInfo, bp)
if eOnePass != 0 {
Xsqlite3VdbeChangeToNoop(tls, v, addr)
Xsqlite3VdbeAddOp1(tls, v, OP_Close, iCsr)
} else {
Xsqlite3MultiWrite(tls, pParse)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regArg, nArg, regRec)
Xsqlite3VdbeAddOp2(tls, v, OP_NewRowid, ephemTab, regRowid)
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, ephemTab, regRec, regRowid)
}
}
if eOnePass == ONEPASS_OFF {
if (*SrcList)(unsafe.Pointer(pSrc)).FnSrc == 1 {
Xsqlite3WhereEnd(tls, pWInfo)
}
addr = Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, ephemTab)
for i = 0; i < nArg; i++ {
Xsqlite3VdbeAddOp3(tls, v, OP_Column, ephemTab, i, regArg+i)
}
}
Xsqlite3VtabMakeWritable(tls, pParse, pTab)
Xsqlite3VdbeAddOp4(tls, v, OP_VUpdate, 0, nArg, regArg, pVTab, -11)
Xsqlite3VdbeChangeP5(tls, v, func() uint16 {
if onError == OE_Default {
return uint16(OE_Abort)
}
return uint16(onError)
}())
Xsqlite3MayAbort(tls, pParse)
if eOnePass == ONEPASS_OFF {
Xsqlite3VdbeAddOp2(tls, v, OP_Next, ephemTab, addr+1)
Xsqlite3VdbeJumpHere(tls, v, addr)
Xsqlite3VdbeAddOp2(tls, v, OP_Close, ephemTab, 0)
} else {
Xsqlite3WhereEnd(tls, pWInfo)
}
}
func upsertDelete(tls *libc.TLS, db uintptr, p uintptr) {
for __ccgo := true; __ccgo; __ccgo = p != 0 {
var pNext uintptr = (*Upsert)(unsafe.Pointer(p)).FpNextUpsert
Xsqlite3ExprListDelete(tls, db, (*Upsert)(unsafe.Pointer(p)).FpUpsertTarget)
Xsqlite3ExprDelete(tls, db, (*Upsert)(unsafe.Pointer(p)).FpUpsertTargetWhere)
Xsqlite3ExprListDelete(tls, db, (*Upsert)(unsafe.Pointer(p)).FpUpsertSet)
Xsqlite3ExprDelete(tls, db, (*Upsert)(unsafe.Pointer(p)).FpUpsertWhere)
Xsqlite3DbFree(tls, db, (*Upsert)(unsafe.Pointer(p)).FpToFree)
Xsqlite3DbFree(tls, db, p)
p = pNext
}
}
func Xsqlite3UpsertDelete(tls *libc.TLS, db uintptr, p uintptr) {
if p != 0 {
upsertDelete(tls, db, p)
}
}
// Duplicate an Upsert object.
func Xsqlite3UpsertDup(tls *libc.TLS, db uintptr, p uintptr) uintptr {
if p == uintptr(0) {
return uintptr(0)
}
return Xsqlite3UpsertNew(tls, db,
Xsqlite3ExprListDup(tls, db, (*Upsert)(unsafe.Pointer(p)).FpUpsertTarget, 0),
Xsqlite3ExprDup(tls, db, (*Upsert)(unsafe.Pointer(p)).FpUpsertTargetWhere, 0),
Xsqlite3ExprListDup(tls, db, (*Upsert)(unsafe.Pointer(p)).FpUpsertSet, 0),
Xsqlite3ExprDup(tls, db, (*Upsert)(unsafe.Pointer(p)).FpUpsertWhere, 0),
Xsqlite3UpsertDup(tls, db, (*Upsert)(unsafe.Pointer(p)).FpNextUpsert))
}
// Create a new Upsert object.
func Xsqlite3UpsertNew(tls *libc.TLS, db uintptr, pTarget uintptr, pTargetWhere uintptr, pSet uintptr, pWhere uintptr, pNext uintptr) uintptr {
var pNew uintptr
pNew = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Upsert{})))
if pNew == uintptr(0) {
Xsqlite3ExprListDelete(tls, db, pTarget)
Xsqlite3ExprDelete(tls, db, pTargetWhere)
Xsqlite3ExprListDelete(tls, db, pSet)
Xsqlite3ExprDelete(tls, db, pWhere)
Xsqlite3UpsertDelete(tls, db, pNext)
return uintptr(0)
} else {
(*Upsert)(unsafe.Pointer(pNew)).FpUpsertTarget = pTarget
(*Upsert)(unsafe.Pointer(pNew)).FpUpsertTargetWhere = pTargetWhere
(*Upsert)(unsafe.Pointer(pNew)).FpUpsertSet = pSet
(*Upsert)(unsafe.Pointer(pNew)).FpUpsertWhere = pWhere
(*Upsert)(unsafe.Pointer(pNew)).FisDoUpdate = U8(libc.Bool32(pSet != uintptr(0)))
(*Upsert)(unsafe.Pointer(pNew)).FpNextUpsert = pNext
}
return pNew
}
// Analyze the ON CONFLICT clause described by pUpsert. Resolve all
// symbols in the conflict-target.
//
// Return SQLITE_OK if everything works, or an error code is something
// is wrong.
func Xsqlite3UpsertAnalyzeTarget(tls *libc.TLS, pParse uintptr, pTabList uintptr, pUpsert uintptr) int32 {
bp := tls.Alloc(232)
defer tls.Free(232)
var pTab uintptr
var rc int32
var iCursor int32
var pIdx uintptr
var pTarget uintptr
var pTerm uintptr
var nClause int32 = 0
libc.X__builtin___memset_chk(tls, bp+16, 0, uint64(unsafe.Sizeof(NameContext{})), libc.X__builtin_object_size(tls, bp+16, 0))
(*NameContext)(unsafe.Pointer(bp + 16)).FpParse = pParse
(*NameContext)(unsafe.Pointer(bp + 16)).FpSrcList = pTabList
__1:
if !(pUpsert != 0 && (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertTarget != 0) {
goto __3
}
{
rc = Xsqlite3ResolveExprListNames(tls, bp+16, (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertTarget)
if rc != 0 {
return rc
}
rc = Xsqlite3ResolveExprNames(tls, bp+16, (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertTargetWhere)
if rc != 0 {
return rc
}
pTab = (*SrcItem)(unsafe.Pointer(pTabList + 8)).FpTab
pTarget = (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertTarget
iCursor = (*SrcItem)(unsafe.Pointer(pTabList + 8)).FiCursor
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) &&
(*ExprList)(unsafe.Pointer(pTarget)).FnExpr == 1 &&
int32((*Expr)(unsafe.Pointer(libc.AssignUintptr(&pTerm, (*ExprList_item)(unsafe.Pointer(pTarget+8)).FpExpr))).Fop) == TK_COLUMN &&
int32((*Expr)(unsafe.Pointer(pTerm)).FiColumn) == -1 {
goto __2
}
libc.X__builtin___memset_chk(tls, bp+72, 0, uint64(unsafe.Sizeof([2]Expr{})), libc.X__builtin_object_size(tls, bp+72, 0))
(*Expr)(unsafe.Pointer(bp + 72)).Fop = U8(TK_COLLATE)
(*Expr)(unsafe.Pointer(bp + 72)).FpLeft = bp + 72 + 1*72
(*Expr)(unsafe.Pointer(bp + 72 + 1*72)).Fop = U8(TK_COLUMN)
(*Expr)(unsafe.Pointer(bp + 72 + 1*72)).FiTable = (*SrcItem)(unsafe.Pointer(pTabList + 8)).FiCursor
for pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex; pIdx != 0; pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext {
var ii int32
var jj int32
var nn int32
if !(int32((*Index)(unsafe.Pointer(pIdx)).FonError) != OE_None) {
continue
}
if (*ExprList)(unsafe.Pointer(pTarget)).FnExpr != int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol) {
continue
}
if (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere != 0 {
if (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertTargetWhere == uintptr(0) {
continue
}
if Xsqlite3ExprCompare(tls, pParse, (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertTargetWhere,
(*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere, iCursor) != 0 {
continue
}
}
nn = int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol)
for ii = 0; ii < nn; ii++ {
var pExpr uintptr
*(*uintptr)(unsafe.Pointer(bp + 72 + 8)) = *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(ii)*8))
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(ii)*2))) == -2 {
pExpr = (*ExprList_item)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaColExpr + 8 + uintptr(ii)*32)).FpExpr
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_COLLATE {
(*Expr)(unsafe.Pointer(bp + 72)).FpLeft = pExpr
pExpr = bp + 72
}
} else {
(*Expr)(unsafe.Pointer(bp + 72)).FpLeft = bp + 72 + 1*72
(*Expr)(unsafe.Pointer(bp + 72 + 1*72)).FiColumn = *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(ii)*2))
pExpr = bp + 72
}
for jj = 0; jj < nn; jj++ {
if Xsqlite3ExprCompare(tls, pParse, (*ExprList_item)(unsafe.Pointer(pTarget+8+uintptr(jj)*32)).FpExpr, pExpr, iCursor) < 2 {
break
}
}
if jj >= nn {
break
}
}
if ii < nn {
continue
}
(*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertIdx = pIdx
break
}
if (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertIdx == uintptr(0) {
if nClause == 0 && (*Upsert)(unsafe.Pointer(pUpsert)).FpNextUpsert == uintptr(0) {
*(*int8)(unsafe.Pointer(bp + 216)) = int8(0)
} else {
Xsqlite3_snprintf(tls, int32(unsafe.Sizeof([16]int8{})), bp+216, ts+21010, libc.VaList(bp, nClause+1))
}
Xsqlite3ErrorMsg(tls, pParse,
ts+21014, libc.VaList(bp+8, bp+216))
return SQLITE_ERROR
}
}
goto __2
__2:
pUpsert = (*Upsert)(unsafe.Pointer(pUpsert)).FpNextUpsert
nClause++
goto __1
goto __3
__3:
;
return SQLITE_OK
}
// Return true if pUpsert is the last ON CONFLICT clause with a
// conflict target, or if pUpsert is followed by another ON CONFLICT
// clause that targets the INTEGER PRIMARY KEY.
func Xsqlite3UpsertNextIsIPK(tls *libc.TLS, pUpsert uintptr) int32 {
var pNext uintptr
if pUpsert == uintptr(0) {
return 0
}
pNext = (*Upsert)(unsafe.Pointer(pUpsert)).FpNextUpsert
if pNext == uintptr(0) {
return 1
}
if (*Upsert)(unsafe.Pointer(pNext)).FpUpsertTarget == uintptr(0) {
return 1
}
if (*Upsert)(unsafe.Pointer(pNext)).FpUpsertIdx == uintptr(0) {
return 1
}
return 0
}
// Given the list of ON CONFLICT clauses described by pUpsert, and
// a particular index pIdx, return a pointer to the particular ON CONFLICT
// clause that applies to the index. Or, if the index is not subject to
// any ON CONFLICT clause, return NULL.
func Xsqlite3UpsertOfIndex(tls *libc.TLS, pUpsert uintptr, pIdx uintptr) uintptr {
for pUpsert != 0 &&
(*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertTarget != uintptr(0) &&
(*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertIdx != pIdx {
pUpsert = (*Upsert)(unsafe.Pointer(pUpsert)).FpNextUpsert
}
return pUpsert
}
// Generate bytecode that does an UPDATE as part of an upsert.
//
// If pIdx is NULL, then the UNIQUE constraint that failed was the IPK.
// In this case parameter iCur is a cursor open on the table b-tree that
// currently points to the conflicting table row. Otherwise, if pIdx
// is not NULL, then pIdx is the constraint that failed and iCur is a
// cursor points to the conflicting row.
func Xsqlite3UpsertDoUpdate(tls *libc.TLS, pParse uintptr, pUpsert uintptr, pTab uintptr, pIdx uintptr, iCur int32) {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pSrc uintptr
var iDataCur int32
var i int32
var pTop uintptr = pUpsert
iDataCur = (*Upsert)(unsafe.Pointer(pUpsert)).FiDataCur
pUpsert = Xsqlite3UpsertOfIndex(tls, pTop, pIdx)
if pIdx != 0 && iCur != iDataCur {
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
var regRowid int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_IdxRowid, iCur, regRowid)
Xsqlite3VdbeAddOp3(tls, v, OP_SeekRowid, iDataCur, 0, regRowid)
Xsqlite3ReleaseTempReg(tls, pParse, regRowid)
} else {
var pPk uintptr = Xsqlite3PrimaryKeyIndex(tls, pTab)
var nPk int32 = int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol)
var iPk int32 = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nPk
for i = 0; i < nPk; i++ {
var k int32
k = int32(Xsqlite3TableColumnToIndex(tls, pIdx, *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(i)*2))))
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iCur, k, iPk+i)
}
i = Xsqlite3VdbeAddOp4Int(tls, v, OP_Found, iDataCur, 0, iPk, nPk)
Xsqlite3VdbeAddOp4(tls, v, OP_Halt, SQLITE_CORRUPT, OE_Abort, 0,
ts+12553, -1)
Xsqlite3MayAbort(tls, pParse)
Xsqlite3VdbeJumpHere(tls, v, i)
}
}
pSrc = Xsqlite3SrcListDup(tls, db, (*Upsert)(unsafe.Pointer(pTop)).FpUpsertSrc, 0)
for i = 0; i < int32((*Table)(unsafe.Pointer(pTab)).FnCol); i++ {
if int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(i)*24)).Faffinity) == SQLITE_AFF_REAL {
Xsqlite3VdbeAddOp1(tls, v, OP_RealAffinity, (*Upsert)(unsafe.Pointer(pTop)).FregData+i)
}
}
Xsqlite3Update(tls, pParse, pSrc, Xsqlite3ExprListDup(tls, db, (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertSet, 0),
Xsqlite3ExprDup(tls, db, (*Upsert)(unsafe.Pointer(pUpsert)).FpUpsertWhere, 0), OE_Abort, uintptr(0), uintptr(0), pUpsert)
}
func execSql(tls *libc.TLS, db uintptr, pzErrMsg uintptr, zSql uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
rc = Xsqlite3_prepare_v2(tls, db, zSql, -1, bp, uintptr(0))
if rc != SQLITE_OK {
return rc
}
for SQLITE_ROW == libc.AssignInt32(&rc, Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp)))) {
var zSubSql uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp)), 0)
if zSubSql != 0 &&
(libc.Xstrncmp(tls, zSubSql, ts+21087, uint64(3)) == 0 || libc.Xstrncmp(tls, zSubSql, ts+21091, uint64(3)) == 0) {
rc = execSql(tls, db, pzErrMsg, zSubSql)
if rc != SQLITE_OK {
break
}
}
}
if rc == SQLITE_DONE {
rc = SQLITE_OK
}
if rc != 0 {
Xsqlite3SetString(tls, pzErrMsg, db, Xsqlite3_errmsg(tls, db))
}
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
return rc
}
func execSqlF(tls *libc.TLS, db uintptr, pzErrMsg uintptr, zSql uintptr, va uintptr) int32 {
var z uintptr
var ap Va_list
_ = ap
var rc int32
ap = va
z = Xsqlite3VMPrintf(tls, db, zSql, ap)
_ = ap
if z == uintptr(0) {
return SQLITE_NOMEM
}
rc = execSql(tls, db, pzErrMsg, z)
Xsqlite3DbFree(tls, db, z)
return rc
}
// The VACUUM command is used to clean up the database,
// collapse free space, etc. It is modelled after the VACUUM command
// in PostgreSQL. The VACUUM command works as follows:
//
// (1) Create a new transient database file
// (2) Copy all content from the database being vacuumed into
// the new transient database file
// (3) Copy content from the transient database back into the
// original database.
//
// The transient database requires temporary disk space approximately
// equal to the size of the original database. The copy operation of
// step (3) requires additional temporary disk space approximately equal
// to the size of the original database for the rollback journal.
// Hence, temporary disk space that is approximately 2x the size of the
// original database is required. Every page of the database is written
// approximately 3 times: Once for step (2) and twice for step (3).
// Two writes per page are required in step (3) because the original
// database content must be written into the rollback journal prior to
// overwriting the database with the vacuumed content.
//
// Only 1x temporary space and only 1x writes would be required if
// the copy of step (3) were replaced by deleting the original database
// and renaming the transient database as the original. But that will
// not work if other processes are attached to the original database.
// And a power loss in between deleting the original and renaming the
// transient would cause the database file to appear to be deleted
// following reboot.
func Xsqlite3Vacuum(tls *libc.TLS, pParse uintptr, pNm uintptr, pInto uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = pNm
var v uintptr
var iDb int32
var iIntoReg int32
v = Xsqlite3GetVdbe(tls, pParse)
iDb = 0
if !(v == uintptr(0)) {
goto __1
}
goto build_vacuum_end
__1:
;
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __2
}
goto build_vacuum_end
__2:
;
if !(*(*uintptr)(unsafe.Pointer(bp)) != 0) {
goto __3
}
iDb = Xsqlite3TwoPartName(tls, pParse, *(*uintptr)(unsafe.Pointer(bp)), *(*uintptr)(unsafe.Pointer(bp)), bp)
if !(iDb < 0) {
goto __4
}
goto build_vacuum_end
__4:
;
__3:
;
if !(iDb != 1) {
goto __5
}
iIntoReg = 0
if !(pInto != 0 && Xsqlite3ResolveSelfReference(tls, pParse, uintptr(0), 0, pInto, uintptr(0)) == 0) {
goto __6
}
iIntoReg = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3ExprCode(tls, pParse, pInto, iIntoReg)
__6:
;
Xsqlite3VdbeAddOp2(tls, v, OP_Vacuum, iDb, iIntoReg)
Xsqlite3VdbeUsesBtree(tls, v, iDb)
__5:
;
build_vacuum_end:
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pInto)
return
}
// This routine implements the OP_Vacuum opcode of the VDBE.
func Xsqlite3RunVacuum(tls *libc.TLS, pzErrMsg uintptr, db uintptr, iDb int32, pOut uintptr) int32 {
bp := tls.Alloc(52)
defer tls.Free(52)
var rc int32
var pMain uintptr
var pTemp uintptr
var saved_mDbFlags U32
var saved_flags U64
var saved_nChange I64
var saved_nTotalChange I64
var saved_openFlags U32
var saved_mTrace U8
var pDb uintptr
var isMemDb int32
var nRes int32
var nDb int32
var zDbMain uintptr
var zOut uintptr
var pgflags U32
var id uintptr
var i int32
rc = SQLITE_OK
pDb = uintptr(0)
pgflags = U32(PAGER_SYNCHRONOUS_OFF)
if !!(int32((*Sqlite3)(unsafe.Pointer(db)).FautoCommit) != 0) {
goto __1
}
Xsqlite3SetString(tls, pzErrMsg, db, ts+21095)
return SQLITE_ERROR
__1:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FnVdbeActive > 1) {
goto __2
}
Xsqlite3SetString(tls, pzErrMsg, db, ts+21135)
return SQLITE_ERROR
__2:
;
saved_openFlags = (*Sqlite3)(unsafe.Pointer(db)).FopenFlags
if !(pOut != 0) {
goto __3
}
if !(Xsqlite3_value_type(tls, pOut) != SQLITE_TEXT) {
goto __5
}
Xsqlite3SetString(tls, pzErrMsg, db, ts+21178)
return SQLITE_ERROR
__5:
;
zOut = Xsqlite3_value_text(tls, pOut)
*(*uint32)(unsafe.Pointer(db + 76)) &= libc.Uint32FromInt32(libc.CplInt32(SQLITE_OPEN_READONLY))
*(*uint32)(unsafe.Pointer(db + 76)) |= uint32(SQLITE_OPEN_CREATE | SQLITE_OPEN_READWRITE)
goto __4
__3:
zOut = ts + 1547
__4:
;
saved_flags = (*Sqlite3)(unsafe.Pointer(db)).Fflags
saved_mDbFlags = (*Sqlite3)(unsafe.Pointer(db)).FmDbFlags
saved_nChange = (*Sqlite3)(unsafe.Pointer(db)).FnChange
saved_nTotalChange = (*Sqlite3)(unsafe.Pointer(db)).FnTotalChange
saved_mTrace = (*Sqlite3)(unsafe.Pointer(db)).FmTrace
*(*U64)(unsafe.Pointer(db + 48)) |= uint64(SQLITE_WriteSchema | SQLITE_IgnoreChecks)
*(*U32)(unsafe.Pointer(db + 44)) |= U32(DBFLAG_PreferBuiltin | DBFLAG_Vacuum)
*(*U64)(unsafe.Pointer(db + 48)) &= libc.CplUint64(uint64(SQLITE_ForeignKeys|SQLITE_ReverseOrder|
SQLITE_Defensive) | uint64(0x00001)<<32)
(*Sqlite3)(unsafe.Pointer(db)).FmTrace = U8(0)
zDbMain = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
pMain = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpBt
isMemDb = Xsqlite3PagerIsMemdb(tls, Xsqlite3BtreePager(tls, pMain))
nDb = (*Sqlite3)(unsafe.Pointer(db)).FnDb
rc = execSqlF(tls, db, pzErrMsg, ts+21196, libc.VaList(bp, zOut))
(*Sqlite3)(unsafe.Pointer(db)).FopenFlags = saved_openFlags
if !(rc != SQLITE_OK) {
goto __6
}
goto end_of_vacuum
__6:
;
pDb = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(nDb)*32
pTemp = (*Db)(unsafe.Pointer(pDb)).FpBt
if !(pOut != 0) {
goto __7
}
id = Xsqlite3PagerFile(tls, Xsqlite3BtreePager(tls, pTemp))
*(*I64)(unsafe.Pointer(bp + 40)) = int64(0)
if !((*Sqlite3_file)(unsafe.Pointer(id)).FpMethods != uintptr(0) && (Xsqlite3OsFileSize(tls, id, bp+40) != SQLITE_OK || *(*I64)(unsafe.Pointer(bp + 40)) > int64(0))) {
goto __8
}
rc = SQLITE_ERROR
Xsqlite3SetString(tls, pzErrMsg, db, ts+21219)
goto end_of_vacuum
__8:
;
*(*U32)(unsafe.Pointer(db + 44)) |= U32(DBFLAG_VacuumInto)
pgflags = U32(U64((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).Fsafety_level) | (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(PAGER_FLAGS_MASK))
__7:
;
nRes = Xsqlite3BtreeGetRequestedReserve(tls, pMain)
Xsqlite3BtreeSetCacheSize(tls, pTemp, (*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FpSchema)).Fcache_size)
Xsqlite3BtreeSetSpillSize(tls, pTemp, Xsqlite3BtreeSetSpillSize(tls, pMain, 0))
Xsqlite3BtreeSetPagerFlags(tls, pTemp, pgflags|U32(PAGER_CACHESPILL))
rc = execSql(tls, db, pzErrMsg, ts+14906)
if !(rc != SQLITE_OK) {
goto __9
}
goto end_of_vacuum
__9:
;
rc = Xsqlite3BtreeBeginTrans(tls, pMain, func() int32 {
if pOut == uintptr(0) {
return 2
}
return 0
}(), uintptr(0))
if !(rc != SQLITE_OK) {
goto __10
}
goto end_of_vacuum
__10:
;
if !(Xsqlite3PagerGetJournalMode(tls, Xsqlite3BtreePager(tls, pMain)) ==
PAGER_JOURNALMODE_WAL &&
pOut == uintptr(0)) {
goto __11
}
(*Sqlite3)(unsafe.Pointer(db)).FnextPagesize = 0
__11:
;
if !(Xsqlite3BtreeSetPageSize(tls, pTemp, Xsqlite3BtreeGetPageSize(tls, pMain), nRes, 0) != 0 ||
!(isMemDb != 0) && Xsqlite3BtreeSetPageSize(tls, pTemp, (*Sqlite3)(unsafe.Pointer(db)).FnextPagesize, nRes, 0) != 0 ||
(*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __12
}
rc = SQLITE_NOMEM
goto end_of_vacuum
__12:
;
Xsqlite3BtreeSetAutoVacuum(tls, pTemp, func() int32 {
if int32((*Sqlite3)(unsafe.Pointer(db)).FnextAutovac) >= 0 {
return int32((*Sqlite3)(unsafe.Pointer(db)).FnextAutovac)
}
return Xsqlite3BtreeGetAutoVacuum(tls, pMain)
}())
(*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb = U8(nDb)
rc = execSqlF(tls, db, pzErrMsg,
ts+21246,
libc.VaList(bp+8, zDbMain))
if !(rc != SQLITE_OK) {
goto __13
}
goto end_of_vacuum
__13:
;
rc = execSqlF(tls, db, pzErrMsg,
ts+21354,
libc.VaList(bp+16, zDbMain))
if !(rc != SQLITE_OK) {
goto __14
}
goto end_of_vacuum
__14:
;
(*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb = U8(0)
rc = execSqlF(tls, db, pzErrMsg,
ts+21408,
libc.VaList(bp+24, zDbMain))
*(*U32)(unsafe.Pointer(db + 44)) &= libc.Uint32FromInt32(libc.CplInt32(DBFLAG_Vacuum))
if !(rc != SQLITE_OK) {
goto __15
}
goto end_of_vacuum
__15:
;
rc = execSqlF(tls, db, pzErrMsg,
ts+21559,
libc.VaList(bp+32, zDbMain))
if !(rc != 0) {
goto __16
}
goto end_of_vacuum
__16:
;
i = 0
__17:
if !(i < int32(uint64(unsafe.Sizeof(aCopy))/uint64(unsafe.Sizeof(uint8(0))))) {
goto __19
}
Xsqlite3BtreeGetMeta(tls, pMain, int32(aCopy[i]), bp+48)
rc = Xsqlite3BtreeUpdateMeta(tls, pTemp, int32(aCopy[i]), *(*U32)(unsafe.Pointer(bp + 48))+U32(aCopy[i+1]))
if !(rc != SQLITE_OK) {
goto __20
}
goto end_of_vacuum
__20:
;
goto __18
__18:
i = i + 2
goto __17
goto __19
__19:
;
if !(pOut == uintptr(0)) {
goto __21
}
rc = Xsqlite3BtreeCopyFile(tls, pMain, pTemp)
__21:
;
if !(rc != SQLITE_OK) {
goto __22
}
goto end_of_vacuum
__22:
;
rc = Xsqlite3BtreeCommit(tls, pTemp)
if !(rc != SQLITE_OK) {
goto __23
}
goto end_of_vacuum
__23:
;
if !(pOut == uintptr(0)) {
goto __24
}
Xsqlite3BtreeSetAutoVacuum(tls, pMain, Xsqlite3BtreeGetAutoVacuum(tls, pTemp))
__24:
;
if !(pOut == uintptr(0)) {
goto __25
}
nRes = Xsqlite3BtreeGetRequestedReserve(tls, pTemp)
rc = Xsqlite3BtreeSetPageSize(tls, pMain, Xsqlite3BtreeGetPageSize(tls, pTemp), nRes, 1)
__25:
;
end_of_vacuum:
(*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb = U8(0)
(*Sqlite3)(unsafe.Pointer(db)).FmDbFlags = saved_mDbFlags
(*Sqlite3)(unsafe.Pointer(db)).Fflags = saved_flags
(*Sqlite3)(unsafe.Pointer(db)).FnChange = saved_nChange
(*Sqlite3)(unsafe.Pointer(db)).FnTotalChange = saved_nTotalChange
(*Sqlite3)(unsafe.Pointer(db)).FmTrace = saved_mTrace
Xsqlite3BtreeSetPageSize(tls, pMain, -1, 0, 1)
(*Sqlite3)(unsafe.Pointer(db)).FautoCommit = U8(1)
if !(pDb != 0) {
goto __26
}
Xsqlite3BtreeClose(tls, (*Db)(unsafe.Pointer(pDb)).FpBt)
(*Db)(unsafe.Pointer(pDb)).FpBt = uintptr(0)
(*Db)(unsafe.Pointer(pDb)).FpSchema = uintptr(0)
__26:
;
Xsqlite3ResetAllSchemasOfConnection(tls, db)
return rc
}
var aCopy = [10]uint8{
uint8(BTREE_SCHEMA_VERSION), uint8(1),
uint8(BTREE_DEFAULT_CACHE_SIZE), uint8(0),
uint8(BTREE_TEXT_ENCODING), uint8(0),
uint8(BTREE_USER_VERSION), uint8(0),
uint8(BTREE_APPLICATION_ID), uint8(0),
}
// Construct and install a Module object for a virtual table. When this
// routine is called, it is guaranteed that all appropriate locks are held
// and the module is not already part of the connection.
//
// If there already exists a module with zName, replace it with the new one.
// If pModule==0, then delete the module zName if it exists.
func Xsqlite3VtabCreateModule(tls *libc.TLS, db uintptr, zName uintptr, pModule uintptr, pAux uintptr, xDestroy uintptr) uintptr {
var pMod uintptr
var pDel uintptr
var zCopy uintptr
if pModule == uintptr(0) {
zCopy = zName
pMod = uintptr(0)
} else {
var nName int32 = Xsqlite3Strlen30(tls, zName)
pMod = Xsqlite3Malloc(tls, uint64(unsafe.Sizeof(Module{}))+uint64(nName)+uint64(1))
if pMod == uintptr(0) {
Xsqlite3OomFault(tls, db)
return uintptr(0)
}
zCopy = pMod + 1*48
libc.X__builtin___memcpy_chk(tls, zCopy, zName, uint64(nName+1), libc.X__builtin_object_size(tls, zCopy, 0))
(*Module)(unsafe.Pointer(pMod)).FzName = zCopy
(*Module)(unsafe.Pointer(pMod)).FpModule = pModule
(*Module)(unsafe.Pointer(pMod)).FpAux = pAux
(*Module)(unsafe.Pointer(pMod)).FxDestroy = xDestroy
(*Module)(unsafe.Pointer(pMod)).FpEpoTab = uintptr(0)
(*Module)(unsafe.Pointer(pMod)).FnRefModule = 1
}
pDel = Xsqlite3HashInsert(tls, db+576, zCopy, pMod)
if pDel != 0 {
if pDel == pMod {
Xsqlite3OomFault(tls, db)
Xsqlite3DbFree(tls, db, pDel)
pMod = uintptr(0)
} else {
Xsqlite3VtabEponymousTableClear(tls, db, pDel)
Xsqlite3VtabModuleUnref(tls, db, pDel)
}
}
return pMod
}
func createModule(tls *libc.TLS, db uintptr, zName uintptr, pModule uintptr, pAux uintptr, xDestroy uintptr) int32 {
var rc int32 = SQLITE_OK
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
Xsqlite3VtabCreateModule(tls, db, zName, pModule, pAux, xDestroy)
rc = Xsqlite3ApiExit(tls, db, rc)
if rc != SQLITE_OK && xDestroy != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{xDestroy})).f(tls, pAux)
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// External API function used to create a new virtual-table module.
func Xsqlite3_create_module(tls *libc.TLS, db uintptr, zName uintptr, pModule uintptr, pAux uintptr) int32 {
return createModule(tls, db, zName, pModule, pAux, uintptr(0))
}
// External API function used to create a new virtual-table module.
func Xsqlite3_create_module_v2(tls *libc.TLS, db uintptr, zName uintptr, pModule uintptr, pAux uintptr, xDestroy uintptr) int32 {
return createModule(tls, db, zName, pModule, pAux, xDestroy)
}
// External API to drop all virtual-table modules, except those named
// on the azNames list.
func Xsqlite3_drop_modules(tls *libc.TLS, db uintptr, azNames uintptr) int32 {
var pThis uintptr
var pNext uintptr
for pThis = (*Hash)(unsafe.Pointer(db + 576)).Ffirst; pThis != 0; pThis = pNext {
var pMod uintptr = (*HashElem)(unsafe.Pointer(pThis)).Fdata
pNext = (*HashElem)(unsafe.Pointer(pThis)).Fnext
if azNames != 0 {
var ii int32
for ii = 0; *(*uintptr)(unsafe.Pointer(azNames + uintptr(ii)*8)) != uintptr(0) && libc.Xstrcmp(tls, *(*uintptr)(unsafe.Pointer(azNames + uintptr(ii)*8)), (*Module)(unsafe.Pointer(pMod)).FzName) != 0; ii++ {
}
if *(*uintptr)(unsafe.Pointer(azNames + uintptr(ii)*8)) != uintptr(0) {
continue
}
}
createModule(tls, db, (*Module)(unsafe.Pointer(pMod)).FzName, uintptr(0), uintptr(0), uintptr(0))
}
return SQLITE_OK
}
// Decrement the reference count on a Module object. Destroy the
// module when the reference count reaches zero.
func Xsqlite3VtabModuleUnref(tls *libc.TLS, db uintptr, pMod uintptr) {
(*Module)(unsafe.Pointer(pMod)).FnRefModule--
if (*Module)(unsafe.Pointer(pMod)).FnRefModule == 0 {
if (*Module)(unsafe.Pointer(pMod)).FxDestroy != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*Module)(unsafe.Pointer(pMod)).FxDestroy})).f(tls, (*Module)(unsafe.Pointer(pMod)).FpAux)
}
Xsqlite3DbFree(tls, db, pMod)
}
}
// Lock the virtual table so that it cannot be disconnected.
// Locks nest. Every lock should have a corresponding unlock.
// If an unlock is omitted, resources leaks will occur.
//
// If a disconnect is attempted while a virtual table is locked,
// the disconnect is deferred until all locks have been removed.
func Xsqlite3VtabLock(tls *libc.TLS, pVTab uintptr) {
(*VTable)(unsafe.Pointer(pVTab)).FnRef++
}
// pTab is a pointer to a Table structure representing a virtual-table.
// Return a pointer to the VTable object used by connection db to access
// this virtual-table, if one has been created, or NULL otherwise.
func Xsqlite3GetVTable(tls *libc.TLS, db uintptr, pTab uintptr) uintptr {
var pVtab uintptr
for pVtab = *(*uintptr)(unsafe.Pointer(pTab + 64 + 16)); pVtab != 0 && (*VTable)(unsafe.Pointer(pVtab)).Fdb != db; pVtab = (*VTable)(unsafe.Pointer(pVtab)).FpNext {
}
return pVtab
}
// Decrement the ref-count on a virtual table object. When the ref-count
// reaches zero, call the xDisconnect() method to delete the object.
func Xsqlite3VtabUnlock(tls *libc.TLS, pVTab uintptr) {
var db uintptr = (*VTable)(unsafe.Pointer(pVTab)).Fdb
(*VTable)(unsafe.Pointer(pVTab)).FnRef--
if (*VTable)(unsafe.Pointer(pVTab)).FnRef == 0 {
var p uintptr = (*VTable)(unsafe.Pointer(pVTab)).FpVtab
if p != 0 {
(*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer((*Sqlite3_vtab)(unsafe.Pointer(p)).FpModule)).FxDisconnect})).f(tls, p)
}
Xsqlite3VtabModuleUnref(tls, (*VTable)(unsafe.Pointer(pVTab)).Fdb, (*VTable)(unsafe.Pointer(pVTab)).FpMod)
Xsqlite3DbFree(tls, db, pVTab)
}
}
func vtabDisconnectAll(tls *libc.TLS, db uintptr, p uintptr) uintptr {
var pRet uintptr = uintptr(0)
var pVTable uintptr
pVTable = *(*uintptr)(unsafe.Pointer(p + 64 + 16))
*(*uintptr)(unsafe.Pointer(p + 64 + 16)) = uintptr(0)
for pVTable != 0 {
var db2 uintptr = (*VTable)(unsafe.Pointer(pVTable)).Fdb
var pNext uintptr = (*VTable)(unsafe.Pointer(pVTable)).FpNext
if db2 == db {
pRet = pVTable
*(*uintptr)(unsafe.Pointer(p + 64 + 16)) = pRet
(*VTable)(unsafe.Pointer(pRet)).FpNext = uintptr(0)
} else {
(*VTable)(unsafe.Pointer(pVTable)).FpNext = (*Sqlite3)(unsafe.Pointer(db2)).FpDisconnect
(*Sqlite3)(unsafe.Pointer(db2)).FpDisconnect = pVTable
}
pVTable = pNext
}
return pRet
}
// Table *p is a virtual table. This function removes the VTable object
// for table *p associated with database connection db from the linked
// list in p->pVTab. It also decrements the VTable ref count. This is
// used when closing database connection db to free all of its VTable
// objects without disturbing the rest of the Schema object (which may
// be being used by other shared-cache connections).
func Xsqlite3VtabDisconnect(tls *libc.TLS, db uintptr, p uintptr) {
var ppVTab uintptr
for ppVTab = p + 64 + 16; *(*uintptr)(unsafe.Pointer(ppVTab)) != 0; ppVTab = *(*uintptr)(unsafe.Pointer(ppVTab)) + 40 {
if (*VTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ppVTab)))).Fdb == db {
var pVTab uintptr = *(*uintptr)(unsafe.Pointer(ppVTab))
*(*uintptr)(unsafe.Pointer(ppVTab)) = (*VTable)(unsafe.Pointer(pVTab)).FpNext
Xsqlite3VtabUnlock(tls, pVTab)
break
}
}
}
// Disconnect all the virtual table objects in the sqlite3.pDisconnect list.
//
// This function may only be called when the mutexes associated with all
// shared b-tree databases opened using connection db are held by the
// caller. This is done to protect the sqlite3.pDisconnect list. The
// sqlite3.pDisconnect list is accessed only as follows:
//
// 1. By this function. In this case, all BtShared mutexes and the mutex
// associated with the database handle itself must be held.
//
// 2. By function vtabDisconnectAll(), when it adds a VTable entry to
// the sqlite3.pDisconnect list. In this case either the BtShared mutex
// associated with the database the virtual table is stored in is held
// or, if the virtual table is stored in a non-sharable database, then
// the database handle mutex is held.
//
// As a result, a sqlite3.pDisconnect cannot be accessed simultaneously
// by multiple threads. It is thread-safe.
func Xsqlite3VtabUnlockList(tls *libc.TLS, db uintptr) {
var p uintptr = (*Sqlite3)(unsafe.Pointer(db)).FpDisconnect
if p != 0 {
(*Sqlite3)(unsafe.Pointer(db)).FpDisconnect = uintptr(0)
Xsqlite3ExpirePreparedStatements(tls, db, 0)
for __ccgo := true; __ccgo; __ccgo = p != 0 {
var pNext uintptr = (*VTable)(unsafe.Pointer(p)).FpNext
Xsqlite3VtabUnlock(tls, p)
p = pNext
}
}
}
// Clear any and all virtual-table information from the Table record.
// This routine is called, for example, just before deleting the Table
// record.
//
// Since it is a virtual-table, the Table structure contains a pointer
// to the head of a linked list of VTable structures. Each VTable
// structure is associated with a single sqlite3* user of the schema.
// The reference count of the VTable structure associated with database
// connection db is decremented immediately (which may lead to the
// structure being xDisconnected and free). Any other VTable structures
// in the list are moved to the sqlite3.pDisconnect list of the associated
// database connection.
func Xsqlite3VtabClear(tls *libc.TLS, db uintptr, p uintptr) {
if (*Sqlite3)(unsafe.Pointer(db)).FpnBytesFreed == uintptr(0) {
vtabDisconnectAll(tls, uintptr(0), p)
}
if *(*uintptr)(unsafe.Pointer(p + 64 + 8)) != 0 {
var i int32
for i = 0; i < *(*int32)(unsafe.Pointer(p + 64)); i++ {
if i != 1 {
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 64 + 8)) + uintptr(i)*8)))
}
}
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(p + 64 + 8)))
}
}
func addModuleArgument(tls *libc.TLS, pParse uintptr, pTable uintptr, zArg uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var nBytes Sqlite3_int64
var azModuleArg uintptr
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
nBytes = Sqlite3_int64(uint64(unsafe.Sizeof(uintptr(0))) * uint64(2+*(*int32)(unsafe.Pointer(pTable + 64))))
if *(*int32)(unsafe.Pointer(pTable + 64))+3 >= *(*int32)(unsafe.Pointer(db + 136 + 2*4)) {
Xsqlite3ErrorMsg(tls, pParse, ts+12780, libc.VaList(bp, (*Table)(unsafe.Pointer(pTable)).FzName))
}
azModuleArg = Xsqlite3DbRealloc(tls, db, *(*uintptr)(unsafe.Pointer(pTable + 64 + 8)), uint64(nBytes))
if azModuleArg == uintptr(0) {
Xsqlite3DbFree(tls, db, zArg)
} else {
var i int32 = libc.PostIncInt32(&*(*int32)(unsafe.Pointer(pTable + 64)), 1)
*(*uintptr)(unsafe.Pointer(azModuleArg + uintptr(i)*8)) = zArg
*(*uintptr)(unsafe.Pointer(azModuleArg + uintptr(i+1)*8)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(pTable + 64 + 8)) = azModuleArg
}
}
// The parser calls this routine when it first sees a CREATE VIRTUAL TABLE
// statement. The module name has been parsed, but the optional list
// of parameters that follow the module name are still pending.
func Xsqlite3VtabBeginParse(tls *libc.TLS, pParse uintptr, pName1 uintptr, pName2 uintptr, pModuleName uintptr, ifNotExists int32) {
var pTable uintptr
var db uintptr
Xsqlite3StartTable(tls, pParse, pName1, pName2, 0, 0, 1, ifNotExists)
pTable = (*Parse)(unsafe.Pointer(pParse)).FpNewTable
if pTable == uintptr(0) {
return
}
(*Table)(unsafe.Pointer(pTable)).FeTabType = U8(TABTYP_VTAB)
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
addModuleArgument(tls, pParse, pTable, Xsqlite3NameFromToken(tls, db, pModuleName))
addModuleArgument(tls, pParse, pTable, uintptr(0))
addModuleArgument(tls, pParse, pTable, Xsqlite3DbStrDup(tls, db, (*Table)(unsafe.Pointer(pTable)).FzName))
(*Parse)(unsafe.Pointer(pParse)).FsNameToken.Fn = uint32(int32((int64((*Token)(unsafe.Pointer(pModuleName)).Fz+uintptr((*Token)(unsafe.Pointer(pModuleName)).Fn)) - int64((*Parse)(unsafe.Pointer(pParse)).FsNameToken.Fz)) / 1))
if *(*uintptr)(unsafe.Pointer(pTable + 64 + 8)) != 0 {
var iDb int32 = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTable)).FpSchema)
Xsqlite3AuthCheck(tls, pParse, SQLITE_CREATE_VTABLE, (*Table)(unsafe.Pointer(pTable)).FzName,
*(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pTable + 64 + 8)))), (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FaDb+uintptr(iDb)*32)).FzDbSName)
}
}
func addArgumentToVtab(tls *libc.TLS, pParse uintptr) {
if (*Parse)(unsafe.Pointer(pParse)).FsArg.Fz != 0 && (*Parse)(unsafe.Pointer(pParse)).FpNewTable != 0 {
var z uintptr = (*Parse)(unsafe.Pointer(pParse)).FsArg.Fz
var n int32 = int32((*Parse)(unsafe.Pointer(pParse)).FsArg.Fn)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
addModuleArgument(tls, pParse, (*Parse)(unsafe.Pointer(pParse)).FpNewTable, Xsqlite3DbStrNDup(tls, db, z, uint64(n)))
}
}
// The parser calls this routine after the CREATE VIRTUAL TABLE statement
// has been completely parsed.
func Xsqlite3VtabFinishParse(tls *libc.TLS, pParse uintptr, pEnd uintptr) {
bp := tls.Alloc(64)
defer tls.Free(64)
var pTab uintptr = (*Parse)(unsafe.Pointer(pParse)).FpNewTable
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if pTab == uintptr(0) {
return
}
addArgumentToVtab(tls, pParse)
(*Parse)(unsafe.Pointer(pParse)).FsArg.Fz = uintptr(0)
if *(*int32)(unsafe.Pointer(pTab + 64)) < 1 {
return
}
if !(int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) != 0) {
var zStmt uintptr
var zWhere uintptr
var iDb int32
var iReg int32
var v uintptr
Xsqlite3MayAbort(tls, pParse)
if pEnd != 0 {
(*Parse)(unsafe.Pointer(pParse)).FsNameToken.Fn = uint32(int32((int64((*Token)(unsafe.Pointer(pEnd)).Fz)-int64((*Parse)(unsafe.Pointer(pParse)).FsNameToken.Fz))/1)) + (*Token)(unsafe.Pointer(pEnd)).Fn
}
zStmt = Xsqlite3MPrintf(tls, db, ts+21689, libc.VaList(bp, pParse+272))
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
Xsqlite3NestedParse(tls, pParse,
ts+21713,
libc.VaList(bp+8, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName,
(*Table)(unsafe.Pointer(pTab)).FzName,
(*Table)(unsafe.Pointer(pTab)).FzName,
zStmt,
(*Parse)(unsafe.Pointer(pParse)).FregRowid))
v = Xsqlite3GetVdbe(tls, pParse)
Xsqlite3ChangeCookie(tls, pParse, iDb)
Xsqlite3VdbeAddOp0(tls, v, OP_Expire)
zWhere = Xsqlite3MPrintf(tls, db, ts+21812, libc.VaList(bp+48, (*Table)(unsafe.Pointer(pTab)).FzName, zStmt))
Xsqlite3VdbeAddParseSchemaOp(tls, v, iDb, zWhere, uint16(0))
Xsqlite3DbFree(tls, db, zStmt)
iReg = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeLoadString(tls, v, iReg, (*Table)(unsafe.Pointer(pTab)).FzName)
Xsqlite3VdbeAddOp2(tls, v, OP_VCreate, iDb, iReg)
} else {
var pOld uintptr
var pSchema uintptr = (*Table)(unsafe.Pointer(pTab)).FpSchema
var zName uintptr = (*Table)(unsafe.Pointer(pTab)).FzName
Xsqlite3MarkAllShadowTablesOf(tls, db, pTab)
pOld = Xsqlite3HashInsert(tls, pSchema+8, zName, pTab)
if pOld != 0 {
Xsqlite3OomFault(tls, db)
return
}
(*Parse)(unsafe.Pointer(pParse)).FpNewTable = uintptr(0)
}
}
// The parser calls this routine when it sees the first token
// of an argument to the module name in a CREATE VIRTUAL TABLE statement.
func Xsqlite3VtabArgInit(tls *libc.TLS, pParse uintptr) {
addArgumentToVtab(tls, pParse)
(*Parse)(unsafe.Pointer(pParse)).FsArg.Fz = uintptr(0)
(*Parse)(unsafe.Pointer(pParse)).FsArg.Fn = uint32(0)
}
// The parser calls this routine for each token after the first token
// in an argument to the module name in a CREATE VIRTUAL TABLE statement.
func Xsqlite3VtabArgExtend(tls *libc.TLS, pParse uintptr, p uintptr) {
var pArg uintptr = pParse + 384
if (*Token)(unsafe.Pointer(pArg)).Fz == uintptr(0) {
(*Token)(unsafe.Pointer(pArg)).Fz = (*Token)(unsafe.Pointer(p)).Fz
(*Token)(unsafe.Pointer(pArg)).Fn = (*Token)(unsafe.Pointer(p)).Fn
} else {
(*Token)(unsafe.Pointer(pArg)).Fn = uint32(int32((int64((*Token)(unsafe.Pointer(p)).Fz+uintptr((*Token)(unsafe.Pointer(p)).Fn)) - int64((*Token)(unsafe.Pointer(pArg)).Fz)) / 1))
}
}
func vtabCallConstructor(tls *libc.TLS, db uintptr, pTab uintptr, pMod uintptr, xConstruct uintptr, pzErr uintptr) int32 {
bp := tls.Alloc(72)
defer tls.Free(72)
var pVTable uintptr
var rc int32
var azArg uintptr
var nArg int32 = *(*int32)(unsafe.Pointer(pTab + 64))
*(*uintptr)(unsafe.Pointer(bp + 64)) = uintptr(0)
var zModuleName uintptr
var iDb int32
var pCtx uintptr
azArg = *(*uintptr)(unsafe.Pointer(pTab + 64 + 8))
for pCtx = (*Sqlite3)(unsafe.Pointer(db)).FpVtabCtx; pCtx != 0; pCtx = (*VtabCtx)(unsafe.Pointer(pCtx)).FpPrior {
if (*VtabCtx)(unsafe.Pointer(pCtx)).FpTab == pTab {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3MPrintf(tls, db,
ts+21831, libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName))
return SQLITE_LOCKED
}
}
zModuleName = Xsqlite3DbStrDup(tls, db, (*Table)(unsafe.Pointer(pTab)).FzName)
if !(zModuleName != 0) {
return SQLITE_NOMEM
}
pVTable = Xsqlite3MallocZero(tls, uint64(unsafe.Sizeof(VTable{})))
if !(pVTable != 0) {
Xsqlite3OomFault(tls, db)
Xsqlite3DbFree(tls, db, zModuleName)
return SQLITE_NOMEM
}
(*VTable)(unsafe.Pointer(pVTable)).Fdb = db
(*VTable)(unsafe.Pointer(pVTable)).FpMod = pMod
(*VTable)(unsafe.Pointer(pVTable)).FeVtabRisk = U8(SQLITE_VTABRISK_Normal)
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
*(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pTab + 64 + 8)) + 1*8)) = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FzDbSName
(*VtabCtx)(unsafe.Pointer(bp + 32)).FpTab = pTab
(*VtabCtx)(unsafe.Pointer(bp + 32)).FpVTable = pVTable
(*VtabCtx)(unsafe.Pointer(bp + 32)).FpPrior = (*Sqlite3)(unsafe.Pointer(db)).FpVtabCtx
(*VtabCtx)(unsafe.Pointer(bp + 32)).FbDeclared = 0
(*Sqlite3)(unsafe.Pointer(db)).FpVtabCtx = bp + 32
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xConstruct})).f(tls, db, (*Module)(unsafe.Pointer(pMod)).FpAux, nArg, azArg, pVTable+16, bp+64)
(*Sqlite3)(unsafe.Pointer(db)).FpVtabCtx = (*VtabCtx)(unsafe.Pointer(bp + 32)).FpPrior
if rc == SQLITE_NOMEM {
Xsqlite3OomFault(tls, db)
}
if SQLITE_OK != rc {
if *(*uintptr)(unsafe.Pointer(bp + 64)) == uintptr(0) {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3MPrintf(tls, db, ts+21873, libc.VaList(bp+8, zModuleName))
} else {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3MPrintf(tls, db, ts+3658, libc.VaList(bp+16, *(*uintptr)(unsafe.Pointer(bp + 64))))
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 64)))
}
Xsqlite3DbFree(tls, db, pVTable)
} else if (*VTable)(unsafe.Pointer(pVTable)).FpVtab != 0 {
libc.X__builtin___memset_chk(tls, (*VTable)(unsafe.Pointer(pVTable)).FpVtab, 0, uint64(unsafe.Sizeof(Sqlite3_vtab{})), libc.X__builtin_object_size(tls, (*VTable)(unsafe.Pointer(pVTable)).FpVtab, 0))
(*Sqlite3_vtab)(unsafe.Pointer((*VTable)(unsafe.Pointer(pVTable)).FpVtab)).FpModule = (*Module)(unsafe.Pointer(pMod)).FpModule
(*Module)(unsafe.Pointer(pMod)).FnRefModule++
(*VTable)(unsafe.Pointer(pVTable)).FnRef = 1
if (*VtabCtx)(unsafe.Pointer(bp+32)).FbDeclared == 0 {
var zFormat uintptr = ts + 21903
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3MPrintf(tls, db, zFormat, libc.VaList(bp+24, (*Table)(unsafe.Pointer(pTab)).FzName))
Xsqlite3VtabUnlock(tls, pVTable)
rc = SQLITE_ERROR
} else {
var iCol int32
var oooHidden U16 = U16(0)
(*VTable)(unsafe.Pointer(pVTable)).FpNext = *(*uintptr)(unsafe.Pointer(pTab + 64 + 16))
*(*uintptr)(unsafe.Pointer(pTab + 64 + 16)) = pVTable
for iCol = 0; iCol < int32((*Table)(unsafe.Pointer(pTab)).FnCol); iCol++ {
var zType uintptr = Xsqlite3ColumnType(tls, (*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(iCol)*24, ts+1547)
var nType int32
var i int32 = 0
nType = Xsqlite3Strlen30(tls, zType)
for i = 0; i < nType; i++ {
if 0 == Xsqlite3_strnicmp(tls, ts+16564, zType+uintptr(i), 6) &&
(i == 0 || int32(*(*int8)(unsafe.Pointer(zType + uintptr(i-1)))) == ' ') &&
(int32(*(*int8)(unsafe.Pointer(zType + uintptr(i+6)))) == 0 || int32(*(*int8)(unsafe.Pointer(zType + uintptr(i+6)))) == ' ') {
break
}
}
if i < nType {
var j int32
var nDel int32 = 6 + func() int32 {
if *(*int8)(unsafe.Pointer(zType + uintptr(i+6))) != 0 {
return 1
}
return 0
}()
for j = i; j+nDel <= nType; j++ {
*(*int8)(unsafe.Pointer(zType + uintptr(j))) = *(*int8)(unsafe.Pointer(zType + uintptr(j+nDel)))
}
if int32(*(*int8)(unsafe.Pointer(zType + uintptr(i)))) == 0 && i > 0 {
*(*int8)(unsafe.Pointer(zType + uintptr(i-1))) = int8(0)
}
*(*U16)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(iCol)*24 + 16)) |= U16(COLFLAG_HIDDEN)
*(*U32)(unsafe.Pointer(pTab + 48)) |= U32(TF_HasHidden)
oooHidden = U16(TF_OOOHidden)
} else {
*(*U32)(unsafe.Pointer(pTab + 48)) |= U32(oooHidden)
}
}
}
}
Xsqlite3DbFree(tls, db, zModuleName)
return rc
}
// This function is invoked by the parser to call the xConnect() method
// of the virtual table pTab. If an error occurs, an error code is returned
// and an error left in pParse.
//
// This call is a no-op if table pTab is not a virtual table.
func Xsqlite3VtabCallConnect(tls *libc.TLS, pParse uintptr, pTab uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var zMod uintptr
var pMod uintptr
var rc int32
if Xsqlite3GetVTable(tls, db, pTab) != 0 {
return SQLITE_OK
}
zMod = *(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pTab + 64 + 8))))
pMod = Xsqlite3HashFind(tls, db+576, zMod)
if !(pMod != 0) {
var zModule uintptr = *(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pTab + 64 + 8))))
Xsqlite3ErrorMsg(tls, pParse, ts+21949, libc.VaList(bp, zModule))
rc = SQLITE_ERROR
} else {
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
rc = vtabCallConstructor(tls, db, pTab, pMod, (*Sqlite3_module)(unsafe.Pointer((*Module)(unsafe.Pointer(pMod)).FpModule)).FxConnect, bp+16)
if rc != SQLITE_OK {
Xsqlite3ErrorMsg(tls, pParse, ts+3658, libc.VaList(bp+8, *(*uintptr)(unsafe.Pointer(bp + 16))))
(*Parse)(unsafe.Pointer(pParse)).Frc = rc
}
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 16)))
}
return rc
}
func growVTrans(tls *libc.TLS, db uintptr) int32 {
var ARRAY_INCR int32 = 5
if (*Sqlite3)(unsafe.Pointer(db)).FnVTrans%ARRAY_INCR == 0 {
var aVTrans uintptr
var nBytes Sqlite3_int64 = Sqlite3_int64(uint64(unsafe.Sizeof(uintptr(0))) * uint64(Sqlite3_int64((*Sqlite3)(unsafe.Pointer(db)).FnVTrans)+Sqlite3_int64(ARRAY_INCR)))
aVTrans = Xsqlite3DbRealloc(tls, db, (*Sqlite3)(unsafe.Pointer(db)).FaVTrans, uint64(nBytes))
if !(aVTrans != 0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, aVTrans+uintptr((*Sqlite3)(unsafe.Pointer(db)).FnVTrans)*8, 0, uint64(unsafe.Sizeof(uintptr(0)))*uint64(ARRAY_INCR), libc.X__builtin_object_size(tls, aVTrans+uintptr((*Sqlite3)(unsafe.Pointer(db)).FnVTrans)*8, 0))
(*Sqlite3)(unsafe.Pointer(db)).FaVTrans = aVTrans
}
return SQLITE_OK
}
func addToVTrans(tls *libc.TLS, db uintptr, pVTab uintptr) {
*(*uintptr)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaVTrans + uintptr(libc.PostIncInt32(&(*Sqlite3)(unsafe.Pointer(db)).FnVTrans, 1))*8)) = pVTab
Xsqlite3VtabLock(tls, pVTab)
}
// This function is invoked by the vdbe to call the xCreate method
// of the virtual table named zTab in database iDb.
//
// If an error occurs, *pzErr is set to point to an English language
// description of the error and an SQLITE_XXX error code is returned.
// In this case the caller must call sqlite3DbFree(db, ) on *pzErr.
func Xsqlite3VtabCallCreate(tls *libc.TLS, db uintptr, iDb int32, zTab uintptr, pzErr uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
var pTab uintptr
var pMod uintptr
var zMod uintptr
pTab = Xsqlite3FindTable(tls, db, zTab, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName)
zMod = *(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pTab + 64 + 8))))
pMod = Xsqlite3HashFind(tls, db+576, zMod)
if pMod == uintptr(0) || (*Sqlite3_module)(unsafe.Pointer((*Module)(unsafe.Pointer(pMod)).FpModule)).FxCreate == uintptr(0) || (*Sqlite3_module)(unsafe.Pointer((*Module)(unsafe.Pointer(pMod)).FpModule)).FxDestroy == uintptr(0) {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3MPrintf(tls, db, ts+21949, libc.VaList(bp, zMod))
rc = SQLITE_ERROR
} else {
rc = vtabCallConstructor(tls, db, pTab, pMod, (*Sqlite3_module)(unsafe.Pointer((*Module)(unsafe.Pointer(pMod)).FpModule)).FxCreate, pzErr)
}
if rc == SQLITE_OK && Xsqlite3GetVTable(tls, db, pTab) != 0 {
rc = growVTrans(tls, db)
if rc == SQLITE_OK {
addToVTrans(tls, db, Xsqlite3GetVTable(tls, db, pTab))
}
}
return rc
}
// This function is used to set the schema of a virtual table. It is only
// valid to call this function from within the xCreate() or xConnect() of a
// virtual table module.
func Xsqlite3_declare_vtab(tls *libc.TLS, db uintptr, zCreateTable uintptr) int32 {
bp := tls.Alloc(432)
defer tls.Free(432)
var pCtx uintptr
var rc int32 = SQLITE_OK
var pTab uintptr
var initBusy int32
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
pCtx = (*Sqlite3)(unsafe.Pointer(db)).FpVtabCtx
if !(pCtx != 0) || (*VtabCtx)(unsafe.Pointer(pCtx)).FbDeclared != 0 {
Xsqlite3Error(tls, db, SQLITE_MISUSE)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return Xsqlite3MisuseError(tls, 151030)
}
pTab = (*VtabCtx)(unsafe.Pointer(pCtx)).FpTab
Xsqlite3ParseObjectInit(tls, bp+8, db)
(*Parse)(unsafe.Pointer(bp + 8)).FeParseMode = U8(PARSE_MODE_DECLARE_VTAB)
(*Parse)(unsafe.Pointer(bp + 8)).FdisableTriggers = U8(1)
initBusy = int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy)
(*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy = U8(0)
(*Parse)(unsafe.Pointer(bp + 8)).FnQueryLoop = U32(1)
if SQLITE_OK == Xsqlite3RunParser(tls, bp+8, zCreateTable) &&
(*Parse)(unsafe.Pointer(bp+8)).FpNewTable != uintptr(0) &&
!(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) &&
int32((*Table)(unsafe.Pointer((*Parse)(unsafe.Pointer(bp+8)).FpNewTable)).FeTabType) == TABTYP_NORM {
if !(int32((*Table)(unsafe.Pointer(pTab)).FaCol) != 0) {
var pNew uintptr = (*Parse)(unsafe.Pointer(bp + 8)).FpNewTable
var pIdx uintptr
(*Table)(unsafe.Pointer(pTab)).FaCol = (*Table)(unsafe.Pointer(pNew)).FaCol
Xsqlite3ExprListDelete(tls, db, *(*uintptr)(unsafe.Pointer(pNew + 64 + 16)))
(*Table)(unsafe.Pointer(pTab)).FnNVCol = libc.AssignPtrInt16(pTab+54, (*Table)(unsafe.Pointer(pNew)).FnCol)
*(*U32)(unsafe.Pointer(pTab + 48)) |= (*Table)(unsafe.Pointer(pNew)).FtabFlags & U32(TF_WithoutRowid|TF_NoVisibleRowid)
(*Table)(unsafe.Pointer(pNew)).FnCol = int16(0)
(*Table)(unsafe.Pointer(pNew)).FaCol = uintptr(0)
if !((*Table)(unsafe.Pointer(pNew)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) &&
(*Sqlite3_module)(unsafe.Pointer((*Module)(unsafe.Pointer((*VTable)(unsafe.Pointer((*VtabCtx)(unsafe.Pointer(pCtx)).FpVTable)).FpMod)).FpModule)).FxUpdate != uintptr(0) &&
int32((*Index)(unsafe.Pointer(Xsqlite3PrimaryKeyIndex(tls, pNew))).FnKeyCol) != 1 {
rc = SQLITE_ERROR
}
pIdx = (*Table)(unsafe.Pointer(pNew)).FpIndex
if pIdx != 0 {
(*Table)(unsafe.Pointer(pTab)).FpIndex = pIdx
(*Table)(unsafe.Pointer(pNew)).FpIndex = uintptr(0)
(*Index)(unsafe.Pointer(pIdx)).FpTable = pTab
}
}
(*VtabCtx)(unsafe.Pointer(pCtx)).FbDeclared = 1
} else {
Xsqlite3ErrorWithMsg(tls, db, SQLITE_ERROR,
func() uintptr {
if (*Parse)(unsafe.Pointer(bp+8)).FzErrMsg != 0 {
return ts + 3658
}
return uintptr(0)
}(), libc.VaList(bp, (*Parse)(unsafe.Pointer(bp+8)).FzErrMsg))
Xsqlite3DbFree(tls, db, (*Parse)(unsafe.Pointer(bp+8)).FzErrMsg)
rc = SQLITE_ERROR
}
(*Parse)(unsafe.Pointer(bp + 8)).FeParseMode = U8(PARSE_MODE_NORMAL)
if (*Parse)(unsafe.Pointer(bp+8)).FpVdbe != 0 {
Xsqlite3VdbeFinalize(tls, (*Parse)(unsafe.Pointer(bp+8)).FpVdbe)
}
Xsqlite3DeleteTable(tls, db, (*Parse)(unsafe.Pointer(bp+8)).FpNewTable)
Xsqlite3ParseObjectReset(tls, bp+8)
(*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy = U8(initBusy)
rc = Xsqlite3ApiExit(tls, db, rc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// This function is invoked by the vdbe to call the xDestroy method
// of the virtual table named zTab in database iDb. This occurs
// when a DROP TABLE is mentioned.
//
// This call is a no-op if zTab is not a virtual table.
func Xsqlite3VtabCallDestroy(tls *libc.TLS, db uintptr, iDb int32, zTab uintptr) int32 {
var rc int32 = SQLITE_OK
var pTab uintptr
pTab = Xsqlite3FindTable(tls, db, zTab, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(iDb)*32)).FzDbSName)
if pTab != uintptr(0) &&
int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB &&
*(*uintptr)(unsafe.Pointer(pTab + 64 + 16)) != uintptr(0) {
var p uintptr
var xDestroy uintptr
for p = *(*uintptr)(unsafe.Pointer(pTab + 64 + 16)); p != 0; p = (*VTable)(unsafe.Pointer(p)).FpNext {
if (*Sqlite3_vtab)(unsafe.Pointer((*VTable)(unsafe.Pointer(p)).FpVtab)).FnRef > 0 {
return SQLITE_LOCKED
}
}
p = vtabDisconnectAll(tls, db, pTab)
xDestroy = (*Sqlite3_module)(unsafe.Pointer((*Module)(unsafe.Pointer((*VTable)(unsafe.Pointer(p)).FpMod)).FpModule)).FxDestroy
if xDestroy == uintptr(0) {
xDestroy = (*Sqlite3_module)(unsafe.Pointer((*Module)(unsafe.Pointer((*VTable)(unsafe.Pointer(p)).FpMod)).FpModule)).FxDisconnect
}
(*Table)(unsafe.Pointer(pTab)).FnTabRef++
rc = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xDestroy})).f(tls, (*VTable)(unsafe.Pointer(p)).FpVtab)
if rc == SQLITE_OK {
(*VTable)(unsafe.Pointer(p)).FpVtab = uintptr(0)
*(*uintptr)(unsafe.Pointer(pTab + 64 + 16)) = uintptr(0)
Xsqlite3VtabUnlock(tls, p)
}
Xsqlite3DeleteTable(tls, db, pTab)
}
return rc
}
func callFinaliser(tls *libc.TLS, db uintptr, offset int32) {
var i int32
if (*Sqlite3)(unsafe.Pointer(db)).FaVTrans != 0 {
var aVTrans uintptr = (*Sqlite3)(unsafe.Pointer(db)).FaVTrans
(*Sqlite3)(unsafe.Pointer(db)).FaVTrans = uintptr(0)
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnVTrans; i++ {
var pVTab uintptr = *(*uintptr)(unsafe.Pointer(aVTrans + uintptr(i)*8))
var p uintptr = (*VTable)(unsafe.Pointer(pVTab)).FpVtab
if p != 0 {
var x uintptr
x = *(*uintptr)(unsafe.Pointer((*Sqlite3_vtab)(unsafe.Pointer(p)).FpModule + uintptr(offset)))
if x != 0 {
(*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{x})).f(tls, p)
}
}
(*VTable)(unsafe.Pointer(pVTab)).FiSavepoint = 0
Xsqlite3VtabUnlock(tls, pVTab)
}
Xsqlite3DbFree(tls, db, aVTrans)
(*Sqlite3)(unsafe.Pointer(db)).FnVTrans = 0
}
}
// Invoke the xSync method of all virtual tables in the sqlite3.aVTrans
// array. Return the error code for the first error that occurs, or
// SQLITE_OK if all xSync operations are successful.
//
// If an error message is available, leave it in p->zErrMsg.
func Xsqlite3VtabSync(tls *libc.TLS, db uintptr, p uintptr) int32 {
var i int32
var rc int32 = SQLITE_OK
var aVTrans uintptr = (*Sqlite3)(unsafe.Pointer(db)).FaVTrans
(*Sqlite3)(unsafe.Pointer(db)).FaVTrans = uintptr(0)
for i = 0; rc == SQLITE_OK && i < (*Sqlite3)(unsafe.Pointer(db)).FnVTrans; i++ {
var x uintptr
var pVtab uintptr = (*VTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(aVTrans + uintptr(i)*8)))).FpVtab
if pVtab != 0 && libc.AssignUintptr(&x, (*Sqlite3_module)(unsafe.Pointer((*Sqlite3_vtab)(unsafe.Pointer(pVtab)).FpModule)).FxSync) != uintptr(0) {
rc = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{x})).f(tls, pVtab)
Xsqlite3VtabImportErrmsg(tls, p, pVtab)
}
}
(*Sqlite3)(unsafe.Pointer(db)).FaVTrans = aVTrans
return rc
}
// Invoke the xRollback method of all virtual tables in the
// sqlite3.aVTrans array. Then clear the array itself.
func Xsqlite3VtabRollback(tls *libc.TLS, db uintptr) int32 {
callFinaliser(tls, db, int32(uintptr(0)+136))
return SQLITE_OK
}
// Invoke the xCommit method of all virtual tables in the
// sqlite3.aVTrans array. Then clear the array itself.
func Xsqlite3VtabCommit(tls *libc.TLS, db uintptr) int32 {
callFinaliser(tls, db, int32(uintptr(0)+128))
return SQLITE_OK
}
// If the virtual table pVtab supports the transaction interface
// (xBegin/xRollback/xCommit and optionally xSync) and a transaction is
// not currently open, invoke the xBegin method now.
//
// If the xBegin call is successful, place the sqlite3_vtab pointer
// in the sqlite3.aVTrans array.
func Xsqlite3VtabBegin(tls *libc.TLS, db uintptr, pVTab uintptr) int32 {
var rc int32 = SQLITE_OK
var pModule uintptr
if (*Sqlite3)(unsafe.Pointer(db)).FnVTrans > 0 && (*Sqlite3)(unsafe.Pointer(db)).FaVTrans == uintptr(0) {
return SQLITE_LOCKED
}
if !(pVTab != 0) {
return SQLITE_OK
}
pModule = (*Sqlite3_vtab)(unsafe.Pointer((*VTable)(unsafe.Pointer(pVTab)).FpVtab)).FpModule
if (*Sqlite3_module)(unsafe.Pointer(pModule)).FxBegin != 0 {
var i int32
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnVTrans; i++ {
if *(*uintptr)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaVTrans + uintptr(i)*8)) == pVTab {
return SQLITE_OK
}
}
rc = growVTrans(tls, db)
if rc == SQLITE_OK {
rc = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer(pModule)).FxBegin})).f(tls, (*VTable)(unsafe.Pointer(pVTab)).FpVtab)
if rc == SQLITE_OK {
var iSvpt int32 = (*Sqlite3)(unsafe.Pointer(db)).FnStatement + (*Sqlite3)(unsafe.Pointer(db)).FnSavepoint
addToVTrans(tls, db, pVTab)
if iSvpt != 0 && (*Sqlite3_module)(unsafe.Pointer(pModule)).FxSavepoint != 0 {
(*VTable)(unsafe.Pointer(pVTab)).FiSavepoint = iSvpt
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer(pModule)).FxSavepoint})).f(tls, (*VTable)(unsafe.Pointer(pVTab)).FpVtab, iSvpt-1)
}
}
}
}
return rc
}
// Invoke either the xSavepoint, xRollbackTo or xRelease method of all
// virtual tables that currently have an open transaction. Pass iSavepoint
// as the second argument to the virtual table method invoked.
//
// If op is SAVEPOINT_BEGIN, the xSavepoint method is invoked. If it is
// SAVEPOINT_ROLLBACK, the xRollbackTo method. Otherwise, if op is
// SAVEPOINT_RELEASE, then the xRelease method of each virtual table with
// an open transaction is invoked.
//
// If any virtual table method returns an error code other than SQLITE_OK,
// processing is abandoned and the error returned to the caller of this
// function immediately. If all calls to virtual table methods are successful,
// SQLITE_OK is returned.
func Xsqlite3VtabSavepoint(tls *libc.TLS, db uintptr, op int32, iSavepoint int32) int32 {
var rc int32 = SQLITE_OK
if (*Sqlite3)(unsafe.Pointer(db)).FaVTrans != 0 {
var i int32
for i = 0; rc == SQLITE_OK && i < (*Sqlite3)(unsafe.Pointer(db)).FnVTrans; i++ {
var pVTab uintptr = *(*uintptr)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaVTrans + uintptr(i)*8))
var pMod uintptr = (*Module)(unsafe.Pointer((*VTable)(unsafe.Pointer(pVTab)).FpMod)).FpModule
if (*VTable)(unsafe.Pointer(pVTab)).FpVtab != 0 && (*Sqlite3_module)(unsafe.Pointer(pMod)).FiVersion >= 2 {
var xMethod uintptr
Xsqlite3VtabLock(tls, pVTab)
switch op {
case SAVEPOINT_BEGIN:
xMethod = (*Sqlite3_module)(unsafe.Pointer(pMod)).FxSavepoint
(*VTable)(unsafe.Pointer(pVTab)).FiSavepoint = iSavepoint + 1
break
fallthrough
case SAVEPOINT_ROLLBACK:
xMethod = (*Sqlite3_module)(unsafe.Pointer(pMod)).FxRollbackTo
break
fallthrough
default:
xMethod = (*Sqlite3_module)(unsafe.Pointer(pMod)).FxRelease
break
}
if xMethod != 0 && (*VTable)(unsafe.Pointer(pVTab)).FiSavepoint > iSavepoint {
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{xMethod})).f(tls, (*VTable)(unsafe.Pointer(pVTab)).FpVtab, iSavepoint)
}
Xsqlite3VtabUnlock(tls, pVTab)
}
}
}
return rc
}
// The first parameter (pDef) is a function implementation. The
// second parameter (pExpr) is the first argument to this function.
// If pExpr is a column in a virtual table, then let the virtual
// table implementation have an opportunity to overload the function.
//
// This routine is used to allow virtual table implementations to
// overload MATCH, LIKE, GLOB, and REGEXP operators.
//
// Return either the pDef argument (indicating no change) or a
// new FuncDef structure that is marked as ephemeral using the
// SQLITE_FUNC_EPHEM flag.
func Xsqlite3VtabOverloadFunction(tls *libc.TLS, db uintptr, pDef uintptr, nArg int32, pExpr uintptr) uintptr {
bp := tls.Alloc(16)
defer tls.Free(16)
var pTab uintptr
var pVtab uintptr
var pMod uintptr
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
var pNew uintptr
var rc int32 = 0
if pExpr == uintptr(0) {
return pDef
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_COLUMN {
return pDef
}
pTab = *(*uintptr)(unsafe.Pointer(pExpr + 64))
if pTab == uintptr(0) {
return pDef
}
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
return pDef
}
pVtab = (*VTable)(unsafe.Pointer(Xsqlite3GetVTable(tls, db, pTab))).FpVtab
pMod = (*Sqlite3_vtab)(unsafe.Pointer(pVtab)).FpModule
if (*Sqlite3_module)(unsafe.Pointer(pMod)).FxFindFunction == uintptr(0) {
return pDef
}
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer(pMod)).FxFindFunction})).f(tls, pVtab, nArg, (*FuncDef)(unsafe.Pointer(pDef)).FzName, bp, bp+8)
if rc == 0 {
return pDef
}
pNew = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(FuncDef{}))+
uint64(Xsqlite3Strlen30(tls, (*FuncDef)(unsafe.Pointer(pDef)).FzName))+uint64(1))
if pNew == uintptr(0) {
return pDef
}
*(*FuncDef)(unsafe.Pointer(pNew)) = *(*FuncDef)(unsafe.Pointer(pDef))
(*FuncDef)(unsafe.Pointer(pNew)).FzName = pNew + 1*72
libc.X__builtin___memcpy_chk(tls, pNew+1*72, (*FuncDef)(unsafe.Pointer(pDef)).FzName, uint64(Xsqlite3Strlen30(tls, (*FuncDef)(unsafe.Pointer(pDef)).FzName)+1), libc.X__builtin_object_size(tls, pNew+1*72, 0))
(*FuncDef)(unsafe.Pointer(pNew)).FxSFunc = *(*uintptr)(unsafe.Pointer(bp))
(*FuncDef)(unsafe.Pointer(pNew)).FpUserData = *(*uintptr)(unsafe.Pointer(bp + 8))
*(*U32)(unsafe.Pointer(pNew + 4)) |= U32(SQLITE_FUNC_EPHEM)
return pNew
}
// Make sure virtual table pTab is contained in the pParse->apVirtualLock[]
// array so that an OP_VBegin will get generated for it. Add pTab to the
// array if it is missing. If pTab is already in the array, this routine
// is a no-op.
func Xsqlite3VtabMakeWritable(tls *libc.TLS, pParse uintptr, pTab uintptr) {
var pToplevel uintptr = func() uintptr {
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel != 0 {
return (*Parse)(unsafe.Pointer(pParse)).FpToplevel
}
return pParse
}()
var i int32
var n int32
var apVtabLock uintptr
for i = 0; i < (*Parse)(unsafe.Pointer(pToplevel)).FnVtabLock; i++ {
if pTab == *(*uintptr)(unsafe.Pointer((*Parse)(unsafe.Pointer(pToplevel)).FapVtabLock + uintptr(i)*8)) {
return
}
}
n = int32(uint64((*Parse)(unsafe.Pointer(pToplevel)).FnVtabLock+1) * uint64(unsafe.Sizeof(uintptr(0))))
apVtabLock = Xsqlite3Realloc(tls, (*Parse)(unsafe.Pointer(pToplevel)).FapVtabLock, uint64(n))
if apVtabLock != 0 {
(*Parse)(unsafe.Pointer(pToplevel)).FapVtabLock = apVtabLock
*(*uintptr)(unsafe.Pointer((*Parse)(unsafe.Pointer(pToplevel)).FapVtabLock + uintptr(libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pToplevel)).FnVtabLock, 1))*8)) = pTab
} else {
Xsqlite3OomFault(tls, (*Parse)(unsafe.Pointer(pToplevel)).Fdb)
}
}
// Check to see if virtual table module pMod can be have an eponymous
// virtual table instance. If it can, create one if one does not already
// exist. Return non-zero if either the eponymous virtual table instance
// exists when this routine returns or if an attempt to create it failed
// and an error message was left in pParse.
//
// An eponymous virtual table instance is one that is named after its
// module, and more importantly, does not require a CREATE VIRTUAL TABLE
// statement in order to come into existance. Eponymous virtual table
// instances always exist. They cannot be DROP-ed.
//
// Any virtual table module for which xConnect and xCreate are the same
// method can have an eponymous virtual table instance.
func Xsqlite3VtabEponymousTableInit(tls *libc.TLS, pParse uintptr, pMod uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var pModule uintptr = (*Module)(unsafe.Pointer(pMod)).FpModule
var pTab uintptr
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
var rc int32
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*Module)(unsafe.Pointer(pMod)).FpEpoTab != 0 {
return 1
}
if (*Sqlite3_module)(unsafe.Pointer(pModule)).FxCreate != uintptr(0) && (*Sqlite3_module)(unsafe.Pointer(pModule)).FxCreate != (*Sqlite3_module)(unsafe.Pointer(pModule)).FxConnect {
return 0
}
pTab = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Table{})))
if pTab == uintptr(0) {
return 0
}
(*Table)(unsafe.Pointer(pTab)).FzName = Xsqlite3DbStrDup(tls, db, (*Module)(unsafe.Pointer(pMod)).FzName)
if (*Table)(unsafe.Pointer(pTab)).FzName == uintptr(0) {
Xsqlite3DbFree(tls, db, pTab)
return 0
}
(*Module)(unsafe.Pointer(pMod)).FpEpoTab = pTab
(*Table)(unsafe.Pointer(pTab)).FnTabRef = U32(1)
(*Table)(unsafe.Pointer(pTab)).FeTabType = U8(TABTYP_VTAB)
(*Table)(unsafe.Pointer(pTab)).FpSchema = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpSchema
(*Table)(unsafe.Pointer(pTab)).FiPKey = int16(-1)
*(*U32)(unsafe.Pointer(pTab + 48)) |= U32(TF_Eponymous)
addModuleArgument(tls, pParse, pTab, Xsqlite3DbStrDup(tls, db, (*Table)(unsafe.Pointer(pTab)).FzName))
addModuleArgument(tls, pParse, pTab, uintptr(0))
addModuleArgument(tls, pParse, pTab, Xsqlite3DbStrDup(tls, db, (*Table)(unsafe.Pointer(pTab)).FzName))
rc = vtabCallConstructor(tls, db, pTab, pMod, (*Sqlite3_module)(unsafe.Pointer(pModule)).FxConnect, bp+8)
if rc != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+3658, libc.VaList(bp, *(*uintptr)(unsafe.Pointer(bp + 8))))
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 8)))
Xsqlite3VtabEponymousTableClear(tls, db, pMod)
}
return 1
}
// Erase the eponymous virtual table instance associated with
// virtual table module pMod, if it exists.
func Xsqlite3VtabEponymousTableClear(tls *libc.TLS, db uintptr, pMod uintptr) {
var pTab uintptr = (*Module)(unsafe.Pointer(pMod)).FpEpoTab
if pTab != uintptr(0) {
*(*U32)(unsafe.Pointer(pTab + 48)) |= U32(TF_Ephemeral)
Xsqlite3DeleteTable(tls, db, pTab)
(*Module)(unsafe.Pointer(pMod)).FpEpoTab = uintptr(0)
}
}
// Return the ON CONFLICT resolution mode in effect for the virtual
// table update operation currently in progress.
//
// The results of this routine are undefined unless it is called from
// within an xUpdate method.
func Xsqlite3_vtab_on_conflict(tls *libc.TLS, db uintptr) int32 {
return int32(aMap1[int32((*Sqlite3)(unsafe.Pointer(db)).FvtabOnConflict)-1])
}
var aMap1 = [5]uint8{
uint8(SQLITE_ROLLBACK), uint8(SQLITE_ABORT), uint8(SQLITE_FAIL), uint8(SQLITE_IGNORE), uint8(SQLITE_REPLACE),
}
// Call from within the xCreate() or xConnect() methods to provide
// the SQLite core with additional information about the behavior
// of the virtual table being implemented.
func Xsqlite3_vtab_config(tls *libc.TLS, db uintptr, op int32, va uintptr) int32 {
var ap Va_list
_ = ap
var rc int32 = SQLITE_OK
var p uintptr
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
p = (*Sqlite3)(unsafe.Pointer(db)).FpVtabCtx
if !(p != 0) {
rc = Xsqlite3MisuseError(tls, 151521)
} else {
ap = va
switch op {
case SQLITE_VTAB_CONSTRAINT_SUPPORT:
{
(*VTable)(unsafe.Pointer((*VtabCtx)(unsafe.Pointer(p)).FpVTable)).FbConstraint = U8(libc.VaInt32(&ap))
break
}
fallthrough
case SQLITE_VTAB_INNOCUOUS:
{
(*VTable)(unsafe.Pointer((*VtabCtx)(unsafe.Pointer(p)).FpVTable)).FeVtabRisk = U8(SQLITE_VTABRISK_Low)
break
}
fallthrough
case SQLITE_VTAB_DIRECTONLY:
{
(*VTable)(unsafe.Pointer((*VtabCtx)(unsafe.Pointer(p)).FpVTable)).FeVtabRisk = U8(SQLITE_VTABRISK_High)
break
}
fallthrough
default:
{
rc = Xsqlite3MisuseError(tls, 151539)
break
}
}
_ = ap
}
if rc != SQLITE_OK {
Xsqlite3Error(tls, db, rc)
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Forward references
type WhereClause1 = struct {
FpWInfo uintptr
FpOuter uintptr
Fop U8
FhasOr U8
F__ccgo_pad1 [2]byte
FnTerm int32
FnSlot int32
FnBase int32
Fa uintptr
FaStatic [8]WhereTerm
}
// Forward references
type WhereClause = WhereClause1
type WhereMaskSet1 = struct {
FbVarSelect int32
Fn int32
Fix [64]int32
}
type WhereMaskSet = WhereMaskSet1
type WhereOrInfo1 = struct {
Fwc WhereClause
Findexable Bitmask
}
type WhereOrInfo = WhereOrInfo1
type WhereAndInfo1 = struct{ Fwc WhereClause }
type WhereAndInfo = WhereAndInfo1
type WhereLevel1 = struct {
FiLeftJoin int32
FiTabCur int32
FiIdxCur int32
FaddrBrk int32
FaddrNxt int32
FaddrSkip int32
FaddrCont int32
FaddrFirst int32
FaddrBody int32
FregBignull int32
FaddrBignull int32
FregFilter int32
FpRJ uintptr
FiFrom U8
Fop U8
Fp3 U8
Fp5 U8
Fp1 int32
Fp2 int32
F__ccgo_pad1 [4]byte
Fu struct {
Fin struct {
FnIn int32
F__ccgo_pad1 [4]byte
FaInLoop uintptr
}
}
FpWLoop uintptr
FnotReady Bitmask
}
type WhereLevel = WhereLevel1
type WhereLoop1 = struct {
Fprereq Bitmask
FmaskSelf Bitmask
FiTab U8
FiSortIdx U8
FrSetup LogEst
FrRun LogEst
FnOut LogEst
Fu struct {
Fbtree struct {
FnEq U16
FnBtm U16
FnTop U16
FnDistinctCol U16
FpIndex uintptr
}
F__ccgo_pad1 [16]byte
}
FwsFlags U32
FnLTerm U16
FnSkip U16
FnLSlot U16
F__ccgo_pad1 [6]byte
FaLTerm uintptr
FpNextLoop uintptr
FaLTermSpace [3]uintptr
}
type WhereLoop = WhereLoop1
type WherePath1 = struct {
FmaskLoop Bitmask
FrevLoop Bitmask
FnRow LogEst
FrCost LogEst
FrUnsorted LogEst
FisOrdered I8
F__ccgo_pad1 [1]byte
FaLoop uintptr
}
type WherePath = WherePath1
type WhereTerm1 = struct {
FpExpr uintptr
FpWC uintptr
FtruthProb LogEst
FwtFlags U16
FeOperator U16
FnChild U8
FeMatchOp U8
FiParent int32
FleftCursor int32
Fu struct {
F__ccgo_pad1 [0]uint64
Fx struct {
FleftColumn int32
FiField int32
}
}
FprereqRight Bitmask
FprereqAll Bitmask
}
type WhereTerm = WhereTerm1
type WhereLoopBuilder1 = struct {
FpWInfo uintptr
FpWC uintptr
FpNew uintptr
FpOrSet uintptr
FpRec uintptr
FnRecValid int32
FbldFlags1 uint8
FbldFlags2 uint8
F__ccgo_pad1 [2]byte
FiPlanLimit uint32
F__ccgo_pad2 [4]byte
}
type WhereLoopBuilder = WhereLoopBuilder1
type WhereScan1 = struct {
FpOrigWC uintptr
FpWC uintptr
FzCollName uintptr
FpIdxExpr uintptr
Fk int32
FopMask U32
Fidxaff int8
FiEquiv uint8
FnEquiv uint8
F__ccgo_pad1 [1]byte
FaiCur [11]int32
FaiColumn [11]I16
F__ccgo_pad2 [2]byte
}
type WhereScan = WhereScan1
type WhereOrCost1 = struct {
Fprereq Bitmask
FrRun LogEst
FnOut LogEst
F__ccgo_pad1 [4]byte
}
type WhereOrCost = WhereOrCost1
type WhereOrSet1 = struct {
Fn U16
F__ccgo_pad1 [6]byte
Fa [3]WhereOrCost
}
type WhereOrSet = WhereOrSet1
type WhereMemBlock1 = struct {
FpNext uintptr
Fsz U64
}
type WhereMemBlock = WhereMemBlock1
type WhereRightJoin1 = struct {
FiMatch int32
FregBloom int32
FregReturn int32
FaddrSubrtn int32
FendSubrtn int32
}
type WhereRightJoin = WhereRightJoin1
// This object contains information needed to implement a single nested
// loop in WHERE clause.
//
// Contrast this object with WhereLoop. This object describes the
// implementation of the loop. WhereLoop describes the algorithm.
// This object contains a pointer to the WhereLoop algorithm as one of
// its elements.
//
// The WhereInfo object contains a single instance of this object for
// each term in the FROM clause (which is to say, for each of the
// nested loops as implemented). The order of WhereLevel objects determines
// the loop nested order, with WhereInfo.a[0] being the outer loop and
// WhereInfo.a[WhereInfo.nLevel-1] being the inner loop.
type InLoop = struct {
FiCur int32
FaddrInTop int32
FiBase int32
FnPrefix int32
FeEndLoopOp U8
F__ccgo_pad1 [3]byte
}
func explainIndexColumnName(tls *libc.TLS, pIdx uintptr, i int32) uintptr {
i = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2)))
if i == -2 {
return ts + 21968
}
if i == -1 {
return ts + 16673
}
return (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FpTable)).FaCol + uintptr(i)*24)).FzCnName
}
func explainAppendTerm(tls *libc.TLS, pStr uintptr, pIdx uintptr, nTerm int32, iTerm int32, bAnd int32, zOp uintptr) {
var i int32
if bAnd != 0 {
Xsqlite3_str_append(tls, pStr, ts+21975, 5)
}
if nTerm > 1 {
Xsqlite3_str_append(tls, pStr, ts+21981, 1)
}
for i = 0; i < nTerm; i++ {
if i != 0 {
Xsqlite3_str_append(tls, pStr, ts+13170, 1)
}
Xsqlite3_str_appendall(tls, pStr, explainIndexColumnName(tls, pIdx, iTerm+i))
}
if nTerm > 1 {
Xsqlite3_str_append(tls, pStr, ts+5360, 1)
}
Xsqlite3_str_append(tls, pStr, zOp, 1)
if nTerm > 1 {
Xsqlite3_str_append(tls, pStr, ts+21981, 1)
}
for i = 0; i < nTerm; i++ {
if i != 0 {
Xsqlite3_str_append(tls, pStr, ts+13170, 1)
}
Xsqlite3_str_append(tls, pStr, ts+5411, 1)
}
if nTerm > 1 {
Xsqlite3_str_append(tls, pStr, ts+5360, 1)
}
}
func explainIndexRange(tls *libc.TLS, pStr uintptr, pLoop uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pIndex uintptr = *(*uintptr)(unsafe.Pointer(pLoop + 24 + 8))
var nEq U16 = *(*U16)(unsafe.Pointer(pLoop + 24))
var nSkip U16 = (*WhereLoop)(unsafe.Pointer(pLoop)).FnSkip
var i int32
var j int32
if int32(nEq) == 0 && (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_BTM_LIMIT|WHERE_TOP_LIMIT) == U32(0) {
return
}
Xsqlite3_str_append(tls, pStr, ts+21983, 2)
for i = 0; i < int32(nEq); i++ {
var z uintptr = explainIndexColumnName(tls, pIndex, i)
if i != 0 {
Xsqlite3_str_append(tls, pStr, ts+21975, 5)
}
Xsqlite3_str_appendf(tls, pStr, func() uintptr {
if i >= int32(nSkip) {
return ts + 21986
}
return ts + 21991
}(), libc.VaList(bp, z))
}
j = i
if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_BTM_LIMIT) != 0 {
explainAppendTerm(tls, pStr, pIndex, int32(*(*U16)(unsafe.Pointer(pLoop + 24 + 2))), j, i, ts+21999)
i = 1
}
if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_TOP_LIMIT) != 0 {
explainAppendTerm(tls, pStr, pIndex, int32(*(*U16)(unsafe.Pointer(pLoop + 24 + 4))), j, i, ts+22001)
}
Xsqlite3_str_append(tls, pStr, ts+5360, 1)
}
// This function is a no-op unless currently processing an EXPLAIN QUERY PLAN
// command, or if either SQLITE_DEBUG or SQLITE_ENABLE_STMT_SCANSTATUS was
// defined at compile-time. If it is not a no-op, a single OP_Explain opcode
// is added to the output to describe the table scan strategy in pLevel.
//
// If an OP_Explain opcode is added to the VM, its address is returned.
// Otherwise, if no OP_Explain is coded, zero is returned.
func Xsqlite3WhereExplainOneScan(tls *libc.TLS, pParse uintptr, pTabList uintptr, pLevel uintptr, wctrlFlags U16) int32 {
bp := tls.Alloc(196)
defer tls.Free(196)
var ret int32 = 0
if int32((*Parse)(unsafe.Pointer(func() uintptr {
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel != 0 {
return (*Parse)(unsafe.Pointer(pParse)).FpToplevel
}
return pParse
}())).Fexplain) == 2 {
var pItem uintptr = pTabList + 8 + uintptr((*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom)*104
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var isSearch int32
var pLoop uintptr
var flags U32
var zMsg uintptr
pLoop = (*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop
flags = (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags
if flags&U32(WHERE_MULTI_OR) != 0 || int32(wctrlFlags)&WHERE_OR_SUBCLAUSE != 0 {
return 0
}
isSearch = libc.Bool32(flags&U32(WHERE_BTM_LIMIT|WHERE_TOP_LIMIT) != U32(0) ||
flags&U32(WHERE_VIRTUALTABLE) == U32(0) && int32(*(*U16)(unsafe.Pointer(pLoop + 24))) > 0 ||
int32(wctrlFlags)&(WHERE_ORDERBY_MIN|WHERE_ORDERBY_MAX) != 0)
Xsqlite3StrAccumInit(tls, bp+64, db, bp+96, int32(unsafe.Sizeof([100]int8{})), SQLITE_MAX_LENGTH)
(*StrAccum)(unsafe.Pointer(bp + 64)).FprintfFlags = U8(SQLITE_PRINTF_INTERNAL)
Xsqlite3_str_appendf(tls, bp+64, ts+22003, libc.VaList(bp, func() uintptr {
if isSearch != 0 {
return ts + 22009
}
return ts + 22016
}(), pItem))
if flags&U32(WHERE_IPK|WHERE_VIRTUALTABLE) == U32(0) {
var zFmt uintptr = uintptr(0)
var pIdx uintptr
pIdx = *(*uintptr)(unsafe.Pointer(pLoop + 24 + 8))
if !((*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pItem)).FpTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) && int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY {
if isSearch != 0 {
zFmt = ts + 11379
}
} else if flags&U32(WHERE_PARTIALIDX) != 0 {
zFmt = ts + 22021
} else if flags&U32(WHERE_AUTO_INDEX) != 0 {
zFmt = ts + 22054
} else if flags&U32(WHERE_IDX_ONLY) != 0 {
zFmt = ts + 22079
} else {
zFmt = ts + 22097
}
if zFmt != 0 {
Xsqlite3_str_append(tls, bp+64, ts+22106, 7)
Xsqlite3_str_appendf(tls, bp+64, zFmt, libc.VaList(bp+16, (*Index)(unsafe.Pointer(pIdx)).FzName))
explainIndexRange(tls, bp+64, pLoop)
}
} else if flags&U32(WHERE_IPK) != U32(0) && flags&U32(WHERE_CONSTRAINT) != U32(0) {
var cRangeOp int8
var zRowid uintptr = ts + 16673
Xsqlite3_str_appendf(tls, bp+64, ts+22114, libc.VaList(bp+24, zRowid))
if flags&U32(WHERE_COLUMN_EQ|WHERE_COLUMN_IN) != 0 {
cRangeOp = int8('=')
} else if flags&U32(WHERE_BOTH_LIMIT) == U32(WHERE_BOTH_LIMIT) {
Xsqlite3_str_appendf(tls, bp+64, ts+22145, libc.VaList(bp+32, zRowid))
cRangeOp = int8('<')
} else if flags&U32(WHERE_BTM_LIMIT) != 0 {
cRangeOp = int8('>')
} else {
cRangeOp = int8('<')
}
Xsqlite3_str_appendf(tls, bp+64, ts+22155, libc.VaList(bp+40, int32(cRangeOp)))
} else if flags&U32(WHERE_VIRTUALTABLE) != U32(0) {
Xsqlite3_str_appendf(tls, bp+64, ts+22160,
libc.VaList(bp+48, *(*int32)(unsafe.Pointer(pLoop + 24)), *(*uintptr)(unsafe.Pointer(pLoop + 24 + 16))))
}
if int32((*SrcItem)(unsafe.Pointer(pItem)).Ffg.Fjointype)&JT_LEFT != 0 {
Xsqlite3_str_appendf(tls, bp+64, ts+22187, 0)
}
zMsg = Xsqlite3StrAccumFinish(tls, bp+64)
ret = Xsqlite3VdbeAddOp4(tls, v, OP_Explain, Xsqlite3VdbeCurrentAddr(tls, v),
(*Parse)(unsafe.Pointer(pParse)).FaddrExplain, 0, zMsg, -6)
}
return ret
}
// Add a single OP_Explain opcode that describes a Bloom filter.
//
// Or if not processing EXPLAIN QUERY PLAN and not in a SQLITE_DEBUG and/or
// SQLITE_ENABLE_STMT_SCANSTATUS build, then OP_Explain opcodes are not
// required and this routine is a no-op.
//
// If an OP_Explain opcode is added to the VM, its address is returned.
// Otherwise, if no OP_Explain is coded, zero is returned.
func Xsqlite3WhereExplainBloomFilter(tls *libc.TLS, pParse uintptr, pWInfo uintptr, pLevel uintptr) int32 {
bp := tls.Alloc(156)
defer tls.Free(156)
var ret int32 = 0
var pItem uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList + 8 + uintptr((*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom)*104
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var zMsg uintptr
var i int32
var pLoop uintptr
Xsqlite3StrAccumInit(tls, bp+24, db, bp+56, int32(unsafe.Sizeof([100]int8{})), SQLITE_MAX_LENGTH)
(*StrAccum)(unsafe.Pointer(bp + 24)).FprintfFlags = U8(SQLITE_PRINTF_INTERNAL)
Xsqlite3_str_appendf(tls, bp+24, ts+22198, libc.VaList(bp, pItem))
pLoop = (*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop
if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IPK) != 0 {
var pTab uintptr = (*SrcItem)(unsafe.Pointer(pItem)).FpTab
if int32((*Table)(unsafe.Pointer(pTab)).FiPKey) >= 0 {
Xsqlite3_str_appendf(tls, bp+24, ts+21986, libc.VaList(bp+8, (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr((*Table)(unsafe.Pointer(pTab)).FiPKey)*24)).FzCnName))
} else {
Xsqlite3_str_appendf(tls, bp+24, ts+22219, 0)
}
} else {
for i = int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnSkip); i < int32(*(*U16)(unsafe.Pointer(pLoop + 24))); i++ {
var z uintptr = explainIndexColumnName(tls, *(*uintptr)(unsafe.Pointer(pLoop + 24 + 8)), i)
if i > int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnSkip) {
Xsqlite3_str_append(tls, bp+24, ts+21975, 5)
}
Xsqlite3_str_appendf(tls, bp+24, ts+21986, libc.VaList(bp+16, z))
}
}
Xsqlite3_str_append(tls, bp+24, ts+5360, 1)
zMsg = Xsqlite3StrAccumFinish(tls, bp+24)
ret = Xsqlite3VdbeAddOp4(tls, v, OP_Explain, Xsqlite3VdbeCurrentAddr(tls, v),
(*Parse)(unsafe.Pointer(pParse)).FaddrExplain, 0, zMsg, -6)
return ret
}
func disableTerm(tls *libc.TLS, pLevel uintptr, pTerm uintptr) {
var nLoop int32 = 0
for int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_CODED == 0 &&
((*WhereLevel)(unsafe.Pointer(pLevel)).FiLeftJoin == 0 || (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).Fflags&U32(EP_OuterON) != U32(0)) &&
(*WhereLevel)(unsafe.Pointer(pLevel)).FnotReady&(*WhereTerm)(unsafe.Pointer(pTerm)).FprereqAll == uint64(0) {
if nLoop != 0 && int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_LIKE != 0 {
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_LIKECOND)
} else {
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_CODED)
}
if (*WhereTerm)(unsafe.Pointer(pTerm)).FiParent < 0 {
break
}
pTerm = (*WhereClause)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpWC)).Fa + uintptr((*WhereTerm)(unsafe.Pointer(pTerm)).FiParent)*56
(*WhereTerm)(unsafe.Pointer(pTerm)).FnChild--
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FnChild) != 0 {
break
}
nLoop++
}
}
func codeApplyAffinity(tls *libc.TLS, pParse uintptr, base int32, n int32, zAff uintptr) {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
if zAff == uintptr(0) {
return
}
for n > 0 && int32(*(*int8)(unsafe.Pointer(zAff))) <= SQLITE_AFF_BLOB {
n--
base++
zAff++
}
for n > 1 && int32(*(*int8)(unsafe.Pointer(zAff + uintptr(n-1)))) <= SQLITE_AFF_BLOB {
n--
}
if n > 0 {
Xsqlite3VdbeAddOp4(tls, v, OP_Affinity, base, n, 0, zAff, n)
}
}
func updateRangeAffinityStr(tls *libc.TLS, pRight uintptr, n int32, zAff uintptr) {
var i int32
for i = 0; i < n; i++ {
var p uintptr = Xsqlite3VectorFieldSubexpr(tls, pRight, i)
if int32(Xsqlite3CompareAffinity(tls, p, *(*int8)(unsafe.Pointer(zAff + uintptr(i))))) == SQLITE_AFF_BLOB ||
Xsqlite3ExprNeedsNoAffinityChange(tls, p, *(*int8)(unsafe.Pointer(zAff + uintptr(i)))) != 0 {
*(*int8)(unsafe.Pointer(zAff + uintptr(i))) = int8(SQLITE_AFF_BLOB)
}
}
}
func removeUnindexableInClauseTerms(tls *libc.TLS, pParse uintptr, iEq int32, pLoop uintptr, pX uintptr) uintptr {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pSelect uintptr
var pNew uintptr
pNew = Xsqlite3ExprDup(tls, db, pX, 0)
if int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) == 0 {
for pSelect = *(*uintptr)(unsafe.Pointer(pNew + 32)); pSelect != 0; pSelect = (*Select)(unsafe.Pointer(pSelect)).FpPrior {
var pOrigRhs uintptr
var pOrigLhs uintptr = uintptr(0)
var pRhs uintptr = uintptr(0)
var pLhs uintptr = uintptr(0)
var i int32
pOrigRhs = (*Select)(unsafe.Pointer(pSelect)).FpEList
if pSelect == *(*uintptr)(unsafe.Pointer(pNew + 32)) {
pOrigLhs = *(*uintptr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pNew)).FpLeft + 32))
}
for i = iEq; i < int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnLTerm); i++ {
if (*WhereTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(i)*8)))).FpExpr == pX {
var iField int32
iField = *(*int32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(i)*8)) + 32 + 4)) - 1
if (*ExprList_item)(unsafe.Pointer(pOrigRhs+8+uintptr(iField)*32)).FpExpr == uintptr(0) {
continue
}
pRhs = Xsqlite3ExprListAppend(tls, pParse, pRhs, (*ExprList_item)(unsafe.Pointer(pOrigRhs+8+uintptr(iField)*32)).FpExpr)
(*ExprList_item)(unsafe.Pointer(pOrigRhs + 8 + uintptr(iField)*32)).FpExpr = uintptr(0)
if pOrigLhs != 0 {
pLhs = Xsqlite3ExprListAppend(tls, pParse, pLhs, (*ExprList_item)(unsafe.Pointer(pOrigLhs+8+uintptr(iField)*32)).FpExpr)
(*ExprList_item)(unsafe.Pointer(pOrigLhs + 8 + uintptr(iField)*32)).FpExpr = uintptr(0)
}
}
}
Xsqlite3ExprListDelete(tls, db, pOrigRhs)
if pOrigLhs != 0 {
Xsqlite3ExprListDelete(tls, db, pOrigLhs)
*(*uintptr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pNew)).FpLeft + 32)) = pLhs
}
(*Select)(unsafe.Pointer(pSelect)).FpEList = pRhs
if pLhs != 0 && (*ExprList)(unsafe.Pointer(pLhs)).FnExpr == 1 {
var p uintptr = (*ExprList_item)(unsafe.Pointer(pLhs + 8)).FpExpr
(*ExprList_item)(unsafe.Pointer(pLhs + 8)).FpExpr = uintptr(0)
Xsqlite3ExprDelete(tls, db, (*Expr)(unsafe.Pointer(pNew)).FpLeft)
(*Expr)(unsafe.Pointer(pNew)).FpLeft = p
}
if (*Select)(unsafe.Pointer(pSelect)).FpOrderBy != 0 {
var pOrderBy uintptr = (*Select)(unsafe.Pointer(pSelect)).FpOrderBy
for i = 0; i < (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr; i++ {
*(*U16)(unsafe.Pointer(pOrderBy + 8 + uintptr(i)*32 + 24)) = U16(0)
}
}
}
}
return pNew
}
func codeEqualityTerm(tls *libc.TLS, pParse uintptr, pTerm uintptr, pLevel uintptr, iEq int32, bRev int32, iTarget int32) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pX uintptr = (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var iReg int32
if int32((*Expr)(unsafe.Pointer(pX)).Fop) == TK_EQ || int32((*Expr)(unsafe.Pointer(pX)).Fop) == TK_IS {
iReg = Xsqlite3ExprCodeTarget(tls, pParse, (*Expr)(unsafe.Pointer(pX)).FpRight, iTarget)
} else if int32((*Expr)(unsafe.Pointer(pX)).Fop) == TK_ISNULL {
iReg = iTarget
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, iReg)
} else {
var eType int32 = IN_INDEX_NOOP
var pIn uintptr
var pLoop uintptr = (*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop
var i int32
var nEq int32 = 0
var aiMap uintptr = uintptr(0)
if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_VIRTUALTABLE) == U32(0) &&
*(*uintptr)(unsafe.Pointer(pLoop + 24 + 8)) != uintptr(0) &&
*(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pLoop + 24 + 8)))).FaSortOrder + uintptr(iEq))) != 0 {
bRev = libc.BoolInt32(!(bRev != 0))
}
iReg = iTarget
for i = 0; i < iEq; i++ {
if *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(i)*8)) != 0 && (*WhereTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(i)*8)))).FpExpr == pX {
disableTerm(tls, pLevel, pTerm)
return iTarget
}
}
for i = iEq; i < int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnLTerm); i++ {
if (*WhereTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(i)*8)))).FpExpr == pX {
nEq++
}
}
*(*int32)(unsafe.Pointer(bp)) = 0
if !((*Expr)(unsafe.Pointer(pX)).Fflags&U32(EP_xIsSelect) != U32(0)) || (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pX + 32)))).FpEList)).FnExpr == 1 {
eType = Xsqlite3FindInIndex(tls, pParse, pX, uint32(IN_INDEX_LOOP), uintptr(0), uintptr(0), bp)
} else {
var pExpr uintptr = (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr
if (*Expr)(unsafe.Pointer(pExpr)).FiTable == 0 || !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Subrtn) != U32(0)) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
pX = removeUnindexableInClauseTerms(tls, pParse, iEq, pLoop, pX)
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
aiMap = Xsqlite3DbMallocZero(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(int32(0)))*uint64(nEq))
eType = Xsqlite3FindInIndex(tls, pParse, pX, uint32(IN_INDEX_LOOP), uintptr(0), aiMap, bp)
(*Expr)(unsafe.Pointer(pExpr)).FiTable = *(*int32)(unsafe.Pointer(bp))
}
Xsqlite3ExprDelete(tls, db, pX)
} else {
var n int32 = Xsqlite3ExprVectorSize(tls, (*Expr)(unsafe.Pointer(pX)).FpLeft)
aiMap = Xsqlite3DbMallocZero(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(int32(0)))*func() uint64 {
if nEq > n {
return uint64(nEq)
}
return uint64(n)
}())
eType = Xsqlite3FindInIndex(tls, pParse, pX, uint32(IN_INDEX_LOOP), uintptr(0), aiMap, bp)
}
pX = pExpr
}
if eType == IN_INDEX_INDEX_DESC {
bRev = libc.BoolInt32(!(bRev != 0))
}
Xsqlite3VdbeAddOp2(tls, v, func() int32 {
if bRev != 0 {
return OP_Last
}
return OP_Rewind
}(), *(*int32)(unsafe.Pointer(bp)), 0)
*(*U32)(unsafe.Pointer(pLoop + 56)) |= U32(WHERE_IN_ABLE)
if *(*int32)(unsafe.Pointer(pLevel + 72)) == 0 {
(*WhereLevel)(unsafe.Pointer(pLevel)).FaddrNxt = Xsqlite3VdbeMakeLabel(tls, pParse)
}
if iEq > 0 && (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IN_SEEKSCAN) == U32(0) {
*(*U32)(unsafe.Pointer(pLoop + 56)) |= U32(WHERE_IN_EARLYOUT)
}
i = *(*int32)(unsafe.Pointer(pLevel + 72))
*(*int32)(unsafe.Pointer(pLevel + 72)) += nEq
*(*uintptr)(unsafe.Pointer(pLevel + 72 + 8)) = Xsqlite3WhereRealloc(tls, (*WhereClause)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpWC)).FpWInfo,
*(*uintptr)(unsafe.Pointer(pLevel + 72 + 8)),
uint64(unsafe.Sizeof(InLoop{}))*uint64(*(*int32)(unsafe.Pointer(pLevel + 72))))
pIn = *(*uintptr)(unsafe.Pointer(pLevel + 72 + 8))
if pIn != 0 {
var iMap int32 = 0
pIn += 20 * uintptr(i)
for i = iEq; i < int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnLTerm); i++ {
if (*WhereTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(i)*8)))).FpExpr == pX {
var iOut int32 = iReg + i - iEq
if eType == IN_INDEX_ROWID {
*(*int32)(unsafe.Pointer(pIn + 4)) = Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, *(*int32)(unsafe.Pointer(bp)), iOut)
} else {
var iCol int32
if aiMap != 0 {
iCol = *(*int32)(unsafe.Pointer(aiMap + uintptr(libc.PostIncInt32(&iMap, 1))*4))
} else {
iCol = 0
}
*(*int32)(unsafe.Pointer(pIn + 4)) = Xsqlite3VdbeAddOp3(tls, v, OP_Column, *(*int32)(unsafe.Pointer(bp)), iCol, iOut)
}
Xsqlite3VdbeAddOp1(tls, v, OP_IsNull, iOut)
if i == iEq {
*(*int32)(unsafe.Pointer(pIn)) = *(*int32)(unsafe.Pointer(bp))
*(*U8)(unsafe.Pointer(pIn + 16)) = func() uint8 {
if bRev != 0 {
return uint8(OP_Prev)
}
return uint8(OP_Next)
}()
if iEq > 0 {
*(*int32)(unsafe.Pointer(pIn + 8)) = iReg - i
*(*int32)(unsafe.Pointer(pIn + 12)) = i
} else {
*(*int32)(unsafe.Pointer(pIn + 12)) = 0
}
} else {
*(*U8)(unsafe.Pointer(pIn + 16)) = U8(OP_Noop)
}
pIn += 20
}
}
if iEq > 0 &&
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IN_SEEKSCAN|WHERE_VIRTUALTABLE) == U32(0) {
Xsqlite3VdbeAddOp3(tls, v, OP_SeekHit, (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur, 0, iEq)
}
} else {
*(*int32)(unsafe.Pointer(pLevel + 72)) = 0
}
Xsqlite3DbFree(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, aiMap)
}
if (*WhereLoop1)(unsafe.Pointer((*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop)).FwsFlags&U32(WHERE_TRANSCONS) == U32(0) ||
int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&WO_EQUIV == 0 {
disableTerm(tls, pLevel, pTerm)
}
return iReg
}
func codeAllEqualityTerms(tls *libc.TLS, pParse uintptr, pLevel uintptr, bRev int32, nExtraReg int32, pzAff uintptr) int32 {
var nEq U16
var nSkip U16
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var pIdx uintptr
var pTerm uintptr
var pLoop uintptr
var j int32
var regBase int32
var nReg int32
var zAff uintptr
pLoop = (*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop
nEq = *(*U16)(unsafe.Pointer(pLoop + 24))
nSkip = (*WhereLoop)(unsafe.Pointer(pLoop)).FnSkip
pIdx = *(*uintptr)(unsafe.Pointer(pLoop + 24 + 8))
regBase = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
nReg = int32(*(*U16)(unsafe.Pointer(pLoop + 24))) + nExtraReg
*(*int32)(unsafe.Pointer(pParse + 56)) += nReg
zAff = Xsqlite3DbStrDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, Xsqlite3IndexAffinityStr(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pIdx))
if nSkip != 0 {
var iIdxCur int32 = (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur
Xsqlite3VdbeAddOp3(tls, v, OP_Null, 0, regBase, regBase+int32(nSkip)-1)
Xsqlite3VdbeAddOp1(tls, v, func() int32 {
if bRev != 0 {
return OP_Last
}
return OP_Rewind
}(), iIdxCur)
j = Xsqlite3VdbeAddOp0(tls, v, OP_Goto)
(*WhereLevel)(unsafe.Pointer(pLevel)).FaddrSkip = Xsqlite3VdbeAddOp4Int(tls, v, func() int32 {
if bRev != 0 {
return OP_SeekLT
}
return OP_SeekGT
}(),
iIdxCur, 0, regBase, int32(nSkip))
Xsqlite3VdbeJumpHere(tls, v, j)
for j = 0; j < int32(nSkip); j++ {
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iIdxCur, j, regBase+j)
}
}
for j = int32(nSkip); j < int32(nEq); j++ {
var r1 int32
pTerm = *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(j)*8))
r1 = codeEqualityTerm(tls, pParse, pTerm, pLevel, j, bRev, regBase+j)
if r1 != regBase+j {
if nReg == 1 {
Xsqlite3ReleaseTempReg(tls, pParse, regBase)
regBase = r1
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_Copy, r1, regBase+j)
}
}
}
for j = int32(nSkip); j < int32(nEq); j++ {
pTerm = *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(j)*8))
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&WO_IN != 0 {
if (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).Fflags&U32(EP_xIsSelect) != 0 {
if zAff != 0 {
*(*int8)(unsafe.Pointer(zAff + uintptr(j))) = int8(SQLITE_AFF_BLOB)
}
}
} else if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&WO_ISNULL == 0 {
var pRight uintptr = (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).FpRight
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_IS == 0 && Xsqlite3ExprCanBeNull(tls, pRight) != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, regBase+j, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrBrk)
}
if (*Parse)(unsafe.Pointer(pParse)).FnErr == 0 {
if int32(Xsqlite3CompareAffinity(tls, pRight, *(*int8)(unsafe.Pointer(zAff + uintptr(j))))) == SQLITE_AFF_BLOB {
*(*int8)(unsafe.Pointer(zAff + uintptr(j))) = int8(SQLITE_AFF_BLOB)
}
if Xsqlite3ExprNeedsNoAffinityChange(tls, pRight, *(*int8)(unsafe.Pointer(zAff + uintptr(j)))) != 0 {
*(*int8)(unsafe.Pointer(zAff + uintptr(j))) = int8(SQLITE_AFF_BLOB)
}
}
}
}
*(*uintptr)(unsafe.Pointer(pzAff)) = zAff
return regBase
}
func codeDeferredSeek(tls *libc.TLS, pWInfo uintptr, pIdx uintptr, iCur int32, iIdxCur int32) {
var pParse uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
libc.SetBitFieldPtr8Uint32(pWInfo+68, uint32(1), 0, 0x1)
Xsqlite3VdbeAddOp3(tls, v, OP_DeferredSeek, iIdxCur, 0, iCur)
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&(WHERE_OR_SUBCLAUSE|WHERE_RIGHT_JOIN) != 0 &&
(*Parse)(unsafe.Pointer(func() uintptr {
if (*Parse)(unsafe.Pointer(pParse)).FpToplevel != 0 {
return (*Parse)(unsafe.Pointer(pParse)).FpToplevel
}
return pParse
}())).FwriteMask == YDbMask(0) {
var i int32
var pTab uintptr = (*Index)(unsafe.Pointer(pIdx)).FpTable
var ai uintptr = Xsqlite3DbMallocZero(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(U32(0)))*uint64(int32((*Table)(unsafe.Pointer(pTab)).FnCol)+1))
if ai != 0 {
*(*U32)(unsafe.Pointer(ai)) = U32((*Table)(unsafe.Pointer(pTab)).FnCol)
for i = 0; i < int32((*Index)(unsafe.Pointer(pIdx)).FnColumn)-1; i++ {
var x1 int32
var x2 int32
x1 = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2)))
x2 = int32(Xsqlite3TableColumnToStorage(tls, pTab, int16(x1)))
if x1 >= 0 {
*(*U32)(unsafe.Pointer(ai + uintptr(x2+1)*4)) = U32(i + 1)
}
}
Xsqlite3VdbeChangeP4(tls, v, -1, ai, -14)
}
}
}
func codeExprOrVector(tls *libc.TLS, pParse uintptr, p uintptr, iReg int32, nReg int32) {
if p != 0 && Xsqlite3ExprIsVector(tls, p) != 0 {
if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_xIsSelect) != U32(0) {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var iSelect int32
iSelect = Xsqlite3CodeSubselect(tls, pParse, p)
Xsqlite3VdbeAddOp3(tls, v, OP_Copy, iSelect, iReg, nReg-1)
} else {
var i int32
var pList uintptr
pList = *(*uintptr)(unsafe.Pointer(p + 32))
for i = 0; i < nReg; i++ {
Xsqlite3ExprCode(tls, pParse, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(i)*32)).FpExpr, iReg+i)
}
}
} else {
Xsqlite3ExprCode(tls, pParse, p, iReg)
}
}
func whereApplyPartialIndexConstraints(tls *libc.TLS, pTruth uintptr, iTabCur int32, pWC uintptr) {
var i int32
var pTerm uintptr
for int32((*Expr)(unsafe.Pointer(pTruth)).Fop) == TK_AND {
whereApplyPartialIndexConstraints(tls, (*Expr)(unsafe.Pointer(pTruth)).FpLeft, iTabCur, pWC)
pTruth = (*Expr)(unsafe.Pointer(pTruth)).FpRight
}
i = 0
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa
__1:
if !(i < (*WhereClause)(unsafe.Pointer(pWC)).FnTerm) {
goto __3
}
{
var pExpr uintptr
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_CODED != 0 {
goto __2
}
pExpr = (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr
if Xsqlite3ExprCompare(tls, uintptr(0), pExpr, pTruth, iTabCur) == 0 {
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_CODED)
}
}
goto __2
__2:
i++
pTerm += 56
goto __1
goto __3
__3:
}
func filterPullDown(tls *libc.TLS, pParse uintptr, pWInfo uintptr, iLevel int32, addrNxt int32, notReady Bitmask) {
bp := tls.Alloc(8)
defer tls.Free(8)
for libc.PreIncInt32(&iLevel, 1) < int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel) {
var pLevel uintptr = pWInfo + 856 + uintptr(iLevel)*104
var pLoop uintptr = (*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop
if (*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter == 0 {
continue
}
if (*WhereLoop1)(unsafe.Pointer((*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop)).FnSkip != 0 {
continue
}
if (*WhereLoop)(unsafe.Pointer(pLoop)).Fprereq&notReady != 0 {
continue
}
(*WhereLevel)(unsafe.Pointer(pLevel)).FaddrBrk = addrNxt
if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IPK) != 0 {
var pTerm uintptr = *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm))
var regRowid int32
regRowid = Xsqlite3GetTempReg(tls, pParse)
regRowid = codeEqualityTerm(tls, pParse, pTerm, pLevel, 0, 0, regRowid)
Xsqlite3VdbeAddOp2(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, OP_MustBeInt, regRowid, addrNxt)
Xsqlite3VdbeAddOp4Int(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, OP_Filter, (*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter,
addrNxt, regRowid, 1)
} else {
var nEq U16 = *(*U16)(unsafe.Pointer(pLoop + 24))
var r1 int32
r1 = codeAllEqualityTerms(tls, pParse, pLevel, 0, 0, bp)
codeApplyAffinity(tls, pParse, r1, int32(nEq), *(*uintptr)(unsafe.Pointer(bp)))
Xsqlite3DbFree(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(bp)))
Xsqlite3VdbeAddOp4Int(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, OP_Filter, (*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter,
addrNxt, r1, int32(nEq))
}
(*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter = 0
(*WhereLevel)(unsafe.Pointer(pLevel)).FaddrBrk = 0
}
}
// Generate code for the start of the iLevel-th loop in the WHERE clause
// implementation described by pWInfo.
func Xsqlite3WhereCodeOneLoopStart(tls *libc.TLS, pParse uintptr, v uintptr, pWInfo uintptr, iLevel int32, pLevel uintptr, notReady Bitmask) Bitmask {
bp := tls.Alloc(96)
defer tls.Free(96)
var j int32
var k int32
var iCur int32
var addrNxt int32
var bRev int32
var pLoop uintptr
var pWC uintptr
var pTerm uintptr
var db uintptr
var pTabItem uintptr
var addrBrk int32
var addrHalt int32
var addrCont int32
var iRowidReg int32
var iReleaseReg int32
var pIdx uintptr
var iLoop int32
var regYield int32
var iTab int32
var iCache int32
var pRight uintptr
var iTarget int32
var iFld int32
var pLeft uintptr
var pCompare uintptr
var pRight1 uintptr
var pOp uintptr
var iIn int32
var iReg int32
var addrNotFound int32
var nConstraint int32
var pX uintptr
var r1 int32
var op int32
var pX1 uintptr
var testOp int32
var start int32
var memEndValue int32
var pStart uintptr
var pEnd uintptr
var t uintptr
var t1 U8
var t2 U8
var pRight2 uintptr
var pRight3 uintptr
var pPk uintptr
var nEq U16
var nBtm U16
var nTop U16
var regBase int32
var pRangeStart uintptr
var pRangeEnd uintptr
var startEq int32
var endEq int32
var start_constraints int32
var nConstraint1 int32
var iIdxCur int32
var nExtraReg int32
var op1 int32
var zEndAff uintptr
var bSeekPastNull U8
var bStopAtNull U8
var omitTable int32
var regBignull int32
var addrSeekScan int32
var nNotReady int32
var origSrc uintptr
var pPk1 uintptr
var pExpr uintptr
var iTerm int32
var iCol int32
var pPk2 uintptr
var nPk int32
var iPk int32
var r int32
var iSet int32
var pSubLoop uintptr
var addrExplain int32
_ = addrExplain
var pSubWInfo uintptr
var pOrExpr uintptr
var pDelete uintptr
var jmp1 int32
var pOrTerm uintptr
var pOrWc uintptr
var pOrTab uintptr
var pCov uintptr
var iCovCur int32
var regReturn int32
var regRowset int32
var regRowid int32
var iLoopBody int32
var iRetInit int32
var untestedTerms int32
var ii int32
var pAndExpr uintptr
var pTab uintptr
var m Bitmask
var pE uintptr
var skipLikeAddr int32
var iNext int32
var pE1 uintptr
var pAlt uintptr
var iCol1 int32
var iPk1 int32
var pPk3 uintptr
var pTab1 uintptr
var nPk1 int32
var r2 int32
var jmp11 int32
var pRJ uintptr
var pRJ1 uintptr
iRowidReg = 0
iReleaseReg = 0
pIdx = uintptr(0)
pWC = pWInfo + 104
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
pLoop = (*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop
pTabItem = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList + 8 + uintptr((*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom)*104
iCur = (*SrcItem)(unsafe.Pointer(pTabItem)).FiCursor
(*WhereLevel)(unsafe.Pointer(pLevel)).FnotReady = notReady & ^Xsqlite3WhereGetMask(tls, pWInfo+592, iCur)
bRev = int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FrevMask >> iLevel & uint64(1))
addrBrk = libc.AssignPtrInt32(pLevel+12, libc.AssignPtrInt32(pLevel+16, Xsqlite3VdbeMakeLabel(tls, pParse)))
addrCont = libc.AssignPtrInt32(pLevel+24, Xsqlite3VdbeMakeLabel(tls, pParse))
if !(int32((*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom) > 0 && int32((*SrcItem)(unsafe.Pointer(pTabItem)).Ffg.Fjointype)&JT_LEFT != 0) {
goto __1
}
(*WhereLevel)(unsafe.Pointer(pLevel)).FiLeftJoin = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, (*WhereLevel)(unsafe.Pointer(pLevel)).FiLeftJoin)
__1:
;
j = iLevel
__2:
if !(j > 0) {
goto __4
}
if !((*WhereLevel)(unsafe.Pointer(pWInfo+856+uintptr(j)*104)).FiLeftJoin != 0) {
goto __5
}
goto __4
__5:
;
if !((*WhereLevel)(unsafe.Pointer(pWInfo+856+uintptr(j)*104)).FpRJ != 0) {
goto __6
}
goto __4
__6:
;
goto __3
__3:
j--
goto __2
goto __4
__4:
;
addrHalt = (*WhereLevel)(unsafe.Pointer(pWInfo + 856 + uintptr(j)*104)).FaddrBrk
if !(uint32(int32(*(*uint16)(unsafe.Pointer(pTabItem + 60 + 4))&0x20>>5)) != 0) {
goto __7
}
regYield = (*SrcItem)(unsafe.Pointer(pTabItem)).FregReturn
Xsqlite3VdbeAddOp3(tls, v, OP_InitCoroutine, regYield, 0, (*SrcItem)(unsafe.Pointer(pTabItem)).FaddrFillSub)
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp2 = Xsqlite3VdbeAddOp2(tls, v, OP_Yield, regYield, addrBrk)
(*WhereLevel)(unsafe.Pointer(pLevel)).Fop = U8(OP_Goto)
goto __8
__7:
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_VIRTUALTABLE) != U32(0)) {
goto __9
}
nConstraint = int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnLTerm)
iReg = Xsqlite3GetTempRange(tls, pParse, nConstraint+2)
addrNotFound = (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrBrk
j = 0
__11:
if !(j < nConstraint) {
goto __13
}
iTarget = iReg + j + 2
pTerm = *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(j)*8))
if !(pTerm == uintptr(0)) {
goto __14
}
goto __12
__14:
;
if !(int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&WO_IN != 0) {
goto __15
}
if !(func() uint32 {
if j <= 31 {
return uint32(1) << j
}
return uint32(0)
}()&*(*U32)(unsafe.Pointer(pLoop + 24 + 24)) != 0) {
goto __17
}
iTab = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
iCache = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3CodeRhsOfIN(tls, pParse, (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr, iTab)
Xsqlite3VdbeAddOp3(tls, v, OP_VInitIn, iTab, iTarget, iCache)
goto __18
__17:
codeEqualityTerm(tls, pParse, pTerm, pLevel, j, bRev, iTarget)
addrNotFound = (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrNxt
__18:
;
goto __16
__15:
pRight = (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).FpRight
codeExprOrVector(tls, pParse, pRight, iTarget, 1)
if !(int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeMatchOp) == SQLITE_INDEX_CONSTRAINT_OFFSET &&
U32(int32(*(*uint8)(unsafe.Pointer(pLoop + 24 + 4))&0x2>>1)) != 0) {
goto __19
}
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, (*Select)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpSelect)).FiOffset)
__19:
;
__16:
;
goto __12
__12:
j++
goto __11
goto __13
__13:
;
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, *(*int32)(unsafe.Pointer(pLoop + 24)), iReg)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, nConstraint, iReg+1)
Xsqlite3VdbeAddOp4(tls, v, OP_VFilter, iCur, addrNotFound, iReg,
*(*uintptr)(unsafe.Pointer(pLoop + 24 + 16)),
func() int32 {
if U32(int32(*(*uint8)(unsafe.Pointer(pLoop + 24 + 4))&0x1>>0)) != 0 {
return -6
}
return -1
}())
libc.SetBitFieldPtr8Uint32(pLoop+24+4, U32(0), 0, 0x1)
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __20
}
*(*uintptr)(unsafe.Pointer(pLoop + 24 + 16)) = uintptr(0)
__20:
;
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp1 = iCur
(*WhereLevel)(unsafe.Pointer(pLevel)).Fop = func() uint8 {
if (*WhereInfo)(unsafe.Pointer(pWInfo)).FeOnePass != 0 {
return uint8(OP_Noop)
}
return uint8(OP_VNext)
}()
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp2 = Xsqlite3VdbeCurrentAddr(tls, v)
j = 0
__21:
if !(j < nConstraint) {
goto __23
}
pTerm = *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(j)*8))
if !(j < 16 && int32(*(*U16)(unsafe.Pointer(pLoop + 24 + 8)))>>j&1 != 0) {
goto __24
}
disableTerm(tls, pLevel, pTerm)
goto __22
__24:
;
if !(int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&WO_IN != 0 &&
func() uint32 {
if j <= 31 {
return uint32(1) << j
}
return uint32(0)
}()&*(*U32)(unsafe.Pointer(pLoop + 24 + 24)) == uint32(0) &&
!(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0)) {
goto __25
}
iIn = 0
__26:
if !(iIn < *(*int32)(unsafe.Pointer(pLevel + 72))) {
goto __28
}
pOp = Xsqlite3VdbeGetOp(tls, v, *(*int32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pLevel + 72 + 8)) + uintptr(iIn)*20 + 4)))
if !(int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_Column && (*VdbeOp)(unsafe.Pointer(pOp)).Fp3 == iReg+j+2 ||
int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_Rowid && (*VdbeOp)(unsafe.Pointer(pOp)).Fp2 == iReg+j+2) {
goto __29
}
Xsqlite3VdbeAddOp3(tls, v, int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode), (*VdbeOp)(unsafe.Pointer(pOp)).Fp1, (*VdbeOp)(unsafe.Pointer(pOp)).Fp2, (*VdbeOp)(unsafe.Pointer(pOp)).Fp3)
goto __28
__29:
;
goto __27
__27:
iIn++
goto __26
goto __28
__28:
;
pCompare = Xsqlite3PExpr(tls, pParse, TK_EQ, uintptr(0), uintptr(0))
if !!(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
goto __30
}
iFld = *(*int32)(unsafe.Pointer(pTerm + 32 + 4))
pLeft = (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).FpLeft
if !(iFld > 0) {
goto __31
}
(*Expr)(unsafe.Pointer(pCompare)).FpLeft = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pLeft + 32)) + 8 + uintptr(iFld-1)*32)).FpExpr
goto __32
__31:
(*Expr)(unsafe.Pointer(pCompare)).FpLeft = pLeft
__32:
;
(*Expr)(unsafe.Pointer(pCompare)).FpRight = libc.AssignUintptr(&pRight1, Xsqlite3Expr(tls, db, TK_REGISTER, uintptr(0)))
if !(pRight1 != 0) {
goto __33
}
(*Expr)(unsafe.Pointer(pRight1)).FiTable = iReg + j + 2
Xsqlite3ExprIfFalse(tls,
pParse, pCompare, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrCont, SQLITE_JUMPIFNULL)
__33:
;
(*Expr)(unsafe.Pointer(pCompare)).FpLeft = uintptr(0)
__30:
;
Xsqlite3ExprDelete(tls, db, pCompare)
__25:
;
goto __22
__22:
j++
goto __21
goto __23
__23:
;
goto __10
__9:
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IPK) != U32(0) &&
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_COLUMN_IN|WHERE_COLUMN_EQ) != U32(0)) {
goto __34
}
pTerm = *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm))
iReleaseReg = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
iRowidReg = codeEqualityTerm(tls, pParse, pTerm, pLevel, 0, bRev, iReleaseReg)
if !(iRowidReg != iReleaseReg) {
goto __36
}
Xsqlite3ReleaseTempReg(tls, pParse, iReleaseReg)
__36:
;
addrNxt = (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrNxt
if !((*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter != 0) {
goto __37
}
Xsqlite3VdbeAddOp2(tls, v, OP_MustBeInt, iRowidReg, addrNxt)
Xsqlite3VdbeAddOp4Int(tls, v, OP_Filter, (*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter, addrNxt,
iRowidReg, 1)
filterPullDown(tls, pParse, pWInfo, iLevel, addrNxt, notReady)
__37:
;
Xsqlite3VdbeAddOp3(tls, v, OP_SeekRowid, iCur, addrNxt, iRowidReg)
(*WhereLevel)(unsafe.Pointer(pLevel)).Fop = U8(OP_Noop)
goto __35
__34:
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IPK) != U32(0) &&
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_COLUMN_RANGE) != U32(0)) {
goto __38
}
testOp = OP_Noop
memEndValue = 0
j = 0
pStart = libc.AssignUintptr(&pEnd, uintptr(0))
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_BTM_LIMIT) != 0) {
goto __40
}
pStart = *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(libc.PostIncInt32(&j, 1))*8))
__40:
;
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_TOP_LIMIT) != 0) {
goto __41
}
pEnd = *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(libc.PostIncInt32(&j, 1))*8))
__41:
;
if !(bRev != 0) {
goto __42
}
pTerm = pStart
pStart = pEnd
pEnd = pTerm
__42:
;
if !(pStart != 0) {
goto __43
}
*(*[4]U8)(unsafe.Pointer(bp + 8)) = [4]U8{
U8(OP_SeekGT),
U8(OP_SeekLE),
U8(OP_SeekLT),
U8(OP_SeekGE),
}
pX = (*WhereTerm)(unsafe.Pointer(pStart)).FpExpr
if !(Xsqlite3ExprIsVector(tls, (*Expr)(unsafe.Pointer(pX)).FpRight) != 0) {
goto __45
}
r1 = libc.AssignPtrInt32(bp+12, Xsqlite3GetTempReg(tls, pParse))
codeExprOrVector(tls, pParse, (*Expr)(unsafe.Pointer(pX)).FpRight, r1, 1)
op = int32(*(*U8)(unsafe.Pointer(bp + 8 + uintptr((int32((*Expr)(unsafe.Pointer(pX)).Fop)-TK_GT-1)&0x3|0x1))))
goto __46
__45:
r1 = Xsqlite3ExprCodeTemp(tls, pParse, (*Expr)(unsafe.Pointer(pX)).FpRight, bp+12)
disableTerm(tls, pLevel, pStart)
op = int32(*(*U8)(unsafe.Pointer(bp + 8 + uintptr(int32((*Expr)(unsafe.Pointer(pX)).Fop)-TK_GT))))
__46:
;
Xsqlite3VdbeAddOp3(tls, v, op, iCur, addrBrk, r1)
Xsqlite3ReleaseTempReg(tls, pParse, *(*int32)(unsafe.Pointer(bp + 12)))
goto __44
__43:
Xsqlite3VdbeAddOp2(tls, v, func() int32 {
if bRev != 0 {
return OP_Last
}
return OP_Rewind
}(), iCur, addrHalt)
__44:
;
if !(pEnd != 0) {
goto __47
}
pX1 = (*WhereTerm)(unsafe.Pointer(pEnd)).FpExpr
memEndValue = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
codeExprOrVector(tls, pParse, (*Expr)(unsafe.Pointer(pX1)).FpRight, memEndValue, 1)
if !(0 == Xsqlite3ExprIsVector(tls, (*Expr)(unsafe.Pointer(pX1)).FpRight) &&
(int32((*Expr)(unsafe.Pointer(pX1)).Fop) == TK_LT || int32((*Expr)(unsafe.Pointer(pX1)).Fop) == TK_GT)) {
goto __48
}
if bRev != 0 {
testOp = OP_Le
} else {
testOp = OP_Ge
}
goto __49
__48:
if bRev != 0 {
testOp = OP_Lt
} else {
testOp = OP_Gt
}
__49:
;
if !(0 == Xsqlite3ExprIsVector(tls, (*Expr)(unsafe.Pointer(pX1)).FpRight)) {
goto __50
}
disableTerm(tls, pLevel, pEnd)
__50:
;
__47:
;
start = Xsqlite3VdbeCurrentAddr(tls, v)
(*WhereLevel)(unsafe.Pointer(pLevel)).Fop = func() uint8 {
if bRev != 0 {
return uint8(OP_Prev)
}
return uint8(OP_Next)
}()
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp1 = iCur
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp2 = start
if !(testOp != OP_Noop) {
goto __51
}
iRowidReg = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, iCur, iRowidReg)
Xsqlite3VdbeAddOp3(tls, v, testOp, memEndValue, addrBrk, iRowidReg)
Xsqlite3VdbeChangeP5(tls, v, uint16(SQLITE_AFF_NUMERIC|SQLITE_JUMPIFNULL))
__51:
;
goto __39
__38:
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_INDEXED) != 0) {
goto __52
}
nEq = *(*U16)(unsafe.Pointer(pLoop + 24))
nBtm = *(*U16)(unsafe.Pointer(pLoop + 24 + 2))
nTop = *(*U16)(unsafe.Pointer(pLoop + 24 + 4))
pRangeStart = uintptr(0)
pRangeEnd = uintptr(0)
nExtraReg = 0
zEndAff = uintptr(0)
bSeekPastNull = U8(0)
bStopAtNull = U8(0)
regBignull = 0
addrSeekScan = 0
pIdx = *(*uintptr)(unsafe.Pointer(pLoop + 24 + 8))
iIdxCur = (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur
j = int32(nEq)
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_BTM_LIMIT) != 0) {
goto __54
}
pRangeStart = *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(libc.PostIncInt32(&j, 1))*8))
nExtraReg = func() int32 {
if nExtraReg > int32(*(*U16)(unsafe.Pointer(pLoop + 24 + 2))) {
return nExtraReg
}
return int32(*(*U16)(unsafe.Pointer(pLoop + 24 + 2)))
}()
__54:
;
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_TOP_LIMIT) != 0) {
goto __55
}
pRangeEnd = *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(libc.PostIncInt32(&j, 1))*8))
nExtraReg = func() int32 {
if nExtraReg > int32(*(*U16)(unsafe.Pointer(pLoop + 24 + 4))) {
return nExtraReg
}
return int32(*(*U16)(unsafe.Pointer(pLoop + 24 + 4)))
}()
if !(pRangeStart == uintptr(0)) {
goto __56
}
j = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(nEq)*2)))
if !(j >= 0 && int32(*(*uint8)(unsafe.Pointer((*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FpTable)).FaCol + uintptr(j)*24 + 8))&0xf>>0) == 0 || j == -2) {
goto __57
}
bSeekPastNull = U8(1)
__57:
;
__56:
;
__55:
;
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_TOP_LIMIT|WHERE_BTM_LIMIT) == U32(0) &&
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_BIGNULL_SORT) != U32(0)) {
goto __58
}
nExtraReg = 1
bSeekPastNull = U8(1)
(*WhereLevel)(unsafe.Pointer(pLevel)).FregBignull = libc.AssignInt32(&regBignull, libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1))
if !((*WhereLevel)(unsafe.Pointer(pLevel)).FiLeftJoin != 0) {
goto __59
}
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, regBignull)
__59:
;
(*WhereLevel)(unsafe.Pointer(pLevel)).FaddrBignull = Xsqlite3VdbeMakeLabel(tls, pParse)
__58:
;
if !(int32(nEq) < int32((*Index)(unsafe.Pointer(pIdx)).FnColumn) && bRev == libc.Bool32(int32(*(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaSortOrder + uintptr(nEq)))) == SQLITE_SO_ASC)) {
goto __60
}
t = pRangeEnd
pRangeEnd = pRangeStart
pRangeStart = t
t1 = bSeekPastNull
bSeekPastNull = bStopAtNull
bStopAtNull = t1
t2 = U8(nBtm)
nBtm = nTop
nTop = U16(t2)
__60:
;
if !(iLevel > 0 && (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IN_SEEKSCAN) != U32(0)) {
goto __61
}
Xsqlite3VdbeAddOp1(tls, v, OP_NullRow, iIdxCur)
__61:
;
regBase = codeAllEqualityTerms(tls, pParse, pLevel, bRev, nExtraReg, bp+16)
if !(*(*uintptr)(unsafe.Pointer(bp + 16)) != 0 && nTop != 0) {
goto __62
}
zEndAff = Xsqlite3DbStrDup(tls, db, *(*uintptr)(unsafe.Pointer(bp + 16))+uintptr(nEq))
__62:
;
addrNxt = func() int32 {
if regBignull != 0 {
return (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrBignull
}
return (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrNxt
}()
startEq = libc.Bool32(!(pRangeStart != 0) || int32((*WhereTerm)(unsafe.Pointer(pRangeStart)).FeOperator)&(int32(WO_EQ)<<(TK_LE-TK_EQ)|int32(WO_EQ)<<(TK_GE-TK_EQ)) != 0)
endEq = libc.Bool32(!(pRangeEnd != 0) || int32((*WhereTerm)(unsafe.Pointer(pRangeEnd)).FeOperator)&(int32(WO_EQ)<<(TK_LE-TK_EQ)|int32(WO_EQ)<<(TK_GE-TK_EQ)) != 0)
start_constraints = libc.Bool32(pRangeStart != 0 || int32(nEq) > 0)
nConstraint1 = int32(nEq)
if !(pRangeStart != 0) {
goto __63
}
pRight2 = (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pRangeStart)).FpExpr)).FpRight
codeExprOrVector(tls, pParse, pRight2, regBase+int32(nEq), int32(nBtm))
if !(int32((*WhereTerm)(unsafe.Pointer(pRangeStart)).FwtFlags)&TERM_VNULL == 0 &&
Xsqlite3ExprCanBeNull(tls, pRight2) != 0) {
goto __65
}
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, regBase+int32(nEq), addrNxt)
__65:
;
if !(*(*uintptr)(unsafe.Pointer(bp + 16)) != 0) {
goto __66
}
updateRangeAffinityStr(tls, pRight2, int32(nBtm), *(*uintptr)(unsafe.Pointer(bp + 16))+uintptr(nEq))
__66:
;
nConstraint1 = nConstraint1 + int32(nBtm)
if !(Xsqlite3ExprIsVector(tls, pRight2) == 0) {
goto __67
}
disableTerm(tls, pLevel, pRangeStart)
goto __68
__67:
startEq = 1
__68:
;
bSeekPastNull = U8(0)
goto __64
__63:
if !(bSeekPastNull != 0) {
goto __69
}
startEq = 0
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, regBase+int32(nEq))
start_constraints = 1
nConstraint1++
goto __70
__69:
if !(regBignull != 0) {
goto __71
}
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, regBase+int32(nEq))
start_constraints = 1
nConstraint1++
__71:
;
__70:
;
__64:
;
codeApplyAffinity(tls, pParse, regBase, nConstraint1-int32(bSeekPastNull), *(*uintptr)(unsafe.Pointer(bp + 16)))
if !(int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnSkip) > 0 && nConstraint1 == int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnSkip)) {
goto __72
}
goto __73
__72:
if !(regBignull != 0) {
goto __74
}
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, regBignull)
__74:
;
if !((*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter != 0) {
goto __75
}
Xsqlite3VdbeAddOp4Int(tls, v, OP_Filter, (*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter, addrNxt,
regBase, int32(nEq))
filterPullDown(tls, pParse, pWInfo, iLevel, addrNxt, notReady)
__75:
;
op1 = int32(aStartOp[start_constraints<<2+startEq<<1+bRev])
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IN_SEEKSCAN) != U32(0) && op1 == OP_SeekGE) {
goto __76
}
addrSeekScan = Xsqlite3VdbeAddOp1(tls, v, OP_SeekScan,
(int32(*(*LogEst)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiRowLogEst)))+9)/10)
if !(pRangeStart != 0) {
goto __77
}
Xsqlite3VdbeChangeP5(tls, v, uint16(1))
Xsqlite3VdbeChangeP2(tls, v, addrSeekScan, Xsqlite3VdbeCurrentAddr(tls, v)+1)
addrSeekScan = 0
__77:
;
__76:
;
Xsqlite3VdbeAddOp4Int(tls, v, op1, iIdxCur, addrNxt, regBase, nConstraint1)
if !(regBignull != 0) {
goto __78
}
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, Xsqlite3VdbeCurrentAddr(tls, v)+2)
op1 = int32(aStartOp[libc.Bool32(nConstraint1 > 1)*4+2+bRev])
Xsqlite3VdbeAddOp4Int(tls, v, op1, iIdxCur, addrNxt, regBase,
nConstraint1-startEq)
__78:
;
__73:
;
nConstraint1 = int32(nEq)
if !(pRangeEnd != 0) {
goto __79
}
pRight3 = (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pRangeEnd)).FpExpr)).FpRight
if !(addrSeekScan != 0) {
goto __81
}
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp2 = Xsqlite3VdbeCurrentAddr(tls, v)
__81:
;
codeExprOrVector(tls, pParse, pRight3, regBase+int32(nEq), int32(nTop))
if !(int32((*WhereTerm)(unsafe.Pointer(pRangeEnd)).FwtFlags)&TERM_VNULL == 0 &&
Xsqlite3ExprCanBeNull(tls, pRight3) != 0) {
goto __82
}
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, regBase+int32(nEq), addrNxt)
__82:
;
if !(zEndAff != 0) {
goto __83
}
updateRangeAffinityStr(tls, pRight3, int32(nTop), zEndAff)
codeApplyAffinity(tls, pParse, regBase+int32(nEq), int32(nTop), zEndAff)
goto __84
__83:
;
__84:
;
nConstraint1 = nConstraint1 + int32(nTop)
if !(Xsqlite3ExprIsVector(tls, pRight3) == 0) {
goto __85
}
disableTerm(tls, pLevel, pRangeEnd)
goto __86
__85:
endEq = 1
__86:
;
goto __80
__79:
if !(bStopAtNull != 0) {
goto __87
}
if !(regBignull == 0) {
goto __88
}
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, regBase+int32(nEq))
endEq = 0
__88:
;
nConstraint1++
__87:
;
__80:
;
if !(*(*uintptr)(unsafe.Pointer(bp + 16)) != 0) {
goto __89
}
Xsqlite3DbNNFreeNN(tls, db, *(*uintptr)(unsafe.Pointer(bp + 16)))
__89:
;
if !(zEndAff != 0) {
goto __90
}
Xsqlite3DbNNFreeNN(tls, db, zEndAff)
__90:
;
if !((*WhereLevel)(unsafe.Pointer(pLevel)).Fp2 == 0) {
goto __91
}
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp2 = Xsqlite3VdbeCurrentAddr(tls, v)
__91:
;
if !(nConstraint1 != 0) {
goto __92
}
if !(regBignull != 0) {
goto __93
}
Xsqlite3VdbeAddOp2(tls, v, OP_IfNot, regBignull, Xsqlite3VdbeCurrentAddr(tls, v)+3)
__93:
;
op1 = int32(aEndOp[bRev*2+endEq])
Xsqlite3VdbeAddOp4Int(tls, v, op1, iIdxCur, addrNxt, regBase, nConstraint1)
if !(addrSeekScan != 0) {
goto __94
}
Xsqlite3VdbeJumpHere(tls, v, addrSeekScan)
__94:
;
__92:
;
if !(regBignull != 0) {
goto __95
}
Xsqlite3VdbeAddOp2(tls, v, OP_If, regBignull, Xsqlite3VdbeCurrentAddr(tls, v)+2)
op1 = int32(aEndOp[bRev*2+int32(bSeekPastNull)])
Xsqlite3VdbeAddOp4Int(tls, v, op1, iIdxCur, addrNxt, regBase,
nConstraint1+int32(bSeekPastNull))
__95:
;
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IN_EARLYOUT) != U32(0)) {
goto __96
}
Xsqlite3VdbeAddOp3(tls, v, OP_SeekHit, iIdxCur, int32(nEq), int32(nEq))
__96:
;
omitTable = libc.Bool32((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IDX_ONLY) != U32(0) &&
int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&(WHERE_OR_SUBCLAUSE|WHERE_RIGHT_JOIN) == 0)
if !(omitTable != 0) {
goto __97
}
goto __98
__97:
if !((*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FpTable)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __99
}
codeDeferredSeek(tls, pWInfo, pIdx, iCur, iIdxCur)
goto __100
__99:
if !(iCur != iIdxCur) {
goto __101
}
pPk = Xsqlite3PrimaryKeyIndex(tls, (*Index)(unsafe.Pointer(pIdx)).FpTable)
iRowidReg = Xsqlite3GetTempRange(tls, pParse, int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol))
j = 0
__102:
if !(j < int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol)) {
goto __104
}
k = int32(Xsqlite3TableColumnToIndex(tls, pIdx, *(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(j)*2))))
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iIdxCur, k, iRowidReg+j)
goto __103
__103:
j++
goto __102
goto __104
__104:
;
Xsqlite3VdbeAddOp4Int(tls, v, OP_NotFound, iCur, addrCont,
iRowidReg, int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol))
__101:
;
__100:
;
__98:
;
if !((*WhereLevel)(unsafe.Pointer(pLevel)).FiLeftJoin == 0) {
goto __105
}
if !((*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere != 0) {
goto __107
}
whereApplyPartialIndexConstraints(tls, (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere, iCur, pWC)
__107:
;
goto __106
__105:
;
__106:
;
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_ONEROW) != 0) {
goto __108
}
(*WhereLevel)(unsafe.Pointer(pLevel)).Fop = U8(OP_Noop)
goto __109
__108:
if !(bRev != 0) {
goto __110
}
(*WhereLevel)(unsafe.Pointer(pLevel)).Fop = U8(OP_Prev)
goto __111
__110:
(*WhereLevel)(unsafe.Pointer(pLevel)).Fop = U8(OP_Next)
__111:
;
__109:
;
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp1 = iIdxCur
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp3 = func() uint8 {
if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_UNQ_WANTED) != U32(0) {
return uint8(1)
}
return uint8(0)
}()
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_CONSTRAINT) == U32(0)) {
goto __112
}
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp5 = U8(SQLITE_STMTSTATUS_FULLSCAN_STEP)
goto __113
__112:
;
__113:
;
if !(omitTable != 0) {
goto __114
}
pIdx = uintptr(0)
__114:
;
goto __53
__52:
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_MULTI_OR) != 0) {
goto __115
}
pCov = uintptr(0)
iCovCur = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
regReturn = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
regRowset = 0
regRowid = 0
iLoopBody = Xsqlite3VdbeMakeLabel(tls, pParse)
untestedTerms = 0
pAndExpr = uintptr(0)
pTab = (*SrcItem)(unsafe.Pointer(pTabItem)).FpTab
pTerm = *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm))
pOrWc = *(*uintptr)(unsafe.Pointer(pTerm + 32))
(*WhereLevel)(unsafe.Pointer(pLevel)).Fop = U8(OP_Return)
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp1 = regReturn
if !(int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel) > 1) {
goto __117
}
nNotReady = int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel) - iLevel - 1
pOrTab = Xsqlite3DbMallocRawNN(tls, db,
uint64(unsafe.Sizeof(SrcList{}))+uint64(nNotReady)*uint64(unsafe.Sizeof(SrcItem{})))
if !(pOrTab == uintptr(0)) {
goto __119
}
return notReady
__119:
;
(*SrcList)(unsafe.Pointer(pOrTab)).FnAlloc = U32(U8(nNotReady + 1))
(*SrcList)(unsafe.Pointer(pOrTab)).FnSrc = int32((*SrcList)(unsafe.Pointer(pOrTab)).FnAlloc)
libc.X__builtin___memcpy_chk(tls, pOrTab+8, pTabItem, uint64(unsafe.Sizeof(SrcItem{})), libc.X__builtin_object_size(tls, pOrTab+8, 0))
origSrc = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList + 8
k = 1
__120:
if !(k <= nNotReady) {
goto __122
}
libc.X__builtin___memcpy_chk(tls, pOrTab+8+uintptr(k)*104, origSrc+uintptr((*WhereLevel)(unsafe.Pointer(pLevel+uintptr(k)*104)).FiFrom)*104, uint64(unsafe.Sizeof(SrcItem{})), libc.X__builtin_object_size(tls, pOrTab+8+uintptr(k)*104, 0))
goto __121
__121:
k++
goto __120
goto __122
__122:
;
goto __118
__117:
pOrTab = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList
__118:
;
if !(int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_DUPLICATES_OK == 0) {
goto __123
}
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __124
}
regRowset = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, regRowset)
goto __125
__124:
pPk1 = Xsqlite3PrimaryKeyIndex(tls, pTab)
regRowset = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, regRowset, int32((*Index)(unsafe.Pointer(pPk1)).FnKeyCol))
Xsqlite3VdbeSetP4KeyInfo(tls, pParse, pPk1)
__125:
;
regRowid = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
__123:
;
iRetInit = Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, regReturn)
if !((*WhereClause)(unsafe.Pointer(pWC)).FnTerm > 1) {
goto __126
}
iTerm = 0
__127:
if !(iTerm < (*WhereClause)(unsafe.Pointer(pWC)).FnTerm) {
goto __129
}
pExpr = (*WhereTerm)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(iTerm)*56)).FpExpr
if !((*WhereClause)(unsafe.Pointer(pWC)).Fa+uintptr(iTerm)*56 == pTerm) {
goto __130
}
goto __128
__130:
;
if !(int32((*WhereTerm)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).Fa+uintptr(iTerm)*56)).FwtFlags)&(TERM_VIRTUAL|TERM_CODED|TERM_SLICE) != 0) {
goto __131
}
goto __128
__131:
;
if !(int32((*WhereTerm)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).Fa+uintptr(iTerm)*56)).FeOperator)&WO_ALL == 0) {
goto __132
}
goto __128
__132:
;
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_Subquery) != U32(0)) {
goto __133
}
goto __128
__133:
;
pExpr = Xsqlite3ExprDup(tls, db, pExpr, 0)
pAndExpr = Xsqlite3ExprAnd(tls, pParse, pAndExpr, pExpr)
goto __128
__128:
iTerm++
goto __127
goto __129
__129:
;
if !(pAndExpr != 0) {
goto __134
}
pAndExpr = Xsqlite3PExpr(tls, pParse, TK_AND|0x10000, uintptr(0), pAndExpr)
__134:
;
__126:
;
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+22227, 0)
ii = 0
__135:
if !(ii < (*WhereClause)(unsafe.Pointer(pOrWc)).FnTerm) {
goto __137
}
pOrTerm = (*WhereClause)(unsafe.Pointer(pOrWc)).Fa + uintptr(ii)*56
if !((*WhereTerm)(unsafe.Pointer(pOrTerm)).FleftCursor == iCur || int32((*WhereTerm)(unsafe.Pointer(pOrTerm)).FeOperator)&WO_AND != 0) {
goto __138
}
pOrExpr = (*WhereTerm)(unsafe.Pointer(pOrTerm)).FpExpr
jmp1 = 0
pDelete = libc.AssignUintptr(&pOrExpr, Xsqlite3ExprDup(tls, db, pOrExpr, 0))
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __139
}
Xsqlite3ExprDelete(tls, db, pDelete)
goto __136
__139:
;
if !(pAndExpr != 0) {
goto __140
}
(*Expr)(unsafe.Pointer(pAndExpr)).FpLeft = pOrExpr
pOrExpr = pAndExpr
__140:
;
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+22242, libc.VaList(bp, ii+1))
pSubWInfo = Xsqlite3WhereBegin(tls, pParse, pOrTab, pOrExpr, uintptr(0), uintptr(0), uintptr(0),
uint16(WHERE_OR_SUBCLAUSE), iCovCur)
if !(pSubWInfo != 0) {
goto __141
}
addrExplain = Xsqlite3WhereExplainOneScan(tls,
pParse, pOrTab, pSubWInfo+856, uint16(0))
_ = addrExplain
if !(int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_DUPLICATES_OK == 0) {
goto __142
}
iSet = func() int32 {
if ii == (*WhereClause)(unsafe.Pointer(pOrWc)).FnTerm-1 {
return -1
}
return ii
}()
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __143
}
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab, iCur, -1, regRowid)
jmp1 = Xsqlite3VdbeAddOp4Int(tls, v, OP_RowSetTest, regRowset, 0,
regRowid, iSet)
goto __144
__143:
pPk2 = Xsqlite3PrimaryKeyIndex(tls, pTab)
nPk = int32((*Index)(unsafe.Pointer(pPk2)).FnKeyCol)
r = Xsqlite3GetTempRange(tls, pParse, nPk)
iPk = 0
__145:
if !(iPk < nPk) {
goto __147
}
iCol = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk2)).FaiColumn + uintptr(iPk)*2)))
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab, iCur, iCol, r+iPk)
goto __146
__146:
iPk++
goto __145
goto __147
__147:
;
if !(iSet != 0) {
goto __148
}
jmp1 = Xsqlite3VdbeAddOp4Int(tls, v, OP_Found, regRowset, 0, r, nPk)
__148:
;
if !(iSet >= 0) {
goto __149
}
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, r, nPk, regRowid)
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, regRowset, regRowid,
r, nPk)
if !(iSet != 0) {
goto __150
}
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_USESEEKRESULT))
__150:
;
__149:
;
Xsqlite3ReleaseTempRange(tls, pParse, r, nPk)
__144:
;
__142:
;
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, regReturn, iLoopBody)
if !(jmp1 != 0) {
goto __151
}
Xsqlite3VdbeJumpHere(tls, v, jmp1)
__151:
;
if !(uint32(int32(*(*uint8)(unsafe.Pointer(pSubWInfo + 68))&0x2>>1)) != 0) {
goto __152
}
untestedTerms = 1
__152:
;
pSubLoop = (*WhereLevel)(unsafe.Pointer(pSubWInfo + 856)).FpWLoop
if !((*WhereLoop)(unsafe.Pointer(pSubLoop)).FwsFlags&U32(WHERE_INDEXED) != U32(0) &&
(ii == 0 || *(*uintptr)(unsafe.Pointer(pSubLoop + 24 + 8)) == pCov) &&
((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) || !(int32(*(*uint16)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pSubLoop + 24 + 8)) + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY))) {
goto __153
}
pCov = *(*uintptr)(unsafe.Pointer(pSubLoop + 24 + 8))
goto __154
__153:
pCov = uintptr(0)
__154:
;
if !(Xsqlite3WhereUsesDeferredSeek(tls, pSubWInfo) != 0) {
goto __155
}
libc.SetBitFieldPtr8Uint32(pWInfo+68, uint32(1), 0, 0x1)
__155:
;
Xsqlite3WhereEnd(tls, pSubWInfo)
Xsqlite3VdbeExplainPop(tls, pParse)
__141:
;
Xsqlite3ExprDelete(tls, db, pDelete)
__138:
;
goto __136
__136:
ii++
goto __135
goto __137
__137:
;
Xsqlite3VdbeExplainPop(tls, pParse)
*(*uintptr)(unsafe.Pointer(pLevel + 72)) = pCov
if !(pCov != 0) {
goto __156
}
(*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur = iCovCur
__156:
;
if !(pAndExpr != 0) {
goto __157
}
(*Expr)(unsafe.Pointer(pAndExpr)).FpLeft = uintptr(0)
Xsqlite3ExprDelete(tls, db, pAndExpr)
__157:
;
Xsqlite3VdbeChangeP1(tls, v, iRetInit, Xsqlite3VdbeCurrentAddr(tls, v))
Xsqlite3VdbeGoto(tls, v, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrBrk)
Xsqlite3VdbeResolveLabel(tls, v, iLoopBody)
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp2 = Xsqlite3VdbeCurrentAddr(tls, v)
if !(int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel) > 1) {
goto __158
}
Xsqlite3DbFreeNN(tls, db, pOrTab)
__158:
;
if !!(untestedTerms != 0) {
goto __159
}
disableTerm(tls, pLevel, pTerm)
__159:
;
goto __116
__115:
;
if !(uint32(int32(*(*uint16)(unsafe.Pointer(pTabItem + 60 + 4))&0x40>>6)) != 0) {
goto __160
}
(*WhereLevel)(unsafe.Pointer(pLevel)).Fop = U8(OP_Noop)
goto __161
__160:
;
(*WhereLevel)(unsafe.Pointer(pLevel)).Fop = aStep[bRev]
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp1 = iCur
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp2 = 1 + Xsqlite3VdbeAddOp2(tls, v, int32(aStart[bRev]), iCur, addrHalt)
(*WhereLevel)(unsafe.Pointer(pLevel)).Fp5 = U8(SQLITE_STMTSTATUS_FULLSCAN_STEP)
__161:
;
__116:
;
__53:
;
__39:
;
__35:
;
__10:
;
__8:
;
iLoop = func() int32 {
if pIdx != 0 {
return 1
}
return 2
}()
__162:
iNext = 0
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa
j = (*WhereClause)(unsafe.Pointer(pWC)).FnTerm
__165:
if !(j > 0) {
goto __167
}
skipLikeAddr = 0
if !(int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&(TERM_VIRTUAL|TERM_CODED) != 0) {
goto __168
}
goto __166
__168:
;
if !((*WhereTerm)(unsafe.Pointer(pTerm)).FprereqAll&(*WhereLevel)(unsafe.Pointer(pLevel)).FnotReady != uint64(0)) {
goto __169
}
libc.SetBitFieldPtr8Uint32(pWInfo+68, uint32(1), 1, 0x2)
goto __166
__169:
;
pE = (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr
if !(int32((*SrcItem)(unsafe.Pointer(pTabItem)).Ffg.Fjointype)&(JT_LEFT|JT_LTORJ|JT_RIGHT) != 0) {
goto __170
}
if !!((*Expr)(unsafe.Pointer(pE)).Fflags&U32(EP_OuterON|EP_InnerON) != U32(0)) {
goto __171
}
goto __166
goto __172
__171:
if !(int32((*SrcItem)(unsafe.Pointer(pTabItem)).Ffg.Fjointype)&JT_LEFT == JT_LEFT &&
!((*Expr)(unsafe.Pointer(pE)).Fflags&U32(EP_OuterON) != U32(0))) {
goto __173
}
goto __166
goto __174
__173:
m = Xsqlite3WhereGetMask(tls, pWInfo+592, *(*int32)(unsafe.Pointer(pE + 52)))
if !(m&(*WhereLevel)(unsafe.Pointer(pLevel)).FnotReady != 0) {
goto __175
}
goto __166
__175:
;
__174:
;
__172:
;
__170:
;
if !(iLoop == 1 && !(Xsqlite3ExprCoveredByIndex(tls, pE, (*WhereLevel)(unsafe.Pointer(pLevel)).FiTabCur, pIdx) != 0)) {
goto __176
}
iNext = 2
goto __166
__176:
;
if !(iLoop < 3 && int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_VARSELECT != 0) {
goto __177
}
if !(iNext == 0) {
goto __178
}
iNext = 3
__178:
;
goto __166
__177:
;
if !(int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_LIKECOND != 0) {
goto __179
}
goto __166
__179:
;
Xsqlite3ExprIfFalse(tls, pParse, pE, addrCont, SQLITE_JUMPIFNULL)
if !(skipLikeAddr != 0) {
goto __180
}
Xsqlite3VdbeJumpHere(tls, v, skipLikeAddr)
__180:
;
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_CODED)
goto __166
__166:
j--
pTerm += 56
goto __165
goto __167
__167:
;
iLoop = iNext
goto __163
__163:
if iLoop > 0 {
goto __162
}
goto __164
__164:
;
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa
j = (*WhereClause)(unsafe.Pointer(pWC)).FnBase
__181:
if !(j > 0) {
goto __183
}
if !(int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&(TERM_VIRTUAL|TERM_CODED) != 0) {
goto __184
}
goto __182
__184:
;
if !(int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&(WO_EQ|WO_IS) == 0) {
goto __185
}
goto __182
__185:
;
if !(int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&WO_EQUIV == 0) {
goto __186
}
goto __182
__186:
;
if !((*WhereTerm)(unsafe.Pointer(pTerm)).FleftCursor != iCur) {
goto __187
}
goto __182
__187:
;
if !(int32((*SrcItem)(unsafe.Pointer(pTabItem)).Ffg.Fjointype)&(JT_LEFT|JT_LTORJ|JT_RIGHT) != 0) {
goto __188
}
goto __182
__188:
;
pE1 = (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr
pAlt = Xsqlite3WhereFindTerm(tls, pWC, iCur, *(*int32)(unsafe.Pointer(pTerm + 32)), notReady,
uint32(WO_EQ|WO_IN|WO_IS), uintptr(0))
if !(pAlt == uintptr(0)) {
goto __189
}
goto __182
__189:
;
if !(int32((*WhereTerm)(unsafe.Pointer(pAlt)).FwtFlags)&TERM_CODED != 0) {
goto __190
}
goto __182
__190:
;
if !(int32((*WhereTerm)(unsafe.Pointer(pAlt)).FeOperator)&WO_IN != 0 &&
(*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pAlt)).FpExpr)).Fflags&U32(EP_xIsSelect) != U32(0) &&
(*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pAlt)).FpExpr + 32)))).FpEList)).FnExpr > 1) {
goto __191
}
goto __182
__191:
;
*(*Expr)(unsafe.Pointer(bp + 24)) = *(*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pAlt)).FpExpr))
(*Expr)(unsafe.Pointer(bp + 24)).FpLeft = (*Expr)(unsafe.Pointer(pE1)).FpLeft
Xsqlite3ExprIfFalse(tls, pParse, bp+24, addrCont, SQLITE_JUMPIFNULL)
*(*U16)(unsafe.Pointer(pAlt + 18)) |= U16(TERM_CODED)
goto __182
__182:
j--
pTerm += 56
goto __181
goto __183
__183:
;
if !((*WhereLevel)(unsafe.Pointer(pLevel)).FpRJ != 0) {
goto __192
}
jmp11 = 0
pRJ = (*WhereLevel)(unsafe.Pointer(pLevel)).FpRJ
pTab1 = (*SrcItem)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList + 8 + uintptr((*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom)*104)).FpTab
if !((*Table)(unsafe.Pointer(pTab1)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __193
}
r2 = Xsqlite3GetTempRange(tls, pParse, 2)
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab1, (*WhereLevel)(unsafe.Pointer(pLevel)).FiTabCur, -1, r2+1)
nPk1 = 1
goto __194
__193:
pPk3 = Xsqlite3PrimaryKeyIndex(tls, pTab1)
nPk1 = int32((*Index)(unsafe.Pointer(pPk3)).FnKeyCol)
r2 = Xsqlite3GetTempRange(tls, pParse, nPk1+1)
iPk1 = 0
__195:
if !(iPk1 < nPk1) {
goto __197
}
iCol1 = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk3)).FaiColumn + uintptr(iPk1)*2)))
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab1, iCur, iCol1, r2+1+iPk1)
goto __196
__196:
iPk1++
goto __195
goto __197
__197:
;
__194:
;
jmp11 = Xsqlite3VdbeAddOp4Int(tls, v, OP_Found, (*WhereRightJoin)(unsafe.Pointer(pRJ)).FiMatch, 0, r2+1, nPk1)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, r2+1, nPk1, r2)
Xsqlite3VdbeAddOp4Int(tls, v, OP_IdxInsert, (*WhereRightJoin)(unsafe.Pointer(pRJ)).FiMatch, r2, r2+1, nPk1)
Xsqlite3VdbeAddOp4Int(tls, v, OP_FilterAdd, (*WhereRightJoin)(unsafe.Pointer(pRJ)).FregBloom, 0, r2+1, nPk1)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_USESEEKRESULT))
Xsqlite3VdbeJumpHere(tls, v, jmp11)
Xsqlite3ReleaseTempRange(tls, pParse, r2, nPk1+1)
__192:
;
if !((*WhereLevel)(unsafe.Pointer(pLevel)).FiLeftJoin != 0) {
goto __198
}
(*WhereLevel)(unsafe.Pointer(pLevel)).FaddrFirst = Xsqlite3VdbeCurrentAddr(tls, v)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, (*WhereLevel)(unsafe.Pointer(pLevel)).FiLeftJoin)
if !((*WhereLevel)(unsafe.Pointer(pLevel)).FpRJ == uintptr(0)) {
goto __199
}
goto code_outer_join_constraints
__199:
;
__198:
;
if !((*WhereLevel)(unsafe.Pointer(pLevel)).FpRJ != 0) {
goto __200
}
pRJ1 = (*WhereLevel)(unsafe.Pointer(pLevel)).FpRJ
Xsqlite3VdbeAddOp2(tls, v, OP_BeginSubrtn, 0, (*WhereRightJoin)(unsafe.Pointer(pRJ1)).FregReturn)
(*WhereRightJoin)(unsafe.Pointer(pRJ1)).FaddrSubrtn = Xsqlite3VdbeCurrentAddr(tls, v)
(*Parse)(unsafe.Pointer(pParse)).FwithinRJSubrtn++
code_outer_join_constraints:
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa
j = 0
__201:
if !(j < (*WhereClause)(unsafe.Pointer(pWC)).FnBase) {
goto __203
}
if !(int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&(TERM_VIRTUAL|TERM_CODED) != 0) {
goto __204
}
goto __202
__204:
;
if !((*WhereTerm)(unsafe.Pointer(pTerm)).FprereqAll&(*WhereLevel)(unsafe.Pointer(pLevel)).FnotReady != uint64(0)) {
goto __205
}
goto __202
__205:
;
if !(int32((*SrcItem)(unsafe.Pointer(pTabItem)).Ffg.Fjointype)&JT_LTORJ != 0) {
goto __206
}
goto __202
__206:
;
Xsqlite3ExprIfFalse(tls, pParse, (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr, addrCont, SQLITE_JUMPIFNULL)
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_CODED)
goto __202
__202:
j++
pTerm += 56
goto __201
goto __203
__203:
;
__200:
;
return (*WhereLevel)(unsafe.Pointer(pLevel)).FnotReady
}
var aStartOp = [8]U8{
U8(0),
U8(0),
U8(OP_Rewind),
U8(OP_Last),
U8(OP_SeekGT),
U8(OP_SeekLT),
U8(OP_SeekGE),
U8(OP_SeekLE),
}
var aEndOp = [4]U8{
U8(OP_IdxGE),
U8(OP_IdxGT),
U8(OP_IdxLE),
U8(OP_IdxLT),
}
var aStep = [2]U8{U8(OP_Next), U8(OP_Prev)}
var aStart = [2]U8{U8(OP_Rewind), U8(OP_Last)}
// Generate the code for the loop that finds all non-matched terms
// for a RIGHT JOIN.
func Xsqlite3WhereRightJoinLoop(tls *libc.TLS, pWInfo uintptr, iLevel int32, pLevel uintptr) {
bp := tls.Alloc(120)
defer tls.Free(120)
var pParse uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var pRJ uintptr = (*WhereLevel)(unsafe.Pointer(pLevel)).FpRJ
var pSubWhere uintptr = uintptr(0)
var pWC uintptr = pWInfo + 104
var pSubWInfo uintptr
var pLoop uintptr = (*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop
var pTabItem uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList + 8 + uintptr((*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom)*104
var mAll Bitmask = uint64(0)
var k int32
Xsqlite3VdbeExplain(tls, pParse, uint8(1), ts+22251, libc.VaList(bp, (*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pTabItem)).FpTab)).FzName))
for k = 0; k < iLevel; k++ {
var iIdxCur int32
mAll = mAll | (*WhereLoop1)(unsafe.Pointer((*WhereLevel)(unsafe.Pointer(pWInfo+856+uintptr(k)*104)).FpWLoop)).FmaskSelf
Xsqlite3VdbeAddOp1(tls, v, OP_NullRow, (*WhereLevel)(unsafe.Pointer(pWInfo+856+uintptr(k)*104)).FiTabCur)
iIdxCur = (*WhereLevel)(unsafe.Pointer(pWInfo + 856 + uintptr(k)*104)).FiIdxCur
if iIdxCur != 0 {
Xsqlite3VdbeAddOp1(tls, v, OP_NullRow, iIdxCur)
}
}
if int32((*SrcItem)(unsafe.Pointer(pTabItem)).Ffg.Fjointype)&JT_LTORJ == 0 {
mAll = mAll | (*WhereLoop)(unsafe.Pointer(pLoop)).FmaskSelf
for k = 0; k < (*WhereClause)(unsafe.Pointer(pWC)).FnTerm; k++ {
var pTerm uintptr = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(k)*56
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&(TERM_VIRTUAL|TERM_SLICE) != 0 &&
int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator) != WO_ROWVAL {
break
}
if (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqAll & ^mAll != 0 {
continue
}
if (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).Fflags&U32(EP_OuterON|EP_InnerON) != U32(0) {
continue
}
pSubWhere = Xsqlite3ExprAnd(tls, pParse, pSubWhere,
Xsqlite3ExprDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr, 0))
}
}
(*SrcList)(unsafe.Pointer(bp + 8)).FnSrc = 1
(*SrcList)(unsafe.Pointer(bp + 8)).FnAlloc = U32(1)
libc.X__builtin___memcpy_chk(tls, bp+8+8, pTabItem, uint64(unsafe.Sizeof(SrcItem{})), libc.X__builtin_object_size(tls, bp+8+8, 0))
(*SrcItem)(unsafe.Pointer(bp + 8 + 8)).Ffg.Fjointype = U8(0)
(*Parse)(unsafe.Pointer(pParse)).FwithinRJSubrtn++
pSubWInfo = Xsqlite3WhereBegin(tls, pParse, bp+8, pSubWhere, uintptr(0), uintptr(0), uintptr(0),
uint16(WHERE_RIGHT_JOIN), 0)
if pSubWInfo != 0 {
var iCur int32 = (*WhereLevel)(unsafe.Pointer(pLevel)).FiTabCur
var r int32 = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
var nPk int32
var jmp int32
var addrCont int32 = Xsqlite3WhereContinueLabel(tls, pSubWInfo)
var pTab uintptr = (*SrcItem)(unsafe.Pointer(pTabItem)).FpTab
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) {
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab, iCur, -1, r)
nPk = 1
} else {
var iPk int32
var pPk uintptr = Xsqlite3PrimaryKeyIndex(tls, pTab)
nPk = int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol)
*(*int32)(unsafe.Pointer(pParse + 56)) += nPk - 1
for iPk = 0; iPk < nPk; iPk++ {
var iCol int32 = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(iPk)*2)))
Xsqlite3ExprCodeGetColumnOfTable(tls, v, pTab, iCur, iCol, r+iPk)
}
}
jmp = Xsqlite3VdbeAddOp4Int(tls, v, OP_Filter, (*WhereRightJoin)(unsafe.Pointer(pRJ)).FregBloom, 0, r, nPk)
Xsqlite3VdbeAddOp4Int(tls, v, OP_Found, (*WhereRightJoin)(unsafe.Pointer(pRJ)).FiMatch, addrCont, r, nPk)
Xsqlite3VdbeJumpHere(tls, v, jmp)
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, (*WhereRightJoin)(unsafe.Pointer(pRJ)).FregReturn, (*WhereRightJoin)(unsafe.Pointer(pRJ)).FaddrSubrtn)
Xsqlite3WhereEnd(tls, pSubWInfo)
}
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pSubWhere)
Xsqlite3VdbeExplainPop(tls, pParse)
(*Parse)(unsafe.Pointer(pParse)).FwithinRJSubrtn--
}
func whereOrInfoDelete(tls *libc.TLS, db uintptr, p uintptr) {
Xsqlite3WhereClauseClear(tls, p)
Xsqlite3DbFree(tls, db, p)
}
func whereAndInfoDelete(tls *libc.TLS, db uintptr, p uintptr) {
Xsqlite3WhereClauseClear(tls, p)
Xsqlite3DbFree(tls, db, p)
}
func whereClauseInsert(tls *libc.TLS, pWC uintptr, p uintptr, wtFlags U16) int32 {
var pTerm uintptr
var idx int32
if (*WhereClause)(unsafe.Pointer(pWC)).FnTerm >= (*WhereClause)(unsafe.Pointer(pWC)).FnSlot {
var pOld uintptr = (*WhereClause)(unsafe.Pointer(pWC)).Fa
var db uintptr = (*Parse)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).FpWInfo)).FpParse)).Fdb
(*WhereClause)(unsafe.Pointer(pWC)).Fa = Xsqlite3WhereMalloc(tls, (*WhereClause)(unsafe.Pointer(pWC)).FpWInfo, uint64(unsafe.Sizeof(WhereTerm{}))*uint64((*WhereClause)(unsafe.Pointer(pWC)).FnSlot)*uint64(2))
if (*WhereClause)(unsafe.Pointer(pWC)).Fa == uintptr(0) {
if int32(wtFlags)&TERM_DYNAMIC != 0 {
Xsqlite3ExprDelete(tls, db, p)
}
(*WhereClause)(unsafe.Pointer(pWC)).Fa = pOld
return 0
}
libc.X__builtin___memcpy_chk(tls, (*WhereClause)(unsafe.Pointer(pWC)).Fa, pOld, uint64(unsafe.Sizeof(WhereTerm{}))*uint64((*WhereClause)(unsafe.Pointer(pWC)).FnTerm), libc.X__builtin_object_size(tls, (*WhereClause)(unsafe.Pointer(pWC)).Fa, 0))
(*WhereClause)(unsafe.Pointer(pWC)).FnSlot = (*WhereClause)(unsafe.Pointer(pWC)).FnSlot * 2
}
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(libc.AssignInt32(&idx, libc.PostIncInt32(&(*WhereClause)(unsafe.Pointer(pWC)).FnTerm, 1)))*56
if int32(wtFlags)&TERM_VIRTUAL == 0 {
(*WhereClause)(unsafe.Pointer(pWC)).FnBase = (*WhereClause)(unsafe.Pointer(pWC)).FnTerm
}
if p != 0 && (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_Unlikely) != U32(0) {
(*WhereTerm)(unsafe.Pointer(pTerm)).FtruthProb = LogEst(int32(Xsqlite3LogEst(tls, uint64((*Expr)(unsafe.Pointer(p)).FiTable))) - 270)
} else {
(*WhereTerm)(unsafe.Pointer(pTerm)).FtruthProb = int16(1)
}
(*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr = Xsqlite3ExprSkipCollateAndLikely(tls, p)
(*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags = wtFlags
(*WhereTerm)(unsafe.Pointer(pTerm)).FpWC = pWC
(*WhereTerm)(unsafe.Pointer(pTerm)).FiParent = -1
libc.X__builtin___memset_chk(tls, pTerm+20, 0, uint64(unsafe.Sizeof(WhereTerm{}))-uint64(uintptr(0)+20), libc.X__builtin_object_size(tls, pTerm+20, 0))
return idx
}
func allowedOp(tls *libc.TLS, op int32) int32 {
return libc.Bool32(op == TK_IN || op >= TK_EQ && op <= TK_GE || op == TK_ISNULL || op == TK_IS)
}
func exprCommute(tls *libc.TLS, pParse uintptr, pExpr uintptr) U16 {
if int32((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pExpr)).FpLeft)).Fop) == TK_VECTOR ||
int32((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pExpr)).FpRight)).Fop) == TK_VECTOR ||
Xsqlite3BinaryCompareCollSeq(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, (*Expr)(unsafe.Pointer(pExpr)).FpRight) != Xsqlite3BinaryCompareCollSeq(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpRight, (*Expr)(unsafe.Pointer(pExpr)).FpLeft) {
*(*U32)(unsafe.Pointer(pExpr + 4)) ^= U32(EP_Commuted)
}
{
var t uintptr = (*Expr)(unsafe.Pointer(pExpr)).FpRight
(*Expr)(unsafe.Pointer(pExpr)).FpRight = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
(*Expr)(unsafe.Pointer(pExpr)).FpLeft = t
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) >= TK_GT {
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(int32((*Expr)(unsafe.Pointer(pExpr)).Fop) - TK_GT ^ 2 + TK_GT)
}
return U16(0)
}
func operatorMask(tls *libc.TLS, op int32) U16 {
var c U16
if op == TK_IN {
c = U16(WO_IN)
} else if op == TK_ISNULL {
c = U16(WO_ISNULL)
} else if op == TK_IS {
c = U16(WO_IS)
} else {
c = U16(int32(WO_EQ) << (op - TK_EQ))
}
return c
}
func isLikeOrGlob(tls *libc.TLS, pParse uintptr, pExpr uintptr, ppPrefix uintptr, pisComplete uintptr, pnoCase uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var z uintptr = uintptr(0)
var pRight uintptr
var pLeft uintptr
var pList uintptr
var c U8
var cnt int32
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pVal uintptr = uintptr(0)
var op int32
var rc int32
if !(Xsqlite3IsLikeFunction(tls, db, pExpr, pnoCase, bp) != 0) {
return 0
}
pList = *(*uintptr)(unsafe.Pointer(pExpr + 32))
pLeft = (*ExprList_item)(unsafe.Pointer(pList + 8 + 1*32)).FpExpr
pRight = Xsqlite3ExprSkipCollate(tls, (*ExprList_item)(unsafe.Pointer(pList+8)).FpExpr)
op = int32((*Expr)(unsafe.Pointer(pRight)).Fop)
if op == TK_VARIABLE && (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_EnableQPSG) == uint64(0) {
var pReprepare uintptr = (*Parse)(unsafe.Pointer(pParse)).FpReprepare
var iCol int32 = int32((*Expr)(unsafe.Pointer(pRight)).FiColumn)
pVal = Xsqlite3VdbeGetBoundValue(tls, pReprepare, iCol, uint8(SQLITE_AFF_BLOB))
if pVal != 0 && Xsqlite3_value_type(tls, pVal) == SQLITE_TEXT {
z = Xsqlite3_value_text(tls, pVal)
}
Xsqlite3VdbeSetVarmask(tls, (*Parse)(unsafe.Pointer(pParse)).FpVdbe, iCol)
} else if op == TK_STRING {
z = *(*uintptr)(unsafe.Pointer(pRight + 8))
}
if z != 0 {
cnt = 0
for int32(libc.AssignUint8(&c, *(*U8)(unsafe.Pointer(z + uintptr(cnt))))) != 0 && int32(c) != int32(*(*U8)(unsafe.Pointer(bp))) && int32(c) != int32(*(*U8)(unsafe.Pointer(bp + 1))) && int32(c) != int32(*(*U8)(unsafe.Pointer(bp + 2))) {
cnt++
if int32(c) == int32(*(*U8)(unsafe.Pointer(bp + 3))) && int32(*(*U8)(unsafe.Pointer(z + uintptr(cnt)))) != 0 {
cnt++
}
}
if cnt != 0 && 255 != int32(*(*U8)(unsafe.Pointer(z + uintptr(cnt-1)))) && (cnt > 1 || int32(*(*U8)(unsafe.Pointer(z))) != int32(*(*U8)(unsafe.Pointer(bp + 3)))) {
var pPrefix uintptr
*(*int32)(unsafe.Pointer(pisComplete)) = libc.Bool32(int32(c) == int32(*(*U8)(unsafe.Pointer(bp))) && int32(*(*U8)(unsafe.Pointer(z + uintptr(cnt+1)))) == 0)
pPrefix = Xsqlite3Expr(tls, db, TK_STRING, z)
if pPrefix != 0 {
var iFrom int32
var iTo int32
var zNew uintptr
zNew = *(*uintptr)(unsafe.Pointer(pPrefix + 8))
*(*int8)(unsafe.Pointer(zNew + uintptr(cnt))) = int8(0)
for iFrom = libc.AssignInt32(&iTo, 0); iFrom < cnt; iFrom++ {
if int32(*(*int8)(unsafe.Pointer(zNew + uintptr(iFrom)))) == int32(*(*U8)(unsafe.Pointer(bp + 3))) {
iFrom++
}
*(*int8)(unsafe.Pointer(zNew + uintptr(libc.PostIncInt32(&iTo, 1)))) = *(*int8)(unsafe.Pointer(zNew + uintptr(iFrom)))
}
*(*int8)(unsafe.Pointer(zNew + uintptr(iTo))) = int8(0)
if int32((*Expr)(unsafe.Pointer(pLeft)).Fop) != TK_COLUMN ||
int32(Xsqlite3ExprAffinity(tls, pLeft)) != SQLITE_AFF_TEXT ||
(*Expr)(unsafe.Pointer(pLeft)).Fflags&U32(EP_WinFunc|EP_Subrtn) == U32(0) &&
*(*uintptr)(unsafe.Pointer(pLeft + 64)) != 0 &&
int32((*Table)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pLeft + 64)))).FeTabType) == TABTYP_VTAB {
var isNum int32
isNum = Xsqlite3AtoF(tls, zNew, bp+8, iTo, uint8(SQLITE_UTF8))
if isNum <= 0 {
if iTo == 1 && int32(*(*int8)(unsafe.Pointer(zNew))) == '-' {
isNum = +1
} else {
*(*int8)(unsafe.Pointer(zNew + uintptr(iTo-1)))++
isNum = Xsqlite3AtoF(tls, zNew, bp+8, iTo, uint8(SQLITE_UTF8))
*(*int8)(unsafe.Pointer(zNew + uintptr(iTo-1)))--
}
}
if isNum > 0 {
Xsqlite3ExprDelete(tls, db, pPrefix)
Xsqlite3ValueFree(tls, pVal)
return 0
}
}
}
*(*uintptr)(unsafe.Pointer(ppPrefix)) = pPrefix
if op == TK_VARIABLE {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
Xsqlite3VdbeSetVarmask(tls, v, int32((*Expr)(unsafe.Pointer(pRight)).FiColumn))
if *(*int32)(unsafe.Pointer(pisComplete)) != 0 && *(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pRight + 8)) + 1)) != 0 {
var r1 int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3ExprCodeTarget(tls, pParse, pRight, r1)
Xsqlite3VdbeChangeP3(tls, v, Xsqlite3VdbeCurrentAddr(tls, v)-1, 0)
Xsqlite3ReleaseTempReg(tls, pParse, r1)
}
}
} else {
z = uintptr(0)
}
}
rc = libc.Bool32(z != uintptr(0))
Xsqlite3ValueFree(tls, pVal)
return rc
}
func isAuxiliaryVtabOperator(tls *libc.TLS, db uintptr, pExpr uintptr, peOp2 uintptr, ppLeft uintptr, ppRight uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_FUNCTION {
var pList uintptr
var pCol uintptr
var i int32
pList = *(*uintptr)(unsafe.Pointer(pExpr + 32))
if pList == uintptr(0) || (*ExprList)(unsafe.Pointer(pList)).FnExpr != 2 {
return 0
}
pCol = (*ExprList_item)(unsafe.Pointer(pList + 8 + 1*32)).FpExpr
if int32((*Expr)(unsafe.Pointer(pCol)).Fop) == TK_COLUMN && int32((*Table)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pCol + 64)))).FeTabType) == TABTYP_VTAB {
for i = 0; i < int32(uint64(unsafe.Sizeof(aOp))/uint64(unsafe.Sizeof(Op2{}))); i++ {
if Xsqlite3StrICmp(tls, *(*uintptr)(unsafe.Pointer(pExpr + 8)), aOp[i].FzOp) == 0 {
*(*uint8)(unsafe.Pointer(peOp2)) = aOp[i].FeOp2
*(*uintptr)(unsafe.Pointer(ppRight)) = (*ExprList_item)(unsafe.Pointer(pList + 8)).FpExpr
*(*uintptr)(unsafe.Pointer(ppLeft)) = pCol
return 1
}
}
}
pCol = (*ExprList_item)(unsafe.Pointer(pList + 8)).FpExpr
if int32((*Expr)(unsafe.Pointer(pCol)).Fop) == TK_COLUMN && int32((*Table)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pCol + 64)))).FeTabType) == TABTYP_VTAB {
var pVtab uintptr
var pMod uintptr
pVtab = (*VTable)(unsafe.Pointer(Xsqlite3GetVTable(tls, db, *(*uintptr)(unsafe.Pointer(pCol + 64))))).FpVtab
pMod = (*Sqlite3_vtab)(unsafe.Pointer(pVtab)).FpModule
if (*Sqlite3_module)(unsafe.Pointer(pMod)).FxFindFunction != uintptr(0) {
i = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer(pMod)).FxFindFunction})).f(tls, pVtab, 2, *(*uintptr)(unsafe.Pointer(pExpr + 8)), bp, bp+8)
if i >= SQLITE_INDEX_CONSTRAINT_FUNCTION {
*(*uint8)(unsafe.Pointer(peOp2)) = uint8(i)
*(*uintptr)(unsafe.Pointer(ppRight)) = (*ExprList_item)(unsafe.Pointer(pList + 8 + 1*32)).FpExpr
*(*uintptr)(unsafe.Pointer(ppLeft)) = pCol
return 1
}
}
}
} else if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_NE || int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_ISNOT || int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_NOTNULL {
var res int32 = 0
var pLeft uintptr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
var pRight uintptr = (*Expr)(unsafe.Pointer(pExpr)).FpRight
if int32((*Expr)(unsafe.Pointer(pLeft)).Fop) == TK_COLUMN && int32((*Table)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pLeft + 64)))).FeTabType) == TABTYP_VTAB {
res++
}
if pRight != 0 && (int32((*Expr)(unsafe.Pointer(pRight)).Fop) == TK_COLUMN && int32((*Table)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pRight + 64)))).FeTabType) == TABTYP_VTAB) {
res++
{
var t uintptr = pLeft
pLeft = pRight
pRight = t
}
}
*(*uintptr)(unsafe.Pointer(ppLeft)) = pLeft
*(*uintptr)(unsafe.Pointer(ppRight)) = pRight
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_NE {
*(*uint8)(unsafe.Pointer(peOp2)) = uint8(SQLITE_INDEX_CONSTRAINT_NE)
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_ISNOT {
*(*uint8)(unsafe.Pointer(peOp2)) = uint8(SQLITE_INDEX_CONSTRAINT_ISNOT)
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_NOTNULL {
*(*uint8)(unsafe.Pointer(peOp2)) = uint8(SQLITE_INDEX_CONSTRAINT_ISNOTNULL)
}
return res
}
return 0
}
type Op2 = struct {
FzOp uintptr
FeOp2 uint8
F__ccgo_pad1 [7]byte
}
var aOp = [4]Op2{
{FzOp: ts + 16522, FeOp2: uint8(SQLITE_INDEX_CONSTRAINT_MATCH)},
{FzOp: ts + 15850, FeOp2: uint8(SQLITE_INDEX_CONSTRAINT_GLOB)},
{FzOp: ts + 15370, FeOp2: uint8(SQLITE_INDEX_CONSTRAINT_LIKE)},
{FzOp: ts + 22265, FeOp2: uint8(SQLITE_INDEX_CONSTRAINT_REGEXP)},
}
func transferJoinMarkings(tls *libc.TLS, pDerived uintptr, pBase uintptr) {
if pDerived != 0 && (*Expr)(unsafe.Pointer(pBase)).Fflags&U32(EP_OuterON|EP_InnerON) != U32(0) {
*(*U32)(unsafe.Pointer(pDerived + 4)) |= (*Expr)(unsafe.Pointer(pBase)).Fflags & U32(EP_OuterON|EP_InnerON)
*(*int32)(unsafe.Pointer(pDerived + 52)) = *(*int32)(unsafe.Pointer(pBase + 52))
}
}
func markTermAsChild(tls *libc.TLS, pWC uintptr, iChild int32, iParent int32) {
(*WhereTerm)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(iChild)*56)).FiParent = iParent
(*WhereTerm)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(iChild)*56)).FtruthProb = (*WhereTerm)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(iParent)*56)).FtruthProb
(*WhereTerm)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).Fa+uintptr(iParent)*56)).FnChild++
}
func whereNthSubterm(tls *libc.TLS, pTerm uintptr, N int32) uintptr {
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator) != WO_AND {
if N == 0 {
return pTerm
}
return uintptr(0)
}
if N < (*WhereAndInfo)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pTerm + 32)))).Fwc.FnTerm {
return (*WhereAndInfo)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pTerm + 32)))).Fwc.Fa + uintptr(N)*56
}
return uintptr(0)
}
func whereCombineDisjuncts(tls *libc.TLS, pSrc uintptr, pWC uintptr, pOne uintptr, pTwo uintptr) {
var eOp U16 = U16(int32((*WhereTerm)(unsafe.Pointer(pOne)).FeOperator) | int32((*WhereTerm)(unsafe.Pointer(pTwo)).FeOperator))
var db uintptr
var pNew uintptr
var op int32
var idxNew int32
if (int32((*WhereTerm)(unsafe.Pointer(pOne)).FwtFlags)|int32((*WhereTerm)(unsafe.Pointer(pTwo)).FwtFlags))&TERM_VNULL != 0 {
return
}
if int32((*WhereTerm)(unsafe.Pointer(pOne)).FeOperator)&(WO_EQ|int32(WO_EQ)<<(TK_LT-TK_EQ)|int32(WO_EQ)<<(TK_LE-TK_EQ)|int32(WO_EQ)<<(TK_GT-TK_EQ)|int32(WO_EQ)<<(TK_GE-TK_EQ)) == 0 {
return
}
if int32((*WhereTerm)(unsafe.Pointer(pTwo)).FeOperator)&(WO_EQ|int32(WO_EQ)<<(TK_LT-TK_EQ)|int32(WO_EQ)<<(TK_LE-TK_EQ)|int32(WO_EQ)<<(TK_GT-TK_EQ)|int32(WO_EQ)<<(TK_GE-TK_EQ)) == 0 {
return
}
if int32(eOp)&(WO_EQ|int32(WO_EQ)<<(TK_LT-TK_EQ)|int32(WO_EQ)<<(TK_LE-TK_EQ)) != int32(eOp) &&
int32(eOp)&(WO_EQ|int32(WO_EQ)<<(TK_GT-TK_EQ)|int32(WO_EQ)<<(TK_GE-TK_EQ)) != int32(eOp) {
return
}
if Xsqlite3ExprCompare(tls, uintptr(0), (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pOne)).FpExpr)).FpLeft, (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTwo)).FpExpr)).FpLeft, -1) != 0 {
return
}
if Xsqlite3ExprCompare(tls, uintptr(0), (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pOne)).FpExpr)).FpRight, (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTwo)).FpExpr)).FpRight, -1) != 0 {
return
}
if int32(eOp)&(int32(eOp)-1) != 0 {
if int32(eOp)&(int32(WO_EQ)<<(TK_LT-TK_EQ)|int32(WO_EQ)<<(TK_LE-TK_EQ)) != 0 {
eOp = U16(int32(WO_EQ) << (TK_LE - TK_EQ))
} else {
eOp = U16(int32(WO_EQ) << (TK_GE - TK_EQ))
}
}
db = (*Parse)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).FpWInfo)).FpParse)).Fdb
pNew = Xsqlite3ExprDup(tls, db, (*WhereTerm)(unsafe.Pointer(pOne)).FpExpr, 0)
if pNew == uintptr(0) {
return
}
for op = TK_EQ; int32(eOp) != int32(WO_EQ)<<(op-TK_EQ); op++ {
}
(*Expr)(unsafe.Pointer(pNew)).Fop = U8(op)
idxNew = whereClauseInsert(tls, pWC, pNew, uint16(TERM_VIRTUAL|TERM_DYNAMIC))
exprAnalyze(tls, pSrc, pWC, idxNew)
}
func exprAnalyzeOrTerm(tls *libc.TLS, pSrc uintptr, pWC uintptr, idxTerm int32) {
var pWInfo uintptr = (*WhereClause)(unsafe.Pointer(pWC)).FpWInfo
var pParse uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pTerm uintptr = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idxTerm)*56
var pExpr uintptr = (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr
var i int32
var pOrWc uintptr
var pOrTerm uintptr
var pOrInfo uintptr
var chngToIN Bitmask
var indexable Bitmask
*(*uintptr)(unsafe.Pointer(pTerm + 32)) = libc.AssignUintptr(&pOrInfo, Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(WhereOrInfo{}))))
if pOrInfo == uintptr(0) {
return
}
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_ORINFO)
pOrWc = pOrInfo
libc.X__builtin___memset_chk(tls, pOrWc+40, 0, uint64(unsafe.Sizeof([8]WhereTerm{})), libc.X__builtin_object_size(tls, pOrWc+40, 0))
Xsqlite3WhereClauseInit(tls, pOrWc, pWInfo)
Xsqlite3WhereSplit(tls, pOrWc, pExpr, uint8(TK_OR))
Xsqlite3WhereExprAnalyze(tls, pSrc, pOrWc)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return
}
indexable = libc.CplUint64(uint64(0))
chngToIN = libc.CplUint64(uint64(0))
i = (*WhereClause)(unsafe.Pointer(pOrWc)).FnTerm - 1
pOrTerm = (*WhereClause)(unsafe.Pointer(pOrWc)).Fa
__1:
if !(i >= 0 && indexable != 0) {
goto __3
}
{
if int32((*WhereTerm)(unsafe.Pointer(pOrTerm)).FeOperator)&WO_SINGLE == 0 {
var pAndInfo uintptr
chngToIN = uint64(0)
pAndInfo = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(WhereAndInfo{})))
if pAndInfo != 0 {
var pAndWC uintptr
var pAndTerm uintptr
var j int32
var b Bitmask = uint64(0)
*(*uintptr)(unsafe.Pointer(pOrTerm + 32)) = pAndInfo
*(*U16)(unsafe.Pointer(pOrTerm + 18)) |= U16(TERM_ANDINFO)
(*WhereTerm)(unsafe.Pointer(pOrTerm)).FeOperator = U16(WO_AND)
(*WhereTerm)(unsafe.Pointer(pOrTerm)).FleftCursor = -1
pAndWC = pAndInfo
libc.X__builtin___memset_chk(tls, pAndWC+40, 0, uint64(unsafe.Sizeof([8]WhereTerm{})), libc.X__builtin_object_size(tls, pAndWC+40, 0))
Xsqlite3WhereClauseInit(tls, pAndWC, (*WhereClause)(unsafe.Pointer(pWC)).FpWInfo)
Xsqlite3WhereSplit(tls, pAndWC, (*WhereTerm)(unsafe.Pointer(pOrTerm)).FpExpr, uint8(TK_AND))
Xsqlite3WhereExprAnalyze(tls, pSrc, pAndWC)
(*WhereClause)(unsafe.Pointer(pAndWC)).FpOuter = pWC
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
j = 0
pAndTerm = (*WhereClause)(unsafe.Pointer(pAndWC)).Fa
__4:
if !(j < (*WhereClause)(unsafe.Pointer(pAndWC)).FnTerm) {
goto __6
}
{
if allowedOp(tls, int32((*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pAndTerm)).FpExpr)).Fop)) != 0 ||
int32((*WhereTerm)(unsafe.Pointer(pAndTerm)).FeOperator) == WO_AUX {
b = b | Xsqlite3WhereGetMask(tls, pWInfo+592, (*WhereTerm)(unsafe.Pointer(pAndTerm)).FleftCursor)
}
}
goto __5
__5:
j++
pAndTerm += 56
goto __4
goto __6
__6:
}
indexable = indexable & b
}
} else if int32((*WhereTerm)(unsafe.Pointer(pOrTerm)).FwtFlags)&TERM_COPIED != 0 {
} else {
var b Bitmask
b = Xsqlite3WhereGetMask(tls, pWInfo+592, (*WhereTerm)(unsafe.Pointer(pOrTerm)).FleftCursor)
if int32((*WhereTerm)(unsafe.Pointer(pOrTerm)).FwtFlags)&TERM_VIRTUAL != 0 {
var pOther uintptr = (*WhereClause)(unsafe.Pointer(pOrWc)).Fa + uintptr((*WhereTerm)(unsafe.Pointer(pOrTerm)).FiParent)*56
b = b | Xsqlite3WhereGetMask(tls, pWInfo+592, (*WhereTerm)(unsafe.Pointer(pOther)).FleftCursor)
}
indexable = indexable & b
if int32((*WhereTerm)(unsafe.Pointer(pOrTerm)).FeOperator)&WO_EQ == 0 {
chngToIN = uint64(0)
} else {
chngToIN = chngToIN & b
}
}
}
goto __2
__2:
i--
pOrTerm += 56
goto __1
goto __3
__3:
;
(*WhereOrInfo)(unsafe.Pointer(pOrInfo)).Findexable = indexable
(*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator = U16(WO_OR)
(*WhereTerm)(unsafe.Pointer(pTerm)).FleftCursor = -1
if indexable != 0 {
(*WhereClause)(unsafe.Pointer(pWC)).FhasOr = U8(1)
}
if indexable != 0 && (*WhereClause)(unsafe.Pointer(pOrWc)).FnTerm == 2 {
var iOne int32 = 0
var pOne uintptr
for libc.AssignUintptr(&pOne, whereNthSubterm(tls, (*WhereClause)(unsafe.Pointer(pOrWc)).Fa, libc.PostIncInt32(&iOne, 1))) != uintptr(0) {
var iTwo int32 = 0
var pTwo uintptr
for libc.AssignUintptr(&pTwo, whereNthSubterm(tls, (*WhereClause)(unsafe.Pointer(pOrWc)).Fa+1*56, libc.PostIncInt32(&iTwo, 1))) != uintptr(0) {
whereCombineDisjuncts(tls, pSrc, pWC, pOne, pTwo)
}
}
}
if chngToIN != 0 {
var okToChngToIN int32 = 0
var iColumn int32 = -1
var iCursor int32 = -1
var j int32 = 0
for j = 0; j < 2 && !(okToChngToIN != 0); j++ {
var pLeft uintptr = uintptr(0)
pOrTerm = (*WhereClause)(unsafe.Pointer(pOrWc)).Fa
i = (*WhereClause)(unsafe.Pointer(pOrWc)).FnTerm - 1
__7:
if !(i >= 0) {
goto __9
}
{
*(*U16)(unsafe.Pointer(pOrTerm + 18)) &= libc.Uint16FromInt32(libc.CplInt32(TERM_OK))
if (*WhereTerm)(unsafe.Pointer(pOrTerm)).FleftCursor == iCursor {
goto __8
}
if chngToIN&Xsqlite3WhereGetMask(tls, pWInfo+592,
(*WhereTerm)(unsafe.Pointer(pOrTerm)).FleftCursor) == uint64(0) {
goto __8
}
iColumn = *(*int32)(unsafe.Pointer(pOrTerm + 32))
iCursor = (*WhereTerm)(unsafe.Pointer(pOrTerm)).FleftCursor
pLeft = (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pOrTerm)).FpExpr)).FpLeft
goto __9
}
goto __8
__8:
i--
pOrTerm += 56
goto __7
goto __9
__9:
;
if i < 0 {
break
}
okToChngToIN = 1
__10:
if !(i >= 0 && okToChngToIN != 0) {
goto __12
}
{
if (*WhereTerm)(unsafe.Pointer(pOrTerm)).FleftCursor != iCursor {
*(*U16)(unsafe.Pointer(pOrTerm + 18)) &= libc.Uint16FromInt32(libc.CplInt32(TERM_OK))
} else if *(*int32)(unsafe.Pointer(pOrTerm + 32)) != iColumn || iColumn == -2 &&
Xsqlite3ExprCompare(tls, pParse, (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pOrTerm)).FpExpr)).FpLeft, pLeft, -1) != 0 {
okToChngToIN = 0
} else {
var affLeft int32
var affRight int32
affRight = int32(Xsqlite3ExprAffinity(tls, (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pOrTerm)).FpExpr)).FpRight))
affLeft = int32(Xsqlite3ExprAffinity(tls, (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pOrTerm)).FpExpr)).FpLeft))
if affRight != 0 && affRight != affLeft {
okToChngToIN = 0
} else {
*(*U16)(unsafe.Pointer(pOrTerm + 18)) |= U16(TERM_OK)
}
}
}
goto __11
__11:
i--
pOrTerm += 56
goto __10
goto __12
__12:
}
if okToChngToIN != 0 {
var pDup uintptr
var pList uintptr = uintptr(0)
var pLeft uintptr = uintptr(0)
var pNew uintptr
i = (*WhereClause)(unsafe.Pointer(pOrWc)).FnTerm - 1
pOrTerm = (*WhereClause)(unsafe.Pointer(pOrWc)).Fa
__13:
if !(i >= 0) {
goto __15
}
{
if int32((*WhereTerm)(unsafe.Pointer(pOrTerm)).FwtFlags)&TERM_OK == 0 {
goto __14
}
pDup = Xsqlite3ExprDup(tls, db, (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pOrTerm)).FpExpr)).FpRight, 0)
pList = Xsqlite3ExprListAppend(tls, (*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse, pList, pDup)
pLeft = (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pOrTerm)).FpExpr)).FpLeft
}
goto __14
__14:
i--
pOrTerm += 56
goto __13
goto __15
__15:
;
pDup = Xsqlite3ExprDup(tls, db, pLeft, 0)
pNew = Xsqlite3PExpr(tls, pParse, TK_IN, pDup, uintptr(0))
if pNew != 0 {
var idxNew int32
transferJoinMarkings(tls, pNew, pExpr)
*(*uintptr)(unsafe.Pointer(pNew + 32)) = pList
idxNew = whereClauseInsert(tls, pWC, pNew, uint16(TERM_VIRTUAL|TERM_DYNAMIC))
exprAnalyze(tls, pSrc, pWC, idxNew)
markTermAsChild(tls, pWC, idxNew, idxTerm)
} else {
Xsqlite3ExprListDelete(tls, db, pList)
}
}
}
}
func termIsEquivalence(tls *libc.TLS, pParse uintptr, pExpr uintptr) int32 {
var aff1 int8
var aff2 int8
var pColl uintptr
if !((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FdbOptFlags&U32(SQLITE_Transitive) == U32(0)) {
return 0
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_EQ && int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_IS {
return 0
}
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON) != U32(0) {
return 0
}
aff1 = Xsqlite3ExprAffinity(tls, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
aff2 = Xsqlite3ExprAffinity(tls, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
if int32(aff1) != int32(aff2) &&
(!(int32(aff1) >= SQLITE_AFF_NUMERIC) || !(int32(aff2) >= SQLITE_AFF_NUMERIC)) {
return 0
}
pColl = Xsqlite3ExprCompareCollSeq(tls, pParse, pExpr)
if Xsqlite3IsBinary(tls, pColl) != 0 {
return 1
}
return Xsqlite3ExprCollSeqMatch(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
}
func exprSelectUsage(tls *libc.TLS, pMaskSet uintptr, pS uintptr) Bitmask {
var mask Bitmask = uint64(0)
for pS != 0 {
var pSrc uintptr = (*Select)(unsafe.Pointer(pS)).FpSrc
mask = mask | Xsqlite3WhereExprListUsage(tls, pMaskSet, (*Select)(unsafe.Pointer(pS)).FpEList)
mask = mask | Xsqlite3WhereExprListUsage(tls, pMaskSet, (*Select)(unsafe.Pointer(pS)).FpGroupBy)
mask = mask | Xsqlite3WhereExprListUsage(tls, pMaskSet, (*Select)(unsafe.Pointer(pS)).FpOrderBy)
mask = mask | Xsqlite3WhereExprUsage(tls, pMaskSet, (*Select)(unsafe.Pointer(pS)).FpWhere)
mask = mask | Xsqlite3WhereExprUsage(tls, pMaskSet, (*Select)(unsafe.Pointer(pS)).FpHaving)
if pSrc != uintptr(0) {
var i int32
for i = 0; i < (*SrcList)(unsafe.Pointer(pSrc)).FnSrc; i++ {
mask = mask | exprSelectUsage(tls, pMaskSet, (*SrcItem)(unsafe.Pointer(pSrc+8+uintptr(i)*104)).FpSelect)
if int32(*(*uint16)(unsafe.Pointer(pSrc + 8 + uintptr(i)*104 + 60 + 4))&0x400>>10) == 0 {
mask = mask | Xsqlite3WhereExprUsage(tls, pMaskSet, *(*uintptr)(unsafe.Pointer(pSrc + 8 + uintptr(i)*104 + 72)))
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pSrc + 8 + uintptr(i)*104 + 60 + 4))&0x4>>2)) != 0 {
mask = mask | Xsqlite3WhereExprListUsage(tls, pMaskSet, *(*uintptr)(unsafe.Pointer(pSrc + 8 + uintptr(i)*104 + 88)))
}
}
}
pS = (*Select)(unsafe.Pointer(pS)).FpPrior
}
return mask
}
func exprMightBeIndexed2(tls *libc.TLS, pFrom uintptr, aiCurCol uintptr, pExpr uintptr, j int32) int32 {
var pIdx uintptr
var i int32
var iCur int32
for __ccgo := true; __ccgo; __ccgo = libc.PreIncInt32(&j, 1) < (*SrcList)(unsafe.Pointer(pFrom)).FnSrc {
iCur = (*SrcItem)(unsafe.Pointer(pFrom + 8 + uintptr(j)*104)).FiCursor
for pIdx = (*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pFrom + 8 + uintptr(j)*104)).FpTab)).FpIndex; pIdx != 0; pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext {
if (*Index)(unsafe.Pointer(pIdx)).FaColExpr == uintptr(0) {
continue
}
for i = 0; i < int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol); i++ {
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2))) != -2 {
continue
}
if Xsqlite3ExprCompareSkip(tls, pExpr, (*ExprList_item)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaColExpr+8+uintptr(i)*32)).FpExpr, iCur) == 0 &&
int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_STRING {
*(*int32)(unsafe.Pointer(aiCurCol)) = iCur
*(*int32)(unsafe.Pointer(aiCurCol + 1*4)) = -2
return 1
}
}
}
}
return 0
}
func exprMightBeIndexed(tls *libc.TLS, pFrom uintptr, aiCurCol uintptr, pExpr uintptr, op int32) int32 {
var i int32
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_VECTOR && (op >= TK_GT && op <= TK_GE) {
pExpr = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)) + 8)).FpExpr
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLUMN {
*(*int32)(unsafe.Pointer(aiCurCol)) = (*Expr)(unsafe.Pointer(pExpr)).FiTable
*(*int32)(unsafe.Pointer(aiCurCol + 1*4)) = int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn)
return 1
}
for i = 0; i < (*SrcList)(unsafe.Pointer(pFrom)).FnSrc; i++ {
var pIdx uintptr
for pIdx = (*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pFrom + 8 + uintptr(i)*104)).FpTab)).FpIndex; pIdx != 0; pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext {
if (*Index)(unsafe.Pointer(pIdx)).FaColExpr != 0 {
return exprMightBeIndexed2(tls, pFrom, aiCurCol, pExpr, i)
}
}
}
return 0
}
func exprAnalyze(tls *libc.TLS, pSrc uintptr, pWC uintptr, idxTerm int32) {
bp := tls.Alloc(48)
defer tls.Free(48)
var pWInfo uintptr = (*WhereClause)(unsafe.Pointer(pWC)).FpWInfo
var pTerm uintptr
var pMaskSet uintptr
var pExpr uintptr
var prereqLeft Bitmask
var prereqAll Bitmask
var extraRight Bitmask = uint64(0)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 16)) = 0
*(*int32)(unsafe.Pointer(bp + 20)) = 0
var op int32
var pParse uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
*(*uint8)(unsafe.Pointer(bp + 24)) = uint8(0)
var nLeft int32
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return
}
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idxTerm)*56
pMaskSet = pWInfo + 592
pExpr = (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr
(*WhereMaskSet)(unsafe.Pointer(pMaskSet)).FbVarSelect = 0
prereqLeft = Xsqlite3WhereExprUsage(tls, pMaskSet, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
op = int32((*Expr)(unsafe.Pointer(pExpr)).Fop)
if op == TK_IN {
if Xsqlite3ExprCheckIN(tls, pParse, pExpr) != 0 {
return
}
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_xIsSelect) != U32(0) {
(*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight = exprSelectUsage(tls, pMaskSet, *(*uintptr)(unsafe.Pointer(pExpr + 32)))
} else {
(*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight = Xsqlite3WhereExprListUsage(tls, pMaskSet, *(*uintptr)(unsafe.Pointer(pExpr + 32)))
}
prereqAll = prereqLeft | (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight
} else {
(*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight = Xsqlite3WhereExprUsage(tls, pMaskSet, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
if (*Expr)(unsafe.Pointer(pExpr)).FpLeft == uintptr(0) ||
(*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_xIsSelect|EP_IfNullRow) != U32(0) ||
*(*uintptr)(unsafe.Pointer(pExpr + 32)) != uintptr(0) {
prereqAll = Xsqlite3WhereExprUsageNN(tls, pMaskSet, pExpr)
} else {
prereqAll = prereqLeft | (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight
}
}
if (*WhereMaskSet)(unsafe.Pointer(pMaskSet)).FbVarSelect != 0 {
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_VARSELECT)
}
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON|EP_InnerON) != U32(0) {
var x Bitmask = Xsqlite3WhereGetMask(tls, pMaskSet, *(*int32)(unsafe.Pointer(pExpr + 52)))
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON) != U32(0) {
prereqAll = prereqAll | x
extraRight = x - uint64(1)
if prereqAll>>1 >= x {
Xsqlite3ErrorMsg(tls, pParse, ts+22272, 0)
return
}
} else if prereqAll>>1 >= x {
if (*SrcList)(unsafe.Pointer(pSrc)).FnSrc > 0 && int32((*SrcItem)(unsafe.Pointer(pSrc+8)).Ffg.Fjointype)&JT_LTORJ != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+22272, 0)
return
}
*(*U32)(unsafe.Pointer(pExpr + 4)) &= libc.Uint32FromInt32(libc.CplInt32(EP_InnerON))
}
}
(*WhereTerm)(unsafe.Pointer(pTerm)).FprereqAll = prereqAll
(*WhereTerm)(unsafe.Pointer(pTerm)).FleftCursor = -1
(*WhereTerm)(unsafe.Pointer(pTerm)).FiParent = -1
(*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator = U16(0)
if allowedOp(tls, op) != 0 {
var pLeft uintptr = Xsqlite3ExprSkipCollate(tls, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)
var pRight uintptr = Xsqlite3ExprSkipCollate(tls, (*Expr)(unsafe.Pointer(pExpr)).FpRight)
var opMask U16
if (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight&prereqLeft == uint64(0) {
opMask = uint16(WO_ALL)
} else {
opMask = uint16(WO_EQUIV)
}
if *(*int32)(unsafe.Pointer(pTerm + 32 + 4)) > 0 {
pLeft = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pLeft + 32)) + 8 + uintptr(*(*int32)(unsafe.Pointer(pTerm + 32 + 4))-1)*32)).FpExpr
}
if exprMightBeIndexed(tls, pSrc, bp, pLeft, op) != 0 {
(*WhereTerm)(unsafe.Pointer(pTerm)).FleftCursor = *(*int32)(unsafe.Pointer(bp))
*(*int32)(unsafe.Pointer(pTerm + 32)) = *(*int32)(unsafe.Pointer(bp + 1*4))
(*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator = U16(int32(operatorMask(tls, op)) & int32(opMask))
}
if op == TK_IS {
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_IS)
}
if pRight != 0 &&
exprMightBeIndexed(tls, pSrc, bp, pRight, op) != 0 &&
!((*Expr)(unsafe.Pointer(pRight)).Fflags&U32(EP_FixedCol) != U32(0)) {
var pNew uintptr
var pDup uintptr
var eExtraOp U16 = U16(0)
if (*WhereTerm)(unsafe.Pointer(pTerm)).FleftCursor >= 0 {
var idxNew int32
pDup = Xsqlite3ExprDup(tls, db, pExpr, 0)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
Xsqlite3ExprDelete(tls, db, pDup)
return
}
idxNew = whereClauseInsert(tls, pWC, pDup, uint16(TERM_VIRTUAL|TERM_DYNAMIC))
if idxNew == 0 {
return
}
pNew = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idxNew)*56
markTermAsChild(tls, pWC, idxNew, idxTerm)
if op == TK_IS {
*(*U16)(unsafe.Pointer(pNew + 18)) |= U16(TERM_IS)
}
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idxTerm)*56
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_COPIED)
if termIsEquivalence(tls, pParse, pDup) != 0 {
*(*U16)(unsafe.Pointer(pTerm + 20)) |= U16(WO_EQUIV)
eExtraOp = U16(WO_EQUIV)
}
} else {
pDup = pExpr
pNew = pTerm
}
*(*U16)(unsafe.Pointer(pNew + 18)) |= U16(int32(exprCommute(tls, pParse, pDup)))
(*WhereTerm)(unsafe.Pointer(pNew)).FleftCursor = *(*int32)(unsafe.Pointer(bp))
*(*int32)(unsafe.Pointer(pNew + 32)) = *(*int32)(unsafe.Pointer(bp + 1*4))
(*WhereTerm)(unsafe.Pointer(pNew)).FprereqRight = prereqLeft | extraRight
(*WhereTerm)(unsafe.Pointer(pNew)).FprereqAll = prereqAll
(*WhereTerm)(unsafe.Pointer(pNew)).FeOperator = U16((int32(operatorMask(tls, int32((*Expr)(unsafe.Pointer(pDup)).Fop))) + int32(eExtraOp)) & int32(opMask))
} else if op == TK_ISNULL &&
!((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON) != U32(0)) &&
0 == Xsqlite3ExprCanBeNull(tls, pLeft) {
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_TRUEFALSE)
*(*uintptr)(unsafe.Pointer(pExpr + 8)) = ts + 7172
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_IsFalse)
(*WhereTerm)(unsafe.Pointer(pTerm)).FprereqAll = uint64(0)
(*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator = U16(0)
}
} else if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_BETWEEN && int32((*WhereClause)(unsafe.Pointer(pWC)).Fop) == TK_AND {
var pList uintptr
var i int32
pList = *(*uintptr)(unsafe.Pointer(pExpr + 32))
for i = 0; i < 2; i++ {
var pNewExpr uintptr
var idxNew int32
pNewExpr = Xsqlite3PExpr(tls, pParse, int32(ops[i]),
Xsqlite3ExprDup(tls, db, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, 0),
Xsqlite3ExprDup(tls, db, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(i)*32)).FpExpr, 0))
transferJoinMarkings(tls, pNewExpr, pExpr)
idxNew = whereClauseInsert(tls, pWC, pNewExpr, uint16(TERM_VIRTUAL|TERM_DYNAMIC))
exprAnalyze(tls, pSrc, pWC, idxNew)
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idxTerm)*56
markTermAsChild(tls, pWC, idxNew, idxTerm)
}
} else if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_OR {
exprAnalyzeOrTerm(tls, pSrc, pWC, idxTerm)
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idxTerm)*56
} else if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_NOTNULL {
if int32((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pExpr)).FpLeft)).Fop) == TK_COLUMN &&
int32((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pExpr)).FpLeft)).FiColumn) >= 0 &&
!((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON) != U32(0)) {
var pNewExpr uintptr
var pLeft uintptr = (*Expr)(unsafe.Pointer(pExpr)).FpLeft
var idxNew int32
var pNewTerm uintptr
pNewExpr = Xsqlite3PExpr(tls, pParse, TK_GT,
Xsqlite3ExprDup(tls, db, pLeft, 0),
Xsqlite3ExprAlloc(tls, db, TK_NULL, uintptr(0), 0))
idxNew = whereClauseInsert(tls, pWC, pNewExpr,
uint16(TERM_VIRTUAL|TERM_DYNAMIC|TERM_VNULL))
if idxNew != 0 {
pNewTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idxNew)*56
(*WhereTerm)(unsafe.Pointer(pNewTerm)).FprereqRight = uint64(0)
(*WhereTerm)(unsafe.Pointer(pNewTerm)).FleftCursor = (*Expr)(unsafe.Pointer(pLeft)).FiTable
*(*int32)(unsafe.Pointer(pNewTerm + 32)) = int32((*Expr)(unsafe.Pointer(pLeft)).FiColumn)
(*WhereTerm)(unsafe.Pointer(pNewTerm)).FeOperator = U16(int32(WO_EQ) << (TK_GT - TK_EQ))
markTermAsChild(tls, pWC, idxNew, idxTerm)
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idxTerm)*56
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_COPIED)
(*WhereTerm)(unsafe.Pointer(pNewTerm)).FprereqAll = (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqAll
}
}
} else if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_FUNCTION &&
int32((*WhereClause)(unsafe.Pointer(pWC)).Fop) == TK_AND &&
isLikeOrGlob(tls, pParse, pExpr, bp+8, bp+16, bp+20) != 0 {
var pLeft uintptr
var pStr2 uintptr
var pNewExpr1 uintptr
var pNewExpr2 uintptr
var idxNew1 int32
var idxNew2 int32
var zCollSeqName uintptr
var wtFlags U16 = U16(TERM_LIKEOPT | TERM_VIRTUAL | TERM_DYNAMIC)
pLeft = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)) + 8 + 1*32)).FpExpr
pStr2 = Xsqlite3ExprDup(tls, db, *(*uintptr)(unsafe.Pointer(bp + 8)), 0)
if *(*int32)(unsafe.Pointer(bp + 20)) != 0 && !(int32((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed) != 0) {
var i int32
var c int8
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_LIKE)
for i = 0; int32(libc.AssignInt8(&c, *(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)) + 8)) + uintptr(i))))) != 0; i++ {
*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)) + 8)) + uintptr(i))) = int8(int32(c) & ^(int32(Xsqlite3CtypeMap[uint8(c)]) & 0x20))
*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pStr2 + 8)) + uintptr(i))) = int8(Xsqlite3UpperToLower[uint8(c)])
}
}
if !(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
var c U8
var pC uintptr
pC = *(*uintptr)(unsafe.Pointer(pStr2 + 8)) + uintptr(Xsqlite3Strlen30(tls, *(*uintptr)(unsafe.Pointer(pStr2 + 8)))-1)
c = *(*U8)(unsafe.Pointer(pC))
if *(*int32)(unsafe.Pointer(bp + 20)) != 0 {
if int32(c) == 'A'-1 {
*(*int32)(unsafe.Pointer(bp + 16)) = 0
}
c = Xsqlite3UpperToLower[c]
}
*(*U8)(unsafe.Pointer(pC)) = U8(int32(c) + 1)
}
zCollSeqName = func() uintptr {
if *(*int32)(unsafe.Pointer(bp + 20)) != 0 {
return ts + 22313
}
return uintptr(unsafe.Pointer(&Xsqlite3StrBINARY))
}()
pNewExpr1 = Xsqlite3ExprDup(tls, db, pLeft, 0)
pNewExpr1 = Xsqlite3PExpr(tls, pParse, TK_GE,
Xsqlite3ExprAddCollateString(tls, pParse, pNewExpr1, zCollSeqName),
*(*uintptr)(unsafe.Pointer(bp + 8)))
transferJoinMarkings(tls, pNewExpr1, pExpr)
idxNew1 = whereClauseInsert(tls, pWC, pNewExpr1, wtFlags)
pNewExpr2 = Xsqlite3ExprDup(tls, db, pLeft, 0)
pNewExpr2 = Xsqlite3PExpr(tls, pParse, TK_LT,
Xsqlite3ExprAddCollateString(tls, pParse, pNewExpr2, zCollSeqName),
pStr2)
transferJoinMarkings(tls, pNewExpr2, pExpr)
idxNew2 = whereClauseInsert(tls, pWC, pNewExpr2, wtFlags)
exprAnalyze(tls, pSrc, pWC, idxNew1)
exprAnalyze(tls, pSrc, pWC, idxNew2)
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idxTerm)*56
if *(*int32)(unsafe.Pointer(bp + 16)) != 0 {
markTermAsChild(tls, pWC, idxNew1, idxTerm)
markTermAsChild(tls, pWC, idxNew2, idxTerm)
}
}
if (int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_EQ || int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_IS) &&
libc.AssignInt32(&nLeft, Xsqlite3ExprVectorSize(tls, (*Expr)(unsafe.Pointer(pExpr)).FpLeft)) > 1 &&
Xsqlite3ExprVectorSize(tls, (*Expr)(unsafe.Pointer(pExpr)).FpRight) == nLeft &&
((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pExpr)).FpLeft)).Fflags&U32(EP_xIsSelect) == U32(0) ||
(*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pExpr)).FpRight)).Fflags&U32(EP_xIsSelect) == U32(0)) &&
int32((*WhereClause)(unsafe.Pointer(pWC)).Fop) == TK_AND {
var i int32
for i = 0; i < nLeft; i++ {
var idxNew int32
var pNew uintptr
var pLeft uintptr = Xsqlite3ExprForVectorField(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpLeft, i, nLeft)
var pRight uintptr = Xsqlite3ExprForVectorField(tls, pParse, (*Expr)(unsafe.Pointer(pExpr)).FpRight, i, nLeft)
pNew = Xsqlite3PExpr(tls, pParse, int32((*Expr)(unsafe.Pointer(pExpr)).Fop), pLeft, pRight)
transferJoinMarkings(tls, pNew, pExpr)
idxNew = whereClauseInsert(tls, pWC, pNew, uint16(TERM_DYNAMIC|TERM_SLICE))
exprAnalyze(tls, pSrc, pWC, idxNew)
}
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idxTerm)*56
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_CODED | TERM_VIRTUAL)
(*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator = U16(WO_ROWVAL)
} else if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_IN &&
*(*int32)(unsafe.Pointer(pTerm + 32 + 4)) == 0 &&
int32((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(pExpr)).FpLeft)).Fop) == TK_VECTOR &&
(*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_xIsSelect) != U32(0) &&
((*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FpPrior == uintptr(0) || (*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FselFlags&U32(SF_Values) != 0) &&
(*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FpWin == uintptr(0) &&
int32((*WhereClause)(unsafe.Pointer(pWC)).Fop) == TK_AND {
var i int32
for i = 0; i < Xsqlite3ExprVectorSize(tls, (*Expr)(unsafe.Pointer(pExpr)).FpLeft); i++ {
var idxNew int32
idxNew = whereClauseInsert(tls, pWC, pExpr, uint16(TERM_VIRTUAL|TERM_SLICE))
*(*int32)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idxNew)*56 + 32 + 4)) = i + 1
exprAnalyze(tls, pSrc, pWC, idxNew)
markTermAsChild(tls, pWC, idxNew, idxTerm)
}
} else if int32((*WhereClause)(unsafe.Pointer(pWC)).Fop) == TK_AND {
*(*uintptr)(unsafe.Pointer(bp + 40)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 32)) = uintptr(0)
var res int32 = isAuxiliaryVtabOperator(tls, db, pExpr, bp+24, bp+32, bp+40)
for libc.PostDecInt32(&res, 1) > 0 {
var idxNew int32
var pNewTerm uintptr
var prereqColumn Bitmask
var prereqExpr Bitmask
prereqExpr = Xsqlite3WhereExprUsage(tls, pMaskSet, *(*uintptr)(unsafe.Pointer(bp + 40)))
prereqColumn = Xsqlite3WhereExprUsage(tls, pMaskSet, *(*uintptr)(unsafe.Pointer(bp + 32)))
if prereqExpr&prereqColumn == uint64(0) {
var pNewExpr uintptr
pNewExpr = Xsqlite3PExpr(tls, pParse, TK_MATCH,
uintptr(0), Xsqlite3ExprDup(tls, db, *(*uintptr)(unsafe.Pointer(bp + 40)), 0))
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON) != U32(0) && pNewExpr != 0 {
*(*U32)(unsafe.Pointer(pNewExpr + 4)) |= U32(EP_OuterON)
*(*int32)(unsafe.Pointer(pNewExpr + 52)) = *(*int32)(unsafe.Pointer(pExpr + 52))
}
idxNew = whereClauseInsert(tls, pWC, pNewExpr, uint16(TERM_VIRTUAL|TERM_DYNAMIC))
pNewTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idxNew)*56
(*WhereTerm)(unsafe.Pointer(pNewTerm)).FprereqRight = prereqExpr
(*WhereTerm)(unsafe.Pointer(pNewTerm)).FleftCursor = (*Expr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 32)))).FiTable
*(*int32)(unsafe.Pointer(pNewTerm + 32)) = int32((*Expr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 32)))).FiColumn)
(*WhereTerm)(unsafe.Pointer(pNewTerm)).FeOperator = U16(WO_AUX)
(*WhereTerm)(unsafe.Pointer(pNewTerm)).FeMatchOp = *(*uint8)(unsafe.Pointer(bp + 24))
markTermAsChild(tls, pWC, idxNew, idxTerm)
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idxTerm)*56
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_COPIED)
(*WhereTerm)(unsafe.Pointer(pNewTerm)).FprereqAll = (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqAll
}
{
var t uintptr = *(*uintptr)(unsafe.Pointer(bp + 32))
*(*uintptr)(unsafe.Pointer(bp + 32)) = *(*uintptr)(unsafe.Pointer(bp + 40))
*(*uintptr)(unsafe.Pointer(bp + 40)) = t
}
}
}
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idxTerm)*56
*(*Bitmask)(unsafe.Pointer(pTerm + 40)) |= extraRight
}
var ops = [2]U8{U8(TK_GE), U8(TK_LE)}
// This routine identifies subexpressions in the WHERE clause where
// each subexpression is separated by the AND operator or some other
// operator specified in the op parameter. The WhereClause structure
// is filled with pointers to subexpressions. For example:
//
// WHERE a=='hello' AND coalesce(b,11)<10 AND (c+12!=d OR c==22)
// \________/ \_______________/ \________________/
// slot[0] slot[1] slot[2]
//
// The original WHERE clause in pExpr is unaltered. All this routine
// does is make slot[] entries point to substructure within pExpr.
//
// In the previous sentence and in the diagram, "slot[]" refers to
// the WhereClause.a[] array. The slot[] array grows as needed to contain
// all terms of the WHERE clause.
func Xsqlite3WhereSplit(tls *libc.TLS, pWC uintptr, pExpr uintptr, op U8) {
var pE2 uintptr = Xsqlite3ExprSkipCollateAndLikely(tls, pExpr)
(*WhereClause)(unsafe.Pointer(pWC)).Fop = op
if pE2 == uintptr(0) {
return
}
if int32((*Expr)(unsafe.Pointer(pE2)).Fop) != int32(op) {
whereClauseInsert(tls, pWC, pExpr, uint16(0))
} else {
Xsqlite3WhereSplit(tls, pWC, (*Expr)(unsafe.Pointer(pE2)).FpLeft, op)
Xsqlite3WhereSplit(tls, pWC, (*Expr)(unsafe.Pointer(pE2)).FpRight, op)
}
}
func whereAddLimitExpr(tls *libc.TLS, pWC uintptr, iReg int32, pExpr uintptr, iCsr int32, eMatchOp int32) {
bp := tls.Alloc(4)
defer tls.Free(4)
var pParse uintptr = (*WhereInfo)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).FpWInfo)).FpParse
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pNew uintptr
*(*int32)(unsafe.Pointer(bp)) = 0
if Xsqlite3ExprIsInteger(tls, pExpr, bp) != 0 && *(*int32)(unsafe.Pointer(bp)) >= 0 {
var pVal uintptr = Xsqlite3Expr(tls, db, TK_INTEGER, uintptr(0))
if pVal == uintptr(0) {
return
}
*(*U32)(unsafe.Pointer(pVal + 4)) |= U32(EP_IntValue)
*(*int32)(unsafe.Pointer(pVal + 8)) = *(*int32)(unsafe.Pointer(bp))
pNew = Xsqlite3PExpr(tls, pParse, TK_MATCH, uintptr(0), pVal)
} else {
var pVal uintptr = Xsqlite3Expr(tls, db, TK_REGISTER, uintptr(0))
if pVal == uintptr(0) {
return
}
(*Expr)(unsafe.Pointer(pVal)).FiTable = iReg
pNew = Xsqlite3PExpr(tls, pParse, TK_MATCH, uintptr(0), pVal)
}
if pNew != 0 {
var pTerm uintptr
var idx int32
idx = whereClauseInsert(tls, pWC, pNew, uint16(TERM_DYNAMIC|TERM_VIRTUAL))
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(idx)*56
(*WhereTerm)(unsafe.Pointer(pTerm)).FleftCursor = iCsr
(*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator = U16(WO_AUX)
(*WhereTerm)(unsafe.Pointer(pTerm)).FeMatchOp = U8(eMatchOp)
}
}
// Possibly add terms corresponding to the LIMIT and OFFSET clauses of the
// SELECT statement passed as the second argument. These terms are only
// added if:
//
// 1. The SELECT statement has a LIMIT clause, and
// 2. The SELECT statement is not an aggregate or DISTINCT query, and
// 3. The SELECT statement has exactly one object in its from clause, and
// that object is a virtual table, and
// 4. There are no terms in the WHERE clause that will not be passed
// to the virtual table xBestIndex method.
// 5. The ORDER BY clause, if any, will be made available to the xBestIndex
// method.
//
// LIMIT and OFFSET terms are ignored by most of the planner code. They
// exist only so that they may be passed to the xBestIndex method of the
// single virtual table in the FROM clause of the SELECT.
func Xsqlite3WhereAddLimit(tls *libc.TLS, pWC uintptr, p uintptr) {
if (*Select)(unsafe.Pointer(p)).FpGroupBy == uintptr(0) &&
(*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Distinct|SF_Aggregate) == U32(0) &&
((*SrcList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc)).FnSrc == 1 && int32((*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc+8)).FpTab)).FeTabType) == TABTYP_VTAB) {
var pOrderBy uintptr = (*Select)(unsafe.Pointer(p)).FpOrderBy
var iCsr int32 = (*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc + 8)).FiCursor
var ii int32
for ii = 0; ii < (*WhereClause)(unsafe.Pointer(pWC)).FnTerm; ii++ {
if int32((*WhereTerm)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).Fa+uintptr(ii)*56)).FwtFlags)&TERM_CODED != 0 {
continue
}
if (*WhereTerm)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).Fa+uintptr(ii)*56)).FnChild != 0 {
continue
}
if (*WhereTerm)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).Fa+uintptr(ii)*56)).FleftCursor != iCsr {
return
}
}
if pOrderBy != 0 {
for ii = 0; ii < (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr; ii++ {
var pExpr uintptr = (*ExprList_item)(unsafe.Pointer(pOrderBy + 8 + uintptr(ii)*32)).FpExpr
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_COLUMN {
return
}
if (*Expr)(unsafe.Pointer(pExpr)).FiTable != iCsr {
return
}
if int32((*ExprList_item)(unsafe.Pointer(pOrderBy+8+uintptr(ii)*32)).Ffg.FsortFlags)&KEYINFO_ORDER_BIGNULL != 0 {
return
}
}
}
whereAddLimitExpr(tls, pWC, (*Select)(unsafe.Pointer(p)).FiLimit, (*Expr)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpLimit)).FpLeft,
iCsr, SQLITE_INDEX_CONSTRAINT_LIMIT)
if (*Select)(unsafe.Pointer(p)).FiOffset > 0 {
whereAddLimitExpr(tls, pWC, (*Select)(unsafe.Pointer(p)).FiOffset, (*Expr)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpLimit)).FpRight,
iCsr, SQLITE_INDEX_CONSTRAINT_OFFSET)
}
}
}
// Initialize a preallocated WhereClause structure.
func Xsqlite3WhereClauseInit(tls *libc.TLS, pWC uintptr, pWInfo uintptr) {
(*WhereClause)(unsafe.Pointer(pWC)).FpWInfo = pWInfo
(*WhereClause)(unsafe.Pointer(pWC)).FhasOr = U8(0)
(*WhereClause)(unsafe.Pointer(pWC)).FpOuter = uintptr(0)
(*WhereClause)(unsafe.Pointer(pWC)).FnTerm = 0
(*WhereClause)(unsafe.Pointer(pWC)).FnBase = 0
(*WhereClause)(unsafe.Pointer(pWC)).FnSlot = int32(uint64(unsafe.Sizeof([8]WhereTerm{})) / uint64(unsafe.Sizeof(WhereTerm{})))
(*WhereClause)(unsafe.Pointer(pWC)).Fa = pWC + 40
}
// Deallocate a WhereClause structure. The WhereClause structure
// itself is not freed. This routine is the inverse of
// sqlite3WhereClauseInit().
func Xsqlite3WhereClauseClear(tls *libc.TLS, pWC uintptr) {
var db uintptr = (*Parse)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).FpWInfo)).FpParse)).Fdb
if (*WhereClause)(unsafe.Pointer(pWC)).FnTerm > 0 {
var a uintptr = (*WhereClause)(unsafe.Pointer(pWC)).Fa
var aLast uintptr = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr((*WhereClause)(unsafe.Pointer(pWC)).FnTerm-1)*56
for 1 != 0 {
if int32((*WhereTerm)(unsafe.Pointer(a)).FwtFlags)&TERM_DYNAMIC != 0 {
Xsqlite3ExprDelete(tls, db, (*WhereTerm)(unsafe.Pointer(a)).FpExpr)
}
if int32((*WhereTerm)(unsafe.Pointer(a)).FwtFlags)&(TERM_ORINFO|TERM_ANDINFO) != 0 {
if int32((*WhereTerm)(unsafe.Pointer(a)).FwtFlags)&TERM_ORINFO != 0 {
whereOrInfoDelete(tls, db, *(*uintptr)(unsafe.Pointer(a + 32)))
} else {
whereAndInfoDelete(tls, db, *(*uintptr)(unsafe.Pointer(a + 32)))
}
}
if a == aLast {
break
}
a += 56
}
}
}
func sqlite3WhereExprUsageFull(tls *libc.TLS, pMaskSet uintptr, p uintptr) Bitmask {
var mask Bitmask
if int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_IF_NULL_ROW {
mask = Xsqlite3WhereGetMask(tls, pMaskSet, (*Expr)(unsafe.Pointer(p)).FiTable)
} else {
mask = uint64(0)
}
if (*Expr)(unsafe.Pointer(p)).FpLeft != 0 {
mask = mask | Xsqlite3WhereExprUsageNN(tls, pMaskSet, (*Expr)(unsafe.Pointer(p)).FpLeft)
}
if (*Expr)(unsafe.Pointer(p)).FpRight != 0 {
mask = mask | Xsqlite3WhereExprUsageNN(tls, pMaskSet, (*Expr)(unsafe.Pointer(p)).FpRight)
} else if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_xIsSelect) != U32(0) {
if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_VarSelect) != U32(0) {
(*WhereMaskSet)(unsafe.Pointer(pMaskSet)).FbVarSelect = 1
}
mask = mask | exprSelectUsage(tls, pMaskSet, *(*uintptr)(unsafe.Pointer(p + 32)))
} else if *(*uintptr)(unsafe.Pointer(p + 32)) != 0 {
mask = mask | Xsqlite3WhereExprListUsage(tls, pMaskSet, *(*uintptr)(unsafe.Pointer(p + 32)))
}
if (int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_FUNCTION || int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_AGG_FUNCTION) && (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_WinFunc) != U32(0) {
mask = mask | Xsqlite3WhereExprListUsage(tls, pMaskSet, (*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 64)))).FpPartition)
mask = mask | Xsqlite3WhereExprListUsage(tls, pMaskSet, (*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 64)))).FpOrderBy)
mask = mask | Xsqlite3WhereExprUsage(tls, pMaskSet, (*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 64)))).FpFilter)
}
return mask
}
func Xsqlite3WhereExprUsageNN(tls *libc.TLS, pMaskSet uintptr, p uintptr) Bitmask {
if int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_COLUMN && !((*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_FixedCol) != U32(0)) {
return Xsqlite3WhereGetMask(tls, pMaskSet, (*Expr)(unsafe.Pointer(p)).FiTable)
} else if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_TokenOnly|EP_Leaf) != U32(0) {
return uint64(0)
}
return sqlite3WhereExprUsageFull(tls, pMaskSet, p)
}
func Xsqlite3WhereExprUsage(tls *libc.TLS, pMaskSet uintptr, p uintptr) Bitmask {
if p != 0 {
return Xsqlite3WhereExprUsageNN(tls, pMaskSet, p)
}
return uint64(0)
}
func Xsqlite3WhereExprListUsage(tls *libc.TLS, pMaskSet uintptr, pList uintptr) Bitmask {
var i int32
var mask Bitmask = uint64(0)
if pList != 0 {
for i = 0; i < (*ExprList)(unsafe.Pointer(pList)).FnExpr; i++ {
mask = mask | Xsqlite3WhereExprUsage(tls, pMaskSet, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(i)*32)).FpExpr)
}
}
return mask
}
// Call exprAnalyze on all terms in a WHERE clause.
//
// Note that exprAnalyze() might add new virtual terms onto the
// end of the WHERE clause. We do not want to analyze these new
// virtual terms, so start analyzing at the end and work forward
// so that the added virtual terms are never processed.
func Xsqlite3WhereExprAnalyze(tls *libc.TLS, pTabList uintptr, pWC uintptr) {
var i int32
for i = (*WhereClause)(unsafe.Pointer(pWC)).FnTerm - 1; i >= 0; i-- {
exprAnalyze(tls, pTabList, pWC, i)
}
}
// For table-valued-functions, transform the function arguments into
// new WHERE clause terms.
//
// Each function argument translates into an equality constraint against
// a HIDDEN column in the table.
func Xsqlite3WhereTabFuncArgs(tls *libc.TLS, pParse uintptr, pItem uintptr, pWC uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
var pTab uintptr
var j int32
var k int32
var pArgs uintptr
var pColRef uintptr
var pTerm uintptr
if int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x4>>2) == 0 {
return
}
pTab = (*SrcItem)(unsafe.Pointer(pItem)).FpTab
pArgs = *(*uintptr)(unsafe.Pointer(pItem + 88))
if pArgs == uintptr(0) {
return
}
for j = libc.AssignInt32(&k, 0); j < (*ExprList)(unsafe.Pointer(pArgs)).FnExpr; j++ {
var pRhs uintptr
var joinType U32
for k < int32((*Table)(unsafe.Pointer(pTab)).FnCol) && int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(k)*24)).FcolFlags)&COLFLAG_HIDDEN == 0 {
k++
}
if k >= int32((*Table)(unsafe.Pointer(pTab)).FnCol) {
Xsqlite3ErrorMsg(tls, pParse, ts+22320,
libc.VaList(bp, (*Table)(unsafe.Pointer(pTab)).FzName, j))
return
}
pColRef = Xsqlite3ExprAlloc(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, TK_COLUMN, uintptr(0), 0)
if pColRef == uintptr(0) {
return
}
(*Expr)(unsafe.Pointer(pColRef)).FiTable = (*SrcItem)(unsafe.Pointer(pItem)).FiCursor
(*Expr)(unsafe.Pointer(pColRef)).FiColumn = YnVar(libc.PostIncInt32(&k, 1))
*(*uintptr)(unsafe.Pointer(pColRef + 64)) = pTab
*(*Bitmask)(unsafe.Pointer(pItem + 80)) |= Xsqlite3ExprColUsed(tls, pColRef)
pRhs = Xsqlite3PExpr(tls, pParse, TK_UPLUS,
Xsqlite3ExprDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*ExprList_item)(unsafe.Pointer(pArgs+8+uintptr(j)*32)).FpExpr, 0), uintptr(0))
pTerm = Xsqlite3PExpr(tls, pParse, TK_EQ, pColRef, pRhs)
if int32((*SrcItem)(unsafe.Pointer(pItem)).Ffg.Fjointype)&(JT_LEFT|JT_LTORJ) != 0 {
joinType = U32(EP_OuterON)
} else {
joinType = U32(EP_InnerON)
}
Xsqlite3SetJoinExpr(tls, pTerm, (*SrcItem)(unsafe.Pointer(pItem)).FiCursor, joinType)
whereClauseInsert(tls, pWC, pTerm, uint16(TERM_DYNAMIC))
}
}
// Extra information appended to the end of sqlite3_index_info but not
// visible to the xBestIndex function, at least not directly. The
// sqlite3_vtab_collation() interface knows how to reach it, however.
//
// This object is not an API and can be changed from one release to the
// next. As long as allocateIndexInfo() and sqlite3_vtab_collation()
// agree on the structure, all will be well.
type HiddenIndexInfo1 = struct {
FpWC uintptr
FpParse uintptr
FeDistinct int32
FmIn U32
FmHandleIn U32
F__ccgo_pad1 [4]byte
FaRhs [1]uintptr
}
// Extra information appended to the end of sqlite3_index_info but not
// visible to the xBestIndex function, at least not directly. The
// sqlite3_vtab_collation() interface knows how to reach it, however.
//
// This object is not an API and can be changed from one release to the
// next. As long as allocateIndexInfo() and sqlite3_vtab_collation()
// agree on the structure, all will be well.
type HiddenIndexInfo = HiddenIndexInfo1
// Return the estimated number of output rows from a WHERE clause
func Xsqlite3WhereOutputRowCount(tls *libc.TLS, pWInfo uintptr) LogEst {
return (*WhereInfo)(unsafe.Pointer(pWInfo)).FnRowOut
}
// Return one of the WHERE_DISTINCT_xxxxx values to indicate how this
// WHERE clause returns outputs for DISTINCT processing.
func Xsqlite3WhereIsDistinct(tls *libc.TLS, pWInfo uintptr) int32 {
return int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FeDistinct)
}
// Return the number of ORDER BY terms that are satisfied by the
// WHERE clause. A return of 0 means that the output must be
// completely sorted. A return equal to the number of ORDER BY
// terms means that no sorting is needed at all. A return that
// is positive but less than the number of ORDER BY terms means that
// block sorting is required.
func Xsqlite3WhereIsOrdered(tls *libc.TLS, pWInfo uintptr) int32 {
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnOBSat) < 0 {
return 0
}
return int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnOBSat)
}
// In the ORDER BY LIMIT optimization, if the inner-most loop is known
// to emit rows in increasing order, and if the last row emitted by the
// inner-most loop did not fit within the sorter, then we can skip all
// subsequent rows for the current iteration of the inner loop (because they
// will not fit in the sorter either) and continue with the second inner
// loop - the loop immediately outside the inner-most.
//
// When a row does not fit in the sorter (because the sorter already
// holds LIMIT+OFFSET rows that are smaller), then a jump is made to the
// label returned by this function.
//
// If the ORDER BY LIMIT optimization applies, the jump destination should
// be the continuation for the second-inner-most loop. If the ORDER BY
// LIMIT optimization does not apply, then the jump destination should
// be the continuation for the inner-most loop.
//
// It is always safe for this routine to return the continuation of the
// inner-most loop, in the sense that a correct answer will result.
// Returning the continuation the second inner loop is an optimization
// that might make the code run a little faster, but should not change
// the final answer.
func Xsqlite3WhereOrderByLimitOptLabel(tls *libc.TLS, pWInfo uintptr) int32 {
var pInner uintptr
if !(int32(*(*uint8)(unsafe.Pointer(pWInfo + 68))&0x4>>2) != 0) {
return (*WhereInfo)(unsafe.Pointer(pWInfo)).FiContinue
}
pInner = pWInfo + 856 + uintptr(int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel)-1)*104
if (*WhereLevel)(unsafe.Pointer(pInner)).FpRJ != 0 {
return (*WhereInfo)(unsafe.Pointer(pWInfo)).FiContinue
}
return (*WhereLevel)(unsafe.Pointer(pInner)).FaddrNxt
}
// While generating code for the min/max optimization, after handling
// the aggregate-step call to min() or max(), check to see if any
// additional looping is required. If the output order is such that
// we are certain that the correct answer has already been found, then
// code an OP_Goto to by pass subsequent processing.
//
// Any extra OP_Goto that is coded here is an optimization. The
// correct answer should be obtained regardless. This OP_Goto just
// makes the answer appear faster.
func Xsqlite3WhereMinMaxOptEarlyOut(tls *libc.TLS, v uintptr, pWInfo uintptr) {
var pInner uintptr
var i int32
if !(int32(*(*uint8)(unsafe.Pointer(pWInfo + 68))&0x4>>2) != 0) {
return
}
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnOBSat) == 0 {
return
}
for i = int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel) - 1; i >= 0; i-- {
pInner = pWInfo + 856 + uintptr(i)*104
if (*WhereLoop1)(unsafe.Pointer((*WhereLevel)(unsafe.Pointer(pInner)).FpWLoop)).FwsFlags&U32(WHERE_COLUMN_IN) != U32(0) {
Xsqlite3VdbeGoto(tls, v, (*WhereLevel)(unsafe.Pointer(pInner)).FaddrNxt)
return
}
}
Xsqlite3VdbeGoto(tls, v, (*WhereInfo)(unsafe.Pointer(pWInfo)).FiBreak)
}
// Return the VDBE address or label to jump to in order to continue
// immediately with the next row of a WHERE clause.
func Xsqlite3WhereContinueLabel(tls *libc.TLS, pWInfo uintptr) int32 {
return (*WhereInfo)(unsafe.Pointer(pWInfo)).FiContinue
}
// Return the VDBE address or label to jump to in order to break
// out of a WHERE loop.
func Xsqlite3WhereBreakLabel(tls *libc.TLS, pWInfo uintptr) int32 {
return (*WhereInfo)(unsafe.Pointer(pWInfo)).FiBreak
}
// Return ONEPASS_OFF (0) if an UPDATE or DELETE statement is unable to
// operate directly on the rowids returned by a WHERE clause. Return
// ONEPASS_SINGLE (1) if the statement can operation directly because only
// a single row is to be changed. Return ONEPASS_MULTI (2) if the one-pass
// optimization can be used on multiple
//
// If the ONEPASS optimization is used (if this routine returns true)
// then also write the indices of open cursors used by ONEPASS
// into aiCur[0] and aiCur[1]. iaCur[0] gets the cursor of the data
// table and iaCur[1] gets the cursor used by an auxiliary index.
// Either value may be -1, indicating that cursor is not used.
// Any cursors returned will have been opened for writing.
//
// aiCur[0] and aiCur[1] both get -1 if the where-clause logic is
// unable to use the ONEPASS optimization.
func Xsqlite3WhereOkOnePass(tls *libc.TLS, pWInfo uintptr, aiCur uintptr) int32 {
libc.X__builtin___memcpy_chk(tls, aiCur, pWInfo+40, uint64(unsafe.Sizeof(int32(0)))*uint64(2), libc.X__builtin_object_size(tls, aiCur, 0))
return int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FeOnePass)
}
// Return TRUE if the WHERE loop uses the OP_DeferredSeek opcode to move
// the data cursor to the row selected by the index cursor.
func Xsqlite3WhereUsesDeferredSeek(tls *libc.TLS, pWInfo uintptr) int32 {
return int32(*(*uint8)(unsafe.Pointer(pWInfo + 68)) & 0x1 >> 0)
}
func whereOrMove(tls *libc.TLS, pDest uintptr, pSrc uintptr) {
(*WhereOrSet)(unsafe.Pointer(pDest)).Fn = (*WhereOrSet)(unsafe.Pointer(pSrc)).Fn
libc.X__builtin___memcpy_chk(tls, pDest+8, pSrc+8, uint64((*WhereOrSet)(unsafe.Pointer(pDest)).Fn)*uint64(unsafe.Sizeof(WhereOrCost{})), libc.X__builtin_object_size(tls, pDest+8, 0))
}
func whereOrInsert(tls *libc.TLS, pSet uintptr, prereq Bitmask, rRun LogEst, nOut LogEst) int32 {
var i U16
var p uintptr
i = (*WhereOrSet)(unsafe.Pointer(pSet)).Fn
p = pSet + 8
__1:
if !(int32(i) > 0) {
goto __3
}
if !(int32(rRun) <= int32((*WhereOrCost)(unsafe.Pointer(p)).FrRun) && prereq&(*WhereOrCost)(unsafe.Pointer(p)).Fprereq == prereq) {
goto __4
}
goto whereOrInsert_done
__4:
;
if !(int32((*WhereOrCost)(unsafe.Pointer(p)).FrRun) <= int32(rRun) && (*WhereOrCost)(unsafe.Pointer(p)).Fprereq&prereq == (*WhereOrCost)(unsafe.Pointer(p)).Fprereq) {
goto __5
}
return 0
__5:
;
goto __2
__2:
i--
p += 16
goto __1
goto __3
__3:
;
if !(int32((*WhereOrSet)(unsafe.Pointer(pSet)).Fn) < N_OR_COST) {
goto __6
}
p = pSet + 8 + uintptr(libc.PostIncUint16(&(*WhereOrSet)(unsafe.Pointer(pSet)).Fn, 1))*16
(*WhereOrCost)(unsafe.Pointer(p)).FnOut = nOut
goto __7
__6:
p = pSet + 8
i = U16(1)
__8:
if !(int32(i) < int32((*WhereOrSet)(unsafe.Pointer(pSet)).Fn)) {
goto __10
}
if !(int32((*WhereOrCost)(unsafe.Pointer(p)).FrRun) > int32((*WhereOrCost)(unsafe.Pointer(pSet+8+uintptr(i)*16)).FrRun)) {
goto __11
}
p = pSet + 8 + uintptr(i)*16
__11:
;
goto __9
__9:
i++
goto __8
goto __10
__10:
;
if !(int32((*WhereOrCost)(unsafe.Pointer(p)).FrRun) <= int32(rRun)) {
goto __12
}
return 0
__12:
;
__7:
;
whereOrInsert_done:
(*WhereOrCost)(unsafe.Pointer(p)).Fprereq = prereq
(*WhereOrCost)(unsafe.Pointer(p)).FrRun = rRun
if !(int32((*WhereOrCost)(unsafe.Pointer(p)).FnOut) > int32(nOut)) {
goto __13
}
(*WhereOrCost)(unsafe.Pointer(p)).FnOut = nOut
__13:
;
return 1
}
// Return the bitmask for the given cursor number. Return 0 if
// iCursor is not in the set.
func Xsqlite3WhereGetMask(tls *libc.TLS, pMaskSet uintptr, iCursor int32) Bitmask {
var i int32
if *(*int32)(unsafe.Pointer(pMaskSet + 8)) == iCursor {
return uint64(1)
}
for i = 1; i < (*WhereMaskSet)(unsafe.Pointer(pMaskSet)).Fn; i++ {
if *(*int32)(unsafe.Pointer(pMaskSet + 8 + uintptr(i)*4)) == iCursor {
return uint64(1) << i
}
}
return uint64(0)
}
// Allocate memory that is automatically freed when pWInfo is freed.
func Xsqlite3WhereMalloc(tls *libc.TLS, pWInfo uintptr, nByte U64) uintptr {
var pBlock uintptr
pBlock = Xsqlite3DbMallocRawNN(tls, (*Parse)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse)).Fdb, nByte+U64(unsafe.Sizeof(WhereMemBlock{})))
if pBlock != 0 {
(*WhereMemBlock)(unsafe.Pointer(pBlock)).FpNext = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpMemToFree
(*WhereMemBlock)(unsafe.Pointer(pBlock)).Fsz = nByte
(*WhereInfo)(unsafe.Pointer(pWInfo)).FpMemToFree = pBlock
pBlock += 16
}
return pBlock
}
func Xsqlite3WhereRealloc(tls *libc.TLS, pWInfo uintptr, pOld uintptr, nByte U64) uintptr {
var pNew uintptr = Xsqlite3WhereMalloc(tls, pWInfo, nByte)
if pNew != 0 && pOld != 0 {
var pOldBlk uintptr = pOld
pOldBlk -= 16
libc.X__builtin___memcpy_chk(tls, pNew, pOld, (*WhereMemBlock)(unsafe.Pointer(pOldBlk)).Fsz, libc.X__builtin_object_size(tls, pNew, 0))
}
return pNew
}
func createMask(tls *libc.TLS, pMaskSet uintptr, iCursor int32) {
*(*int32)(unsafe.Pointer(pMaskSet + 8 + uintptr(libc.PostIncInt32(&(*WhereMaskSet)(unsafe.Pointer(pMaskSet)).Fn, 1))*4)) = iCursor
}
func whereRightSubexprIsColumn(tls *libc.TLS, p uintptr) uintptr {
p = Xsqlite3ExprSkipCollateAndLikely(tls, (*Expr)(unsafe.Pointer(p)).FpRight)
if p != uintptr(0) && int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_COLUMN && !((*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_FixedCol) != U32(0)) {
return p
}
return uintptr(0)
}
func whereScanNext(tls *libc.TLS, pScan uintptr) uintptr {
var iCur int32
var iColumn I16
var pX uintptr
var pWC uintptr
var pTerm uintptr
var k int32 = (*WhereScan)(unsafe.Pointer(pScan)).Fk
pWC = (*WhereScan)(unsafe.Pointer(pScan)).FpWC
for 1 != 0 {
iColumn = *(*I16)(unsafe.Pointer(pScan + 88 + uintptr(int32((*WhereScan)(unsafe.Pointer(pScan)).FiEquiv)-1)*2))
iCur = *(*int32)(unsafe.Pointer(pScan + 44 + uintptr(int32((*WhereScan)(unsafe.Pointer(pScan)).FiEquiv)-1)*4))
for __ccgo := true; __ccgo; __ccgo = pWC != uintptr(0) {
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(k)*56
__1:
if !(k < (*WhereClause)(unsafe.Pointer(pWC)).FnTerm) {
goto __3
}
{
if (*WhereTerm)(unsafe.Pointer(pTerm)).FleftCursor == iCur &&
*(*int32)(unsafe.Pointer(pTerm + 32)) == int32(iColumn) &&
(int32(iColumn) != -2 ||
Xsqlite3ExprCompareSkip(tls, (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).FpLeft,
(*WhereScan)(unsafe.Pointer(pScan)).FpIdxExpr, iCur) == 0) &&
(int32((*WhereScan)(unsafe.Pointer(pScan)).FiEquiv) <= 1 || !((*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).Fflags&U32(EP_OuterON) != U32(0))) {
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&WO_EQUIV != 0 &&
int32((*WhereScan)(unsafe.Pointer(pScan)).FnEquiv) < int32(uint64(unsafe.Sizeof([11]int32{}))/uint64(unsafe.Sizeof(int32(0)))) &&
libc.AssignUintptr(&pX, whereRightSubexprIsColumn(tls, (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)) != uintptr(0) {
var j int32
for j = 0; j < int32((*WhereScan)(unsafe.Pointer(pScan)).FnEquiv); j++ {
if *(*int32)(unsafe.Pointer(pScan + 44 + uintptr(j)*4)) == (*Expr)(unsafe.Pointer(pX)).FiTable &&
int32(*(*I16)(unsafe.Pointer(pScan + 88 + uintptr(j)*2))) == int32((*Expr)(unsafe.Pointer(pX)).FiColumn) {
break
}
}
if j == int32((*WhereScan)(unsafe.Pointer(pScan)).FnEquiv) {
*(*int32)(unsafe.Pointer(pScan + 44 + uintptr(j)*4)) = (*Expr)(unsafe.Pointer(pX)).FiTable
*(*I16)(unsafe.Pointer(pScan + 88 + uintptr(j)*2)) = (*Expr)(unsafe.Pointer(pX)).FiColumn
(*WhereScan)(unsafe.Pointer(pScan)).FnEquiv++
}
}
if U32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&(*WhereScan)(unsafe.Pointer(pScan)).FopMask != U32(0) {
if (*WhereScan)(unsafe.Pointer(pScan)).FzCollName != 0 && int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&WO_ISNULL == 0 {
var pColl uintptr
var pParse uintptr = (*WhereInfo)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).FpWInfo)).FpParse
pX = (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr
if !(Xsqlite3IndexAffinityOk(tls, pX, (*WhereScan)(unsafe.Pointer(pScan)).Fidxaff) != 0) {
goto __2
}
pColl = Xsqlite3ExprCompareCollSeq(tls, pParse, pX)
if pColl == uintptr(0) {
pColl = (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FpDfltColl
}
if Xsqlite3StrICmp(tls, (*CollSeq)(unsafe.Pointer(pColl)).FzName, (*WhereScan)(unsafe.Pointer(pScan)).FzCollName) != 0 {
goto __2
}
}
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&(WO_EQ|WO_IS) != 0 &&
func() bool {
pX = (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).FpRight
return pX != uintptr(0)
}() &&
int32((*Expr)(unsafe.Pointer(pX)).Fop) == TK_COLUMN &&
(*Expr)(unsafe.Pointer(pX)).FiTable == *(*int32)(unsafe.Pointer(pScan + 44)) &&
int32((*Expr)(unsafe.Pointer(pX)).FiColumn) == int32(*(*I16)(unsafe.Pointer(pScan + 88))) {
goto __2
}
(*WhereScan)(unsafe.Pointer(pScan)).FpWC = pWC
(*WhereScan)(unsafe.Pointer(pScan)).Fk = k + 1
return pTerm
}
}
}
goto __2
__2:
k++
pTerm += 56
goto __1
goto __3
__3:
;
pWC = (*WhereClause)(unsafe.Pointer(pWC)).FpOuter
k = 0
}
if int32((*WhereScan)(unsafe.Pointer(pScan)).FiEquiv) >= int32((*WhereScan)(unsafe.Pointer(pScan)).FnEquiv) {
break
}
pWC = (*WhereScan)(unsafe.Pointer(pScan)).FpOrigWC
k = 0
(*WhereScan)(unsafe.Pointer(pScan)).FiEquiv++
}
return uintptr(0)
}
func whereScanInitIndexExpr(tls *libc.TLS, pScan uintptr) uintptr {
(*WhereScan)(unsafe.Pointer(pScan)).Fidxaff = Xsqlite3ExprAffinity(tls, (*WhereScan)(unsafe.Pointer(pScan)).FpIdxExpr)
return whereScanNext(tls, pScan)
}
func whereScanInit(tls *libc.TLS, pScan uintptr, pWC uintptr, iCur int32, iColumn int32, opMask U32, pIdx uintptr) uintptr {
(*WhereScan)(unsafe.Pointer(pScan)).FpOrigWC = pWC
(*WhereScan)(unsafe.Pointer(pScan)).FpWC = pWC
(*WhereScan)(unsafe.Pointer(pScan)).FpIdxExpr = uintptr(0)
(*WhereScan)(unsafe.Pointer(pScan)).Fidxaff = int8(0)
(*WhereScan)(unsafe.Pointer(pScan)).FzCollName = uintptr(0)
(*WhereScan)(unsafe.Pointer(pScan)).FopMask = opMask
(*WhereScan)(unsafe.Pointer(pScan)).Fk = 0
*(*int32)(unsafe.Pointer(pScan + 44)) = iCur
(*WhereScan)(unsafe.Pointer(pScan)).FnEquiv = uint8(1)
(*WhereScan)(unsafe.Pointer(pScan)).FiEquiv = uint8(1)
if pIdx != 0 {
var j int32 = iColumn
iColumn = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(j)*2)))
if iColumn == int32((*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FpTable)).FiPKey) {
iColumn = -1
} else if iColumn >= 0 {
(*WhereScan)(unsafe.Pointer(pScan)).Fidxaff = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FpTable)).FaCol + uintptr(iColumn)*24)).Faffinity
(*WhereScan)(unsafe.Pointer(pScan)).FzCollName = *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(j)*8))
} else if iColumn == -2 {
(*WhereScan)(unsafe.Pointer(pScan)).FpIdxExpr = (*ExprList_item)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaColExpr + 8 + uintptr(j)*32)).FpExpr
(*WhereScan)(unsafe.Pointer(pScan)).FzCollName = *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(j)*8))
*(*I16)(unsafe.Pointer(pScan + 88)) = int16(-2)
return whereScanInitIndexExpr(tls, pScan)
}
} else if iColumn == -2 {
return uintptr(0)
}
*(*I16)(unsafe.Pointer(pScan + 88)) = I16(iColumn)
return whereScanNext(tls, pScan)
}
// Search for a term in the WHERE clause that is of the form "X <op> <expr>"
// where X is a reference to the iColumn of table iCur or of index pIdx
// if pIdx!=0 and <op> is one of the WO_xx operator codes specified by
// the op parameter. Return a pointer to the term. Return 0 if not found.
//
// If pIdx!=0 then it must be one of the indexes of table iCur.
// Search for terms matching the iColumn-th column of pIdx
// rather than the iColumn-th column of table iCur.
//
// The term returned might by Y=<expr> if there is another constraint in
// the WHERE clause that specifies that X=Y. Any such constraints will be
// identified by the WO_EQUIV bit in the pTerm->eOperator field. The
// aiCur[]/iaColumn[] arrays hold X and all its equivalents. There are 11
// slots in aiCur[]/aiColumn[] so that means we can look for X plus up to 10
// other equivalent values. Hence a search for X will return <expr> if X=A1
// and A1=A2 and A2=A3 and ... and A9=A10 and A10=<expr>.
//
// If there are multiple terms in the WHERE clause of the form "X <op> <expr>"
// then try for the one with no dependencies on <expr> - in other words where
// <expr> is a constant expression of some kind. Only return entries of
// the form "X <op> Y" where Y is a column in another table if no terms of
// the form "X <op> <const-expr>" exist. If no terms with a constant RHS
// exist, try to return a term that does not use WO_EQUIV.
func Xsqlite3WhereFindTerm(tls *libc.TLS, pWC uintptr, iCur int32, iColumn int32, notReady Bitmask, op U32, pIdx uintptr) uintptr {
bp := tls.Alloc(112)
defer tls.Free(112)
var pResult uintptr = uintptr(0)
var p uintptr
p = whereScanInit(tls, bp, pWC, iCur, iColumn, op, pIdx)
op = op & U32(WO_EQ|WO_IS)
for p != 0 {
if (*WhereTerm)(unsafe.Pointer(p)).FprereqRight&notReady == uint64(0) {
if (*WhereTerm)(unsafe.Pointer(p)).FprereqRight == uint64(0) && U32((*WhereTerm)(unsafe.Pointer(p)).FeOperator)&op != U32(0) {
return p
}
if pResult == uintptr(0) {
pResult = p
}
}
p = whereScanNext(tls, bp)
}
return pResult
}
func findIndexCol(tls *libc.TLS, pParse uintptr, pList uintptr, iBase int32, pIdx uintptr, iCol int32) int32 {
var i int32
var zColl uintptr = *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(iCol)*8))
for i = 0; i < (*ExprList)(unsafe.Pointer(pList)).FnExpr; i++ {
var p uintptr = Xsqlite3ExprSkipCollateAndLikely(tls, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(i)*32)).FpExpr)
if p != uintptr(0) &&
(int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_COLUMN || int32((*Expr)(unsafe.Pointer(p)).Fop) == TK_AGG_COLUMN) &&
int32((*Expr)(unsafe.Pointer(p)).FiColumn) == int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(iCol)*2))) &&
(*Expr)(unsafe.Pointer(p)).FiTable == iBase {
var pColl uintptr = Xsqlite3ExprNNCollSeq(tls, pParse, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(i)*32)).FpExpr)
if 0 == Xsqlite3StrICmp(tls, (*CollSeq)(unsafe.Pointer(pColl)).FzName, zColl) {
return i
}
}
}
return -1
}
func indexColumnNotNull(tls *libc.TLS, pIdx uintptr, iCol int32) int32 {
var j int32
j = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(iCol)*2)))
if j >= 0 {
return int32(*(*uint8)(unsafe.Pointer((*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FpTable)).FaCol + uintptr(j)*24 + 8)) & 0xf >> 0)
} else if j == -1 {
return 1
} else {
return 0
}
return int32(0)
}
func isDistinctRedundant(tls *libc.TLS, pParse uintptr, pTabList uintptr, pWC uintptr, pDistinct uintptr) int32 {
var pTab uintptr
var pIdx uintptr
var i int32
var iBase int32
if (*SrcList)(unsafe.Pointer(pTabList)).FnSrc != 1 {
return 0
}
iBase = (*SrcItem)(unsafe.Pointer(pTabList + 8)).FiCursor
pTab = (*SrcItem)(unsafe.Pointer(pTabList + 8)).FpTab
for i = 0; i < (*ExprList)(unsafe.Pointer(pDistinct)).FnExpr; i++ {
var p uintptr = Xsqlite3ExprSkipCollateAndLikely(tls, (*ExprList_item)(unsafe.Pointer(pDistinct+8+uintptr(i)*32)).FpExpr)
if p == uintptr(0) {
continue
}
if int32((*Expr)(unsafe.Pointer(p)).Fop) != TK_COLUMN && int32((*Expr)(unsafe.Pointer(p)).Fop) != TK_AGG_COLUMN {
continue
}
if (*Expr)(unsafe.Pointer(p)).FiTable == iBase && int32((*Expr)(unsafe.Pointer(p)).FiColumn) < 0 {
return 1
}
}
for pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex; pIdx != 0; pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext {
if !(int32((*Index)(unsafe.Pointer(pIdx)).FonError) != OE_None) {
continue
}
if (*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere != 0 {
continue
}
for i = 0; i < int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol); i++ {
if uintptr(0) == Xsqlite3WhereFindTerm(tls, pWC, iBase, i, libc.CplUint64(uint64(0)), uint32(WO_EQ), pIdx) {
if findIndexCol(tls, pParse, pDistinct, iBase, pIdx, i) < 0 {
break
}
if indexColumnNotNull(tls, pIdx, i) == 0 {
break
}
}
}
if i == int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol) {
return 1
}
}
return 0
}
func estLog(tls *libc.TLS, N LogEst) LogEst {
if int32(N) <= 10 {
return int16(0)
}
return int16(int32(Xsqlite3LogEst(tls, uint64(N))) - 33)
}
func translateColumnToCopy(tls *libc.TLS, pParse uintptr, iStart int32, iTabCur int32, iRegister int32, iAutoidxCur int32) {
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var pOp uintptr = Xsqlite3VdbeGetOp(tls, v, iStart)
var iEnd int32 = Xsqlite3VdbeCurrentAddr(tls, v)
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed != 0 {
return
}
__1:
if !(iStart < iEnd) {
goto __3
}
{
if (*VdbeOp)(unsafe.Pointer(pOp)).Fp1 != iTabCur {
goto __2
}
if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_Column {
(*VdbeOp)(unsafe.Pointer(pOp)).Fopcode = U8(OP_Copy)
(*VdbeOp)(unsafe.Pointer(pOp)).Fp1 = (*VdbeOp)(unsafe.Pointer(pOp)).Fp2 + iRegister
(*VdbeOp)(unsafe.Pointer(pOp)).Fp2 = (*VdbeOp)(unsafe.Pointer(pOp)).Fp3
(*VdbeOp)(unsafe.Pointer(pOp)).Fp3 = 0
(*VdbeOp)(unsafe.Pointer(pOp)).Fp5 = U16(2)
} else if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_Rowid {
(*VdbeOp)(unsafe.Pointer(pOp)).Fopcode = U8(OP_Sequence)
(*VdbeOp)(unsafe.Pointer(pOp)).Fp1 = iAutoidxCur
}
}
goto __2
__2:
iStart++
pOp += 24
goto __1
goto __3
__3:
}
func constraintCompatibleWithOuterJoin(tls *libc.TLS, pTerm uintptr, pSrc uintptr) int32 {
if !((*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).Fflags&U32(EP_OuterON|EP_InnerON) != U32(0)) ||
*(*int32)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr + 52)) != (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor {
return 0
}
if int32((*SrcItem)(unsafe.Pointer(pSrc)).Ffg.Fjointype)&(JT_LEFT|JT_RIGHT) != 0 &&
(*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).Fflags&U32(EP_InnerON) != U32(0) {
return 0
}
return 1
}
func termCanDriveIndex(tls *libc.TLS, pTerm uintptr, pSrc uintptr, notReady Bitmask) int32 {
var aff int8
if (*WhereTerm)(unsafe.Pointer(pTerm)).FleftCursor != (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor {
return 0
}
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&(WO_EQ|WO_IS) == 0 {
return 0
}
if int32((*SrcItem)(unsafe.Pointer(pSrc)).Ffg.Fjointype)&(JT_LEFT|JT_LTORJ|JT_RIGHT) != 0 &&
!(constraintCompatibleWithOuterJoin(tls, pTerm, pSrc) != 0) {
return 0
}
if (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight&notReady != uint64(0) {
return 0
}
if *(*int32)(unsafe.Pointer(pTerm + 32)) < 0 {
return 0
}
aff = (*Column)(unsafe.Pointer((*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pSrc)).FpTab)).FaCol + uintptr(*(*int32)(unsafe.Pointer(pTerm + 32)))*24)).Faffinity
if !(Xsqlite3IndexAffinityOk(tls, (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr, aff) != 0) {
return 0
}
return 1
}
func constructAutomaticIndex(tls *libc.TLS, pParse uintptr, pWC uintptr, pSrc uintptr, notReady Bitmask, pLevel uintptr) {
bp := tls.Alloc(24)
defer tls.Free(24)
var nKeyCol int32
var pTerm uintptr
var pWCEnd uintptr
var pIdx uintptr
var v uintptr
var addrInit int32
var pTable uintptr
var addrTop int32
var regRecord int32
var n int32
var i int32
var mxBitCol int32
var pColl uintptr
var pLoop uintptr
var idxCols Bitmask
var extraCols Bitmask
var sentWarning U8
var pPartial uintptr
var iContinue int32
var pTabItem uintptr
var addrCounter int32
var regBase int32
var iCol int32
var cMask Bitmask
var pExpr uintptr
var pX uintptr
var iCol1 int32
var cMask1 Bitmask
var regYield int32
sentWarning = U8(0)
pPartial = uintptr(0)
iContinue = 0
addrCounter = 0
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
addrInit = Xsqlite3VdbeAddOp0(tls, v, OP_Once)
nKeyCol = 0
pTable = (*SrcItem)(unsafe.Pointer(pSrc)).FpTab
pWCEnd = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr((*WhereClause)(unsafe.Pointer(pWC)).FnTerm)*56
pLoop = (*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop
idxCols = uint64(0)
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa
__1:
if !(pTerm < pWCEnd) {
goto __3
}
pExpr = (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr
if !(int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_VIRTUAL == 0 &&
Xsqlite3ExprIsTableConstraint(tls, pExpr, pSrc) != 0) {
goto __4
}
pPartial = Xsqlite3ExprAnd(tls, pParse, pPartial,
Xsqlite3ExprDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pExpr, 0))
__4:
;
if !(termCanDriveIndex(tls, pTerm, pSrc, notReady) != 0) {
goto __5
}
iCol = *(*int32)(unsafe.Pointer(pTerm + 32))
if iCol >= int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8)) {
cMask = uint64(1) << (int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8)) - 1)
} else {
cMask = uint64(1) << iCol
}
if !!(sentWarning != 0) {
goto __6
}
Xsqlite3_log(tls, SQLITE_WARNING|int32(1)<<8,
ts+22356, libc.VaList(bp, (*Table)(unsafe.Pointer(pTable)).FzName,
(*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTable)).FaCol+uintptr(iCol)*24)).FzCnName))
sentWarning = U8(1)
__6:
;
if !(idxCols&cMask == uint64(0)) {
goto __7
}
if !(whereLoopResize(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pLoop, nKeyCol+1) != 0) {
goto __8
}
goto end_auto_index_create
__8:
;
*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(libc.PostIncInt32(&nKeyCol, 1))*8)) = pTerm
idxCols = idxCols | cMask
__7:
;
__5:
;
goto __2
__2:
pTerm += 56
goto __1
goto __3
__3:
;
*(*U16)(unsafe.Pointer(pLoop + 24)) = libc.AssignPtrUint16(pLoop+60, U16(nKeyCol))
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags = U32(WHERE_COLUMN_EQ | WHERE_IDX_ONLY | WHERE_INDEXED |
WHERE_AUTO_INDEX)
extraCols = (*SrcItem)(unsafe.Pointer(pSrc)).FcolUsed & (^idxCols | uint64(1)<<(int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8))-1))
mxBitCol = func() int32 {
if int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8))-1 < int32((*Table)(unsafe.Pointer(pTable)).FnCol) {
return int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8)) - 1
}
return int32((*Table)(unsafe.Pointer(pTable)).FnCol)
}()
i = 0
__9:
if !(i < mxBitCol) {
goto __11
}
if !(extraCols&(uint64(1)<<i) != 0) {
goto __12
}
nKeyCol++
__12:
;
goto __10
__10:
i++
goto __9
goto __11
__11:
;
if !((*SrcItem)(unsafe.Pointer(pSrc)).FcolUsed&(uint64(1)<<(int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8))-1)) != 0) {
goto __13
}
nKeyCol = nKeyCol + (int32((*Table)(unsafe.Pointer(pTable)).FnCol) - int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8)) + 1)
__13:
;
pIdx = Xsqlite3AllocateIndexObject(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, int16(nKeyCol+1), 0, bp+16)
if !(pIdx == uintptr(0)) {
goto __14
}
goto end_auto_index_create
__14:
;
*(*uintptr)(unsafe.Pointer(pLoop + 24 + 8)) = pIdx
(*Index)(unsafe.Pointer(pIdx)).FzName = ts + 22382
(*Index)(unsafe.Pointer(pIdx)).FpTable = pTable
n = 0
idxCols = uint64(0)
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa
__15:
if !(pTerm < pWCEnd) {
goto __17
}
if !(termCanDriveIndex(tls, pTerm, pSrc, notReady) != 0) {
goto __18
}
iCol1 = *(*int32)(unsafe.Pointer(pTerm + 32))
if iCol1 >= int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8)) {
cMask1 = uint64(1) << (int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8)) - 1)
} else {
cMask1 = uint64(1) << iCol1
}
if !(idxCols&cMask1 == uint64(0)) {
goto __19
}
pX = (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr
idxCols = idxCols | cMask1
*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(n)*2)) = I16(*(*int32)(unsafe.Pointer(pTerm + 32)))
pColl = Xsqlite3ExprCompareCollSeq(tls, pParse, pX)
*(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(n)*8)) = func() uintptr {
if pColl != 0 {
return (*CollSeq)(unsafe.Pointer(pColl)).FzName
}
return uintptr(unsafe.Pointer(&Xsqlite3StrBINARY))
}()
n++
__19:
;
__18:
;
goto __16
__16:
pTerm += 56
goto __15
goto __17
__17:
;
i = 0
__20:
if !(i < mxBitCol) {
goto __22
}
if !(extraCols&(uint64(1)<<i) != 0) {
goto __23
}
*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(n)*2)) = I16(i)
*(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(n)*8)) = uintptr(unsafe.Pointer(&Xsqlite3StrBINARY))
n++
__23:
;
goto __21
__21:
i++
goto __20
goto __22
__22:
;
if !((*SrcItem)(unsafe.Pointer(pSrc)).FcolUsed&(uint64(1)<<(int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8))-1)) != 0) {
goto __24
}
i = int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8)) - 1
__25:
if !(i < int32((*Table)(unsafe.Pointer(pTable)).FnCol)) {
goto __27
}
*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(n)*2)) = I16(i)
*(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(n)*8)) = uintptr(unsafe.Pointer(&Xsqlite3StrBINARY))
n++
goto __26
__26:
i++
goto __25
goto __27
__27:
;
__24:
;
*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(n)*2)) = int16(-1)
*(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(n)*8)) = uintptr(unsafe.Pointer(&Xsqlite3StrBINARY))
(*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_OpenAutoindex, (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur, nKeyCol+1)
Xsqlite3VdbeSetP4KeyInfo(tls, pParse, pIdx)
if !((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FdbOptFlags&U32(SQLITE_BloomFilter) == U32(0)) {
goto __28
}
(*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Blob, 10000, (*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter)
__28:
;
pTabItem = (*WhereInfo)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).FpWInfo)).FpTabList + 8 + uintptr((*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom)*104
if !(uint32(int32(*(*uint16)(unsafe.Pointer(pTabItem + 60 + 4))&0x20>>5)) != 0) {
goto __29
}
regYield = (*SrcItem)(unsafe.Pointer(pTabItem)).FregReturn
addrCounter = Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, 0)
Xsqlite3VdbeAddOp3(tls, v, OP_InitCoroutine, regYield, 0, (*SrcItem)(unsafe.Pointer(pTabItem)).FaddrFillSub)
addrTop = Xsqlite3VdbeAddOp1(tls, v, OP_Yield, regYield)
goto __30
__29:
addrTop = Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, (*WhereLevel)(unsafe.Pointer(pLevel)).FiTabCur)
__30:
;
if !(pPartial != 0) {
goto __31
}
iContinue = Xsqlite3VdbeMakeLabel(tls, pParse)
Xsqlite3ExprIfFalse(tls, pParse, pPartial, iContinue, SQLITE_JUMPIFNULL)
*(*U32)(unsafe.Pointer(pLoop + 56)) |= U32(WHERE_PARTIALIDX)
__31:
;
regRecord = Xsqlite3GetTempReg(tls, pParse)
regBase = Xsqlite3GenerateIndexKey(tls,
pParse, pIdx, (*WhereLevel)(unsafe.Pointer(pLevel)).FiTabCur, regRecord, 0, uintptr(0), uintptr(0), 0)
if !((*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter != 0) {
goto __32
}
Xsqlite3VdbeAddOp4Int(tls, v, OP_FilterAdd, (*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter, 0,
regBase, int32(*(*U16)(unsafe.Pointer(pLoop + 24))))
__32:
;
Xsqlite3VdbeAddOp2(tls, v, OP_IdxInsert, (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur, regRecord)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_USESEEKRESULT))
if !(pPartial != 0) {
goto __33
}
Xsqlite3VdbeResolveLabel(tls, v, iContinue)
__33:
;
if !(uint32(int32(*(*uint16)(unsafe.Pointer(pTabItem + 60 + 4))&0x20>>5)) != 0) {
goto __34
}
Xsqlite3VdbeChangeP2(tls, v, addrCounter, regBase+n)
translateColumnToCopy(tls, pParse, addrTop, (*WhereLevel)(unsafe.Pointer(pLevel)).FiTabCur,
(*SrcItem)(unsafe.Pointer(pTabItem)).FregResult, (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur)
Xsqlite3VdbeGoto(tls, v, addrTop)
libc.SetBitFieldPtr16Uint32(pTabItem+60+4, uint32(0), 5, 0x20)
goto __35
__34:
Xsqlite3VdbeAddOp2(tls, v, OP_Next, (*WhereLevel)(unsafe.Pointer(pLevel)).FiTabCur, addrTop+1)
Xsqlite3VdbeChangeP5(tls, v, uint16(SQLITE_STMTSTATUS_AUTOINDEX))
__35:
;
Xsqlite3VdbeJumpHere(tls, v, addrTop)
Xsqlite3ReleaseTempReg(tls, pParse, regRecord)
Xsqlite3VdbeJumpHere(tls, v, addrInit)
end_auto_index_create:
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pPartial)
}
func sqlite3ConstructBloomFilter(tls *libc.TLS, pWInfo uintptr, iLevel int32, pLevel uintptr, notReady Bitmask) {
var addrOnce int32
var addrTop int32
var addrCont int32
var pTerm uintptr
var pWCEnd uintptr
var pParse uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var pLoop uintptr = (*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop
var iCur int32
addrOnce = Xsqlite3VdbeAddOp0(tls, v, OP_Once)
for __ccgo := true; __ccgo; __ccgo = iLevel < int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel) {
var pItem uintptr
var pTab uintptr
var sz U64
Xsqlite3WhereExplainBloomFilter(tls, pParse, pWInfo, pLevel)
addrCont = Xsqlite3VdbeMakeLabel(tls, pParse)
iCur = (*WhereLevel)(unsafe.Pointer(pLevel)).FiTabCur
(*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
pItem = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList + 8 + uintptr((*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom)*104
pTab = (*SrcItem)(unsafe.Pointer(pItem)).FpTab
sz = Xsqlite3LogEstToInt(tls, (*Table)(unsafe.Pointer(pTab)).FnRowLogEst)
if sz < uint64(10000) {
sz = uint64(10000)
} else if sz > uint64(10000000) {
sz = uint64(10000000)
}
Xsqlite3VdbeAddOp2(tls, v, OP_Blob, int32(sz), (*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter)
addrTop = Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, iCur)
pWCEnd = (*WhereInfo)(unsafe.Pointer(pWInfo)).FsWC.Fa + uintptr((*WhereInfo)(unsafe.Pointer(pWInfo)).FsWC.FnTerm)*56
for pTerm = (*WhereInfo)(unsafe.Pointer(pWInfo)).FsWC.Fa; pTerm < pWCEnd; pTerm += 56 {
var pExpr uintptr = (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_VIRTUAL == 0 &&
Xsqlite3ExprIsTableConstraint(tls, pExpr, pItem) != 0 {
Xsqlite3ExprIfFalse(tls, pParse, (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr, addrCont, SQLITE_JUMPIFNULL)
}
}
if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IPK) != 0 {
var r1 int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, iCur, r1)
Xsqlite3VdbeAddOp4Int(tls, v, OP_FilterAdd, (*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter, 0, r1, 1)
Xsqlite3ReleaseTempReg(tls, pParse, r1)
} else {
var pIdx uintptr = *(*uintptr)(unsafe.Pointer(pLoop + 24 + 8))
var n int32 = int32(*(*U16)(unsafe.Pointer(pLoop + 24)))
var r1 int32 = Xsqlite3GetTempRange(tls, pParse, n)
var jj int32
for jj = 0; jj < n; jj++ {
var iCol int32 = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(jj)*2)))
Xsqlite3ExprCodeGetColumnOfTable(tls, v, (*Index)(unsafe.Pointer(pIdx)).FpTable, iCur, iCol, r1+jj)
}
Xsqlite3VdbeAddOp4Int(tls, v, OP_FilterAdd, (*WhereLevel)(unsafe.Pointer(pLevel)).FregFilter, 0, r1, n)
Xsqlite3ReleaseTempRange(tls, pParse, r1, n)
}
Xsqlite3VdbeResolveLabel(tls, v, addrCont)
Xsqlite3VdbeAddOp2(tls, v, OP_Next, (*WhereLevel)(unsafe.Pointer(pLevel)).FiTabCur, addrTop+1)
Xsqlite3VdbeJumpHere(tls, v, addrTop)
*(*U32)(unsafe.Pointer(pLoop + 56)) &= libc.Uint32FromInt32(libc.CplInt32(WHERE_BLOOMFILTER))
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FdbOptFlags&U32(SQLITE_BloomPulldown) != U32(0) {
break
}
for libc.PreIncInt32(&iLevel, 1) < int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel) {
var pTabItem uintptr
pLevel = pWInfo + 856 + uintptr(iLevel)*104
pTabItem = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList + 8 + uintptr((*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom)*104
if int32((*SrcItem)(unsafe.Pointer(pTabItem)).Ffg.Fjointype)&(JT_LEFT|JT_LTORJ) != 0 {
continue
}
pLoop = (*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop
if pLoop == uintptr(0) {
continue
}
if (*WhereLoop)(unsafe.Pointer(pLoop)).Fprereq&notReady != 0 {
continue
}
if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_BLOOMFILTER|WHERE_COLUMN_IN) ==
U32(WHERE_BLOOMFILTER) {
break
}
}
}
Xsqlite3VdbeJumpHere(tls, v, addrOnce)
}
func allocateIndexInfo(tls *libc.TLS, pWInfo uintptr, pWC uintptr, mUnusable Bitmask, pSrc uintptr, pmNoOmit uintptr) uintptr {
var i int32
var j int32
var nTerm int32
var pParse uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse
var pIdxCons uintptr
var pIdxOrderBy uintptr
var pUsage uintptr
var pHidden uintptr
var pTerm uintptr
var nOrderBy int32
var pIdxInfo uintptr
var mNoOmit U16 = U16(0)
var pTab uintptr
var eDistinct int32 = 0
var pOrderBy uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy
pTab = (*SrcItem)(unsafe.Pointer(pSrc)).FpTab
i = libc.AssignInt32(&nTerm, 0)
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa
__1:
if !(i < (*WhereClause)(unsafe.Pointer(pWC)).FnTerm) {
goto __3
}
{
*(*U16)(unsafe.Pointer(pTerm + 18)) &= libc.Uint16FromInt32(libc.CplInt32(TERM_OK))
if (*WhereTerm)(unsafe.Pointer(pTerm)).FleftCursor != (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor {
goto __2
}
if (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight&mUnusable != 0 {
goto __2
}
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&libc.CplInt32(WO_EQUIV) == 0 {
goto __2
}
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_VNULL != 0 {
goto __2
}
if int32((*SrcItem)(unsafe.Pointer(pSrc)).Ffg.Fjointype)&(JT_LEFT|JT_LTORJ|JT_RIGHT) != 0 &&
!(constraintCompatibleWithOuterJoin(tls, pTerm, pSrc) != 0) {
goto __2
}
nTerm++
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_OK)
}
goto __2
__2:
i++
pTerm += 56
goto __1
goto __3
__3:
;
nOrderBy = 0
if pOrderBy != 0 {
var n int32 = (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr
for i = 0; i < n; i++ {
var pExpr uintptr = (*ExprList_item)(unsafe.Pointer(pOrderBy + 8 + uintptr(i)*32)).FpExpr
var pE2 uintptr
if Xsqlite3ExprIsConstant(tls, pExpr) != 0 {
continue
}
if int32((*ExprList_item)(unsafe.Pointer(pOrderBy+8+uintptr(i)*32)).Ffg.FsortFlags)&KEYINFO_ORDER_BIGNULL != 0 {
break
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLUMN && (*Expr)(unsafe.Pointer(pExpr)).FiTable == (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor {
continue
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLLATE &&
int32((*Expr)(unsafe.Pointer(libc.AssignUintptr(&pE2, (*Expr)(unsafe.Pointer(pExpr)).FpLeft))).Fop) == TK_COLUMN &&
(*Expr)(unsafe.Pointer(pE2)).FiTable == (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor {
var zColl uintptr
(*Expr)(unsafe.Pointer(pExpr)).FiColumn = (*Expr)(unsafe.Pointer(pE2)).FiColumn
if int32((*Expr)(unsafe.Pointer(pE2)).FiColumn) < 0 {
continue
}
zColl = Xsqlite3ColumnColl(tls, (*Table)(unsafe.Pointer(pTab)).FaCol+uintptr((*Expr)(unsafe.Pointer(pE2)).FiColumn)*24)
if zColl == uintptr(0) {
zColl = uintptr(unsafe.Pointer(&Xsqlite3StrBINARY))
}
if Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer(pExpr + 8)), zColl) == 0 {
continue
}
}
break
}
if i == n {
nOrderBy = n
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_DISTINCTBY != 0 {
eDistinct = 2 + libc.Bool32(int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_SORTBYGROUP != 0)
} else if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_GROUPBY != 0 {
eDistinct = 1
}
}
}
pIdxInfo = Xsqlite3DbMallocZero(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(Sqlite3_index_info{}))+
(uint64(unsafe.Sizeof(sqlite3_index_constraint{}))+uint64(unsafe.Sizeof(sqlite3_index_constraint_usage{})))*uint64(nTerm)+
uint64(unsafe.Sizeof(sqlite3_index_orderby{}))*uint64(nOrderBy)+uint64(unsafe.Sizeof(HiddenIndexInfo1{}))+
uint64(unsafe.Sizeof(uintptr(0)))*uint64(nTerm))
if pIdxInfo == uintptr(0) {
Xsqlite3ErrorMsg(tls, pParse, ts+1483, 0)
return uintptr(0)
}
pHidden = pIdxInfo + 1*96
pIdxCons = pHidden + 32 + uintptr(nTerm)*8
pIdxOrderBy = pIdxCons + uintptr(nTerm)*12
pUsage = pIdxOrderBy + uintptr(nOrderBy)*8
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraint = pIdxCons
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaOrderBy = pIdxOrderBy
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage = pUsage
(*HiddenIndexInfo1)(unsafe.Pointer(pHidden)).FpWC = pWC
(*HiddenIndexInfo1)(unsafe.Pointer(pHidden)).FpParse = pParse
(*HiddenIndexInfo1)(unsafe.Pointer(pHidden)).FeDistinct = eDistinct
(*HiddenIndexInfo1)(unsafe.Pointer(pHidden)).FmIn = U32(0)
i = libc.AssignInt32(&j, 0)
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa
__4:
if !(i < (*WhereClause)(unsafe.Pointer(pWC)).FnTerm) {
goto __6
}
{
var op U16
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_OK == 0 {
goto __5
}
(*sqlite3_index_constraint)(unsafe.Pointer(pIdxCons + uintptr(j)*12)).FiColumn = *(*int32)(unsafe.Pointer(pTerm + 32))
(*sqlite3_index_constraint)(unsafe.Pointer(pIdxCons + uintptr(j)*12)).FiTermOffset = i
op = U16(int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator) & WO_ALL)
if int32(op) == WO_IN {
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_SLICE == 0 {
*(*U32)(unsafe.Pointer(pHidden + 20)) |= func() uint32 {
if j <= 31 {
return uint32(1) << j
}
return uint32(0)
}()
}
op = U16(WO_EQ)
}
if int32(op) == WO_AUX {
(*sqlite3_index_constraint)(unsafe.Pointer(pIdxCons + uintptr(j)*12)).Fop = (*WhereTerm)(unsafe.Pointer(pTerm)).FeMatchOp
} else if int32(op)&(WO_ISNULL|WO_IS) != 0 {
if int32(op) == WO_ISNULL {
(*sqlite3_index_constraint)(unsafe.Pointer(pIdxCons + uintptr(j)*12)).Fop = uint8(SQLITE_INDEX_CONSTRAINT_ISNULL)
} else {
(*sqlite3_index_constraint)(unsafe.Pointer(pIdxCons + uintptr(j)*12)).Fop = uint8(SQLITE_INDEX_CONSTRAINT_IS)
}
} else {
(*sqlite3_index_constraint)(unsafe.Pointer(pIdxCons + uintptr(j)*12)).Fop = U8(op)
if int32(op)&(int32(WO_EQ)<<(TK_LT-TK_EQ)|int32(WO_EQ)<<(TK_LE-TK_EQ)|int32(WO_EQ)<<(TK_GT-TK_EQ)|int32(WO_EQ)<<(TK_GE-TK_EQ)) != 0 &&
Xsqlite3ExprIsVector(tls, (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).FpRight) != 0 {
if j < 16 {
mNoOmit = U16(int32(mNoOmit) | int32(1)<<j)
}
if int32(op) == int32(WO_EQ)<<(TK_LT-TK_EQ) {
(*sqlite3_index_constraint)(unsafe.Pointer(pIdxCons + uintptr(j)*12)).Fop = uint8(int32(WO_EQ) << (TK_LE - TK_EQ))
}
if int32(op) == int32(WO_EQ)<<(TK_GT-TK_EQ) {
(*sqlite3_index_constraint)(unsafe.Pointer(pIdxCons + uintptr(j)*12)).Fop = uint8(int32(WO_EQ) << (TK_GE - TK_EQ))
}
}
}
j++
}
goto __5
__5:
i++
pTerm += 56
goto __4
goto __6
__6:
;
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FnConstraint = j
for i = libc.AssignInt32(&j, 0); i < nOrderBy; i++ {
var pExpr uintptr = (*ExprList_item)(unsafe.Pointer(pOrderBy + 8 + uintptr(i)*32)).FpExpr
if Xsqlite3ExprIsConstant(tls, pExpr) != 0 {
continue
}
(*sqlite3_index_orderby)(unsafe.Pointer(pIdxOrderBy + uintptr(j)*8)).FiColumn = int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn)
(*sqlite3_index_orderby)(unsafe.Pointer(pIdxOrderBy + uintptr(j)*8)).Fdesc = uint8(int32((*ExprList_item)(unsafe.Pointer(pOrderBy+8+uintptr(i)*32)).Ffg.FsortFlags) & KEYINFO_ORDER_DESC)
j++
}
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FnOrderBy = j
*(*U16)(unsafe.Pointer(pmNoOmit)) = mNoOmit
return pIdxInfo
}
func freeIndexInfo(tls *libc.TLS, db uintptr, pIdxInfo uintptr) {
var pHidden uintptr
var i int32
pHidden = pIdxInfo + 1*96
for i = 0; i < (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FnConstraint; i++ {
Xsqlite3ValueFree(tls, *(*uintptr)(unsafe.Pointer(pHidden + 32 + uintptr(i)*8)))
*(*uintptr)(unsafe.Pointer(pHidden + 32 + uintptr(i)*8)) = uintptr(0)
}
Xsqlite3DbFree(tls, db, pIdxInfo)
}
func vtabBestIndex(tls *libc.TLS, pParse uintptr, pTab uintptr, p uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var pVtab uintptr = (*VTable)(unsafe.Pointer(Xsqlite3GetVTable(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pTab))).FpVtab
var rc int32
(*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FnSchemaLock++
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_module)(unsafe.Pointer((*Sqlite3_vtab)(unsafe.Pointer(pVtab)).FpModule)).FxBestIndex})).f(tls, pVtab, p)
(*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FnSchemaLock--
if rc != SQLITE_OK && rc != SQLITE_CONSTRAINT {
if rc == SQLITE_NOMEM {
Xsqlite3OomFault(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb)
} else if !(int32((*Sqlite3_vtab)(unsafe.Pointer(pVtab)).FzErrMsg) != 0) {
Xsqlite3ErrorMsg(tls, pParse, ts+3658, libc.VaList(bp, Xsqlite3ErrStr(tls, rc)))
} else {
Xsqlite3ErrorMsg(tls, pParse, ts+3658, libc.VaList(bp+8, (*Sqlite3_vtab)(unsafe.Pointer(pVtab)).FzErrMsg))
}
}
Xsqlite3_free(tls, (*Sqlite3_vtab)(unsafe.Pointer(pVtab)).FzErrMsg)
(*Sqlite3_vtab)(unsafe.Pointer(pVtab)).FzErrMsg = uintptr(0)
return rc
}
func whereKeyStats(tls *libc.TLS, pParse uintptr, pIdx uintptr, pRec uintptr, roundUp int32, aStat uintptr) int32 {
var aSample uintptr = (*Index)(unsafe.Pointer(pIdx)).FaSample
var iCol int32
var i int32
var iSample int32
var iMin int32 = 0
var iTest int32
var res int32
var nField int32
var iLower TRowcnt = uint64(0)
_ = pParse
nField = func() int32 {
if int32((*UnpackedRecord)(unsafe.Pointer(pRec)).FnField) < (*Index)(unsafe.Pointer(pIdx)).FnSample {
return int32((*UnpackedRecord)(unsafe.Pointer(pRec)).FnField)
}
return (*Index)(unsafe.Pointer(pIdx)).FnSample
}()
iCol = 0
iSample = (*Index)(unsafe.Pointer(pIdx)).FnSample * nField
for __ccgo := true; __ccgo; __ccgo = res != 0 && iMin < iSample {
var iSamp int32
var n int32
iTest = (iMin + iSample) / 2
iSamp = iTest / nField
if iSamp > 0 {
for n = iTest%nField + 1; n < nField; n++ {
if *(*TRowcnt)(unsafe.Pointer((*IndexSample)(unsafe.Pointer(aSample+uintptr(iSamp-1)*40)).FanLt + uintptr(n-1)*8)) != *(*TRowcnt)(unsafe.Pointer((*IndexSample)(unsafe.Pointer(aSample+uintptr(iSamp)*40)).FanLt + uintptr(n-1)*8)) {
break
}
}
} else {
n = iTest + 1
}
(*UnpackedRecord)(unsafe.Pointer(pRec)).FnField = U16(n)
res = Xsqlite3VdbeRecordCompare(tls, (*IndexSample)(unsafe.Pointer(aSample+uintptr(iSamp)*40)).Fn, (*IndexSample)(unsafe.Pointer(aSample+uintptr(iSamp)*40)).Fp, pRec)
if res < 0 {
iLower = *(*TRowcnt)(unsafe.Pointer((*IndexSample)(unsafe.Pointer(aSample+uintptr(iSamp)*40)).FanLt + uintptr(n-1)*8)) + *(*TRowcnt)(unsafe.Pointer((*IndexSample)(unsafe.Pointer(aSample+uintptr(iSamp)*40)).FanEq + uintptr(n-1)*8))
iMin = iTest + 1
} else if res == 0 && n < nField {
iLower = *(*TRowcnt)(unsafe.Pointer((*IndexSample)(unsafe.Pointer(aSample+uintptr(iSamp)*40)).FanLt + uintptr(n-1)*8))
iMin = iTest + 1
res = -1
} else {
iSample = iTest
iCol = n - 1
}
}
i = iSample / nField
if res == 0 {
*(*TRowcnt)(unsafe.Pointer(aStat)) = *(*TRowcnt)(unsafe.Pointer((*IndexSample)(unsafe.Pointer(aSample+uintptr(i)*40)).FanLt + uintptr(iCol)*8))
*(*TRowcnt)(unsafe.Pointer(aStat + 1*8)) = *(*TRowcnt)(unsafe.Pointer((*IndexSample)(unsafe.Pointer(aSample+uintptr(i)*40)).FanEq + uintptr(iCol)*8))
} else {
var iUpper TRowcnt
var iGap TRowcnt
if i >= (*Index)(unsafe.Pointer(pIdx)).FnSample {
iUpper = (*Index)(unsafe.Pointer(pIdx)).FnRowEst0
} else {
iUpper = *(*TRowcnt)(unsafe.Pointer((*IndexSample)(unsafe.Pointer(aSample+uintptr(i)*40)).FanLt + uintptr(iCol)*8))
}
if iLower >= iUpper {
iGap = uint64(0)
} else {
iGap = iUpper - iLower
}
if roundUp != 0 {
iGap = iGap * uint64(2) / uint64(3)
} else {
iGap = iGap / uint64(3)
}
*(*TRowcnt)(unsafe.Pointer(aStat)) = iLower + iGap
*(*TRowcnt)(unsafe.Pointer(aStat + 1*8)) = *(*TRowcnt)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaAvgEq + uintptr(nField-1)*8))
}
(*UnpackedRecord)(unsafe.Pointer(pRec)).FnField = U16(nField)
return i
}
func whereRangeAdjust(tls *libc.TLS, pTerm uintptr, nNew LogEst) LogEst {
var nRet LogEst = nNew
if pTerm != 0 {
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FtruthProb) <= 0 {
nRet = LogEst(int32(nRet) + int32((*WhereTerm)(unsafe.Pointer(pTerm)).FtruthProb))
} else if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_VNULL == 0 {
nRet = int16(int32(nRet) - 20)
}
}
return nRet
}
// Return the affinity for a single column of an index.
func Xsqlite3IndexColumnAffinity(tls *libc.TLS, db uintptr, pIdx uintptr, iCol int32) int8 {
if !(int32((*Index)(unsafe.Pointer(pIdx)).FzColAff) != 0) {
if Xsqlite3IndexAffinityStr(tls, db, pIdx) == uintptr(0) {
return int8(SQLITE_AFF_BLOB)
}
}
return *(*int8)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FzColAff + uintptr(iCol)))
}
func whereRangeSkipScanEst(tls *libc.TLS, pParse uintptr, pLower uintptr, pUpper uintptr, pLoop uintptr, pbDone uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var p uintptr = *(*uintptr)(unsafe.Pointer(pLoop + 24 + 8))
var nEq int32 = int32(*(*U16)(unsafe.Pointer(pLoop + 24)))
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var nLower int32 = -1
var nUpper int32 = (*Index)(unsafe.Pointer(p)).FnSample + 1
var rc int32 = SQLITE_OK
var aff U8 = U8(Xsqlite3IndexColumnAffinity(tls, db, p, nEq))
var pColl uintptr
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
pColl = Xsqlite3LocateCollSeq(tls, pParse, *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(p)).FazColl + uintptr(nEq)*8)))
if pLower != 0 {
rc = Xsqlite3Stat4ValueFromExpr(tls, pParse, (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pLower)).FpExpr)).FpRight, aff, bp)
nLower = 0
}
if pUpper != 0 && rc == SQLITE_OK {
rc = Xsqlite3Stat4ValueFromExpr(tls, pParse, (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pUpper)).FpExpr)).FpRight, aff, bp+8)
if *(*uintptr)(unsafe.Pointer(bp + 8)) != 0 {
nUpper = 0
} else {
nUpper = (*Index)(unsafe.Pointer(p)).FnSample
}
}
if *(*uintptr)(unsafe.Pointer(bp)) != 0 || *(*uintptr)(unsafe.Pointer(bp + 8)) != 0 {
var i int32
var nDiff int32
for i = 0; rc == SQLITE_OK && i < (*Index)(unsafe.Pointer(p)).FnSample; i++ {
rc = Xsqlite3Stat4Column(tls, db, (*IndexSample)(unsafe.Pointer((*Index)(unsafe.Pointer(p)).FaSample+uintptr(i)*40)).Fp, (*IndexSample)(unsafe.Pointer((*Index)(unsafe.Pointer(p)).FaSample+uintptr(i)*40)).Fn, nEq, bp+16)
if rc == SQLITE_OK && *(*uintptr)(unsafe.Pointer(bp)) != 0 {
var res int32 = Xsqlite3MemCompare(tls, *(*uintptr)(unsafe.Pointer(bp)), *(*uintptr)(unsafe.Pointer(bp + 16)), pColl)
if res >= 0 {
nLower++
}
}
if rc == SQLITE_OK && *(*uintptr)(unsafe.Pointer(bp + 8)) != 0 {
var res int32 = Xsqlite3MemCompare(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), *(*uintptr)(unsafe.Pointer(bp + 16)), pColl)
if res >= 0 {
nUpper++
}
}
}
nDiff = nUpper - nLower
if nDiff <= 0 {
nDiff = 1
}
if nDiff != 1 || pUpper == uintptr(0) || pLower == uintptr(0) {
var nAdjust int32 = int32(Xsqlite3LogEst(tls, uint64((*Index)(unsafe.Pointer(p)).FnSample))) - int32(Xsqlite3LogEst(tls, uint64(nDiff)))
*(*LogEst)(unsafe.Pointer(pLoop + 22)) -= LogEst(nAdjust)
*(*int32)(unsafe.Pointer(pbDone)) = 1
}
} else {
}
Xsqlite3ValueFree(tls, *(*uintptr)(unsafe.Pointer(bp)))
Xsqlite3ValueFree(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
Xsqlite3ValueFree(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
return rc
}
func whereRangeScanEst(tls *libc.TLS, pParse uintptr, pBuilder uintptr, pLower uintptr, pUpper uintptr, pLoop uintptr) int32 {
bp := tls.Alloc(36)
defer tls.Free(36)
var rc int32 = SQLITE_OK
var nOut int32 = int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnOut)
var nNew LogEst
var p uintptr = *(*uintptr)(unsafe.Pointer(pLoop + 24 + 8))
var nEq int32 = int32(*(*U16)(unsafe.Pointer(pLoop + 24)))
if (*Index)(unsafe.Pointer(p)).FnSample > 0 && nEq < (*Index)(unsafe.Pointer(p)).FnSampleCol &&
(*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FdbOptFlags&U32(SQLITE_Stat4) == U32(0) {
if nEq == (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FnRecValid {
*(*uintptr)(unsafe.Pointer(bp + 16)) = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpRec
var nBtm int32 = int32(*(*U16)(unsafe.Pointer(pLoop + 24 + 2)))
var nTop int32 = int32(*(*U16)(unsafe.Pointer(pLoop + 24 + 4)))
var iLower TRowcnt
var iUpper TRowcnt
var iLwrIdx int32 = -2
var iUprIdx int32 = -1
if *(*uintptr)(unsafe.Pointer(bp + 16)) != 0 {
(*UnpackedRecord)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FnField = U16((*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FnRecValid)
}
if nEq == 0 {
iLower = uint64(0)
iUpper = (*Index)(unsafe.Pointer(p)).FnRowEst0
} else {
whereKeyStats(tls, pParse, p, *(*uintptr)(unsafe.Pointer(bp + 16)), 0, bp)
iLower = *(*TRowcnt)(unsafe.Pointer(bp))
iUpper = *(*TRowcnt)(unsafe.Pointer(bp)) + *(*TRowcnt)(unsafe.Pointer(bp + 1*8))
}
if *(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(p)).FaSortOrder + uintptr(nEq))) != 0 {
{
var t uintptr = pLower
pLower = pUpper
pUpper = t
}
{
var t int32 = nBtm
nBtm = nTop
nTop = t
}
}
if pLower != 0 {
var pExpr uintptr = (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pLower)).FpExpr)).FpRight
rc = Xsqlite3Stat4ProbeSetValue(tls, pParse, p, bp+16, pExpr, nBtm, nEq, bp+24)
if rc == SQLITE_OK && *(*int32)(unsafe.Pointer(bp + 24)) != 0 {
var iNew TRowcnt
var mask U16 = U16(int32(WO_EQ)<<(TK_GT-TK_EQ) | int32(WO_EQ)<<(TK_LE-TK_EQ))
if Xsqlite3ExprVectorSize(tls, pExpr) > *(*int32)(unsafe.Pointer(bp + 24)) {
mask = U16(int32(WO_EQ)<<(TK_LE-TK_EQ) | int32(WO_EQ)<<(TK_LT-TK_EQ))
}
iLwrIdx = whereKeyStats(tls, pParse, p, *(*uintptr)(unsafe.Pointer(bp + 16)), 0, bp)
iNew = *(*TRowcnt)(unsafe.Pointer(bp)) + func() uint64 {
if int32((*WhereTerm)(unsafe.Pointer(pLower)).FeOperator)&int32(mask) != 0 {
return *(*TRowcnt)(unsafe.Pointer(bp + 1*8))
}
return uint64(0)
}()
if iNew > iLower {
iLower = iNew
}
nOut--
pLower = uintptr(0)
}
}
if pUpper != 0 {
var pExpr uintptr = (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pUpper)).FpExpr)).FpRight
rc = Xsqlite3Stat4ProbeSetValue(tls, pParse, p, bp+16, pExpr, nTop, nEq, bp+28)
if rc == SQLITE_OK && *(*int32)(unsafe.Pointer(bp + 28)) != 0 {
var iNew TRowcnt
var mask U16 = U16(int32(WO_EQ)<<(TK_GT-TK_EQ) | int32(WO_EQ)<<(TK_LE-TK_EQ))
if Xsqlite3ExprVectorSize(tls, pExpr) > *(*int32)(unsafe.Pointer(bp + 28)) {
mask = U16(int32(WO_EQ)<<(TK_LE-TK_EQ) | int32(WO_EQ)<<(TK_LT-TK_EQ))
}
iUprIdx = whereKeyStats(tls, pParse, p, *(*uintptr)(unsafe.Pointer(bp + 16)), 1, bp)
iNew = *(*TRowcnt)(unsafe.Pointer(bp)) + func() uint64 {
if int32((*WhereTerm)(unsafe.Pointer(pUpper)).FeOperator)&int32(mask) != 0 {
return *(*TRowcnt)(unsafe.Pointer(bp + 1*8))
}
return uint64(0)
}()
if iNew < iUpper {
iUpper = iNew
}
nOut--
pUpper = uintptr(0)
}
}
(*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpRec = *(*uintptr)(unsafe.Pointer(bp + 16))
if rc == SQLITE_OK {
if iUpper > iLower {
nNew = Xsqlite3LogEst(tls, iUpper-iLower)
if iLwrIdx == iUprIdx {
nNew = int16(int32(nNew) - 20)
}
} else {
nNew = int16(10)
}
if int32(nNew) < nOut {
nOut = int32(nNew)
}
}
} else {
*(*int32)(unsafe.Pointer(bp + 32)) = 0
rc = whereRangeSkipScanEst(tls, pParse, pLower, pUpper, pLoop, bp+32)
if *(*int32)(unsafe.Pointer(bp + 32)) != 0 {
return rc
}
}
}
nNew = whereRangeAdjust(tls, pLower, int16(nOut))
nNew = whereRangeAdjust(tls, pUpper, nNew)
if pLower != 0 && int32((*WhereTerm)(unsafe.Pointer(pLower)).FtruthProb) > 0 && pUpper != 0 && int32((*WhereTerm)(unsafe.Pointer(pUpper)).FtruthProb) > 0 {
nNew = int16(int32(nNew) - 20)
}
nOut = nOut - (libc.Bool32(pLower != uintptr(0)) + libc.Bool32(pUpper != uintptr(0)))
if int32(nNew) < 10 {
nNew = int16(10)
}
if int32(nNew) < nOut {
nOut = int32(nNew)
}
(*WhereLoop)(unsafe.Pointer(pLoop)).FnOut = LogEst(nOut)
return rc
}
func whereEqualScanEst(tls *libc.TLS, pParse uintptr, pBuilder uintptr, pExpr uintptr, pnRow uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var p uintptr = *(*uintptr)(unsafe.Pointer((*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpNew + 24 + 8))
var nEq int32 = int32(*(*U16)(unsafe.Pointer((*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpNew + 24)))
*(*uintptr)(unsafe.Pointer(bp)) = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpRec
var rc int32
if (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FnRecValid < nEq-1 {
return SQLITE_NOTFOUND
}
if nEq >= int32((*Index)(unsafe.Pointer(p)).FnColumn) {
*(*TRowcnt)(unsafe.Pointer(pnRow)) = uint64(1)
return SQLITE_OK
}
rc = Xsqlite3Stat4ProbeSetValue(tls, pParse, p, bp, pExpr, 1, nEq-1, bp+8)
(*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpRec = *(*uintptr)(unsafe.Pointer(bp))
if rc != SQLITE_OK {
return rc
}
if *(*int32)(unsafe.Pointer(bp + 8)) == 0 {
return SQLITE_NOTFOUND
}
(*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FnRecValid = nEq
whereKeyStats(tls, pParse, p, *(*uintptr)(unsafe.Pointer(bp)), 0, bp+16)
*(*TRowcnt)(unsafe.Pointer(pnRow)) = *(*TRowcnt)(unsafe.Pointer(bp + 16 + 1*8))
return rc
}
func whereInScanEst(tls *libc.TLS, pParse uintptr, pBuilder uintptr, pList uintptr, pnRow uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var p uintptr = *(*uintptr)(unsafe.Pointer((*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpNew + 24 + 8))
var nRow0 I64 = I64(Xsqlite3LogEstToInt(tls, *(*LogEst)(unsafe.Pointer((*Index)(unsafe.Pointer(p)).FaiRowLogEst))))
var nRecValid int32 = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FnRecValid
var rc int32 = SQLITE_OK
var nRowEst TRowcnt = uint64(0)
var i int32
for i = 0; rc == SQLITE_OK && i < (*ExprList)(unsafe.Pointer(pList)).FnExpr; i++ {
*(*TRowcnt)(unsafe.Pointer(bp)) = TRowcnt(nRow0)
rc = whereEqualScanEst(tls, pParse, pBuilder, (*ExprList_item)(unsafe.Pointer(pList+8+uintptr(i)*32)).FpExpr, bp)
nRowEst = nRowEst + *(*TRowcnt)(unsafe.Pointer(bp))
(*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FnRecValid = nRecValid
}
if rc == SQLITE_OK {
if nRowEst > TRowcnt(nRow0) {
nRowEst = TRowcnt(nRow0)
}
*(*TRowcnt)(unsafe.Pointer(pnRow)) = nRowEst
}
return rc
}
func whereLoopInit(tls *libc.TLS, p uintptr) {
(*WhereLoop)(unsafe.Pointer(p)).FaLTerm = p + 88
(*WhereLoop)(unsafe.Pointer(p)).FnLTerm = U16(0)
(*WhereLoop)(unsafe.Pointer(p)).FnLSlot = U16(int32(uint64(unsafe.Sizeof([3]uintptr{})) / uint64(unsafe.Sizeof(uintptr(0)))))
(*WhereLoop)(unsafe.Pointer(p)).FwsFlags = U32(0)
}
func whereLoopClearUnion(tls *libc.TLS, db uintptr, p uintptr) {
if (*WhereLoop)(unsafe.Pointer(p)).FwsFlags&U32(WHERE_VIRTUALTABLE|WHERE_AUTO_INDEX) != 0 {
if (*WhereLoop)(unsafe.Pointer(p)).FwsFlags&U32(WHERE_VIRTUALTABLE) != U32(0) && U32(int32(*(*uint8)(unsafe.Pointer(p + 24 + 4))&0x1>>0)) != 0 {
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(p + 24 + 16)))
libc.SetBitFieldPtr8Uint32(p+24+4, U32(0), 0, 0x1)
*(*uintptr)(unsafe.Pointer(p + 24 + 16)) = uintptr(0)
} else if (*WhereLoop)(unsafe.Pointer(p)).FwsFlags&U32(WHERE_AUTO_INDEX) != U32(0) && *(*uintptr)(unsafe.Pointer(p + 24 + 8)) != uintptr(0) {
Xsqlite3DbFree(tls, db, (*Index)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 24 + 8)))).FzColAff)
Xsqlite3DbFreeNN(tls, db, *(*uintptr)(unsafe.Pointer(p + 24 + 8)))
*(*uintptr)(unsafe.Pointer(p + 24 + 8)) = uintptr(0)
}
}
}
func whereLoopClear(tls *libc.TLS, db uintptr, p uintptr) {
if (*WhereLoop)(unsafe.Pointer(p)).FaLTerm != p+88 {
Xsqlite3DbFreeNN(tls, db, (*WhereLoop)(unsafe.Pointer(p)).FaLTerm)
(*WhereLoop)(unsafe.Pointer(p)).FaLTerm = p + 88
(*WhereLoop)(unsafe.Pointer(p)).FnLSlot = U16(int32(uint64(unsafe.Sizeof([3]uintptr{})) / uint64(unsafe.Sizeof(uintptr(0)))))
}
whereLoopClearUnion(tls, db, p)
(*WhereLoop)(unsafe.Pointer(p)).FnLTerm = U16(0)
(*WhereLoop)(unsafe.Pointer(p)).FwsFlags = U32(0)
}
func whereLoopResize(tls *libc.TLS, db uintptr, p uintptr, n int32) int32 {
var paNew uintptr
if int32((*WhereLoop)(unsafe.Pointer(p)).FnLSlot) >= n {
return SQLITE_OK
}
n = (n + 7) & libc.CplInt32(7)
paNew = Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(uintptr(0)))*uint64(n))
if paNew == uintptr(0) {
return SQLITE_NOMEM
}
libc.X__builtin___memcpy_chk(tls, paNew, (*WhereLoop)(unsafe.Pointer(p)).FaLTerm, uint64(unsafe.Sizeof(uintptr(0)))*uint64((*WhereLoop)(unsafe.Pointer(p)).FnLSlot), libc.X__builtin_object_size(tls, paNew, 0))
if (*WhereLoop)(unsafe.Pointer(p)).FaLTerm != p+88 {
Xsqlite3DbFreeNN(tls, db, (*WhereLoop)(unsafe.Pointer(p)).FaLTerm)
}
(*WhereLoop)(unsafe.Pointer(p)).FaLTerm = paNew
(*WhereLoop)(unsafe.Pointer(p)).FnLSlot = U16(n)
return SQLITE_OK
}
func whereLoopXfer(tls *libc.TLS, db uintptr, pTo uintptr, pFrom uintptr) int32 {
whereLoopClearUnion(tls, db, pTo)
if int32((*WhereLoop)(unsafe.Pointer(pFrom)).FnLTerm) > int32((*WhereLoop)(unsafe.Pointer(pTo)).FnLSlot) &&
whereLoopResize(tls, db, pTo, int32((*WhereLoop)(unsafe.Pointer(pFrom)).FnLTerm)) != 0 {
libc.X__builtin___memset_chk(tls, pTo, 0, uint64(uintptr(0)+64), libc.X__builtin_object_size(tls, pTo, 0))
return SQLITE_NOMEM
}
libc.X__builtin___memcpy_chk(tls, pTo, pFrom, uint64(uintptr(0)+64), libc.X__builtin_object_size(tls, pTo, 0))
libc.X__builtin___memcpy_chk(tls, (*WhereLoop)(unsafe.Pointer(pTo)).FaLTerm, (*WhereLoop)(unsafe.Pointer(pFrom)).FaLTerm, uint64((*WhereLoop)(unsafe.Pointer(pTo)).FnLTerm)*uint64(unsafe.Sizeof(uintptr(0))), libc.X__builtin_object_size(tls, (*WhereLoop)(unsafe.Pointer(pTo)).FaLTerm, 0))
if (*WhereLoop)(unsafe.Pointer(pFrom)).FwsFlags&U32(WHERE_VIRTUALTABLE) != 0 {
libc.SetBitFieldPtr8Uint32(pFrom+24+4, U32(0), 0, 0x1)
} else if (*WhereLoop)(unsafe.Pointer(pFrom)).FwsFlags&U32(WHERE_AUTO_INDEX) != U32(0) {
*(*uintptr)(unsafe.Pointer(pFrom + 24 + 8)) = uintptr(0)
}
return SQLITE_OK
}
func whereLoopDelete(tls *libc.TLS, db uintptr, p uintptr) {
whereLoopClear(tls, db, p)
Xsqlite3DbNNFreeNN(tls, db, p)
}
func whereInfoFree(tls *libc.TLS, db uintptr, pWInfo uintptr) {
Xsqlite3WhereClauseClear(tls, pWInfo+104)
for (*WhereInfo)(unsafe.Pointer(pWInfo)).FpLoops != 0 {
var p uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpLoops
(*WhereInfo)(unsafe.Pointer(pWInfo)).FpLoops = (*WhereLoop)(unsafe.Pointer(p)).FpNextLoop
whereLoopDelete(tls, db, p)
}
for (*WhereInfo)(unsafe.Pointer(pWInfo)).FpMemToFree != 0 {
var pNext uintptr = (*WhereMemBlock)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpMemToFree)).FpNext
Xsqlite3DbNNFreeNN(tls, db, (*WhereInfo)(unsafe.Pointer(pWInfo)).FpMemToFree)
(*WhereInfo)(unsafe.Pointer(pWInfo)).FpMemToFree = pNext
}
Xsqlite3DbNNFreeNN(tls, db, pWInfo)
}
func whereLoopCheaperProperSubset(tls *libc.TLS, pX uintptr, pY uintptr) int32 {
var i int32
var j int32
if int32((*WhereLoop)(unsafe.Pointer(pX)).FnLTerm)-int32((*WhereLoop)(unsafe.Pointer(pX)).FnSkip) >= int32((*WhereLoop)(unsafe.Pointer(pY)).FnLTerm)-int32((*WhereLoop)(unsafe.Pointer(pY)).FnSkip) {
return 0
}
if int32((*WhereLoop)(unsafe.Pointer(pX)).FrRun) > int32((*WhereLoop)(unsafe.Pointer(pY)).FrRun) && int32((*WhereLoop)(unsafe.Pointer(pX)).FnOut) > int32((*WhereLoop)(unsafe.Pointer(pY)).FnOut) {
return 0
}
if int32((*WhereLoop)(unsafe.Pointer(pY)).FnSkip) > int32((*WhereLoop)(unsafe.Pointer(pX)).FnSkip) {
return 0
}
for i = int32((*WhereLoop)(unsafe.Pointer(pX)).FnLTerm) - 1; i >= 0; i-- {
if *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pX)).FaLTerm + uintptr(i)*8)) == uintptr(0) {
continue
}
for j = int32((*WhereLoop)(unsafe.Pointer(pY)).FnLTerm) - 1; j >= 0; j-- {
if *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pY)).FaLTerm + uintptr(j)*8)) == *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pX)).FaLTerm + uintptr(i)*8)) {
break
}
}
if j < 0 {
return 0
}
}
if (*WhereLoop)(unsafe.Pointer(pX)).FwsFlags&U32(WHERE_IDX_ONLY) != U32(0) &&
(*WhereLoop)(unsafe.Pointer(pY)).FwsFlags&U32(WHERE_IDX_ONLY) == U32(0) {
return 0
}
return 1
}
func whereLoopAdjustCost(tls *libc.TLS, p uintptr, pTemplate uintptr) {
if (*WhereLoop)(unsafe.Pointer(pTemplate)).FwsFlags&U32(WHERE_INDEXED) == U32(0) {
return
}
for ; p != 0; p = (*WhereLoop)(unsafe.Pointer(p)).FpNextLoop {
if int32((*WhereLoop)(unsafe.Pointer(p)).FiTab) != int32((*WhereLoop)(unsafe.Pointer(pTemplate)).FiTab) {
continue
}
if (*WhereLoop)(unsafe.Pointer(p)).FwsFlags&U32(WHERE_INDEXED) == U32(0) {
continue
}
if whereLoopCheaperProperSubset(tls, p, pTemplate) != 0 {
(*WhereLoop)(unsafe.Pointer(pTemplate)).FrRun = func() int16 {
if int32((*WhereLoop)(unsafe.Pointer(p)).FrRun) < int32((*WhereLoop)(unsafe.Pointer(pTemplate)).FrRun) {
return (*WhereLoop)(unsafe.Pointer(p)).FrRun
}
return (*WhereLoop)(unsafe.Pointer(pTemplate)).FrRun
}()
(*WhereLoop)(unsafe.Pointer(pTemplate)).FnOut = func() int16 {
if int32((*WhereLoop)(unsafe.Pointer(p)).FnOut)-1 < int32((*WhereLoop)(unsafe.Pointer(pTemplate)).FnOut) {
return int16(int32((*WhereLoop)(unsafe.Pointer(p)).FnOut) - 1)
}
return (*WhereLoop)(unsafe.Pointer(pTemplate)).FnOut
}()
} else if whereLoopCheaperProperSubset(tls, pTemplate, p) != 0 {
(*WhereLoop)(unsafe.Pointer(pTemplate)).FrRun = func() int16 {
if int32((*WhereLoop)(unsafe.Pointer(p)).FrRun) > int32((*WhereLoop)(unsafe.Pointer(pTemplate)).FrRun) {
return (*WhereLoop)(unsafe.Pointer(p)).FrRun
}
return (*WhereLoop)(unsafe.Pointer(pTemplate)).FrRun
}()
(*WhereLoop)(unsafe.Pointer(pTemplate)).FnOut = func() int16 {
if int32((*WhereLoop)(unsafe.Pointer(p)).FnOut)+1 > int32((*WhereLoop)(unsafe.Pointer(pTemplate)).FnOut) {
return int16(int32((*WhereLoop)(unsafe.Pointer(p)).FnOut) + 1)
}
return (*WhereLoop)(unsafe.Pointer(pTemplate)).FnOut
}()
}
}
}
func whereLoopFindLesser(tls *libc.TLS, ppPrev uintptr, pTemplate uintptr) uintptr {
var p uintptr
p = *(*uintptr)(unsafe.Pointer(ppPrev))
__1:
if !(p != 0) {
goto __3
}
{
if int32((*WhereLoop)(unsafe.Pointer(p)).FiTab) != int32((*WhereLoop)(unsafe.Pointer(pTemplate)).FiTab) || int32((*WhereLoop)(unsafe.Pointer(p)).FiSortIdx) != int32((*WhereLoop)(unsafe.Pointer(pTemplate)).FiSortIdx) {
goto __2
}
if (*WhereLoop)(unsafe.Pointer(p)).FwsFlags&U32(WHERE_AUTO_INDEX) != U32(0) &&
int32((*WhereLoop)(unsafe.Pointer(pTemplate)).FnSkip) == 0 &&
(*WhereLoop)(unsafe.Pointer(pTemplate)).FwsFlags&U32(WHERE_INDEXED) != U32(0) &&
(*WhereLoop)(unsafe.Pointer(pTemplate)).FwsFlags&U32(WHERE_COLUMN_EQ) != U32(0) &&
(*WhereLoop)(unsafe.Pointer(p)).Fprereq&(*WhereLoop)(unsafe.Pointer(pTemplate)).Fprereq == (*WhereLoop)(unsafe.Pointer(pTemplate)).Fprereq {
goto __3
}
if (*WhereLoop)(unsafe.Pointer(p)).Fprereq&(*WhereLoop)(unsafe.Pointer(pTemplate)).Fprereq == (*WhereLoop)(unsafe.Pointer(p)).Fprereq &&
int32((*WhereLoop)(unsafe.Pointer(p)).FrSetup) <= int32((*WhereLoop)(unsafe.Pointer(pTemplate)).FrSetup) &&
int32((*WhereLoop)(unsafe.Pointer(p)).FrRun) <= int32((*WhereLoop)(unsafe.Pointer(pTemplate)).FrRun) &&
int32((*WhereLoop)(unsafe.Pointer(p)).FnOut) <= int32((*WhereLoop)(unsafe.Pointer(pTemplate)).FnOut) {
return uintptr(0)
}
if (*WhereLoop)(unsafe.Pointer(p)).Fprereq&(*WhereLoop)(unsafe.Pointer(pTemplate)).Fprereq == (*WhereLoop)(unsafe.Pointer(pTemplate)).Fprereq &&
int32((*WhereLoop)(unsafe.Pointer(p)).FrRun) >= int32((*WhereLoop)(unsafe.Pointer(pTemplate)).FrRun) &&
int32((*WhereLoop)(unsafe.Pointer(p)).FnOut) >= int32((*WhereLoop)(unsafe.Pointer(pTemplate)).FnOut) {
goto __3
}
}
goto __2
__2:
ppPrev = p + 80
p = *(*uintptr)(unsafe.Pointer(ppPrev))
goto __1
goto __3
__3:
;
return ppPrev
}
func whereLoopInsert(tls *libc.TLS, pBuilder uintptr, pTemplate uintptr) int32 {
var ppPrev uintptr
var p uintptr
var pWInfo uintptr = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWInfo
var db uintptr = (*Parse)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse)).Fdb
var rc int32
if (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FiPlanLimit == uint32(0) {
if (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpOrSet != 0 {
(*WhereOrSet)(unsafe.Pointer((*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpOrSet)).Fn = U16(0)
}
return SQLITE_DONE
}
(*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FiPlanLimit--
whereLoopAdjustCost(tls, (*WhereInfo)(unsafe.Pointer(pWInfo)).FpLoops, pTemplate)
if (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpOrSet != uintptr(0) {
if (*WhereLoop)(unsafe.Pointer(pTemplate)).FnLTerm != 0 {
whereOrInsert(tls, (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpOrSet, (*WhereLoop)(unsafe.Pointer(pTemplate)).Fprereq, (*WhereLoop)(unsafe.Pointer(pTemplate)).FrRun,
(*WhereLoop)(unsafe.Pointer(pTemplate)).FnOut)
}
return SQLITE_OK
}
ppPrev = whereLoopFindLesser(tls, pWInfo+80, pTemplate)
if ppPrev == uintptr(0) {
return SQLITE_OK
} else {
p = *(*uintptr)(unsafe.Pointer(ppPrev))
}
if p == uintptr(0) {
*(*uintptr)(unsafe.Pointer(ppPrev)) = libc.AssignUintptr(&p, Xsqlite3DbMallocRawNN(tls, db, uint64(unsafe.Sizeof(WhereLoop{}))))
if p == uintptr(0) {
return SQLITE_NOMEM
}
whereLoopInit(tls, p)
(*WhereLoop)(unsafe.Pointer(p)).FpNextLoop = uintptr(0)
} else {
var ppTail uintptr = p + 80
var pToDel uintptr
for *(*uintptr)(unsafe.Pointer(ppTail)) != 0 {
ppTail = whereLoopFindLesser(tls, ppTail, pTemplate)
if ppTail == uintptr(0) {
break
}
pToDel = *(*uintptr)(unsafe.Pointer(ppTail))
if pToDel == uintptr(0) {
break
}
*(*uintptr)(unsafe.Pointer(ppTail)) = (*WhereLoop)(unsafe.Pointer(pToDel)).FpNextLoop
whereLoopDelete(tls, db, pToDel)
}
}
rc = whereLoopXfer(tls, db, p, pTemplate)
if (*WhereLoop)(unsafe.Pointer(p)).FwsFlags&U32(WHERE_VIRTUALTABLE) == U32(0) {
var pIndex uintptr = *(*uintptr)(unsafe.Pointer(p + 24 + 8))
if pIndex != 0 && int32(*(*uint16)(unsafe.Pointer(pIndex + 100))&0x3>>0) == SQLITE_IDXTYPE_IPK {
*(*uintptr)(unsafe.Pointer(p + 24 + 8)) = uintptr(0)
}
}
return rc
}
func whereLoopOutputAdjust(tls *libc.TLS, pWC uintptr, pLoop uintptr, nRow LogEst) {
bp := tls.Alloc(4)
defer tls.Free(4)
var pTerm uintptr
var pX uintptr
var notAllowed Bitmask = ^((*WhereLoop)(unsafe.Pointer(pLoop)).Fprereq | (*WhereLoop)(unsafe.Pointer(pLoop)).FmaskSelf)
var i int32
var j int32
var iReduce LogEst = int16(0)
i = (*WhereClause)(unsafe.Pointer(pWC)).FnBase
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa
__1:
if !(i > 0) {
goto __3
}
{
if (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqAll&notAllowed != uint64(0) {
goto __2
}
if (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqAll&(*WhereLoop)(unsafe.Pointer(pLoop)).FmaskSelf == uint64(0) {
goto __2
}
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_VIRTUAL != 0 {
goto __2
}
for j = int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnLTerm) - 1; j >= 0; j-- {
pX = *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(j)*8))
if pX == uintptr(0) {
continue
}
if pX == pTerm {
break
}
if (*WhereTerm)(unsafe.Pointer(pX)).FiParent >= 0 && (*WhereClause)(unsafe.Pointer(pWC)).Fa+uintptr((*WhereTerm)(unsafe.Pointer(pX)).FiParent)*56 == pTerm {
break
}
}
if j < 0 {
Xsqlite3ProgressCheck(tls, (*WhereInfo)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).FpWInfo)).FpParse)
if (*WhereLoop)(unsafe.Pointer(pLoop)).FmaskSelf == (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqAll {
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&0x3f != 0 ||
int32((*SrcItem)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).FpWInfo)).FpTabList+8+uintptr((*WhereLoop)(unsafe.Pointer(pLoop)).FiTab)*104)).Ffg.Fjointype)&
(JT_LEFT|JT_LTORJ) == 0 {
*(*U32)(unsafe.Pointer(pLoop + 56)) |= U32(WHERE_SELFCULL)
}
}
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FtruthProb) <= 0 {
*(*LogEst)(unsafe.Pointer(pLoop + 22)) += LogEst(int32((*WhereTerm)(unsafe.Pointer(pTerm)).FtruthProb))
} else {
(*WhereLoop)(unsafe.Pointer(pLoop)).FnOut--
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&(WO_EQ|WO_IS) != 0 &&
int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_HIGHTRUTH == 0 {
var pRight uintptr = (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).FpRight
*(*int32)(unsafe.Pointer(bp)) = 0
if Xsqlite3ExprIsInteger(tls, pRight, bp) != 0 && *(*int32)(unsafe.Pointer(bp)) >= -1 && *(*int32)(unsafe.Pointer(bp)) <= 1 {
*(*int32)(unsafe.Pointer(bp)) = 10
} else {
*(*int32)(unsafe.Pointer(bp)) = 20
}
if int32(iReduce) < *(*int32)(unsafe.Pointer(bp)) {
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_HEURTRUTH)
iReduce = LogEst(*(*int32)(unsafe.Pointer(bp)))
}
}
}
}
}
goto __2
__2:
i--
pTerm += 56
goto __1
goto __3
__3:
;
if int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnOut) > int32(nRow)-int32(iReduce) {
(*WhereLoop)(unsafe.Pointer(pLoop)).FnOut = LogEst(int32(nRow) - int32(iReduce))
}
}
func whereRangeVectorLen(tls *libc.TLS, pParse uintptr, iCur int32, pIdx uintptr, nEq int32, pTerm uintptr) int32 {
var nCmp int32 = Xsqlite3ExprVectorSize(tls, (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).FpLeft)
var i int32
nCmp = func() int32 {
if nCmp < int32((*Index)(unsafe.Pointer(pIdx)).FnColumn)-nEq {
return nCmp
}
return int32((*Index)(unsafe.Pointer(pIdx)).FnColumn) - nEq
}()
for i = 1; i < nCmp; i++ {
var aff int8
var idxaff int8 = int8(0)
var pColl uintptr
var pLhs uintptr
var pRhs uintptr
pLhs = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).FpLeft + 32)) + 8 + uintptr(i)*32)).FpExpr
pRhs = (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).FpRight
if (*Expr)(unsafe.Pointer(pRhs)).Fflags&U32(EP_xIsSelect) != U32(0) {
pRhs = (*ExprList_item)(unsafe.Pointer((*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pRhs + 32)))).FpEList + 8 + uintptr(i)*32)).FpExpr
} else {
pRhs = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pRhs + 32)) + 8 + uintptr(i)*32)).FpExpr
}
if int32((*Expr)(unsafe.Pointer(pLhs)).Fop) != TK_COLUMN ||
(*Expr)(unsafe.Pointer(pLhs)).FiTable != iCur ||
int32((*Expr)(unsafe.Pointer(pLhs)).FiColumn) != int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i+nEq)*2))) ||
int32(*(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaSortOrder + uintptr(i+nEq)))) != int32(*(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaSortOrder + uintptr(nEq)))) {
break
}
aff = Xsqlite3CompareAffinity(tls, pRhs, Xsqlite3ExprAffinity(tls, pLhs))
idxaff = Xsqlite3TableColumnAffinity(tls, (*Index)(unsafe.Pointer(pIdx)).FpTable, int32((*Expr)(unsafe.Pointer(pLhs)).FiColumn))
if int32(aff) != int32(idxaff) {
break
}
pColl = Xsqlite3BinaryCompareCollSeq(tls, pParse, pLhs, pRhs)
if pColl == uintptr(0) {
break
}
if Xsqlite3StrICmp(tls, (*CollSeq)(unsafe.Pointer(pColl)).FzName, *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FazColl + uintptr(i+nEq)*8))) != 0 {
break
}
}
return i
}
func whereLoopAddBtreeIndex(tls *libc.TLS, pBuilder uintptr, pSrc uintptr, pProbe uintptr, nInMul LogEst) int32 {
bp := tls.Alloc(120)
defer tls.Free(120)
var pWInfo uintptr = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWInfo
var pParse uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pNew uintptr
var pTerm uintptr
var opMask int32
var saved_prereq Bitmask
var saved_nLTerm U16
var saved_nEq U16
var saved_nBtm U16
var saved_nTop U16
var saved_nSkip U16
var saved_wsFlags U32
var saved_nOut LogEst
var rc int32 = SQLITE_OK
var rSize LogEst
var rLogSize LogEst
var pTop uintptr = uintptr(0)
var pBtm uintptr = uintptr(0)
pNew = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpNew
if (*Parse)(unsafe.Pointer(pParse)).FnErr != 0 {
return (*Parse)(unsafe.Pointer(pParse)).Frc
}
if (*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags&U32(WHERE_BTM_LIMIT) != 0 {
opMask = int32(WO_EQ)<<(TK_LT-TK_EQ) | int32(WO_EQ)<<(TK_LE-TK_EQ)
} else {
opMask = WO_EQ | WO_IN | int32(WO_EQ)<<(TK_GT-TK_EQ) | int32(WO_EQ)<<(TK_GE-TK_EQ) | int32(WO_EQ)<<(TK_LT-TK_EQ) | int32(WO_EQ)<<(TK_LE-TK_EQ) | WO_ISNULL | WO_IS
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pProbe + 100))&0x4>>2)) != 0 {
opMask = opMask & libc.CplInt32(int32(WO_EQ)<<(TK_GT-TK_EQ)|int32(WO_EQ)<<(TK_GE-TK_EQ)|int32(WO_EQ)<<(TK_LT-TK_EQ)|int32(WO_EQ)<<(TK_LE-TK_EQ))
}
saved_nEq = *(*U16)(unsafe.Pointer(pNew + 24))
saved_nBtm = *(*U16)(unsafe.Pointer(pNew + 24 + 2))
saved_nTop = *(*U16)(unsafe.Pointer(pNew + 24 + 4))
saved_nSkip = (*WhereLoop)(unsafe.Pointer(pNew)).FnSkip
saved_nLTerm = (*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm
saved_wsFlags = (*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags
saved_prereq = (*WhereLoop)(unsafe.Pointer(pNew)).Fprereq
saved_nOut = (*WhereLoop)(unsafe.Pointer(pNew)).FnOut
pTerm = whereScanInit(tls, bp, (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWC, (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor, int32(saved_nEq),
uint32(opMask), pProbe)
(*WhereLoop)(unsafe.Pointer(pNew)).FrSetup = int16(0)
rSize = *(*LogEst)(unsafe.Pointer((*Index)(unsafe.Pointer(pProbe)).FaiRowLogEst))
rLogSize = estLog(tls, rSize)
for ; rc == SQLITE_OK && pTerm != uintptr(0); pTerm = whereScanNext(tls, bp) {
var eOp U16 = (*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator
var rCostIdx LogEst
var nOutUnadjusted LogEst
var nIn int32 = 0
var nRecValid int32 = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FnRecValid
if (int32(eOp) == WO_ISNULL || int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_VNULL != 0) &&
indexColumnNotNull(tls, pProbe, int32(saved_nEq)) != 0 {
continue
}
if (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight&(*WhereLoop)(unsafe.Pointer(pNew)).FmaskSelf != 0 {
continue
}
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_LIKEOPT != 0 && int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator) == int32(WO_EQ)<<(TK_LT-TK_EQ) {
continue
}
if int32((*SrcItem)(unsafe.Pointer(pSrc)).Ffg.Fjointype)&(JT_LEFT|JT_LTORJ|JT_RIGHT) != 0 &&
!(constraintCompatibleWithOuterJoin(tls, pTerm, pSrc) != 0) {
continue
}
if int32((*Index)(unsafe.Pointer(pProbe)).FonError) != OE_None && int32(saved_nEq) == int32((*Index)(unsafe.Pointer(pProbe)).FnKeyCol)-1 {
*(*uint8)(unsafe.Pointer(pBuilder + 44)) |= uint8(SQLITE_BLDF1_UNIQUE)
} else {
*(*uint8)(unsafe.Pointer(pBuilder + 44)) |= uint8(SQLITE_BLDF1_INDEXED)
}
(*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags = saved_wsFlags
*(*U16)(unsafe.Pointer(pNew + 24)) = saved_nEq
*(*U16)(unsafe.Pointer(pNew + 24 + 2)) = saved_nBtm
*(*U16)(unsafe.Pointer(pNew + 24 + 4)) = saved_nTop
(*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm = saved_nLTerm
if int32((*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm) >= int32((*WhereLoop)(unsafe.Pointer(pNew)).FnLSlot) &&
whereLoopResize(tls, db, pNew, int32((*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm)+1) != 0 {
break
}
*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pNew)).FaLTerm + uintptr(libc.PostIncUint16(&(*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm, 1))*8)) = pTerm
(*WhereLoop)(unsafe.Pointer(pNew)).Fprereq = (saved_prereq | (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight) & ^(*WhereLoop)(unsafe.Pointer(pNew)).FmaskSelf
if int32(eOp)&WO_IN != 0 {
var pExpr uintptr = (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr
if (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_xIsSelect) != U32(0) {
var i int32
nIn = 46
for i = 0; i < int32((*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm)-1; i++ {
if *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pNew)).FaLTerm + uintptr(i)*8)) != 0 && (*WhereTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pNew)).FaLTerm + uintptr(i)*8)))).FpExpr == pExpr {
nIn = 0
}
}
} else if *(*uintptr)(unsafe.Pointer(pExpr + 32)) != 0 && (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FnExpr != 0 {
nIn = int32(Xsqlite3LogEst(tls, uint64((*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pExpr + 32)))).FnExpr)))
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pProbe + 100))&0x80>>7)) != 0 && int32(rLogSize) >= 10 {
var M LogEst
var logK LogEst
var x LogEst
M = *(*LogEst)(unsafe.Pointer((*Index)(unsafe.Pointer(pProbe)).FaiRowLogEst + uintptr(saved_nEq)*2))
logK = estLog(tls, int16(nIn))
x = LogEst(int32(M) + int32(logK) + 10 - (nIn + int32(rLogSize)))
if int32(x) >= 0 {
} else if int32(nInMul) < 2 && (*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_SeekScan) == U32(0) {
*(*U32)(unsafe.Pointer(pNew + 56)) |= U32(WHERE_IN_SEEKSCAN)
} else {
continue
}
}
*(*U32)(unsafe.Pointer(pNew + 56)) |= U32(WHERE_COLUMN_IN)
} else if int32(eOp)&(WO_EQ|WO_IS) != 0 {
var iCol int32 = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pProbe)).FaiColumn + uintptr(saved_nEq)*2)))
*(*U32)(unsafe.Pointer(pNew + 56)) |= U32(WHERE_COLUMN_EQ)
if iCol == -1 ||
iCol >= 0 && int32(nInMul) == 0 && int32(saved_nEq) == int32((*Index)(unsafe.Pointer(pProbe)).FnKeyCol)-1 {
if iCol == -1 || uint32(int32(*(*uint16)(unsafe.Pointer(pProbe + 100))&0x8>>3)) != 0 ||
int32((*Index)(unsafe.Pointer(pProbe)).FnKeyCol) == 1 && (*Index)(unsafe.Pointer(pProbe)).FonError != 0 && int32(eOp) == WO_EQ {
*(*U32)(unsafe.Pointer(pNew + 56)) |= U32(WHERE_ONEROW)
} else {
*(*U32)(unsafe.Pointer(pNew + 56)) |= U32(WHERE_UNQ_WANTED)
}
}
if int32((*WhereScan)(unsafe.Pointer(bp)).FiEquiv) > 1 {
*(*U32)(unsafe.Pointer(pNew + 56)) |= U32(WHERE_TRANSCONS)
}
} else if int32(eOp)&WO_ISNULL != 0 {
*(*U32)(unsafe.Pointer(pNew + 56)) |= U32(WHERE_COLUMN_NULL)
} else {
var nVecLen int32 = whereRangeVectorLen(tls,
pParse, (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor, pProbe, int32(saved_nEq), pTerm)
if int32(eOp)&(int32(WO_EQ)<<(TK_GT-TK_EQ)|int32(WO_EQ)<<(TK_GE-TK_EQ)) != 0 {
*(*U32)(unsafe.Pointer(pNew + 56)) |= U32(WHERE_COLUMN_RANGE | WHERE_BTM_LIMIT)
*(*U16)(unsafe.Pointer(pNew + 24 + 2)) = U16(nVecLen)
pBtm = pTerm
pTop = uintptr(0)
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_LIKEOPT != 0 {
pTop = pTerm + 1*56
if whereLoopResize(tls, db, pNew, int32((*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm)+1) != 0 {
break
}
*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pNew)).FaLTerm + uintptr(libc.PostIncUint16(&(*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm, 1))*8)) = pTop
*(*U32)(unsafe.Pointer(pNew + 56)) |= U32(WHERE_TOP_LIMIT)
*(*U16)(unsafe.Pointer(pNew + 24 + 4)) = U16(1)
}
} else {
*(*U32)(unsafe.Pointer(pNew + 56)) |= U32(WHERE_COLUMN_RANGE | WHERE_TOP_LIMIT)
*(*U16)(unsafe.Pointer(pNew + 24 + 4)) = U16(nVecLen)
pTop = pTerm
if (*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags&U32(WHERE_BTM_LIMIT) != U32(0) {
pBtm = *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pNew)).FaLTerm + uintptr(int32((*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm)-2)*8))
} else {
pBtm = uintptr(0)
}
}
}
if (*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags&U32(WHERE_COLUMN_RANGE) != 0 {
whereRangeScanEst(tls, pParse, pBuilder, pBtm, pTop, pNew)
} else {
var nEq int32 = int32(libc.PreIncUint16(&*(*U16)(unsafe.Pointer(pNew + 24)), 1))
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FtruthProb) <= 0 && int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pProbe)).FaiColumn + uintptr(saved_nEq)*2))) >= 0 {
*(*LogEst)(unsafe.Pointer(pNew + 22)) += LogEst(int32((*WhereTerm)(unsafe.Pointer(pTerm)).FtruthProb))
*(*LogEst)(unsafe.Pointer(pNew + 22)) -= LogEst(nIn)
} else {
*(*TRowcnt)(unsafe.Pointer(bp + 112)) = uint64(0)
if int32(nInMul) == 0 &&
(*Index)(unsafe.Pointer(pProbe)).FnSample != 0 &&
int32(*(*U16)(unsafe.Pointer(pNew + 24))) <= (*Index)(unsafe.Pointer(pProbe)).FnSampleCol &&
(int32(eOp)&WO_IN == 0 || (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).Fflags&U32(EP_xIsSelect) == U32(0)) &&
(*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_Stat4) == U32(0) {
var pExpr uintptr = (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr
if int32(eOp)&(WO_EQ|WO_ISNULL|WO_IS) != 0 {
rc = whereEqualScanEst(tls, pParse, pBuilder, (*Expr)(unsafe.Pointer(pExpr)).FpRight, bp+112)
} else {
rc = whereInScanEst(tls, pParse, pBuilder, *(*uintptr)(unsafe.Pointer(pExpr + 32)), bp+112)
}
if rc == SQLITE_NOTFOUND {
rc = SQLITE_OK
}
if rc != SQLITE_OK {
break
}
if *(*TRowcnt)(unsafe.Pointer(bp + 112)) != 0 {
(*WhereLoop)(unsafe.Pointer(pNew)).FnOut = Xsqlite3LogEst(tls, *(*TRowcnt)(unsafe.Pointer(bp + 112)))
if nEq == 1 &&
int32((*WhereLoop)(unsafe.Pointer(pNew)).FnOut)+10 > int32(*(*LogEst)(unsafe.Pointer((*Index)(unsafe.Pointer(pProbe)).FaiRowLogEst))) {
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_HIGHTRUTH)
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_HEURTRUTH != 0 {
*(*uint8)(unsafe.Pointer(pBuilder + 45)) |= uint8(SQLITE_BLDF2_2NDPASS)
}
}
if int32((*WhereLoop)(unsafe.Pointer(pNew)).FnOut) > int32(saved_nOut) {
(*WhereLoop)(unsafe.Pointer(pNew)).FnOut = saved_nOut
}
*(*LogEst)(unsafe.Pointer(pNew + 22)) -= LogEst(nIn)
}
}
if *(*TRowcnt)(unsafe.Pointer(bp + 112)) == uint64(0) {
*(*LogEst)(unsafe.Pointer(pNew + 22)) += LogEst(int32(*(*LogEst)(unsafe.Pointer((*Index)(unsafe.Pointer(pProbe)).FaiRowLogEst + uintptr(nEq)*2))) - int32(*(*LogEst)(unsafe.Pointer((*Index)(unsafe.Pointer(pProbe)).FaiRowLogEst + uintptr(nEq-1)*2))))
if int32(eOp)&WO_ISNULL != 0 {
*(*LogEst)(unsafe.Pointer(pNew + 22)) += int16(10)
}
}
}
}
if int32(*(*uint16)(unsafe.Pointer(pProbe + 100))&0x3>>0) == SQLITE_IDXTYPE_IPK {
rCostIdx = LogEst(int32((*WhereLoop)(unsafe.Pointer(pNew)).FnOut) + 16)
} else {
rCostIdx = LogEst(int32((*WhereLoop)(unsafe.Pointer(pNew)).FnOut) + 1 + 15*int32((*Index)(unsafe.Pointer(pProbe)).FszIdxRow)/int32((*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pSrc)).FpTab)).FszTabRow))
}
(*WhereLoop)(unsafe.Pointer(pNew)).FrRun = Xsqlite3LogEstAdd(tls, rLogSize, rCostIdx)
if (*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags&U32(WHERE_IDX_ONLY|WHERE_IPK|WHERE_EXPRIDX) == U32(0) {
(*WhereLoop)(unsafe.Pointer(pNew)).FrRun = Xsqlite3LogEstAdd(tls, (*WhereLoop)(unsafe.Pointer(pNew)).FrRun, int16(int32((*WhereLoop)(unsafe.Pointer(pNew)).FnOut)+16))
}
nOutUnadjusted = (*WhereLoop)(unsafe.Pointer(pNew)).FnOut
*(*LogEst)(unsafe.Pointer(pNew + 20)) += LogEst(int32(nInMul) + nIn)
*(*LogEst)(unsafe.Pointer(pNew + 22)) += LogEst(int32(nInMul) + nIn)
whereLoopOutputAdjust(tls, (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWC, pNew, rSize)
rc = whereLoopInsert(tls, pBuilder, pNew)
if (*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags&U32(WHERE_COLUMN_RANGE) != 0 {
(*WhereLoop)(unsafe.Pointer(pNew)).FnOut = saved_nOut
} else {
(*WhereLoop)(unsafe.Pointer(pNew)).FnOut = nOutUnadjusted
}
if (*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags&U32(WHERE_TOP_LIMIT) == U32(0) &&
int32(*(*U16)(unsafe.Pointer(pNew + 24))) < int32((*Index)(unsafe.Pointer(pProbe)).FnColumn) &&
(int32(*(*U16)(unsafe.Pointer(pNew + 24))) < int32((*Index)(unsafe.Pointer(pProbe)).FnKeyCol) || int32(*(*uint16)(unsafe.Pointer(pProbe + 100))&0x3>>0) != SQLITE_IDXTYPE_PRIMARYKEY) {
if int32(*(*U16)(unsafe.Pointer(pNew + 24))) > 3 {
Xsqlite3ProgressCheck(tls, pParse)
}
whereLoopAddBtreeIndex(tls, pBuilder, pSrc, pProbe, int16(int32(nInMul)+nIn))
}
(*WhereLoop)(unsafe.Pointer(pNew)).FnOut = saved_nOut
(*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FnRecValid = nRecValid
}
(*WhereLoop)(unsafe.Pointer(pNew)).Fprereq = saved_prereq
*(*U16)(unsafe.Pointer(pNew + 24)) = saved_nEq
*(*U16)(unsafe.Pointer(pNew + 24 + 2)) = saved_nBtm
*(*U16)(unsafe.Pointer(pNew + 24 + 4)) = saved_nTop
(*WhereLoop)(unsafe.Pointer(pNew)).FnSkip = saved_nSkip
(*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags = saved_wsFlags
(*WhereLoop)(unsafe.Pointer(pNew)).FnOut = saved_nOut
(*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm = saved_nLTerm
if int32(saved_nEq) == int32(saved_nSkip) &&
int32(saved_nEq)+1 < int32((*Index)(unsafe.Pointer(pProbe)).FnKeyCol) &&
int32(saved_nEq) == int32((*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm) &&
int32(*(*uint16)(unsafe.Pointer(pProbe + 100))&0x40>>6) == 0 &&
int32(*(*uint16)(unsafe.Pointer(pProbe + 100))&0x80>>7) != 0 &&
(*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_SkipScan) == U32(0) &&
int32(*(*LogEst)(unsafe.Pointer((*Index)(unsafe.Pointer(pProbe)).FaiRowLogEst + uintptr(int32(saved_nEq)+1)*2))) >= 42 &&
libc.AssignInt32(&rc, whereLoopResize(tls, db, pNew, int32((*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm)+1)) == SQLITE_OK {
var nIter LogEst
*(*U16)(unsafe.Pointer(pNew + 24))++
(*WhereLoop)(unsafe.Pointer(pNew)).FnSkip++
*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pNew)).FaLTerm + uintptr(libc.PostIncUint16(&(*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm, 1))*8)) = uintptr(0)
*(*U32)(unsafe.Pointer(pNew + 56)) |= U32(WHERE_SKIPSCAN)
nIter = LogEst(int32(*(*LogEst)(unsafe.Pointer((*Index)(unsafe.Pointer(pProbe)).FaiRowLogEst + uintptr(saved_nEq)*2))) - int32(*(*LogEst)(unsafe.Pointer((*Index)(unsafe.Pointer(pProbe)).FaiRowLogEst + uintptr(int32(saved_nEq)+1)*2))))
*(*LogEst)(unsafe.Pointer(pNew + 22)) -= LogEst(int32(nIter))
nIter = int16(int32(nIter) + 5)
whereLoopAddBtreeIndex(tls, pBuilder, pSrc, pProbe, int16(int32(nIter)+int32(nInMul)))
(*WhereLoop)(unsafe.Pointer(pNew)).FnOut = saved_nOut
*(*U16)(unsafe.Pointer(pNew + 24)) = saved_nEq
(*WhereLoop)(unsafe.Pointer(pNew)).FnSkip = saved_nSkip
(*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags = saved_wsFlags
}
return rc
}
func indexMightHelpWithOrderBy(tls *libc.TLS, pBuilder uintptr, pIndex uintptr, iCursor int32) int32 {
var pOB uintptr
var aColExpr uintptr
var ii int32
var jj int32
if uint32(int32(*(*uint16)(unsafe.Pointer(pIndex + 100))&0x4>>2)) != 0 {
return 0
}
if libc.AssignUintptr(&pOB, (*WhereInfo)(unsafe.Pointer((*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWInfo)).FpOrderBy) == uintptr(0) {
return 0
}
for ii = 0; ii < (*ExprList)(unsafe.Pointer(pOB)).FnExpr; ii++ {
var pExpr uintptr = Xsqlite3ExprSkipCollateAndLikely(tls, (*ExprList_item)(unsafe.Pointer(pOB+8+uintptr(ii)*32)).FpExpr)
if pExpr == uintptr(0) {
continue
}
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLUMN && (*Expr)(unsafe.Pointer(pExpr)).FiTable == iCursor {
if int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn) < 0 {
return 1
}
for jj = 0; jj < int32((*Index)(unsafe.Pointer(pIndex)).FnKeyCol); jj++ {
if int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn) == int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FaiColumn + uintptr(jj)*2))) {
return 1
}
}
} else if libc.AssignUintptr(&aColExpr, (*Index)(unsafe.Pointer(pIndex)).FaColExpr) != uintptr(0) {
for jj = 0; jj < int32((*Index)(unsafe.Pointer(pIndex)).FnKeyCol); jj++ {
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FaiColumn + uintptr(jj)*2))) != -2 {
continue
}
if Xsqlite3ExprCompareSkip(tls, pExpr, (*ExprList_item)(unsafe.Pointer(aColExpr+8+uintptr(jj)*32)).FpExpr, iCursor) == 0 {
return 1
}
}
}
}
return 0
}
func whereUsablePartialIndex(tls *libc.TLS, iTab int32, jointype U8, pWC uintptr, pWhere uintptr) int32 {
var i int32
var pTerm uintptr
var pParse uintptr
if int32(jointype)&JT_LTORJ != 0 {
return 0
}
pParse = (*WhereInfo)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).FpWInfo)).FpParse
for int32((*Expr)(unsafe.Pointer(pWhere)).Fop) == TK_AND {
if !(whereUsablePartialIndex(tls, iTab, jointype, pWC, (*Expr)(unsafe.Pointer(pWhere)).FpLeft) != 0) {
return 0
}
pWhere = (*Expr)(unsafe.Pointer(pWhere)).FpRight
}
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Fflags&uint64(SQLITE_EnableQPSG) != 0 {
pParse = uintptr(0)
}
i = 0
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa
__1:
if !(i < (*WhereClause)(unsafe.Pointer(pWC)).FnTerm) {
goto __3
}
{
var pExpr uintptr
pExpr = (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr
if (!((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON) != U32(0)) || *(*int32)(unsafe.Pointer(pExpr + 52)) == iTab) &&
(int32(jointype)&JT_OUTER == 0 || (*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_OuterON) != U32(0)) &&
Xsqlite3ExprImpliesExpr(tls, pParse, pExpr, pWhere, iTab) != 0 &&
int32((*WhereTerm)(unsafe.Pointer(pTerm)).FwtFlags)&TERM_VNULL == 0 {
return 1
}
}
goto __2
__2:
i++
pTerm += 56
goto __1
goto __3
__3:
;
return 0
}
func exprIsCoveredByIndex(tls *libc.TLS, pExpr uintptr, pIdx uintptr, iTabCur int32) int32 {
var i int32
for i = 0; i < int32((*Index)(unsafe.Pointer(pIdx)).FnColumn); i++ {
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2))) == -2 &&
Xsqlite3ExprCompare(tls, uintptr(0), pExpr, (*ExprList_item)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaColExpr+8+uintptr(i)*32)).FpExpr, iTabCur) == 0 {
return 1
}
}
return 0
}
// Structure passed to the whereIsCoveringIndex Walker callback.
type CoveringIndexCheck = CoveringIndexCheck1
func whereIsCoveringIndexWalkCallback(tls *libc.TLS, pWalk uintptr, pExpr uintptr) int32 {
var i int32
var pIdx uintptr
var aiColumn uintptr
var nColumn U16
var pCk uintptr
pCk = *(*uintptr)(unsafe.Pointer(pWalk + 40))
pIdx = (*CoveringIndexCheck)(unsafe.Pointer(pCk)).FpIdx
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_COLUMN || int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_AGG_COLUMN {
if (*Expr)(unsafe.Pointer(pExpr)).FiTable != (*CoveringIndexCheck)(unsafe.Pointer(pCk)).FiTabCur {
return WRC_Continue
}
pIdx = (*CoveringIndexCheck1)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pWalk + 40)))).FpIdx
aiColumn = (*Index)(unsafe.Pointer(pIdx)).FaiColumn
nColumn = (*Index)(unsafe.Pointer(pIdx)).FnColumn
for i = 0; i < int32(nColumn); i++ {
if int32(*(*I16)(unsafe.Pointer(aiColumn + uintptr(i)*2))) == int32((*Expr)(unsafe.Pointer(pExpr)).FiColumn) {
return WRC_Continue
}
}
(*CoveringIndexCheck)(unsafe.Pointer(pCk)).FbUnidx = U8(1)
return WRC_Abort
} else if uint32(int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x800>>11)) != 0 &&
exprIsCoveredByIndex(tls, pExpr, pIdx, (*CoveringIndexCheck1)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pWalk + 40)))).FiTabCur) != 0 {
(*CoveringIndexCheck)(unsafe.Pointer(pCk)).FbExpr = U8(1)
return WRC_Prune
}
return WRC_Continue
}
func whereIsCoveringIndex(tls *libc.TLS, pWInfo uintptr, pIdx uintptr, iTabCur int32) U32 {
bp := tls.Alloc(64)
defer tls.Free(64)
var i int32
var rc int32
if (*WhereInfo)(unsafe.Pointer(pWInfo)).FpSelect == uintptr(0) {
return U32(0)
}
if int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x800>>11) == 0 {
for i = 0; i < int32((*Index)(unsafe.Pointer(pIdx)).FnColumn); i++ {
if int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2))) >= int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8))-1 {
break
}
}
if i >= int32((*Index)(unsafe.Pointer(pIdx)).FnColumn) {
return U32(0)
}
}
(*CoveringIndexCheck1)(unsafe.Pointer(bp + 48)).FpIdx = pIdx
(*CoveringIndexCheck1)(unsafe.Pointer(bp + 48)).FiTabCur = iTabCur
(*CoveringIndexCheck1)(unsafe.Pointer(bp + 48)).FbExpr = U8(0)
(*CoveringIndexCheck1)(unsafe.Pointer(bp + 48)).FbUnidx = U8(0)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{whereIsCoveringIndexWalkCallback}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{Xsqlite3SelectWalkNoop}))
*(*uintptr)(unsafe.Pointer(bp + 40)) = bp + 48
Xsqlite3WalkSelect(tls, bp, (*WhereInfo)(unsafe.Pointer(pWInfo)).FpSelect)
if (*CoveringIndexCheck1)(unsafe.Pointer(bp+48)).FbUnidx != 0 {
rc = 0
} else if (*CoveringIndexCheck1)(unsafe.Pointer(bp+48)).FbExpr != 0 {
rc = WHERE_EXPRIDX
} else {
rc = WHERE_IDX_ONLY
}
return U32(rc)
}
func whereLoopAddBtree(tls *libc.TLS, pBuilder uintptr, mPrereq Bitmask) int32 {
bp := tls.Alloc(158)
defer tls.Free(158)
var pWInfo uintptr
var pProbe uintptr
*(*I16)(unsafe.Pointer(bp + 152)) = int16(-1)
var pTabList uintptr
var pSrc uintptr
var pNew uintptr
var rc int32 = SQLITE_OK
var iSortIdx int32 = 1
var b int32
var rSize LogEst
var pWC uintptr
var pTab uintptr
pNew = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpNew
pWInfo = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWInfo
pTabList = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList
pSrc = pTabList + 8 + uintptr((*WhereLoop)(unsafe.Pointer(pNew)).FiTab)*104
pTab = (*SrcItem)(unsafe.Pointer(pSrc)).FpTab
pWC = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWC
if uint32(int32(*(*uint16)(unsafe.Pointer(pSrc + 60 + 4))&0x2>>1)) != 0 {
pProbe = *(*uintptr)(unsafe.Pointer(pSrc + 96))
} else if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
pProbe = (*Table)(unsafe.Pointer(pTab)).FpIndex
} else {
var pFirst uintptr
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Index{})), libc.X__builtin_object_size(tls, bp, 0))
(*Index)(unsafe.Pointer(bp)).FnKeyCol = U16(1)
(*Index)(unsafe.Pointer(bp)).FnColumn = U16(1)
(*Index)(unsafe.Pointer(bp)).FaiColumn = bp + 152
(*Index)(unsafe.Pointer(bp)).FaiRowLogEst = bp + 154
(*Index)(unsafe.Pointer(bp)).FonError = U8(OE_Replace)
(*Index)(unsafe.Pointer(bp)).FpTable = pTab
(*Index)(unsafe.Pointer(bp)).FszIdxRow = int16(3)
libc.SetBitFieldPtr16Uint32(bp+100, uint32(SQLITE_IDXTYPE_IPK), 0, 0x3)
*(*LogEst)(unsafe.Pointer(bp + 154)) = (*Table)(unsafe.Pointer(pTab)).FnRowLogEst
*(*LogEst)(unsafe.Pointer(bp + 154 + 1*2)) = int16(0)
pFirst = (*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pSrc)).FpTab)).FpIndex
if int32(*(*uint16)(unsafe.Pointer(pSrc + 60 + 4))&0x1>>0) == 0 {
(*Index)(unsafe.Pointer(bp)).FpNext = pFirst
}
pProbe = bp
}
rSize = (*Table)(unsafe.Pointer(pTab)).FnRowLogEst
if !(int32((*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpOrSet) != 0) &&
int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&(WHERE_RIGHT_JOIN|WHERE_OR_SUBCLAUSE) == 0 &&
(*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse)).Fdb)).Fflags&uint64(SQLITE_AutoIndex) != uint64(0) &&
!(int32(*(*uint16)(unsafe.Pointer(pSrc + 60 + 4))&0x2>>1) != 0) &&
!(int32(*(*uint16)(unsafe.Pointer(pSrc + 60 + 4))&0x1>>0) != 0) &&
(*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) &&
!(int32(*(*uint16)(unsafe.Pointer(pSrc + 60 + 4))&0x8>>3) != 0) &&
!(int32(*(*uint16)(unsafe.Pointer(pSrc + 60 + 4))&0x40>>6) != 0) &&
int32((*SrcItem)(unsafe.Pointer(pSrc)).Ffg.Fjointype)&JT_RIGHT == 0 {
var rLogSize LogEst
var pTerm uintptr
var pWCEnd uintptr = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr((*WhereClause)(unsafe.Pointer(pWC)).FnTerm)*56
rLogSize = estLog(tls, rSize)
for pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa; rc == SQLITE_OK && pTerm < pWCEnd; pTerm += 56 {
if (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight&(*WhereLoop)(unsafe.Pointer(pNew)).FmaskSelf != 0 {
continue
}
if termCanDriveIndex(tls, pTerm, pSrc, uint64(0)) != 0 {
*(*U16)(unsafe.Pointer(pNew + 24)) = U16(1)
(*WhereLoop)(unsafe.Pointer(pNew)).FnSkip = U16(0)
*(*uintptr)(unsafe.Pointer(pNew + 24 + 8)) = uintptr(0)
(*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm = U16(1)
*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pNew)).FaLTerm)) = pTerm
(*WhereLoop)(unsafe.Pointer(pNew)).FrSetup = LogEst(int32(rLogSize) + int32(rSize))
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW) && (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_Ephemeral) == U32(0) {
*(*LogEst)(unsafe.Pointer(pNew + 18)) += int16(28)
} else {
*(*LogEst)(unsafe.Pointer(pNew + 18)) -= int16(25)
}
if int32((*WhereLoop)(unsafe.Pointer(pNew)).FrSetup) < 0 {
(*WhereLoop)(unsafe.Pointer(pNew)).FrSetup = int16(0)
}
(*WhereLoop)(unsafe.Pointer(pNew)).FnOut = int16(43)
(*WhereLoop)(unsafe.Pointer(pNew)).FrRun = Xsqlite3LogEstAdd(tls, rLogSize, (*WhereLoop)(unsafe.Pointer(pNew)).FnOut)
(*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags = U32(WHERE_AUTO_INDEX)
(*WhereLoop)(unsafe.Pointer(pNew)).Fprereq = mPrereq | (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight
rc = whereLoopInsert(tls, pBuilder, pNew)
}
}
}
__1:
if !(rc == SQLITE_OK && pProbe != 0) {
goto __3
}
{
if (*Index)(unsafe.Pointer(pProbe)).FpPartIdxWhere != uintptr(0) &&
!(whereUsablePartialIndex(tls, (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor, (*SrcItem)(unsafe.Pointer(pSrc)).Ffg.Fjointype, pWC,
(*Index)(unsafe.Pointer(pProbe)).FpPartIdxWhere) != 0) {
goto __2
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pProbe + 100))&0x100>>8)) != 0 {
goto __2
}
rSize = *(*LogEst)(unsafe.Pointer((*Index)(unsafe.Pointer(pProbe)).FaiRowLogEst))
*(*U16)(unsafe.Pointer(pNew + 24)) = U16(0)
*(*U16)(unsafe.Pointer(pNew + 24 + 2)) = U16(0)
*(*U16)(unsafe.Pointer(pNew + 24 + 4)) = U16(0)
(*WhereLoop)(unsafe.Pointer(pNew)).FnSkip = U16(0)
(*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm = U16(0)
(*WhereLoop)(unsafe.Pointer(pNew)).FiSortIdx = U8(0)
(*WhereLoop)(unsafe.Pointer(pNew)).FrSetup = int16(0)
(*WhereLoop)(unsafe.Pointer(pNew)).Fprereq = mPrereq
(*WhereLoop)(unsafe.Pointer(pNew)).FnOut = rSize
*(*uintptr)(unsafe.Pointer(pNew + 24 + 8)) = pProbe
b = indexMightHelpWithOrderBy(tls, pBuilder, pProbe, (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor)
if int32(*(*uint16)(unsafe.Pointer(pProbe + 100))&0x3>>0) == SQLITE_IDXTYPE_IPK {
(*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags = U32(WHERE_IPK)
(*WhereLoop)(unsafe.Pointer(pNew)).FiSortIdx = func() uint8 {
if b != 0 {
return uint8(iSortIdx)
}
return uint8(0)
}()
(*WhereLoop)(unsafe.Pointer(pNew)).FrRun = LogEst(int32(rSize) + 16 - 2*libc.Bool32((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasStat4) != U32(0)))
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW || (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_Ephemeral) != U32(0) {
*(*U32)(unsafe.Pointer(pNew + 56)) |= U32(WHERE_VIEWSCAN)
}
whereLoopOutputAdjust(tls, pWC, pNew, rSize)
rc = whereLoopInsert(tls, pBuilder, pNew)
(*WhereLoop)(unsafe.Pointer(pNew)).FnOut = rSize
if rc != 0 {
goto __3
}
} else {
var m Bitmask
if uint32(int32(*(*uint16)(unsafe.Pointer(pProbe + 100))&0x20>>5)) != 0 {
m = uint64(0)
(*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags = U32(WHERE_IDX_ONLY | WHERE_INDEXED)
} else {
m = (*SrcItem)(unsafe.Pointer(pSrc)).FcolUsed & (*Index)(unsafe.Pointer(pProbe)).FcolNotIdxed
(*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags = U32(WHERE_INDEXED)
if m == uint64(1)<<(int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8))-1) || uint32(int32(*(*uint16)(unsafe.Pointer(pProbe + 100))&0x800>>11)) != 0 && !(int32(*(*uint16)(unsafe.Pointer(pProbe + 100))&0x400>>10) != 0) && m != uint64(0) {
var isCov U32 = whereIsCoveringIndex(tls, pWInfo, pProbe, (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor)
if isCov == U32(0) {
} else {
m = uint64(0)
*(*U32)(unsafe.Pointer(pNew + 56)) |= isCov
if isCov&U32(WHERE_IDX_ONLY) != 0 {
} else {
}
}
} else if m == uint64(0) {
(*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags = U32(WHERE_IDX_ONLY | WHERE_INDEXED)
}
}
if b != 0 ||
!((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) ||
(*Index)(unsafe.Pointer(pProbe)).FpPartIdxWhere != uintptr(0) ||
uint32(int32(*(*uint16)(unsafe.Pointer(pSrc + 60 + 4))&0x2>>1)) != 0 ||
m == uint64(0) &&
int32(*(*uint16)(unsafe.Pointer(pProbe + 100))&0x4>>2) == 0 &&
int32((*Index)(unsafe.Pointer(pProbe)).FszIdxRow) < int32((*Table)(unsafe.Pointer(pTab)).FszTabRow) &&
int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_ONEPASS_DESIRED == 0 &&
Xsqlite3Config.FbUseCis != 0 &&
(*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse)).Fdb)).FdbOptFlags&U32(SQLITE_CoverIdxScan) == U32(0) {
(*WhereLoop)(unsafe.Pointer(pNew)).FiSortIdx = func() uint8 {
if b != 0 {
return uint8(iSortIdx)
}
return uint8(0)
}()
(*WhereLoop)(unsafe.Pointer(pNew)).FrRun = LogEst(int32(rSize) + 1 + 15*int32((*Index)(unsafe.Pointer(pProbe)).FszIdxRow)/int32((*Table)(unsafe.Pointer(pTab)).FszTabRow))
if m != uint64(0) {
var nLookup LogEst = LogEst(int32(rSize) + 16)
var ii int32
var iCur int32 = (*SrcItem)(unsafe.Pointer(pSrc)).FiCursor
var pWC2 uintptr = pWInfo + 104
for ii = 0; ii < (*WhereClause)(unsafe.Pointer(pWC2)).FnTerm; ii++ {
var pTerm uintptr = (*WhereClause)(unsafe.Pointer(pWC2)).Fa + uintptr(ii)*56
if !(Xsqlite3ExprCoveredByIndex(tls, (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr, iCur, pProbe) != 0) {
break
}
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FtruthProb) <= 0 {
nLookup = LogEst(int32(nLookup) + int32((*WhereTerm)(unsafe.Pointer(pTerm)).FtruthProb))
} else {
nLookup--
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&(WO_EQ|WO_IS) != 0 {
nLookup = int16(int32(nLookup) - 19)
}
}
}
(*WhereLoop)(unsafe.Pointer(pNew)).FrRun = Xsqlite3LogEstAdd(tls, (*WhereLoop)(unsafe.Pointer(pNew)).FrRun, nLookup)
}
whereLoopOutputAdjust(tls, pWC, pNew, rSize)
if int32((*SrcItem)(unsafe.Pointer(pSrc)).Ffg.Fjointype)&JT_RIGHT != 0 && (*Index)(unsafe.Pointer(pProbe)).FaColExpr != 0 {
} else {
rc = whereLoopInsert(tls, pBuilder, pNew)
}
(*WhereLoop)(unsafe.Pointer(pNew)).FnOut = rSize
if rc != 0 {
goto __3
}
}
}
(*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FbldFlags1 = uint8(0)
rc = whereLoopAddBtreeIndex(tls, pBuilder, pSrc, pProbe, int16(0))
if int32((*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FbldFlags1) == SQLITE_BLDF1_INDEXED {
*(*U32)(unsafe.Pointer(pTab + 48)) |= U32(TF_StatsUsed)
}
Xsqlite3Stat4ProbeFree(tls, (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpRec)
(*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FnRecValid = 0
(*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpRec = uintptr(0)
}
goto __2
__2:
pProbe = func() uintptr {
if uint32(int32(*(*uint16)(unsafe.Pointer(pSrc + 60 + 4))&0x2>>1)) != 0 {
return uintptr(0)
}
return (*Index)(unsafe.Pointer(pProbe)).FpNext
}()
iSortIdx++
goto __1
goto __3
__3:
;
return rc
}
func isLimitTerm(tls *libc.TLS, pTerm uintptr) int32 {
return libc.Bool32(int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeMatchOp) >= SQLITE_INDEX_CONSTRAINT_LIMIT &&
int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeMatchOp) <= SQLITE_INDEX_CONSTRAINT_OFFSET)
}
func whereLoopAddVirtualOne(tls *libc.TLS, pBuilder uintptr, mPrereq Bitmask, mUsable Bitmask, mExclude U16, pIdxInfo uintptr, mNoOmit U16, pbIn uintptr, pbRetryLimit uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var pWC uintptr = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWC
var pHidden uintptr = pIdxInfo + 1*96
var pIdxCons uintptr
var pUsage uintptr = (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage
var i int32
var mxTerm int32
var rc int32 = SQLITE_OK
var pNew uintptr = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpNew
var pParse uintptr = (*WhereInfo)(unsafe.Pointer((*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWInfo)).FpParse
var pSrc uintptr = (*WhereInfo)(unsafe.Pointer((*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWInfo)).FpTabList + 8 + uintptr((*WhereLoop)(unsafe.Pointer(pNew)).FiTab)*104
var nConstraint int32 = (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FnConstraint
*(*int32)(unsafe.Pointer(pbIn)) = 0
(*WhereLoop)(unsafe.Pointer(pNew)).Fprereq = mPrereq
pIdxCons = *(*uintptr)(unsafe.Pointer(pIdxInfo + 8))
i = 0
__1:
if !(i < nConstraint) {
goto __3
}
{
var pTerm uintptr = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr((*sqlite3_index_constraint)(unsafe.Pointer(pIdxCons)).FiTermOffset)*56
(*sqlite3_index_constraint)(unsafe.Pointer(pIdxCons)).Fusable = uint8(0)
if (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight&mUsable == (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight &&
int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&int32(mExclude) == 0 &&
(pbRetryLimit != 0 || !(isLimitTerm(tls, pTerm) != 0)) {
(*sqlite3_index_constraint)(unsafe.Pointer(pIdxCons)).Fusable = uint8(1)
}
}
goto __2
__2:
i++
pIdxCons += 12
goto __1
goto __3
__3:
;
libc.X__builtin___memset_chk(tls, pUsage, 0, uint64(unsafe.Sizeof(sqlite3_index_constraint_usage{}))*uint64(nConstraint), libc.X__builtin_object_size(tls, pUsage, 0))
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxStr = uintptr(0)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxNum = 0
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).ForderByConsumed = 0
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedCost = float64(1e99) / float64(2)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedRows = int64(25)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxFlags = 0
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FcolUsed = Sqlite3_uint64(Sqlite3_int64((*SrcItem)(unsafe.Pointer(pSrc)).FcolUsed))
(*HiddenIndexInfo)(unsafe.Pointer(pHidden)).FmHandleIn = U32(0)
rc = vtabBestIndex(tls, pParse, (*SrcItem)(unsafe.Pointer(pSrc)).FpTab, pIdxInfo)
if rc != 0 {
if rc == SQLITE_CONSTRAINT {
return SQLITE_OK
}
return rc
}
mxTerm = -1
libc.X__builtin___memset_chk(tls, (*WhereLoop)(unsafe.Pointer(pNew)).FaLTerm, 0, uint64(unsafe.Sizeof(uintptr(0)))*uint64(nConstraint), libc.X__builtin_object_size(tls, (*WhereLoop)(unsafe.Pointer(pNew)).FaLTerm, 0))
libc.X__builtin___memset_chk(tls, pNew+24, 0, uint64(unsafe.Sizeof(struct {
FidxNum int32
FneedFree uint8
F__ccgo_pad1 [1]byte
FisOrdered I8
F__ccgo_pad2 [1]byte
FomitMask U16
F__ccgo_pad3 [6]byte
FidxStr uintptr
FmHandleIn U32
F__ccgo_pad4 [4]byte
}{})), libc.X__builtin_object_size(tls, pNew+24, 0))
pIdxCons = *(*uintptr)(unsafe.Pointer(pIdxInfo + 8))
i = 0
__4:
if !(i < nConstraint) {
goto __6
}
{
var iTerm int32
if libc.AssignInt32(&iTerm, (*sqlite3_index_constraint_usage)(unsafe.Pointer(pUsage+uintptr(i)*8)).FargvIndex-1) >= 0 {
var pTerm uintptr
var j int32 = (*sqlite3_index_constraint)(unsafe.Pointer(pIdxCons)).FiTermOffset
if iTerm >= nConstraint ||
j < 0 ||
j >= (*WhereClause)(unsafe.Pointer(pWC)).FnTerm ||
*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pNew)).FaLTerm + uintptr(iTerm)*8)) != uintptr(0) ||
int32((*sqlite3_index_constraint)(unsafe.Pointer(pIdxCons)).Fusable) == 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+22393, libc.VaList(bp, (*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pSrc)).FpTab)).FzName))
return SQLITE_ERROR
}
pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr(j)*56
*(*Bitmask)(unsafe.Pointer(pNew)) |= (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight
*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pNew)).FaLTerm + uintptr(iTerm)*8)) = pTerm
if iTerm > mxTerm {
mxTerm = iTerm
}
if (*sqlite3_index_constraint_usage)(unsafe.Pointer(pUsage+uintptr(i)*8)).Fomit != 0 {
if i < 16 && int32(1)<<i&int32(mNoOmit) == 0 {
*(*U16)(unsafe.Pointer(pNew + 24 + 8)) |= U16(int32(1) << iTerm)
} else {
}
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeMatchOp) == SQLITE_INDEX_CONSTRAINT_OFFSET {
libc.SetBitFieldPtr8Uint32(pNew+24+4, U32(1), 1, 0x2)
}
}
if func() uint32 {
if i <= 31 {
return uint32(1) << i
}
return uint32(0)
}()&(*HiddenIndexInfo)(unsafe.Pointer(pHidden)).FmHandleIn != 0 {
*(*U32)(unsafe.Pointer(pNew + 24 + 24)) |= uint32(1) << iTerm
} else if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&WO_IN != 0 {
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).ForderByConsumed = 0
*(*int32)(unsafe.Pointer(pIdxInfo + 80)) &= libc.CplInt32(SQLITE_INDEX_SCAN_UNIQUE)
*(*int32)(unsafe.Pointer(pbIn)) = 1
}
if isLimitTerm(tls, pTerm) != 0 && *(*int32)(unsafe.Pointer(pbIn)) != 0 {
if (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FneedToFreeIdxStr != 0 {
Xsqlite3_free(tls, (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxStr)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxStr = uintptr(0)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FneedToFreeIdxStr = 0
}
*(*int32)(unsafe.Pointer(pbRetryLimit)) = 1
return SQLITE_OK
}
}
}
goto __5
__5:
i++
pIdxCons += 12
goto __4
goto __6
__6:
;
(*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm = U16(mxTerm + 1)
for i = 0; i <= mxTerm; i++ {
if *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pNew)).FaLTerm + uintptr(i)*8)) == uintptr(0) {
Xsqlite3ErrorMsg(tls, pParse, ts+22393, libc.VaList(bp+8, (*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pSrc)).FpTab)).FzName))
return SQLITE_ERROR
}
}
*(*int32)(unsafe.Pointer(pNew + 24)) = (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxNum
libc.SetBitFieldPtr8Uint32(pNew+24+4, U32((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FneedToFreeIdxStr), 0, 0x1)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FneedToFreeIdxStr = 0
*(*uintptr)(unsafe.Pointer(pNew + 24 + 16)) = (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxStr
*(*I8)(unsafe.Pointer(pNew + 24 + 6)) = func() int8 {
if (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).ForderByConsumed != 0 {
return int8((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FnOrderBy)
}
return int8(0)
}()
(*WhereLoop)(unsafe.Pointer(pNew)).FrSetup = int16(0)
(*WhereLoop)(unsafe.Pointer(pNew)).FrRun = Xsqlite3LogEstFromDouble(tls, (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedCost)
(*WhereLoop)(unsafe.Pointer(pNew)).FnOut = Xsqlite3LogEst(tls, uint64((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedRows))
if (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxFlags&SQLITE_INDEX_SCAN_UNIQUE != 0 {
*(*U32)(unsafe.Pointer(pNew + 56)) |= U32(WHERE_ONEROW)
} else {
*(*U32)(unsafe.Pointer(pNew + 56)) &= libc.Uint32FromInt32(libc.CplInt32(WHERE_ONEROW))
}
rc = whereLoopInsert(tls, pBuilder, pNew)
if U32(int32(*(*uint8)(unsafe.Pointer(pNew + 24 + 4))&0x1>>0)) != 0 {
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(pNew + 24 + 16)))
libc.SetBitFieldPtr8Uint32(pNew+24+4, U32(0), 0, 0x1)
}
return rc
}
// Return the collating sequence for a constraint passed into xBestIndex.
//
// pIdxInfo must be an sqlite3_index_info structure passed into xBestIndex.
// This routine depends on there being a HiddenIndexInfo structure immediately
// following the sqlite3_index_info structure.
//
// Return a pointer to the collation name:
//
// 1. If there is an explicit COLLATE operator on the constaint, return it.
//
// 2. Else, if the column has an alternative collation, return that.
//
// 3. Otherwise, return "BINARY".
func Xsqlite3_vtab_collation(tls *libc.TLS, pIdxInfo uintptr, iCons int32) uintptr {
var pHidden uintptr = pIdxInfo + 1*96
var zRet uintptr = uintptr(0)
if iCons >= 0 && iCons < (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FnConstraint {
var pC uintptr = uintptr(0)
var iTerm int32 = (*sqlite3_index_constraint)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraint + uintptr(iCons)*12)).FiTermOffset
var pX uintptr = (*WhereTerm)(unsafe.Pointer((*WhereClause)(unsafe.Pointer((*HiddenIndexInfo)(unsafe.Pointer(pHidden)).FpWC)).Fa + uintptr(iTerm)*56)).FpExpr
if (*Expr)(unsafe.Pointer(pX)).FpLeft != 0 {
pC = Xsqlite3ExprCompareCollSeq(tls, (*HiddenIndexInfo)(unsafe.Pointer(pHidden)).FpParse, pX)
}
zRet = func() uintptr {
if pC != 0 {
return (*CollSeq)(unsafe.Pointer(pC)).FzName
}
return uintptr(unsafe.Pointer(&Xsqlite3StrBINARY))
}()
}
return zRet
}
// Return true if constraint iCons is really an IN(...) constraint, or
// false otherwise. If iCons is an IN(...) constraint, set (if bHandle!=0)
// or clear (if bHandle==0) the flag to handle it using an iterator.
func Xsqlite3_vtab_in(tls *libc.TLS, pIdxInfo uintptr, iCons int32, bHandle int32) int32 {
var pHidden uintptr = pIdxInfo + 1*96
var m U32 = func() uint32 {
if iCons <= 31 {
return uint32(1) << iCons
}
return uint32(0)
}()
if m&(*HiddenIndexInfo)(unsafe.Pointer(pHidden)).FmIn != 0 {
if bHandle == 0 {
*(*U32)(unsafe.Pointer(pHidden + 24)) &= ^m
} else if bHandle > 0 {
*(*U32)(unsafe.Pointer(pHidden + 24)) |= m
}
return 1
}
return 0
}
// This interface is callable from within the xBestIndex callback only.
//
// If possible, set (*ppVal) to point to an object containing the value
// on the right-hand-side of constraint iCons.
func Xsqlite3_vtab_rhs_value(tls *libc.TLS, pIdxInfo uintptr, iCons int32, ppVal uintptr) int32 {
var pH uintptr = pIdxInfo + 1*96
var pVal uintptr = uintptr(0)
var rc int32 = SQLITE_OK
if iCons < 0 || iCons >= (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FnConstraint {
rc = SQLITE_MISUSE
} else {
if *(*uintptr)(unsafe.Pointer(pH + 32 + uintptr(iCons)*8)) == uintptr(0) {
var pTerm uintptr = (*WhereClause)(unsafe.Pointer((*HiddenIndexInfo)(unsafe.Pointer(pH)).FpWC)).Fa + uintptr((*sqlite3_index_constraint)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraint+uintptr(iCons)*12)).FiTermOffset)*56
rc = Xsqlite3ValueFromExpr(tls,
(*Parse)(unsafe.Pointer((*HiddenIndexInfo)(unsafe.Pointer(pH)).FpParse)).Fdb, (*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).FpRight, (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer((*HiddenIndexInfo)(unsafe.Pointer(pH)).FpParse)).Fdb)).Fenc,
uint8(SQLITE_AFF_BLOB), pH+32+uintptr(iCons)*8)
}
pVal = *(*uintptr)(unsafe.Pointer(pH + 32 + uintptr(iCons)*8))
}
*(*uintptr)(unsafe.Pointer(ppVal)) = pVal
if rc == SQLITE_OK && pVal == uintptr(0) {
rc = SQLITE_NOTFOUND
}
return rc
}
// Return true if ORDER BY clause may be handled as DISTINCT.
func Xsqlite3_vtab_distinct(tls *libc.TLS, pIdxInfo uintptr) int32 {
var pHidden uintptr = pIdxInfo + 1*96
return (*HiddenIndexInfo)(unsafe.Pointer(pHidden)).FeDistinct
}
func whereLoopAddVirtual(tls *libc.TLS, pBuilder uintptr, mPrereq Bitmask, mUnusable Bitmask) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
var rc int32 = SQLITE_OK
var pWInfo uintptr
var pParse uintptr
var pWC uintptr
var pSrc uintptr
var p uintptr
var nConstraint int32
var pNew uintptr
var mBest Bitmask
*(*int32)(unsafe.Pointer(bp + 8)) = 0
pWInfo = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWInfo
pParse = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse
pWC = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWC
pNew = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpNew
pSrc = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList + 8 + uintptr((*WhereLoop)(unsafe.Pointer(pNew)).FiTab)*104
p = allocateIndexInfo(tls, pWInfo, pWC, mUnusable, pSrc, bp)
if p == uintptr(0) {
return SQLITE_NOMEM
}
(*WhereLoop)(unsafe.Pointer(pNew)).FrSetup = int16(0)
(*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags = U32(WHERE_VIRTUALTABLE)
(*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm = U16(0)
libc.SetBitFieldPtr8Uint32(pNew+24+4, U32(0), 0, 0x1)
nConstraint = (*Sqlite3_index_info)(unsafe.Pointer(p)).FnConstraint
if whereLoopResize(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pNew, nConstraint) != 0 {
freeIndexInfo(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, p)
return SQLITE_NOMEM
}
rc = whereLoopAddVirtualOne(tls,
pBuilder, mPrereq, libc.Uint64(libc.Uint64FromInt32(-1)), uint16(0), p, *(*U16)(unsafe.Pointer(bp)), bp+4, bp+8)
if *(*int32)(unsafe.Pointer(bp + 8)) != 0 {
rc = whereLoopAddVirtualOne(tls,
pBuilder, mPrereq, libc.Uint64(libc.Uint64FromInt32(-1)), uint16(0), p, *(*U16)(unsafe.Pointer(bp)), bp+4, uintptr(0))
}
if rc == SQLITE_OK && (libc.AssignUint64(&mBest, (*WhereLoop)(unsafe.Pointer(pNew)).Fprereq & ^mPrereq) != uint64(0) || *(*int32)(unsafe.Pointer(bp + 4)) != 0) {
var seenZero int32 = 0
var seenZeroNoIN int32 = 0
var mPrev Bitmask = uint64(0)
var mBestNoIn Bitmask = uint64(0)
if *(*int32)(unsafe.Pointer(bp + 4)) != 0 {
rc = whereLoopAddVirtualOne(tls,
pBuilder, mPrereq, libc.Uint64(libc.Uint64FromInt32(-1)), uint16(WO_IN), p, *(*U16)(unsafe.Pointer(bp)), bp+4, uintptr(0))
mBestNoIn = (*WhereLoop)(unsafe.Pointer(pNew)).Fprereq & ^mPrereq
if mBestNoIn == uint64(0) {
seenZero = 1
seenZeroNoIN = 1
}
}
for rc == SQLITE_OK {
var i int32
var mNext Bitmask = libc.Uint64(libc.Uint64FromInt32(-1))
for i = 0; i < nConstraint; i++ {
var mThis Bitmask = (*WhereTerm)(unsafe.Pointer((*WhereClause)(unsafe.Pointer(pWC)).Fa+uintptr((*sqlite3_index_constraint)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(p)).FaConstraint+uintptr(i)*12)).FiTermOffset)*56)).FprereqRight & ^mPrereq
if mThis > mPrev && mThis < mNext {
mNext = mThis
}
}
mPrev = mNext
if mNext == libc.Uint64(libc.Uint64FromInt32(-1)) {
break
}
if mNext == mBest || mNext == mBestNoIn {
continue
}
rc = whereLoopAddVirtualOne(tls,
pBuilder, mPrereq, mNext|mPrereq, uint16(0), p, *(*U16)(unsafe.Pointer(bp)), bp+4, uintptr(0))
if (*WhereLoop)(unsafe.Pointer(pNew)).Fprereq == mPrereq {
seenZero = 1
if *(*int32)(unsafe.Pointer(bp + 4)) == 0 {
seenZeroNoIN = 1
}
}
}
if rc == SQLITE_OK && seenZero == 0 {
rc = whereLoopAddVirtualOne(tls,
pBuilder, mPrereq, mPrereq, uint16(0), p, *(*U16)(unsafe.Pointer(bp)), bp+4, uintptr(0))
if *(*int32)(unsafe.Pointer(bp + 4)) == 0 {
seenZeroNoIN = 1
}
}
if rc == SQLITE_OK && seenZeroNoIN == 0 {
rc = whereLoopAddVirtualOne(tls,
pBuilder, mPrereq, mPrereq, uint16(WO_IN), p, *(*U16)(unsafe.Pointer(bp)), bp+4, uintptr(0))
}
}
if (*Sqlite3_index_info)(unsafe.Pointer(p)).FneedToFreeIdxStr != 0 {
Xsqlite3_free(tls, (*Sqlite3_index_info)(unsafe.Pointer(p)).FidxStr)
}
freeIndexInfo(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, p)
return rc
}
func whereLoopAddOr(tls *libc.TLS, pBuilder uintptr, mPrereq Bitmask, mUnusable Bitmask) int32 {
bp := tls.Alloc(712)
defer tls.Free(712)
var pWInfo uintptr = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWInfo
var pWC uintptr
var pNew uintptr
var pTerm uintptr
var pWCEnd uintptr
var rc int32 = SQLITE_OK
var iCur int32
var pItem uintptr
pWC = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWC
pWCEnd = (*WhereClause)(unsafe.Pointer(pWC)).Fa + uintptr((*WhereClause)(unsafe.Pointer(pWC)).FnTerm)*56
pNew = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpNew
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(WhereOrSet{})), libc.X__builtin_object_size(tls, bp, 0))
pItem = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList + 8 + uintptr((*WhereLoop)(unsafe.Pointer(pNew)).FiTab)*104
iCur = (*SrcItem)(unsafe.Pointer(pItem)).FiCursor
if int32((*SrcItem)(unsafe.Pointer(pItem)).Ffg.Fjointype)&JT_RIGHT != 0 {
return SQLITE_OK
}
for pTerm = (*WhereClause)(unsafe.Pointer(pWC)).Fa; pTerm < pWCEnd && rc == SQLITE_OK; pTerm += 56 {
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&WO_OR != 0 &&
(*WhereOrInfo)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pTerm + 32)))).Findexable&(*WhereLoop)(unsafe.Pointer(pNew)).FmaskSelf != uint64(0) {
var pOrWC uintptr = *(*uintptr)(unsafe.Pointer(pTerm + 32))
var pOrWCEnd uintptr = (*WhereClause)(unsafe.Pointer(pOrWC)).Fa + uintptr((*WhereClause)(unsafe.Pointer(pOrWC)).FnTerm)*56
var pOrTerm uintptr
var once int32 = 1
var i int32
var j int32
*(*WhereLoopBuilder)(unsafe.Pointer(bp + 600)) = *(*WhereLoopBuilder)(unsafe.Pointer(pBuilder))
(*WhereLoopBuilder)(unsafe.Pointer(bp + 600)).FpOrSet = bp + 56
for pOrTerm = (*WhereClause)(unsafe.Pointer(pOrWC)).Fa; pOrTerm < pOrWCEnd; pOrTerm += 56 {
if int32((*WhereTerm)(unsafe.Pointer(pOrTerm)).FeOperator)&WO_AND != 0 {
(*WhereLoopBuilder)(unsafe.Pointer(bp + 600)).FpWC = *(*uintptr)(unsafe.Pointer(pOrTerm + 32))
} else if (*WhereTerm)(unsafe.Pointer(pOrTerm)).FleftCursor == iCur {
(*WhereClause)(unsafe.Pointer(bp + 112)).FpWInfo = (*WhereClause)(unsafe.Pointer(pWC)).FpWInfo
(*WhereClause)(unsafe.Pointer(bp + 112)).FpOuter = pWC
(*WhereClause)(unsafe.Pointer(bp + 112)).Fop = U8(TK_AND)
(*WhereClause)(unsafe.Pointer(bp + 112)).FnTerm = 1
(*WhereClause)(unsafe.Pointer(bp + 112)).FnBase = 1
(*WhereClause)(unsafe.Pointer(bp + 112)).Fa = pOrTerm
(*WhereLoopBuilder)(unsafe.Pointer(bp + 600)).FpWC = bp + 112
} else {
continue
}
(*WhereOrSet)(unsafe.Pointer(bp + 56)).Fn = U16(0)
if int32((*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pItem)).FpTab)).FeTabType) == TABTYP_VTAB {
rc = whereLoopAddVirtual(tls, bp+600, mPrereq, mUnusable)
} else {
rc = whereLoopAddBtree(tls, bp+600, mPrereq)
}
if rc == SQLITE_OK {
rc = whereLoopAddOr(tls, bp+600, mPrereq, mUnusable)
}
if int32((*WhereOrSet)(unsafe.Pointer(bp+56)).Fn) == 0 {
(*WhereOrSet)(unsafe.Pointer(bp)).Fn = U16(0)
break
} else if once != 0 {
whereOrMove(tls, bp, bp+56)
once = 0
} else {
whereOrMove(tls, bp+656, bp)
(*WhereOrSet)(unsafe.Pointer(bp)).Fn = U16(0)
for i = 0; i < int32((*WhereOrSet)(unsafe.Pointer(bp+656)).Fn); i++ {
for j = 0; j < int32((*WhereOrSet)(unsafe.Pointer(bp+56)).Fn); j++ {
whereOrInsert(tls, bp, (*WhereOrCost)(unsafe.Pointer(bp+656+8+uintptr(i)*16)).Fprereq|(*WhereOrCost)(unsafe.Pointer(bp+56+8+uintptr(j)*16)).Fprereq,
Xsqlite3LogEstAdd(tls, (*WhereOrCost)(unsafe.Pointer(bp+656+8+uintptr(i)*16)).FrRun, (*WhereOrCost)(unsafe.Pointer(bp+56+8+uintptr(j)*16)).FrRun),
Xsqlite3LogEstAdd(tls, (*WhereOrCost)(unsafe.Pointer(bp+656+8+uintptr(i)*16)).FnOut, (*WhereOrCost)(unsafe.Pointer(bp+56+8+uintptr(j)*16)).FnOut))
}
}
}
}
(*WhereLoop)(unsafe.Pointer(pNew)).FnLTerm = U16(1)
*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pNew)).FaLTerm)) = pTerm
(*WhereLoop)(unsafe.Pointer(pNew)).FwsFlags = U32(WHERE_MULTI_OR)
(*WhereLoop)(unsafe.Pointer(pNew)).FrSetup = int16(0)
(*WhereLoop)(unsafe.Pointer(pNew)).FiSortIdx = U8(0)
libc.X__builtin___memset_chk(tls, pNew+24, 0, uint64(unsafe.Sizeof(struct {
Fbtree struct {
FnEq U16
FnBtm U16
FnTop U16
FnDistinctCol U16
FpIndex uintptr
}
F__ccgo_pad1 [16]byte
}{})), libc.X__builtin_object_size(tls, pNew+24, 0))
for i = 0; rc == SQLITE_OK && i < int32((*WhereOrSet)(unsafe.Pointer(bp)).Fn); i++ {
(*WhereLoop)(unsafe.Pointer(pNew)).FrRun = LogEst(int32((*WhereOrCost)(unsafe.Pointer(bp+8+uintptr(i)*16)).FrRun) + 1)
(*WhereLoop)(unsafe.Pointer(pNew)).FnOut = (*WhereOrCost)(unsafe.Pointer(bp + 8 + uintptr(i)*16)).FnOut
(*WhereLoop)(unsafe.Pointer(pNew)).Fprereq = (*WhereOrCost)(unsafe.Pointer(bp + 8 + uintptr(i)*16)).Fprereq
rc = whereLoopInsert(tls, pBuilder, pNew)
}
}
}
return rc
}
func whereLoopAddAll(tls *libc.TLS, pBuilder uintptr) int32 {
var pWInfo uintptr = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWInfo
var mPrereq Bitmask = uint64(0)
var mPrior Bitmask = uint64(0)
var iTab int32
var pTabList uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList
var pItem uintptr
var pEnd uintptr = pTabList + 8 + uintptr((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel)*104
var db uintptr = (*Parse)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse)).Fdb
var rc int32 = SQLITE_OK
var bFirstPastRJ int32 = 0
var hasRightJoin int32 = 0
var pNew uintptr
pNew = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpNew
(*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FiPlanLimit = uint32(SQLITE_QUERY_PLANNER_LIMIT)
iTab = 0
pItem = pTabList + 8
__1:
if !(pItem < pEnd) {
goto __3
}
{
var mUnusable Bitmask = uint64(0)
(*WhereLoop)(unsafe.Pointer(pNew)).FiTab = U8(iTab)
*(*uint32)(unsafe.Pointer(pBuilder + 48)) += uint32(SQLITE_QUERY_PLANNER_LIMIT_INCR)
(*WhereLoop)(unsafe.Pointer(pNew)).FmaskSelf = Xsqlite3WhereGetMask(tls, pWInfo+592, (*SrcItem)(unsafe.Pointer(pItem)).FiCursor)
if bFirstPastRJ != 0 ||
int32((*SrcItem)(unsafe.Pointer(pItem)).Ffg.Fjointype)&(JT_OUTER|JT_CROSS|JT_LTORJ) != 0 {
if int32((*SrcItem)(unsafe.Pointer(pItem)).Ffg.Fjointype)&JT_LTORJ != 0 {
hasRightJoin = 1
}
mPrereq = mPrereq | mPrior
bFirstPastRJ = libc.Bool32(int32((*SrcItem)(unsafe.Pointer(pItem)).Ffg.Fjointype)&JT_RIGHT != 0)
} else if !(hasRightJoin != 0) {
mPrereq = uint64(0)
}
if int32((*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pItem)).FpTab)).FeTabType) == TABTYP_VTAB {
var p uintptr
for p = pItem + 1*104; p < pEnd; p += 104 {
if mUnusable != 0 || int32((*SrcItem)(unsafe.Pointer(p)).Ffg.Fjointype)&(JT_OUTER|JT_CROSS) != 0 {
mUnusable = mUnusable | Xsqlite3WhereGetMask(tls, pWInfo+592, (*SrcItem)(unsafe.Pointer(p)).FiCursor)
}
}
rc = whereLoopAddVirtual(tls, pBuilder, mPrereq, mUnusable)
} else {
rc = whereLoopAddBtree(tls, pBuilder, mPrereq)
}
if rc == SQLITE_OK && (*WhereClause)(unsafe.Pointer((*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWC)).FhasOr != 0 {
rc = whereLoopAddOr(tls, pBuilder, mPrereq, mUnusable)
}
mPrior = mPrior | (*WhereLoop)(unsafe.Pointer(pNew)).FmaskSelf
if rc != 0 || (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
if rc == SQLITE_DONE {
Xsqlite3_log(tls, SQLITE_WARNING, ts+22419, 0)
rc = SQLITE_OK
} else {
goto __3
}
}
}
goto __2
__2:
iTab++
pItem += 104
goto __1
goto __3
__3:
;
whereLoopClear(tls, db, pNew)
return rc
}
func wherePathSatisfiesOrderBy(tls *libc.TLS, pWInfo uintptr, pOrderBy uintptr, pPath uintptr, wctrlFlags U16, nLoop U16, pLast uintptr, pRevMask uintptr) I8 {
var revSet U8
var rev U8
var revIdx U8
var isOrderDistinct U8
var distinctColumns U8
var isMatch U8
var eqOpMask U16
var nKeyCol U16
var nColumn U16
var nOrderBy U16
var iLoop int32
var i int32
var j int32
var iCur int32
var iColumn int32
var pLoop uintptr = uintptr(0)
var pTerm uintptr
var pOBExpr uintptr
var pColl uintptr
var pIndex uintptr
var db uintptr = (*Parse)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse)).Fdb
var obSat Bitmask = uint64(0)
var obDone Bitmask
var orderDistinctMask Bitmask
var ready Bitmask
if nLoop != 0 && (*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_OrderByIdxJoin) != U32(0) {
return int8(0)
}
nOrderBy = U16((*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr)
if int32(nOrderBy) > int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8))-1 {
return int8(0)
}
isOrderDistinct = U8(1)
obDone = uint64(1)<<int32(nOrderBy) - uint64(1)
orderDistinctMask = uint64(0)
ready = uint64(0)
eqOpMask = U16(WO_EQ | WO_IS | WO_ISNULL)
if int32(wctrlFlags)&(WHERE_ORDERBY_LIMIT|WHERE_ORDERBY_MAX|WHERE_ORDERBY_MIN) != 0 {
eqOpMask = U16(int32(eqOpMask) | WO_IN)
}
for iLoop = 0; isOrderDistinct != 0 && obSat < obDone && iLoop <= int32(nLoop); iLoop++ {
if iLoop > 0 {
ready = ready | (*WhereLoop)(unsafe.Pointer(pLoop)).FmaskSelf
}
if iLoop < int32(nLoop) {
pLoop = *(*uintptr)(unsafe.Pointer((*WherePath)(unsafe.Pointer(pPath)).FaLoop + uintptr(iLoop)*8))
if int32(wctrlFlags)&WHERE_ORDERBY_LIMIT != 0 {
continue
}
} else {
pLoop = pLast
}
if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_VIRTUALTABLE) != 0 {
if *(*I8)(unsafe.Pointer(pLoop + 24 + 6)) != 0 &&
int32(wctrlFlags)&(WHERE_DISTINCTBY|WHERE_SORTBYGROUP) != WHERE_DISTINCTBY {
obSat = obDone
}
break
} else if int32(wctrlFlags)&WHERE_DISTINCTBY != 0 {
*(*U16)(unsafe.Pointer(pLoop + 24 + 6)) = U16(0)
}
iCur = (*SrcItem)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList + 8 + uintptr((*WhereLoop)(unsafe.Pointer(pLoop)).FiTab)*104)).FiCursor
for i = 0; i < int32(nOrderBy); i++ {
if uint64(1)<<i&obSat != 0 {
continue
}
pOBExpr = Xsqlite3ExprSkipCollateAndLikely(tls, (*ExprList_item)(unsafe.Pointer(pOrderBy+8+uintptr(i)*32)).FpExpr)
if pOBExpr == uintptr(0) {
continue
}
if int32((*Expr)(unsafe.Pointer(pOBExpr)).Fop) != TK_COLUMN && int32((*Expr)(unsafe.Pointer(pOBExpr)).Fop) != TK_AGG_COLUMN {
continue
}
if (*Expr)(unsafe.Pointer(pOBExpr)).FiTable != iCur {
continue
}
pTerm = Xsqlite3WhereFindTerm(tls, pWInfo+104, iCur, int32((*Expr)(unsafe.Pointer(pOBExpr)).FiColumn),
^ready, uint32(eqOpMask), uintptr(0))
if pTerm == uintptr(0) {
continue
}
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator) == WO_IN {
for j = 0; j < int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnLTerm) && pTerm != *(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(j)*8)); j++ {
}
if j >= int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnLTerm) {
continue
}
}
if int32((*WhereTerm)(unsafe.Pointer(pTerm)).FeOperator)&(WO_EQ|WO_IS) != 0 && int32((*Expr)(unsafe.Pointer(pOBExpr)).FiColumn) >= 0 {
var pParse uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse
var pColl1 uintptr = Xsqlite3ExprNNCollSeq(tls, pParse, (*ExprList_item)(unsafe.Pointer(pOrderBy+8+uintptr(i)*32)).FpExpr)
var pColl2 uintptr = Xsqlite3ExprCompareCollSeq(tls, pParse, (*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)
if pColl2 == uintptr(0) || Xsqlite3StrICmp(tls, (*CollSeq)(unsafe.Pointer(pColl1)).FzName, (*CollSeq)(unsafe.Pointer(pColl2)).FzName) != 0 {
continue
}
}
obSat = obSat | uint64(1)<<i
}
if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_ONEROW) == U32(0) {
if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IPK) != 0 {
pIndex = uintptr(0)
nKeyCol = U16(0)
nColumn = U16(1)
} else if libc.AssignUintptr(&pIndex, *(*uintptr)(unsafe.Pointer(pLoop + 24 + 8))) == uintptr(0) || uint32(int32(*(*uint16)(unsafe.Pointer(pIndex + 100))&0x4>>2)) != 0 {
return int8(0)
} else {
nKeyCol = (*Index)(unsafe.Pointer(pIndex)).FnKeyCol
nColumn = (*Index)(unsafe.Pointer(pIndex)).FnColumn
isOrderDistinct = U8(libc.Bool32(int32((*Index)(unsafe.Pointer(pIndex)).FonError) != OE_None &&
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_SKIPSCAN) == U32(0)))
}
rev = libc.AssignUint8(&revSet, U8(0))
distinctColumns = U8(0)
for j = 0; j < int32(nColumn); j++ {
var bOnce U8 = U8(1)
if j < int32(*(*U16)(unsafe.Pointer(pLoop + 24))) && j >= int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnSkip) {
var eOp U16 = (*WhereTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(j)*8)))).FeOperator
if int32(eOp)&int32(eqOpMask) != 0 {
if int32(eOp)&(WO_ISNULL|WO_IS) != 0 {
isOrderDistinct = U8(0)
}
continue
} else if int32(eOp)&WO_IN != 0 {
var pX uintptr = (*WhereTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(j)*8)))).FpExpr
for i = j + 1; i < int32(*(*U16)(unsafe.Pointer(pLoop + 24))); i++ {
if (*WhereTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(i)*8)))).FpExpr == pX {
bOnce = U8(0)
break
}
}
}
}
if pIndex != 0 {
iColumn = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FaiColumn + uintptr(j)*2)))
revIdx = U8(int32(*(*U8)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FaSortOrder + uintptr(j)))) & KEYINFO_ORDER_DESC)
if iColumn == int32((*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FpTable)).FiPKey) {
iColumn = -1
}
} else {
iColumn = -1
revIdx = U8(0)
}
if isOrderDistinct != 0 {
if iColumn >= 0 &&
j >= int32(*(*U16)(unsafe.Pointer(pLoop + 24))) &&
int32(*(*uint8)(unsafe.Pointer((*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FpTable)).FaCol + uintptr(iColumn)*24 + 8))&0xf>>0) == 0 {
isOrderDistinct = U8(0)
}
if iColumn == -2 {
isOrderDistinct = U8(0)
}
}
isMatch = U8(0)
for i = 0; bOnce != 0 && i < int32(nOrderBy); i++ {
if uint64(1)<<i&obSat != 0 {
continue
}
pOBExpr = Xsqlite3ExprSkipCollateAndLikely(tls, (*ExprList_item)(unsafe.Pointer(pOrderBy+8+uintptr(i)*32)).FpExpr)
if pOBExpr == uintptr(0) {
continue
}
if int32(wctrlFlags)&(WHERE_GROUPBY|WHERE_DISTINCTBY) == 0 {
bOnce = U8(0)
}
if iColumn >= -1 {
if int32((*Expr)(unsafe.Pointer(pOBExpr)).Fop) != TK_COLUMN && int32((*Expr)(unsafe.Pointer(pOBExpr)).Fop) != TK_AGG_COLUMN {
continue
}
if (*Expr)(unsafe.Pointer(pOBExpr)).FiTable != iCur {
continue
}
if int32((*Expr)(unsafe.Pointer(pOBExpr)).FiColumn) != iColumn {
continue
}
} else {
var pIxExpr uintptr = (*ExprList_item)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FaColExpr + 8 + uintptr(j)*32)).FpExpr
if Xsqlite3ExprCompareSkip(tls, pOBExpr, pIxExpr, iCur) != 0 {
continue
}
}
if iColumn != -1 {
pColl = Xsqlite3ExprNNCollSeq(tls, (*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse, (*ExprList_item)(unsafe.Pointer(pOrderBy+8+uintptr(i)*32)).FpExpr)
if Xsqlite3StrICmp(tls, (*CollSeq)(unsafe.Pointer(pColl)).FzName, *(*uintptr)(unsafe.Pointer((*Index)(unsafe.Pointer(pIndex)).FazColl + uintptr(j)*8))) != 0 {
continue
}
}
if int32(wctrlFlags)&WHERE_DISTINCTBY != 0 {
*(*U16)(unsafe.Pointer(pLoop + 24 + 6)) = U16(j + 1)
}
isMatch = U8(1)
break
}
if isMatch != 0 && int32(wctrlFlags)&WHERE_GROUPBY == 0 {
if revSet != 0 {
if int32(rev)^int32(revIdx) !=
int32((*ExprList_item)(unsafe.Pointer(pOrderBy+8+uintptr(i)*32)).Ffg.FsortFlags)&KEYINFO_ORDER_DESC {
isMatch = U8(0)
}
} else {
rev = U8(int32(revIdx) ^ int32((*ExprList_item)(unsafe.Pointer(pOrderBy+8+uintptr(i)*32)).Ffg.FsortFlags)&KEYINFO_ORDER_DESC)
if rev != 0 {
*(*Bitmask)(unsafe.Pointer(pRevMask)) |= uint64(1) << iLoop
}
revSet = U8(1)
}
}
if isMatch != 0 && int32((*ExprList_item)(unsafe.Pointer(pOrderBy+8+uintptr(i)*32)).Ffg.FsortFlags)&KEYINFO_ORDER_BIGNULL != 0 {
if j == int32(*(*U16)(unsafe.Pointer(pLoop + 24))) {
*(*U32)(unsafe.Pointer(pLoop + 56)) |= U32(WHERE_BIGNULL_SORT)
} else {
isMatch = U8(0)
}
}
if isMatch != 0 {
if iColumn == -1 {
distinctColumns = U8(1)
}
obSat = obSat | uint64(1)<<i
} else {
if j == 0 || j < int32(nKeyCol) {
isOrderDistinct = U8(0)
}
break
}
}
if distinctColumns != 0 {
isOrderDistinct = U8(1)
}
}
if isOrderDistinct != 0 {
orderDistinctMask = orderDistinctMask | (*WhereLoop)(unsafe.Pointer(pLoop)).FmaskSelf
for i = 0; i < int32(nOrderBy); i++ {
var p uintptr
var mTerm Bitmask
if uint64(1)<<i&obSat != 0 {
continue
}
p = (*ExprList_item)(unsafe.Pointer(pOrderBy + 8 + uintptr(i)*32)).FpExpr
mTerm = Xsqlite3WhereExprUsage(tls, pWInfo+592, p)
if mTerm == uint64(0) && !(Xsqlite3ExprIsConstant(tls, p) != 0) {
continue
}
if mTerm & ^orderDistinctMask == uint64(0) {
obSat = obSat | uint64(1)<<i
}
}
}
}
if obSat == obDone {
return I8(nOrderBy)
}
if !(isOrderDistinct != 0) {
for i = int32(nOrderBy) - 1; i > 0; i-- {
var m Bitmask
if i < int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8)) {
m = uint64(1)<<i - uint64(1)
} else {
m = uint64(0)
}
if obSat&m == m {
return I8(i)
}
}
return int8(0)
}
return int8(-1)
}
// If the WHERE_GROUPBY flag is set in the mask passed to sqlite3WhereBegin(),
// the planner assumes that the specified pOrderBy list is actually a GROUP
// BY clause - and so any order that groups rows as required satisfies the
// request.
//
// Normally, in this case it is not possible for the caller to determine
// whether or not the rows are really being delivered in sorted order, or
// just in some other order that provides the required grouping. However,
// if the WHERE_SORTBYGROUP flag is also passed to sqlite3WhereBegin(), then
// this function may be called on the returned WhereInfo object. It returns
// true if the rows really will be sorted in the specified order, or false
// otherwise.
//
// For example, assuming:
//
// CREATE INDEX i1 ON t1(x, Y);
//
// then
//
// SELECT * FROM t1 GROUP BY x,y ORDER BY x,y; -- IsSorted()==1
// SELECT * FROM t1 GROUP BY y,x ORDER BY y,x; -- IsSorted()==0
func Xsqlite3WhereIsSorted(tls *libc.TLS, pWInfo uintptr) int32 {
return int32(*(*uint8)(unsafe.Pointer(pWInfo + 68)) & 0x8 >> 3)
}
func whereSortingCost(tls *libc.TLS, pWInfo uintptr, nRow LogEst, nOrderBy int32, nSorted int32) LogEst {
var rSortCost LogEst
var nCol LogEst
nCol = Xsqlite3LogEst(tls, uint64(((*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpSelect)).FpEList)).FnExpr+59)/30))
rSortCost = LogEst(int32(nRow) + int32(nCol))
if nSorted > 0 {
rSortCost = LogEst(int32(rSortCost) + (int32(Xsqlite3LogEst(tls, uint64((nOrderBy-nSorted)*100/nOrderBy))) - 66))
}
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_USE_LIMIT != 0 {
rSortCost = int16(int32(rSortCost) + 10)
if nSorted != 0 {
rSortCost = int16(int32(rSortCost) + 6)
}
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FiLimit) < int32(nRow) {
nRow = (*WhereInfo)(unsafe.Pointer(pWInfo)).FiLimit
}
} else if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_WANT_DISTINCT != 0 {
if int32(nRow) > 10 {
nRow = int16(int32(nRow) - 10)
}
}
rSortCost = LogEst(int32(rSortCost) + int32(estLog(tls, nRow)))
return rSortCost
}
func wherePathSolver(tls *libc.TLS, pWInfo uintptr, nRowEst LogEst) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var mxChoice int32
var nLoop int32
var pParse uintptr
var iLoop int32
var ii int32
var jj int32
var mxI int32 = 0
var nOrderBy int32
var mxCost LogEst = int16(0)
var mxUnsorted LogEst = int16(0)
var nTo int32
var nFrom int32
var aFrom uintptr
var aTo uintptr
var pFrom uintptr
var pTo uintptr
var pWLoop uintptr
var pX uintptr
var aSortCost uintptr = uintptr(0)
var pSpace uintptr
var nSpace int32
pParse = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse
nLoop = int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel)
if nLoop <= 1 {
mxChoice = 1
} else {
mxChoice = func() int32 {
if nLoop == 2 {
return 5
}
return 10
}()
}
if (*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy == uintptr(0) || int32(nRowEst) == 0 {
nOrderBy = 0
} else {
nOrderBy = (*ExprList)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy)).FnExpr
}
nSpace = int32((uint64(unsafe.Sizeof(WherePath{})) + uint64(unsafe.Sizeof(uintptr(0)))*uint64(nLoop)) * uint64(mxChoice) * uint64(2))
nSpace = int32(uint64(nSpace) + uint64(unsafe.Sizeof(LogEst(0)))*uint64(nOrderBy))
pSpace = Xsqlite3DbMallocRawNN(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(nSpace))
if pSpace == uintptr(0) {
return SQLITE_NOMEM
}
aTo = pSpace
aFrom = aTo + uintptr(mxChoice)*32
libc.X__builtin___memset_chk(tls, aFrom, 0, uint64(unsafe.Sizeof(WherePath{})), libc.X__builtin_object_size(tls, aFrom, 0))
pX = aFrom + uintptr(mxChoice)*32
ii = mxChoice * 2
pFrom = aTo
__1:
if !(ii > 0) {
goto __3
}
{
(*WherePath)(unsafe.Pointer(pFrom)).FaLoop = pX
}
goto __2
__2:
ii--
pFrom += 32
pX += 8 * uintptr(nLoop)
goto __1
goto __3
__3:
;
if nOrderBy != 0 {
aSortCost = pX
libc.X__builtin___memset_chk(tls, aSortCost, 0, uint64(unsafe.Sizeof(LogEst(0)))*uint64(nOrderBy), libc.X__builtin_object_size(tls, aSortCost, 0))
}
(*WherePath)(unsafe.Pointer(aFrom)).FnRow = func() int16 {
if (*Parse)(unsafe.Pointer(pParse)).FnQueryLoop < U32(48) {
return int16((*Parse)(unsafe.Pointer(pParse)).FnQueryLoop)
}
return int16(48)
}()
nFrom = 1
if nOrderBy != 0 {
(*WherePath)(unsafe.Pointer(aFrom)).FisOrdered = func() int8 {
if nLoop > 0 {
return int8(-1)
}
return int8(nOrderBy)
}()
}
for iLoop = 0; iLoop < nLoop; iLoop++ {
nTo = 0
ii = 0
pFrom = aFrom
__4:
if !(ii < nFrom) {
goto __6
}
{
for pWLoop = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpLoops; pWLoop != 0; pWLoop = (*WhereLoop)(unsafe.Pointer(pWLoop)).FpNextLoop {
var nOut LogEst
var rCost LogEst
var rUnsorted LogEst
var isOrdered I8
var maskNew Bitmask
if (*WhereLoop)(unsafe.Pointer(pWLoop)).Fprereq & ^(*WherePath)(unsafe.Pointer(pFrom)).FmaskLoop != uint64(0) {
continue
}
if (*WhereLoop)(unsafe.Pointer(pWLoop)).FmaskSelf&(*WherePath)(unsafe.Pointer(pFrom)).FmaskLoop != uint64(0) {
continue
}
if (*WhereLoop)(unsafe.Pointer(pWLoop)).FwsFlags&U32(WHERE_AUTO_INDEX) != U32(0) && int32((*WherePath)(unsafe.Pointer(pFrom)).FnRow) < 3 {
continue
}
rUnsorted = Xsqlite3LogEstAdd(tls, (*WhereLoop)(unsafe.Pointer(pWLoop)).FrSetup, int16(int32((*WhereLoop)(unsafe.Pointer(pWLoop)).FrRun)+int32((*WherePath)(unsafe.Pointer(pFrom)).FnRow)))
rUnsorted = Xsqlite3LogEstAdd(tls, rUnsorted, (*WherePath)(unsafe.Pointer(pFrom)).FrUnsorted)
nOut = LogEst(int32((*WherePath)(unsafe.Pointer(pFrom)).FnRow) + int32((*WhereLoop)(unsafe.Pointer(pWLoop)).FnOut))
maskNew = (*WherePath)(unsafe.Pointer(pFrom)).FmaskLoop | (*WhereLoop)(unsafe.Pointer(pWLoop)).FmaskSelf
isOrdered = (*WherePath)(unsafe.Pointer(pFrom)).FisOrdered
if int32(isOrdered) < 0 {
*(*Bitmask)(unsafe.Pointer(bp)) = uint64(0)
isOrdered = wherePathSatisfiesOrderBy(tls, pWInfo,
(*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy, pFrom, (*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags,
uint16(iLoop), pWLoop, bp)
} else {
*(*Bitmask)(unsafe.Pointer(bp)) = (*WherePath)(unsafe.Pointer(pFrom)).FrevLoop
}
if int32(isOrdered) >= 0 && int32(isOrdered) < nOrderBy {
if int32(*(*LogEst)(unsafe.Pointer(aSortCost + uintptr(isOrdered)*2))) == 0 {
*(*LogEst)(unsafe.Pointer(aSortCost + uintptr(isOrdered)*2)) = whereSortingCost(tls,
pWInfo, nRowEst, nOrderBy, int32(isOrdered))
}
rCost = LogEst(int32(Xsqlite3LogEstAdd(tls, rUnsorted, *(*LogEst)(unsafe.Pointer(aSortCost + uintptr(isOrdered)*2)))) + 3)
} else {
rCost = rUnsorted
rUnsorted = int16(int32(rUnsorted) - 2)
}
if iLoop == 0 && (*WhereLoop)(unsafe.Pointer(pWLoop)).FwsFlags&U32(WHERE_VIEWSCAN) != U32(0) {
rCost = int16(int32(rCost) + -10)
nOut = int16(int32(nOut) + -30)
}
jj = 0
pTo = aTo
__7:
if !(jj < nTo) {
goto __9
}
{
if (*WherePath)(unsafe.Pointer(pTo)).FmaskLoop == maskNew &&
(int32((*WherePath)(unsafe.Pointer(pTo)).FisOrdered)^int32(isOrdered))&0x80 == 0 {
goto __9
}
}
goto __8
__8:
jj++
pTo += 32
goto __7
goto __9
__9:
;
if jj >= nTo {
if nTo >= mxChoice &&
(int32(rCost) > int32(mxCost) || int32(rCost) == int32(mxCost) && int32(rUnsorted) >= int32(mxUnsorted)) {
continue
}
if nTo < mxChoice {
jj = libc.PostIncInt32(&nTo, 1)
} else {
jj = mxI
}
pTo = aTo + uintptr(jj)*32
} else {
if int32((*WherePath)(unsafe.Pointer(pTo)).FrCost) < int32(rCost) ||
int32((*WherePath)(unsafe.Pointer(pTo)).FrCost) == int32(rCost) &&
(int32((*WherePath)(unsafe.Pointer(pTo)).FnRow) < int32(nOut) ||
int32((*WherePath)(unsafe.Pointer(pTo)).FnRow) == int32(nOut) && int32((*WherePath)(unsafe.Pointer(pTo)).FrUnsorted) <= int32(rUnsorted)) {
continue
}
}
(*WherePath)(unsafe.Pointer(pTo)).FmaskLoop = (*WherePath)(unsafe.Pointer(pFrom)).FmaskLoop | (*WhereLoop)(unsafe.Pointer(pWLoop)).FmaskSelf
(*WherePath)(unsafe.Pointer(pTo)).FrevLoop = *(*Bitmask)(unsafe.Pointer(bp))
(*WherePath)(unsafe.Pointer(pTo)).FnRow = nOut
(*WherePath)(unsafe.Pointer(pTo)).FrCost = rCost
(*WherePath)(unsafe.Pointer(pTo)).FrUnsorted = rUnsorted
(*WherePath)(unsafe.Pointer(pTo)).FisOrdered = isOrdered
libc.X__builtin___memcpy_chk(tls, (*WherePath)(unsafe.Pointer(pTo)).FaLoop, (*WherePath)(unsafe.Pointer(pFrom)).FaLoop, uint64(unsafe.Sizeof(uintptr(0)))*uint64(iLoop), libc.X__builtin_object_size(tls, (*WherePath)(unsafe.Pointer(pTo)).FaLoop, 0))
*(*uintptr)(unsafe.Pointer((*WherePath)(unsafe.Pointer(pTo)).FaLoop + uintptr(iLoop)*8)) = pWLoop
if nTo >= mxChoice {
mxI = 0
mxCost = (*WherePath)(unsafe.Pointer(aTo)).FrCost
mxUnsorted = (*WherePath)(unsafe.Pointer(aTo)).FnRow
jj = 1
pTo = aTo + 1*32
__10:
if !(jj < mxChoice) {
goto __12
}
{
if int32((*WherePath)(unsafe.Pointer(pTo)).FrCost) > int32(mxCost) ||
int32((*WherePath)(unsafe.Pointer(pTo)).FrCost) == int32(mxCost) && int32((*WherePath)(unsafe.Pointer(pTo)).FrUnsorted) > int32(mxUnsorted) {
mxCost = (*WherePath)(unsafe.Pointer(pTo)).FrCost
mxUnsorted = (*WherePath)(unsafe.Pointer(pTo)).FrUnsorted
mxI = jj
}
}
goto __11
__11:
jj++
pTo += 32
goto __10
goto __12
__12:
}
}
}
goto __5
__5:
ii++
pFrom += 32
goto __4
goto __6
__6:
;
pFrom = aTo
aTo = aFrom
aFrom = pFrom
nFrom = nTo
}
if nFrom == 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+22454, 0)
Xsqlite3DbFreeNN(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pSpace)
return SQLITE_ERROR
}
pFrom = aFrom
for ii = 1; ii < nFrom; ii++ {
if int32((*WherePath)(unsafe.Pointer(pFrom)).FrCost) > int32((*WherePath)(unsafe.Pointer(aFrom+uintptr(ii)*32)).FrCost) {
pFrom = aFrom + uintptr(ii)*32
}
}
for iLoop = 0; iLoop < nLoop; iLoop++ {
var pLevel uintptr = pWInfo + 856 + uintptr(iLoop)*104
(*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop = libc.AssignUintptr(&pWLoop, *(*uintptr)(unsafe.Pointer((*WherePath)(unsafe.Pointer(pFrom)).FaLoop + uintptr(iLoop)*8)))
(*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom = (*WhereLoop)(unsafe.Pointer(pWLoop)).FiTab
(*WhereLevel)(unsafe.Pointer(pLevel)).FiTabCur = (*SrcItem)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList + 8 + uintptr((*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom)*104)).FiCursor
}
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_WANT_DISTINCT != 0 &&
int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_DISTINCTBY == 0 &&
int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FeDistinct) == WHERE_DISTINCT_NOOP &&
nRowEst != 0 {
var rc int32 = int32(wherePathSatisfiesOrderBy(tls, pWInfo, (*WhereInfo)(unsafe.Pointer(pWInfo)).FpResultSet, pFrom,
uint16(WHERE_DISTINCTBY), uint16(nLoop-1), *(*uintptr)(unsafe.Pointer((*WherePath)(unsafe.Pointer(pFrom)).FaLoop + uintptr(nLoop-1)*8)), bp+8))
if rc == (*ExprList)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpResultSet)).FnExpr {
(*WhereInfo)(unsafe.Pointer(pWInfo)).FeDistinct = U8(WHERE_DISTINCT_ORDERED)
}
}
libc.SetBitFieldPtr8Uint32(pWInfo+68, uint32(0), 2, 0x4)
if (*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy != 0 {
(*WhereInfo)(unsafe.Pointer(pWInfo)).FnOBSat = (*WherePath)(unsafe.Pointer(pFrom)).FisOrdered
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_DISTINCTBY != 0 {
if int32((*WherePath)(unsafe.Pointer(pFrom)).FisOrdered) == (*ExprList)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy)).FnExpr {
(*WhereInfo)(unsafe.Pointer(pWInfo)).FeDistinct = U8(WHERE_DISTINCT_ORDERED)
}
} else {
(*WhereInfo)(unsafe.Pointer(pWInfo)).FrevMask = (*WherePath)(unsafe.Pointer(pFrom)).FrevLoop
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnOBSat) <= 0 {
(*WhereInfo)(unsafe.Pointer(pWInfo)).FnOBSat = int8(0)
if nLoop > 0 {
var wsFlags U32 = (*WhereLoop)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*WherePath)(unsafe.Pointer(pFrom)).FaLoop + uintptr(nLoop-1)*8)))).FwsFlags
if wsFlags&U32(WHERE_ONEROW) == U32(0) &&
wsFlags&U32(WHERE_IPK|WHERE_COLUMN_IN) != U32(WHERE_IPK|WHERE_COLUMN_IN) {
*(*Bitmask)(unsafe.Pointer(bp + 16)) = uint64(0)
var rc int32 = int32(wherePathSatisfiesOrderBy(tls, pWInfo, (*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy, pFrom,
uint16(WHERE_ORDERBY_LIMIT), uint16(nLoop-1), *(*uintptr)(unsafe.Pointer((*WherePath)(unsafe.Pointer(pFrom)).FaLoop + uintptr(nLoop-1)*8)), bp+16))
if rc == (*ExprList)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy)).FnExpr {
libc.SetBitFieldPtr8Uint32(pWInfo+68, uint32(1), 2, 0x4)
(*WhereInfo)(unsafe.Pointer(pWInfo)).FrevMask = *(*Bitmask)(unsafe.Pointer(bp + 16))
}
}
}
} else if nLoop != 0 &&
int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnOBSat) == 1 &&
int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&(WHERE_ORDERBY_MIN|WHERE_ORDERBY_MAX) != 0 {
libc.SetBitFieldPtr8Uint32(pWInfo+68, uint32(1), 2, 0x4)
}
}
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_SORTBYGROUP != 0 &&
int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnOBSat) == (*ExprList)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy)).FnExpr && nLoop > 0 {
*(*Bitmask)(unsafe.Pointer(bp + 24)) = uint64(0)
var nOrder int32 = int32(wherePathSatisfiesOrderBy(tls, pWInfo, (*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy,
pFrom, uint16(0), uint16(nLoop-1), *(*uintptr)(unsafe.Pointer((*WherePath)(unsafe.Pointer(pFrom)).FaLoop + uintptr(nLoop-1)*8)), bp+24))
if nOrder == (*ExprList)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy)).FnExpr {
libc.SetBitFieldPtr8Uint32(pWInfo+68, uint32(1), 3, 0x8)
(*WhereInfo)(unsafe.Pointer(pWInfo)).FrevMask = *(*Bitmask)(unsafe.Pointer(bp + 24))
}
}
}
(*WhereInfo)(unsafe.Pointer(pWInfo)).FnRowOut = (*WherePath)(unsafe.Pointer(pFrom)).FnRow
Xsqlite3DbFreeNN(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pSpace)
return SQLITE_OK
}
func whereShortCut(tls *libc.TLS, pBuilder uintptr) int32 {
bp := tls.Alloc(112)
defer tls.Free(112)
var pWInfo uintptr
var pItem uintptr
var pWC uintptr
var pTerm uintptr
var pLoop uintptr
var iCur int32
var j int32
var pTab uintptr
var pIdx uintptr
pWInfo = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpWInfo
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_OR_SUBCLAUSE != 0 {
return 0
}
pItem = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList + 8
pTab = (*SrcItem)(unsafe.Pointer(pItem)).FpTab
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB {
return 0
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x2>>1)) != 0 || uint32(int32(*(*uint16)(unsafe.Pointer(pItem + 60 + 4))&0x1>>0)) != 0 {
return 0
}
iCur = (*SrcItem)(unsafe.Pointer(pItem)).FiCursor
pWC = pWInfo + 104
pLoop = (*WhereLoopBuilder)(unsafe.Pointer(pBuilder)).FpNew
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags = U32(0)
(*WhereLoop)(unsafe.Pointer(pLoop)).FnSkip = U16(0)
pTerm = whereScanInit(tls, bp, pWC, iCur, -1, uint32(WO_EQ|WO_IS), uintptr(0))
for pTerm != 0 && (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight != 0 {
pTerm = whereScanNext(tls, bp)
}
if pTerm != 0 {
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags = U32(WHERE_COLUMN_EQ | WHERE_IPK | WHERE_ONEROW)
*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm)) = pTerm
(*WhereLoop)(unsafe.Pointer(pLoop)).FnLTerm = U16(1)
*(*U16)(unsafe.Pointer(pLoop + 24)) = U16(1)
(*WhereLoop)(unsafe.Pointer(pLoop)).FrRun = int16(33)
} else {
for pIdx = (*Table)(unsafe.Pointer(pTab)).FpIndex; pIdx != 0; pIdx = (*Index)(unsafe.Pointer(pIdx)).FpNext {
var opMask int32
if !(int32((*Index)(unsafe.Pointer(pIdx)).FonError) != OE_None) ||
(*Index)(unsafe.Pointer(pIdx)).FpPartIdxWhere != uintptr(0) ||
int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol) > int32(uint64(unsafe.Sizeof([3]uintptr{}))/uint64(unsafe.Sizeof(uintptr(0)))) {
continue
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x8>>3)) != 0 {
opMask = WO_EQ | WO_IS
} else {
opMask = WO_EQ
}
for j = 0; j < int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol); j++ {
pTerm = whereScanInit(tls, bp, pWC, iCur, j, uint32(opMask), pIdx)
for pTerm != 0 && (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqRight != 0 {
pTerm = whereScanNext(tls, bp)
}
if pTerm == uintptr(0) {
break
}
*(*uintptr)(unsafe.Pointer((*WhereLoop)(unsafe.Pointer(pLoop)).FaLTerm + uintptr(j)*8)) = pTerm
}
if j != int32((*Index)(unsafe.Pointer(pIdx)).FnKeyCol) {
continue
}
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags = U32(WHERE_COLUMN_EQ | WHERE_ONEROW | WHERE_INDEXED)
if uint32(int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x20>>5)) != 0 || (*SrcItem)(unsafe.Pointer(pItem)).FcolUsed&(*Index)(unsafe.Pointer(pIdx)).FcolNotIdxed == uint64(0) {
*(*U32)(unsafe.Pointer(pLoop + 56)) |= U32(WHERE_IDX_ONLY)
}
(*WhereLoop)(unsafe.Pointer(pLoop)).FnLTerm = U16(j)
*(*U16)(unsafe.Pointer(pLoop + 24)) = U16(j)
*(*uintptr)(unsafe.Pointer(pLoop + 24 + 8)) = pIdx
(*WhereLoop)(unsafe.Pointer(pLoop)).FrRun = int16(39)
break
}
}
if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags != 0 {
(*WhereLoop)(unsafe.Pointer(pLoop)).FnOut = int16(1)
(*WhereLevel)(unsafe.Pointer(pWInfo + 856)).FpWLoop = pLoop
(*WhereLoop)(unsafe.Pointer(pLoop)).FmaskSelf = uint64(1)
(*WhereLevel)(unsafe.Pointer(pWInfo + 856)).FiTabCur = iCur
(*WhereInfo)(unsafe.Pointer(pWInfo)).FnRowOut = int16(1)
if (*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy != 0 {
(*WhereInfo)(unsafe.Pointer(pWInfo)).FnOBSat = I8((*ExprList)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy)).FnExpr)
}
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_WANT_DISTINCT != 0 {
(*WhereInfo)(unsafe.Pointer(pWInfo)).FeDistinct = U8(WHERE_DISTINCT_UNIQUE)
}
if int32((*WhereScan)(unsafe.Pointer(bp)).FiEquiv) > 1 {
*(*U32)(unsafe.Pointer(pLoop + 56)) |= U32(WHERE_TRANSCONS)
}
return 1
}
return 0
}
func exprNodeIsDeterministic(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_FUNCTION && libc.Bool32((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_ConstFunc) != U32(0)) == 0 {
(*Walker)(unsafe.Pointer(pWalker)).FeCode = U16(0)
return WRC_Abort
}
return WRC_Continue
}
func exprIsDeterministic(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
(*Walker)(unsafe.Pointer(bp)).FeCode = U16(1)
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{exprNodeIsDeterministic}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{Xsqlite3SelectWalkFail}))
Xsqlite3WalkExpr(tls, bp, p)
return int32((*Walker)(unsafe.Pointer(bp)).FeCode)
}
func whereOmitNoopJoin(tls *libc.TLS, pWInfo uintptr, notReady Bitmask) Bitmask {
var i int32
var tabUsed Bitmask
tabUsed = Xsqlite3WhereExprListUsage(tls, pWInfo+592, (*WhereInfo)(unsafe.Pointer(pWInfo)).FpResultSet)
if (*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy != 0 {
tabUsed = tabUsed | Xsqlite3WhereExprListUsage(tls, pWInfo+592, (*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy)
}
for i = int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel) - 1; i >= 1; i-- {
var pTerm uintptr
var pEnd uintptr
var pItem uintptr
var pLoop uintptr
pLoop = (*WhereLevel)(unsafe.Pointer(pWInfo + 856 + uintptr(i)*104)).FpWLoop
pItem = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList + 8 + uintptr((*WhereLoop)(unsafe.Pointer(pLoop)).FiTab)*104
if int32((*SrcItem)(unsafe.Pointer(pItem)).Ffg.Fjointype)&(JT_LEFT|JT_RIGHT) != JT_LEFT {
continue
}
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_WANT_DISTINCT == 0 &&
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_ONEROW) == U32(0) {
continue
}
if tabUsed&(*WhereLoop)(unsafe.Pointer(pLoop)).FmaskSelf != uint64(0) {
continue
}
pEnd = (*WhereInfo)(unsafe.Pointer(pWInfo)).FsWC.Fa + uintptr((*WhereInfo)(unsafe.Pointer(pWInfo)).FsWC.FnTerm)*56
for pTerm = (*WhereInfo)(unsafe.Pointer(pWInfo)).FsWC.Fa; pTerm < pEnd; pTerm += 56 {
if (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqAll&(*WhereLoop)(unsafe.Pointer(pLoop)).FmaskSelf != uint64(0) {
if !((*Expr)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr)).Fflags&U32(EP_OuterON) != U32(0)) ||
*(*int32)(unsafe.Pointer((*WhereTerm)(unsafe.Pointer(pTerm)).FpExpr + 52)) != (*SrcItem)(unsafe.Pointer(pItem)).FiCursor {
break
}
}
}
if pTerm < pEnd {
continue
}
notReady = notReady & ^(*WhereLoop)(unsafe.Pointer(pLoop)).FmaskSelf
for pTerm = (*WhereInfo)(unsafe.Pointer(pWInfo)).FsWC.Fa; pTerm < pEnd; pTerm += 56 {
if (*WhereTerm)(unsafe.Pointer(pTerm)).FprereqAll&(*WhereLoop)(unsafe.Pointer(pLoop)).FmaskSelf != uint64(0) {
*(*U16)(unsafe.Pointer(pTerm + 18)) |= U16(TERM_CODED)
}
}
if i != int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel)-1 {
var nByte int32 = int32(uint64(int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel)-1-i) * uint64(unsafe.Sizeof(WhereLevel{})))
libc.X__builtin___memmove_chk(tls, pWInfo+856+uintptr(i)*104, pWInfo+856+uintptr(i+1)*104, uint64(nByte), libc.X__builtin_object_size(tls, pWInfo+856+uintptr(i)*104, 0))
}
(*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel--
}
return notReady
}
func whereCheckIfBloomFilterIsUseful(tls *libc.TLS, pWInfo uintptr) {
var i int32
var nSearch LogEst = int16(0)
for i = 0; i < int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel); i++ {
var pLoop uintptr = (*WhereLevel)(unsafe.Pointer(pWInfo + 856 + uintptr(i)*104)).FpWLoop
var reqFlags uint32 = uint32(WHERE_SELFCULL | WHERE_COLUMN_EQ)
var pItem uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList + 8 + uintptr((*WhereLoop)(unsafe.Pointer(pLoop)).FiTab)*104
var pTab uintptr = (*SrcItem)(unsafe.Pointer(pItem)).FpTab
if (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasStat1) == U32(0) {
break
}
*(*U32)(unsafe.Pointer(pTab + 48)) |= U32(TF_StatsUsed)
if i >= 1 &&
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&reqFlags == reqFlags &&
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IPK|WHERE_INDEXED) != U32(0) {
if int32(nSearch) > int32((*Table)(unsafe.Pointer(pTab)).FnRowLogEst) {
*(*U32)(unsafe.Pointer(pLoop + 56)) |= U32(WHERE_BLOOMFILTER)
*(*U32)(unsafe.Pointer(pLoop + 56)) &= libc.Uint32FromInt32(libc.CplInt32(WHERE_IDX_ONLY))
}
}
nSearch = LogEst(int32(nSearch) + int32((*WhereLoop)(unsafe.Pointer(pLoop)).FnOut))
}
}
func whereIndexedExprCleanup(tls *libc.TLS, db uintptr, pObject uintptr) {
var pParse uintptr = pObject
for (*Parse)(unsafe.Pointer(pParse)).FpIdxEpr != uintptr(0) {
var p uintptr = (*Parse)(unsafe.Pointer(pParse)).FpIdxEpr
(*Parse)(unsafe.Pointer(pParse)).FpIdxEpr = (*IndexedExpr)(unsafe.Pointer(p)).FpIENext
Xsqlite3ExprDelete(tls, db, (*IndexedExpr)(unsafe.Pointer(p)).FpExpr)
Xsqlite3DbFreeNN(tls, db, p)
}
}
func whereAddIndexedExpr(tls *libc.TLS, pParse uintptr, pIdx uintptr, iIdxCur int32, pTabItem uintptr) {
var i int32
var p uintptr
var pTab uintptr
pTab = (*Index)(unsafe.Pointer(pIdx)).FpTable
for i = 0; i < int32((*Index)(unsafe.Pointer(pIdx)).FnColumn); i++ {
var pExpr uintptr
var j int32 = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiColumn + uintptr(i)*2)))
var bMaybeNullRow int32
if j == -2 {
pExpr = (*ExprList_item)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaColExpr + 8 + uintptr(i)*32)).FpExpr
bMaybeNullRow = libc.Bool32(int32((*SrcItem)(unsafe.Pointer(pTabItem)).Ffg.Fjointype)&(JT_LEFT|JT_LTORJ|JT_RIGHT) != 0)
} else if j >= 0 && int32((*Column)(unsafe.Pointer((*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)).FcolFlags)&COLFLAG_VIRTUAL != 0 {
pExpr = Xsqlite3ColumnExpr(tls, pTab, (*Table)(unsafe.Pointer(pTab)).FaCol+uintptr(j)*24)
bMaybeNullRow = 0
} else {
continue
}
if Xsqlite3ExprIsConstant(tls, pExpr) != 0 {
continue
}
p = Xsqlite3DbMallocRaw(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(IndexedExpr{})))
if p == uintptr(0) {
break
}
(*IndexedExpr)(unsafe.Pointer(p)).FpIENext = (*Parse)(unsafe.Pointer(pParse)).FpIdxEpr
(*IndexedExpr)(unsafe.Pointer(p)).FpExpr = Xsqlite3ExprDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pExpr, 0)
(*IndexedExpr)(unsafe.Pointer(p)).FiDataCur = (*SrcItem)(unsafe.Pointer(pTabItem)).FiCursor
(*IndexedExpr)(unsafe.Pointer(p)).FiIdxCur = iIdxCur
(*IndexedExpr)(unsafe.Pointer(p)).FiIdxCol = i
(*IndexedExpr)(unsafe.Pointer(p)).FbMaybeNullRow = U8(bMaybeNullRow)
(*Parse)(unsafe.Pointer(pParse)).FpIdxEpr = p
if (*IndexedExpr)(unsafe.Pointer(p)).FpIENext == uintptr(0) {
Xsqlite3ParserAddCleanup(tls, pParse, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{whereIndexedExprCleanup})), pParse)
}
}
}
// Generate the beginning of the loop used for WHERE clause processing.
// The return value is a pointer to an opaque structure that contains
// information needed to terminate the loop. Later, the calling routine
// should invoke sqlite3WhereEnd() with the return value of this function
// in order to complete the WHERE clause processing.
//
// If an error occurs, this routine returns NULL.
//
// The basic idea is to do a nested loop, one loop for each table in
// the FROM clause of a select. (INSERT and UPDATE statements are the
// same as a SELECT with only a single table in the FROM clause.) For
// example, if the SQL is this:
//
// SELECT * FROM t1, t2, t3 WHERE ...;
//
// Then the code generated is conceptually like the following:
//
// foreach row1 in t1 do \ Code generated
// foreach row2 in t2 do |-- by sqlite3WhereBegin()
// foreach row3 in t3 do /
// ...
// end \ Code generated
// end |-- by sqlite3WhereEnd()
// end /
//
// Note that the loops might not be nested in the order in which they
// appear in the FROM clause if a different order is better able to make
// use of indices. Note also that when the IN operator appears in
// the WHERE clause, it might result in additional nested loops for
// scanning through all values on the right-hand side of the IN.
//
// There are Btree cursors associated with each table. t1 uses cursor
// number pTabList->a[0].iCursor. t2 uses the cursor pTabList->a[1].iCursor.
// And so forth. This routine generates code to open those VDBE cursors
// and sqlite3WhereEnd() generates the code to close them.
//
// The code that sqlite3WhereBegin() generates leaves the cursors named
// in pTabList pointing at their appropriate entries. The [...] code
// can use OP_Column and OP_Rowid opcodes on these cursors to extract
// data from the various tables of the loop.
//
// If the WHERE clause is empty, the foreach loops must each scan their
// entire tables. Thus a three-way join is an O(N^3) operation. But if
// the tables have indices and there are terms in the WHERE clause that
// refer to those indices, a complete table scan can be avoided and the
// code will run much faster. Most of the work of this routine is checking
// to see if there are indices that can be used to speed up the loop.
//
// Terms of the WHERE clause are also used to limit which rows actually
// make it to the "..." in the middle of the loop. After each "foreach",
// terms of the WHERE clause that use only terms in that loop and outer
// loops are evaluated and if false a jump is made around all subsequent
// inner loops (or around the "..." if the test occurs within the inner-
// most loop)
//
// # OUTER JOINS
//
// An outer join of tables t1 and t2 is conceptally coded as follows:
//
// foreach row1 in t1 do
// flag = 0
// foreach row2 in t2 do
// start:
// ...
// flag = 1
// end
// if flag==0 then
// move the row2 cursor to a null row
// goto start
// fi
// end
//
// # ORDER BY CLAUSE PROCESSING
//
// pOrderBy is a pointer to the ORDER BY clause (or the GROUP BY clause
// if the WHERE_GROUPBY flag is set in wctrlFlags) of a SELECT statement
// if there is one. If there is no ORDER BY clause or if this routine
// is called from an UPDATE or DELETE statement, then pOrderBy is NULL.
//
// The iIdxCur parameter is the cursor number of an index. If
// WHERE_OR_SUBCLAUSE is set, iIdxCur is the cursor number of an index
// to use for OR clause processing. The WHERE clause should use this
// specific cursor. If WHERE_ONEPASS_DESIRED is set, then iIdxCur is
// the first cursor in an array of cursors for all indices. iIdxCur should
// be used to compute the appropriate cursor depending on which index is
// used.
func Xsqlite3WhereBegin(tls *libc.TLS, pParse uintptr, pTabList uintptr, pWhere uintptr, pOrderBy uintptr, pResultSet uintptr, pSelect uintptr, wctrlFlags U16, iAuxArg int32) uintptr {
bp := tls.Alloc(64)
defer tls.Free(64)
var nByteWInfo int32
var nTabList int32
var pWInfo uintptr
var v uintptr
var notReady Bitmask
var pMaskSet uintptr
var pLevel uintptr
var pLoop uintptr
var ii int32
var db uintptr
var rc int32
var bFordelete U8
var pT uintptr
var p uintptr
var wsFlags int32
var bOnerow int32
var pVTab uintptr
var iCur int32
var b Bitmask
var n int32
var op int32
var pJ uintptr
var pIx uintptr
var iIndexCur int32
var op1 int32
var pInfo uintptr
var pPk uintptr
var pRJ uintptr
var pTab uintptr
var iDb int32
var pTabItem uintptr
var iOnce int32
var addrExplain int32
_ = addrExplain
var wsFlags1 int32
var pSrc uintptr
v = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
bFordelete = U8(0)
db = (*Parse)(unsafe.Pointer(pParse)).Fdb
libc.X__builtin___memset_chk(tls, bp+8, 0, uint64(unsafe.Sizeof(WhereLoopBuilder{})), libc.X__builtin_object_size(tls, bp+8, 0))
if !(pOrderBy != 0 && (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr >= int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8))) {
goto __1
}
pOrderBy = uintptr(0)
__1:
;
if !((*SrcList)(unsafe.Pointer(pTabList)).FnSrc > int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8))) {
goto __2
}
Xsqlite3ErrorMsg(tls, pParse, ts+22472, libc.VaList(bp, int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8))))
return uintptr(0)
__2:
;
if int32(wctrlFlags)&WHERE_OR_SUBCLAUSE != 0 {
nTabList = 1
} else {
nTabList = (*SrcList)(unsafe.Pointer(pTabList)).FnSrc
}
nByteWInfo = int32(uint64(unsafe.Sizeof(WhereInfo{})) + uint64(nTabList-1)*uint64(unsafe.Sizeof(WhereLevel{})))
pWInfo = Xsqlite3DbMallocRawNN(tls, db, uint64(nByteWInfo)+uint64(unsafe.Sizeof(WhereLoop{})))
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __3
}
Xsqlite3DbFree(tls, db, pWInfo)
pWInfo = uintptr(0)
goto whereBeginError
__3:
;
(*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse = pParse
(*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList = pTabList
(*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy = pOrderBy
(*WhereInfo)(unsafe.Pointer(pWInfo)).FpResultSet = pResultSet
*(*int32)(unsafe.Pointer(pWInfo + 40)) = libc.AssignPtrInt32(pWInfo+40+1*4, -1)
(*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel = U8(nTabList)
(*WhereInfo)(unsafe.Pointer(pWInfo)).FiBreak = libc.AssignPtrInt32(pWInfo+48, Xsqlite3VdbeMakeLabel(tls, pParse))
(*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags = wctrlFlags
(*WhereInfo)(unsafe.Pointer(pWInfo)).FiLimit = LogEst(iAuxArg)
(*WhereInfo)(unsafe.Pointer(pWInfo)).FsavedNQueryLoop = int32((*Parse)(unsafe.Pointer(pParse)).FnQueryLoop)
(*WhereInfo)(unsafe.Pointer(pWInfo)).FpSelect = pSelect
libc.X__builtin___memset_chk(tls, pWInfo+65, 0, uint64(uintptr(0)+104)-uint64(uintptr(0)+65), libc.X__builtin_object_size(tls, pWInfo+65, 0))
libc.X__builtin___memset_chk(tls, pWInfo+856, 0, uint64(unsafe.Sizeof(WhereLoop{}))+uint64(nTabList)*uint64(unsafe.Sizeof(WhereLevel{})), libc.X__builtin_object_size(tls, pWInfo+856, 0))
pMaskSet = pWInfo + 592
(*WhereMaskSet)(unsafe.Pointer(pMaskSet)).Fn = 0
*(*int32)(unsafe.Pointer(pMaskSet + 8)) = -99
(*WhereLoopBuilder)(unsafe.Pointer(bp + 8)).FpWInfo = pWInfo
(*WhereLoopBuilder)(unsafe.Pointer(bp + 8)).FpWC = pWInfo + 104
(*WhereLoopBuilder)(unsafe.Pointer(bp + 8)).FpNew = pWInfo + uintptr(nByteWInfo)
whereLoopInit(tls, (*WhereLoopBuilder)(unsafe.Pointer(bp+8)).FpNew)
Xsqlite3WhereClauseInit(tls, pWInfo+104, pWInfo)
Xsqlite3WhereSplit(tls, pWInfo+104, pWhere, uint8(TK_AND))
if !(nTabList == 0) {
goto __4
}
if !(pOrderBy != 0) {
goto __6
}
(*WhereInfo)(unsafe.Pointer(pWInfo)).FnOBSat = I8((*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr)
__6:
;
if !(int32(wctrlFlags)&WHERE_WANT_DISTINCT != 0 &&
(*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_DistinctOpt) == U32(0)) {
goto __7
}
(*WhereInfo)(unsafe.Pointer(pWInfo)).FeDistinct = U8(WHERE_DISTINCT_UNIQUE)
__7:
;
Xsqlite3VdbeExplain(tls, pParse, uint8(0), ts+22500, 0)
goto __5
__4:
ii = 0
__8:
createMask(tls, pMaskSet, (*SrcItem)(unsafe.Pointer(pTabList+8+uintptr(ii)*104)).FiCursor)
Xsqlite3WhereTabFuncArgs(tls, pParse, pTabList+8+uintptr(ii)*104, pWInfo+104)
goto __9
__9:
if libc.PreIncInt32(&ii, 1) < (*SrcList)(unsafe.Pointer(pTabList)).FnSrc {
goto __8
}
goto __10
__10:
;
__5:
;
Xsqlite3WhereExprAnalyze(tls, pTabList, pWInfo+104)
if !(pSelect != 0 && (*Select)(unsafe.Pointer(pSelect)).FpLimit != 0) {
goto __11
}
Xsqlite3WhereAddLimit(tls, pWInfo+104, pSelect)
__11:
;
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __12
}
goto whereBeginError
__12:
;
ii = 0
__13:
if !(ii < (*WhereClause)(unsafe.Pointer((*WhereLoopBuilder)(unsafe.Pointer(bp+8)).FpWC)).FnBase) {
goto __15
}
pT = (*WhereClause)(unsafe.Pointer((*WhereLoopBuilder)(unsafe.Pointer(bp+8)).FpWC)).Fa + uintptr(ii)*56
if !(int32((*WhereTerm)(unsafe.Pointer(pT)).FwtFlags)&TERM_VIRTUAL != 0) {
goto __16
}
goto __14
__16:
;
if !((*WhereTerm)(unsafe.Pointer(pT)).FprereqAll == uint64(0) && (nTabList == 0 || exprIsDeterministic(tls, (*WhereTerm)(unsafe.Pointer(pT)).FpExpr) != 0)) {
goto __17
}
Xsqlite3ExprIfFalse(tls, pParse, (*WhereTerm)(unsafe.Pointer(pT)).FpExpr, (*WhereInfo)(unsafe.Pointer(pWInfo)).FiBreak, SQLITE_JUMPIFNULL)
*(*U16)(unsafe.Pointer(pT + 18)) |= U16(TERM_CODED)
__17:
;
goto __14
__14:
ii++
goto __13
goto __15
__15:
;
if !(int32(wctrlFlags)&WHERE_WANT_DISTINCT != 0) {
goto __18
}
if !((*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_DistinctOpt) != U32(0)) {
goto __19
}
wctrlFlags = libc.Uint16FromInt32(int32(wctrlFlags) & libc.CplInt32(WHERE_WANT_DISTINCT))
*(*U16)(unsafe.Pointer(pWInfo + 60)) &= libc.Uint16FromInt32(libc.CplInt32(WHERE_WANT_DISTINCT))
goto __20
__19:
if !(isDistinctRedundant(tls, pParse, pTabList, pWInfo+104, pResultSet) != 0) {
goto __21
}
(*WhereInfo)(unsafe.Pointer(pWInfo)).FeDistinct = U8(WHERE_DISTINCT_UNIQUE)
goto __22
__21:
if !(pOrderBy == uintptr(0)) {
goto __23
}
*(*U16)(unsafe.Pointer(pWInfo + 60)) |= U16(WHERE_DISTINCTBY)
(*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy = pResultSet
__23:
;
__22:
;
__20:
;
__18:
;
if !(nTabList != 1 || whereShortCut(tls, bp+8) == 0) {
goto __24
}
rc = whereLoopAddAll(tls, bp+8)
if !(rc != 0) {
goto __25
}
goto whereBeginError
__25:
;
if !(int32((*WhereLoopBuilder)(unsafe.Pointer(bp+8)).FbldFlags2)&SQLITE_BLDF2_2NDPASS != 0) {
goto __26
}
__27:
if !((*WhereInfo)(unsafe.Pointer(pWInfo)).FpLoops != 0) {
goto __28
}
p = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpLoops
(*WhereInfo)(unsafe.Pointer(pWInfo)).FpLoops = (*WhereLoop)(unsafe.Pointer(p)).FpNextLoop
whereLoopDelete(tls, db, p)
goto __27
__28:
;
rc = whereLoopAddAll(tls, bp+8)
if !(rc != 0) {
goto __29
}
goto whereBeginError
__29:
;
__26:
;
wherePathSolver(tls, pWInfo, int16(0))
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __30
}
goto whereBeginError
__30:
;
if !((*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy != 0) {
goto __31
}
wherePathSolver(tls, pWInfo, int16(int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnRowOut)+1))
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __32
}
goto whereBeginError
__32:
;
__31:
;
__24:
;
if !((*WhereInfo)(unsafe.Pointer(pWInfo)).FpOrderBy == uintptr(0) && (*Sqlite3)(unsafe.Pointer(db)).Fflags&uint64(SQLITE_ReverseOrder) != uint64(0)) {
goto __33
}
(*WhereInfo)(unsafe.Pointer(pWInfo)).FrevMask = libc.Uint64(libc.Uint64FromInt32(-1))
__33:
;
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __34
}
goto whereBeginError
__34:
;
notReady = libc.CplUint64(uint64(0))
if !(int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel) >= 2 &&
pResultSet != uintptr(0) &&
0 == int32(wctrlFlags)&WHERE_AGG_DISTINCT &&
(*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_OmitNoopJoin) == U32(0)) {
goto __35
}
notReady = whereOmitNoopJoin(tls, pWInfo, notReady)
nTabList = int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel)
__35:
;
if !(int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel) >= 2 &&
(*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_BloomFilter) == U32(0)) {
goto __36
}
whereCheckIfBloomFilterIsUseful(tls, pWInfo)
__36:
;
*(*U32)(unsafe.Pointer((*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse + 208)) += U32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnRowOut)
if !(int32(wctrlFlags)&WHERE_ONEPASS_DESIRED != 0) {
goto __37
}
wsFlags = int32((*WhereLoop1)(unsafe.Pointer((*WhereLevel)(unsafe.Pointer(pWInfo + 856)).FpWLoop)).FwsFlags)
bOnerow = libc.Bool32(wsFlags&WHERE_ONEROW != 0)
if !(bOnerow != 0 || 0 != int32(wctrlFlags)&WHERE_ONEPASS_MULTIROW &&
!(int32((*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pTabList+8)).FpTab)).FeTabType) == TABTYP_VTAB) &&
(0 == wsFlags&WHERE_MULTI_OR || int32(wctrlFlags)&WHERE_DUPLICATES_OK != 0)) {
goto __38
}
(*WhereInfo)(unsafe.Pointer(pWInfo)).FeOnePass = func() uint8 {
if bOnerow != 0 {
return uint8(ONEPASS_SINGLE)
}
return uint8(ONEPASS_MULTI)
}()
if !((*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pTabList+8)).FpTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) && wsFlags&WHERE_IDX_ONLY != 0) {
goto __39
}
if !(int32(wctrlFlags)&WHERE_ONEPASS_MULTIROW != 0) {
goto __40
}
bFordelete = U8(OPFLAG_FORDELETE)
__40:
;
(*WhereLoop1)(unsafe.Pointer((*WhereLevel)(unsafe.Pointer(pWInfo + 856)).FpWLoop)).FwsFlags = U32(wsFlags & libc.CplInt32(WHERE_IDX_ONLY))
__39:
;
__38:
;
__37:
;
ii = 0
pLevel = pWInfo + 856
__41:
if !(ii < nTabList) {
goto __43
}
pTabItem = pTabList + 8 + uintptr((*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom)*104
pTab = (*SrcItem)(unsafe.Pointer(pTabItem)).FpTab
iDb = Xsqlite3SchemaToIndex(tls, db, (*Table)(unsafe.Pointer(pTab)).FpSchema)
pLoop = (*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_Ephemeral) != U32(0) || int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW) {
goto __44
}
goto __45
__44:
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_VIRTUALTABLE) != U32(0)) {
goto __46
}
pVTab = Xsqlite3GetVTable(tls, db, pTab)
iCur = (*SrcItem)(unsafe.Pointer(pTabItem)).FiCursor
Xsqlite3VdbeAddOp4(tls, v, OP_VOpen, iCur, 0, 0, pVTab, -11)
goto __47
__46:
if !(int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB) {
goto __48
}
goto __49
__48:
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IDX_ONLY) == U32(0) &&
int32(wctrlFlags)&WHERE_OR_SUBCLAUSE == 0 ||
int32((*SrcItem)(unsafe.Pointer(pTabItem)).Ffg.Fjointype)&(JT_LTORJ|JT_RIGHT) != 0) {
goto __50
}
op = OP_OpenRead
if !(int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FeOnePass) != ONEPASS_OFF) {
goto __52
}
op = OP_OpenWrite
*(*int32)(unsafe.Pointer(pWInfo + 40)) = (*SrcItem)(unsafe.Pointer(pTabItem)).FiCursor
__52:
;
Xsqlite3OpenTable(tls, pParse, (*SrcItem)(unsafe.Pointer(pTabItem)).FiCursor, iDb, pTab, op)
if !(int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FeOnePass) == ONEPASS_OFF &&
int32((*Table)(unsafe.Pointer(pTab)).FnCol) < int32(uint64(unsafe.Sizeof(Bitmask(0)))*uint64(8)) &&
(*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_HasGenerated|TF_WithoutRowid) == U32(0) &&
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_AUTO_INDEX|WHERE_BLOOMFILTER) == U32(0)) {
goto __53
}
b = (*SrcItem)(unsafe.Pointer(pTabItem)).FcolUsed
n = 0
__54:
if !(b != 0) {
goto __56
}
goto __55
__55:
b = b >> 1
n++
goto __54
goto __56
__56:
;
Xsqlite3VdbeChangeP4(tls, v, -1, uintptr(int64(n)), -3)
__53:
;
Xsqlite3VdbeChangeP5(tls, v, uint16(bFordelete))
goto __51
__50:
Xsqlite3TableLock(tls, pParse, iDb, (*Table)(unsafe.Pointer(pTab)).Ftnum, uint8(0), (*Table)(unsafe.Pointer(pTab)).FzName)
__51:
;
__49:
;
__47:
;
__45:
;
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_INDEXED) != 0) {
goto __57
}
pIx = *(*uintptr)(unsafe.Pointer(pLoop + 24 + 8))
op1 = OP_OpenRead
if !(!((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) && int32(*(*uint16)(unsafe.Pointer(pIx + 100))&0x3>>0) == SQLITE_IDXTYPE_PRIMARYKEY &&
int32(wctrlFlags)&WHERE_OR_SUBCLAUSE != 0) {
goto __58
}
iIndexCur = (*WhereLevel)(unsafe.Pointer(pLevel)).FiTabCur
op1 = 0
goto __59
__58:
if !(int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FeOnePass) != ONEPASS_OFF) {
goto __60
}
pJ = (*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pTabItem)).FpTab)).FpIndex
iIndexCur = iAuxArg
__62:
if !(pJ != 0 && pJ != pIx) {
goto __63
}
iIndexCur++
pJ = (*Index)(unsafe.Pointer(pJ)).FpNext
goto __62
__63:
;
op1 = OP_OpenWrite
*(*int32)(unsafe.Pointer(pWInfo + 40 + 1*4)) = iIndexCur
goto __61
__60:
if !(iAuxArg != 0 && int32(wctrlFlags)&WHERE_OR_SUBCLAUSE != 0) {
goto __64
}
iIndexCur = iAuxArg
op1 = OP_ReopenIdx
goto __65
__64:
iIndexCur = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
if !(uint32(int32(*(*uint16)(unsafe.Pointer(pIx + 100))&0x800>>11)) != 0 && (*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags&U32(SQLITE_IndexedExpr) == U32(0)) {
goto __66
}
whereAddIndexedExpr(tls, pParse, pIx, iIndexCur, pTabItem)
__66:
;
__65:
;
__61:
;
__59:
;
(*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur = iIndexCur
if !(op1 != 0) {
goto __67
}
Xsqlite3VdbeAddOp3(tls, v, op1, iIndexCur, int32((*Index)(unsafe.Pointer(pIx)).Ftnum), iDb)
Xsqlite3VdbeSetP4KeyInfo(tls, pParse, pIx)
if !((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_CONSTRAINT) != U32(0) &&
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_COLUMN_RANGE|WHERE_SKIPSCAN) == U32(0) &&
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_BIGNULL_SORT) == U32(0) &&
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IN_SEEKSCAN) == U32(0) &&
int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FwctrlFlags)&WHERE_ORDERBY_MIN == 0 &&
int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FeDistinct) != WHERE_DISTINCT_ORDERED) {
goto __68
}
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_SEEKEQ))
__68:
;
__67:
;
__57:
;
if !(iDb >= 0) {
goto __69
}
Xsqlite3CodeVerifySchema(tls, pParse, iDb)
__69:
;
if !(int32((*SrcItem)(unsafe.Pointer(pTabItem)).Ffg.Fjointype)&JT_RIGHT != 0 &&
libc.AssignPtrUintptr(pLevel+48, Xsqlite3WhereMalloc(tls, pWInfo, uint64(unsafe.Sizeof(WhereRightJoin{})))) != uintptr(0)) {
goto __70
}
pRJ = (*WhereLevel)(unsafe.Pointer(pLevel)).FpRJ
(*WhereRightJoin)(unsafe.Pointer(pRJ)).FiMatch = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
(*WhereRightJoin)(unsafe.Pointer(pRJ)).FregBloom = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Blob, 65536, (*WhereRightJoin)(unsafe.Pointer(pRJ)).FregBloom)
(*WhereRightJoin)(unsafe.Pointer(pRJ)).FregReturn = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, (*WhereRightJoin)(unsafe.Pointer(pRJ)).FregReturn)
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
goto __71
}
Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, (*WhereRightJoin)(unsafe.Pointer(pRJ)).FiMatch, 1)
pInfo = Xsqlite3KeyInfoAlloc(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, 1, 0)
if !(pInfo != 0) {
goto __73
}
*(*uintptr)(unsafe.Pointer(pInfo + 32)) = uintptr(0)
*(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer(pInfo)).FaSortFlags)) = U8(0)
Xsqlite3VdbeAppendP4(tls, v, pInfo, -8)
__73:
;
goto __72
__71:
pPk = Xsqlite3PrimaryKeyIndex(tls, pTab)
Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, (*WhereRightJoin)(unsafe.Pointer(pRJ)).FiMatch, int32((*Index)(unsafe.Pointer(pPk)).FnKeyCol))
Xsqlite3VdbeSetP4KeyInfo(tls, pParse, pPk)
__72:
;
*(*U32)(unsafe.Pointer(pLoop + 56)) &= libc.Uint32FromInt32(libc.CplInt32(WHERE_IDX_ONLY))
(*WhereInfo)(unsafe.Pointer(pWInfo)).FnOBSat = int8(0)
(*WhereInfo)(unsafe.Pointer(pWInfo)).FeDistinct = U8(WHERE_DISTINCT_UNORDERED)
__70:
;
goto __42
__42:
ii++
pLevel += 104
goto __41
goto __43
__43:
;
(*WhereInfo)(unsafe.Pointer(pWInfo)).FiTop = Xsqlite3VdbeCurrentAddr(tls, v)
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __74
}
goto whereBeginError
__74:
;
ii = 0
__75:
if !(ii < nTabList) {
goto __77
}
if !((*Parse)(unsafe.Pointer(pParse)).FnErr != 0) {
goto __78
}
goto whereBeginError
__78:
;
pLevel = pWInfo + 856 + uintptr(ii)*104
wsFlags1 = int32((*WhereLoop1)(unsafe.Pointer((*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop)).FwsFlags)
pSrc = pTabList + 8 + uintptr((*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom)*104
if !(uint32(int32(*(*uint16)(unsafe.Pointer(pSrc + 60 + 4))&0x10>>4)) != 0) {
goto __79
}
if !(uint32(int32(*(*uint16)(unsafe.Pointer(pSrc + 60 + 4))&0x8>>3)) != 0) {
goto __80
}
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, (*SrcItem)(unsafe.Pointer(pSrc)).FregReturn, (*SrcItem)(unsafe.Pointer(pSrc)).FaddrFillSub)
goto __81
__80:
iOnce = Xsqlite3VdbeAddOp0(tls, v, OP_Once)
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, (*SrcItem)(unsafe.Pointer(pSrc)).FregReturn, (*SrcItem)(unsafe.Pointer(pSrc)).FaddrFillSub)
Xsqlite3VdbeJumpHere(tls, v, iOnce)
__81:
;
__79:
;
if !(wsFlags1&(WHERE_AUTO_INDEX|WHERE_BLOOMFILTER) != 0) {
goto __82
}
if !(wsFlags1&WHERE_AUTO_INDEX != 0) {
goto __83
}
constructAutomaticIndex(tls, pParse, pWInfo+104,
pTabList+8+uintptr((*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom)*104, notReady, pLevel)
goto __84
__83:
sqlite3ConstructBloomFilter(tls, pWInfo, ii, pLevel, notReady)
__84:
;
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __85
}
goto whereBeginError
__85:
;
__82:
;
addrExplain = Xsqlite3WhereExplainOneScan(tls,
pParse, pTabList, pLevel, wctrlFlags)
(*WhereLevel)(unsafe.Pointer(pLevel)).FaddrBody = Xsqlite3VdbeCurrentAddr(tls, v)
notReady = Xsqlite3WhereCodeOneLoopStart(tls, pParse, v, pWInfo, ii, pLevel, notReady)
(*WhereInfo)(unsafe.Pointer(pWInfo)).FiContinue = (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrCont
if !(wsFlags1&WHERE_MULTI_OR == 0 && int32(wctrlFlags)&WHERE_OR_SUBCLAUSE == 0) {
goto __86
}
_ = addrExplain
__86:
;
goto __76
__76:
ii++
goto __75
goto __77
__77:
;
(*WhereInfo)(unsafe.Pointer(pWInfo)).FiEndWhere = Xsqlite3VdbeCurrentAddr(tls, v)
return pWInfo
whereBeginError:
if !(pWInfo != 0) {
goto __87
}
(*Parse)(unsafe.Pointer(pParse)).FnQueryLoop = U32((*WhereInfo)(unsafe.Pointer(pWInfo)).FsavedNQueryLoop)
whereInfoFree(tls, db, pWInfo)
__87:
;
return uintptr(0)
}
// Generate the end of the WHERE loop. See comments on
// sqlite3WhereBegin() for additional information.
func Xsqlite3WhereEnd(tls *libc.TLS, pWInfo uintptr) {
var pParse uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpParse
var v uintptr = (*Parse)(unsafe.Pointer(pParse)).FpVdbe
var i int32
var pLevel uintptr
var pLoop uintptr
var pTabList uintptr = (*WhereInfo)(unsafe.Pointer(pWInfo)).FpTabList
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var iEnd int32 = Xsqlite3VdbeCurrentAddr(tls, v)
var nRJ int32 = 0
for i = int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel) - 1; i >= 0; i-- {
var addr int32
pLevel = pWInfo + 856 + uintptr(i)*104
if (*WhereLevel)(unsafe.Pointer(pLevel)).FpRJ != 0 {
var pRJ uintptr = (*WhereLevel)(unsafe.Pointer(pLevel)).FpRJ
Xsqlite3VdbeResolveLabel(tls, v, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrCont)
(*WhereLevel)(unsafe.Pointer(pLevel)).FaddrCont = 0
(*WhereRightJoin)(unsafe.Pointer(pRJ)).FendSubrtn = Xsqlite3VdbeCurrentAddr(tls, v)
Xsqlite3VdbeAddOp3(tls, v, OP_Return, (*WhereRightJoin)(unsafe.Pointer(pRJ)).FregReturn, (*WhereRightJoin)(unsafe.Pointer(pRJ)).FaddrSubrtn, 1)
nRJ++
}
pLoop = (*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop
if int32((*WhereLevel)(unsafe.Pointer(pLevel)).Fop) != OP_Noop {
var addrSeek int32 = 0
var pIdx uintptr
var n int32
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FeDistinct) == WHERE_DISTINCT_ORDERED &&
i == int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel)-1 &&
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_INDEXED) != U32(0) &&
uint32(int32(*(*uint16)(unsafe.Pointer(libc.AssignUintptr(&pIdx, *(*uintptr)(unsafe.Pointer(pLoop + 24 + 8))) + 100))&0x80>>7)) != 0 &&
libc.AssignInt32(&n, int32(*(*U16)(unsafe.Pointer(pLoop + 24 + 6)))) > 0 &&
int32(*(*LogEst)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FaiRowLogEst + uintptr(n)*2))) >= 36 {
var r1 int32 = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
var j int32
var op int32
for j = 0; j < n; j++ {
Xsqlite3VdbeAddOp3(tls, v, OP_Column, (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur, j, r1+j)
}
*(*int32)(unsafe.Pointer(pParse + 56)) += n + 1
if int32((*WhereLevel)(unsafe.Pointer(pLevel)).Fop) == OP_Prev {
op = OP_SeekLT
} else {
op = OP_SeekGT
}
addrSeek = Xsqlite3VdbeAddOp4Int(tls, v, op, (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur, 0, r1, n)
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 1, (*WhereLevel)(unsafe.Pointer(pLevel)).Fp2)
}
if (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrCont != 0 {
Xsqlite3VdbeResolveLabel(tls, v, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrCont)
}
Xsqlite3VdbeAddOp3(tls, v, int32((*WhereLevel)(unsafe.Pointer(pLevel)).Fop), (*WhereLevel)(unsafe.Pointer(pLevel)).Fp1, (*WhereLevel)(unsafe.Pointer(pLevel)).Fp2, int32((*WhereLevel)(unsafe.Pointer(pLevel)).Fp3))
Xsqlite3VdbeChangeP5(tls, v, uint16((*WhereLevel)(unsafe.Pointer(pLevel)).Fp5))
if (*WhereLevel)(unsafe.Pointer(pLevel)).FregBignull != 0 {
Xsqlite3VdbeResolveLabel(tls, v, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrBignull)
Xsqlite3VdbeAddOp2(tls, v, OP_DecrJumpZero, (*WhereLevel)(unsafe.Pointer(pLevel)).FregBignull, (*WhereLevel)(unsafe.Pointer(pLevel)).Fp2-1)
}
if addrSeek != 0 {
Xsqlite3VdbeJumpHere(tls, v, addrSeek)
}
} else if (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrCont != 0 {
Xsqlite3VdbeResolveLabel(tls, v, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrCont)
}
if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IN_ABLE) != U32(0) && *(*int32)(unsafe.Pointer(pLevel + 72)) > 0 {
var pIn uintptr
var j int32
Xsqlite3VdbeResolveLabel(tls, v, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrNxt)
j = *(*int32)(unsafe.Pointer(pLevel + 72))
pIn = *(*uintptr)(unsafe.Pointer(pLevel + 72 + 8)) + uintptr(j-1)*20
__1:
if !(j > 0) {
goto __3
}
{
Xsqlite3VdbeJumpHere(tls, v, *(*int32)(unsafe.Pointer(pIn + 4))+1)
if int32(*(*U8)(unsafe.Pointer(pIn + 16))) != OP_Noop {
if *(*int32)(unsafe.Pointer(pIn + 12)) != 0 {
var bEarlyOut int32 = libc.Bool32((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_VIRTUALTABLE) == U32(0) &&
(*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_IN_EARLYOUT) != U32(0))
if (*WhereLevel)(unsafe.Pointer(pLevel)).FiLeftJoin != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_IfNotOpen, *(*int32)(unsafe.Pointer(pIn)),
Xsqlite3VdbeCurrentAddr(tls, v)+2+bEarlyOut)
}
if bEarlyOut != 0 {
Xsqlite3VdbeAddOp4Int(tls, v, OP_IfNoHope, (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur,
Xsqlite3VdbeCurrentAddr(tls, v)+2,
*(*int32)(unsafe.Pointer(pIn + 8)), *(*int32)(unsafe.Pointer(pIn + 12)))
Xsqlite3VdbeJumpHere(tls, v, *(*int32)(unsafe.Pointer(pIn + 4))+1)
}
}
Xsqlite3VdbeAddOp2(tls, v, int32(*(*U8)(unsafe.Pointer(pIn + 16))), *(*int32)(unsafe.Pointer(pIn)), *(*int32)(unsafe.Pointer(pIn + 4)))
}
Xsqlite3VdbeJumpHere(tls, v, *(*int32)(unsafe.Pointer(pIn + 4))-1)
}
goto __2
__2:
j--
pIn -= 20
goto __1
goto __3
__3:
}
Xsqlite3VdbeResolveLabel(tls, v, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrBrk)
if (*WhereLevel)(unsafe.Pointer(pLevel)).FpRJ != 0 {
Xsqlite3VdbeAddOp3(tls, v, OP_Return, (*WhereRightJoin)(unsafe.Pointer((*WhereLevel)(unsafe.Pointer(pLevel)).FpRJ)).FregReturn, 0, 1)
}
if (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrSkip != 0 {
Xsqlite3VdbeGoto(tls, v, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrSkip)
Xsqlite3VdbeJumpHere(tls, v, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrSkip)
Xsqlite3VdbeJumpHere(tls, v, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrSkip-2)
}
if (*WhereLevel)(unsafe.Pointer(pLevel)).FiLeftJoin != 0 {
var ws int32 = int32((*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags)
addr = Xsqlite3VdbeAddOp1(tls, v, OP_IfPos, (*WhereLevel)(unsafe.Pointer(pLevel)).FiLeftJoin)
if ws&WHERE_IDX_ONLY == 0 {
Xsqlite3VdbeAddOp1(tls, v, OP_NullRow, (*WhereLevel)(unsafe.Pointer(pLevel)).FiTabCur)
}
if ws&WHERE_INDEXED != 0 ||
ws&WHERE_MULTI_OR != 0 && *(*uintptr)(unsafe.Pointer(pLevel + 72)) != 0 {
if ws&WHERE_MULTI_OR != 0 {
var pIx uintptr = *(*uintptr)(unsafe.Pointer(pLevel + 72))
var iDb int32 = Xsqlite3SchemaToIndex(tls, db, (*Index)(unsafe.Pointer(pIx)).FpSchema)
Xsqlite3VdbeAddOp3(tls, v, OP_ReopenIdx, (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur, int32((*Index)(unsafe.Pointer(pIx)).Ftnum), iDb)
Xsqlite3VdbeSetP4KeyInfo(tls, pParse, pIx)
}
Xsqlite3VdbeAddOp1(tls, v, OP_NullRow, (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur)
}
if int32((*WhereLevel)(unsafe.Pointer(pLevel)).Fop) == OP_Return {
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, (*WhereLevel)(unsafe.Pointer(pLevel)).Fp1, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrFirst)
} else {
Xsqlite3VdbeGoto(tls, v, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrFirst)
}
Xsqlite3VdbeJumpHere(tls, v, addr)
}
}
i = 0
pLevel = pWInfo + 856
__4:
if !(i < int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FnLevel)) {
goto __6
}
{
var k int32
var last int32
var pOp uintptr
var pLastOp uintptr
var pIdx uintptr = uintptr(0)
var pTabItem uintptr = pTabList + 8 + uintptr((*WhereLevel)(unsafe.Pointer(pLevel)).FiFrom)*104
var pTab uintptr = (*SrcItem)(unsafe.Pointer(pTabItem)).FpTab
pLoop = (*WhereLevel)(unsafe.Pointer(pLevel)).FpWLoop
if (*WhereLevel)(unsafe.Pointer(pLevel)).FpRJ != 0 {
Xsqlite3WhereRightJoinLoop(tls, pWInfo, i, pLevel)
goto __5
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pTabItem + 60 + 4))&0x20>>5)) != 0 {
translateColumnToCopy(tls, pParse, (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrBody, (*WhereLevel)(unsafe.Pointer(pLevel)).FiTabCur,
(*SrcItem)(unsafe.Pointer(pTabItem)).FregResult, 0)
goto __5
}
if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_INDEXED|WHERE_IDX_ONLY) != 0 {
pIdx = *(*uintptr)(unsafe.Pointer(pLoop + 24 + 8))
} else if (*WhereLoop)(unsafe.Pointer(pLoop)).FwsFlags&U32(WHERE_MULTI_OR) != 0 {
pIdx = *(*uintptr)(unsafe.Pointer(pLevel + 72))
}
if pIdx != 0 &&
!(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
if int32((*WhereInfo)(unsafe.Pointer(pWInfo)).FeOnePass) == ONEPASS_OFF || !((*Table)(unsafe.Pointer((*Index)(unsafe.Pointer(pIdx)).FpTable)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
last = iEnd
} else {
last = (*WhereInfo)(unsafe.Pointer(pWInfo)).FiEndWhere
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pIdx + 100))&0x800>>11)) != 0 {
var p uintptr = (*Parse)(unsafe.Pointer(pParse)).FpIdxEpr
for p != 0 {
if (*IndexedExpr)(unsafe.Pointer(p)).FiIdxCur == (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur {
(*IndexedExpr)(unsafe.Pointer(p)).FiDataCur = -1
(*IndexedExpr)(unsafe.Pointer(p)).FiIdxCur = -1
}
p = (*IndexedExpr)(unsafe.Pointer(p)).FpIENext
}
}
k = (*WhereLevel)(unsafe.Pointer(pLevel)).FaddrBody + 1
pOp = Xsqlite3VdbeGetOp(tls, v, k)
pLastOp = pOp + uintptr(last-k)*24
for __ccgo := true; __ccgo; __ccgo = libc.PreIncUintptr(&pOp, 24) < pLastOp {
if (*VdbeOp)(unsafe.Pointer(pOp)).Fp1 != (*WhereLevel)(unsafe.Pointer(pLevel)).FiTabCur {
} else if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_Column ||
int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_Offset {
var x int32 = (*VdbeOp)(unsafe.Pointer(pOp)).Fp2
if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_Offset {
} else if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0)) {
var pPk uintptr = Xsqlite3PrimaryKeyIndex(tls, pTab)
x = int32(*(*I16)(unsafe.Pointer((*Index)(unsafe.Pointer(pPk)).FaiColumn + uintptr(x)*2)))
} else {
x = int32(Xsqlite3StorageColumnToTable(tls, pTab, int16(x)))
}
x = int32(Xsqlite3TableColumnToIndex(tls, pIdx, int16(x)))
if x >= 0 {
(*VdbeOp)(unsafe.Pointer(pOp)).Fp2 = x
(*VdbeOp)(unsafe.Pointer(pOp)).Fp1 = (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur
} else {
}
} else if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_Rowid {
(*VdbeOp)(unsafe.Pointer(pOp)).Fp1 = (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur
(*VdbeOp)(unsafe.Pointer(pOp)).Fopcode = U8(OP_IdxRowid)
} else if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_IfNullRow {
(*VdbeOp)(unsafe.Pointer(pOp)).Fp1 = (*WhereLevel)(unsafe.Pointer(pLevel)).FiIdxCur
}
}
}
}
goto __5
__5:
i++
pLevel += 104
goto __4
goto __6
__6:
;
Xsqlite3VdbeResolveLabel(tls, v, (*WhereInfo)(unsafe.Pointer(pWInfo)).FiBreak)
(*Parse)(unsafe.Pointer(pParse)).FnQueryLoop = U32((*WhereInfo)(unsafe.Pointer(pWInfo)).FsavedNQueryLoop)
whereInfoFree(tls, db, pWInfo)
*(*U8)(unsafe.Pointer(pParse + 38)) -= U8(nRJ)
return
}
func row_numberStepFunc(tls *libc.TLS, pCtx uintptr, nArg int32, apArg uintptr) {
var p uintptr = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(I64(0))))
if p != 0 {
*(*I64)(unsafe.Pointer(p))++
}
_ = nArg
_ = apArg
}
func row_numberValueFunc(tls *libc.TLS, pCtx uintptr) {
var p uintptr = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(I64(0))))
Xsqlite3_result_int64(tls, pCtx, func() int64 {
if p != 0 {
return *(*I64)(unsafe.Pointer(p))
}
return int64(0)
}())
}
// Context object type used by rank(), dense_rank(), percent_rank() and
// cume_dist().
type CallCount = struct {
FnValue I64
FnStep I64
FnTotal I64
}
func dense_rankStepFunc(tls *libc.TLS, pCtx uintptr, nArg int32, apArg uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(CallCount{})))
if p != 0 {
(*CallCount)(unsafe.Pointer(p)).FnStep = int64(1)
}
_ = nArg
_ = apArg
}
func dense_rankValueFunc(tls *libc.TLS, pCtx uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(CallCount{})))
if p != 0 {
if (*CallCount)(unsafe.Pointer(p)).FnStep != 0 {
(*CallCount)(unsafe.Pointer(p)).FnValue++
(*CallCount)(unsafe.Pointer(p)).FnStep = int64(0)
}
Xsqlite3_result_int64(tls, pCtx, (*CallCount)(unsafe.Pointer(p)).FnValue)
}
}
// Implementation of built-in window function nth_value(). This
// implementation is used in "slow mode" only - when the EXCLUDE clause
// is not set to the default value "NO OTHERS".
type NthValueCtx = struct {
FnStep I64
FpValue uintptr
}
func nth_valueStepFunc(tls *libc.TLS, pCtx uintptr, nArg int32, apArg uintptr) {
var p uintptr
var fVal float64
var iVal I64
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(NthValueCtx{})))
if !(p != 0) {
goto __1
}
switch Xsqlite3_value_numeric_type(tls, *(*uintptr)(unsafe.Pointer(apArg + 1*8))) {
case SQLITE_INTEGER:
goto __3
case SQLITE_FLOAT:
goto __4
default:
goto __5
}
goto __2
__3:
iVal = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(apArg + 1*8)))
goto __2
__4:
fVal = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(apArg + 1*8)))
if !(float64(I64(fVal)) != fVal) {
goto __6
}
goto error_out
__6:
;
iVal = I64(fVal)
goto __2
__5:
goto error_out
__2:
;
if !(iVal <= int64(0)) {
goto __7
}
goto error_out
__7:
;
(*NthValueCtx)(unsafe.Pointer(p)).FnStep++
if !(iVal == (*NthValueCtx)(unsafe.Pointer(p)).FnStep) {
goto __8
}
(*NthValueCtx)(unsafe.Pointer(p)).FpValue = Xsqlite3_value_dup(tls, *(*uintptr)(unsafe.Pointer(apArg)))
if !!(int32((*NthValueCtx)(unsafe.Pointer(p)).FpValue) != 0) {
goto __9
}
Xsqlite3_result_error_nomem(tls, pCtx)
__9:
;
__8:
;
__1:
;
_ = nArg
_ = apArg
return
error_out:
Xsqlite3_result_error(tls,
pCtx, ts+22518, -1)
}
func nth_valueFinalizeFunc(tls *libc.TLS, pCtx uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, pCtx, 0)
if p != 0 && (*NthValueCtx)(unsafe.Pointer(p)).FpValue != 0 {
Xsqlite3_result_value(tls, pCtx, (*NthValueCtx)(unsafe.Pointer(p)).FpValue)
Xsqlite3_value_free(tls, (*NthValueCtx)(unsafe.Pointer(p)).FpValue)
(*NthValueCtx)(unsafe.Pointer(p)).FpValue = uintptr(0)
}
}
func first_valueStepFunc(tls *libc.TLS, pCtx uintptr, nArg int32, apArg uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(NthValueCtx{})))
if p != 0 && (*NthValueCtx)(unsafe.Pointer(p)).FpValue == uintptr(0) {
(*NthValueCtx)(unsafe.Pointer(p)).FpValue = Xsqlite3_value_dup(tls, *(*uintptr)(unsafe.Pointer(apArg)))
if !(int32((*NthValueCtx)(unsafe.Pointer(p)).FpValue) != 0) {
Xsqlite3_result_error_nomem(tls, pCtx)
}
}
_ = nArg
_ = apArg
}
func first_valueFinalizeFunc(tls *libc.TLS, pCtx uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(NthValueCtx{})))
if p != 0 && (*NthValueCtx)(unsafe.Pointer(p)).FpValue != 0 {
Xsqlite3_result_value(tls, pCtx, (*NthValueCtx)(unsafe.Pointer(p)).FpValue)
Xsqlite3_value_free(tls, (*NthValueCtx)(unsafe.Pointer(p)).FpValue)
(*NthValueCtx)(unsafe.Pointer(p)).FpValue = uintptr(0)
}
}
func rankStepFunc(tls *libc.TLS, pCtx uintptr, nArg int32, apArg uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(CallCount{})))
if p != 0 {
(*CallCount)(unsafe.Pointer(p)).FnStep++
if (*CallCount)(unsafe.Pointer(p)).FnValue == int64(0) {
(*CallCount)(unsafe.Pointer(p)).FnValue = (*CallCount)(unsafe.Pointer(p)).FnStep
}
}
_ = nArg
_ = apArg
}
func rankValueFunc(tls *libc.TLS, pCtx uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(CallCount{})))
if p != 0 {
Xsqlite3_result_int64(tls, pCtx, (*CallCount)(unsafe.Pointer(p)).FnValue)
(*CallCount)(unsafe.Pointer(p)).FnValue = int64(0)
}
}
func percent_rankStepFunc(tls *libc.TLS, pCtx uintptr, nArg int32, apArg uintptr) {
var p uintptr
_ = nArg
_ = apArg
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(CallCount{})))
if p != 0 {
(*CallCount)(unsafe.Pointer(p)).FnTotal++
}
}
func percent_rankInvFunc(tls *libc.TLS, pCtx uintptr, nArg int32, apArg uintptr) {
var p uintptr
_ = nArg
_ = apArg
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(CallCount{})))
(*CallCount)(unsafe.Pointer(p)).FnStep++
}
func percent_rankValueFunc(tls *libc.TLS, pCtx uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(CallCount{})))
if p != 0 {
(*CallCount)(unsafe.Pointer(p)).FnValue = (*CallCount)(unsafe.Pointer(p)).FnStep
if (*CallCount)(unsafe.Pointer(p)).FnTotal > int64(1) {
var r float64 = float64((*CallCount)(unsafe.Pointer(p)).FnValue) / float64((*CallCount)(unsafe.Pointer(p)).FnTotal-int64(1))
Xsqlite3_result_double(tls, pCtx, r)
} else {
Xsqlite3_result_double(tls, pCtx, 0.0)
}
}
}
func cume_distStepFunc(tls *libc.TLS, pCtx uintptr, nArg int32, apArg uintptr) {
var p uintptr
_ = nArg
_ = apArg
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(CallCount{})))
if p != 0 {
(*CallCount)(unsafe.Pointer(p)).FnTotal++
}
}
func cume_distInvFunc(tls *libc.TLS, pCtx uintptr, nArg int32, apArg uintptr) {
var p uintptr
_ = nArg
_ = apArg
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(CallCount{})))
(*CallCount)(unsafe.Pointer(p)).FnStep++
}
func cume_distValueFunc(tls *libc.TLS, pCtx uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, pCtx, 0)
if p != 0 {
var r float64 = float64((*CallCount)(unsafe.Pointer(p)).FnStep) / float64((*CallCount)(unsafe.Pointer(p)).FnTotal)
Xsqlite3_result_double(tls, pCtx, r)
}
}
// Context object for ntile() window function.
type NtileCtx = struct {
FnTotal I64
FnParam I64
FiRow I64
}
func ntileStepFunc(tls *libc.TLS, pCtx uintptr, nArg int32, apArg uintptr) {
var p uintptr
_ = nArg
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(NtileCtx{})))
if p != 0 {
if (*NtileCtx)(unsafe.Pointer(p)).FnTotal == int64(0) {
(*NtileCtx)(unsafe.Pointer(p)).FnParam = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(apArg)))
if (*NtileCtx)(unsafe.Pointer(p)).FnParam <= int64(0) {
Xsqlite3_result_error(tls,
pCtx, ts+22574, -1)
}
}
(*NtileCtx)(unsafe.Pointer(p)).FnTotal++
}
}
func ntileInvFunc(tls *libc.TLS, pCtx uintptr, nArg int32, apArg uintptr) {
var p uintptr
_ = nArg
_ = apArg
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(NtileCtx{})))
(*NtileCtx)(unsafe.Pointer(p)).FiRow++
}
func ntileValueFunc(tls *libc.TLS, pCtx uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(NtileCtx{})))
if p != 0 && (*NtileCtx)(unsafe.Pointer(p)).FnParam > int64(0) {
var nSize int32 = int32((*NtileCtx)(unsafe.Pointer(p)).FnTotal / (*NtileCtx)(unsafe.Pointer(p)).FnParam)
if nSize == 0 {
Xsqlite3_result_int64(tls, pCtx, (*NtileCtx)(unsafe.Pointer(p)).FiRow+int64(1))
} else {
var nLarge I64 = (*NtileCtx)(unsafe.Pointer(p)).FnTotal - (*NtileCtx)(unsafe.Pointer(p)).FnParam*I64(nSize)
var iSmall I64 = nLarge * I64(nSize+1)
var iRow I64 = (*NtileCtx)(unsafe.Pointer(p)).FiRow
if iRow < iSmall {
Xsqlite3_result_int64(tls, pCtx, int64(1)+iRow/I64(nSize+1))
} else {
Xsqlite3_result_int64(tls, pCtx, int64(1)+nLarge+(iRow-iSmall)/I64(nSize))
}
}
}
}
// Context object for last_value() window function.
type LastValueCtx = struct {
FpVal uintptr
FnVal int32
F__ccgo_pad1 [4]byte
}
func last_valueStepFunc(tls *libc.TLS, pCtx uintptr, nArg int32, apArg uintptr) {
var p uintptr
_ = nArg
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(LastValueCtx{})))
if p != 0 {
Xsqlite3_value_free(tls, (*LastValueCtx)(unsafe.Pointer(p)).FpVal)
(*LastValueCtx)(unsafe.Pointer(p)).FpVal = Xsqlite3_value_dup(tls, *(*uintptr)(unsafe.Pointer(apArg)))
if (*LastValueCtx)(unsafe.Pointer(p)).FpVal == uintptr(0) {
Xsqlite3_result_error_nomem(tls, pCtx)
} else {
(*LastValueCtx)(unsafe.Pointer(p)).FnVal++
}
}
}
func last_valueInvFunc(tls *libc.TLS, pCtx uintptr, nArg int32, apArg uintptr) {
var p uintptr
_ = nArg
_ = apArg
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(LastValueCtx{})))
if p != 0 {
(*LastValueCtx)(unsafe.Pointer(p)).FnVal--
if (*LastValueCtx)(unsafe.Pointer(p)).FnVal == 0 {
Xsqlite3_value_free(tls, (*LastValueCtx)(unsafe.Pointer(p)).FpVal)
(*LastValueCtx)(unsafe.Pointer(p)).FpVal = uintptr(0)
}
}
}
func last_valueValueFunc(tls *libc.TLS, pCtx uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, pCtx, 0)
if p != 0 && (*LastValueCtx)(unsafe.Pointer(p)).FpVal != 0 {
Xsqlite3_result_value(tls, pCtx, (*LastValueCtx)(unsafe.Pointer(p)).FpVal)
}
}
func last_valueFinalizeFunc(tls *libc.TLS, pCtx uintptr) {
var p uintptr
p = Xsqlite3_aggregate_context(tls, pCtx, int32(unsafe.Sizeof(LastValueCtx{})))
if p != 0 && (*LastValueCtx)(unsafe.Pointer(p)).FpVal != 0 {
Xsqlite3_result_value(tls, pCtx, (*LastValueCtx)(unsafe.Pointer(p)).FpVal)
Xsqlite3_value_free(tls, (*LastValueCtx)(unsafe.Pointer(p)).FpVal)
(*LastValueCtx)(unsafe.Pointer(p)).FpVal = uintptr(0)
}
}
var row_numberName = *(*[11]int8)(unsafe.Pointer(ts + 22619))
var dense_rankName = *(*[11]int8)(unsafe.Pointer(ts + 22630))
var rankName = *(*[5]int8)(unsafe.Pointer(ts + 22641))
var percent_rankName = *(*[13]int8)(unsafe.Pointer(ts + 22646))
var cume_distName = *(*[10]int8)(unsafe.Pointer(ts + 22659))
var ntileName = *(*[6]int8)(unsafe.Pointer(ts + 22669))
var last_valueName = *(*[11]int8)(unsafe.Pointer(ts + 22675))
var nth_valueName = *(*[10]int8)(unsafe.Pointer(ts + 22686))
var first_valueName = *(*[12]int8)(unsafe.Pointer(ts + 22696))
var leadName = *(*[5]int8)(unsafe.Pointer(ts + 22708))
var lagName = *(*[4]int8)(unsafe.Pointer(ts + 22713))
func noopStepFunc(tls *libc.TLS, p uintptr, n int32, a uintptr) {
_ = p
_ = n
_ = a
}
func noopValueFunc(tls *libc.TLS, p uintptr) {
_ = p
}
// Register those built-in window functions that are not also aggregates.
func Xsqlite3WindowFunctions(tls *libc.TLS) {
Xsqlite3InsertBuiltinFuncs(tls, uintptr(unsafe.Pointer(&aWindowFuncs)), int32(uint64(unsafe.Sizeof(aWindowFuncs))/uint64(unsafe.Sizeof(FuncDef{}))))
}
var aWindowFuncs = [15]FuncDef{
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0},
{FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0},
{FnArg: int8(3), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0},
{FnArg: int8(3), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | SQLITE_FUNC_WINDOW | 0), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: 0}}
func windowFind(tls *libc.TLS, pParse uintptr, pList uintptr, zName uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var p uintptr
for p = pList; p != 0; p = (*Window)(unsafe.Pointer(p)).FpNextWin {
if Xsqlite3StrICmp(tls, (*Window)(unsafe.Pointer(p)).FzName, zName) == 0 {
break
}
}
if p == uintptr(0) {
Xsqlite3ErrorMsg(tls, pParse, ts+22717, libc.VaList(bp, zName))
}
return p
}
// This function is called immediately after resolving the function name
// for a window function within a SELECT statement. Argument pList is a
// linked list of WINDOW definitions for the current SELECT statement.
// Argument pFunc is the function definition just resolved and pWin
// is the Window object representing the associated OVER clause. This
// function updates the contents of pWin as follows:
//
// - If the OVER clause refered to a named window (as in "max(x) OVER win"),
// search list pList for a matching WINDOW definition, and update pWin
// accordingly. If no such WINDOW clause can be found, leave an error
// in pParse.
//
// - If the function is a built-in window function that requires the
// window to be coerced (see "BUILT-IN WINDOW FUNCTIONS" at the top
// of this file), pWin is updated here.
func Xsqlite3WindowUpdate(tls *libc.TLS, pParse uintptr, pList uintptr, pWin uintptr, pFunc uintptr) {
bp := tls.Alloc(192)
defer tls.Free(192)
if (*Window)(unsafe.Pointer(pWin)).FzName != 0 && int32((*Window)(unsafe.Pointer(pWin)).FeFrmType) == 0 {
var p uintptr = windowFind(tls, pParse, pList, (*Window)(unsafe.Pointer(pWin)).FzName)
if p == uintptr(0) {
return
}
(*Window)(unsafe.Pointer(pWin)).FpPartition = Xsqlite3ExprListDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Window)(unsafe.Pointer(p)).FpPartition, 0)
(*Window)(unsafe.Pointer(pWin)).FpOrderBy = Xsqlite3ExprListDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Window)(unsafe.Pointer(p)).FpOrderBy, 0)
(*Window)(unsafe.Pointer(pWin)).FpStart = Xsqlite3ExprDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Window)(unsafe.Pointer(p)).FpStart, 0)
(*Window)(unsafe.Pointer(pWin)).FpEnd = Xsqlite3ExprDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Window)(unsafe.Pointer(p)).FpEnd, 0)
(*Window)(unsafe.Pointer(pWin)).FeStart = (*Window)(unsafe.Pointer(p)).FeStart
(*Window)(unsafe.Pointer(pWin)).FeEnd = (*Window)(unsafe.Pointer(p)).FeEnd
(*Window)(unsafe.Pointer(pWin)).FeFrmType = (*Window)(unsafe.Pointer(p)).FeFrmType
(*Window)(unsafe.Pointer(pWin)).FeExclude = (*Window)(unsafe.Pointer(p)).FeExclude
} else {
Xsqlite3WindowChain(tls, pParse, pWin, pList)
}
if int32((*Window)(unsafe.Pointer(pWin)).FeFrmType) == TK_RANGE &&
((*Window)(unsafe.Pointer(pWin)).FpStart != 0 || (*Window)(unsafe.Pointer(pWin)).FpEnd != 0) &&
((*Window)(unsafe.Pointer(pWin)).FpOrderBy == uintptr(0) || (*ExprList)(unsafe.Pointer((*Window)(unsafe.Pointer(pWin)).FpOrderBy)).FnExpr != 1) {
Xsqlite3ErrorMsg(tls, pParse,
ts+22736, 0)
} else if (*FuncDef)(unsafe.Pointer(pFunc)).FfuncFlags&U32(SQLITE_FUNC_WINDOW) != 0 {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if (*Window)(unsafe.Pointer(pWin)).FpFilter != 0 {
Xsqlite3ErrorMsg(tls, pParse,
ts+22807, 0)
} else {
*(*[8]WindowUpdate)(unsafe.Pointer(bp)) = [8]WindowUpdate{
{FzFunc: uintptr(unsafe.Pointer(&row_numberName)), FeFrmType: TK_ROWS, FeStart: TK_UNBOUNDED, FeEnd: TK_CURRENT},
{FzFunc: uintptr(unsafe.Pointer(&dense_rankName)), FeFrmType: TK_RANGE, FeStart: TK_UNBOUNDED, FeEnd: TK_CURRENT},
{FzFunc: uintptr(unsafe.Pointer(&rankName)), FeFrmType: TK_RANGE, FeStart: TK_UNBOUNDED, FeEnd: TK_CURRENT},
{FzFunc: uintptr(unsafe.Pointer(&percent_rankName)), FeFrmType: TK_GROUPS, FeStart: TK_CURRENT, FeEnd: TK_UNBOUNDED},
{FzFunc: uintptr(unsafe.Pointer(&cume_distName)), FeFrmType: TK_GROUPS, FeStart: TK_FOLLOWING, FeEnd: TK_UNBOUNDED},
{FzFunc: uintptr(unsafe.Pointer(&ntileName)), FeFrmType: TK_ROWS, FeStart: TK_CURRENT, FeEnd: TK_UNBOUNDED},
{FzFunc: uintptr(unsafe.Pointer(&leadName)), FeFrmType: TK_ROWS, FeStart: TK_UNBOUNDED, FeEnd: TK_UNBOUNDED},
{FzFunc: uintptr(unsafe.Pointer(&lagName)), FeFrmType: TK_ROWS, FeStart: TK_UNBOUNDED, FeEnd: TK_CURRENT},
}
var i int32
for i = 0; i < int32(uint64(unsafe.Sizeof([8]WindowUpdate{}))/uint64(unsafe.Sizeof(WindowUpdate{}))); i++ {
if (*FuncDef)(unsafe.Pointer(pFunc)).FzName == (*WindowUpdate)(unsafe.Pointer(bp+uintptr(i)*24)).FzFunc {
Xsqlite3ExprDelete(tls, db, (*Window)(unsafe.Pointer(pWin)).FpStart)
Xsqlite3ExprDelete(tls, db, (*Window)(unsafe.Pointer(pWin)).FpEnd)
(*Window)(unsafe.Pointer(pWin)).FpEnd = libc.AssignPtrUintptr(pWin+40, uintptr(0))
(*Window)(unsafe.Pointer(pWin)).FeFrmType = U8((*WindowUpdate)(unsafe.Pointer(bp + uintptr(i)*24)).FeFrmType)
(*Window)(unsafe.Pointer(pWin)).FeStart = U8((*WindowUpdate)(unsafe.Pointer(bp + uintptr(i)*24)).FeStart)
(*Window)(unsafe.Pointer(pWin)).FeEnd = U8((*WindowUpdate)(unsafe.Pointer(bp + uintptr(i)*24)).FeEnd)
(*Window)(unsafe.Pointer(pWin)).FeExclude = U8(0)
if int32((*Window)(unsafe.Pointer(pWin)).FeStart) == TK_FOLLOWING {
(*Window)(unsafe.Pointer(pWin)).FpStart = Xsqlite3Expr(tls, db, TK_INTEGER, ts+8341)
}
break
}
}
}
}
(*Window)(unsafe.Pointer(pWin)).FpWFunc = pFunc
}
type WindowUpdate = struct {
FzFunc uintptr
FeFrmType int32
FeStart int32
FeEnd int32
F__ccgo_pad1 [4]byte
}
// Context object passed through sqlite3WalkExprList() to
// selectWindowRewriteExprCb() by selectWindowRewriteEList().
type WindowRewrite = WindowRewrite1
func selectWindowRewriteExprCb(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
var p uintptr = *(*uintptr)(unsafe.Pointer(pWalker + 40))
var pParse uintptr = (*Walker)(unsafe.Pointer(pWalker)).FpParse
if (*WindowRewrite1)(unsafe.Pointer(p)).FpSubSelect != 0 {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) != TK_COLUMN {
return WRC_Continue
} else {
var nSrc int32 = (*SrcList)(unsafe.Pointer((*WindowRewrite1)(unsafe.Pointer(p)).FpSrc)).FnSrc
var i int32
for i = 0; i < nSrc; i++ {
if (*Expr)(unsafe.Pointer(pExpr)).FiTable == (*SrcItem)(unsafe.Pointer((*WindowRewrite1)(unsafe.Pointer(p)).FpSrc+8+uintptr(i)*104)).FiCursor {
break
}
}
if i == nSrc {
return WRC_Continue
}
}
}
switch int32((*Expr)(unsafe.Pointer(pExpr)).Fop) {
case TK_FUNCTION:
if !((*Expr)(unsafe.Pointer(pExpr)).Fflags&U32(EP_WinFunc) != U32(0)) {
break
} else {
var pWin uintptr
for pWin = (*WindowRewrite1)(unsafe.Pointer(p)).FpWin; pWin != 0; pWin = (*Window)(unsafe.Pointer(pWin)).FpNextWin {
if *(*uintptr)(unsafe.Pointer(pExpr + 64)) == pWin {
return WRC_Prune
}
}
}
fallthrough
case TK_AGG_FUNCTION:
fallthrough
case TK_COLUMN:
{
var iCol int32 = -1
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed != 0 {
return WRC_Abort
}
if (*WindowRewrite1)(unsafe.Pointer(p)).FpSub != 0 {
var i int32
for i = 0; i < (*ExprList)(unsafe.Pointer((*WindowRewrite1)(unsafe.Pointer(p)).FpSub)).FnExpr; i++ {
if 0 == Xsqlite3ExprCompare(tls, uintptr(0), (*ExprList_item)(unsafe.Pointer((*WindowRewrite1)(unsafe.Pointer(p)).FpSub+8+uintptr(i)*32)).FpExpr, pExpr, -1) {
iCol = i
break
}
}
}
if iCol < 0 {
var pDup uintptr = Xsqlite3ExprDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pExpr, 0)
if pDup != 0 && int32((*Expr)(unsafe.Pointer(pDup)).Fop) == TK_AGG_FUNCTION {
(*Expr)(unsafe.Pointer(pDup)).Fop = U8(TK_FUNCTION)
}
(*WindowRewrite1)(unsafe.Pointer(p)).FpSub = Xsqlite3ExprListAppend(tls, pParse, (*WindowRewrite1)(unsafe.Pointer(p)).FpSub, pDup)
}
if (*WindowRewrite1)(unsafe.Pointer(p)).FpSub != 0 {
var f int32 = int32((*Expr)(unsafe.Pointer(pExpr)).Fflags & U32(EP_Collate))
*(*U32)(unsafe.Pointer(pExpr + 4)) |= U32(EP_Static)
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pExpr)
*(*U32)(unsafe.Pointer(pExpr + 4)) &= libc.Uint32FromInt32(libc.CplInt32(EP_Static))
libc.X__builtin___memset_chk(tls, pExpr, 0, uint64(unsafe.Sizeof(Expr{})), libc.X__builtin_object_size(tls, pExpr, 0))
(*Expr)(unsafe.Pointer(pExpr)).Fop = U8(TK_COLUMN)
(*Expr)(unsafe.Pointer(pExpr)).FiColumn = func() int16 {
if iCol < 0 {
return int16((*ExprList)(unsafe.Pointer((*WindowRewrite1)(unsafe.Pointer(p)).FpSub)).FnExpr - 1)
}
return int16(iCol)
}()
(*Expr)(unsafe.Pointer(pExpr)).FiTable = (*Window)(unsafe.Pointer((*WindowRewrite1)(unsafe.Pointer(p)).FpWin)).FiEphCsr
*(*uintptr)(unsafe.Pointer(pExpr + 64)) = (*WindowRewrite1)(unsafe.Pointer(p)).FpTab
(*Expr)(unsafe.Pointer(pExpr)).Fflags = U32(f)
}
if (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FmallocFailed != 0 {
return WRC_Abort
}
break
}
default:
break
}
return WRC_Continue
}
func selectWindowRewriteSelectCb(tls *libc.TLS, pWalker uintptr, pSelect uintptr) int32 {
var p uintptr = *(*uintptr)(unsafe.Pointer(pWalker + 40))
var pSave uintptr = (*WindowRewrite1)(unsafe.Pointer(p)).FpSubSelect
if pSave == pSelect {
return WRC_Continue
} else {
(*WindowRewrite1)(unsafe.Pointer(p)).FpSubSelect = pSelect
Xsqlite3WalkSelect(tls, pWalker, pSelect)
(*WindowRewrite1)(unsafe.Pointer(p)).FpSubSelect = pSave
}
return WRC_Prune
}
func selectWindowRewriteEList(tls *libc.TLS, pParse uintptr, pWin uintptr, pSrc uintptr, pEList uintptr, pTab uintptr, ppSub uintptr) {
bp := tls.Alloc(88)
defer tls.Free(88)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
libc.X__builtin___memset_chk(tls, bp+48, 0, uint64(unsafe.Sizeof(WindowRewrite{})), libc.X__builtin_object_size(tls, bp+48, 0))
(*WindowRewrite)(unsafe.Pointer(bp + 48)).FpSub = *(*uintptr)(unsafe.Pointer(ppSub))
(*WindowRewrite)(unsafe.Pointer(bp + 48)).FpWin = pWin
(*WindowRewrite)(unsafe.Pointer(bp + 48)).FpSrc = pSrc
(*WindowRewrite)(unsafe.Pointer(bp + 48)).FpTab = pTab
(*Walker)(unsafe.Pointer(bp)).FpParse = pParse
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{selectWindowRewriteExprCb}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{selectWindowRewriteSelectCb}))
*(*uintptr)(unsafe.Pointer(bp + 40)) = bp + 48
Xsqlite3WalkExprList(tls, bp, pEList)
*(*uintptr)(unsafe.Pointer(ppSub)) = (*WindowRewrite)(unsafe.Pointer(bp + 48)).FpSub
}
func exprListAppendList(tls *libc.TLS, pParse uintptr, pList uintptr, pAppend uintptr, bIntToNull int32) uintptr {
bp := tls.Alloc(4)
defer tls.Free(4)
if pAppend != 0 {
var i int32
var nInit int32
if pList != 0 {
nInit = (*ExprList)(unsafe.Pointer(pList)).FnExpr
} else {
nInit = 0
}
for i = 0; i < (*ExprList)(unsafe.Pointer(pAppend)).FnExpr; i++ {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pDup uintptr = Xsqlite3ExprDup(tls, db, (*ExprList_item)(unsafe.Pointer(pAppend+8+uintptr(i)*32)).FpExpr, 0)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
Xsqlite3ExprDelete(tls, db, pDup)
break
}
if bIntToNull != 0 {
var pSub uintptr
pSub = Xsqlite3ExprSkipCollateAndLikely(tls, pDup)
if Xsqlite3ExprIsInteger(tls, pSub, bp) != 0 {
(*Expr)(unsafe.Pointer(pSub)).Fop = U8(TK_NULL)
*(*U32)(unsafe.Pointer(pSub + 4)) &= libc.Uint32FromInt32(libc.CplInt32(EP_IntValue | EP_IsTrue | EP_IsFalse))
*(*uintptr)(unsafe.Pointer(pSub + 8)) = uintptr(0)
}
}
pList = Xsqlite3ExprListAppend(tls, pParse, pList, pDup)
if pList != 0 {
(*ExprList_item)(unsafe.Pointer(pList + 8 + uintptr(nInit+i)*32)).Ffg.FsortFlags = (*ExprList_item)(unsafe.Pointer(pAppend + 8 + uintptr(i)*32)).Ffg.FsortFlags
}
}
}
return pList
}
func sqlite3WindowExtraAggFuncDepth(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_AGG_FUNCTION &&
int32((*Expr)(unsafe.Pointer(pExpr)).Fop2) >= (*Walker)(unsafe.Pointer(pWalker)).FwalkerDepth {
(*Expr)(unsafe.Pointer(pExpr)).Fop2++
}
return WRC_Continue
}
func disallowAggregatesInOrderByCb(tls *libc.TLS, pWalker uintptr, pExpr uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
if int32((*Expr)(unsafe.Pointer(pExpr)).Fop) == TK_AGG_FUNCTION && (*Expr)(unsafe.Pointer(pExpr)).FpAggInfo == uintptr(0) {
Xsqlite3ErrorMsg(tls, (*Walker)(unsafe.Pointer(pWalker)).FpParse,
ts+22870, libc.VaList(bp, *(*uintptr)(unsafe.Pointer(pExpr + 8))))
}
return WRC_Continue
}
// If the SELECT statement passed as the second argument does not invoke
// any SQL window functions, this function is a no-op. Otherwise, it
// rewrites the SELECT statement so that window function xStep functions
// are invoked in the correct order as described under "SELECT REWRITING"
// at the top of this file.
func Xsqlite3WindowRewrite(tls *libc.TLS, pParse uintptr, p uintptr) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
var rc int32 = SQLITE_OK
if (*Select)(unsafe.Pointer(p)).FpWin != 0 &&
(*Select)(unsafe.Pointer(p)).FpPrior == uintptr(0) &&
(*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_WinRewrite) == U32(0) &&
!(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pSub uintptr = uintptr(0)
var pSrc uintptr = (*Select)(unsafe.Pointer(p)).FpSrc
var pWhere uintptr = (*Select)(unsafe.Pointer(p)).FpWhere
var pGroupBy uintptr = (*Select)(unsafe.Pointer(p)).FpGroupBy
var pHaving uintptr = (*Select)(unsafe.Pointer(p)).FpHaving
var pSort uintptr = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 48)) = uintptr(0)
var pMWin uintptr = (*Select)(unsafe.Pointer(p)).FpWin
var pWin uintptr
var pTab uintptr
var selFlags U32 = (*Select)(unsafe.Pointer(p)).FselFlags
pTab = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Table{})))
if pTab == uintptr(0) {
return Xsqlite3ErrorToParser(tls, db, SQLITE_NOMEM)
}
Xsqlite3AggInfoPersistWalkerInit(tls, bp, pParse)
Xsqlite3WalkSelect(tls, bp, p)
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_Aggregate) == U32(0) {
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{disallowAggregatesInOrderByCb}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = uintptr(0)
Xsqlite3WalkExprList(tls, bp, (*Select)(unsafe.Pointer(p)).FpOrderBy)
}
(*Select)(unsafe.Pointer(p)).FpSrc = uintptr(0)
(*Select)(unsafe.Pointer(p)).FpWhere = uintptr(0)
(*Select)(unsafe.Pointer(p)).FpGroupBy = uintptr(0)
(*Select)(unsafe.Pointer(p)).FpHaving = uintptr(0)
*(*U32)(unsafe.Pointer(p + 4)) &= libc.Uint32FromInt32(libc.CplInt32(SF_Aggregate))
*(*U32)(unsafe.Pointer(p + 4)) |= U32(SF_WinRewrite)
pSort = exprListAppendList(tls, pParse, uintptr(0), (*Window)(unsafe.Pointer(pMWin)).FpPartition, 1)
pSort = exprListAppendList(tls, pParse, pSort, (*Window)(unsafe.Pointer(pMWin)).FpOrderBy, 1)
if pSort != 0 && (*Select)(unsafe.Pointer(p)).FpOrderBy != 0 && (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpOrderBy)).FnExpr <= (*ExprList)(unsafe.Pointer(pSort)).FnExpr {
var nSave int32 = (*ExprList)(unsafe.Pointer(pSort)).FnExpr
(*ExprList)(unsafe.Pointer(pSort)).FnExpr = (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpOrderBy)).FnExpr
if Xsqlite3ExprListCompare(tls, pSort, (*Select)(unsafe.Pointer(p)).FpOrderBy, -1) == 0 {
Xsqlite3ExprListDelete(tls, db, (*Select)(unsafe.Pointer(p)).FpOrderBy)
(*Select)(unsafe.Pointer(p)).FpOrderBy = uintptr(0)
}
(*ExprList)(unsafe.Pointer(pSort)).FnExpr = nSave
}
(*Window)(unsafe.Pointer(pMWin)).FiEphCsr = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
*(*int32)(unsafe.Pointer(pParse + 52)) += 3
selectWindowRewriteEList(tls, pParse, pMWin, pSrc, (*Select)(unsafe.Pointer(p)).FpEList, pTab, bp+48)
selectWindowRewriteEList(tls, pParse, pMWin, pSrc, (*Select)(unsafe.Pointer(p)).FpOrderBy, pTab, bp+48)
(*Window)(unsafe.Pointer(pMWin)).FnBufferCol = func() int32 {
if *(*uintptr)(unsafe.Pointer(bp + 48)) != 0 {
return (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 48)))).FnExpr
}
return 0
}()
*(*uintptr)(unsafe.Pointer(bp + 48)) = exprListAppendList(tls, pParse, *(*uintptr)(unsafe.Pointer(bp + 48)), (*Window)(unsafe.Pointer(pMWin)).FpPartition, 0)
*(*uintptr)(unsafe.Pointer(bp + 48)) = exprListAppendList(tls, pParse, *(*uintptr)(unsafe.Pointer(bp + 48)), (*Window)(unsafe.Pointer(pMWin)).FpOrderBy, 0)
for pWin = pMWin; pWin != 0; pWin = (*Window)(unsafe.Pointer(pWin)).FpNextWin {
var pArgs uintptr
pArgs = *(*uintptr)(unsafe.Pointer((*Window)(unsafe.Pointer(pWin)).FpOwner + 32))
if (*FuncDef)(unsafe.Pointer((*Window)(unsafe.Pointer(pWin)).FpWFunc)).FfuncFlags&U32(SQLITE_FUNC_SUBTYPE) != 0 {
selectWindowRewriteEList(tls, pParse, pMWin, pSrc, pArgs, pTab, bp+48)
(*Window)(unsafe.Pointer(pWin)).FiArgCol = func() int32 {
if *(*uintptr)(unsafe.Pointer(bp + 48)) != 0 {
return (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 48)))).FnExpr
}
return 0
}()
(*Window)(unsafe.Pointer(pWin)).FbExprArgs = U8(1)
} else {
(*Window)(unsafe.Pointer(pWin)).FiArgCol = func() int32 {
if *(*uintptr)(unsafe.Pointer(bp + 48)) != 0 {
return (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 48)))).FnExpr
}
return 0
}()
*(*uintptr)(unsafe.Pointer(bp + 48)) = exprListAppendList(tls, pParse, *(*uintptr)(unsafe.Pointer(bp + 48)), pArgs, 0)
}
if (*Window)(unsafe.Pointer(pWin)).FpFilter != 0 {
var pFilter uintptr = Xsqlite3ExprDup(tls, db, (*Window)(unsafe.Pointer(pWin)).FpFilter, 0)
*(*uintptr)(unsafe.Pointer(bp + 48)) = Xsqlite3ExprListAppend(tls, pParse, *(*uintptr)(unsafe.Pointer(bp + 48)), pFilter)
}
(*Window)(unsafe.Pointer(pWin)).FregAccum = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
(*Window)(unsafe.Pointer(pWin)).FregResult = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, (*Window)(unsafe.Pointer(pWin)).FregAccum)
}
if *(*uintptr)(unsafe.Pointer(bp + 48)) == uintptr(0) {
*(*uintptr)(unsafe.Pointer(bp + 48)) = Xsqlite3ExprListAppend(tls, pParse, uintptr(0),
Xsqlite3Expr(tls, db, TK_INTEGER, ts+7933))
}
pSub = Xsqlite3SelectNew(tls,
pParse, *(*uintptr)(unsafe.Pointer(bp + 48)), pSrc, pWhere, pGroupBy, pHaving, pSort, uint32(0), uintptr(0))
(*Select)(unsafe.Pointer(p)).FpSrc = Xsqlite3SrcListAppend(tls, pParse, uintptr(0), uintptr(0), uintptr(0))
if (*Select)(unsafe.Pointer(p)).FpSrc != 0 {
var pTab2 uintptr
(*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc + 8)).FpSelect = pSub
libc.SetBitFieldPtr16Uint32((*Select)(unsafe.Pointer(p)).FpSrc+8+60+4, uint32(1), 3, 0x8)
Xsqlite3SrcListAssignCursors(tls, pParse, (*Select)(unsafe.Pointer(p)).FpSrc)
*(*U32)(unsafe.Pointer(pSub + 4)) |= U32(SF_Expanded | SF_OrderByReqd)
pTab2 = Xsqlite3ResultSetOfSelect(tls, pParse, pSub, int8(SQLITE_AFF_NONE))
*(*U32)(unsafe.Pointer(pSub + 4)) |= selFlags & U32(SF_Aggregate)
if pTab2 == uintptr(0) {
rc = SQLITE_NOMEM
} else {
libc.X__builtin___memcpy_chk(tls, pTab, pTab2, uint64(unsafe.Sizeof(Table{})), libc.X__builtin_object_size(tls, pTab, 0))
*(*U32)(unsafe.Pointer(pTab + 48)) |= U32(TF_Ephemeral)
(*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc + 8)).FpTab = pTab
pTab = pTab2
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Walker{})), libc.X__builtin_object_size(tls, bp, 0))
(*Walker)(unsafe.Pointer(bp)).FxExprCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{sqlite3WindowExtraAggFuncDepth}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{Xsqlite3WalkerDepthIncrease}))
(*Walker)(unsafe.Pointer(bp)).FxSelectCallback2 = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3WalkerDepthDecrease}))
Xsqlite3WalkSelect(tls, bp, pSub)
}
} else {
Xsqlite3SelectDelete(tls, db, pSub)
}
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
rc = SQLITE_NOMEM
}
Xsqlite3ParserAddCleanup(tls, pParse, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{Xsqlite3DbFree})), pTab)
}
return rc
}
// Unlink the Window object from the Select to which it is attached,
// if it is attached.
func Xsqlite3WindowUnlinkFromSelect(tls *libc.TLS, p uintptr) {
if (*Window)(unsafe.Pointer(p)).FppThis != 0 {
*(*uintptr)(unsafe.Pointer((*Window)(unsafe.Pointer(p)).FppThis)) = (*Window)(unsafe.Pointer(p)).FpNextWin
if (*Window)(unsafe.Pointer(p)).FpNextWin != 0 {
(*Window)(unsafe.Pointer((*Window)(unsafe.Pointer(p)).FpNextWin)).FppThis = (*Window)(unsafe.Pointer(p)).FppThis
}
(*Window)(unsafe.Pointer(p)).FppThis = uintptr(0)
}
}
// Free the Window object passed as the second argument.
func Xsqlite3WindowDelete(tls *libc.TLS, db uintptr, p uintptr) {
if p != 0 {
Xsqlite3WindowUnlinkFromSelect(tls, p)
Xsqlite3ExprDelete(tls, db, (*Window)(unsafe.Pointer(p)).FpFilter)
Xsqlite3ExprListDelete(tls, db, (*Window)(unsafe.Pointer(p)).FpPartition)
Xsqlite3ExprListDelete(tls, db, (*Window)(unsafe.Pointer(p)).FpOrderBy)
Xsqlite3ExprDelete(tls, db, (*Window)(unsafe.Pointer(p)).FpEnd)
Xsqlite3ExprDelete(tls, db, (*Window)(unsafe.Pointer(p)).FpStart)
Xsqlite3DbFree(tls, db, (*Window)(unsafe.Pointer(p)).FzName)
Xsqlite3DbFree(tls, db, (*Window)(unsafe.Pointer(p)).FzBase)
Xsqlite3DbFree(tls, db, p)
}
}
// Free the linked list of Window objects starting at the second argument.
func Xsqlite3WindowListDelete(tls *libc.TLS, db uintptr, p uintptr) {
for p != 0 {
var pNext uintptr = (*Window)(unsafe.Pointer(p)).FpNextWin
Xsqlite3WindowDelete(tls, db, p)
p = pNext
}
}
func sqlite3WindowOffsetExpr(tls *libc.TLS, pParse uintptr, pExpr uintptr) uintptr {
if 0 == Xsqlite3ExprIsConstant(tls, pExpr) {
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
Xsqlite3RenameExprUnmap(tls, pParse, pExpr)
}
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pExpr)
pExpr = Xsqlite3ExprAlloc(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, TK_NULL, uintptr(0), 0)
}
return pExpr
}
// Allocate and return a new Window object describing a Window Definition.
func Xsqlite3WindowAlloc(tls *libc.TLS, pParse uintptr, eType int32, eStart int32, pStart uintptr, eEnd int32, pEnd uintptr, eExclude U8) uintptr {
var pWin uintptr
var bImplicitFrame int32
pWin = uintptr(0)
bImplicitFrame = 0
if !(eType == 0) {
goto __1
}
bImplicitFrame = 1
eType = TK_RANGE
__1:
;
if !(eStart == TK_CURRENT && eEnd == TK_PRECEDING ||
eStart == TK_FOLLOWING && (eEnd == TK_PRECEDING || eEnd == TK_CURRENT)) {
goto __2
}
Xsqlite3ErrorMsg(tls, pParse, ts+22896, 0)
goto windowAllocErr
__2:
;
pWin = Xsqlite3DbMallocZero(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(Window{})))
if !(pWin == uintptr(0)) {
goto __3
}
goto windowAllocErr
__3:
;
(*Window)(unsafe.Pointer(pWin)).FeFrmType = U8(eType)
(*Window)(unsafe.Pointer(pWin)).FeStart = U8(eStart)
(*Window)(unsafe.Pointer(pWin)).FeEnd = U8(eEnd)
if !(int32(eExclude) == 0 && (*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).FdbOptFlags&U32(SQLITE_WindowFunc) != U32(0)) {
goto __4
}
eExclude = U8(TK_NO)
__4:
;
(*Window)(unsafe.Pointer(pWin)).FeExclude = eExclude
(*Window)(unsafe.Pointer(pWin)).FbImplicitFrame = U8(bImplicitFrame)
(*Window)(unsafe.Pointer(pWin)).FpEnd = sqlite3WindowOffsetExpr(tls, pParse, pEnd)
(*Window)(unsafe.Pointer(pWin)).FpStart = sqlite3WindowOffsetExpr(tls, pParse, pStart)
return pWin
windowAllocErr:
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pEnd)
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pStart)
return uintptr(0)
}
// Attach PARTITION and ORDER BY clauses pPartition and pOrderBy to window
// pWin. Also, if parameter pBase is not NULL, set pWin->zBase to the
// equivalent nul-terminated string.
func Xsqlite3WindowAssemble(tls *libc.TLS, pParse uintptr, pWin uintptr, pPartition uintptr, pOrderBy uintptr, pBase uintptr) uintptr {
if pWin != 0 {
(*Window)(unsafe.Pointer(pWin)).FpPartition = pPartition
(*Window)(unsafe.Pointer(pWin)).FpOrderBy = pOrderBy
if pBase != 0 {
(*Window)(unsafe.Pointer(pWin)).FzBase = Xsqlite3DbStrNDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Token)(unsafe.Pointer(pBase)).Fz, uint64((*Token)(unsafe.Pointer(pBase)).Fn))
}
} else {
Xsqlite3ExprListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pPartition)
Xsqlite3ExprListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pOrderBy)
}
return pWin
}
// Window *pWin has just been created from a WINDOW clause. Tokne pBase
// is the base window. Earlier windows from the same WINDOW clause are
// stored in the linked list starting at pWin->pNextWin. This function
// either updates *pWin according to the base specification, or else
// leaves an error in pParse.
func Xsqlite3WindowChain(tls *libc.TLS, pParse uintptr, pWin uintptr, pList uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
if (*Window)(unsafe.Pointer(pWin)).FzBase != 0 {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var pExist uintptr = windowFind(tls, pParse, pList, (*Window)(unsafe.Pointer(pWin)).FzBase)
if pExist != 0 {
var zErr uintptr = uintptr(0)
if (*Window)(unsafe.Pointer(pWin)).FpPartition != 0 {
zErr = ts + 22928
} else if (*Window)(unsafe.Pointer(pExist)).FpOrderBy != 0 && (*Window)(unsafe.Pointer(pWin)).FpOrderBy != 0 {
zErr = ts + 22945
} else if int32((*Window)(unsafe.Pointer(pExist)).FbImplicitFrame) == 0 {
zErr = ts + 22961
}
if zErr != 0 {
Xsqlite3ErrorMsg(tls, pParse,
ts+22981, libc.VaList(bp, zErr, (*Window)(unsafe.Pointer(pWin)).FzBase))
} else {
(*Window)(unsafe.Pointer(pWin)).FpPartition = Xsqlite3ExprListDup(tls, db, (*Window)(unsafe.Pointer(pExist)).FpPartition, 0)
if (*Window)(unsafe.Pointer(pExist)).FpOrderBy != 0 {
(*Window)(unsafe.Pointer(pWin)).FpOrderBy = Xsqlite3ExprListDup(tls, db, (*Window)(unsafe.Pointer(pExist)).FpOrderBy, 0)
}
Xsqlite3DbFree(tls, db, (*Window)(unsafe.Pointer(pWin)).FzBase)
(*Window)(unsafe.Pointer(pWin)).FzBase = uintptr(0)
}
}
}
}
// Attach window object pWin to expression p.
func Xsqlite3WindowAttach(tls *libc.TLS, pParse uintptr, p uintptr, pWin uintptr) {
if p != 0 {
*(*uintptr)(unsafe.Pointer(p + 64)) = pWin
*(*U32)(unsafe.Pointer(p + 4)) |= U32(EP_WinFunc)
(*Window)(unsafe.Pointer(pWin)).FpOwner = p
if (*Expr)(unsafe.Pointer(p)).Fflags&U32(EP_Distinct) != 0 && int32((*Window)(unsafe.Pointer(pWin)).FeFrmType) != TK_FILTER {
Xsqlite3ErrorMsg(tls, pParse,
ts+23014, 0)
}
} else {
Xsqlite3WindowDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pWin)
}
}
// Possibly link window pWin into the list at pSel->pWin (window functions
// to be processed as part of SELECT statement pSel). The window is linked
// in if either (a) there are no other windows already linked to this
// SELECT, or (b) the windows already linked use a compatible window frame.
func Xsqlite3WindowLink(tls *libc.TLS, pSel uintptr, pWin uintptr) {
if pSel != 0 {
if uintptr(0) == (*Select)(unsafe.Pointer(pSel)).FpWin || 0 == Xsqlite3WindowCompare(tls, uintptr(0), (*Select)(unsafe.Pointer(pSel)).FpWin, pWin, 0) {
(*Window)(unsafe.Pointer(pWin)).FpNextWin = (*Select)(unsafe.Pointer(pSel)).FpWin
if (*Select)(unsafe.Pointer(pSel)).FpWin != 0 {
(*Window)(unsafe.Pointer((*Select)(unsafe.Pointer(pSel)).FpWin)).FppThis = pWin + 64
}
(*Select)(unsafe.Pointer(pSel)).FpWin = pWin
(*Window)(unsafe.Pointer(pWin)).FppThis = pSel + 112
} else {
if Xsqlite3ExprListCompare(tls, (*Window)(unsafe.Pointer(pWin)).FpPartition, (*Window)(unsafe.Pointer((*Select)(unsafe.Pointer(pSel)).FpWin)).FpPartition, -1) != 0 {
*(*U32)(unsafe.Pointer(pSel + 4)) |= U32(SF_MultiPart)
}
}
}
}
// Return 0 if the two window objects are identical, 1 if they are
// different, or 2 if it cannot be determined if the objects are identical
// or not. Identical window objects can be processed in a single scan.
func Xsqlite3WindowCompare(tls *libc.TLS, pParse uintptr, p1 uintptr, p2 uintptr, bFilter int32) int32 {
var res int32
if p1 == uintptr(0) || p2 == uintptr(0) {
return 1
}
if int32((*Window)(unsafe.Pointer(p1)).FeFrmType) != int32((*Window)(unsafe.Pointer(p2)).FeFrmType) {
return 1
}
if int32((*Window)(unsafe.Pointer(p1)).FeStart) != int32((*Window)(unsafe.Pointer(p2)).FeStart) {
return 1
}
if int32((*Window)(unsafe.Pointer(p1)).FeEnd) != int32((*Window)(unsafe.Pointer(p2)).FeEnd) {
return 1
}
if int32((*Window)(unsafe.Pointer(p1)).FeExclude) != int32((*Window)(unsafe.Pointer(p2)).FeExclude) {
return 1
}
if Xsqlite3ExprCompare(tls, pParse, (*Window)(unsafe.Pointer(p1)).FpStart, (*Window)(unsafe.Pointer(p2)).FpStart, -1) != 0 {
return 1
}
if Xsqlite3ExprCompare(tls, pParse, (*Window)(unsafe.Pointer(p1)).FpEnd, (*Window)(unsafe.Pointer(p2)).FpEnd, -1) != 0 {
return 1
}
if libc.AssignInt32(&res, Xsqlite3ExprListCompare(tls, (*Window)(unsafe.Pointer(p1)).FpPartition, (*Window)(unsafe.Pointer(p2)).FpPartition, -1)) != 0 {
return res
}
if libc.AssignInt32(&res, Xsqlite3ExprListCompare(tls, (*Window)(unsafe.Pointer(p1)).FpOrderBy, (*Window)(unsafe.Pointer(p2)).FpOrderBy, -1)) != 0 {
return res
}
if bFilter != 0 {
if libc.AssignInt32(&res, Xsqlite3ExprCompare(tls, pParse, (*Window)(unsafe.Pointer(p1)).FpFilter, (*Window)(unsafe.Pointer(p2)).FpFilter, -1)) != 0 {
return res
}
}
return 0
}
// This is called by code in select.c before it calls sqlite3WhereBegin()
// to begin iterating through the sub-query results. It is used to allocate
// and initialize registers and cursors used by sqlite3WindowCodeStep().
func Xsqlite3WindowCodeInit(tls *libc.TLS, pParse uintptr, pSelect uintptr) {
var nEphExpr int32 = (*ExprList)(unsafe.Pointer((*Select)(unsafe.Pointer((*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(pSelect)).FpSrc + 8)).FpSelect)).FpEList)).FnExpr
var pMWin uintptr = (*Select)(unsafe.Pointer(pSelect)).FpWin
var pWin uintptr
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, (*Window)(unsafe.Pointer(pMWin)).FiEphCsr, nEphExpr)
Xsqlite3VdbeAddOp2(tls, v, OP_OpenDup, (*Window)(unsafe.Pointer(pMWin)).FiEphCsr+1, (*Window)(unsafe.Pointer(pMWin)).FiEphCsr)
Xsqlite3VdbeAddOp2(tls, v, OP_OpenDup, (*Window)(unsafe.Pointer(pMWin)).FiEphCsr+2, (*Window)(unsafe.Pointer(pMWin)).FiEphCsr)
Xsqlite3VdbeAddOp2(tls, v, OP_OpenDup, (*Window)(unsafe.Pointer(pMWin)).FiEphCsr+3, (*Window)(unsafe.Pointer(pMWin)).FiEphCsr)
if (*Window)(unsafe.Pointer(pMWin)).FpPartition != 0 {
var nExpr int32 = (*ExprList)(unsafe.Pointer((*Window)(unsafe.Pointer(pMWin)).FpPartition)).FnExpr
(*Window)(unsafe.Pointer(pMWin)).FregPart = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nExpr
Xsqlite3VdbeAddOp3(tls, v, OP_Null, 0, (*Window)(unsafe.Pointer(pMWin)).FregPart, (*Window)(unsafe.Pointer(pMWin)).FregPart+nExpr-1)
}
(*Window)(unsafe.Pointer(pMWin)).FregOne = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, (*Window)(unsafe.Pointer(pMWin)).FregOne)
if (*Window)(unsafe.Pointer(pMWin)).FeExclude != 0 {
(*Window)(unsafe.Pointer(pMWin)).FregStartRowid = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
(*Window)(unsafe.Pointer(pMWin)).FregEndRowid = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
(*Window)(unsafe.Pointer(pMWin)).FcsrApp = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, (*Window)(unsafe.Pointer(pMWin)).FregStartRowid)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, (*Window)(unsafe.Pointer(pMWin)).FregEndRowid)
Xsqlite3VdbeAddOp2(tls, v, OP_OpenDup, (*Window)(unsafe.Pointer(pMWin)).FcsrApp, (*Window)(unsafe.Pointer(pMWin)).FiEphCsr)
return
}
for pWin = pMWin; pWin != 0; pWin = (*Window)(unsafe.Pointer(pWin)).FpNextWin {
var p uintptr = (*Window)(unsafe.Pointer(pWin)).FpWFunc
if (*FuncDef)(unsafe.Pointer(p)).FfuncFlags&U32(SQLITE_FUNC_MINMAX) != 0 && int32((*Window)(unsafe.Pointer(pWin)).FeStart) != TK_UNBOUNDED {
var pList uintptr
var pKeyInfo uintptr
pList = *(*uintptr)(unsafe.Pointer((*Window)(unsafe.Pointer(pWin)).FpOwner + 32))
pKeyInfo = Xsqlite3KeyInfoFromExprList(tls, pParse, pList, 0, 0)
(*Window)(unsafe.Pointer(pWin)).FcsrApp = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
(*Window)(unsafe.Pointer(pWin)).FregApp = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += 3
if pKeyInfo != 0 && int32(*(*int8)(unsafe.Pointer((*FuncDef)(unsafe.Pointer((*Window)(unsafe.Pointer(pWin)).FpWFunc)).FzName + 1))) == 'i' {
*(*U8)(unsafe.Pointer((*KeyInfo)(unsafe.Pointer(pKeyInfo)).FaSortFlags)) = U8(KEYINFO_ORDER_DESC)
}
Xsqlite3VdbeAddOp2(tls, v, OP_OpenEphemeral, (*Window)(unsafe.Pointer(pWin)).FcsrApp, 2)
Xsqlite3VdbeAppendP4(tls, v, pKeyInfo, -8)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, (*Window)(unsafe.Pointer(pWin)).FregApp+1)
} else if (*FuncDef)(unsafe.Pointer(p)).FzName == uintptr(unsafe.Pointer(&nth_valueName)) || (*FuncDef)(unsafe.Pointer(p)).FzName == uintptr(unsafe.Pointer(&first_valueName)) {
(*Window)(unsafe.Pointer(pWin)).FregApp = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
(*Window)(unsafe.Pointer(pWin)).FcsrApp = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
*(*int32)(unsafe.Pointer(pParse + 56)) += 2
Xsqlite3VdbeAddOp2(tls, v, OP_OpenDup, (*Window)(unsafe.Pointer(pWin)).FcsrApp, (*Window)(unsafe.Pointer(pMWin)).FiEphCsr)
} else if (*FuncDef)(unsafe.Pointer(p)).FzName == uintptr(unsafe.Pointer(&leadName)) || (*FuncDef)(unsafe.Pointer(p)).FzName == uintptr(unsafe.Pointer(&lagName)) {
(*Window)(unsafe.Pointer(pWin)).FcsrApp = libc.PostIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnTab, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_OpenDup, (*Window)(unsafe.Pointer(pWin)).FcsrApp, (*Window)(unsafe.Pointer(pMWin)).FiEphCsr)
}
}
}
func windowCheckValue(tls *libc.TLS, pParse uintptr, reg int32, eCond int32) {
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
var regZero int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, regZero)
if eCond >= WINDOW_STARTING_NUM {
var regString int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp4(tls, v, OP_String8, 0, regString, 0, ts+1547, -1)
Xsqlite3VdbeAddOp3(tls, v, OP_Ge, regString, Xsqlite3VdbeCurrentAddr(tls, v)+2, reg)
Xsqlite3VdbeChangeP5(tls, v, uint16(SQLITE_AFF_NUMERIC|SQLITE_JUMPIFNULL))
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_MustBeInt, reg, Xsqlite3VdbeCurrentAddr(tls, v)+2)
}
Xsqlite3VdbeAddOp3(tls, v, aOp1[eCond], regZero, Xsqlite3VdbeCurrentAddr(tls, v)+2, reg)
Xsqlite3VdbeChangeP5(tls, v, uint16(SQLITE_AFF_NUMERIC))
Xsqlite3MayAbort(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_Halt, SQLITE_ERROR, OE_Abort)
Xsqlite3VdbeAppendP4(tls, v, azErr[eCond], -1)
Xsqlite3ReleaseTempReg(tls, pParse, regZero)
}
var azErr = [5]uintptr{
ts + 23061,
ts + 23114,
ts + 22518,
ts + 23165,
ts + 23217,
}
var aOp1 = [5]int32{OP_Ge, OP_Ge, OP_Gt, OP_Ge, OP_Ge}
func windowArgCount(tls *libc.TLS, pWin uintptr) int32 {
var pList uintptr
pList = *(*uintptr)(unsafe.Pointer((*Window)(unsafe.Pointer(pWin)).FpOwner + 32))
return func() int32 {
if pList != 0 {
return (*ExprList)(unsafe.Pointer(pList)).FnExpr
}
return 0
}()
}
type WindowCodeArg1 = struct {
FpParse uintptr
FpMWin uintptr
FpVdbe uintptr
FaddrGosub int32
FregGosub int32
FregArg int32
FeDelete int32
FregRowid int32
Fstart WindowCsrAndReg
Fcurrent WindowCsrAndReg
Fend WindowCsrAndReg
F__ccgo_pad1 [4]byte
}
type WindowCodeArg = WindowCodeArg1
type WindowCsrAndReg1 = struct {
Fcsr int32
Freg int32
}
type WindowCsrAndReg = WindowCsrAndReg1
func windowReadPeerValues(tls *libc.TLS, p uintptr, csr int32, reg int32) {
var pMWin uintptr = (*WindowCodeArg)(unsafe.Pointer(p)).FpMWin
var pOrderBy uintptr = (*Window)(unsafe.Pointer(pMWin)).FpOrderBy
if pOrderBy != 0 {
var v uintptr = Xsqlite3GetVdbe(tls, (*WindowCodeArg)(unsafe.Pointer(p)).FpParse)
var pPart uintptr = (*Window)(unsafe.Pointer(pMWin)).FpPartition
var iColOff int32 = (*Window)(unsafe.Pointer(pMWin)).FnBufferCol + func() int32 {
if pPart != 0 {
return (*ExprList)(unsafe.Pointer(pPart)).FnExpr
}
return 0
}()
var i int32
for i = 0; i < (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr; i++ {
Xsqlite3VdbeAddOp3(tls, v, OP_Column, csr, iColOff+i, reg+i)
}
}
}
func windowAggStep(tls *libc.TLS, p uintptr, pMWin uintptr, csr int32, bInverse int32, reg int32) {
var pParse uintptr = (*WindowCodeArg)(unsafe.Pointer(p)).FpParse
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
var pWin uintptr
for pWin = pMWin; pWin != 0; pWin = (*Window)(unsafe.Pointer(pWin)).FpNextWin {
var pFunc uintptr = (*Window)(unsafe.Pointer(pWin)).FpWFunc
var regArg int32
var nArg int32
if (*Window)(unsafe.Pointer(pWin)).FbExprArgs != 0 {
nArg = 0
} else {
nArg = windowArgCount(tls, pWin)
}
var i int32
for i = 0; i < nArg; i++ {
if i != 1 || (*FuncDef)(unsafe.Pointer(pFunc)).FzName != uintptr(unsafe.Pointer(&nth_valueName)) {
Xsqlite3VdbeAddOp3(tls, v, OP_Column, csr, (*Window)(unsafe.Pointer(pWin)).FiArgCol+i, reg+i)
} else {
Xsqlite3VdbeAddOp3(tls, v, OP_Column, (*Window)(unsafe.Pointer(pMWin)).FiEphCsr, (*Window)(unsafe.Pointer(pWin)).FiArgCol+i, reg+i)
}
}
regArg = reg
if (*Window)(unsafe.Pointer(pMWin)).FregStartRowid == 0 &&
(*FuncDef)(unsafe.Pointer(pFunc)).FfuncFlags&U32(SQLITE_FUNC_MINMAX) != 0 &&
int32((*Window)(unsafe.Pointer(pWin)).FeStart) != TK_UNBOUNDED {
var addrIsNull int32 = Xsqlite3VdbeAddOp1(tls, v, OP_IsNull, regArg)
if bInverse == 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, (*Window)(unsafe.Pointer(pWin)).FregApp+1, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_SCopy, regArg, (*Window)(unsafe.Pointer(pWin)).FregApp)
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, (*Window)(unsafe.Pointer(pWin)).FregApp, 2, (*Window)(unsafe.Pointer(pWin)).FregApp+2)
Xsqlite3VdbeAddOp2(tls, v, OP_IdxInsert, (*Window)(unsafe.Pointer(pWin)).FcsrApp, (*Window)(unsafe.Pointer(pWin)).FregApp+2)
} else {
Xsqlite3VdbeAddOp4Int(tls, v, OP_SeekGE, (*Window)(unsafe.Pointer(pWin)).FcsrApp, 0, regArg, 1)
Xsqlite3VdbeAddOp1(tls, v, OP_Delete, (*Window)(unsafe.Pointer(pWin)).FcsrApp)
Xsqlite3VdbeJumpHere(tls, v, Xsqlite3VdbeCurrentAddr(tls, v)-2)
}
Xsqlite3VdbeJumpHere(tls, v, addrIsNull)
} else if (*Window)(unsafe.Pointer(pWin)).FregApp != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, (*Window)(unsafe.Pointer(pWin)).FregApp+1-bInverse, 1)
} else if (*FuncDef)(unsafe.Pointer(pFunc)).FxSFunc != *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{noopStepFunc})) {
var addrIf int32 = 0
if (*Window)(unsafe.Pointer(pWin)).FpFilter != 0 {
var regTmp int32
regTmp = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp3(tls, v, OP_Column, csr, (*Window)(unsafe.Pointer(pWin)).FiArgCol+nArg, regTmp)
addrIf = Xsqlite3VdbeAddOp3(tls, v, OP_IfNot, regTmp, 0, 1)
Xsqlite3ReleaseTempReg(tls, pParse, regTmp)
}
if (*Window)(unsafe.Pointer(pWin)).FbExprArgs != 0 {
var iOp int32 = Xsqlite3VdbeCurrentAddr(tls, v)
var iEnd int32
nArg = (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Window)(unsafe.Pointer(pWin)).FpOwner + 32)))).FnExpr
regArg = Xsqlite3GetTempRange(tls, pParse, nArg)
Xsqlite3ExprCodeExprList(tls, pParse, *(*uintptr)(unsafe.Pointer((*Window)(unsafe.Pointer(pWin)).FpOwner + 32)), regArg, 0, uint8(0))
for iEnd = Xsqlite3VdbeCurrentAddr(tls, v); iOp < iEnd; iOp++ {
var pOp uintptr = Xsqlite3VdbeGetOp(tls, v, iOp)
if int32((*VdbeOp)(unsafe.Pointer(pOp)).Fopcode) == OP_Column && (*VdbeOp)(unsafe.Pointer(pOp)).Fp1 == (*Window)(unsafe.Pointer(pMWin)).FiEphCsr {
(*VdbeOp)(unsafe.Pointer(pOp)).Fp1 = csr
}
}
}
if (*FuncDef)(unsafe.Pointer(pFunc)).FfuncFlags&U32(SQLITE_FUNC_NEEDCOLL) != 0 {
var pColl uintptr
pColl = Xsqlite3ExprNNCollSeq(tls, pParse, (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Window)(unsafe.Pointer(pWin)).FpOwner + 32))+8)).FpExpr)
Xsqlite3VdbeAddOp4(tls, v, OP_CollSeq, 0, 0, 0, pColl, -2)
}
Xsqlite3VdbeAddOp3(tls, v, func() int32 {
if bInverse != 0 {
return OP_AggInverse
}
return OP_AggStep
}(),
bInverse, regArg, (*Window)(unsafe.Pointer(pWin)).FregAccum)
Xsqlite3VdbeAppendP4(tls, v, pFunc, -7)
Xsqlite3VdbeChangeP5(tls, v, uint16(U8(nArg)))
if (*Window)(unsafe.Pointer(pWin)).FbExprArgs != 0 {
Xsqlite3ReleaseTempRange(tls, pParse, regArg, nArg)
}
if addrIf != 0 {
Xsqlite3VdbeJumpHere(tls, v, addrIf)
}
}
}
}
func windowAggFinal(tls *libc.TLS, p uintptr, bFin int32) {
var pParse uintptr = (*WindowCodeArg)(unsafe.Pointer(p)).FpParse
var pMWin uintptr = (*WindowCodeArg)(unsafe.Pointer(p)).FpMWin
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
var pWin uintptr
for pWin = pMWin; pWin != 0; pWin = (*Window)(unsafe.Pointer(pWin)).FpNextWin {
if (*Window)(unsafe.Pointer(pMWin)).FregStartRowid == 0 &&
(*FuncDef)(unsafe.Pointer((*Window)(unsafe.Pointer(pWin)).FpWFunc)).FfuncFlags&U32(SQLITE_FUNC_MINMAX) != 0 &&
int32((*Window)(unsafe.Pointer(pWin)).FeStart) != TK_UNBOUNDED {
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, (*Window)(unsafe.Pointer(pWin)).FregResult)
Xsqlite3VdbeAddOp1(tls, v, OP_Last, (*Window)(unsafe.Pointer(pWin)).FcsrApp)
Xsqlite3VdbeAddOp3(tls, v, OP_Column, (*Window)(unsafe.Pointer(pWin)).FcsrApp, 0, (*Window)(unsafe.Pointer(pWin)).FregResult)
Xsqlite3VdbeJumpHere(tls, v, Xsqlite3VdbeCurrentAddr(tls, v)-2)
} else if (*Window)(unsafe.Pointer(pWin)).FregApp != 0 {
} else {
var nArg int32 = windowArgCount(tls, pWin)
if bFin != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_AggFinal, (*Window)(unsafe.Pointer(pWin)).FregAccum, nArg)
Xsqlite3VdbeAppendP4(tls, v, (*Window)(unsafe.Pointer(pWin)).FpWFunc, -7)
Xsqlite3VdbeAddOp2(tls, v, OP_Copy, (*Window)(unsafe.Pointer(pWin)).FregAccum, (*Window)(unsafe.Pointer(pWin)).FregResult)
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, (*Window)(unsafe.Pointer(pWin)).FregAccum)
} else {
Xsqlite3VdbeAddOp3(tls, v, OP_AggValue, (*Window)(unsafe.Pointer(pWin)).FregAccum, nArg, (*Window)(unsafe.Pointer(pWin)).FregResult)
Xsqlite3VdbeAppendP4(tls, v, (*Window)(unsafe.Pointer(pWin)).FpWFunc, -7)
}
}
}
}
func windowFullScan(tls *libc.TLS, p uintptr) {
var pWin uintptr
var pParse uintptr = (*WindowCodeArg)(unsafe.Pointer(p)).FpParse
var pMWin uintptr = (*WindowCodeArg)(unsafe.Pointer(p)).FpMWin
var v uintptr = (*WindowCodeArg)(unsafe.Pointer(p)).FpVdbe
var regCRowid int32 = 0
var regCPeer int32 = 0
var regRowid int32 = 0
var regPeer int32 = 0
var nPeer int32
var lblNext int32
var lblBrk int32
var addrNext int32
var csr int32
csr = (*Window)(unsafe.Pointer(pMWin)).FcsrApp
nPeer = func() int32 {
if (*Window)(unsafe.Pointer(pMWin)).FpOrderBy != 0 {
return (*ExprList)(unsafe.Pointer((*Window)(unsafe.Pointer(pMWin)).FpOrderBy)).FnExpr
}
return 0
}()
lblNext = Xsqlite3VdbeMakeLabel(tls, pParse)
lblBrk = Xsqlite3VdbeMakeLabel(tls, pParse)
regCRowid = Xsqlite3GetTempReg(tls, pParse)
regRowid = Xsqlite3GetTempReg(tls, pParse)
if nPeer != 0 {
regCPeer = Xsqlite3GetTempRange(tls, pParse, nPeer)
regPeer = Xsqlite3GetTempRange(tls, pParse, nPeer)
}
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, (*Window)(unsafe.Pointer(pMWin)).FiEphCsr, regCRowid)
windowReadPeerValues(tls, p, (*Window)(unsafe.Pointer(pMWin)).FiEphCsr, regCPeer)
for pWin = pMWin; pWin != 0; pWin = (*Window)(unsafe.Pointer(pWin)).FpNextWin {
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, (*Window)(unsafe.Pointer(pWin)).FregAccum)
}
Xsqlite3VdbeAddOp3(tls, v, OP_SeekGE, csr, lblBrk, (*Window)(unsafe.Pointer(pMWin)).FregStartRowid)
addrNext = Xsqlite3VdbeCurrentAddr(tls, v)
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, csr, regRowid)
Xsqlite3VdbeAddOp3(tls, v, OP_Gt, (*Window)(unsafe.Pointer(pMWin)).FregEndRowid, lblBrk, regRowid)
if int32((*Window)(unsafe.Pointer(pMWin)).FeExclude) == TK_CURRENT {
Xsqlite3VdbeAddOp3(tls, v, OP_Eq, regCRowid, lblNext, regRowid)
} else if int32((*Window)(unsafe.Pointer(pMWin)).FeExclude) != TK_NO {
var addr int32
var addrEq int32 = 0
var pKeyInfo uintptr = uintptr(0)
if (*Window)(unsafe.Pointer(pMWin)).FpOrderBy != 0 {
pKeyInfo = Xsqlite3KeyInfoFromExprList(tls, pParse, (*Window)(unsafe.Pointer(pMWin)).FpOrderBy, 0, 0)
}
if int32((*Window)(unsafe.Pointer(pMWin)).FeExclude) == TK_TIES {
addrEq = Xsqlite3VdbeAddOp3(tls, v, OP_Eq, regCRowid, 0, regRowid)
}
if pKeyInfo != 0 {
windowReadPeerValues(tls, p, csr, regPeer)
Xsqlite3VdbeAddOp3(tls, v, OP_Compare, regPeer, regCPeer, nPeer)
Xsqlite3VdbeAppendP4(tls, v, pKeyInfo, -8)
addr = Xsqlite3VdbeCurrentAddr(tls, v) + 1
Xsqlite3VdbeAddOp3(tls, v, OP_Jump, addr, lblNext, addr)
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, lblNext)
}
if addrEq != 0 {
Xsqlite3VdbeJumpHere(tls, v, addrEq)
}
}
windowAggStep(tls, p, pMWin, csr, 0, (*WindowCodeArg)(unsafe.Pointer(p)).FregArg)
Xsqlite3VdbeResolveLabel(tls, v, lblNext)
Xsqlite3VdbeAddOp2(tls, v, OP_Next, csr, addrNext)
Xsqlite3VdbeJumpHere(tls, v, addrNext-1)
Xsqlite3VdbeJumpHere(tls, v, addrNext+1)
Xsqlite3ReleaseTempReg(tls, pParse, regRowid)
Xsqlite3ReleaseTempReg(tls, pParse, regCRowid)
if nPeer != 0 {
Xsqlite3ReleaseTempRange(tls, pParse, regPeer, nPeer)
Xsqlite3ReleaseTempRange(tls, pParse, regCPeer, nPeer)
}
windowAggFinal(tls, p, 1)
}
func windowReturnOneRow(tls *libc.TLS, p uintptr) {
var pMWin uintptr = (*WindowCodeArg)(unsafe.Pointer(p)).FpMWin
var v uintptr = (*WindowCodeArg)(unsafe.Pointer(p)).FpVdbe
if (*Window)(unsafe.Pointer(pMWin)).FregStartRowid != 0 {
windowFullScan(tls, p)
} else {
var pParse uintptr = (*WindowCodeArg)(unsafe.Pointer(p)).FpParse
var pWin uintptr
for pWin = pMWin; pWin != 0; pWin = (*Window)(unsafe.Pointer(pWin)).FpNextWin {
var pFunc uintptr = (*Window)(unsafe.Pointer(pWin)).FpWFunc
if (*FuncDef)(unsafe.Pointer(pFunc)).FzName == uintptr(unsafe.Pointer(&nth_valueName)) ||
(*FuncDef)(unsafe.Pointer(pFunc)).FzName == uintptr(unsafe.Pointer(&first_valueName)) {
var csr int32 = (*Window)(unsafe.Pointer(pWin)).FcsrApp
var lbl int32 = Xsqlite3VdbeMakeLabel(tls, pParse)
var tmpReg int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, (*Window)(unsafe.Pointer(pWin)).FregResult)
if (*FuncDef)(unsafe.Pointer(pFunc)).FzName == uintptr(unsafe.Pointer(&nth_valueName)) {
Xsqlite3VdbeAddOp3(tls, v, OP_Column, (*Window)(unsafe.Pointer(pMWin)).FiEphCsr, (*Window)(unsafe.Pointer(pWin)).FiArgCol+1, tmpReg)
windowCheckValue(tls, pParse, tmpReg, 2)
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, tmpReg)
}
Xsqlite3VdbeAddOp3(tls, v, OP_Add, tmpReg, (*Window)(unsafe.Pointer(pWin)).FregApp, tmpReg)
Xsqlite3VdbeAddOp3(tls, v, OP_Gt, (*Window)(unsafe.Pointer(pWin)).FregApp+1, lbl, tmpReg)
Xsqlite3VdbeAddOp3(tls, v, OP_SeekRowid, csr, 0, tmpReg)
Xsqlite3VdbeAddOp3(tls, v, OP_Column, csr, (*Window)(unsafe.Pointer(pWin)).FiArgCol, (*Window)(unsafe.Pointer(pWin)).FregResult)
Xsqlite3VdbeResolveLabel(tls, v, lbl)
Xsqlite3ReleaseTempReg(tls, pParse, tmpReg)
} else if (*FuncDef)(unsafe.Pointer(pFunc)).FzName == uintptr(unsafe.Pointer(&leadName)) || (*FuncDef)(unsafe.Pointer(pFunc)).FzName == uintptr(unsafe.Pointer(&lagName)) {
var nArg int32 = (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Window)(unsafe.Pointer(pWin)).FpOwner + 32)))).FnExpr
var csr int32 = (*Window)(unsafe.Pointer(pWin)).FcsrApp
var lbl int32 = Xsqlite3VdbeMakeLabel(tls, pParse)
var tmpReg int32 = Xsqlite3GetTempReg(tls, pParse)
var iEph int32 = (*Window)(unsafe.Pointer(pMWin)).FiEphCsr
if nArg < 3 {
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, (*Window)(unsafe.Pointer(pWin)).FregResult)
} else {
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iEph, (*Window)(unsafe.Pointer(pWin)).FiArgCol+2, (*Window)(unsafe.Pointer(pWin)).FregResult)
}
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, iEph, tmpReg)
if nArg < 2 {
var val int32 = func() int32 {
if (*FuncDef)(unsafe.Pointer(pFunc)).FzName == uintptr(unsafe.Pointer(&leadName)) {
return 1
}
return -1
}()
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, tmpReg, val)
} else {
var op int32 = func() int32 {
if (*FuncDef)(unsafe.Pointer(pFunc)).FzName == uintptr(unsafe.Pointer(&leadName)) {
return OP_Add
}
return OP_Subtract
}()
var tmpReg2 int32 = Xsqlite3GetTempReg(tls, pParse)
Xsqlite3VdbeAddOp3(tls, v, OP_Column, iEph, (*Window)(unsafe.Pointer(pWin)).FiArgCol+1, tmpReg2)
Xsqlite3VdbeAddOp3(tls, v, op, tmpReg2, tmpReg, tmpReg)
Xsqlite3ReleaseTempReg(tls, pParse, tmpReg2)
}
Xsqlite3VdbeAddOp3(tls, v, OP_SeekRowid, csr, lbl, tmpReg)
Xsqlite3VdbeAddOp3(tls, v, OP_Column, csr, (*Window)(unsafe.Pointer(pWin)).FiArgCol, (*Window)(unsafe.Pointer(pWin)).FregResult)
Xsqlite3VdbeResolveLabel(tls, v, lbl)
Xsqlite3ReleaseTempReg(tls, pParse, tmpReg)
}
}
}
Xsqlite3VdbeAddOp2(tls, v, OP_Gosub, (*WindowCodeArg)(unsafe.Pointer(p)).FregGosub, (*WindowCodeArg)(unsafe.Pointer(p)).FaddrGosub)
}
func windowInitAccum(tls *libc.TLS, pParse uintptr, pMWin uintptr) int32 {
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
var regArg int32
var nArg int32 = 0
var pWin uintptr
for pWin = pMWin; pWin != 0; pWin = (*Window)(unsafe.Pointer(pWin)).FpNextWin {
var pFunc uintptr = (*Window)(unsafe.Pointer(pWin)).FpWFunc
Xsqlite3VdbeAddOp2(tls, v, OP_Null, 0, (*Window)(unsafe.Pointer(pWin)).FregAccum)
nArg = func() int32 {
if nArg > windowArgCount(tls, pWin) {
return nArg
}
return windowArgCount(tls, pWin)
}()
if (*Window)(unsafe.Pointer(pMWin)).FregStartRowid == 0 {
if (*FuncDef)(unsafe.Pointer(pFunc)).FzName == uintptr(unsafe.Pointer(&nth_valueName)) || (*FuncDef)(unsafe.Pointer(pFunc)).FzName == uintptr(unsafe.Pointer(&first_valueName)) {
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, (*Window)(unsafe.Pointer(pWin)).FregApp)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, (*Window)(unsafe.Pointer(pWin)).FregApp+1)
}
if (*FuncDef)(unsafe.Pointer(pFunc)).FfuncFlags&U32(SQLITE_FUNC_MINMAX) != 0 && (*Window)(unsafe.Pointer(pWin)).FcsrApp != 0 {
Xsqlite3VdbeAddOp1(tls, v, OP_ResetSorter, (*Window)(unsafe.Pointer(pWin)).FcsrApp)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, (*Window)(unsafe.Pointer(pWin)).FregApp+1)
}
}
}
regArg = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nArg
return regArg
}
func windowCacheFrame(tls *libc.TLS, pMWin uintptr) int32 {
var pWin uintptr
if (*Window)(unsafe.Pointer(pMWin)).FregStartRowid != 0 {
return 1
}
for pWin = pMWin; pWin != 0; pWin = (*Window)(unsafe.Pointer(pWin)).FpNextWin {
var pFunc uintptr = (*Window)(unsafe.Pointer(pWin)).FpWFunc
if (*FuncDef)(unsafe.Pointer(pFunc)).FzName == uintptr(unsafe.Pointer(&nth_valueName)) ||
(*FuncDef)(unsafe.Pointer(pFunc)).FzName == uintptr(unsafe.Pointer(&first_valueName)) ||
(*FuncDef)(unsafe.Pointer(pFunc)).FzName == uintptr(unsafe.Pointer(&leadName)) ||
(*FuncDef)(unsafe.Pointer(pFunc)).FzName == uintptr(unsafe.Pointer(&lagName)) {
return 1
}
}
return 0
}
func windowIfNewPeer(tls *libc.TLS, pParse uintptr, pOrderBy uintptr, regNew int32, regOld int32, addr int32) {
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
if pOrderBy != 0 {
var nVal int32 = (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr
var pKeyInfo uintptr = Xsqlite3KeyInfoFromExprList(tls, pParse, pOrderBy, 0, 0)
Xsqlite3VdbeAddOp3(tls, v, OP_Compare, regOld, regNew, nVal)
Xsqlite3VdbeAppendP4(tls, v, pKeyInfo, -8)
Xsqlite3VdbeAddOp3(tls, v, OP_Jump,
Xsqlite3VdbeCurrentAddr(tls, v)+1, addr, Xsqlite3VdbeCurrentAddr(tls, v)+1)
Xsqlite3VdbeAddOp3(tls, v, OP_Copy, regNew, regOld, nVal-1)
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, addr)
}
}
func windowCodeRangeTest(tls *libc.TLS, p uintptr, op int32, csr1 int32, regVal int32, csr2 int32, lbl int32) {
var pParse uintptr = (*WindowCodeArg)(unsafe.Pointer(p)).FpParse
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
var pOrderBy uintptr = (*Window)(unsafe.Pointer((*WindowCodeArg)(unsafe.Pointer(p)).FpMWin)).FpOrderBy
var reg1 int32 = Xsqlite3GetTempReg(tls, pParse)
var reg2 int32 = Xsqlite3GetTempReg(tls, pParse)
var regString int32 = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
var arith int32 = OP_Add
var addrGe int32
var addrDone int32 = Xsqlite3VdbeMakeLabel(tls, pParse)
var pColl uintptr
windowReadPeerValues(tls, p, csr1, reg1)
windowReadPeerValues(tls, p, csr2, reg2)
if int32((*ExprList_item)(unsafe.Pointer(pOrderBy+8)).Ffg.FsortFlags)&KEYINFO_ORDER_DESC != 0 {
switch op {
case OP_Ge:
op = OP_Le
break
fallthrough
case OP_Gt:
op = OP_Lt
break
fallthrough
default:
op = OP_Ge
break
}
arith = OP_Subtract
}
if int32((*ExprList_item)(unsafe.Pointer(pOrderBy+8)).Ffg.FsortFlags)&KEYINFO_ORDER_BIGNULL != 0 {
var addr int32 = Xsqlite3VdbeAddOp1(tls, v, OP_NotNull, reg1)
switch op {
case OP_Ge:
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, lbl)
break
fallthrough
case OP_Gt:
Xsqlite3VdbeAddOp2(tls, v, OP_NotNull, reg2, lbl)
break
fallthrough
case OP_Le:
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, reg2, lbl)
break
fallthrough
default:
break
}
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, addrDone)
Xsqlite3VdbeJumpHere(tls, v, addr)
Xsqlite3VdbeAddOp2(tls, v, OP_IsNull, reg2,
func() int32 {
if op == OP_Gt || op == OP_Ge {
return addrDone
}
return lbl
}())
}
Xsqlite3VdbeAddOp4(tls, v, OP_String8, 0, regString, 0, ts+1547, -1)
addrGe = Xsqlite3VdbeAddOp3(tls, v, OP_Ge, regString, 0, reg1)
if op == OP_Ge && arith == OP_Add || op == OP_Le && arith == OP_Subtract {
Xsqlite3VdbeAddOp3(tls, v, op, reg2, lbl, reg1)
}
Xsqlite3VdbeAddOp3(tls, v, arith, regVal, reg1, reg1)
Xsqlite3VdbeJumpHere(tls, v, addrGe)
Xsqlite3VdbeAddOp3(tls, v, op, reg2, lbl, reg1)
pColl = Xsqlite3ExprNNCollSeq(tls, pParse, (*ExprList_item)(unsafe.Pointer(pOrderBy+8)).FpExpr)
Xsqlite3VdbeAppendP4(tls, v, pColl, -2)
Xsqlite3VdbeChangeP5(tls, v, uint16(SQLITE_NULLEQ))
Xsqlite3VdbeResolveLabel(tls, v, addrDone)
Xsqlite3ReleaseTempReg(tls, pParse, reg1)
Xsqlite3ReleaseTempReg(tls, pParse, reg2)
}
func windowCodeOp(tls *libc.TLS, p uintptr, op int32, regCountdown int32, jumpOnEof int32) int32 {
var csr int32
var reg int32
var pParse uintptr = (*WindowCodeArg)(unsafe.Pointer(p)).FpParse
var pMWin uintptr = (*WindowCodeArg)(unsafe.Pointer(p)).FpMWin
var ret int32 = 0
var v uintptr = (*WindowCodeArg)(unsafe.Pointer(p)).FpVdbe
var addrContinue int32 = 0
var bPeer int32 = libc.Bool32(int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) != TK_ROWS)
var lblDone int32 = Xsqlite3VdbeMakeLabel(tls, pParse)
var addrNextRange int32 = 0
if op == WINDOW_AGGINVERSE && int32((*Window)(unsafe.Pointer(pMWin)).FeStart) == TK_UNBOUNDED {
return 0
}
if regCountdown > 0 {
if int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) == TK_RANGE {
addrNextRange = Xsqlite3VdbeCurrentAddr(tls, v)
if op == WINDOW_AGGINVERSE {
if int32((*Window)(unsafe.Pointer(pMWin)).FeStart) == TK_FOLLOWING {
windowCodeRangeTest(tls,
p, OP_Le, (*WindowCodeArg)(unsafe.Pointer(p)).Fcurrent.Fcsr, regCountdown, (*WindowCodeArg)(unsafe.Pointer(p)).Fstart.Fcsr, lblDone)
} else {
windowCodeRangeTest(tls,
p, OP_Ge, (*WindowCodeArg)(unsafe.Pointer(p)).Fstart.Fcsr, regCountdown, (*WindowCodeArg)(unsafe.Pointer(p)).Fcurrent.Fcsr, lblDone)
}
} else {
windowCodeRangeTest(tls,
p, OP_Gt, (*WindowCodeArg)(unsafe.Pointer(p)).Fend.Fcsr, regCountdown, (*WindowCodeArg)(unsafe.Pointer(p)).Fcurrent.Fcsr, lblDone)
}
} else {
Xsqlite3VdbeAddOp3(tls, v, OP_IfPos, regCountdown, lblDone, 1)
}
}
if op == WINDOW_RETURN_ROW && (*Window)(unsafe.Pointer(pMWin)).FregStartRowid == 0 {
windowAggFinal(tls, p, 0)
}
addrContinue = Xsqlite3VdbeCurrentAddr(tls, v)
if int32((*Window)(unsafe.Pointer(pMWin)).FeStart) == int32((*Window)(unsafe.Pointer(pMWin)).FeEnd) && regCountdown != 0 &&
int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) == TK_RANGE {
var regRowid1 int32 = Xsqlite3GetTempReg(tls, pParse)
var regRowid2 int32 = Xsqlite3GetTempReg(tls, pParse)
if op == WINDOW_AGGINVERSE {
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, (*WindowCodeArg)(unsafe.Pointer(p)).Fstart.Fcsr, regRowid1)
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, (*WindowCodeArg)(unsafe.Pointer(p)).Fend.Fcsr, regRowid2)
Xsqlite3VdbeAddOp3(tls, v, OP_Ge, regRowid2, lblDone, regRowid1)
} else if (*WindowCodeArg)(unsafe.Pointer(p)).FregRowid != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_Rowid, (*WindowCodeArg)(unsafe.Pointer(p)).Fend.Fcsr, regRowid1)
Xsqlite3VdbeAddOp3(tls, v, OP_Ge, (*WindowCodeArg)(unsafe.Pointer(p)).FregRowid, lblDone, regRowid1)
}
Xsqlite3ReleaseTempReg(tls, pParse, regRowid1)
Xsqlite3ReleaseTempReg(tls, pParse, regRowid2)
}
switch op {
case WINDOW_RETURN_ROW:
csr = (*WindowCodeArg)(unsafe.Pointer(p)).Fcurrent.Fcsr
reg = (*WindowCodeArg)(unsafe.Pointer(p)).Fcurrent.Freg
windowReturnOneRow(tls, p)
break
case WINDOW_AGGINVERSE:
csr = (*WindowCodeArg)(unsafe.Pointer(p)).Fstart.Fcsr
reg = (*WindowCodeArg)(unsafe.Pointer(p)).Fstart.Freg
if (*Window)(unsafe.Pointer(pMWin)).FregStartRowid != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, (*Window)(unsafe.Pointer(pMWin)).FregStartRowid, 1)
} else {
windowAggStep(tls, p, pMWin, csr, 1, (*WindowCodeArg)(unsafe.Pointer(p)).FregArg)
}
break
default:
csr = (*WindowCodeArg)(unsafe.Pointer(p)).Fend.Fcsr
reg = (*WindowCodeArg)(unsafe.Pointer(p)).Fend.Freg
if (*Window)(unsafe.Pointer(pMWin)).FregStartRowid != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_AddImm, (*Window)(unsafe.Pointer(pMWin)).FregEndRowid, 1)
} else {
windowAggStep(tls, p, pMWin, csr, 0, (*WindowCodeArg)(unsafe.Pointer(p)).FregArg)
}
break
}
if op == (*WindowCodeArg)(unsafe.Pointer(p)).FeDelete {
Xsqlite3VdbeAddOp1(tls, v, OP_Delete, csr)
Xsqlite3VdbeChangeP5(tls, v, uint16(OPFLAG_SAVEPOSITION))
}
if jumpOnEof != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_Next, csr, Xsqlite3VdbeCurrentAddr(tls, v)+2)
ret = Xsqlite3VdbeAddOp0(tls, v, OP_Goto)
} else {
Xsqlite3VdbeAddOp2(tls, v, OP_Next, csr, Xsqlite3VdbeCurrentAddr(tls, v)+1+bPeer)
if bPeer != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, lblDone)
}
}
if bPeer != 0 {
var nReg int32 = func() int32 {
if (*Window)(unsafe.Pointer(pMWin)).FpOrderBy != 0 {
return (*ExprList)(unsafe.Pointer((*Window)(unsafe.Pointer(pMWin)).FpOrderBy)).FnExpr
}
return 0
}()
var regTmp int32 = func() int32 {
if nReg != 0 {
return Xsqlite3GetTempRange(tls, pParse, nReg)
}
return 0
}()
windowReadPeerValues(tls, p, csr, regTmp)
windowIfNewPeer(tls, pParse, (*Window)(unsafe.Pointer(pMWin)).FpOrderBy, regTmp, reg, addrContinue)
Xsqlite3ReleaseTempRange(tls, pParse, regTmp, nReg)
}
if addrNextRange != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, addrNextRange)
}
Xsqlite3VdbeResolveLabel(tls, v, lblDone)
return ret
}
// Allocate and return a duplicate of the Window object indicated by the
// third argument. Set the Window.pOwner field of the new object to
// pOwner.
func Xsqlite3WindowDup(tls *libc.TLS, db uintptr, pOwner uintptr, p uintptr) uintptr {
var pNew uintptr = uintptr(0)
if p != 0 {
pNew = Xsqlite3DbMallocZero(tls, db, uint64(unsafe.Sizeof(Window{})))
if pNew != 0 {
(*Window)(unsafe.Pointer(pNew)).FzName = Xsqlite3DbStrDup(tls, db, (*Window)(unsafe.Pointer(p)).FzName)
(*Window)(unsafe.Pointer(pNew)).FzBase = Xsqlite3DbStrDup(tls, db, (*Window)(unsafe.Pointer(p)).FzBase)
(*Window)(unsafe.Pointer(pNew)).FpFilter = Xsqlite3ExprDup(tls, db, (*Window)(unsafe.Pointer(p)).FpFilter, 0)
(*Window)(unsafe.Pointer(pNew)).FpWFunc = (*Window)(unsafe.Pointer(p)).FpWFunc
(*Window)(unsafe.Pointer(pNew)).FpPartition = Xsqlite3ExprListDup(tls, db, (*Window)(unsafe.Pointer(p)).FpPartition, 0)
(*Window)(unsafe.Pointer(pNew)).FpOrderBy = Xsqlite3ExprListDup(tls, db, (*Window)(unsafe.Pointer(p)).FpOrderBy, 0)
(*Window)(unsafe.Pointer(pNew)).FeFrmType = (*Window)(unsafe.Pointer(p)).FeFrmType
(*Window)(unsafe.Pointer(pNew)).FeEnd = (*Window)(unsafe.Pointer(p)).FeEnd
(*Window)(unsafe.Pointer(pNew)).FeStart = (*Window)(unsafe.Pointer(p)).FeStart
(*Window)(unsafe.Pointer(pNew)).FeExclude = (*Window)(unsafe.Pointer(p)).FeExclude
(*Window)(unsafe.Pointer(pNew)).FregResult = (*Window)(unsafe.Pointer(p)).FregResult
(*Window)(unsafe.Pointer(pNew)).FregAccum = (*Window)(unsafe.Pointer(p)).FregAccum
(*Window)(unsafe.Pointer(pNew)).FiArgCol = (*Window)(unsafe.Pointer(p)).FiArgCol
(*Window)(unsafe.Pointer(pNew)).FiEphCsr = (*Window)(unsafe.Pointer(p)).FiEphCsr
(*Window)(unsafe.Pointer(pNew)).FbExprArgs = (*Window)(unsafe.Pointer(p)).FbExprArgs
(*Window)(unsafe.Pointer(pNew)).FpStart = Xsqlite3ExprDup(tls, db, (*Window)(unsafe.Pointer(p)).FpStart, 0)
(*Window)(unsafe.Pointer(pNew)).FpEnd = Xsqlite3ExprDup(tls, db, (*Window)(unsafe.Pointer(p)).FpEnd, 0)
(*Window)(unsafe.Pointer(pNew)).FpOwner = pOwner
(*Window)(unsafe.Pointer(pNew)).FbImplicitFrame = (*Window)(unsafe.Pointer(p)).FbImplicitFrame
}
}
return pNew
}
// Return a copy of the linked list of Window objects passed as the
// second argument.
func Xsqlite3WindowListDup(tls *libc.TLS, db uintptr, p uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var pWin uintptr
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var pp uintptr = bp
for pWin = p; pWin != 0; pWin = (*Window)(unsafe.Pointer(pWin)).FpNextWin {
*(*uintptr)(unsafe.Pointer(pp)) = Xsqlite3WindowDup(tls, db, uintptr(0), pWin)
if *(*uintptr)(unsafe.Pointer(pp)) == uintptr(0) {
break
}
pp = *(*uintptr)(unsafe.Pointer(pp)) + 64
}
return *(*uintptr)(unsafe.Pointer(bp))
}
func windowExprGtZero(tls *libc.TLS, pParse uintptr, pExpr uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var ret int32 = 0
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
Xsqlite3ValueFromExpr(tls, db, pExpr, (*Sqlite3)(unsafe.Pointer(db)).Fenc, uint8(SQLITE_AFF_NUMERIC), bp)
if *(*uintptr)(unsafe.Pointer(bp)) != 0 && Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(bp))) > 0 {
ret = 1
}
Xsqlite3ValueFree(tls, *(*uintptr)(unsafe.Pointer(bp)))
return ret
}
// sqlite3WhereBegin() has already been called for the SELECT statement
// passed as the second argument when this function is invoked. It generates
// code to populate the Window.regResult register for each window function
// and invoke the sub-routine at instruction addrGosub once for each row.
// sqlite3WhereEnd() is always called before returning.
//
// This function handles several different types of window frames, which
// require slightly different processing. The following pseudo code is
// used to implement window frames of the form:
//
// ROWS BETWEEN <expr1> PRECEDING AND <expr2> FOLLOWING
//
// Other window frame types use variants of the following:
//
// ... loop started by sqlite3WhereBegin() ...
// if( new partition ){
// Gosub flush
// }
// Insert new row into eph table.
//
// if( first row of partition ){
// // Rewind three cursors, all open on the eph table.
// Rewind(csrEnd);
// Rewind(csrStart);
// Rewind(csrCurrent);
//
// regEnd = <expr2> // FOLLOWING expression
// regStart = <expr1> // PRECEDING expression
// }else{
// // First time this branch is taken, the eph table contains two
// // rows. The first row in the partition, which all three cursors
// // currently point to, and the following row.
// AGGSTEP
// if( (regEnd--)<=0 ){
// RETURN_ROW
// if( (regStart--)<=0 ){
// AGGINVERSE
// }
// }
// }
// }
// flush:
// AGGSTEP
// while( 1 ){
// RETURN ROW
// if( csrCurrent is EOF ) break;
// if( (regStart--)<=0 ){
// AggInverse(csrStart)
// Next(csrStart)
// }
// }
//
// The pseudo-code above uses the following shorthand:
//
// AGGSTEP: invoke the aggregate xStep() function for each window function
// with arguments read from the current row of cursor csrEnd, then
// step cursor csrEnd forward one row (i.e. sqlite3BtreeNext()).
//
// RETURN_ROW: return a row to the caller based on the contents of the
// current row of csrCurrent and the current state of all
// aggregates. Then step cursor csrCurrent forward one row.
//
// AGGINVERSE: invoke the aggregate xInverse() function for each window
// functions with arguments read from the current row of cursor
// csrStart. Then step csrStart forward one row.
//
// There are two other ROWS window frames that are handled significantly
// differently from the above - "BETWEEN <expr> PRECEDING AND <expr> PRECEDING"
// and "BETWEEN <expr> FOLLOWING AND <expr> FOLLOWING". These are special
// cases because they change the order in which the three cursors (csrStart,
// csrCurrent and csrEnd) iterate through the ephemeral table. Cases that
// use UNBOUNDED or CURRENT ROW are much simpler variations on one of these
// three.
//
// ROWS BETWEEN <expr1> PRECEDING AND <expr2> PRECEDING
//
// ... loop started by sqlite3WhereBegin() ...
// if( new partition ){
// Gosub flush
// }
// Insert new row into eph table.
// if( first row of partition ){
// Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
// regEnd = <expr2>
// regStart = <expr1>
// }else{
// if( (regEnd--)<=0 ){
// AGGSTEP
// }
// RETURN_ROW
// if( (regStart--)<=0 ){
// AGGINVERSE
// }
// }
// }
// flush:
// if( (regEnd--)<=0 ){
// AGGSTEP
// }
// RETURN_ROW
//
//
// ROWS BETWEEN <expr1> FOLLOWING AND <expr2> FOLLOWING
//
// ... loop started by sqlite3WhereBegin() ...
// if( new partition ){
// Gosub flush
// }
// Insert new row into eph table.
// if( first row of partition ){
// Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
// regEnd = <expr2>
// regStart = regEnd - <expr1>
// }else{
// AGGSTEP
// if( (regEnd--)<=0 ){
// RETURN_ROW
// }
// if( (regStart--)<=0 ){
// AGGINVERSE
// }
// }
// }
// flush:
// AGGSTEP
// while( 1 ){
// if( (regEnd--)<=0 ){
// RETURN_ROW
// if( eof ) break;
// }
// if( (regStart--)<=0 ){
// AGGINVERSE
// if( eof ) break
// }
// }
// while( !eof csrCurrent ){
// RETURN_ROW
// }
//
// For the most part, the patterns above are adapted to support UNBOUNDED by
// assuming that it is equivalent to "infinity PRECEDING/FOLLOWING" and
// CURRENT ROW by assuming that it is equivilent to "0 PRECEDING/FOLLOWING".
// This is optimized of course - branches that will never be taken and
// conditions that are always true are omitted from the VM code. The only
// exceptional case is:
//
// ROWS BETWEEN <expr1> FOLLOWING AND UNBOUNDED FOLLOWING
//
// ... loop started by sqlite3WhereBegin() ...
// if( new partition ){
// Gosub flush
// }
// Insert new row into eph table.
// if( first row of partition ){
// Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
// regStart = <expr1>
// }else{
// AGGSTEP
// }
// }
// flush:
// AGGSTEP
// while( 1 ){
// if( (regStart--)<=0 ){
// AGGINVERSE
// if( eof ) break
// }
// RETURN_ROW
// }
// while( !eof csrCurrent ){
// RETURN_ROW
// }
//
// Also requiring special handling are the cases:
//
// ROWS BETWEEN <expr1> PRECEDING AND <expr2> PRECEDING
// ROWS BETWEEN <expr1> FOLLOWING AND <expr2> FOLLOWING
//
// when (expr1 < expr2). This is detected at runtime, not by this function.
// To handle this case, the pseudo-code programs depicted above are modified
// slightly to be:
//
// ... loop started by sqlite3WhereBegin() ...
// if( new partition ){
// Gosub flush
// }
// Insert new row into eph table.
// if( first row of partition ){
// Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
// regEnd = <expr2>
// regStart = <expr1>
// if( regEnd < regStart ){
// RETURN_ROW
// delete eph table contents
// continue
// }
// ...
//
// The new "continue" statement in the above jumps to the next iteration
// of the outer loop - the one started by sqlite3WhereBegin().
//
// The various GROUPS cases are implemented using the same patterns as
// ROWS. The VM code is modified slightly so that:
//
// 1. The else branch in the main loop is only taken if the row just
// added to the ephemeral table is the start of a new group. In
// other words, it becomes:
//
// ... loop started by sqlite3WhereBegin() ...
// if( new partition ){
// Gosub flush
// }
// Insert new row into eph table.
// if( first row of partition ){
// Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
// regEnd = <expr2>
// regStart = <expr1>
// }else if( new group ){
// ...
// }
// }
//
// 2. Instead of processing a single row, each RETURN_ROW, AGGSTEP or
// AGGINVERSE step processes the current row of the relevant cursor and
// all subsequent rows belonging to the same group.
//
// RANGE window frames are a little different again. As for GROUPS, the
// main loop runs once per group only. And RETURN_ROW, AGGSTEP and AGGINVERSE
// deal in groups instead of rows. As for ROWS and GROUPS, there are three
// basic cases:
//
// RANGE BETWEEN <expr1> PRECEDING AND <expr2> FOLLOWING
//
// ... loop started by sqlite3WhereBegin() ...
// if( new partition ){
// Gosub flush
// }
// Insert new row into eph table.
// if( first row of partition ){
// Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
// regEnd = <expr2>
// regStart = <expr1>
// }else{
// AGGSTEP
// while( (csrCurrent.key + regEnd) < csrEnd.key ){
// RETURN_ROW
// while( csrStart.key + regStart) < csrCurrent.key ){
// AGGINVERSE
// }
// }
// }
// }
// flush:
// AGGSTEP
// while( 1 ){
// RETURN ROW
// if( csrCurrent is EOF ) break;
// while( csrStart.key + regStart) < csrCurrent.key ){
// AGGINVERSE
// }
// }
// }
//
// In the above notation, "csr.key" means the current value of the ORDER BY
// expression (there is only ever 1 for a RANGE that uses an <expr> FOLLOWING
// or <expr PRECEDING) read from cursor csr.
//
// RANGE BETWEEN <expr1> PRECEDING AND <expr2> PRECEDING
//
// ... loop started by sqlite3WhereBegin() ...
// if( new partition ){
// Gosub flush
// }
// Insert new row into eph table.
// if( first row of partition ){
// Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
// regEnd = <expr2>
// regStart = <expr1>
// }else{
// while( (csrEnd.key + regEnd) <= csrCurrent.key ){
// AGGSTEP
// }
// while( (csrStart.key + regStart) < csrCurrent.key ){
// AGGINVERSE
// }
// RETURN_ROW
// }
// }
// flush:
// while( (csrEnd.key + regEnd) <= csrCurrent.key ){
// AGGSTEP
// }
// while( (csrStart.key + regStart) < csrCurrent.key ){
// AGGINVERSE
// }
// RETURN_ROW
//
// RANGE BETWEEN <expr1> FOLLOWING AND <expr2> FOLLOWING
//
// ... loop started by sqlite3WhereBegin() ...
// if( new partition ){
// Gosub flush
// }
// Insert new row into eph table.
// if( first row of partition ){
// Rewind(csrEnd) ; Rewind(csrStart) ; Rewind(csrCurrent)
// regEnd = <expr2>
// regStart = <expr1>
// }else{
// AGGSTEP
// while( (csrCurrent.key + regEnd) < csrEnd.key ){
// while( (csrCurrent.key + regStart) > csrStart.key ){
// AGGINVERSE
// }
// RETURN_ROW
// }
// }
// }
// flush:
// AGGSTEP
// while( 1 ){
// while( (csrCurrent.key + regStart) > csrStart.key ){
// AGGINVERSE
// if( eof ) break "while( 1 )" loop.
// }
// RETURN_ROW
// }
// while( !eof csrCurrent ){
// RETURN_ROW
// }
//
// The text above leaves out many details. Refer to the code and comments
// below for a more complete picture.
func Xsqlite3WindowCodeStep(tls *libc.TLS, pParse uintptr, p uintptr, pWInfo uintptr, regGosub int32, addrGosub int32) {
bp := tls.Alloc(72)
defer tls.Free(72)
var pMWin uintptr = (*Select)(unsafe.Pointer(p)).FpWin
var pOrderBy uintptr = (*Window)(unsafe.Pointer(pMWin)).FpOrderBy
var v uintptr = Xsqlite3GetVdbe(tls, pParse)
var csrWrite int32
var csrInput int32 = (*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc + 8)).FiCursor
var nInput int32 = int32((*Table)(unsafe.Pointer((*SrcItem)(unsafe.Pointer((*Select)(unsafe.Pointer(p)).FpSrc + 8)).FpTab)).FnCol)
var iInput int32
var addrNe int32
var addrGosubFlush int32 = 0
var addrInteger int32 = 0
var addrEmpty int32
var regNew int32
var regRecord int32
var regNewPeer int32 = 0
var regPeer int32 = 0
var regFlushPart int32 = 0
var lblWhereEnd int32
var regStart int32 = 0
var regEnd int32 = 0
lblWhereEnd = Xsqlite3VdbeMakeLabel(tls, pParse)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(WindowCodeArg{})), libc.X__builtin_object_size(tls, bp, 0))
(*WindowCodeArg)(unsafe.Pointer(bp)).FpParse = pParse
(*WindowCodeArg)(unsafe.Pointer(bp)).FpMWin = pMWin
(*WindowCodeArg)(unsafe.Pointer(bp)).FpVdbe = v
(*WindowCodeArg)(unsafe.Pointer(bp)).FregGosub = regGosub
(*WindowCodeArg)(unsafe.Pointer(bp)).FaddrGosub = addrGosub
(*WindowCodeArg)(unsafe.Pointer(bp)).Fcurrent.Fcsr = (*Window)(unsafe.Pointer(pMWin)).FiEphCsr
csrWrite = (*WindowCodeArg)(unsafe.Pointer(bp)).Fcurrent.Fcsr + 1
(*WindowCodeArg)(unsafe.Pointer(bp)).Fstart.Fcsr = (*WindowCodeArg)(unsafe.Pointer(bp)).Fcurrent.Fcsr + 2
(*WindowCodeArg)(unsafe.Pointer(bp)).Fend.Fcsr = (*WindowCodeArg)(unsafe.Pointer(bp)).Fcurrent.Fcsr + 3
switch int32((*Window)(unsafe.Pointer(pMWin)).FeStart) {
case TK_FOLLOWING:
if int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) != TK_RANGE &&
windowExprGtZero(tls, pParse, (*Window)(unsafe.Pointer(pMWin)).FpStart) != 0 {
(*WindowCodeArg)(unsafe.Pointer(bp)).FeDelete = WINDOW_RETURN_ROW
}
break
case TK_UNBOUNDED:
if windowCacheFrame(tls, pMWin) == 0 {
if int32((*Window)(unsafe.Pointer(pMWin)).FeEnd) == TK_PRECEDING {
if int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) != TK_RANGE &&
windowExprGtZero(tls, pParse, (*Window)(unsafe.Pointer(pMWin)).FpEnd) != 0 {
(*WindowCodeArg)(unsafe.Pointer(bp)).FeDelete = WINDOW_AGGSTEP
}
} else {
(*WindowCodeArg)(unsafe.Pointer(bp)).FeDelete = WINDOW_RETURN_ROW
}
}
break
default:
(*WindowCodeArg)(unsafe.Pointer(bp)).FeDelete = WINDOW_AGGINVERSE
break
}
regNew = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nInput
regRecord = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
(*WindowCodeArg)(unsafe.Pointer(bp)).FregRowid = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
if int32((*Window)(unsafe.Pointer(pMWin)).FeStart) == TK_PRECEDING || int32((*Window)(unsafe.Pointer(pMWin)).FeStart) == TK_FOLLOWING {
regStart = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
}
if int32((*Window)(unsafe.Pointer(pMWin)).FeEnd) == TK_PRECEDING || int32((*Window)(unsafe.Pointer(pMWin)).FeEnd) == TK_FOLLOWING {
regEnd = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
}
if int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) != TK_ROWS {
var nPeer int32 = func() int32 {
if pOrderBy != 0 {
return (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr
}
return 0
}()
regNewPeer = regNew + (*Window)(unsafe.Pointer(pMWin)).FnBufferCol
if (*Window)(unsafe.Pointer(pMWin)).FpPartition != 0 {
regNewPeer = regNewPeer + (*ExprList)(unsafe.Pointer((*Window)(unsafe.Pointer(pMWin)).FpPartition)).FnExpr
}
regPeer = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nPeer
(*WindowCodeArg)(unsafe.Pointer(bp)).Fstart.Freg = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nPeer
(*WindowCodeArg)(unsafe.Pointer(bp)).Fcurrent.Freg = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nPeer
(*WindowCodeArg)(unsafe.Pointer(bp)).Fend.Freg = (*Parse)(unsafe.Pointer(pParse)).FnMem + 1
*(*int32)(unsafe.Pointer(pParse + 56)) += nPeer
}
for iInput = 0; iInput < nInput; iInput++ {
Xsqlite3VdbeAddOp3(tls, v, OP_Column, csrInput, iInput, regNew+iInput)
}
Xsqlite3VdbeAddOp3(tls, v, OP_MakeRecord, regNew, nInput, regRecord)
if (*Window)(unsafe.Pointer(pMWin)).FpPartition != 0 {
var addr int32
var pPart uintptr = (*Window)(unsafe.Pointer(pMWin)).FpPartition
var nPart int32 = (*ExprList)(unsafe.Pointer(pPart)).FnExpr
var regNewPart int32 = regNew + (*Window)(unsafe.Pointer(pMWin)).FnBufferCol
var pKeyInfo uintptr = Xsqlite3KeyInfoFromExprList(tls, pParse, pPart, 0, 0)
regFlushPart = libc.PreIncInt32(&(*Parse)(unsafe.Pointer(pParse)).FnMem, 1)
addr = Xsqlite3VdbeAddOp3(tls, v, OP_Compare, regNewPart, (*Window)(unsafe.Pointer(pMWin)).FregPart, nPart)
Xsqlite3VdbeAppendP4(tls, v, pKeyInfo, -8)
Xsqlite3VdbeAddOp3(tls, v, OP_Jump, addr+2, addr+4, addr+2)
addrGosubFlush = Xsqlite3VdbeAddOp1(tls, v, OP_Gosub, regFlushPart)
Xsqlite3VdbeAddOp3(tls, v, OP_Copy, regNewPart, (*Window)(unsafe.Pointer(pMWin)).FregPart, nPart-1)
}
Xsqlite3VdbeAddOp2(tls, v, OP_NewRowid, csrWrite, (*WindowCodeArg)(unsafe.Pointer(bp)).FregRowid)
Xsqlite3VdbeAddOp3(tls, v, OP_Insert, csrWrite, regRecord, (*WindowCodeArg)(unsafe.Pointer(bp)).FregRowid)
addrNe = Xsqlite3VdbeAddOp3(tls, v, OP_Ne, (*Window)(unsafe.Pointer(pMWin)).FregOne, 0, (*WindowCodeArg)(unsafe.Pointer(bp)).FregRowid)
(*WindowCodeArg)(unsafe.Pointer(bp)).FregArg = windowInitAccum(tls, pParse, pMWin)
if regStart != 0 {
Xsqlite3ExprCode(tls, pParse, (*Window)(unsafe.Pointer(pMWin)).FpStart, regStart)
windowCheckValue(tls, pParse, regStart, 0+func() int32 {
if int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) == TK_RANGE {
return 3
}
return 0
}())
}
if regEnd != 0 {
Xsqlite3ExprCode(tls, pParse, (*Window)(unsafe.Pointer(pMWin)).FpEnd, regEnd)
windowCheckValue(tls, pParse, regEnd, 1+func() int32 {
if int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) == TK_RANGE {
return 3
}
return 0
}())
}
if int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) != TK_RANGE && int32((*Window)(unsafe.Pointer(pMWin)).FeStart) == int32((*Window)(unsafe.Pointer(pMWin)).FeEnd) && regStart != 0 {
var op int32 = func() int32 {
if int32((*Window)(unsafe.Pointer(pMWin)).FeStart) == TK_FOLLOWING {
return OP_Ge
}
return OP_Le
}()
var addrGe int32 = Xsqlite3VdbeAddOp3(tls, v, op, regStart, 0, regEnd)
windowAggFinal(tls, bp, 0)
Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, (*WindowCodeArg)(unsafe.Pointer(bp)).Fcurrent.Fcsr)
windowReturnOneRow(tls, bp)
Xsqlite3VdbeAddOp1(tls, v, OP_ResetSorter, (*WindowCodeArg)(unsafe.Pointer(bp)).Fcurrent.Fcsr)
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, lblWhereEnd)
Xsqlite3VdbeJumpHere(tls, v, addrGe)
}
if int32((*Window)(unsafe.Pointer(pMWin)).FeStart) == TK_FOLLOWING && int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) != TK_RANGE && regEnd != 0 {
Xsqlite3VdbeAddOp3(tls, v, OP_Subtract, regStart, regEnd, regStart)
}
if int32((*Window)(unsafe.Pointer(pMWin)).FeStart) != TK_UNBOUNDED {
Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, (*WindowCodeArg)(unsafe.Pointer(bp)).Fstart.Fcsr)
}
Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, (*WindowCodeArg)(unsafe.Pointer(bp)).Fcurrent.Fcsr)
Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, (*WindowCodeArg)(unsafe.Pointer(bp)).Fend.Fcsr)
if regPeer != 0 && pOrderBy != 0 {
Xsqlite3VdbeAddOp3(tls, v, OP_Copy, regNewPeer, regPeer, (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr-1)
Xsqlite3VdbeAddOp3(tls, v, OP_Copy, regPeer, (*WindowCodeArg)(unsafe.Pointer(bp)).Fstart.Freg, (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr-1)
Xsqlite3VdbeAddOp3(tls, v, OP_Copy, regPeer, (*WindowCodeArg)(unsafe.Pointer(bp)).Fcurrent.Freg, (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr-1)
Xsqlite3VdbeAddOp3(tls, v, OP_Copy, regPeer, (*WindowCodeArg)(unsafe.Pointer(bp)).Fend.Freg, (*ExprList)(unsafe.Pointer(pOrderBy)).FnExpr-1)
}
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, lblWhereEnd)
Xsqlite3VdbeJumpHere(tls, v, addrNe)
if regPeer != 0 {
windowIfNewPeer(tls, pParse, pOrderBy, regNewPeer, regPeer, lblWhereEnd)
}
if int32((*Window)(unsafe.Pointer(pMWin)).FeStart) == TK_FOLLOWING {
windowCodeOp(tls, bp, WINDOW_AGGSTEP, 0, 0)
if int32((*Window)(unsafe.Pointer(pMWin)).FeEnd) != TK_UNBOUNDED {
if int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) == TK_RANGE {
var lbl int32 = Xsqlite3VdbeMakeLabel(tls, pParse)
var addrNext int32 = Xsqlite3VdbeCurrentAddr(tls, v)
windowCodeRangeTest(tls, bp, OP_Ge, (*WindowCodeArg)(unsafe.Pointer(bp)).Fcurrent.Fcsr, regEnd, (*WindowCodeArg)(unsafe.Pointer(bp)).Fend.Fcsr, lbl)
windowCodeOp(tls, bp, WINDOW_AGGINVERSE, regStart, 0)
windowCodeOp(tls, bp, WINDOW_RETURN_ROW, 0, 0)
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, addrNext)
Xsqlite3VdbeResolveLabel(tls, v, lbl)
} else {
windowCodeOp(tls, bp, WINDOW_RETURN_ROW, regEnd, 0)
windowCodeOp(tls, bp, WINDOW_AGGINVERSE, regStart, 0)
}
}
} else if int32((*Window)(unsafe.Pointer(pMWin)).FeEnd) == TK_PRECEDING {
var bRPS int32 = libc.Bool32(int32((*Window)(unsafe.Pointer(pMWin)).FeStart) == TK_PRECEDING && int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) == TK_RANGE)
windowCodeOp(tls, bp, WINDOW_AGGSTEP, regEnd, 0)
if bRPS != 0 {
windowCodeOp(tls, bp, WINDOW_AGGINVERSE, regStart, 0)
}
windowCodeOp(tls, bp, WINDOW_RETURN_ROW, 0, 0)
if !(bRPS != 0) {
windowCodeOp(tls, bp, WINDOW_AGGINVERSE, regStart, 0)
}
} else {
var addr int32 = 0
windowCodeOp(tls, bp, WINDOW_AGGSTEP, 0, 0)
if int32((*Window)(unsafe.Pointer(pMWin)).FeEnd) != TK_UNBOUNDED {
if int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) == TK_RANGE {
var lbl int32 = 0
addr = Xsqlite3VdbeCurrentAddr(tls, v)
if regEnd != 0 {
lbl = Xsqlite3VdbeMakeLabel(tls, pParse)
windowCodeRangeTest(tls, bp, OP_Ge, (*WindowCodeArg)(unsafe.Pointer(bp)).Fcurrent.Fcsr, regEnd, (*WindowCodeArg)(unsafe.Pointer(bp)).Fend.Fcsr, lbl)
}
windowCodeOp(tls, bp, WINDOW_RETURN_ROW, 0, 0)
windowCodeOp(tls, bp, WINDOW_AGGINVERSE, regStart, 0)
if regEnd != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, addr)
Xsqlite3VdbeResolveLabel(tls, v, lbl)
}
} else {
if regEnd != 0 {
addr = Xsqlite3VdbeAddOp3(tls, v, OP_IfPos, regEnd, 0, 1)
}
windowCodeOp(tls, bp, WINDOW_RETURN_ROW, 0, 0)
windowCodeOp(tls, bp, WINDOW_AGGINVERSE, regStart, 0)
if regEnd != 0 {
Xsqlite3VdbeJumpHere(tls, v, addr)
}
}
}
}
Xsqlite3VdbeResolveLabel(tls, v, lblWhereEnd)
Xsqlite3WhereEnd(tls, pWInfo)
if (*Window)(unsafe.Pointer(pMWin)).FpPartition != 0 {
addrInteger = Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, regFlushPart)
Xsqlite3VdbeJumpHere(tls, v, addrGosubFlush)
}
(*WindowCodeArg)(unsafe.Pointer(bp)).FregRowid = 0
addrEmpty = Xsqlite3VdbeAddOp1(tls, v, OP_Rewind, csrWrite)
if int32((*Window)(unsafe.Pointer(pMWin)).FeEnd) == TK_PRECEDING {
var bRPS int32 = libc.Bool32(int32((*Window)(unsafe.Pointer(pMWin)).FeStart) == TK_PRECEDING && int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) == TK_RANGE)
windowCodeOp(tls, bp, WINDOW_AGGSTEP, regEnd, 0)
if bRPS != 0 {
windowCodeOp(tls, bp, WINDOW_AGGINVERSE, regStart, 0)
}
windowCodeOp(tls, bp, WINDOW_RETURN_ROW, 0, 0)
} else if int32((*Window)(unsafe.Pointer(pMWin)).FeStart) == TK_FOLLOWING {
var addrStart int32
var addrBreak1 int32
var addrBreak2 int32
var addrBreak3 int32
windowCodeOp(tls, bp, WINDOW_AGGSTEP, 0, 0)
if int32((*Window)(unsafe.Pointer(pMWin)).FeFrmType) == TK_RANGE {
addrStart = Xsqlite3VdbeCurrentAddr(tls, v)
addrBreak2 = windowCodeOp(tls, bp, WINDOW_AGGINVERSE, regStart, 1)
addrBreak1 = windowCodeOp(tls, bp, WINDOW_RETURN_ROW, 0, 1)
} else if int32((*Window)(unsafe.Pointer(pMWin)).FeEnd) == TK_UNBOUNDED {
addrStart = Xsqlite3VdbeCurrentAddr(tls, v)
addrBreak1 = windowCodeOp(tls, bp, WINDOW_RETURN_ROW, regStart, 1)
addrBreak2 = windowCodeOp(tls, bp, WINDOW_AGGINVERSE, 0, 1)
} else {
addrStart = Xsqlite3VdbeCurrentAddr(tls, v)
addrBreak1 = windowCodeOp(tls, bp, WINDOW_RETURN_ROW, regEnd, 1)
addrBreak2 = windowCodeOp(tls, bp, WINDOW_AGGINVERSE, regStart, 1)
}
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, addrStart)
Xsqlite3VdbeJumpHere(tls, v, addrBreak2)
addrStart = Xsqlite3VdbeCurrentAddr(tls, v)
addrBreak3 = windowCodeOp(tls, bp, WINDOW_RETURN_ROW, 0, 1)
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, addrStart)
Xsqlite3VdbeJumpHere(tls, v, addrBreak1)
Xsqlite3VdbeJumpHere(tls, v, addrBreak3)
} else {
var addrBreak int32
var addrStart int32
windowCodeOp(tls, bp, WINDOW_AGGSTEP, 0, 0)
addrStart = Xsqlite3VdbeCurrentAddr(tls, v)
addrBreak = windowCodeOp(tls, bp, WINDOW_RETURN_ROW, 0, 1)
windowCodeOp(tls, bp, WINDOW_AGGINVERSE, regStart, 0)
Xsqlite3VdbeAddOp2(tls, v, OP_Goto, 0, addrStart)
Xsqlite3VdbeJumpHere(tls, v, addrBreak)
}
Xsqlite3VdbeJumpHere(tls, v, addrEmpty)
Xsqlite3VdbeAddOp1(tls, v, OP_ResetSorter, (*WindowCodeArg)(unsafe.Pointer(bp)).Fcurrent.Fcsr)
if (*Window)(unsafe.Pointer(pMWin)).FpPartition != 0 {
if (*Window)(unsafe.Pointer(pMWin)).FregStartRowid != 0 {
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 1, (*Window)(unsafe.Pointer(pMWin)).FregStartRowid)
Xsqlite3VdbeAddOp2(tls, v, OP_Integer, 0, (*Window)(unsafe.Pointer(pMWin)).FregEndRowid)
}
Xsqlite3VdbeChangeP1(tls, v, addrInteger, Xsqlite3VdbeCurrentAddr(tls, v))
Xsqlite3VdbeAddOp1(tls, v, OP_Return, regFlushPart)
}
}
// An instance of the following structure describes the event of a
// TRIGGER. "a" is the event type, one of TK_UPDATE, TK_INSERT,
// TK_DELETE, or TK_INSTEAD. If the event is of the form
//
// UPDATE ON (a,b,c)
//
// Then the "b" IdList records the list "a,b,c".
type TrigEvent = struct {
Fa int32
F__ccgo_pad1 [4]byte
Fb uintptr
}
type FrameBound = struct {
FeType int32
F__ccgo_pad1 [4]byte
FpExpr uintptr
}
func disableLookaside(tls *libc.TLS, pParse uintptr) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
(*Parse)(unsafe.Pointer(pParse)).FdisableLookaside++
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable++
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz = U16(0)
}
func parserDoubleLinkSelect(tls *libc.TLS, pParse uintptr, p uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
if (*Select)(unsafe.Pointer(p)).FpPrior != 0 {
var pNext uintptr = uintptr(0)
var pLoop uintptr = p
var mxSelect int32
var cnt int32 = 1
for 1 != 0 {
(*Select)(unsafe.Pointer(pLoop)).FpNext = pNext
*(*U32)(unsafe.Pointer(pLoop + 4)) |= U32(SF_Compound)
pNext = pLoop
pLoop = (*Select)(unsafe.Pointer(pLoop)).FpPrior
if pLoop == uintptr(0) {
break
}
cnt++
if (*Select)(unsafe.Pointer(pLoop)).FpOrderBy != 0 || (*Select)(unsafe.Pointer(pLoop)).FpLimit != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+23267,
libc.VaList(bp, func() uintptr {
if (*Select)(unsafe.Pointer(pLoop)).FpOrderBy != uintptr(0) {
return ts + 23309
}
return ts + 23318
}(),
Xsqlite3SelectOpName(tls, int32((*Select)(unsafe.Pointer(pNext)).Fop))))
break
}
}
if (*Select)(unsafe.Pointer(p)).FselFlags&U32(SF_MultiValue) == U32(0) && libc.AssignInt32(&mxSelect, *(*int32)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb + 136 + 4*4))) > 0 && cnt > mxSelect {
Xsqlite3ErrorMsg(tls, pParse, ts+23324, 0)
}
}
}
func attachWithToSelect(tls *libc.TLS, pParse uintptr, pSelect uintptr, pWith uintptr) uintptr {
if pSelect != 0 {
(*Select)(unsafe.Pointer(pSelect)).FpWith = pWith
parserDoubleLinkSelect(tls, pParse, pSelect)
} else {
Xsqlite3WithDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pWith)
}
return pSelect
}
func tokenExpr(tls *libc.TLS, pParse uintptr, op int32, t Token) uintptr {
bp := tls.Alloc(16)
defer tls.Free(16)
*(*Token)(unsafe.Pointer(bp)) = t
var p uintptr = Xsqlite3DbMallocRawNN(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(Expr{}))+uint64((*Token)(unsafe.Pointer(bp)).Fn)+uint64(1))
if p != 0 {
(*Expr)(unsafe.Pointer(p)).Fop = U8(op)
(*Expr)(unsafe.Pointer(p)).FaffExpr = int8(0)
(*Expr)(unsafe.Pointer(p)).Fflags = U32(EP_Leaf)
(*Expr)(unsafe.Pointer(p)).FpLeft = libc.AssignPtrUintptr(p+24, uintptr(0))
(*Expr)(unsafe.Pointer(p)).FpAggInfo = uintptr(0)
libc.X__builtin___memset_chk(tls, p+32, 0, uint64(unsafe.Sizeof(struct{ FpList uintptr }{})), libc.X__builtin_object_size(tls, p+32, 0))
libc.X__builtin___memset_chk(tls, p+64, 0, uint64(unsafe.Sizeof(struct{ FpTab uintptr }{})), libc.X__builtin_object_size(tls, p+64, 0))
(*Expr)(unsafe.Pointer(p)).Fop2 = U8(0)
(*Expr)(unsafe.Pointer(p)).FiTable = 0
(*Expr)(unsafe.Pointer(p)).FiColumn = int16(0)
*(*uintptr)(unsafe.Pointer(p + 8)) = p + 1*72
libc.X__builtin___memcpy_chk(tls, *(*uintptr)(unsafe.Pointer(p + 8)), (*Token)(unsafe.Pointer(bp)).Fz, uint64((*Token)(unsafe.Pointer(bp)).Fn), libc.X__builtin_object_size(tls, *(*uintptr)(unsafe.Pointer(p + 8)), 0))
*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 8)) + uintptr((*Token)(unsafe.Pointer(bp)).Fn))) = int8(0)
*(*int32)(unsafe.Pointer(p + 52)) = int32((int64((*Token)(unsafe.Pointer(bp)).Fz) - int64((*Parse)(unsafe.Pointer(pParse)).FzTail)) / 1)
if int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(p + 8)))))])&0x80 != 0 {
Xsqlite3DequoteExpr(tls, p)
}
(*Expr)(unsafe.Pointer(p)).FnHeight = 1
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
return Xsqlite3RenameTokenMap(tls, pParse, p, bp)
}
}
return p
}
func binaryToUnaryIfNull(tls *libc.TLS, pParse uintptr, pY uintptr, pA uintptr, op int32) {
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
if pA != 0 && pY != 0 && int32((*Expr)(unsafe.Pointer(pY)).Fop) == TK_NULL && !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
(*Expr)(unsafe.Pointer(pA)).Fop = U8(op)
Xsqlite3ExprDelete(tls, db, (*Expr)(unsafe.Pointer(pA)).FpRight)
(*Expr)(unsafe.Pointer(pA)).FpRight = uintptr(0)
}
}
func parserAddExprIdListTerm(tls *libc.TLS, pParse uintptr, pPrior uintptr, pIdToken uintptr, hasCollate int32, sortOrder int32) uintptr {
bp := tls.Alloc(16)
defer tls.Free(16)
var p uintptr = Xsqlite3ExprListAppend(tls, pParse, pPrior, uintptr(0))
if (hasCollate != 0 || sortOrder != -1) &&
int32((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Finit.Fbusy) == 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+23358,
libc.VaList(bp, (*Token)(unsafe.Pointer(pIdToken)).Fn, (*Token)(unsafe.Pointer(pIdToken)).Fz))
}
Xsqlite3ExprListSetName(tls, pParse, p, pIdToken, 1)
return p
}
// The next sections is a series of control #defines.
// various aspects of the generated parser.
//
// YYCODETYPE is the data type used to store the integer codes
// that represent terminal and non-terminal symbols.
// "unsigned char" is used if there are fewer than
// 256 symbols. Larger types otherwise.
// YYNOCODE is a number of type YYCODETYPE that is not used for
// any terminal or nonterminal symbol.
// YYFALLBACK If defined, this indicates that one or more tokens
// (also known as: "terminal symbols") have fall-back
// values which should be used if the original symbol
// would not parse. This permits keywords to sometimes
// be used as identifiers, for example.
// YYACTIONTYPE is the data type used for "action codes" - numbers
// that indicate what to do in response to the next
// token.
// sqlite3ParserTOKENTYPE is the data type used for minor type for terminal
// symbols. Background: A "minor type" is a semantic
// value associated with a terminal or non-terminal
// symbols. For example, for an "ID" terminal symbol,
// the minor type might be the name of the identifier.
// Each non-terminal can have a different minor type.
// Terminal symbols all have the same minor type, though.
// This macros defines the minor type for terminal
// symbols.
// YYMINORTYPE is the data type used for all minor types.
// This is typically a union of many types, one of
// which is sqlite3ParserTOKENTYPE. The entry in the union
// for terminal symbols is called "yy0".
// YYSTACKDEPTH is the maximum depth of the parser's stack. If
// zero the stack is dynamically sized using realloc()
// sqlite3ParserARG_SDECL A static variable declaration for the %extra_argument
// sqlite3ParserARG_PDECL A parameter declaration for the %extra_argument
// sqlite3ParserARG_PARAM Code to pass %extra_argument as a subroutine parameter
// sqlite3ParserARG_STORE Code to store %extra_argument into yypParser
// sqlite3ParserARG_FETCH Code to extract %extra_argument from yypParser
// sqlite3ParserCTX_* As sqlite3ParserARG_ except for %extra_context
// YYERRORSYMBOL is the code number of the error symbol. If not
// defined, then do no error processing.
// YYNSTATE the combined number of states.
// YYNRULE the number of rules in the grammar
// YYNTOKEN Number of terminal symbols
// YY_MAX_SHIFT Maximum value for shift actions
// YY_MIN_SHIFTREDUCE Minimum value for shift-reduce actions
// YY_MAX_SHIFTREDUCE Maximum value for shift-reduce actions
// YY_ERROR_ACTION The yy_action[] code for syntax error
// YY_ACCEPT_ACTION The yy_action[] code for accept
// YY_NO_ACTION The yy_action[] code for no-op
// YY_MIN_REDUCE Minimum value for reduce actions
// YY_MAX_REDUCE Maximum value for reduce actions
//
// ************ Begin control #defines ****************************************
type YYMINORTYPE = struct {
F__ccgo_pad1 [0]uint64
Fyyinit int32
F__ccgo_pad2 [12]byte
}
var yy_action = [2098]uint16{
uint16(568), uint16(208), uint16(568), uint16(118), uint16(115), uint16(229), uint16(568), uint16(118), uint16(115), uint16(229),
uint16(568), uint16(1314), uint16(377), uint16(1293), uint16(408), uint16(562), uint16(562), uint16(562), uint16(568), uint16(409),
uint16(378), uint16(1314), uint16(1276), uint16(41), uint16(41), uint16(41), uint16(41), uint16(208), uint16(1526), uint16(71),
uint16(71), uint16(971), uint16(419), uint16(41), uint16(41), uint16(491), uint16(303), uint16(279), uint16(303), uint16(972),
uint16(397), uint16(71), uint16(71), uint16(125), uint16(126), uint16(80), uint16(1217), uint16(1217), uint16(1050), uint16(1053),
uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124), uint16(124), uint16(476), uint16(409),
uint16(1241), uint16(1), uint16(1), uint16(575), uint16(2), uint16(1245), uint16(550), uint16(118), uint16(115), uint16(229),
uint16(317), uint16(480), uint16(146), uint16(480), uint16(524), uint16(118), uint16(115), uint16(229), uint16(529), uint16(1327),
uint16(417), uint16(523), uint16(142), uint16(125), uint16(126), uint16(80), uint16(1217), uint16(1217), uint16(1050), uint16(1053),
uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124), uint16(124), uint16(118), uint16(115),
uint16(229), uint16(327), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121), uint16(121), uint16(120), uint16(120),
uint16(120), uint16(119), uint16(116), uint16(444), uint16(284), uint16(284), uint16(284), uint16(284), uint16(442), uint16(442),
uint16(442), uint16(1567), uint16(376), uint16(1569), uint16(1192), uint16(375), uint16(1163), uint16(565), uint16(1163), uint16(565),
uint16(409), uint16(1567), uint16(537), uint16(259), uint16(226), uint16(444), uint16(101), uint16(145), uint16(449), uint16(316),
uint16(559), uint16(240), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121), uint16(121), uint16(120), uint16(120),
uint16(120), uint16(119), uint16(116), uint16(444), uint16(125), uint16(126), uint16(80), uint16(1217), uint16(1217), uint16(1050),
uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124), uint16(124), uint16(142),
uint16(294), uint16(1192), uint16(339), uint16(448), uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444),
uint16(127), uint16(1192), uint16(1193), uint16(1194), uint16(148), uint16(441), uint16(440), uint16(568), uint16(119), uint16(116),
uint16(444), uint16(124), uint16(124), uint16(124), uint16(124), uint16(117), uint16(122), uint16(122), uint16(122), uint16(122),
uint16(121), uint16(121), uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(454), uint16(113),
uint16(13), uint16(13), uint16(546), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121), uint16(121), uint16(120),
uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(422), uint16(316), uint16(559), uint16(1192), uint16(1193),
uint16(1194), uint16(149), uint16(1224), uint16(409), uint16(1224), uint16(124), uint16(124), uint16(124), uint16(124), uint16(122),
uint16(122), uint16(122), uint16(122), uint16(121), uint16(121), uint16(120), uint16(120), uint16(120), uint16(119), uint16(116),
uint16(444), uint16(465), uint16(342), uint16(1037), uint16(1037), uint16(1051), uint16(1054), uint16(125), uint16(126), uint16(80),
uint16(1217), uint16(1217), uint16(1050), uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124),
uint16(124), uint16(124), uint16(1279), uint16(522), uint16(222), uint16(1192), uint16(568), uint16(409), uint16(224), uint16(514),
uint16(175), uint16(82), uint16(83), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121), uint16(121), uint16(120),
uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(1007), uint16(16), uint16(16), uint16(1192), uint16(133),
uint16(133), uint16(125), uint16(126), uint16(80), uint16(1217), uint16(1217), uint16(1050), uint16(1053), uint16(1040), uint16(1040),
uint16(123), uint16(123), uint16(124), uint16(124), uint16(124), uint16(124), uint16(122), uint16(122), uint16(122), uint16(122),
uint16(121), uint16(121), uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(1041), uint16(546),
uint16(1192), uint16(373), uint16(1192), uint16(1193), uint16(1194), uint16(252), uint16(1434), uint16(399), uint16(504), uint16(501),
uint16(500), uint16(111), uint16(560), uint16(566), uint16(4), uint16(926), uint16(926), uint16(433), uint16(499), uint16(340),
uint16(460), uint16(328), uint16(360), uint16(394), uint16(1237), uint16(1192), uint16(1193), uint16(1194), uint16(563), uint16(568),
uint16(122), uint16(122), uint16(122), uint16(122), uint16(121), uint16(121), uint16(120), uint16(120), uint16(120), uint16(119),
uint16(116), uint16(444), uint16(284), uint16(284), uint16(369), uint16(1580), uint16(1607), uint16(441), uint16(440), uint16(154),
uint16(409), uint16(445), uint16(71), uint16(71), uint16(1286), uint16(565), uint16(1221), uint16(1192), uint16(1193), uint16(1194),
uint16(85), uint16(1223), uint16(271), uint16(557), uint16(543), uint16(515), uint16(1561), uint16(568), uint16(98), uint16(1222),
uint16(6), uint16(1278), uint16(472), uint16(142), uint16(125), uint16(126), uint16(80), uint16(1217), uint16(1217), uint16(1050),
uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124), uint16(124), uint16(550),
uint16(13), uint16(13), uint16(1027), uint16(507), uint16(1224), uint16(1192), uint16(1224), uint16(549), uint16(109), uint16(109),
uint16(222), uint16(568), uint16(1238), uint16(175), uint16(568), uint16(427), uint16(110), uint16(197), uint16(445), uint16(570),
uint16(569), uint16(430), uint16(1552), uint16(1017), uint16(325), uint16(551), uint16(1192), uint16(270), uint16(287), uint16(368),
uint16(510), uint16(363), uint16(509), uint16(257), uint16(71), uint16(71), uint16(543), uint16(71), uint16(71), uint16(359),
uint16(316), uint16(559), uint16(1613), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121), uint16(121), uint16(120),
uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(1017), uint16(1017), uint16(1019), uint16(1020), uint16(27),
uint16(284), uint16(284), uint16(1192), uint16(1193), uint16(1194), uint16(1158), uint16(568), uint16(1612), uint16(409), uint16(901),
uint16(190), uint16(550), uint16(356), uint16(565), uint16(550), uint16(937), uint16(533), uint16(517), uint16(1158), uint16(516),
uint16(413), uint16(1158), uint16(552), uint16(1192), uint16(1193), uint16(1194), uint16(568), uint16(544), uint16(1554), uint16(51),
uint16(51), uint16(214), uint16(125), uint16(126), uint16(80), uint16(1217), uint16(1217), uint16(1050), uint16(1053), uint16(1040),
uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124), uint16(124), uint16(1192), uint16(474), uint16(135),
uint16(135), uint16(409), uint16(284), uint16(284), uint16(1490), uint16(505), uint16(121), uint16(121), uint16(120), uint16(120),
uint16(120), uint16(119), uint16(116), uint16(444), uint16(1007), uint16(565), uint16(518), uint16(217), uint16(541), uint16(1561),
uint16(316), uint16(559), uint16(142), uint16(6), uint16(532), uint16(125), uint16(126), uint16(80), uint16(1217), uint16(1217),
uint16(1050), uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124), uint16(124),
uint16(1555), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121), uint16(121), uint16(120), uint16(120), uint16(120),
uint16(119), uint16(116), uint16(444), uint16(485), uint16(1192), uint16(1193), uint16(1194), uint16(482), uint16(281), uint16(1267),
uint16(957), uint16(252), uint16(1192), uint16(373), uint16(504), uint16(501), uint16(500), uint16(1192), uint16(340), uint16(571),
uint16(1192), uint16(571), uint16(409), uint16(292), uint16(499), uint16(957), uint16(876), uint16(191), uint16(480), uint16(316),
uint16(559), uint16(384), uint16(290), uint16(380), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121), uint16(121),
uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(125), uint16(126), uint16(80), uint16(1217),
uint16(1217), uint16(1050), uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124),
uint16(124), uint16(409), uint16(394), uint16(1136), uint16(1192), uint16(869), uint16(100), uint16(284), uint16(284), uint16(1192),
uint16(1193), uint16(1194), uint16(373), uint16(1093), uint16(1192), uint16(1193), uint16(1194), uint16(1192), uint16(1193), uint16(1194),
uint16(565), uint16(455), uint16(32), uint16(373), uint16(233), uint16(125), uint16(126), uint16(80), uint16(1217), uint16(1217),
uint16(1050), uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124), uint16(124),
uint16(1433), uint16(959), uint16(568), uint16(228), uint16(958), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121),
uint16(121), uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(1158), uint16(228), uint16(1192),
uint16(157), uint16(1192), uint16(1193), uint16(1194), uint16(1553), uint16(13), uint16(13), uint16(301), uint16(957), uint16(1232),
uint16(1158), uint16(153), uint16(409), uint16(1158), uint16(373), uint16(1583), uint16(1176), uint16(5), uint16(369), uint16(1580),
uint16(429), uint16(1238), uint16(3), uint16(957), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121), uint16(121),
uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(125), uint16(126), uint16(80), uint16(1217),
uint16(1217), uint16(1050), uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124),
uint16(124), uint16(409), uint16(208), uint16(567), uint16(1192), uint16(1028), uint16(1192), uint16(1193), uint16(1194), uint16(1192),
uint16(388), uint16(852), uint16(155), uint16(1552), uint16(286), uint16(402), uint16(1098), uint16(1098), uint16(488), uint16(568),
uint16(465), uint16(342), uint16(1319), uint16(1319), uint16(1552), uint16(125), uint16(126), uint16(80), uint16(1217), uint16(1217),
uint16(1050), uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124), uint16(124),
uint16(129), uint16(568), uint16(13), uint16(13), uint16(374), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121),
uint16(121), uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(302), uint16(568), uint16(453),
uint16(528), uint16(1192), uint16(1193), uint16(1194), uint16(13), uint16(13), uint16(1192), uint16(1193), uint16(1194), uint16(1297),
uint16(463), uint16(1267), uint16(409), uint16(1317), uint16(1317), uint16(1552), uint16(1012), uint16(453), uint16(452), uint16(200),
uint16(299), uint16(71), uint16(71), uint16(1265), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121), uint16(121),
uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(125), uint16(126), uint16(80), uint16(1217),
uint16(1217), uint16(1050), uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124),
uint16(124), uint16(409), uint16(227), uint16(1073), uint16(1158), uint16(284), uint16(284), uint16(419), uint16(312), uint16(278),
uint16(278), uint16(285), uint16(285), uint16(1419), uint16(406), uint16(405), uint16(382), uint16(1158), uint16(565), uint16(568),
uint16(1158), uint16(1196), uint16(565), uint16(1600), uint16(565), uint16(125), uint16(126), uint16(80), uint16(1217), uint16(1217),
uint16(1050), uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124), uint16(124),
uint16(453), uint16(1482), uint16(13), uint16(13), uint16(1536), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121),
uint16(121), uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(201), uint16(568), uint16(354),
uint16(1586), uint16(575), uint16(2), uint16(1245), uint16(840), uint16(841), uint16(842), uint16(1562), uint16(317), uint16(1212),
uint16(146), uint16(6), uint16(409), uint16(255), uint16(254), uint16(253), uint16(206), uint16(1327), uint16(9), uint16(1196),
uint16(262), uint16(71), uint16(71), uint16(424), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121), uint16(121),
uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(125), uint16(126), uint16(80), uint16(1217),
uint16(1217), uint16(1050), uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124),
uint16(124), uint16(568), uint16(284), uint16(284), uint16(568), uint16(1213), uint16(409), uint16(574), uint16(313), uint16(1245),
uint16(349), uint16(1296), uint16(352), uint16(419), uint16(317), uint16(565), uint16(146), uint16(491), uint16(525), uint16(1643),
uint16(395), uint16(371), uint16(491), uint16(1327), uint16(70), uint16(70), uint16(1295), uint16(71), uint16(71), uint16(240),
uint16(1325), uint16(104), uint16(80), uint16(1217), uint16(1217), uint16(1050), uint16(1053), uint16(1040), uint16(1040), uint16(123),
uint16(123), uint16(124), uint16(124), uint16(124), uint16(124), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121),
uint16(121), uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(1114), uint16(284), uint16(284),
uint16(428), uint16(448), uint16(1525), uint16(1213), uint16(439), uint16(284), uint16(284), uint16(1489), uint16(1352), uint16(311),
uint16(474), uint16(565), uint16(1115), uint16(971), uint16(491), uint16(491), uint16(217), uint16(1263), uint16(565), uint16(1538),
uint16(568), uint16(972), uint16(207), uint16(568), uint16(1027), uint16(240), uint16(383), uint16(1116), uint16(519), uint16(122),
uint16(122), uint16(122), uint16(122), uint16(121), uint16(121), uint16(120), uint16(120), uint16(120), uint16(119), uint16(116),
uint16(444), uint16(1018), uint16(107), uint16(71), uint16(71), uint16(1017), uint16(13), uint16(13), uint16(912), uint16(568),
uint16(1495), uint16(568), uint16(284), uint16(284), uint16(97), uint16(526), uint16(491), uint16(448), uint16(913), uint16(1326),
uint16(1322), uint16(545), uint16(409), uint16(284), uint16(284), uint16(565), uint16(151), uint16(209), uint16(1495), uint16(1497),
uint16(262), uint16(450), uint16(55), uint16(55), uint16(56), uint16(56), uint16(565), uint16(1017), uint16(1017), uint16(1019),
uint16(443), uint16(332), uint16(409), uint16(527), uint16(12), uint16(295), uint16(125), uint16(126), uint16(80), uint16(1217),
uint16(1217), uint16(1050), uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124),
uint16(124), uint16(347), uint16(409), uint16(864), uint16(1534), uint16(1213), uint16(125), uint16(126), uint16(80), uint16(1217),
uint16(1217), uint16(1050), uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124),
uint16(124), uint16(1137), uint16(1641), uint16(474), uint16(1641), uint16(371), uint16(125), uint16(114), uint16(80), uint16(1217),
uint16(1217), uint16(1050), uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123), uint16(124), uint16(124), uint16(124),
uint16(124), uint16(1495), uint16(329), uint16(474), uint16(331), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121),
uint16(121), uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(203), uint16(1419), uint16(568),
uint16(1294), uint16(864), uint16(464), uint16(1213), uint16(436), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121),
uint16(121), uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(553), uint16(1137), uint16(1642),
uint16(539), uint16(1642), uint16(15), uint16(15), uint16(892), uint16(122), uint16(122), uint16(122), uint16(122), uint16(121),
uint16(121), uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444), uint16(568), uint16(298), uint16(538),
uint16(1135), uint16(1419), uint16(1559), uint16(1560), uint16(1331), uint16(409), uint16(6), uint16(6), uint16(1169), uint16(1268),
uint16(415), uint16(320), uint16(284), uint16(284), uint16(1419), uint16(508), uint16(565), uint16(525), uint16(300), uint16(457),
uint16(43), uint16(43), uint16(568), uint16(893), uint16(12), uint16(565), uint16(330), uint16(478), uint16(425), uint16(407),
uint16(126), uint16(80), uint16(1217), uint16(1217), uint16(1050), uint16(1053), uint16(1040), uint16(1040), uint16(123), uint16(123),
uint16(124), uint16(124), uint16(124), uint16(124), uint16(568), uint16(57), uint16(57), uint16(288), uint16(1192), uint16(1419),
uint16(496), uint16(458), uint16(392), uint16(392), uint16(391), uint16(273), uint16(389), uint16(1135), uint16(1558), uint16(849),
uint16(1169), uint16(407), uint16(6), uint16(568), uint16(321), uint16(1158), uint16(470), uint16(44), uint16(44), uint16(1557),
uint16(1114), uint16(426), uint16(234), uint16(6), uint16(323), uint16(256), uint16(540), uint16(256), uint16(1158), uint16(431),
uint16(568), uint16(1158), uint16(322), uint16(17), uint16(487), uint16(1115), uint16(58), uint16(58), uint16(122), uint16(122),
uint16(122), uint16(122), uint16(121), uint16(121), uint16(120), uint16(120), uint16(120), uint16(119), uint16(116), uint16(444),
uint16(1116), uint16(216), uint16(481), uint16(59), uint16(59), uint16(1192), uint16(1193), uint16(1194), uint16(111), uint16(560),
uint16(324), uint16(4), uint16(236), uint16(456), uint16(526), uint16(568), uint16(237), uint16(456), uint16(568), uint16(437),
uint16(168), uint16(556), uint16(420), uint16(141), uint16(479), uint16(563), uint16(568), uint16(293), uint16(568), uint16(1095),
uint16(568), uint16(293), uint16(568), uint16(1095), uint16(531), uint16(568), uint16(872), uint16(8), uint16(60), uint16(60),
uint16(235), uint16(61), uint16(61), uint16(568), uint16(414), uint16(568), uint16(414), uint16(568), uint16(445), uint16(62),
uint16(62), uint16(45), uint16(45), uint16(46), uint16(46), uint16(47), uint16(47), uint16(199), uint16(49), uint16(49),
uint16(557), uint16(568), uint16(359), uint16(568), uint16(100), uint16(486), uint16(50), uint16(50), uint16(63), uint16(63),
uint16(64), uint16(64), uint16(561), uint16(415), uint16(535), uint16(410), uint16(568), uint16(1027), uint16(568), uint16(534),
uint16(316), uint16(559), uint16(316), uint16(559), uint16(65), uint16(65), uint16(14), uint16(14), uint16(568), uint16(1027),
uint16(568), uint16(512), uint16(932), uint16(872), uint16(1018), uint16(109), uint16(109), uint16(931), uint16(1017), uint16(66),
uint16(66), uint16(131), uint16(131), uint16(110), uint16(451), uint16(445), uint16(570), uint16(569), uint16(416), uint16(177),
uint16(1017), uint16(132), uint16(132), uint16(67), uint16(67), uint16(568), uint16(467), uint16(568), uint16(932), uint16(471),
uint16(1364), uint16(283), uint16(226), uint16(931), uint16(315), uint16(1363), uint16(407), uint16(568), uint16(459), uint16(407),
uint16(1017), uint16(1017), uint16(1019), uint16(239), uint16(407), uint16(86), uint16(213), uint16(1350), uint16(52), uint16(52),
uint16(68), uint16(68), uint16(1017), uint16(1017), uint16(1019), uint16(1020), uint16(27), uint16(1585), uint16(1180), uint16(447),
uint16(69), uint16(69), uint16(288), uint16(97), uint16(108), uint16(1541), uint16(106), uint16(392), uint16(392), uint16(391),
uint16(273), uint16(389), uint16(568), uint16(879), uint16(849), uint16(883), uint16(568), uint16(111), uint16(560), uint16(466),
uint16(4), uint16(568), uint16(152), uint16(30), uint16(38), uint16(568), uint16(1132), uint16(234), uint16(396), uint16(323),
uint16(111), uint16(560), uint16(527), uint16(4), uint16(563), uint16(53), uint16(53), uint16(322), uint16(568), uint16(163),
uint16(163), uint16(568), uint16(337), uint16(468), uint16(164), uint16(164), uint16(333), uint16(563), uint16(76), uint16(76),
uint16(568), uint16(289), uint16(1514), uint16(568), uint16(31), uint16(1513), uint16(568), uint16(445), uint16(338), uint16(483),
uint16(100), uint16(54), uint16(54), uint16(344), uint16(72), uint16(72), uint16(296), uint16(236), uint16(1080), uint16(557),
uint16(445), uint16(879), uint16(1360), uint16(134), uint16(134), uint16(168), uint16(73), uint16(73), uint16(141), uint16(161),
uint16(161), uint16(1574), uint16(557), uint16(535), uint16(568), uint16(319), uint16(568), uint16(348), uint16(536), uint16(1009),
uint16(473), uint16(261), uint16(261), uint16(891), uint16(890), uint16(235), uint16(535), uint16(568), uint16(1027), uint16(568),
uint16(475), uint16(534), uint16(261), uint16(367), uint16(109), uint16(109), uint16(521), uint16(136), uint16(136), uint16(130),
uint16(130), uint16(1027), uint16(110), uint16(366), uint16(445), uint16(570), uint16(569), uint16(109), uint16(109), uint16(1017),
uint16(162), uint16(162), uint16(156), uint16(156), uint16(568), uint16(110), uint16(1080), uint16(445), uint16(570), uint16(569),
uint16(410), uint16(351), uint16(1017), uint16(568), uint16(353), uint16(316), uint16(559), uint16(568), uint16(343), uint16(568),
uint16(100), uint16(497), uint16(357), uint16(258), uint16(100), uint16(898), uint16(899), uint16(140), uint16(140), uint16(355),
uint16(1310), uint16(1017), uint16(1017), uint16(1019), uint16(1020), uint16(27), uint16(139), uint16(139), uint16(362), uint16(451),
uint16(137), uint16(137), uint16(138), uint16(138), uint16(1017), uint16(1017), uint16(1019), uint16(1020), uint16(27), uint16(1180),
uint16(447), uint16(568), uint16(372), uint16(288), uint16(111), uint16(560), uint16(1021), uint16(4), uint16(392), uint16(392),
uint16(391), uint16(273), uint16(389), uint16(568), uint16(1141), uint16(849), uint16(568), uint16(1076), uint16(568), uint16(258),
uint16(492), uint16(563), uint16(568), uint16(211), uint16(75), uint16(75), uint16(555), uint16(962), uint16(234), uint16(261),
uint16(323), uint16(111), uint16(560), uint16(929), uint16(4), uint16(113), uint16(77), uint16(77), uint16(322), uint16(74),
uint16(74), uint16(42), uint16(42), uint16(1373), uint16(445), uint16(48), uint16(48), uint16(1418), uint16(563), uint16(974),
uint16(975), uint16(1092), uint16(1091), uint16(1092), uint16(1091), uint16(862), uint16(557), uint16(150), uint16(930), uint16(1346),
uint16(113), uint16(1358), uint16(554), uint16(1424), uint16(1021), uint16(1275), uint16(1266), uint16(1254), uint16(236), uint16(1253),
uint16(1255), uint16(445), uint16(1593), uint16(1343), uint16(308), uint16(276), uint16(168), uint16(309), uint16(11), uint16(141),
uint16(393), uint16(310), uint16(232), uint16(557), uint16(1405), uint16(1027), uint16(335), uint16(291), uint16(1400), uint16(219),
uint16(336), uint16(109), uint16(109), uint16(936), uint16(297), uint16(1410), uint16(235), uint16(341), uint16(477), uint16(110),
uint16(502), uint16(445), uint16(570), uint16(569), uint16(1393), uint16(1409), uint16(1017), uint16(400), uint16(1293), uint16(365),
uint16(223), uint16(1486), uint16(1027), uint16(1485), uint16(1355), uint16(1356), uint16(1354), uint16(1353), uint16(109), uint16(109),
uint16(204), uint16(1596), uint16(1232), uint16(558), uint16(265), uint16(218), uint16(110), uint16(205), uint16(445), uint16(570),
uint16(569), uint16(410), uint16(387), uint16(1017), uint16(1533), uint16(179), uint16(316), uint16(559), uint16(1017), uint16(1017),
uint16(1019), uint16(1020), uint16(27), uint16(230), uint16(1531), uint16(1229), uint16(79), uint16(560), uint16(85), uint16(4),
uint16(418), uint16(215), uint16(548), uint16(81), uint16(84), uint16(188), uint16(1406), uint16(173), uint16(181), uint16(461),
uint16(451), uint16(35), uint16(462), uint16(563), uint16(183), uint16(1017), uint16(1017), uint16(1019), uint16(1020), uint16(27),
uint16(184), uint16(1491), uint16(185), uint16(186), uint16(495), uint16(242), uint16(98), uint16(398), uint16(1412), uint16(36),
uint16(1411), uint16(484), uint16(91), uint16(469), uint16(401), uint16(1414), uint16(445), uint16(192), uint16(1480), uint16(246),
uint16(1502), uint16(490), uint16(346), uint16(277), uint16(248), uint16(196), uint16(493), uint16(511), uint16(557), uint16(350),
uint16(1256), uint16(249), uint16(250), uint16(403), uint16(1313), uint16(1312), uint16(111), uint16(560), uint16(432), uint16(4),
uint16(1311), uint16(1304), uint16(93), uint16(1611), uint16(883), uint16(1610), uint16(224), uint16(404), uint16(434), uint16(520),
uint16(263), uint16(435), uint16(1579), uint16(563), uint16(1283), uint16(1282), uint16(364), uint16(1027), uint16(306), uint16(1281),
uint16(264), uint16(1609), uint16(1565), uint16(109), uint16(109), uint16(370), uint16(1303), uint16(307), uint16(1564), uint16(438),
uint16(128), uint16(110), uint16(1378), uint16(445), uint16(570), uint16(569), uint16(445), uint16(546), uint16(1017), uint16(10),
uint16(1466), uint16(105), uint16(381), uint16(1377), uint16(34), uint16(572), uint16(99), uint16(1336), uint16(557), uint16(314),
uint16(1186), uint16(530), uint16(272), uint16(274), uint16(379), uint16(210), uint16(1335), uint16(547), uint16(385), uint16(386),
uint16(275), uint16(573), uint16(1251), uint16(1246), uint16(411), uint16(412), uint16(1518), uint16(165), uint16(178), uint16(1519),
uint16(1017), uint16(1017), uint16(1019), uint16(1020), uint16(27), uint16(1517), uint16(1516), uint16(1027), uint16(78), uint16(147),
uint16(166), uint16(220), uint16(221), uint16(109), uint16(109), uint16(836), uint16(304), uint16(167), uint16(446), uint16(212),
uint16(318), uint16(110), uint16(231), uint16(445), uint16(570), uint16(569), uint16(144), uint16(1090), uint16(1017), uint16(1088),
uint16(326), uint16(180), uint16(169), uint16(1212), uint16(182), uint16(334), uint16(238), uint16(915), uint16(241), uint16(1104),
uint16(187), uint16(170), uint16(171), uint16(421), uint16(87), uint16(88), uint16(423), uint16(189), uint16(89), uint16(90),
uint16(172), uint16(1107), uint16(243), uint16(1103), uint16(244), uint16(158), uint16(18), uint16(245), uint16(345), uint16(247),
uint16(1017), uint16(1017), uint16(1019), uint16(1020), uint16(27), uint16(261), uint16(1096), uint16(193), uint16(1226), uint16(489),
uint16(194), uint16(37), uint16(366), uint16(851), uint16(494), uint16(251), uint16(195), uint16(506), uint16(92), uint16(19),
uint16(498), uint16(358), uint16(20), uint16(503), uint16(881), uint16(361), uint16(94), uint16(894), uint16(305), uint16(159),
uint16(513), uint16(39), uint16(95), uint16(1174), uint16(160), uint16(1056), uint16(966), uint16(1143), uint16(96), uint16(174),
uint16(1142), uint16(225), uint16(280), uint16(282), uint16(198), uint16(960), uint16(113), uint16(1164), uint16(1160), uint16(260),
uint16(21), uint16(22), uint16(23), uint16(1162), uint16(1168), uint16(1167), uint16(1148), uint16(24), uint16(33), uint16(25),
uint16(202), uint16(542), uint16(26), uint16(100), uint16(1071), uint16(102), uint16(1057), uint16(103), uint16(7), uint16(1055),
uint16(1059), uint16(1113), uint16(1060), uint16(1112), uint16(266), uint16(267), uint16(28), uint16(40), uint16(390), uint16(1022),
uint16(863), uint16(112), uint16(29), uint16(564), uint16(1182), uint16(1181), uint16(268), uint16(176), uint16(143), uint16(925),
uint16(1242), uint16(1242), uint16(1242), uint16(1242), uint16(1242), uint16(1242), uint16(1242), uint16(1242), uint16(1242), uint16(1242),
uint16(1242), uint16(1242), uint16(1242), uint16(1242), uint16(269), uint16(1602), uint16(1242), uint16(1601),
}
var yy_lookahead = [2283]uint16{
uint16(193), uint16(193), uint16(193), uint16(274), uint16(275), uint16(276), uint16(193), uint16(274), uint16(275), uint16(276),
uint16(193), uint16(223), uint16(219), uint16(225), uint16(206), uint16(210), uint16(211), uint16(212), uint16(193), uint16(19),
uint16(219), uint16(233), uint16(216), uint16(216), uint16(217), uint16(216), uint16(217), uint16(193), uint16(295), uint16(216),
uint16(217), uint16(31), uint16(193), uint16(216), uint16(217), uint16(193), uint16(228), uint16(213), uint16(230), uint16(39),
uint16(206), uint16(216), uint16(217), uint16(43), uint16(44), uint16(45), uint16(46), uint16(47), uint16(48), uint16(49),
uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56), uint16(57), uint16(193), uint16(19),
uint16(185), uint16(186), uint16(187), uint16(188), uint16(189), uint16(190), uint16(253), uint16(274), uint16(275), uint16(276),
uint16(195), uint16(193), uint16(197), uint16(193), uint16(261), uint16(274), uint16(275), uint16(276), uint16(253), uint16(204),
uint16(238), uint16(204), uint16(81), uint16(43), uint16(44), uint16(45), uint16(46), uint16(47), uint16(48), uint16(49),
uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56), uint16(57), uint16(274), uint16(275),
uint16(276), uint16(262), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106), uint16(107), uint16(108), uint16(109),
uint16(110), uint16(111), uint16(112), uint16(113), uint16(239), uint16(240), uint16(239), uint16(240), uint16(210), uint16(211),
uint16(212), uint16(314), uint16(315), uint16(314), uint16(59), uint16(316), uint16(86), uint16(252), uint16(88), uint16(252),
uint16(19), uint16(314), uint16(315), uint16(256), uint16(257), uint16(113), uint16(25), uint16(72), uint16(296), uint16(138),
uint16(139), uint16(266), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106), uint16(107), uint16(108), uint16(109),
uint16(110), uint16(111), uint16(112), uint16(113), uint16(43), uint16(44), uint16(45), uint16(46), uint16(47), uint16(48),
uint16(49), uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56), uint16(57), uint16(81),
uint16(292), uint16(59), uint16(292), uint16(298), uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113),
uint16(69), uint16(116), uint16(117), uint16(118), uint16(72), uint16(106), uint16(107), uint16(193), uint16(111), uint16(112),
uint16(113), uint16(54), uint16(55), uint16(56), uint16(57), uint16(58), uint16(102), uint16(103), uint16(104), uint16(105),
uint16(106), uint16(107), uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(120), uint16(25),
uint16(216), uint16(217), uint16(145), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106), uint16(107), uint16(108),
uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(231), uint16(138), uint16(139), uint16(116), uint16(117),
uint16(118), uint16(164), uint16(153), uint16(19), uint16(155), uint16(54), uint16(55), uint16(56), uint16(57), uint16(102),
uint16(103), uint16(104), uint16(105), uint16(106), uint16(107), uint16(108), uint16(109), uint16(110), uint16(111), uint16(112),
uint16(113), uint16(128), uint16(129), uint16(46), uint16(47), uint16(48), uint16(49), uint16(43), uint16(44), uint16(45),
uint16(46), uint16(47), uint16(48), uint16(49), uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55),
uint16(56), uint16(57), uint16(216), uint16(193), uint16(25), uint16(59), uint16(193), uint16(19), uint16(165), uint16(166),
uint16(193), uint16(67), uint16(24), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106), uint16(107), uint16(108),
uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(73), uint16(216), uint16(217), uint16(59), uint16(216),
uint16(217), uint16(43), uint16(44), uint16(45), uint16(46), uint16(47), uint16(48), uint16(49), uint16(50), uint16(51),
uint16(52), uint16(53), uint16(54), uint16(55), uint16(56), uint16(57), uint16(102), uint16(103), uint16(104), uint16(105),
uint16(106), uint16(107), uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(121), uint16(145),
uint16(59), uint16(193), uint16(116), uint16(117), uint16(118), uint16(119), uint16(273), uint16(204), uint16(122), uint16(123),
uint16(124), uint16(19), uint16(20), uint16(134), uint16(22), uint16(136), uint16(137), uint16(19), uint16(132), uint16(127),
uint16(128), uint16(129), uint16(24), uint16(22), uint16(23), uint16(116), uint16(117), uint16(118), uint16(36), uint16(193),
uint16(102), uint16(103), uint16(104), uint16(105), uint16(106), uint16(107), uint16(108), uint16(109), uint16(110), uint16(111),
uint16(112), uint16(113), uint16(239), uint16(240), uint16(311), uint16(312), uint16(215), uint16(106), uint16(107), uint16(241),
uint16(19), uint16(59), uint16(216), uint16(217), uint16(223), uint16(252), uint16(115), uint16(116), uint16(117), uint16(118),
uint16(151), uint16(120), uint16(26), uint16(71), uint16(193), uint16(308), uint16(309), uint16(193), uint16(149), uint16(128),
uint16(313), uint16(216), uint16(269), uint16(81), uint16(43), uint16(44), uint16(45), uint16(46), uint16(47), uint16(48),
uint16(49), uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56), uint16(57), uint16(253),
uint16(216), uint16(217), uint16(100), uint16(95), uint16(153), uint16(59), uint16(155), uint16(261), uint16(106), uint16(107),
uint16(25), uint16(193), uint16(101), uint16(193), uint16(193), uint16(231), uint16(114), uint16(25), uint16(116), uint16(117),
uint16(118), uint16(113), uint16(304), uint16(121), uint16(193), uint16(204), uint16(59), uint16(119), uint16(120), uint16(121),
uint16(122), uint16(123), uint16(124), uint16(125), uint16(216), uint16(217), uint16(193), uint16(216), uint16(217), uint16(131),
uint16(138), uint16(139), uint16(230), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106), uint16(107), uint16(108),
uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(153), uint16(154), uint16(155), uint16(156), uint16(157),
uint16(239), uint16(240), uint16(116), uint16(117), uint16(118), uint16(76), uint16(193), uint16(23), uint16(19), uint16(25),
uint16(22), uint16(253), uint16(23), uint16(252), uint16(253), uint16(108), uint16(87), uint16(204), uint16(89), uint16(261),
uint16(198), uint16(92), uint16(261), uint16(116), uint16(117), uint16(118), uint16(193), uint16(306), uint16(307), uint16(216),
uint16(217), uint16(150), uint16(43), uint16(44), uint16(45), uint16(46), uint16(47), uint16(48), uint16(49), uint16(50),
uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56), uint16(57), uint16(59), uint16(193), uint16(216),
uint16(217), uint16(19), uint16(239), uint16(240), uint16(283), uint16(23), uint16(106), uint16(107), uint16(108), uint16(109),
uint16(110), uint16(111), uint16(112), uint16(113), uint16(73), uint16(252), uint16(253), uint16(142), uint16(308), uint16(309),
uint16(138), uint16(139), uint16(81), uint16(313), uint16(145), uint16(43), uint16(44), uint16(45), uint16(46), uint16(47),
uint16(48), uint16(49), uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56), uint16(57),
uint16(307), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106), uint16(107), uint16(108), uint16(109), uint16(110),
uint16(111), uint16(112), uint16(113), uint16(281), uint16(116), uint16(117), uint16(118), uint16(285), uint16(23), uint16(193),
uint16(25), uint16(119), uint16(59), uint16(193), uint16(122), uint16(123), uint16(124), uint16(59), uint16(127), uint16(203),
uint16(59), uint16(205), uint16(19), uint16(268), uint16(132), uint16(25), uint16(23), uint16(22), uint16(193), uint16(138),
uint16(139), uint16(249), uint16(204), uint16(251), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106), uint16(107),
uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(43), uint16(44), uint16(45), uint16(46),
uint16(47), uint16(48), uint16(49), uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56),
uint16(57), uint16(19), uint16(22), uint16(23), uint16(59), uint16(23), uint16(25), uint16(239), uint16(240), uint16(116),
uint16(117), uint16(118), uint16(193), uint16(11), uint16(116), uint16(117), uint16(118), uint16(116), uint16(117), uint16(118),
uint16(252), uint16(269), uint16(22), uint16(193), uint16(15), uint16(43), uint16(44), uint16(45), uint16(46), uint16(47),
uint16(48), uint16(49), uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56), uint16(57),
uint16(273), uint16(143), uint16(193), uint16(118), uint16(143), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106),
uint16(107), uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(76), uint16(118), uint16(59),
uint16(241), uint16(116), uint16(117), uint16(118), uint16(304), uint16(216), uint16(217), uint16(292), uint16(143), uint16(60),
uint16(89), uint16(241), uint16(19), uint16(92), uint16(193), uint16(193), uint16(23), uint16(22), uint16(311), uint16(312),
uint16(231), uint16(101), uint16(22), uint16(143), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106), uint16(107),
uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(43), uint16(44), uint16(45), uint16(46),
uint16(47), uint16(48), uint16(49), uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56),
uint16(57), uint16(19), uint16(193), uint16(193), uint16(59), uint16(23), uint16(116), uint16(117), uint16(118), uint16(59),
uint16(201), uint16(21), uint16(241), uint16(304), uint16(22), uint16(206), uint16(127), uint16(128), uint16(129), uint16(193),
uint16(128), uint16(129), uint16(235), uint16(236), uint16(304), uint16(43), uint16(44), uint16(45), uint16(46), uint16(47),
uint16(48), uint16(49), uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56), uint16(57),
uint16(22), uint16(193), uint16(216), uint16(217), uint16(193), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106),
uint16(107), uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(231), uint16(193), uint16(193),
uint16(193), uint16(116), uint16(117), uint16(118), uint16(216), uint16(217), uint16(116), uint16(117), uint16(118), uint16(226),
uint16(80), uint16(193), uint16(19), uint16(235), uint16(236), uint16(304), uint16(23), uint16(211), uint16(212), uint16(231),
uint16(204), uint16(216), uint16(217), uint16(205), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106), uint16(107),
uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(43), uint16(44), uint16(45), uint16(46),
uint16(47), uint16(48), uint16(49), uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56),
uint16(57), uint16(19), uint16(193), uint16(123), uint16(76), uint16(239), uint16(240), uint16(193), uint16(253), uint16(239),
uint16(240), uint16(239), uint16(240), uint16(193), uint16(106), uint16(107), uint16(193), uint16(89), uint16(252), uint16(193),
uint16(92), uint16(59), uint16(252), uint16(141), uint16(252), uint16(43), uint16(44), uint16(45), uint16(46), uint16(47),
uint16(48), uint16(49), uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56), uint16(57),
uint16(284), uint16(161), uint16(216), uint16(217), uint16(193), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106),
uint16(107), uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(231), uint16(193), uint16(16),
uint16(187), uint16(188), uint16(189), uint16(190), uint16(7), uint16(8), uint16(9), uint16(309), uint16(195), uint16(25),
uint16(197), uint16(313), uint16(19), uint16(127), uint16(128), uint16(129), uint16(262), uint16(204), uint16(22), uint16(117),
uint16(24), uint16(216), uint16(217), uint16(263), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106), uint16(107),
uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(43), uint16(44), uint16(45), uint16(46),
uint16(47), uint16(48), uint16(49), uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56),
uint16(57), uint16(193), uint16(239), uint16(240), uint16(193), uint16(59), uint16(19), uint16(188), uint16(253), uint16(190),
uint16(77), uint16(226), uint16(79), uint16(193), uint16(195), uint16(252), uint16(197), uint16(193), uint16(19), uint16(301),
uint16(302), uint16(193), uint16(193), uint16(204), uint16(216), uint16(217), uint16(226), uint16(216), uint16(217), uint16(266),
uint16(204), uint16(159), uint16(45), uint16(46), uint16(47), uint16(48), uint16(49), uint16(50), uint16(51), uint16(52),
uint16(53), uint16(54), uint16(55), uint16(56), uint16(57), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106),
uint16(107), uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(12), uint16(239), uint16(240),
uint16(232), uint16(298), uint16(238), uint16(117), uint16(253), uint16(239), uint16(240), uint16(238), uint16(259), uint16(260),
uint16(193), uint16(252), uint16(27), uint16(31), uint16(193), uint16(193), uint16(142), uint16(204), uint16(252), uint16(193),
uint16(193), uint16(39), uint16(262), uint16(193), uint16(100), uint16(266), uint16(278), uint16(42), uint16(204), uint16(102),
uint16(103), uint16(104), uint16(105), uint16(106), uint16(107), uint16(108), uint16(109), uint16(110), uint16(111), uint16(112),
uint16(113), uint16(117), uint16(159), uint16(216), uint16(217), uint16(121), uint16(216), uint16(217), uint16(63), uint16(193),
uint16(193), uint16(193), uint16(239), uint16(240), uint16(115), uint16(116), uint16(193), uint16(298), uint16(73), uint16(238),
uint16(238), uint16(231), uint16(19), uint16(239), uint16(240), uint16(252), uint16(22), uint16(24), uint16(211), uint16(212),
uint16(24), uint16(193), uint16(216), uint16(217), uint16(216), uint16(217), uint16(252), uint16(153), uint16(154), uint16(155),
uint16(253), uint16(16), uint16(19), uint16(144), uint16(213), uint16(268), uint16(43), uint16(44), uint16(45), uint16(46),
uint16(47), uint16(48), uint16(49), uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56),
uint16(57), uint16(238), uint16(19), uint16(59), uint16(193), uint16(59), uint16(43), uint16(44), uint16(45), uint16(46),
uint16(47), uint16(48), uint16(49), uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56),
uint16(57), uint16(22), uint16(23), uint16(193), uint16(25), uint16(193), uint16(43), uint16(44), uint16(45), uint16(46),
uint16(47), uint16(48), uint16(49), uint16(50), uint16(51), uint16(52), uint16(53), uint16(54), uint16(55), uint16(56),
uint16(57), uint16(284), uint16(77), uint16(193), uint16(79), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106),
uint16(107), uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(286), uint16(193), uint16(193),
uint16(193), uint16(117), uint16(291), uint16(117), uint16(232), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106),
uint16(107), uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(204), uint16(22), uint16(23),
uint16(66), uint16(25), uint16(216), uint16(217), uint16(35), uint16(102), uint16(103), uint16(104), uint16(105), uint16(106),
uint16(107), uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113), uint16(193), uint16(268), uint16(85),
uint16(101), uint16(193), uint16(309), uint16(309), uint16(240), uint16(19), uint16(313), uint16(313), uint16(94), uint16(208),
uint16(209), uint16(193), uint16(239), uint16(240), uint16(193), uint16(66), uint16(252), uint16(19), uint16(268), uint16(244),
uint16(216), uint16(217), uint16(193), uint16(74), uint16(213), uint16(252), uint16(161), uint16(19), uint16(263), uint16(254),
uint16(44), uint16(45), uint16(46), uint16(47), uint16(48), uint16(49), uint16(50), uint16(51), uint16(52), uint16(53),
uint16(54), uint16(55), uint16(56), uint16(57), uint16(193), uint16(216), uint16(217), uint16(5), uint16(59), uint16(193),
uint16(19), uint16(244), uint16(10), uint16(11), uint16(12), uint16(13), uint16(14), uint16(101), uint16(309), uint16(17),
uint16(146), uint16(254), uint16(313), uint16(193), uint16(193), uint16(76), uint16(115), uint16(216), uint16(217), uint16(309),
uint16(12), uint16(263), uint16(30), uint16(313), uint16(32), uint16(46), uint16(87), uint16(46), uint16(89), uint16(130),
uint16(193), uint16(92), uint16(40), uint16(22), uint16(263), uint16(27), uint16(216), uint16(217), uint16(102), uint16(103),
uint16(104), uint16(105), uint16(106), uint16(107), uint16(108), uint16(109), uint16(110), uint16(111), uint16(112), uint16(113),
uint16(42), uint16(150), uint16(291), uint16(216), uint16(217), uint16(116), uint16(117), uint16(118), uint16(19), uint16(20),
uint16(193), uint16(22), uint16(70), uint16(260), uint16(116), uint16(193), uint16(24), uint16(264), uint16(193), uint16(263),
uint16(78), uint16(63), uint16(61), uint16(81), uint16(116), uint16(36), uint16(193), uint16(260), uint16(193), uint16(29),
uint16(193), uint16(264), uint16(193), uint16(33), uint16(145), uint16(193), uint16(59), uint16(48), uint16(216), uint16(217),
uint16(98), uint16(216), uint16(217), uint16(193), uint16(115), uint16(193), uint16(115), uint16(193), uint16(59), uint16(216),
uint16(217), uint16(216), uint16(217), uint16(216), uint16(217), uint16(216), uint16(217), uint16(255), uint16(216), uint16(217),
uint16(71), uint16(193), uint16(131), uint16(193), uint16(25), uint16(65), uint16(216), uint16(217), uint16(216), uint16(217),
uint16(216), uint16(217), uint16(208), uint16(209), uint16(85), uint16(133), uint16(193), uint16(100), uint16(193), uint16(90),
uint16(138), uint16(139), uint16(138), uint16(139), uint16(216), uint16(217), uint16(216), uint16(217), uint16(193), uint16(100),
uint16(193), uint16(108), uint16(135), uint16(116), uint16(117), uint16(106), uint16(107), uint16(140), uint16(121), uint16(216),
uint16(217), uint16(216), uint16(217), uint16(114), uint16(162), uint16(116), uint16(117), uint16(118), uint16(299), uint16(300),
uint16(121), uint16(216), uint16(217), uint16(216), uint16(217), uint16(193), uint16(244), uint16(193), uint16(135), uint16(244),
uint16(193), uint16(256), uint16(257), uint16(140), uint16(244), uint16(193), uint16(254), uint16(193), uint16(193), uint16(254),
uint16(153), uint16(154), uint16(155), uint16(141), uint16(254), uint16(149), uint16(150), uint16(258), uint16(216), uint16(217),
uint16(216), uint16(217), uint16(153), uint16(154), uint16(155), uint16(156), uint16(157), uint16(0), uint16(1), uint16(2),
uint16(216), uint16(217), uint16(5), uint16(115), uint16(158), uint16(193), uint16(160), uint16(10), uint16(11), uint16(12),
uint16(13), uint16(14), uint16(193), uint16(59), uint16(17), uint16(126), uint16(193), uint16(19), uint16(20), uint16(129),
uint16(22), uint16(193), uint16(22), uint16(22), uint16(24), uint16(193), uint16(23), uint16(30), uint16(25), uint16(32),
uint16(19), uint16(20), uint16(144), uint16(22), uint16(36), uint16(216), uint16(217), uint16(40), uint16(193), uint16(216),
uint16(217), uint16(193), uint16(152), uint16(129), uint16(216), uint16(217), uint16(193), uint16(36), uint16(216), uint16(217),
uint16(193), uint16(99), uint16(193), uint16(193), uint16(53), uint16(193), uint16(193), uint16(59), uint16(23), uint16(193),
uint16(25), uint16(216), uint16(217), uint16(193), uint16(216), uint16(217), uint16(152), uint16(70), uint16(59), uint16(71),
uint16(59), uint16(117), uint16(193), uint16(216), uint16(217), uint16(78), uint16(216), uint16(217), uint16(81), uint16(216),
uint16(217), uint16(318), uint16(71), uint16(85), uint16(193), uint16(133), uint16(193), uint16(193), uint16(90), uint16(23),
uint16(23), uint16(25), uint16(25), uint16(120), uint16(121), uint16(98), uint16(85), uint16(193), uint16(100), uint16(193),
uint16(23), uint16(90), uint16(25), uint16(121), uint16(106), uint16(107), uint16(19), uint16(216), uint16(217), uint16(216),
uint16(217), uint16(100), uint16(114), uint16(131), uint16(116), uint16(117), uint16(118), uint16(106), uint16(107), uint16(121),
uint16(216), uint16(217), uint16(216), uint16(217), uint16(193), uint16(114), uint16(117), uint16(116), uint16(117), uint16(118),
uint16(133), uint16(193), uint16(121), uint16(193), uint16(193), uint16(138), uint16(139), uint16(193), uint16(23), uint16(193),
uint16(25), uint16(23), uint16(23), uint16(25), uint16(25), uint16(7), uint16(8), uint16(216), uint16(217), uint16(193),
uint16(193), uint16(153), uint16(154), uint16(155), uint16(156), uint16(157), uint16(216), uint16(217), uint16(193), uint16(162),
uint16(216), uint16(217), uint16(216), uint16(217), uint16(153), uint16(154), uint16(155), uint16(156), uint16(157), uint16(1),
uint16(2), uint16(193), uint16(193), uint16(5), uint16(19), uint16(20), uint16(59), uint16(22), uint16(10), uint16(11),
uint16(12), uint16(13), uint16(14), uint16(193), uint16(97), uint16(17), uint16(193), uint16(23), uint16(193), uint16(25),
uint16(288), uint16(36), uint16(193), uint16(242), uint16(216), uint16(217), uint16(236), uint16(23), uint16(30), uint16(25),
uint16(32), uint16(19), uint16(20), uint16(23), uint16(22), uint16(25), uint16(216), uint16(217), uint16(40), uint16(216),
uint16(217), uint16(216), uint16(217), uint16(193), uint16(59), uint16(216), uint16(217), uint16(193), uint16(36), uint16(83),
uint16(84), uint16(153), uint16(153), uint16(155), uint16(155), uint16(23), uint16(71), uint16(25), uint16(23), uint16(193),
uint16(25), uint16(193), uint16(193), uint16(193), uint16(117), uint16(193), uint16(193), uint16(193), uint16(70), uint16(193),
uint16(193), uint16(59), uint16(193), uint16(255), uint16(255), uint16(287), uint16(78), uint16(255), uint16(243), uint16(81),
uint16(191), uint16(255), uint16(297), uint16(71), uint16(271), uint16(100), uint16(293), uint16(245), uint16(267), uint16(214),
uint16(246), uint16(106), uint16(107), uint16(108), uint16(246), uint16(271), uint16(98), uint16(245), uint16(293), uint16(114),
uint16(220), uint16(116), uint16(117), uint16(118), uint16(267), uint16(271), uint16(121), uint16(271), uint16(225), uint16(219),
uint16(229), uint16(219), uint16(100), uint16(219), uint16(259), uint16(259), uint16(259), uint16(259), uint16(106), uint16(107),
uint16(249), uint16(196), uint16(60), uint16(280), uint16(141), uint16(243), uint16(114), uint16(249), uint16(116), uint16(117),
uint16(118), uint16(133), uint16(245), uint16(121), uint16(200), uint16(297), uint16(138), uint16(139), uint16(153), uint16(154),
uint16(155), uint16(156), uint16(157), uint16(297), uint16(200), uint16(38), uint16(19), uint16(20), uint16(151), uint16(22),
uint16(200), uint16(150), uint16(140), uint16(294), uint16(294), uint16(22), uint16(272), uint16(43), uint16(234), uint16(18),
uint16(162), uint16(270), uint16(200), uint16(36), uint16(237), uint16(153), uint16(154), uint16(155), uint16(156), uint16(157),
uint16(237), uint16(283), uint16(237), uint16(237), uint16(18), uint16(199), uint16(149), uint16(246), uint16(272), uint16(270),
uint16(272), uint16(200), uint16(158), uint16(246), uint16(246), uint16(234), uint16(59), uint16(234), uint16(246), uint16(199),
uint16(290), uint16(62), uint16(289), uint16(200), uint16(199), uint16(22), uint16(221), uint16(115), uint16(71), uint16(200),
uint16(200), uint16(199), uint16(199), uint16(221), uint16(218), uint16(218), uint16(19), uint16(20), uint16(64), uint16(22),
uint16(218), uint16(227), uint16(22), uint16(224), uint16(126), uint16(224), uint16(165), uint16(221), uint16(24), uint16(305),
uint16(200), uint16(113), uint16(312), uint16(36), uint16(218), uint16(220), uint16(218), uint16(100), uint16(282), uint16(218),
uint16(91), uint16(218), uint16(317), uint16(106), uint16(107), uint16(221), uint16(227), uint16(282), uint16(317), uint16(82),
uint16(148), uint16(114), uint16(265), uint16(116), uint16(117), uint16(118), uint16(59), uint16(145), uint16(121), uint16(22),
uint16(277), uint16(158), uint16(200), uint16(265), uint16(25), uint16(202), uint16(147), uint16(250), uint16(71), uint16(279),
uint16(13), uint16(146), uint16(194), uint16(194), uint16(249), uint16(248), uint16(250), uint16(140), uint16(247), uint16(246),
uint16(6), uint16(192), uint16(192), uint16(192), uint16(303), uint16(303), uint16(213), uint16(207), uint16(300), uint16(213),
uint16(153), uint16(154), uint16(155), uint16(156), uint16(157), uint16(213), uint16(213), uint16(100), uint16(213), uint16(222),
uint16(207), uint16(214), uint16(214), uint16(106), uint16(107), uint16(4), uint16(222), uint16(207), uint16(3), uint16(22),
uint16(163), uint16(114), uint16(15), uint16(116), uint16(117), uint16(118), uint16(16), uint16(23), uint16(121), uint16(23),
uint16(139), uint16(151), uint16(130), uint16(25), uint16(142), uint16(16), uint16(24), uint16(20), uint16(144), uint16(1),
uint16(142), uint16(130), uint16(130), uint16(61), uint16(53), uint16(53), uint16(37), uint16(151), uint16(53), uint16(53),
uint16(130), uint16(116), uint16(34), uint16(1), uint16(141), uint16(5), uint16(22), uint16(115), uint16(161), uint16(141),
uint16(153), uint16(154), uint16(155), uint16(156), uint16(157), uint16(25), uint16(68), uint16(68), uint16(75), uint16(41),
uint16(115), uint16(24), uint16(131), uint16(20), uint16(19), uint16(125), uint16(22), uint16(96), uint16(22), uint16(22),
uint16(67), uint16(23), uint16(22), uint16(67), uint16(59), uint16(24), uint16(22), uint16(28), uint16(67), uint16(23),
uint16(22), uint16(22), uint16(149), uint16(23), uint16(23), uint16(23), uint16(116), uint16(23), uint16(25), uint16(37),
uint16(97), uint16(141), uint16(23), uint16(23), uint16(22), uint16(143), uint16(25), uint16(75), uint16(88), uint16(34),
uint16(34), uint16(34), uint16(34), uint16(86), uint16(75), uint16(93), uint16(23), uint16(34), uint16(22), uint16(34),
uint16(25), uint16(24), uint16(34), uint16(25), uint16(23), uint16(142), uint16(23), uint16(142), uint16(44), uint16(23),
uint16(23), uint16(23), uint16(11), uint16(23), uint16(25), uint16(22), uint16(22), uint16(22), uint16(15), uint16(23),
uint16(23), uint16(22), uint16(22), uint16(25), uint16(1), uint16(1), uint16(141), uint16(25), uint16(23), uint16(135),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(141), uint16(141), uint16(319), uint16(141), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319), uint16(319),
uint16(319), uint16(319), uint16(319),
}
var yy_shift_ofst = [576]uint16{
uint16(1648), uint16(1477), uint16(1272), uint16(322), uint16(322), uint16(1), uint16(1319), uint16(1478), uint16(1491), uint16(1837),
uint16(1837), uint16(1837), uint16(471), uint16(0), uint16(0), uint16(214), uint16(1093), uint16(1837), uint16(1837), uint16(1837),
uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837),
uint16(271), uint16(271), uint16(1219), uint16(1219), uint16(216), uint16(88), uint16(1), uint16(1), uint16(1), uint16(1),
uint16(1), uint16(40), uint16(111), uint16(258), uint16(361), uint16(469), uint16(512), uint16(583), uint16(622), uint16(693),
uint16(732), uint16(803), uint16(842), uint16(913), uint16(1073), uint16(1093), uint16(1093), uint16(1093), uint16(1093), uint16(1093),
uint16(1093), uint16(1093), uint16(1093), uint16(1093), uint16(1093), uint16(1093), uint16(1093), uint16(1093), uint16(1093), uint16(1093),
uint16(1093), uint16(1093), uint16(1093), uint16(1113), uint16(1093), uint16(1216), uint16(957), uint16(957), uint16(1635), uint16(1662),
uint16(1777), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837),
uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837),
uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837),
uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837),
uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837), uint16(1837),
uint16(137), uint16(181), uint16(181), uint16(181), uint16(181), uint16(181), uint16(181), uint16(181), uint16(94), uint16(430),
uint16(66), uint16(65), uint16(112), uint16(366), uint16(533), uint16(533), uint16(740), uint16(1261), uint16(533), uint16(533),
uint16(79), uint16(79), uint16(533), uint16(412), uint16(412), uint16(412), uint16(77), uint16(412), uint16(123), uint16(113),
uint16(113), uint16(22), uint16(22), uint16(2098), uint16(2098), uint16(328), uint16(328), uint16(328), uint16(239), uint16(468),
uint16(468), uint16(468), uint16(468), uint16(1015), uint16(1015), uint16(409), uint16(366), uint16(1129), uint16(1186), uint16(533),
uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533),
uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(969),
uint16(621), uint16(621), uint16(533), uint16(642), uint16(788), uint16(788), uint16(1228), uint16(1228), uint16(822), uint16(822),
uint16(67), uint16(1274), uint16(2098), uint16(2098), uint16(2098), uint16(2098), uint16(2098), uint16(2098), uint16(2098), uint16(1307),
uint16(954), uint16(954), uint16(585), uint16(472), uint16(640), uint16(387), uint16(695), uint16(538), uint16(541), uint16(700),
uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533),
uint16(222), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533),
uint16(533), uint16(533), uint16(533), uint16(1179), uint16(1179), uint16(1179), uint16(533), uint16(533), uint16(533), uint16(565),
uint16(533), uint16(533), uint16(533), uint16(916), uint16(1144), uint16(533), uint16(533), uint16(1288), uint16(533), uint16(533),
uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(533), uint16(639), uint16(1330), uint16(209), uint16(1076),
uint16(1076), uint16(1076), uint16(1076), uint16(580), uint16(209), uint16(209), uint16(1313), uint16(768), uint16(917), uint16(649),
uint16(1181), uint16(1316), uint16(405), uint16(1316), uint16(1238), uint16(249), uint16(1181), uint16(1181), uint16(249), uint16(1181),
uint16(405), uint16(1238), uint16(1369), uint16(464), uint16(1259), uint16(1012), uint16(1012), uint16(1012), uint16(1368), uint16(1368),
uint16(1368), uint16(1368), uint16(184), uint16(184), uint16(1326), uint16(904), uint16(1287), uint16(1480), uint16(1712), uint16(1712),
uint16(1633), uint16(1633), uint16(1757), uint16(1757), uint16(1633), uint16(1647), uint16(1651), uint16(1783), uint16(1764), uint16(1791),
uint16(1791), uint16(1791), uint16(1791), uint16(1633), uint16(1806), uint16(1677), uint16(1651), uint16(1651), uint16(1677), uint16(1783),
uint16(1764), uint16(1677), uint16(1764), uint16(1677), uint16(1633), uint16(1806), uint16(1674), uint16(1779), uint16(1633), uint16(1806),
uint16(1823), uint16(1633), uint16(1806), uint16(1633), uint16(1806), uint16(1823), uint16(1732), uint16(1732), uint16(1732), uint16(1794),
uint16(1840), uint16(1840), uint16(1823), uint16(1732), uint16(1738), uint16(1732), uint16(1794), uint16(1732), uint16(1732), uint16(1701),
uint16(1844), uint16(1758), uint16(1758), uint16(1823), uint16(1633), uint16(1789), uint16(1789), uint16(1807), uint16(1807), uint16(1742),
uint16(1752), uint16(1877), uint16(1633), uint16(1743), uint16(1742), uint16(1759), uint16(1765), uint16(1677), uint16(1879), uint16(1897),
uint16(1897), uint16(1914), uint16(1914), uint16(1914), uint16(2098), uint16(2098), uint16(2098), uint16(2098), uint16(2098), uint16(2098),
uint16(2098), uint16(2098), uint16(2098), uint16(2098), uint16(2098), uint16(2098), uint16(2098), uint16(2098), uint16(2098), uint16(207),
uint16(1095), uint16(331), uint16(620), uint16(903), uint16(806), uint16(1074), uint16(1483), uint16(1432), uint16(1481), uint16(1322),
uint16(1370), uint16(1394), uint16(1515), uint16(1291), uint16(1546), uint16(1547), uint16(1557), uint16(1595), uint16(1598), uint16(1599),
uint16(1434), uint16(1453), uint16(1618), uint16(1462), uint16(1567), uint16(1489), uint16(1644), uint16(1654), uint16(1616), uint16(1660),
uint16(1548), uint16(1549), uint16(1682), uint16(1685), uint16(1597), uint16(742), uint16(1941), uint16(1945), uint16(1927), uint16(1787),
uint16(1937), uint16(1940), uint16(1934), uint16(1936), uint16(1821), uint16(1810), uint16(1832), uint16(1938), uint16(1938), uint16(1942),
uint16(1822), uint16(1947), uint16(1824), uint16(1949), uint16(1968), uint16(1828), uint16(1841), uint16(1938), uint16(1842), uint16(1912),
uint16(1939), uint16(1938), uint16(1826), uint16(1921), uint16(1922), uint16(1925), uint16(1926), uint16(1850), uint16(1865), uint16(1948),
uint16(1843), uint16(1982), uint16(1980), uint16(1964), uint16(1872), uint16(1827), uint16(1928), uint16(1970), uint16(1929), uint16(1923),
uint16(1958), uint16(1848), uint16(1885), uint16(1977), uint16(1983), uint16(1985), uint16(1871), uint16(1880), uint16(1984), uint16(1943),
uint16(1986), uint16(1987), uint16(1988), uint16(1990), uint16(1946), uint16(1955), uint16(1991), uint16(1911), uint16(1989), uint16(1994),
uint16(1951), uint16(1992), uint16(1996), uint16(1873), uint16(1998), uint16(2000), uint16(2001), uint16(2002), uint16(2003), uint16(2004),
uint16(1999), uint16(1933), uint16(1890), uint16(2009), uint16(2010), uint16(1910), uint16(2005), uint16(2012), uint16(1892), uint16(2011),
uint16(2006), uint16(2007), uint16(2008), uint16(2013), uint16(1950), uint16(1962), uint16(1957), uint16(2014), uint16(1969), uint16(1952),
uint16(2015), uint16(2023), uint16(2026), uint16(2027), uint16(2025), uint16(2028), uint16(2018), uint16(1913), uint16(1915), uint16(2031),
uint16(2011), uint16(2033), uint16(2036), uint16(2037), uint16(2038), uint16(2039), uint16(2040), uint16(2043), uint16(2051), uint16(2044),
uint16(2045), uint16(2046), uint16(2047), uint16(2049), uint16(2050), uint16(2048), uint16(1944), uint16(1935), uint16(1953), uint16(1954),
uint16(1956), uint16(2052), uint16(2055), uint16(2053), uint16(2073), uint16(2074),
}
var yy_reduce_ofst = [409]int16{
int16(-125), int16(733), int16(789), int16(241), int16(293), int16(-123), int16(-193), int16(-191), int16(-183), int16(-187),
int16(166), int16(238), int16(133), int16(-207), int16(-199), int16(-267), int16(-176), int16(-6), int16(204), int16(489),
int16(576), int16(-175), int16(598), int16(686), int16(615), int16(725), int16(860), int16(778), int16(781), int16(857),
int16(616), int16(887), int16(87), int16(240), int16(-192), int16(408), int16(626), int16(796), int16(843), int16(854),
int16(1003), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271),
int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271),
int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271),
int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(80), int16(83),
int16(313), int16(886), int16(888), int16(996), int16(1034), int16(1059), int16(1081), int16(1100), int16(1117), int16(1152),
int16(1155), int16(1163), int16(1165), int16(1167), int16(1169), int16(1172), int16(1180), int16(1182), int16(1184), int16(1198),
int16(1200), int16(1213), int16(1215), int16(1225), int16(1227), int16(1252), int16(1254), int16(1264), int16(1299), int16(1303),
int16(1308), int16(1312), int16(1325), int16(1328), int16(1337), int16(1340), int16(1343), int16(1371), int16(1373), int16(1384),
int16(1386), int16(1411), int16(1420), int16(1424), int16(1426), int16(1458), int16(1470), int16(1473), int16(1475), int16(1479),
int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271), int16(-271),
int16(-271), int16(138), int16(459), int16(396), int16(-158), int16(470), int16(302), int16(-212), int16(521), int16(201),
int16(-195), int16(-92), int16(559), int16(630), int16(632), int16(630), int16(-271), int16(632), int16(901), int16(63),
int16(407), int16(-271), int16(-271), int16(-271), int16(-271), int16(161), int16(161), int16(161), int16(251), int16(335),
int16(847), int16(960), int16(980), int16(537), int16(588), int16(618), int16(628), int16(688), int16(688), int16(-166),
int16(-161), int16(674), int16(790), int16(794), int16(799), int16(851), int16(852), int16(-122), int16(680), int16(-120),
int16(995), int16(1038), int16(415), int16(1051), int16(893), int16(798), int16(962), int16(400), int16(1086), int16(779),
int16(923), int16(924), int16(263), int16(1041), int16(979), int16(990), int16(1083), int16(1097), int16(1031), int16(1194),
int16(362), int16(994), int16(1139), int16(1005), int16(1037), int16(1202), int16(1205), int16(1195), int16(1210), int16(-194),
int16(56), int16(185), int16(-135), int16(232), int16(522), int16(560), int16(601), int16(617), int16(669), int16(683),
int16(711), int16(856), int16(908), int16(941), int16(1048), int16(1101), int16(1147), int16(1257), int16(1262), int16(1265),
int16(392), int16(1292), int16(1333), int16(1339), int16(1342), int16(1346), int16(1350), int16(1359), int16(1374), int16(1418),
int16(1421), int16(1436), int16(1437), int16(593), int16(755), int16(770), int16(997), int16(1445), int16(1459), int16(1209),
int16(1500), int16(1504), int16(1516), int16(1132), int16(1243), int16(1518), int16(1519), int16(1440), int16(1520), int16(560),
int16(1522), int16(1523), int16(1524), int16(1526), int16(1527), int16(1529), int16(1382), int16(1438), int16(1431), int16(1468),
int16(1469), int16(1472), int16(1476), int16(1209), int16(1431), int16(1431), int16(1485), int16(1525), int16(1539), int16(1435),
int16(1463), int16(1471), int16(1492), int16(1487), int16(1443), int16(1494), int16(1474), int16(1484), int16(1498), int16(1486),
int16(1502), int16(1455), int16(1530), int16(1531), int16(1533), int16(1540), int16(1542), int16(1544), int16(1505), int16(1506),
int16(1507), int16(1508), int16(1521), int16(1528), int16(1493), int16(1537), int16(1532), int16(1575), int16(1488), int16(1496),
int16(1584), int16(1594), int16(1509), int16(1510), int16(1600), int16(1538), int16(1534), int16(1541), int16(1574), int16(1577),
int16(1583), int16(1585), int16(1586), int16(1612), int16(1626), int16(1581), int16(1556), int16(1558), int16(1587), int16(1559),
int16(1601), int16(1588), int16(1603), int16(1592), int16(1631), int16(1640), int16(1550), int16(1553), int16(1643), int16(1645),
int16(1625), int16(1649), int16(1652), int16(1650), int16(1653), int16(1632), int16(1636), int16(1637), int16(1642), int16(1634),
int16(1639), int16(1641), int16(1646), int16(1656), int16(1655), int16(1658), int16(1659), int16(1661), int16(1663), int16(1560),
int16(1564), int16(1596), int16(1605), int16(1664), int16(1670), int16(1565), int16(1571), int16(1627), int16(1638), int16(1657),
int16(1665), int16(1623), int16(1702), int16(1630), int16(1666), int16(1667), int16(1671), int16(1673), int16(1703), int16(1718),
int16(1719), int16(1729), int16(1730), int16(1731), int16(1621), int16(1622), int16(1628), int16(1720), int16(1713), int16(1716),
int16(1722), int16(1723), int16(1733), int16(1717), int16(1724), int16(1727), int16(1728), int16(1725), int16(1740),
}
var yy_default = [576]uint16{
uint16(1647), uint16(1647), uint16(1647), uint16(1475), uint16(1240), uint16(1351), uint16(1240), uint16(1240), uint16(1240), uint16(1475),
uint16(1475), uint16(1475), uint16(1240), uint16(1381), uint16(1381), uint16(1528), uint16(1273), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1474), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1563), uint16(1563), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1390), uint16(1240), uint16(1397), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1476), uint16(1477), uint16(1240), uint16(1240), uint16(1240), uint16(1527), uint16(1529), uint16(1492), uint16(1404), uint16(1403),
uint16(1402), uint16(1401), uint16(1510), uint16(1369), uint16(1395), uint16(1388), uint16(1392), uint16(1470), uint16(1471), uint16(1469),
uint16(1473), uint16(1477), uint16(1476), uint16(1240), uint16(1391), uint16(1438), uint16(1454), uint16(1437), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1446), uint16(1453), uint16(1452), uint16(1451), uint16(1460), uint16(1450), uint16(1447), uint16(1440), uint16(1439), uint16(1441),
uint16(1442), uint16(1240), uint16(1240), uint16(1264), uint16(1240), uint16(1240), uint16(1261), uint16(1315), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1547), uint16(1546), uint16(1240), uint16(1443), uint16(1240), uint16(1273), uint16(1432),
uint16(1431), uint16(1457), uint16(1444), uint16(1456), uint16(1455), uint16(1535), uint16(1599), uint16(1598), uint16(1493), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1563), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1371),
uint16(1563), uint16(1563), uint16(1240), uint16(1273), uint16(1563), uint16(1563), uint16(1372), uint16(1372), uint16(1269), uint16(1269),
uint16(1375), uint16(1240), uint16(1542), uint16(1342), uint16(1342), uint16(1342), uint16(1342), uint16(1351), uint16(1342), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1532), uint16(1530), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1347), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1592), uint16(1240), uint16(1505), uint16(1329), uint16(1347),
uint16(1347), uint16(1347), uint16(1347), uint16(1349), uint16(1330), uint16(1328), uint16(1341), uint16(1274), uint16(1247), uint16(1639),
uint16(1407), uint16(1396), uint16(1348), uint16(1396), uint16(1636), uint16(1394), uint16(1407), uint16(1407), uint16(1394), uint16(1407),
uint16(1348), uint16(1636), uint16(1290), uint16(1615), uint16(1285), uint16(1381), uint16(1381), uint16(1381), uint16(1371), uint16(1371),
uint16(1371), uint16(1371), uint16(1375), uint16(1375), uint16(1472), uint16(1348), uint16(1341), uint16(1240), uint16(1639), uint16(1639),
uint16(1357), uint16(1357), uint16(1638), uint16(1638), uint16(1357), uint16(1493), uint16(1623), uint16(1416), uint16(1318), uint16(1324),
uint16(1324), uint16(1324), uint16(1324), uint16(1357), uint16(1258), uint16(1394), uint16(1623), uint16(1623), uint16(1394), uint16(1416),
uint16(1318), uint16(1394), uint16(1318), uint16(1394), uint16(1357), uint16(1258), uint16(1509), uint16(1633), uint16(1357), uint16(1258),
uint16(1483), uint16(1357), uint16(1258), uint16(1357), uint16(1258), uint16(1483), uint16(1316), uint16(1316), uint16(1316), uint16(1305),
uint16(1240), uint16(1240), uint16(1483), uint16(1316), uint16(1290), uint16(1316), uint16(1305), uint16(1316), uint16(1316), uint16(1581),
uint16(1240), uint16(1487), uint16(1487), uint16(1483), uint16(1357), uint16(1573), uint16(1573), uint16(1384), uint16(1384), uint16(1389),
uint16(1375), uint16(1478), uint16(1357), uint16(1240), uint16(1389), uint16(1387), uint16(1385), uint16(1394), uint16(1308), uint16(1595),
uint16(1595), uint16(1591), uint16(1591), uint16(1591), uint16(1644), uint16(1644), uint16(1542), uint16(1608), uint16(1273), uint16(1273),
uint16(1273), uint16(1273), uint16(1608), uint16(1292), uint16(1292), uint16(1274), uint16(1274), uint16(1273), uint16(1608), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1603), uint16(1240), uint16(1537), uint16(1494), uint16(1361),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1548), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1421), uint16(1240), uint16(1243), uint16(1539), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1398), uint16(1399), uint16(1362),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1413), uint16(1240), uint16(1240),
uint16(1240), uint16(1408), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1635), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1508), uint16(1507), uint16(1240),
uint16(1240), uint16(1359), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1288), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1386),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1578), uint16(1376), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1626), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240),
uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1240), uint16(1619), uint16(1332), uint16(1423), uint16(1240), uint16(1422),
uint16(1426), uint16(1262), uint16(1240), uint16(1252), uint16(1240), uint16(1240),
}
var yyFallback = [185]uint16{
uint16(0),
uint16(0),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(0),
uint16(59),
uint16(59),
uint16(59),
uint16(0),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(0),
uint16(0),
uint16(0),
uint16(59),
uint16(0),
uint16(0),
uint16(59),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(0),
uint16(0),
uint16(0),
uint16(59),
uint16(59),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(59),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
uint16(0),
}
type yyStackEntry = struct {
Fstateno uint16
Fmajor uint16
F__ccgo_pad1 [4]byte
Fminor YYMINORTYPE
}
type YyStackEntry = yyStackEntry
type yyParser = struct {
Fyytos uintptr
FpParse uintptr
Fyystack [100]YyStackEntry
FyystackEnd uintptr
}
type YyParser = yyParser
// Initialize a new parser that has already been allocated.
func Xsqlite3ParserInit(tls *libc.TLS, yypRawParser uintptr, pParse uintptr) {
var yypParser uintptr = yypRawParser
(*YyParser)(unsafe.Pointer(yypParser)).FpParse = pParse
(*YyParser)(unsafe.Pointer(yypParser)).Fyytos = yypParser + 16
(*YyStackEntry)(unsafe.Pointer(yypParser + 16)).Fstateno = uint16(0)
(*YyStackEntry)(unsafe.Pointer(yypParser + 16)).Fmajor = uint16(0)
(*YyParser)(unsafe.Pointer(yypParser)).FyystackEnd = yypParser + 16 + 99*24
}
func yy_destructor(tls *libc.TLS, yypParser uintptr, yymajor uint16, yypminor uintptr) {
var pParse uintptr = (*YyParser)(unsafe.Pointer(yypParser)).FpParse
switch int32(yymajor) {
case 204:
fallthrough
case 239:
fallthrough
case 240:
fallthrough
case 252:
{
Xsqlite3SelectDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yypminor)))
}
break
case 216:
fallthrough
case 217:
fallthrough
case 246:
fallthrough
case 248:
fallthrough
case 267:
fallthrough
case 278:
fallthrough
case 280:
fallthrough
case 283:
fallthrough
case 290:
fallthrough
case 295:
fallthrough
case 311:
{
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yypminor)))
}
break
case 221:
fallthrough
case 231:
fallthrough
case 232:
fallthrough
case 244:
fallthrough
case 247:
fallthrough
case 249:
fallthrough
case 253:
fallthrough
case 254:
fallthrough
case 261:
fallthrough
case 268:
fallthrough
case 277:
fallthrough
case 279:
fallthrough
case 310:
{
Xsqlite3ExprListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yypminor)))
}
break
case 238:
fallthrough
case 245:
fallthrough
case 256:
fallthrough
case 257:
fallthrough
case 262:
{
Xsqlite3SrcListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yypminor)))
}
break
case 241:
{
Xsqlite3WithDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yypminor)))
}
break
case 251:
fallthrough
case 306:
{
Xsqlite3WindowListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yypminor)))
}
break
case 263:
fallthrough
case 270:
{
Xsqlite3IdListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yypminor)))
}
break
case 273:
fallthrough
case 307:
fallthrough
case 308:
fallthrough
case 309:
fallthrough
case 312:
{
Xsqlite3WindowDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yypminor)))
}
break
case 286:
fallthrough
case 291:
{
Xsqlite3DeleteTriggerStep(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yypminor)))
}
break
case 288:
{
Xsqlite3IdListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*TrigEvent)(unsafe.Pointer(yypminor)).Fb)
}
break
case 314:
fallthrough
case 315:
fallthrough
case 316:
{
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*FrameBound)(unsafe.Pointer(yypminor)).FpExpr)
}
break
default:
break
}
}
func yy_pop_parser_stack(tls *libc.TLS, pParser uintptr) {
var yytos uintptr
yytos = libc.PostDecUintptr(&(*YyParser)(unsafe.Pointer(pParser)).Fyytos, 24)
yy_destructor(tls, pParser, (*YyStackEntry)(unsafe.Pointer(yytos)).Fmajor, yytos+8)
}
// Clear all secondary memory allocations from the parser
func Xsqlite3ParserFinalize(tls *libc.TLS, p uintptr) {
var pParser uintptr = p
for (*YyParser)(unsafe.Pointer(pParser)).Fyytos > pParser+16 {
yy_pop_parser_stack(tls, pParser)
}
}
func yy_find_shift_action(tls *libc.TLS, iLookAhead uint16, stateno uint16) uint16 {
var i int32
if int32(stateno) > YY_MAX_SHIFT {
return stateno
}
for __ccgo := true; __ccgo; __ccgo = 1 != 0 {
i = int32(yy_shift_ofst[stateno])
i = i + int32(iLookAhead)
if int32(yy_lookahead[i]) != int32(iLookAhead) {
var iFallback uint16
iFallback = yyFallback[iLookAhead]
if int32(iFallback) != 0 {
iLookAhead = iFallback
continue
}
{
var j int32 = i - int32(iLookAhead) + YYWILDCARD
if int32(yy_lookahead[j]) == YYWILDCARD && int32(iLookAhead) > 0 {
return yy_action[j]
}
}
return yy_default[stateno]
} else {
return yy_action[i]
}
}
return uint16(0)
}
func yy_find_reduce_action(tls *libc.TLS, stateno uint16, iLookAhead uint16) uint16 {
var i int32
i = int32(yy_reduce_ofst[stateno])
i = i + int32(iLookAhead)
return yy_action[i]
}
func yyStackOverflow(tls *libc.TLS, yypParser uintptr) {
var pParse uintptr = (*YyParser)(unsafe.Pointer(yypParser)).FpParse
for (*YyParser)(unsafe.Pointer(yypParser)).Fyytos > yypParser+16 {
yy_pop_parser_stack(tls, yypParser)
}
Xsqlite3ErrorMsg(tls, pParse, ts+23396, 0)
(*YyParser)(unsafe.Pointer(yypParser)).FpParse = pParse
}
func yy_shift(tls *libc.TLS, yypParser uintptr, yyNewState uint16, yyMajor uint16, yyMinor Token) {
var yytos uintptr
(*YyParser)(unsafe.Pointer(yypParser)).Fyytos += 24
if (*YyParser)(unsafe.Pointer(yypParser)).Fyytos > (*YyParser)(unsafe.Pointer(yypParser)).FyystackEnd {
(*YyParser)(unsafe.Pointer(yypParser)).Fyytos -= 24
yyStackOverflow(tls, yypParser)
return
}
if int32(yyNewState) > YY_MAX_SHIFT {
yyNewState = uint16(int32(yyNewState) + (YY_MIN_REDUCE - YY_MIN_SHIFTREDUCE))
}
yytos = (*YyParser)(unsafe.Pointer(yypParser)).Fyytos
(*YyStackEntry)(unsafe.Pointer(yytos)).Fstateno = yyNewState
(*YyStackEntry)(unsafe.Pointer(yytos)).Fmajor = yyMajor
*(*Token)(unsafe.Pointer(yytos + 8)) = yyMinor
}
var yyRuleInfoLhs = [405]uint16{
uint16(189),
uint16(189),
uint16(188),
uint16(190),
uint16(191),
uint16(191),
uint16(191),
uint16(191),
uint16(190),
uint16(190),
uint16(190),
uint16(190),
uint16(190),
uint16(195),
uint16(197),
uint16(199),
uint16(199),
uint16(198),
uint16(198),
uint16(196),
uint16(196),
uint16(203),
uint16(203),
uint16(205),
uint16(205),
uint16(206),
uint16(208),
uint16(208),
uint16(208),
uint16(209),
uint16(213),
uint16(214),
uint16(215),
uint16(215),
uint16(215),
uint16(215),
uint16(215),
uint16(215),
uint16(215),
uint16(215),
uint16(215),
uint16(215),
uint16(215),
uint16(215),
uint16(215),
uint16(224),
uint16(224),
uint16(220),
uint16(220),
uint16(222),
uint16(222),
uint16(225),
uint16(225),
uint16(225),
uint16(225),
uint16(226),
uint16(226),
uint16(226),
uint16(226),
uint16(226),
uint16(223),
uint16(223),
uint16(227),
uint16(227),
uint16(227),
uint16(202),
uint16(229),
uint16(230),
uint16(230),
uint16(230),
uint16(230),
uint16(230),
uint16(233),
uint16(218),
uint16(218),
uint16(234),
uint16(234),
uint16(235),
uint16(235),
uint16(190),
uint16(237),
uint16(237),
uint16(190),
uint16(190),
uint16(190),
uint16(204),
uint16(204),
uint16(204),
uint16(239),
uint16(242),
uint16(242),
uint16(242),
uint16(240),
uint16(240),
uint16(252),
uint16(252),
uint16(243),
uint16(243),
uint16(243),
uint16(254),
uint16(244),
uint16(244),
uint16(244),
uint16(255),
uint16(255),
uint16(245),
uint16(245),
uint16(257),
uint16(257),
uint16(256),
uint16(256),
uint16(256),
uint16(256),
uint16(256),
uint16(200),
uint16(200),
uint16(238),
uint16(238),
uint16(262),
uint16(262),
uint16(262),
uint16(262),
uint16(258),
uint16(258),
uint16(258),
uint16(258),
uint16(259),
uint16(259),
uint16(259),
uint16(264),
uint16(260),
uint16(260),
uint16(249),
uint16(249),
uint16(231),
uint16(231),
uint16(219),
uint16(219),
uint16(219),
uint16(265),
uint16(265),
uint16(265),
uint16(247),
uint16(247),
uint16(248),
uint16(248),
uint16(250),
uint16(250),
uint16(250),
uint16(250),
uint16(190),
uint16(246),
uint16(246),
uint16(267),
uint16(267),
uint16(267),
uint16(267),
uint16(190),
uint16(268),
uint16(268),
uint16(268),
uint16(268),
uint16(190),
uint16(190),
uint16(271),
uint16(271),
uint16(271),
uint16(271),
uint16(271),
uint16(271),
uint16(272),
uint16(269),
uint16(269),
uint16(270),
uint16(270),
uint16(263),
uint16(263),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(216),
uint16(216),
uint16(216),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(216),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(274),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(275),
uint16(275),
uint16(217),
uint16(276),
uint16(276),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(217),
uint16(279),
uint16(279),
uint16(280),
uint16(280),
uint16(278),
uint16(278),
uint16(261),
uint16(253),
uint16(253),
uint16(277),
uint16(277),
uint16(190),
uint16(281),
uint16(281),
uint16(221),
uint16(221),
uint16(232),
uint16(232),
uint16(282),
uint16(282),
uint16(190),
uint16(190),
uint16(190),
uint16(283),
uint16(283),
uint16(190),
uint16(190),
uint16(190),
uint16(190),
uint16(190),
uint16(211),
uint16(212),
uint16(190),
uint16(285),
uint16(287),
uint16(287),
uint16(287),
uint16(288),
uint16(288),
uint16(288),
uint16(290),
uint16(290),
uint16(286),
uint16(286),
uint16(292),
uint16(293),
uint16(293),
uint16(291),
uint16(291),
uint16(291),
uint16(291),
uint16(217),
uint16(217),
uint16(236),
uint16(236),
uint16(236),
uint16(190),
uint16(190),
uint16(190),
uint16(295),
uint16(295),
uint16(190),
uint16(190),
uint16(190),
uint16(190),
uint16(190),
uint16(190),
uint16(190),
uint16(296),
uint16(190),
uint16(190),
uint16(190),
uint16(298),
uint16(300),
uint16(301),
uint16(301),
uint16(302),
uint16(266),
uint16(266),
uint16(305),
uint16(305),
uint16(305),
uint16(304),
uint16(241),
uint16(241),
uint16(306),
uint16(306),
uint16(307),
uint16(308),
uint16(308),
uint16(308),
uint16(308),
uint16(308),
uint16(308),
uint16(309),
uint16(309),
uint16(309),
uint16(313),
uint16(315),
uint16(315),
uint16(316),
uint16(316),
uint16(314),
uint16(314),
uint16(317),
uint16(317),
uint16(318),
uint16(318),
uint16(318),
uint16(251),
uint16(273),
uint16(273),
uint16(273),
uint16(312),
uint16(312),
uint16(311),
uint16(185),
uint16(186),
uint16(186),
uint16(187),
uint16(187),
uint16(187),
uint16(192),
uint16(192),
uint16(192),
uint16(194),
uint16(194),
uint16(190),
uint16(203),
uint16(201),
uint16(201),
uint16(193),
uint16(193),
uint16(193),
uint16(208),
uint16(209),
uint16(210),
uint16(210),
uint16(207),
uint16(207),
uint16(215),
uint16(215),
uint16(215),
uint16(202),
uint16(228),
uint16(228),
uint16(229),
uint16(233),
uint16(235),
uint16(239),
uint16(240),
uint16(254),
uint16(255),
uint16(264),
uint16(272),
uint16(217),
uint16(274),
uint16(261),
uint16(284),
uint16(284),
uint16(284),
uint16(284),
uint16(284),
uint16(211),
uint16(289),
uint16(289),
uint16(292),
uint16(293),
uint16(294),
uint16(294),
uint16(297),
uint16(297),
uint16(299),
uint16(299),
uint16(300),
uint16(303),
uint16(303),
uint16(303),
uint16(266),
}
var yyRuleInfoNRhs = [405]int8{
int8(-1),
int8(-3),
int8(-1),
int8(-3),
int8(0),
int8(-1),
int8(-1),
int8(-1),
int8(-2),
int8(-2),
int8(-2),
int8(-3),
int8(-5),
int8(-6),
int8(-1),
int8(0),
int8(-3),
int8(-1),
int8(0),
int8(-5),
int8(-2),
int8(0),
int8(-3),
int8(-2),
int8(-1),
int8(-2),
int8(0),
int8(-4),
int8(-6),
int8(-2),
int8(0),
int8(0),
int8(-2),
int8(-3),
int8(-4),
int8(-4),
int8(-4),
int8(-3),
int8(-3),
int8(-5),
int8(-2),
int8(-4),
int8(-4),
int8(-1),
int8(-2),
int8(-3),
int8(-4),
int8(0),
int8(-1),
int8(0),
int8(-2),
int8(-2),
int8(-3),
int8(-3),
int8(-3),
int8(-2),
int8(-2),
int8(-1),
int8(-1),
int8(-2),
int8(-3),
int8(-2),
int8(0),
int8(-2),
int8(-2),
int8(0),
int8(-1),
int8(-2),
int8(-7),
int8(-5),
int8(-5),
int8(-10),
int8(0),
int8(0),
int8(-3),
int8(0),
int8(-2),
int8(-1),
int8(-1),
int8(-4),
int8(-2),
int8(0),
int8(-9),
int8(-4),
int8(-1),
int8(-3),
int8(-4),
int8(-1),
int8(-3),
int8(-1),
int8(-2),
int8(-1),
int8(-9),
int8(-10),
int8(-4),
int8(-5),
int8(-1),
int8(-1),
int8(0),
int8(0),
int8(-5),
int8(-3),
int8(-5),
int8(-2),
int8(0),
int8(0),
int8(-2),
int8(-2),
int8(0),
int8(-5),
int8(-6),
int8(-8),
int8(-6),
int8(-6),
int8(0),
int8(-2),
int8(-1),
int8(-3),
int8(-1),
int8(-3),
int8(-5),
int8(-3),
int8(-1),
int8(-2),
int8(-3),
int8(-4),
int8(-2),
int8(-4),
int8(0),
int8(0),
int8(-3),
int8(-2),
int8(0),
int8(-3),
int8(-5),
int8(-3),
int8(-1),
int8(-1),
int8(0),
int8(-2),
int8(-2),
int8(0),
int8(0),
int8(-3),
int8(0),
int8(-2),
int8(0),
int8(-2),
int8(-4),
int8(-4),
int8(-6),
int8(0),
int8(-2),
int8(0),
int8(-2),
int8(-2),
int8(-4),
int8(-9),
int8(-5),
int8(-7),
int8(-3),
int8(-5),
int8(-7),
int8(-8),
int8(0),
int8(-2),
int8(-12),
int8(-9),
int8(-5),
int8(-8),
int8(-2),
int8(-2),
int8(-1),
int8(0),
int8(-3),
int8(-3),
int8(-1),
int8(-3),
int8(-1),
int8(-1),
int8(-3),
int8(-5),
int8(-1),
int8(-1),
int8(-1),
int8(-1),
int8(-3),
int8(-6),
int8(-5),
int8(-4),
int8(-6),
int8(-5),
int8(-1),
int8(-5),
int8(-3),
int8(-3),
int8(-3),
int8(-3),
int8(-3),
int8(-3),
int8(-3),
int8(-3),
int8(-2),
int8(-3),
int8(-5),
int8(-2),
int8(-3),
int8(-3),
int8(-4),
int8(-6),
int8(-5),
int8(-2),
int8(-2),
int8(-2),
int8(-3),
int8(-1),
int8(-2),
int8(-5),
int8(-1),
int8(-2),
int8(-5),
int8(-3),
int8(-5),
int8(-5),
int8(-4),
int8(-5),
int8(-5),
int8(-4),
int8(-2),
int8(0),
int8(-1),
int8(0),
int8(0),
int8(-3),
int8(-1),
int8(0),
int8(-3),
int8(-12),
int8(-1),
int8(0),
int8(0),
int8(-3),
int8(-5),
int8(-3),
int8(0),
int8(-2),
int8(-4),
int8(-2),
int8(-3),
int8(-2),
int8(0),
int8(-3),
int8(-5),
int8(-6),
int8(-5),
int8(-6),
int8(-2),
int8(-2),
int8(-5),
int8(-11),
int8(-1),
int8(-2),
int8(0),
int8(-1),
int8(-1),
int8(-3),
int8(0),
int8(-2),
int8(-3),
int8(-2),
int8(-3),
int8(-3),
int8(-2),
int8(-9),
int8(-8),
int8(-6),
int8(-3),
int8(-4),
int8(-6),
int8(-1),
int8(-1),
int8(-1),
int8(-4),
int8(-6),
int8(-3),
int8(0),
int8(-2),
int8(-1),
int8(-3),
int8(-1),
int8(-3),
int8(-6),
int8(-7),
int8(-6),
int8(-1),
int8(-8),
int8(-1),
int8(-4),
int8(-8),
int8(0),
int8(-1),
int8(-3),
int8(-1),
int8(-2),
int8(-3),
int8(-1),
int8(-2),
int8(-3),
int8(-6),
int8(-1),
int8(-3),
int8(-1),
int8(-3),
int8(-5),
int8(-5),
int8(-6),
int8(-4),
int8(-5),
int8(-1),
int8(-2),
int8(0),
int8(-3),
int8(-6),
int8(-1),
int8(-1),
int8(-2),
int8(-1),
int8(-2),
int8(-2),
int8(-2),
int8(0),
int8(-2),
int8(-2),
int8(-2),
int8(-1),
int8(-2),
int8(-2),
int8(-1),
int8(-1),
int8(-4),
int8(-2),
int8(-5),
int8(-1),
int8(-2),
int8(-1),
int8(-1),
int8(-2),
int8(-3),
int8(0),
int8(-1),
int8(-2),
int8(-1),
int8(0),
int8(-2),
int8(-1),
int8(-4),
int8(-2),
int8(-1),
int8(-1),
int8(-1),
int8(-1),
int8(-1),
int8(-1),
int8(-1),
int8(-2),
int8(0),
int8(-2),
int8(-4),
int8(-2),
int8(-2),
int8(-3),
int8(-1),
int8(0),
int8(-1),
int8(-1),
int8(-1),
int8(-1),
int8(-2),
int8(-1),
int8(-1),
int8(0),
int8(-1),
int8(-1),
int8(-1),
int8(-1),
int8(-1),
int8(-1),
int8(-1),
int8(-1),
int8(-1),
int8(0),
int8(-3),
int8(-1),
int8(0),
int8(-1),
int8(0),
int8(0),
int8(-1),
int8(-1),
int8(-3),
int8(-2),
int8(0),
int8(-4),
int8(-2),
int8(0),
}
func yy_reduce(tls *libc.TLS, yypParser uintptr, yyruleno uint32, yyLookahead int32, yyLookaheadToken Token, pParse uintptr) uint16 {
bp := tls.Alloc(160)
defer tls.Free(160)
var yygoto int32
var yyact uint16
var yymsp uintptr
var yysize int32
_ = yyLookahead
_ = yyLookaheadToken
yymsp = (*YyParser)(unsafe.Pointer(yypParser)).Fyytos
{
switch yyruleno {
case uint32(0):
{
(*Parse)(unsafe.Pointer(pParse)).Fexplain = U8(1)
}
break
case uint32(1):
{
(*Parse)(unsafe.Pointer(pParse)).Fexplain = U8(2)
}
break
case uint32(2):
{
Xsqlite3FinishCoding(tls, pParse)
}
break
case uint32(3):
{
Xsqlite3BeginTransaction(tls, pParse, *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
break
case uint32(4):
{
*(*int32)(unsafe.Pointer(yymsp + 1*24 + 8)) = TK_DEFERRED
}
break
case uint32(5):
fallthrough
case uint32(6):
fallthrough
case uint32(7):
fallthrough
case uint32(323):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = int32((*YyStackEntry)(unsafe.Pointer(yymsp)).Fmajor)
}
break
case uint32(8):
fallthrough
case uint32(9):
{
Xsqlite3EndTransaction(tls, pParse, int32((*YyStackEntry)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24)).Fmajor))
}
break
case uint32(10):
{
Xsqlite3Savepoint(tls, pParse, SAVEPOINT_BEGIN, yymsp+8)
}
break
case uint32(11):
{
Xsqlite3Savepoint(tls, pParse, SAVEPOINT_RELEASE, yymsp+8)
}
break
case uint32(12):
{
Xsqlite3Savepoint(tls, pParse, SAVEPOINT_ROLLBACK, yymsp+8)
}
break
case uint32(13):
{
Xsqlite3StartTable(tls, pParse, yymsp+libc.UintptrFromInt32(-1)*24+8, yymsp+8, *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), 0, 0, *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
}
break
case uint32(14):
{
disableLookaside(tls, pParse)
}
break
case uint32(15):
fallthrough
case uint32(18):
fallthrough
case uint32(47):
fallthrough
case uint32(62):
fallthrough
case uint32(72):
fallthrough
case uint32(81):
fallthrough
case uint32(98):
fallthrough
case uint32(244):
{
*(*int32)(unsafe.Pointer(yymsp + 1*24 + 8)) = 0
}
break
case uint32(16):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = 1
}
break
case uint32(17):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = libc.Bool32(int32((*Sqlite3)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).Fdb)).Finit.Fbusy) == 0)
}
break
case uint32(19):
{
Xsqlite3EndTable(tls, pParse, yymsp+libc.UintptrFromInt32(-2)*24+8, yymsp+libc.UintptrFromInt32(-1)*24+8, *(*U32)(unsafe.Pointer(yymsp + 8)), uintptr(0))
}
break
case uint32(20):
{
Xsqlite3EndTable(tls, pParse, uintptr(0), uintptr(0), uint32(0), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
Xsqlite3SelectDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(21):
{
*(*U32)(unsafe.Pointer(yymsp + 1*24 + 8)) = U32(0)
}
break
case uint32(22):
{
*(*U32)(unsafe.Pointer(bp + 40)) = *(*U32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) | *(*U32)(unsafe.Pointer(yymsp + 8))
}
*(*U32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*U32)(unsafe.Pointer(bp + 40))
break
case uint32(23):
{
if (*Token)(unsafe.Pointer(yymsp+8)).Fn == uint32(5) && Xsqlite3_strnicmp(tls, (*Token)(unsafe.Pointer(yymsp+8)).Fz, ts+16673, 5) == 0 {
*(*U32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = U32(TF_WithoutRowid | TF_NoVisibleRowid)
} else {
*(*U32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = U32(0)
Xsqlite3ErrorMsg(tls, pParse, ts+23418, libc.VaList(bp, (*Token)(unsafe.Pointer(yymsp+8)).Fn, (*Token)(unsafe.Pointer(yymsp+8)).Fz))
}
}
break
case uint32(24):
{
if (*Token)(unsafe.Pointer(yymsp+8)).Fn == uint32(6) && Xsqlite3_strnicmp(tls, (*Token)(unsafe.Pointer(yymsp+8)).Fz, ts+16586, 6) == 0 {
*(*U32)(unsafe.Pointer(bp + 40)) = U32(TF_Strict)
} else {
*(*U32)(unsafe.Pointer(bp + 40)) = U32(0)
Xsqlite3ErrorMsg(tls, pParse, ts+23418, libc.VaList(bp+16, (*Token)(unsafe.Pointer(yymsp+8)).Fn, (*Token)(unsafe.Pointer(yymsp+8)).Fz))
}
}
*(*U32)(unsafe.Pointer(yymsp + 8)) = *(*U32)(unsafe.Pointer(bp + 40))
break
case uint32(25):
{
Xsqlite3AddColumn(tls, pParse, *(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*Token)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(26):
fallthrough
case uint32(65):
fallthrough
case uint32(104):
{
(*Token)(unsafe.Pointer(yymsp + 1*24 + 8)).Fn = uint32(0)
(*Token)(unsafe.Pointer(yymsp + 1*24 + 8)).Fz = uintptr(0)
}
break
case uint32(27):
{
(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)).Fn = uint32(int32((int64((*Token)(unsafe.Pointer(yymsp+8)).Fz+uintptr((*Token)(unsafe.Pointer(yymsp+8)).Fn)) - int64((*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-3)*24+8)).Fz)) / 1))
}
break
case uint32(28):
{
(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)).Fn = uint32(int32((int64((*Token)(unsafe.Pointer(yymsp+8)).Fz+uintptr((*Token)(unsafe.Pointer(yymsp+8)).Fn)) - int64((*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-5)*24+8)).Fz)) / 1))
}
break
case uint32(29):
{
(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)).Fn = (*Token)(unsafe.Pointer(yymsp+8)).Fn + uint32(int32((int64((*Token)(unsafe.Pointer(yymsp+8)).Fz)-int64((*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).Fz))/1))
}
break
case uint32(30):
{
*(*uintptr)(unsafe.Pointer(yymsp + 1*24 + 8)) = yyLookaheadToken.Fz
}
break
case uint32(31):
{
*(*Token)(unsafe.Pointer(yymsp + 1*24 + 8)) = yyLookaheadToken
}
break
case uint32(32):
fallthrough
case uint32(67):
{
(*Parse)(unsafe.Pointer(pParse)).FconstraintName = *(*Token)(unsafe.Pointer(yymsp + 8))
}
break
case uint32(33):
{
Xsqlite3AddDefaultValue(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).Fz, (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).Fz+uintptr((*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).Fn))
}
break
case uint32(34):
{
Xsqlite3AddDefaultValue(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-2)*24+8)).Fz+uintptr(1), (*Token)(unsafe.Pointer(yymsp+8)).Fz)
}
break
case uint32(35):
{
Xsqlite3AddDefaultValue(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-2)*24+8)).Fz, (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).Fz+uintptr((*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).Fn))
}
break
case uint32(36):
{
var p uintptr = Xsqlite3PExpr(tls, pParse, TK_UMINUS, *(*uintptr)(unsafe.Pointer(yymsp + 8)), uintptr(0))
Xsqlite3AddDefaultValue(tls, pParse, p, (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-2)*24+8)).Fz, (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).Fz+uintptr((*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).Fn))
}
break
case uint32(37):
{
var p uintptr = tokenExpr(tls, pParse, TK_STRING, *(*Token)(unsafe.Pointer(yymsp + 8)))
if p != 0 {
Xsqlite3ExprIdToTrueFalse(tls, p)
}
Xsqlite3AddDefaultValue(tls, pParse, p, (*Token)(unsafe.Pointer(yymsp+8)).Fz, (*Token)(unsafe.Pointer(yymsp+8)).Fz+uintptr((*Token)(unsafe.Pointer(yymsp+8)).Fn))
}
break
case uint32(38):
{
Xsqlite3AddNotNull(tls, pParse, *(*int32)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(39):
{
Xsqlite3AddPrimaryKey(tls, pParse, uintptr(0), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
}
break
case uint32(40):
{
Xsqlite3CreateIndex(tls, pParse, uintptr(0), uintptr(0), uintptr(0), uintptr(0), *(*int32)(unsafe.Pointer(yymsp + 8)), uintptr(0), uintptr(0), 0, 0,
uint8(SQLITE_IDXTYPE_UNIQUE))
}
break
case uint32(41):
{
Xsqlite3AddCheckConstraint(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-2)*24+8)).Fz, (*Token)(unsafe.Pointer(yymsp+8)).Fz)
}
break
case uint32(42):
{
Xsqlite3CreateForeignKey(tls, pParse, uintptr(0), yymsp+libc.UintptrFromInt32(-2)*24+8, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(43):
{
Xsqlite3DeferForeignKey(tls, pParse, *(*int32)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(44):
{
Xsqlite3AddCollateType(tls, pParse, yymsp+8)
}
break
case uint32(45):
{
Xsqlite3AddGenerated(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), uintptr(0))
}
break
case uint32(46):
{
Xsqlite3AddGenerated(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), yymsp+8)
}
break
case uint32(48):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = 1
}
break
case uint32(49):
{
*(*int32)(unsafe.Pointer(yymsp + 1*24 + 8)) = OE_None * 0x0101
}
break
case uint32(50):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) & ^*(*int32)(unsafe.Pointer(yymsp + 8 + 4)) | *(*int32)(unsafe.Pointer(yymsp + 8))
}
break
case uint32(51):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = 0
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8 + 4)) = 0x000000
}
break
case uint32(52):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = 0
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8 + 4)) = 0x000000
}
break
case uint32(53):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*int32)(unsafe.Pointer(yymsp + 8))
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8 + 4)) = 0x0000ff
}
break
case uint32(54):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*int32)(unsafe.Pointer(yymsp + 8)) << 8
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8 + 4)) = 0x00ff00
}
break
case uint32(55):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = OE_SetNull
}
break
case uint32(56):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = OE_SetDflt
}
break
case uint32(57):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = OE_Cascade
}
break
case uint32(58):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = OE_Restrict
}
break
case uint32(59):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = OE_None
}
break
case uint32(60):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = 0
}
break
case uint32(61):
fallthrough
case uint32(76):
fallthrough
case uint32(171):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*int32)(unsafe.Pointer(yymsp + 8))
}
break
case uint32(63):
fallthrough
case uint32(80):
fallthrough
case uint32(216):
fallthrough
case uint32(219):
fallthrough
case uint32(245):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = 1
}
break
case uint32(64):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = 0
}
break
case uint32(66):
{
(*Parse)(unsafe.Pointer(pParse)).FconstraintName.Fn = uint32(0)
}
break
case uint32(68):
{
Xsqlite3AddPrimaryKey(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), 0)
}
break
case uint32(69):
{
Xsqlite3CreateIndex(tls, pParse, uintptr(0), uintptr(0), uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + 8)), uintptr(0), uintptr(0), 0, 0,
uint8(SQLITE_IDXTYPE_UNIQUE))
}
break
case uint32(70):
{
Xsqlite3AddCheckConstraint(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-3)*24+8)).Fz, (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).Fz)
}
break
case uint32(71):
{
Xsqlite3CreateForeignKey(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-6)*24 + 8)), yymsp+libc.UintptrFromInt32(-3)*24+8, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
Xsqlite3DeferForeignKey(tls, pParse, *(*int32)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(73):
fallthrough
case uint32(75):
{
*(*int32)(unsafe.Pointer(yymsp + 1*24 + 8)) = OE_Default
}
break
case uint32(74):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*int32)(unsafe.Pointer(yymsp + 8))
}
break
case uint32(77):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = OE_Ignore
}
break
case uint32(78):
fallthrough
case uint32(172):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = OE_Replace
}
break
case uint32(79):
{
Xsqlite3DropTable(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), 0, *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
break
case uint32(82):
{
Xsqlite3CreateView(tls, pParse, yymsp+libc.UintptrFromInt32(-8)*24+8, yymsp+libc.UintptrFromInt32(-4)*24+8, yymsp+libc.UintptrFromInt32(-3)*24+8, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-7)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)))
}
break
case uint32(83):
{
Xsqlite3DropTable(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), 1, *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
break
case uint32(84):
{
*(*SelectDest)(unsafe.Pointer(bp + 56)) = SelectDest{FeDest: U8(SRT_Output)}
Xsqlite3Select(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), bp+56)
Xsqlite3SelectDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(85):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = attachWithToSelect(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
break
case uint32(86):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = attachWithToSelect(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
break
case uint32(87):
{
var p uintptr = *(*uintptr)(unsafe.Pointer(yymsp + 8))
if p != 0 {
parserDoubleLinkSelect(tls, pParse, p)
}
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = p
}
break
case uint32(88):
{
var pRhs uintptr = *(*uintptr)(unsafe.Pointer(yymsp + 8))
var pLhs uintptr = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8))
if pRhs != 0 && (*Select)(unsafe.Pointer(pRhs)).FpPrior != 0 {
var pFrom uintptr
(*Token)(unsafe.Pointer(bp + 96)).Fn = uint32(0)
parserDoubleLinkSelect(tls, pParse, pRhs)
pFrom = Xsqlite3SrcListAppendFromTerm(tls, pParse, uintptr(0), uintptr(0), uintptr(0), bp+96, pRhs, uintptr(0))
pRhs = Xsqlite3SelectNew(tls, pParse, uintptr(0), pFrom, uintptr(0), uintptr(0), uintptr(0), uintptr(0), uint32(0), uintptr(0))
}
if pRhs != 0 {
(*Select)(unsafe.Pointer(pRhs)).Fop = U8(*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
(*Select)(unsafe.Pointer(pRhs)).FpPrior = pLhs
if pLhs != 0 {
*(*U32)(unsafe.Pointer(pLhs + 4)) &= libc.Uint32FromInt32(libc.CplInt32(SF_MultiValue))
}
*(*U32)(unsafe.Pointer(pRhs + 4)) &= libc.Uint32FromInt32(libc.CplInt32(SF_MultiValue))
if *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) != TK_ALL {
(*Parse)(unsafe.Pointer(pParse)).FhasCompound = U8(1)
}
} else {
Xsqlite3SelectDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pLhs)
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = pRhs
}
break
case uint32(89):
fallthrough
case uint32(91):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = int32((*YyStackEntry)(unsafe.Pointer(yymsp)).Fmajor)
}
break
case uint32(90):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = TK_ALL
}
break
case uint32(92):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-8)*24 + 8)) = Xsqlite3SelectNew(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-6)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), uint32(*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-7)*24 + 8))), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(93):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-9)*24 + 8)) = Xsqlite3SelectNew(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-7)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-6)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), uint32(*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-8)*24 + 8))), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-9)*24 + 8)) != 0 {
(*Select)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-9)*24 + 8)))).FpWinDefn = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8))
} else {
Xsqlite3WindowListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
}
}
break
case uint32(94):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = Xsqlite3SelectNew(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), uintptr(0), uintptr(0), uintptr(0), uintptr(0), uintptr(0), uint32(SF_Values), uintptr(0))
}
break
case uint32(95):
{
var pRight uintptr
var pLeft uintptr = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8))
pRight = Xsqlite3SelectNew(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), uintptr(0), uintptr(0), uintptr(0), uintptr(0), uintptr(0), uint32(SF_Values|SF_MultiValue), uintptr(0))
if pLeft != 0 {
*(*U32)(unsafe.Pointer(pLeft + 4)) &= libc.Uint32FromInt32(libc.CplInt32(SF_MultiValue))
}
if pRight != 0 {
(*Select)(unsafe.Pointer(pRight)).Fop = U8(TK_ALL)
(*Select)(unsafe.Pointer(pRight)).FpPrior = pLeft
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = pRight
} else {
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = pLeft
}
}
break
case uint32(96):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = SF_Distinct
}
break
case uint32(97):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = SF_All
}
break
case uint32(99):
fallthrough
case uint32(132):
fallthrough
case uint32(142):
fallthrough
case uint32(232):
fallthrough
case uint32(235):
fallthrough
case uint32(240):
{
*(*uintptr)(unsafe.Pointer(yymsp + 1*24 + 8)) = uintptr(0)
}
break
case uint32(100):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3ExprListAppend(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
if (*Token)(unsafe.Pointer(yymsp+8)).Fn > uint32(0) {
Xsqlite3ExprListSetName(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), yymsp+8, 1)
}
Xsqlite3ExprListSetSpan(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
break
case uint32(101):
{
var p uintptr = Xsqlite3Expr(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, TK_ASTERISK, uintptr(0))
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3ExprListAppend(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), p)
}
break
case uint32(102):
{
var pRight uintptr = Xsqlite3PExpr(tls, pParse, TK_ASTERISK, uintptr(0), uintptr(0))
var pLeft uintptr = tokenExpr(tls, pParse, TK_ID, *(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
var pDot uintptr = Xsqlite3PExpr(tls, pParse, TK_DOT, pLeft, pRight)
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3ExprListAppend(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), pDot)
}
break
case uint32(103):
fallthrough
case uint32(115):
fallthrough
case uint32(256):
fallthrough
case uint32(257):
{
*(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*Token)(unsafe.Pointer(yymsp + 8))
}
break
case uint32(105):
fallthrough
case uint32(108):
{
*(*uintptr)(unsafe.Pointer(yymsp + 1*24 + 8)) = uintptr(0)
}
break
case uint32(106):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*uintptr)(unsafe.Pointer(yymsp + 8))
Xsqlite3SrcListShiftJoinType(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
break
case uint32(107):
{
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) != 0 && (*SrcList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))).FnSrc > 0 {
(*SrcItem)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) + 8 + uintptr((*SrcList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))).FnSrc-1)*104)).Ffg.Fjointype = U8(*(*int32)(unsafe.Pointer(yymsp + 8)))
}
}
break
case uint32(109):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3SrcListAppendFromTerm(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), yymsp+libc.UintptrFromInt32(-3)*24+8, yymsp+libc.UintptrFromInt32(-2)*24+8, yymsp+libc.UintptrFromInt32(-1)*24+8, uintptr(0), yymsp+8)
}
break
case uint32(110):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) = Xsqlite3SrcListAppendFromTerm(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), yymsp+libc.UintptrFromInt32(-4)*24+8, yymsp+libc.UintptrFromInt32(-3)*24+8, yymsp+libc.UintptrFromInt32(-2)*24+8, uintptr(0), yymsp+8)
Xsqlite3SrcListIndexedBy(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), yymsp+libc.UintptrFromInt32(-1)*24+8)
}
break
case uint32(111):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-7)*24 + 8)) = Xsqlite3SrcListAppendFromTerm(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-7)*24 + 8)), yymsp+libc.UintptrFromInt32(-6)*24+8, yymsp+libc.UintptrFromInt32(-5)*24+8, yymsp+libc.UintptrFromInt32(-1)*24+8, uintptr(0), yymsp+8)
Xsqlite3SrcListFuncArgs(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-7)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)))
}
break
case uint32(112):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) = Xsqlite3SrcListAppendFromTerm(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), uintptr(0), uintptr(0), yymsp+libc.UintptrFromInt32(-1)*24+8, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), yymsp+8)
}
break
case uint32(113):
{
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) == uintptr(0) && (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).Fn == uint32(0) && (*OnOrUsing)(unsafe.Pointer(yymsp+8)).FpOn == uintptr(0) && (*OnOrUsing)(unsafe.Pointer(yymsp+8)).FpUsing == uintptr(0) {
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8))
} else if (*SrcList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)))).FnSrc == 1 {
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) = Xsqlite3SrcListAppendFromTerm(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), uintptr(0), uintptr(0), yymsp+libc.UintptrFromInt32(-1)*24+8, uintptr(0), yymsp+8)
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) != 0 {
var pNew uintptr = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) + 8 + uintptr((*SrcList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)))).FnSrc-1)*104
var pOld uintptr = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) + 8
(*SrcItem)(unsafe.Pointer(pNew)).FzName = (*SrcItem)(unsafe.Pointer(pOld)).FzName
(*SrcItem)(unsafe.Pointer(pNew)).FzDatabase = (*SrcItem)(unsafe.Pointer(pOld)).FzDatabase
(*SrcItem)(unsafe.Pointer(pNew)).FpSelect = (*SrcItem)(unsafe.Pointer(pOld)).FpSelect
if (*SrcItem)(unsafe.Pointer(pNew)).FpSelect != 0 && (*Select)(unsafe.Pointer((*SrcItem)(unsafe.Pointer(pNew)).FpSelect)).FselFlags&U32(SF_NestedFrom) != U32(0) {
libc.SetBitFieldPtr16Uint32(pNew+60+4, uint32(1), 13, 0x2000)
}
if uint32(int32(*(*uint16)(unsafe.Pointer(pOld + 60 + 4))&0x4>>2)) != 0 {
*(*uintptr)(unsafe.Pointer(pNew + 88)) = *(*uintptr)(unsafe.Pointer(pOld + 88))
*(*uintptr)(unsafe.Pointer(pOld + 88)) = uintptr(0)
libc.SetBitFieldPtr16Uint32(pOld+60+4, uint32(0), 2, 0x4)
libc.SetBitFieldPtr16Uint32(pNew+60+4, uint32(1), 2, 0x4)
}
(*SrcItem)(unsafe.Pointer(pOld)).FzName = libc.AssignPtrUintptr(pOld+8, uintptr(0))
(*SrcItem)(unsafe.Pointer(pOld)).FpSelect = uintptr(0)
}
Xsqlite3SrcListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)))
} else {
var pSubquery uintptr
Xsqlite3SrcListShiftJoinType(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)))
pSubquery = Xsqlite3SelectNew(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), uintptr(0), uintptr(0), uintptr(0), uintptr(0), uint32(SF_NestedFrom), uintptr(0))
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) = Xsqlite3SrcListAppendFromTerm(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), uintptr(0), uintptr(0), yymsp+libc.UintptrFromInt32(-1)*24+8, pSubquery, yymsp+8)
}
}
break
case uint32(114):
fallthrough
case uint32(129):
{
(*Token)(unsafe.Pointer(yymsp + 1*24 + 8)).Fz = uintptr(0)
(*Token)(unsafe.Pointer(yymsp + 1*24 + 8)).Fn = uint32(0)
}
break
case uint32(116):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3SrcListAppend(tls, pParse, uintptr(0), yymsp+8, uintptr(0))
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME && *(*uintptr)(unsafe.Pointer(bp + 40)) != 0 {
Xsqlite3RenameTokenMap(tls, pParse, (*SrcItem)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 40))+8)).FzName, yymsp+8)
}
}
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(117):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3SrcListAppend(tls, pParse, uintptr(0), yymsp+libc.UintptrFromInt32(-2)*24+8, yymsp+8)
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME && *(*uintptr)(unsafe.Pointer(bp + 40)) != 0 {
Xsqlite3RenameTokenMap(tls, pParse, (*SrcItem)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 40))+8)).FzName, yymsp+8)
}
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(118):
{
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = Xsqlite3SrcListAppend(tls, pParse, uintptr(0), yymsp+8, uintptr(0))
}
break
case uint32(119):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3SrcListAppend(tls, pParse, uintptr(0), yymsp+libc.UintptrFromInt32(-2)*24+8, yymsp+8)
}
break
case uint32(120):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3SrcListAppend(tls, pParse, uintptr(0), yymsp+libc.UintptrFromInt32(-4)*24+8, yymsp+libc.UintptrFromInt32(-2)*24+8)
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) != 0 {
(*SrcItem)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) + 8)).FzAlias = Xsqlite3NameFromToken(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, yymsp+8)
}
}
break
case uint32(121):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3SrcListAppend(tls, pParse, uintptr(0), yymsp+libc.UintptrFromInt32(-2)*24+8, uintptr(0))
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) != 0 {
(*SrcItem)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) + 8)).FzAlias = Xsqlite3NameFromToken(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, yymsp+8)
}
}
break
case uint32(122):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = JT_INNER
}
break
case uint32(123):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = Xsqlite3JoinType(tls, pParse, yymsp+libc.UintptrFromInt32(-1)*24+8, uintptr(0), uintptr(0))
}
break
case uint32(124):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3JoinType(tls, pParse, yymsp+libc.UintptrFromInt32(-2)*24+8, yymsp+libc.UintptrFromInt32(-1)*24+8, uintptr(0))
}
break
case uint32(125):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = Xsqlite3JoinType(tls, pParse, yymsp+libc.UintptrFromInt32(-3)*24+8, yymsp+libc.UintptrFromInt32(-2)*24+8, yymsp+libc.UintptrFromInt32(-1)*24+8)
}
break
case uint32(126):
{
(*OnOrUsing)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)).FpOn = *(*uintptr)(unsafe.Pointer(yymsp + 8))
(*OnOrUsing)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)).FpUsing = uintptr(0)
}
break
case uint32(127):
{
(*OnOrUsing)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)).FpOn = uintptr(0)
(*OnOrUsing)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)).FpUsing = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8))
}
break
case uint32(128):
{
(*OnOrUsing)(unsafe.Pointer(yymsp + 1*24 + 8)).FpOn = uintptr(0)
(*OnOrUsing)(unsafe.Pointer(yymsp + 1*24 + 8)).FpUsing = uintptr(0)
}
break
case uint32(130):
{
*(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*Token)(unsafe.Pointer(yymsp + 8))
}
break
case uint32(131):
{
(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)).Fz = uintptr(0)
(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)).Fn = uint32(1)
}
break
case uint32(133):
fallthrough
case uint32(143):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(yymsp + 8))
}
break
case uint32(134):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3ExprListAppend(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
Xsqlite3ExprListSetSortOrder(tls, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(135):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3ExprListAppend(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
Xsqlite3ExprListSetSortOrder(tls, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(136):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = SQLITE_SO_ASC
}
break
case uint32(137):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = SQLITE_SO_DESC
}
break
case uint32(138):
fallthrough
case uint32(141):
{
*(*int32)(unsafe.Pointer(yymsp + 1*24 + 8)) = -1
}
break
case uint32(139):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = SQLITE_SO_ASC
}
break
case uint32(140):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = SQLITE_SO_DESC
}
break
case uint32(144):
fallthrough
case uint32(146):
fallthrough
case uint32(151):
fallthrough
case uint32(153):
fallthrough
case uint32(229):
fallthrough
case uint32(231):
fallthrough
case uint32(250):
{
*(*uintptr)(unsafe.Pointer(yymsp + 1*24 + 8)) = uintptr(0)
}
break
case uint32(145):
fallthrough
case uint32(152):
fallthrough
case uint32(154):
fallthrough
case uint32(228):
fallthrough
case uint32(249):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*uintptr)(unsafe.Pointer(yymsp + 8))
}
break
case uint32(147):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_LIMIT, *(*uintptr)(unsafe.Pointer(yymsp + 8)), uintptr(0))
}
break
case uint32(148):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_LIMIT, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(149):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_LIMIT, *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
}
break
case uint32(150):
{
Xsqlite3SrcListIndexedBy(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), yymsp+libc.UintptrFromInt32(-1)*24+8)
Xsqlite3DeleteFrom(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)), uintptr(0), uintptr(0))
}
break
case uint32(155):
{
Xsqlite3AddReturning(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = uintptr(0)
}
break
case uint32(156):
{
Xsqlite3AddReturning(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8))
}
break
case uint32(157):
{
Xsqlite3SrcListIndexedBy(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), yymsp+libc.UintptrFromInt32(-4)*24+8)
Xsqlite3ExprListCheckLength(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), ts+23445)
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) != 0 {
var pFromClause uintptr = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8))
if (*SrcList)(unsafe.Pointer(pFromClause)).FnSrc > 1 {
var pSubquery uintptr
pSubquery = Xsqlite3SelectNew(tls, pParse, uintptr(0), pFromClause, uintptr(0), uintptr(0), uintptr(0), uintptr(0), uint32(SF_NestedFrom), uintptr(0))
(*Token)(unsafe.Pointer(bp + 112)).Fn = uint32(0)
(*Token)(unsafe.Pointer(bp + 112)).Fz = uintptr(0)
pFromClause = Xsqlite3SrcListAppendFromTerm(tls, pParse, uintptr(0), uintptr(0), uintptr(0), bp+112, pSubquery, uintptr(0))
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) = Xsqlite3SrcListAppendList(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), pFromClause)
}
Xsqlite3Update(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-6)*24 + 8)), uintptr(0), uintptr(0), uintptr(0))
}
break
case uint32(158):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3ExprListAppend(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
Xsqlite3ExprListSetName(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), yymsp+libc.UintptrFromInt32(-2)*24+8, 1)
}
break
case uint32(159):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-6)*24 + 8)) = Xsqlite3ExprListAppendVector(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-6)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(160):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3ExprListAppend(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
Xsqlite3ExprListSetName(tls, pParse, *(*uintptr)(unsafe.Pointer(bp + 40)), yymsp+libc.UintptrFromInt32(-2)*24+8, 1)
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(161):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3ExprListAppendVector(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(162):
{
Xsqlite3Insert(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(163):
{
Xsqlite3Insert(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-6)*24 + 8)), uintptr(0))
}
break
case uint32(164):
{
*(*uintptr)(unsafe.Pointer(yymsp + 1*24 + 8)) = uintptr(0)
}
break
case uint32(165):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = uintptr(0)
Xsqlite3AddReturning(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(166):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-11)*24 + 8)) = Xsqlite3UpsertNew(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-8)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-6)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(167):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-8)*24 + 8)) = Xsqlite3UpsertNew(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), uintptr(0), uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(168):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3UpsertNew(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uintptr(0), uintptr(0), uintptr(0), uintptr(0), uintptr(0))
}
break
case uint32(169):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-7)*24 + 8)) = Xsqlite3UpsertNew(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uintptr(0), uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), uintptr(0))
}
break
case uint32(170):
{
Xsqlite3AddReturning(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(173):
{
*(*uintptr)(unsafe.Pointer(yymsp + 1*24 + 8)) = uintptr(0)
}
break
case uint32(174):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8))
}
break
case uint32(175):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3IdListAppend(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), yymsp+8)
}
break
case uint32(176):
{
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = Xsqlite3IdListAppend(tls, pParse, uintptr(0), yymsp+8)
}
break
case uint32(177):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8))
}
break
case uint32(178):
fallthrough
case uint32(179):
{
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = tokenExpr(tls, pParse, TK_ID, *(*Token)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(180):
{
var temp1 uintptr = tokenExpr(tls, pParse, TK_ID, *(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
var temp2 uintptr = tokenExpr(tls, pParse, TK_ID, *(*Token)(unsafe.Pointer(yymsp + 8)))
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3PExpr(tls, pParse, TK_DOT, temp1, temp2)
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(181):
{
var temp1 uintptr = tokenExpr(tls, pParse, TK_ID, *(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)))
var temp2 uintptr = tokenExpr(tls, pParse, TK_ID, *(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
var temp3 uintptr = tokenExpr(tls, pParse, TK_ID, *(*Token)(unsafe.Pointer(yymsp + 8)))
var temp4 uintptr = Xsqlite3PExpr(tls, pParse, TK_DOT, temp2, temp3)
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME {
Xsqlite3RenameTokenRemap(tls, pParse, uintptr(0), temp1)
}
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3PExpr(tls, pParse, TK_DOT, temp1, temp4)
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(182):
fallthrough
case uint32(183):
{
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = tokenExpr(tls, pParse, int32((*YyStackEntry)(unsafe.Pointer(yymsp)).Fmajor), *(*Token)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(184):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3ExprAlloc(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, TK_INTEGER, yymsp+8, 1)
if *(*uintptr)(unsafe.Pointer(bp + 40)) != 0 {
*(*int32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 40)) + 52)) = int32((int64((*Token)(unsafe.Pointer(yymsp+8)).Fz) - int64((*Parse)(unsafe.Pointer(pParse)).FzTail)) / 1)
}
}
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(185):
{
if !(int32(*(*int8)(unsafe.Pointer((*Token)(unsafe.Pointer(yymsp + 8)).Fz))) == '#' && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer((*Token)(unsafe.Pointer(yymsp+8)).Fz + 1)))])&0x04 != 0) {
var n U32 = (*Token)(unsafe.Pointer(yymsp + 8)).Fn
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = tokenExpr(tls, pParse, TK_VARIABLE, *(*Token)(unsafe.Pointer(yymsp + 8)))
Xsqlite3ExprAssignVarNumber(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), n)
} else {
*(*Token)(unsafe.Pointer(bp + 128)) = *(*Token)(unsafe.Pointer(yymsp + 8))
if int32((*Parse)(unsafe.Pointer(pParse)).Fnested) == 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+23454, libc.VaList(bp+32, bp+128))
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = uintptr(0)
} else {
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = Xsqlite3PExpr(tls, pParse, TK_REGISTER, uintptr(0), uintptr(0))
if *(*uintptr)(unsafe.Pointer(yymsp + 8)) != 0 {
Xsqlite3GetInt32(tls, (*Token)(unsafe.Pointer(bp+128)).Fz+1, *(*uintptr)(unsafe.Pointer(yymsp + 8))+44)
}
}
}
}
break
case uint32(186):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3ExprAddCollateToken(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), yymsp+8, 1)
}
break
case uint32(187):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) = Xsqlite3ExprAlloc(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, TK_CAST, yymsp+libc.UintptrFromInt32(-1)*24+8, 1)
Xsqlite3ExprAttachSubtrees(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), uintptr(0))
}
break
case uint32(188):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3ExprFunction(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), yymsp+libc.UintptrFromInt32(-4)*24+8, *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(189):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3ExprFunction(tls, pParse, uintptr(0), yymsp+libc.UintptrFromInt32(-3)*24+8, 0)
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(190):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3ExprFunction(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), yymsp+libc.UintptrFromInt32(-5)*24+8, *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)))
Xsqlite3WindowAttach(tls, pParse, *(*uintptr)(unsafe.Pointer(bp + 40)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(191):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3ExprFunction(tls, pParse, uintptr(0), yymsp+libc.UintptrFromInt32(-4)*24+8, 0)
Xsqlite3WindowAttach(tls, pParse, *(*uintptr)(unsafe.Pointer(bp + 40)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(192):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3ExprFunction(tls, pParse, uintptr(0), yymsp+8, 0)
}
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(193):
{
var pList uintptr = Xsqlite3ExprListAppend(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_VECTOR, uintptr(0), uintptr(0))
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) != 0 {
*(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) + 32)) = pList
if (*ExprList)(unsafe.Pointer(pList)).FnExpr != 0 {
*(*U32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) + 4)) |= (*Expr)(unsafe.Pointer((*ExprList_item)(unsafe.Pointer(pList+8)).FpExpr)).Fflags & U32(EP_Collate|EP_Subquery|EP_HasFunc)
}
} else {
Xsqlite3ExprListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pList)
}
}
break
case uint32(194):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3ExprAnd(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(195):
fallthrough
case uint32(196):
fallthrough
case uint32(197):
fallthrough
case uint32(198):
fallthrough
case uint32(199):
fallthrough
case uint32(200):
fallthrough
case uint32(201):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3PExpr(tls, pParse, int32((*YyStackEntry)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24)).Fmajor), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(202):
{
*(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*Token)(unsafe.Pointer(yymsp + 8))
*(*uint32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8 + 8)) |= 0x80000000
}
break
case uint32(203):
{
var pList uintptr
var bNot int32 = int32((*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).Fn & 0x80000000)
*(*uint32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8 + 8)) &= uint32(0x7fffffff)
pList = Xsqlite3ExprListAppend(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
pList = Xsqlite3ExprListAppend(tls, pParse, pList, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3ExprFunction(tls, pParse, pList, yymsp+libc.UintptrFromInt32(-1)*24+8, 0)
if bNot != 0 {
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_NOT, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), uintptr(0))
}
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) != 0 {
*(*U32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) + 4)) |= U32(EP_InfixFunc)
}
}
break
case uint32(204):
{
var pList uintptr
var bNot int32 = int32((*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-3)*24+8)).Fn & 0x80000000)
*(*uint32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8 + 8)) &= uint32(0x7fffffff)
pList = Xsqlite3ExprListAppend(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
pList = Xsqlite3ExprListAppend(tls, pParse, pList, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)))
pList = Xsqlite3ExprListAppend(tls, pParse, pList, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3ExprFunction(tls, pParse, pList, yymsp+libc.UintptrFromInt32(-3)*24+8, 0)
if bNot != 0 {
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_NOT, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), uintptr(0))
}
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) != 0 {
*(*U32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) + 4)) |= U32(EP_InfixFunc)
}
}
break
case uint32(205):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = Xsqlite3PExpr(tls, pParse, int32((*YyStackEntry)(unsafe.Pointer(yymsp)).Fmajor), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), uintptr(0))
}
break
case uint32(206):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_NOTNULL, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), uintptr(0))
}
break
case uint32(207):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_IS, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
binaryToUnaryIfNull(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), TK_ISNULL)
}
break
case uint32(208):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_ISNOT, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
binaryToUnaryIfNull(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), TK_NOTNULL)
}
break
case uint32(209):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_IS, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
binaryToUnaryIfNull(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), TK_ISNULL)
}
break
case uint32(210):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_ISNOT, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
binaryToUnaryIfNull(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), TK_NOTNULL)
}
break
case uint32(211):
fallthrough
case uint32(212):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = Xsqlite3PExpr(tls, pParse, int32((*YyStackEntry)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24)).Fmajor), *(*uintptr)(unsafe.Pointer(yymsp + 8)), uintptr(0))
}
break
case uint32(213):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = Xsqlite3PExpr(tls, pParse, func() int32 {
if int32((*YyStackEntry)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24)).Fmajor) == TK_PLUS {
return TK_UPLUS
}
return TK_UMINUS
}(), *(*uintptr)(unsafe.Pointer(yymsp + 8)), uintptr(0))
}
break
case uint32(214):
{
var pList uintptr = Xsqlite3ExprListAppend(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
pList = Xsqlite3ExprListAppend(tls, pParse, pList, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3ExprFunction(tls, pParse, pList, yymsp+libc.UintptrFromInt32(-1)*24+8, 0)
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(215):
fallthrough
case uint32(218):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = 0
}
break
case uint32(217):
{
var pList uintptr = Xsqlite3ExprListAppend(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
pList = Xsqlite3ExprListAppend(tls, pParse, pList, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_BETWEEN, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), uintptr(0))
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) != 0 {
*(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) + 32)) = pList
} else {
Xsqlite3ExprListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, pList)
}
if *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) != 0 {
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_NOT, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), uintptr(0))
}
}
break
case uint32(220):
{
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) == uintptr(0) {
Xsqlite3ExprUnmapAndDelete(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)))
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3Expr(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, TK_STRING, func() uintptr {
if *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) != 0 {
return ts + 7167
}
return ts + 7172
}())
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) != 0 {
Xsqlite3ExprIdToTrueFalse(tls, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)))
}
} else {
var pRHS uintptr = (*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) + 8)).FpExpr
if (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))).FnExpr == 1 && Xsqlite3ExprIsConstant(tls, pRHS) != 0 && int32((*Expr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)))).Fop) != TK_VECTOR {
(*ExprList_item)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) + 8)).FpExpr = uintptr(0)
Xsqlite3ExprListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
pRHS = Xsqlite3PExpr(tls, pParse, TK_UPLUS, pRHS, uintptr(0))
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_EQ, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), pRHS)
} else if (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))).FnExpr == 1 && int32((*Expr)(unsafe.Pointer(pRHS)).Fop) == TK_SELECT {
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_IN, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), uintptr(0))
Xsqlite3PExprAddSelect(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), *(*uintptr)(unsafe.Pointer(pRHS + 32)))
*(*uintptr)(unsafe.Pointer(pRHS + 32)) = uintptr(0)
Xsqlite3ExprListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
} else {
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_IN, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), uintptr(0))
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) == uintptr(0) {
Xsqlite3ExprListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
} else if int32((*Expr)(unsafe.Pointer((*Expr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)))).FpLeft)).Fop) == TK_VECTOR {
var nExpr int32 = (*ExprList)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Expr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)))).FpLeft + 32)))).FnExpr
var pSelectRHS uintptr = Xsqlite3ExprListToValues(tls, pParse, nExpr, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
if pSelectRHS != 0 {
parserDoubleLinkSelect(tls, pParse, pSelectRHS)
Xsqlite3PExprAddSelect(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), pSelectRHS)
}
} else {
*(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) + 32)) = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8))
Xsqlite3ExprSetHeightAndFlags(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)))
}
}
if *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) != 0 {
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_NOT, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), uintptr(0))
}
}
}
break
case uint32(221):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_SELECT, uintptr(0), uintptr(0))
Xsqlite3PExprAddSelect(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
break
case uint32(222):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_IN, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), uintptr(0))
Xsqlite3PExprAddSelect(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
if *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) != 0 {
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_NOT, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), uintptr(0))
}
}
break
case uint32(223):
{
var pSrc uintptr = Xsqlite3SrcListAppend(tls, pParse, uintptr(0), yymsp+libc.UintptrFromInt32(-2)*24+8, yymsp+libc.UintptrFromInt32(-1)*24+8)
var pSelect uintptr = Xsqlite3SelectNew(tls, pParse, uintptr(0), pSrc, uintptr(0), uintptr(0), uintptr(0), uintptr(0), uint32(0), uintptr(0))
if *(*uintptr)(unsafe.Pointer(yymsp + 8)) != 0 {
Xsqlite3SrcListFuncArgs(tls, pParse, func() uintptr {
if pSelect != 0 {
return pSrc
}
return uintptr(0)
}(), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_IN, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), uintptr(0))
Xsqlite3PExprAddSelect(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), pSelect)
if *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) != 0 {
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_NOT, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), uintptr(0))
}
}
break
case uint32(224):
{
var p uintptr
p = libc.AssignPtrUintptr(yymsp+libc.UintptrFromInt32(-3)*24+8, Xsqlite3PExpr(tls, pParse, TK_EXISTS, uintptr(0), uintptr(0)))
Xsqlite3PExprAddSelect(tls, pParse, p, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
break
case uint32(225):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_CASE, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), uintptr(0))
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) != 0 {
*(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) + 32)) = func() uintptr {
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) != 0 {
return Xsqlite3ExprListAppend(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
return *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8))
}()
Xsqlite3ExprSetHeightAndFlags(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)))
} else {
Xsqlite3ExprListDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
}
break
case uint32(226):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3ExprListAppend(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3ExprListAppend(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(227):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = Xsqlite3ExprListAppend(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = Xsqlite3ExprListAppend(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(230):
{
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = *(*uintptr)(unsafe.Pointer(yymsp + 8))
}
break
case uint32(233):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3ExprListAppend(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(234):
{
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = Xsqlite3ExprListAppend(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(236):
fallthrough
case uint32(241):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8))
}
break
case uint32(237):
{
Xsqlite3CreateIndex(tls, pParse, yymsp+libc.UintptrFromInt32(-7)*24+8, yymsp+libc.UintptrFromInt32(-6)*24+8,
Xsqlite3SrcListAppend(tls, pParse, uintptr(0), yymsp+libc.UintptrFromInt32(-4)*24+8, uintptr(0)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-10)*24 + 8)),
yymsp+libc.UintptrFromInt32(-11)*24+8, *(*uintptr)(unsafe.Pointer(yymsp + 8)), SQLITE_SO_ASC, *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-8)*24 + 8)), uint8(SQLITE_IDXTYPE_APPDEF))
if int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME && (*Parse)(unsafe.Pointer(pParse)).FpNewIndex != 0 {
Xsqlite3RenameTokenMap(tls, pParse, (*Index)(unsafe.Pointer((*Parse)(unsafe.Pointer(pParse)).FpNewIndex)).FzName, yymsp+libc.UintptrFromInt32(-4)*24+8)
}
}
break
case uint32(238):
fallthrough
case uint32(280):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = OE_Abort
}
break
case uint32(239):
{
*(*int32)(unsafe.Pointer(yymsp + 1*24 + 8)) = OE_None
}
break
case uint32(242):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = parserAddExprIdListTerm(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), yymsp+libc.UintptrFromInt32(-2)*24+8, *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(243):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = parserAddExprIdListTerm(tls, pParse, uintptr(0), yymsp+libc.UintptrFromInt32(-2)*24+8, *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(246):
{
Xsqlite3DropIndex(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
break
case uint32(247):
{
Xsqlite3Vacuum(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(248):
{
Xsqlite3Vacuum(tls, pParse, yymsp+libc.UintptrFromInt32(-1)*24+8, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(251):
{
Xsqlite3Pragma(tls, pParse, yymsp+libc.UintptrFromInt32(-1)*24+8, yymsp+8, uintptr(0), 0)
}
break
case uint32(252):
{
Xsqlite3Pragma(tls, pParse, yymsp+libc.UintptrFromInt32(-3)*24+8, yymsp+libc.UintptrFromInt32(-2)*24+8, yymsp+8, 0)
}
break
case uint32(253):
{
Xsqlite3Pragma(tls, pParse, yymsp+libc.UintptrFromInt32(-4)*24+8, yymsp+libc.UintptrFromInt32(-3)*24+8, yymsp+libc.UintptrFromInt32(-1)*24+8, 0)
}
break
case uint32(254):
{
Xsqlite3Pragma(tls, pParse, yymsp+libc.UintptrFromInt32(-3)*24+8, yymsp+libc.UintptrFromInt32(-2)*24+8, yymsp+8, 1)
}
break
case uint32(255):
{
Xsqlite3Pragma(tls, pParse, yymsp+libc.UintptrFromInt32(-4)*24+8, yymsp+libc.UintptrFromInt32(-3)*24+8, yymsp+libc.UintptrFromInt32(-1)*24+8, 1)
}
break
case uint32(258):
{
(*Token)(unsafe.Pointer(bp + 144)).Fz = (*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)).Fz
(*Token)(unsafe.Pointer(bp + 144)).Fn = uint32(int32((int64((*Token)(unsafe.Pointer(yymsp+8)).Fz)-int64((*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-3)*24+8)).Fz))/1)) + (*Token)(unsafe.Pointer(yymsp+8)).Fn
Xsqlite3FinishTrigger(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), bp+144)
}
break
case uint32(259):
{
Xsqlite3BeginTrigger(tls, pParse, yymsp+libc.UintptrFromInt32(-7)*24+8, yymsp+libc.UintptrFromInt32(-6)*24+8, *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), (*TrigEvent)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-4)*24+8)).Fa, (*TrigEvent)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-4)*24+8)).Fb, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-10)*24 + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-8)*24 + 8)))
*(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-10)*24 + 8)) = func() Token1 {
if (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-6)*24+8)).Fn == uint32(0) {
return *(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-7)*24 + 8))
}
return *(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-6)*24 + 8))
}()
}
break
case uint32(260):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = int32((*YyStackEntry)(unsafe.Pointer(yymsp)).Fmajor)
}
break
case uint32(261):
{
*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = TK_INSTEAD
}
break
case uint32(262):
{
*(*int32)(unsafe.Pointer(yymsp + 1*24 + 8)) = TK_BEFORE
}
break
case uint32(263):
fallthrough
case uint32(264):
{
(*TrigEvent)(unsafe.Pointer(yymsp + 8)).Fa = int32((*YyStackEntry)(unsafe.Pointer(yymsp)).Fmajor)
(*TrigEvent)(unsafe.Pointer(yymsp + 8)).Fb = uintptr(0)
}
break
case uint32(265):
{
(*TrigEvent)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)).Fa = TK_UPDATE
(*TrigEvent)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)).Fb = *(*uintptr)(unsafe.Pointer(yymsp + 8))
}
break
case uint32(266):
fallthrough
case uint32(285):
{
*(*uintptr)(unsafe.Pointer(yymsp + 1*24 + 8)) = uintptr(0)
}
break
case uint32(267):
fallthrough
case uint32(286):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*uintptr)(unsafe.Pointer(yymsp + 8))
}
break
case uint32(268):
{
(*TriggerStep)(unsafe.Pointer((*TriggerStep)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))).FpLast)).FpNext = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8))
(*TriggerStep)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))).FpLast = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8))
}
break
case uint32(269):
{
(*TriggerStep)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))).FpLast = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8))
}
break
case uint32(270):
{
*(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*Token)(unsafe.Pointer(yymsp + 8))
Xsqlite3ErrorMsg(tls, pParse,
ts+23478, 0)
}
break
case uint32(271):
{
Xsqlite3ErrorMsg(tls, pParse,
ts+23573, 0)
}
break
case uint32(272):
{
Xsqlite3ErrorMsg(tls, pParse,
ts+23657, 0)
}
break
case uint32(273):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3TriggerUpdateStep(tls, pParse, yymsp+libc.UintptrFromInt32(-6)*24+8, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), uint8(*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-7)*24 + 8))), (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-8)*24+8)).Fz, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-8)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(274):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3TriggerInsertStep(tls, pParse, yymsp+libc.UintptrFromInt32(-4)*24+8, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), uint8(*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-6)*24 + 8))), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-7)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-7)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(275):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3TriggerDeleteStep(tls, pParse, yymsp+libc.UintptrFromInt32(-3)*24+8, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-5)*24+8)).Fz, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(276):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3TriggerSelectStep(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(277):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = Xsqlite3PExpr(tls, pParse, TK_RAISE, uintptr(0), uintptr(0))
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) != 0 {
(*Expr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)))).FaffExpr = int8(OE_Ignore)
}
}
break
case uint32(278):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) = Xsqlite3ExprAlloc(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, TK_RAISE, yymsp+libc.UintptrFromInt32(-1)*24+8, 1)
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) != 0 {
(*Expr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)))).FaffExpr = int8(*(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)))
}
}
break
case uint32(279):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = OE_Rollback
}
break
case uint32(281):
{
*(*int32)(unsafe.Pointer(yymsp + 8)) = OE_Fail
}
break
case uint32(282):
{
Xsqlite3DropTrigger(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
break
case uint32(283):
{
Xsqlite3Attach(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(284):
{
Xsqlite3Detach(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(287):
{
Xsqlite3Reindex(tls, pParse, uintptr(0), uintptr(0))
}
break
case uint32(288):
{
Xsqlite3Reindex(tls, pParse, yymsp+libc.UintptrFromInt32(-1)*24+8, yymsp+8)
}
break
case uint32(289):
{
Xsqlite3Analyze(tls, pParse, uintptr(0), uintptr(0))
}
break
case uint32(290):
{
Xsqlite3Analyze(tls, pParse, yymsp+libc.UintptrFromInt32(-1)*24+8, yymsp+8)
}
break
case uint32(291):
{
Xsqlite3AlterRenameTable(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), yymsp+8)
}
break
case uint32(292):
{
(*Token)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)).Fn = uint32(int32((int64((*Parse)(unsafe.Pointer(pParse)).FsLastToken.Fz)-int64((*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).Fz))/1)) + (*Parse)(unsafe.Pointer(pParse)).FsLastToken.Fn
Xsqlite3AlterFinishAddColumn(tls, pParse, yymsp+libc.UintptrFromInt32(-1)*24+8)
}
break
case uint32(293):
{
Xsqlite3AlterDropColumn(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)), yymsp+8)
}
break
case uint32(294):
{
disableLookaside(tls, pParse)
Xsqlite3AlterBeginAddColumn(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(295):
{
Xsqlite3AlterRenameColumn(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), yymsp+libc.UintptrFromInt32(-2)*24+8, yymsp+8)
}
break
case uint32(296):
{
Xsqlite3VtabFinishParse(tls, pParse, uintptr(0))
}
break
case uint32(297):
{
Xsqlite3VtabFinishParse(tls, pParse, yymsp+8)
}
break
case uint32(298):
{
Xsqlite3VtabBeginParse(tls, pParse, yymsp+libc.UintptrFromInt32(-3)*24+8, yymsp+libc.UintptrFromInt32(-2)*24+8, yymsp+8, *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)))
}
break
case uint32(299):
{
Xsqlite3VtabArgInit(tls, pParse)
}
break
case uint32(300):
fallthrough
case uint32(301):
fallthrough
case uint32(302):
{
Xsqlite3VtabArgExtend(tls, pParse, yymsp+8)
}
break
case uint32(303):
fallthrough
case uint32(304):
{
Xsqlite3WithPush(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), uint8(1))
}
break
case uint32(305):
{
*(*U8)(unsafe.Pointer(yymsp + 8)) = U8(M10d_Any)
}
break
case uint32(306):
{
*(*U8)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = U8(M10d_Yes)
}
break
case uint32(307):
{
*(*U8)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = U8(M10d_No)
}
break
case uint32(308):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) = Xsqlite3CteNew(tls, pParse, yymsp+libc.UintptrFromInt32(-5)*24+8, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*U8)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)))
}
break
case uint32(309):
{
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = Xsqlite3WithAdd(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(310):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = Xsqlite3WithAdd(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
break
case uint32(311):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = *(*uintptr)(unsafe.Pointer(yymsp + 8))
}
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(312):
{
Xsqlite3WindowChain(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
(*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + 8)))).FpNextWin = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8))
*(*uintptr)(unsafe.Pointer(bp + 40)) = *(*uintptr)(unsafe.Pointer(yymsp + 8))
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(313):
{
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) != 0 {
(*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))).FzName = Xsqlite3DbStrNDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-4)*24+8)).Fz, uint64((*Token)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-4)*24+8)).Fn))
}
*(*uintptr)(unsafe.Pointer(bp + 40)) = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8))
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(314):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = Xsqlite3WindowAssemble(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), uintptr(0))
}
break
case uint32(315):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3WindowAssemble(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), yymsp+libc.UintptrFromInt32(-5)*24+8)
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(316):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = Xsqlite3WindowAssemble(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), uintptr(0))
}
break
case uint32(317):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3WindowAssemble(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), uintptr(0), *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)), yymsp+libc.UintptrFromInt32(-4)*24+8)
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(318):
fallthrough
case uint32(337):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = *(*uintptr)(unsafe.Pointer(yymsp + 8))
}
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(319):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3WindowAssemble(tls, pParse, *(*uintptr)(unsafe.Pointer(yymsp + 8)), uintptr(0), uintptr(0), yymsp+libc.UintptrFromInt32(-1)*24+8)
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(320):
{
*(*uintptr)(unsafe.Pointer(yymsp + 1*24 + 8)) = Xsqlite3WindowAlloc(tls, pParse, 0, TK_UNBOUNDED, uintptr(0), TK_CURRENT, uintptr(0), uint8(0))
}
break
case uint32(321):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3WindowAlloc(tls, pParse, *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)), (*FrameBound)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).FeType, (*FrameBound)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).FpExpr, TK_CURRENT, uintptr(0), *(*U8)(unsafe.Pointer(yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(322):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3WindowAlloc(tls, pParse, *(*int32)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)), (*FrameBound)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-3)*24+8)).FeType, (*FrameBound)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-3)*24+8)).FpExpr, (*FrameBound)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).FeType, (*FrameBound)(unsafe.Pointer(yymsp+libc.UintptrFromInt32(-1)*24+8)).FpExpr, *(*U8)(unsafe.Pointer(yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-5)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(324):
fallthrough
case uint32(326):
{
*(*FrameBound)(unsafe.Pointer(bp + 40)) = *(*FrameBound)(unsafe.Pointer(yymsp + 8))
}
*(*FrameBound)(unsafe.Pointer(yymsp + 8)) = *(*FrameBound)(unsafe.Pointer(bp + 40))
break
case uint32(325):
fallthrough
case uint32(327):
fallthrough
case uint32(329):
{
(*FrameBound)(unsafe.Pointer(bp + 40)).FeType = int32((*YyStackEntry)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24)).Fmajor)
(*FrameBound)(unsafe.Pointer(bp + 40)).FpExpr = uintptr(0)
}
*(*FrameBound)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*FrameBound)(unsafe.Pointer(bp + 40))
break
case uint32(328):
{
(*FrameBound)(unsafe.Pointer(bp + 40)).FeType = int32((*YyStackEntry)(unsafe.Pointer(yymsp)).Fmajor)
(*FrameBound)(unsafe.Pointer(bp + 40)).FpExpr = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8))
}
*(*FrameBound)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*FrameBound)(unsafe.Pointer(bp + 40))
break
case uint32(330):
{
*(*U8)(unsafe.Pointer(yymsp + 1*24 + 8)) = U8(0)
}
break
case uint32(331):
{
*(*U8)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*U8)(unsafe.Pointer(yymsp + 8))
}
break
case uint32(332):
fallthrough
case uint32(333):
{
*(*U8)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = U8((*YyStackEntry)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24)).Fmajor)
}
break
case uint32(334):
{
*(*U8)(unsafe.Pointer(yymsp + 8)) = U8((*YyStackEntry)(unsafe.Pointer(yymsp)).Fmajor)
}
break
case uint32(335):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*uintptr)(unsafe.Pointer(yymsp + 8))
}
break
case uint32(336):
{
if *(*uintptr)(unsafe.Pointer(yymsp + 8)) != 0 {
(*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + 8)))).FpFilter = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8))
} else {
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
*(*uintptr)(unsafe.Pointer(bp + 40)) = *(*uintptr)(unsafe.Pointer(yymsp + 8))
}
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(338):
{
*(*uintptr)(unsafe.Pointer(bp + 40)) = Xsqlite3DbMallocZero(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(Window{})))
if *(*uintptr)(unsafe.Pointer(bp + 40)) != 0 {
(*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 40)))).FeFrmType = U8(TK_FILTER)
(*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 40)))).FpFilter = *(*uintptr)(unsafe.Pointer(yymsp + 8))
} else {
Xsqlite3ExprDelete(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, *(*uintptr)(unsafe.Pointer(yymsp + 8)))
}
}
*(*uintptr)(unsafe.Pointer(yymsp + 8)) = *(*uintptr)(unsafe.Pointer(bp + 40))
break
case uint32(339):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8))
}
break
case uint32(340):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = Xsqlite3DbMallocZero(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, uint64(unsafe.Sizeof(Window{})))
if *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)) != 0 {
(*Window)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8)))).FzName = Xsqlite3DbStrNDup(tls, (*Parse)(unsafe.Pointer(pParse)).Fdb, (*Token)(unsafe.Pointer(yymsp+8)).Fz, uint64((*Token)(unsafe.Pointer(yymsp+8)).Fn))
}
}
break
case uint32(341):
{
*(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = *(*uintptr)(unsafe.Pointer(yymsp + libc.UintptrFromInt32(-1)*24 + 8))
}
break
default:
break
}
}
yygoto = int32(yyRuleInfoLhs[yyruleno])
yysize = int32(yyRuleInfoNRhs[yyruleno])
yyact = yy_find_reduce_action(tls, (*YyStackEntry)(unsafe.Pointer(yymsp+uintptr(yysize)*24)).Fstateno, uint16(yygoto))
yymsp += 24 * uintptr(yysize+1)
(*YyParser)(unsafe.Pointer(yypParser)).Fyytos = yymsp
(*YyStackEntry)(unsafe.Pointer(yymsp)).Fstateno = yyact
(*YyStackEntry)(unsafe.Pointer(yymsp)).Fmajor = uint16(yygoto)
return yyact
}
func yy_syntax_error(tls *libc.TLS, yypParser uintptr, yymajor int32, yyminor Token) {
bp := tls.Alloc(24)
defer tls.Free(24)
*(*Token)(unsafe.Pointer(bp + 8)) = yyminor
var pParse uintptr = (*YyParser)(unsafe.Pointer(yypParser)).FpParse
_ = yymajor
if *(*int8)(unsafe.Pointer((*Token)(unsafe.Pointer(bp + 8)).Fz)) != 0 {
Xsqlite3ErrorMsg(tls, pParse, ts+23454, libc.VaList(bp, bp+8))
} else {
Xsqlite3ErrorMsg(tls, pParse, ts+23742, 0)
}
(*YyParser)(unsafe.Pointer(yypParser)).FpParse = pParse
}
func yy_accept(tls *libc.TLS, yypParser uintptr) {
var pParse uintptr = (*YyParser)(unsafe.Pointer(yypParser)).FpParse
(*YyParser)(unsafe.Pointer(yypParser)).FpParse = pParse
}
// The main parser program.
// The first argument is a pointer to a structure obtained from
// "sqlite3ParserAlloc" which describes the current state of the parser.
// The second argument is the major token number. The third is
// the minor token. The fourth optional argument is whatever the
// user wants (and specified in the grammar) and is available for
// use by the action routines.
//
// Inputs:
// <ul>
// <li> A pointer to the parser (an opaque structure.)
// <li> The major token number.
// <li> The minor token number.
// <li> An option argument of a grammar-specified type.
// </ul>
//
// Outputs:
// None.
func Xsqlite3Parser(tls *libc.TLS, yyp uintptr, yymajor int32, yyminor Token) {
bp := tls.Alloc(16)
defer tls.Free(16)
var yyact uint16
var yypParser uintptr = yyp
var pParse uintptr = (*YyParser)(unsafe.Pointer(yypParser)).FpParse
yyact = (*YyStackEntry)(unsafe.Pointer((*YyParser)(unsafe.Pointer(yypParser)).Fyytos)).Fstateno
for 1 != 0 {
yyact = yy_find_shift_action(tls, uint16(yymajor), yyact)
if int32(yyact) >= YY_MIN_REDUCE {
var yyruleno uint32 = uint32(int32(yyact) - YY_MIN_REDUCE)
if int32(yyRuleInfoNRhs[yyruleno]) == 0 {
if (*YyParser)(unsafe.Pointer(yypParser)).Fyytos >= (*YyParser)(unsafe.Pointer(yypParser)).FyystackEnd {
yyStackOverflow(tls, yypParser)
break
}
}
yyact = yy_reduce(tls, yypParser, yyruleno, yymajor, yyminor, pParse)
} else if int32(yyact) <= YY_MAX_SHIFTREDUCE {
yy_shift(tls, yypParser, yyact, uint16(yymajor), yyminor)
break
} else if int32(yyact) == YY_ACCEPT_ACTION {
(*YyParser)(unsafe.Pointer(yypParser)).Fyytos -= 24
yy_accept(tls, yypParser)
return
} else {
*(*Token)(unsafe.Pointer(bp)) = yyminor
yy_syntax_error(tls, yypParser, yymajor, yyminor)
yy_destructor(tls, yypParser, uint16(yymajor), bp)
break
}
}
return
}
// Return the fallback token corresponding to canonical token iToken, or
// 0 if iToken has no fallback.
func Xsqlite3ParserFallback(tls *libc.TLS, iToken int32) int32 {
return int32(yyFallback[iToken])
}
var aiClass = [256]uint8{
uint8(29), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(7), uint8(7), uint8(28), uint8(7), uint8(7), uint8(28), uint8(28),
uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28), uint8(28),
uint8(7), uint8(15), uint8(8), uint8(5), uint8(4), uint8(22), uint8(24), uint8(8), uint8(17), uint8(18), uint8(21), uint8(20), uint8(23), uint8(11), uint8(26), uint8(16),
uint8(3), uint8(3), uint8(3), uint8(3), uint8(3), uint8(3), uint8(3), uint8(3), uint8(3), uint8(3), uint8(5), uint8(19), uint8(12), uint8(14), uint8(13), uint8(6),
uint8(5), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1),
uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(0), uint8(2), uint8(2), uint8(9), uint8(28), uint8(28), uint8(28), uint8(2),
uint8(8), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1),
uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(0), uint8(2), uint8(2), uint8(28), uint8(10), uint8(28), uint8(25), uint8(28),
uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27),
uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27),
uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27),
uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27),
uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27),
uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27),
uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(30),
uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27),
}
var zKWText = [666]int8{
int8('R'), int8('E'), int8('I'), int8('N'), int8('D'), int8('E'), int8('X'), int8('E'), int8('D'), int8('E'), int8('S'), int8('C'), int8('A'), int8('P'), int8('E'), int8('A'), int8('C'), int8('H'),
int8('E'), int8('C'), int8('K'), int8('E'), int8('Y'), int8('B'), int8('E'), int8('F'), int8('O'), int8('R'), int8('E'), int8('I'), int8('G'), int8('N'), int8('O'), int8('R'), int8('E'), int8('G'),
int8('E'), int8('X'), int8('P'), int8('L'), int8('A'), int8('I'), int8('N'), int8('S'), int8('T'), int8('E'), int8('A'), int8('D'), int8('D'), int8('A'), int8('T'), int8('A'), int8('B'), int8('A'),
int8('S'), int8('E'), int8('L'), int8('E'), int8('C'), int8('T'), int8('A'), int8('B'), int8('L'), int8('E'), int8('F'), int8('T'), int8('H'), int8('E'), int8('N'), int8('D'), int8('E'), int8('F'),
int8('E'), int8('R'), int8('R'), int8('A'), int8('B'), int8('L'), int8('E'), int8('L'), int8('S'), int8('E'), int8('X'), int8('C'), int8('L'), int8('U'), int8('D'), int8('E'), int8('L'), int8('E'),
int8('T'), int8('E'), int8('M'), int8('P'), int8('O'), int8('R'), int8('A'), int8('R'), int8('Y'), int8('I'), int8('S'), int8('N'), int8('U'), int8('L'), int8('L'), int8('S'), int8('A'), int8('V'),
int8('E'), int8('P'), int8('O'), int8('I'), int8('N'), int8('T'), int8('E'), int8('R'), int8('S'), int8('E'), int8('C'), int8('T'), int8('I'), int8('E'), int8('S'), int8('N'), int8('O'), int8('T'),
int8('N'), int8('U'), int8('L'), int8('L'), int8('I'), int8('K'), int8('E'), int8('X'), int8('C'), int8('E'), int8('P'), int8('T'), int8('R'), int8('A'), int8('N'), int8('S'), int8('A'), int8('C'),
int8('T'), int8('I'), int8('O'), int8('N'), int8('A'), int8('T'), int8('U'), int8('R'), int8('A'), int8('L'), int8('T'), int8('E'), int8('R'), int8('A'), int8('I'), int8('S'), int8('E'), int8('X'),
int8('C'), int8('L'), int8('U'), int8('S'), int8('I'), int8('V'), int8('E'), int8('X'), int8('I'), int8('S'), int8('T'), int8('S'), int8('C'), int8('O'), int8('N'), int8('S'), int8('T'), int8('R'),
int8('A'), int8('I'), int8('N'), int8('T'), int8('O'), int8('F'), int8('F'), int8('S'), int8('E'), int8('T'), int8('R'), int8('I'), int8('G'), int8('G'), int8('E'), int8('R'), int8('A'), int8('N'),
int8('G'), int8('E'), int8('N'), int8('E'), int8('R'), int8('A'), int8('T'), int8('E'), int8('D'), int8('E'), int8('T'), int8('A'), int8('C'), int8('H'), int8('A'), int8('V'), int8('I'), int8('N'),
int8('G'), int8('L'), int8('O'), int8('B'), int8('E'), int8('G'), int8('I'), int8('N'), int8('N'), int8('E'), int8('R'), int8('E'), int8('F'), int8('E'), int8('R'), int8('E'), int8('N'), int8('C'),
int8('E'), int8('S'), int8('U'), int8('N'), int8('I'), int8('Q'), int8('U'), int8('E'), int8('R'), int8('Y'), int8('W'), int8('I'), int8('T'), int8('H'), int8('O'), int8('U'), int8('T'), int8('E'),
int8('R'), int8('E'), int8('L'), int8('E'), int8('A'), int8('S'), int8('E'), int8('A'), int8('T'), int8('T'), int8('A'), int8('C'), int8('H'), int8('B'), int8('E'), int8('T'), int8('W'), int8('E'),
int8('E'), int8('N'), int8('O'), int8('T'), int8('H'), int8('I'), int8('N'), int8('G'), int8('R'), int8('O'), int8('U'), int8('P'), int8('S'), int8('C'), int8('A'), int8('S'), int8('C'), int8('A'),
int8('D'), int8('E'), int8('F'), int8('A'), int8('U'), int8('L'), int8('T'), int8('C'), int8('A'), int8('S'), int8('E'), int8('C'), int8('O'), int8('L'), int8('L'), int8('A'), int8('T'), int8('E'),
int8('C'), int8('R'), int8('E'), int8('A'), int8('T'), int8('E'), int8('C'), int8('U'), int8('R'), int8('R'), int8('E'), int8('N'), int8('T'), int8('_'), int8('D'), int8('A'), int8('T'), int8('E'),
int8('I'), int8('M'), int8('M'), int8('E'), int8('D'), int8('I'), int8('A'), int8('T'), int8('E'), int8('J'), int8('O'), int8('I'), int8('N'), int8('S'), int8('E'), int8('R'), int8('T'), int8('M'),
int8('A'), int8('T'), int8('C'), int8('H'), int8('P'), int8('L'), int8('A'), int8('N'), int8('A'), int8('L'), int8('Y'), int8('Z'), int8('E'), int8('P'), int8('R'), int8('A'), int8('G'), int8('M'),
int8('A'), int8('T'), int8('E'), int8('R'), int8('I'), int8('A'), int8('L'), int8('I'), int8('Z'), int8('E'), int8('D'), int8('E'), int8('F'), int8('E'), int8('R'), int8('R'), int8('E'), int8('D'),
int8('I'), int8('S'), int8('T'), int8('I'), int8('N'), int8('C'), int8('T'), int8('U'), int8('P'), int8('D'), int8('A'), int8('T'), int8('E'), int8('V'), int8('A'), int8('L'), int8('U'), int8('E'),
int8('S'), int8('V'), int8('I'), int8('R'), int8('T'), int8('U'), int8('A'), int8('L'), int8('W'), int8('A'), int8('Y'), int8('S'), int8('W'), int8('H'), int8('E'), int8('N'), int8('W'), int8('H'),
int8('E'), int8('R'), int8('E'), int8('C'), int8('U'), int8('R'), int8('S'), int8('I'), int8('V'), int8('E'), int8('A'), int8('B'), int8('O'), int8('R'), int8('T'), int8('A'), int8('F'), int8('T'),
int8('E'), int8('R'), int8('E'), int8('N'), int8('A'), int8('M'), int8('E'), int8('A'), int8('N'), int8('D'), int8('R'), int8('O'), int8('P'), int8('A'), int8('R'), int8('T'), int8('I'), int8('T'),
int8('I'), int8('O'), int8('N'), int8('A'), int8('U'), int8('T'), int8('O'), int8('I'), int8('N'), int8('C'), int8('R'), int8('E'), int8('M'), int8('E'), int8('N'), int8('T'), int8('C'), int8('A'),
int8('S'), int8('T'), int8('C'), int8('O'), int8('L'), int8('U'), int8('M'), int8('N'), int8('C'), int8('O'), int8('M'), int8('M'), int8('I'), int8('T'), int8('C'), int8('O'), int8('N'), int8('F'),
int8('L'), int8('I'), int8('C'), int8('T'), int8('C'), int8('R'), int8('O'), int8('S'), int8('S'), int8('C'), int8('U'), int8('R'), int8('R'), int8('E'), int8('N'), int8('T'), int8('_'), int8('T'),
int8('I'), int8('M'), int8('E'), int8('S'), int8('T'), int8('A'), int8('M'), int8('P'), int8('R'), int8('E'), int8('C'), int8('E'), int8('D'), int8('I'), int8('N'), int8('G'), int8('F'), int8('A'),
int8('I'), int8('L'), int8('A'), int8('S'), int8('T'), int8('F'), int8('I'), int8('L'), int8('T'), int8('E'), int8('R'), int8('E'), int8('P'), int8('L'), int8('A'), int8('C'), int8('E'), int8('F'),
int8('I'), int8('R'), int8('S'), int8('T'), int8('F'), int8('O'), int8('L'), int8('L'), int8('O'), int8('W'), int8('I'), int8('N'), int8('G'), int8('F'), int8('R'), int8('O'), int8('M'), int8('F'),
int8('U'), int8('L'), int8('L'), int8('I'), int8('M'), int8('I'), int8('T'), int8('I'), int8('F'), int8('O'), int8('R'), int8('D'), int8('E'), int8('R'), int8('E'), int8('S'), int8('T'), int8('R'),
int8('I'), int8('C'), int8('T'), int8('O'), int8('T'), int8('H'), int8('E'), int8('R'), int8('S'), int8('O'), int8('V'), int8('E'), int8('R'), int8('E'), int8('T'), int8('U'), int8('R'), int8('N'),
int8('I'), int8('N'), int8('G'), int8('R'), int8('I'), int8('G'), int8('H'), int8('T'), int8('R'), int8('O'), int8('L'), int8('L'), int8('B'), int8('A'), int8('C'), int8('K'), int8('R'), int8('O'),
int8('W'), int8('S'), int8('U'), int8('N'), int8('B'), int8('O'), int8('U'), int8('N'), int8('D'), int8('E'), int8('D'), int8('U'), int8('N'), int8('I'), int8('O'), int8('N'), int8('U'), int8('S'),
int8('I'), int8('N'), int8('G'), int8('V'), int8('A'), int8('C'), int8('U'), int8('U'), int8('M'), int8('V'), int8('I'), int8('E'), int8('W'), int8('I'), int8('N'), int8('D'), int8('O'), int8('W'),
int8('B'), int8('Y'), int8('I'), int8('N'), int8('I'), int8('T'), int8('I'), int8('A'), int8('L'), int8('L'), int8('Y'), int8('P'), int8('R'), int8('I'), int8('M'), int8('A'), int8('R'), int8('Y'),
}
var aKWHash = [127]uint8{
uint8(84), uint8(92), uint8(134), uint8(82), uint8(105), uint8(29), uint8(0), uint8(0), uint8(94), uint8(0), uint8(85), uint8(72), uint8(0),
uint8(53), uint8(35), uint8(86), uint8(15), uint8(0), uint8(42), uint8(97), uint8(54), uint8(89), uint8(135), uint8(19), uint8(0), uint8(0),
uint8(140), uint8(0), uint8(40), uint8(129), uint8(0), uint8(22), uint8(107), uint8(0), uint8(9), uint8(0), uint8(0), uint8(123), uint8(80),
uint8(0), uint8(78), uint8(6), uint8(0), uint8(65), uint8(103), uint8(147), uint8(0), uint8(136), uint8(115), uint8(0), uint8(0), uint8(48),
uint8(0), uint8(90), uint8(24), uint8(0), uint8(17), uint8(0), uint8(27), uint8(70), uint8(23), uint8(26), uint8(5), uint8(60), uint8(142),
uint8(110), uint8(122), uint8(0), uint8(73), uint8(91), uint8(71), uint8(145), uint8(61), uint8(120), uint8(74), uint8(0), uint8(49), uint8(0),
uint8(11), uint8(41), uint8(0), uint8(113), uint8(0), uint8(0), uint8(0), uint8(109), uint8(10), uint8(111), uint8(116), uint8(125), uint8(14),
uint8(50), uint8(124), uint8(0), uint8(100), uint8(0), uint8(18), uint8(121), uint8(144), uint8(56), uint8(130), uint8(139), uint8(88), uint8(83),
uint8(37), uint8(30), uint8(126), uint8(0), uint8(0), uint8(108), uint8(51), uint8(131), uint8(128), uint8(0), uint8(34), uint8(0), uint8(0),
uint8(132), uint8(0), uint8(98), uint8(38), uint8(39), uint8(0), uint8(20), uint8(45), uint8(117), uint8(93),
}
var aKWNext = [147]uint8{
uint8(0), uint8(0), uint8(0), uint8(0), uint8(4), uint8(0), uint8(43), uint8(0), uint8(0), uint8(106), uint8(114), uint8(0), uint8(0),
uint8(0), uint8(2), uint8(0), uint8(0), uint8(143), uint8(0), uint8(0), uint8(0), uint8(13), uint8(0), uint8(0), uint8(0), uint8(0),
uint8(141), uint8(0), uint8(0), uint8(119), uint8(52), uint8(0), uint8(0), uint8(137), uint8(12), uint8(0), uint8(0), uint8(62), uint8(0),
uint8(138), uint8(0), uint8(133), uint8(0), uint8(0), uint8(36), uint8(0), uint8(0), uint8(28), uint8(77), uint8(0), uint8(0), uint8(0),
uint8(0), uint8(59), uint8(0), uint8(47), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0),
uint8(0), uint8(69), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(146), uint8(3), uint8(0), uint8(58), uint8(0), uint8(1),
uint8(75), uint8(0), uint8(0), uint8(0), uint8(31), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(127), uint8(0), uint8(104),
uint8(0), uint8(64), uint8(66), uint8(63), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(46), uint8(0), uint8(16), uint8(8),
uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(81), uint8(101), uint8(0),
uint8(112), uint8(21), uint8(7), uint8(67), uint8(0), uint8(79), uint8(96), uint8(118), uint8(0), uint8(0), uint8(68), uint8(0), uint8(0),
uint8(99), uint8(44), uint8(0), uint8(55), uint8(0), uint8(76), uint8(0), uint8(95), uint8(32), uint8(33), uint8(57), uint8(25), uint8(0),
uint8(102), uint8(0), uint8(0), uint8(87),
}
var aKWLen = [147]uint8{
uint8(7), uint8(7), uint8(5), uint8(4), uint8(6), uint8(4), uint8(5), uint8(3), uint8(6), uint8(7), uint8(3), uint8(6), uint8(6),
uint8(7), uint8(7), uint8(3), uint8(8), uint8(2), uint8(6), uint8(5), uint8(4), uint8(4), uint8(3), uint8(10), uint8(4), uint8(7),
uint8(6), uint8(9), uint8(4), uint8(2), uint8(6), uint8(5), uint8(9), uint8(9), uint8(4), uint8(7), uint8(3), uint8(2), uint8(4),
uint8(4), uint8(6), uint8(11), uint8(6), uint8(2), uint8(7), uint8(5), uint8(5), uint8(9), uint8(6), uint8(10), uint8(4), uint8(6),
uint8(2), uint8(3), uint8(7), uint8(5), uint8(9), uint8(6), uint8(6), uint8(4), uint8(5), uint8(5), uint8(10), uint8(6), uint8(5),
uint8(7), uint8(4), uint8(5), uint8(7), uint8(6), uint8(7), uint8(7), uint8(6), uint8(5), uint8(7), uint8(3), uint8(7), uint8(4),
uint8(7), uint8(6), uint8(12), uint8(9), uint8(4), uint8(6), uint8(5), uint8(4), uint8(7), uint8(6), uint8(12), uint8(8), uint8(8),
uint8(2), uint8(6), uint8(6), uint8(7), uint8(6), uint8(4), uint8(5), uint8(9), uint8(5), uint8(5), uint8(6), uint8(3), uint8(4),
uint8(9), uint8(13), uint8(2), uint8(2), uint8(4), uint8(6), uint8(6), uint8(8), uint8(5), uint8(17), uint8(12), uint8(7), uint8(9),
uint8(4), uint8(4), uint8(6), uint8(7), uint8(5), uint8(9), uint8(4), uint8(4), uint8(5), uint8(2), uint8(5), uint8(8), uint8(6),
uint8(4), uint8(9), uint8(5), uint8(8), uint8(4), uint8(3), uint8(9), uint8(5), uint8(5), uint8(6), uint8(4), uint8(6), uint8(2),
uint8(2), uint8(9), uint8(3), uint8(7),
}
var aKWOffset = [147]uint16{
uint16(0), uint16(2), uint16(2), uint16(8), uint16(9), uint16(14), uint16(16), uint16(20), uint16(23), uint16(25), uint16(25), uint16(29), uint16(33),
uint16(36), uint16(41), uint16(46), uint16(48), uint16(53), uint16(54), uint16(59), uint16(62), uint16(65), uint16(67), uint16(69), uint16(78), uint16(81),
uint16(86), uint16(90), uint16(90), uint16(94), uint16(99), uint16(101), uint16(105), uint16(111), uint16(119), uint16(123), uint16(123), uint16(123), uint16(126),
uint16(129), uint16(132), uint16(137), uint16(142), uint16(146), uint16(147), uint16(152), uint16(156), uint16(160), uint16(168), uint16(174), uint16(181), uint16(184),
uint16(184), uint16(187), uint16(189), uint16(195), uint16(198), uint16(206), uint16(211), uint16(216), uint16(219), uint16(222), uint16(226), uint16(236), uint16(239),
uint16(244), uint16(244), uint16(248), uint16(252), uint16(259), uint16(265), uint16(271), uint16(277), uint16(277), uint16(283), uint16(284), uint16(288), uint16(295),
uint16(299), uint16(306), uint16(312), uint16(324), uint16(333), uint16(335), uint16(341), uint16(346), uint16(348), uint16(355), uint16(359), uint16(370), uint16(377),
uint16(378), uint16(385), uint16(391), uint16(397), uint16(402), uint16(408), uint16(412), uint16(415), uint16(424), uint16(429), uint16(433), uint16(439), uint16(441),
uint16(444), uint16(453), uint16(455), uint16(457), uint16(466), uint16(470), uint16(476), uint16(482), uint16(490), uint16(495), uint16(495), uint16(495), uint16(511),
uint16(520), uint16(523), uint16(527), uint16(532), uint16(539), uint16(544), uint16(553), uint16(557), uint16(560), uint16(565), uint16(567), uint16(571), uint16(579),
uint16(585), uint16(588), uint16(597), uint16(602), uint16(610), uint16(610), uint16(614), uint16(623), uint16(628), uint16(633), uint16(639), uint16(642), uint16(645),
uint16(648), uint16(650), uint16(655), uint16(659),
}
var aKWCode = [147]uint8{
uint8(TK_REINDEX), uint8(TK_INDEXED), uint8(TK_INDEX), uint8(TK_DESC), uint8(TK_ESCAPE),
uint8(TK_EACH), uint8(TK_CHECK), uint8(TK_KEY), uint8(TK_BEFORE), uint8(TK_FOREIGN),
uint8(TK_FOR), uint8(TK_IGNORE), uint8(TK_LIKE_KW), uint8(TK_EXPLAIN), uint8(TK_INSTEAD),
uint8(TK_ADD), uint8(TK_DATABASE), uint8(TK_AS), uint8(TK_SELECT), uint8(TK_TABLE),
uint8(TK_JOIN_KW), uint8(TK_THEN), uint8(TK_END), uint8(TK_DEFERRABLE), uint8(TK_ELSE),
uint8(TK_EXCLUDE), uint8(TK_DELETE), uint8(TK_TEMP), uint8(TK_TEMP), uint8(TK_OR),
uint8(TK_ISNULL), uint8(TK_NULLS), uint8(TK_SAVEPOINT), uint8(TK_INTERSECT), uint8(TK_TIES),
uint8(TK_NOTNULL), uint8(TK_NOT), uint8(TK_NO), uint8(TK_NULL), uint8(TK_LIKE_KW),
uint8(TK_EXCEPT), uint8(TK_TRANSACTION), uint8(TK_ACTION), uint8(TK_ON), uint8(TK_JOIN_KW),
uint8(TK_ALTER), uint8(TK_RAISE), uint8(TK_EXCLUSIVE), uint8(TK_EXISTS), uint8(TK_CONSTRAINT),
uint8(TK_INTO), uint8(TK_OFFSET), uint8(TK_OF), uint8(TK_SET), uint8(TK_TRIGGER),
uint8(TK_RANGE), uint8(TK_GENERATED), uint8(TK_DETACH), uint8(TK_HAVING), uint8(TK_LIKE_KW),
uint8(TK_BEGIN), uint8(TK_JOIN_KW), uint8(TK_REFERENCES), uint8(TK_UNIQUE), uint8(TK_QUERY),
uint8(TK_WITHOUT), uint8(TK_WITH), uint8(TK_JOIN_KW), uint8(TK_RELEASE), uint8(TK_ATTACH),
uint8(TK_BETWEEN), uint8(TK_NOTHING), uint8(TK_GROUPS), uint8(TK_GROUP), uint8(TK_CASCADE),
uint8(TK_ASC), uint8(TK_DEFAULT), uint8(TK_CASE), uint8(TK_COLLATE), uint8(TK_CREATE),
uint8(TK_CTIME_KW), uint8(TK_IMMEDIATE), uint8(TK_JOIN), uint8(TK_INSERT), uint8(TK_MATCH),
uint8(TK_PLAN), uint8(TK_ANALYZE), uint8(TK_PRAGMA), uint8(TK_MATERIALIZED), uint8(TK_DEFERRED),
uint8(TK_DISTINCT), uint8(TK_IS), uint8(TK_UPDATE), uint8(TK_VALUES), uint8(TK_VIRTUAL),
uint8(TK_ALWAYS), uint8(TK_WHEN), uint8(TK_WHERE), uint8(TK_RECURSIVE), uint8(TK_ABORT),
uint8(TK_AFTER), uint8(TK_RENAME), uint8(TK_AND), uint8(TK_DROP), uint8(TK_PARTITION),
uint8(TK_AUTOINCR), uint8(TK_TO), uint8(TK_IN), uint8(TK_CAST), uint8(TK_COLUMNKW),
uint8(TK_COMMIT), uint8(TK_CONFLICT), uint8(TK_JOIN_KW), uint8(TK_CTIME_KW), uint8(TK_CTIME_KW),
uint8(TK_CURRENT), uint8(TK_PRECEDING), uint8(TK_FAIL), uint8(TK_LAST), uint8(TK_FILTER),
uint8(TK_REPLACE), uint8(TK_FIRST), uint8(TK_FOLLOWING), uint8(TK_FROM), uint8(TK_JOIN_KW),
uint8(TK_LIMIT), uint8(TK_IF), uint8(TK_ORDER), uint8(TK_RESTRICT), uint8(TK_OTHERS),
uint8(TK_OVER), uint8(TK_RETURNING), uint8(TK_JOIN_KW), uint8(TK_ROLLBACK), uint8(TK_ROWS),
uint8(TK_ROW), uint8(TK_UNBOUNDED), uint8(TK_UNION), uint8(TK_USING), uint8(TK_VACUUM),
uint8(TK_VIEW), uint8(TK_WINDOW), uint8(TK_DO), uint8(TK_BY), uint8(TK_INITIALLY),
uint8(TK_ALL), uint8(TK_PRIMARY),
}
func keywordCode(tls *libc.TLS, z uintptr, n int32, pType uintptr) int32 {
var i int32
var j int32
var zKW uintptr
if n >= 2 {
i = (int32(Xsqlite3UpperToLower[uint8(*(*int8)(unsafe.Pointer(z)))])*4 ^ int32(Xsqlite3UpperToLower[uint8(*(*int8)(unsafe.Pointer(z + uintptr(n-1))))])*3 ^ n*1) % 127
for i = int32(aKWHash[i]) - 1; i >= 0; i = int32(aKWNext[i]) - 1 {
if int32(aKWLen[i]) != n {
continue
}
zKW = uintptr(unsafe.Pointer(&zKWText)) + uintptr(aKWOffset[i])
if int32(*(*int8)(unsafe.Pointer(z)))&libc.CplInt32(0x20) != int32(*(*int8)(unsafe.Pointer(zKW))) {
continue
}
if int32(*(*int8)(unsafe.Pointer(z + 1)))&libc.CplInt32(0x20) != int32(*(*int8)(unsafe.Pointer(zKW + 1))) {
continue
}
j = 2
for j < n && int32(*(*int8)(unsafe.Pointer(z + uintptr(j))))&libc.CplInt32(0x20) == int32(*(*int8)(unsafe.Pointer(zKW + uintptr(j)))) {
j++
}
if j < n {
continue
}
*(*int32)(unsafe.Pointer(pType)) = int32(aKWCode[i])
break
}
}
return n
}
func Xsqlite3KeywordCode(tls *libc.TLS, z uintptr, n int32) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
*(*int32)(unsafe.Pointer(bp)) = TK_ID
keywordCode(tls, z, n, bp)
return *(*int32)(unsafe.Pointer(bp))
}
func Xsqlite3_keyword_name(tls *libc.TLS, i int32, pzName uintptr, pnName uintptr) int32 {
if i < 0 || i >= SQLITE_N_KEYWORD {
return SQLITE_ERROR
}
*(*uintptr)(unsafe.Pointer(pzName)) = uintptr(unsafe.Pointer(&zKWText)) + uintptr(aKWOffset[i])
*(*int32)(unsafe.Pointer(pnName)) = int32(aKWLen[i])
return SQLITE_OK
}
func Xsqlite3_keyword_count(tls *libc.TLS) int32 {
return SQLITE_N_KEYWORD
}
func Xsqlite3_keyword_check(tls *libc.TLS, zName uintptr, nName int32) int32 {
return libc.Bool32(TK_ID != Xsqlite3KeywordCode(tls, zName, nName))
}
// Make the IdChar function accessible from ctime.c and alter.c
func Xsqlite3IsIdChar(tls *libc.TLS, c U8) int32 {
return libc.Bool32(int32(Xsqlite3CtypeMap[c])&0x46 != 0)
}
func getToken(tls *libc.TLS, pz uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var z uintptr = *(*uintptr)(unsafe.Pointer(pz))
for __ccgo := true; __ccgo; __ccgo = *(*int32)(unsafe.Pointer(bp)) == TK_SPACE {
z += uintptr(Xsqlite3GetToken(tls, z, bp))
}
if *(*int32)(unsafe.Pointer(bp)) == TK_ID ||
*(*int32)(unsafe.Pointer(bp)) == TK_STRING ||
*(*int32)(unsafe.Pointer(bp)) == TK_JOIN_KW ||
*(*int32)(unsafe.Pointer(bp)) == TK_WINDOW ||
*(*int32)(unsafe.Pointer(bp)) == TK_OVER ||
Xsqlite3ParserFallback(tls, *(*int32)(unsafe.Pointer(bp))) == TK_ID {
*(*int32)(unsafe.Pointer(bp)) = TK_ID
}
*(*uintptr)(unsafe.Pointer(pz)) = z
return *(*int32)(unsafe.Pointer(bp))
}
func analyzeWindowKeyword(tls *libc.TLS, z uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = z
var t int32
t = getToken(tls, bp)
if t != TK_ID {
return TK_ID
}
t = getToken(tls, bp)
if t != TK_AS {
return TK_ID
}
return TK_WINDOW
}
func analyzeOverKeyword(tls *libc.TLS, z uintptr, lastToken int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = z
if lastToken == TK_RP {
var t int32 = getToken(tls, bp)
if t == TK_LP || t == TK_ID {
return TK_OVER
}
}
return TK_ID
}
func analyzeFilterKeyword(tls *libc.TLS, z uintptr, lastToken int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = z
if lastToken == TK_RP && getToken(tls, bp) == TK_LP {
return TK_FILTER
}
return TK_ID
}
// Return the length (in bytes) of the token that begins at z[0].
// Store the token type in *tokenType before returning.
func Xsqlite3GetToken(tls *libc.TLS, z uintptr, tokenType uintptr) int32 {
var i int32
var c int32
switch int32(aiClass[*(*uint8)(unsafe.Pointer(z))]) {
case CC_SPACE:
{
for i = 1; int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(z + uintptr(i)))])&0x01 != 0; i++ {
}
*(*int32)(unsafe.Pointer(tokenType)) = TK_SPACE
return i
}
case CC_MINUS:
{
if int32(*(*uint8)(unsafe.Pointer(z + 1))) == '-' {
for i = 2; libc.AssignInt32(&c, int32(*(*uint8)(unsafe.Pointer(z + uintptr(i))))) != 0 && c != '\n'; i++ {
}
*(*int32)(unsafe.Pointer(tokenType)) = TK_SPACE
return i
} else if int32(*(*uint8)(unsafe.Pointer(z + 1))) == '>' {
*(*int32)(unsafe.Pointer(tokenType)) = TK_PTR
return 2 + libc.Bool32(int32(*(*uint8)(unsafe.Pointer(z + 2))) == '>')
}
*(*int32)(unsafe.Pointer(tokenType)) = TK_MINUS
return 1
}
case CC_LP:
{
*(*int32)(unsafe.Pointer(tokenType)) = TK_LP
return 1
}
case CC_RP:
{
*(*int32)(unsafe.Pointer(tokenType)) = TK_RP
return 1
}
case CC_SEMI:
{
*(*int32)(unsafe.Pointer(tokenType)) = TK_SEMI
return 1
}
case CC_PLUS:
{
*(*int32)(unsafe.Pointer(tokenType)) = TK_PLUS
return 1
}
case CC_STAR:
{
*(*int32)(unsafe.Pointer(tokenType)) = TK_STAR
return 1
}
case CC_SLASH:
{
if int32(*(*uint8)(unsafe.Pointer(z + 1))) != '*' || int32(*(*uint8)(unsafe.Pointer(z + 2))) == 0 {
*(*int32)(unsafe.Pointer(tokenType)) = TK_SLASH
return 1
}
i = 3
c = int32(*(*uint8)(unsafe.Pointer(z + 2)))
for ; (c != '*' || int32(*(*uint8)(unsafe.Pointer(z + uintptr(i)))) != '/') && libc.AssignInt32(&c, int32(*(*uint8)(unsafe.Pointer(z + uintptr(i))))) != 0; i++ {
}
if c != 0 {
i++
}
*(*int32)(unsafe.Pointer(tokenType)) = TK_SPACE
return i
}
case CC_PERCENT:
{
*(*int32)(unsafe.Pointer(tokenType)) = TK_REM
return 1
}
case CC_EQ:
{
*(*int32)(unsafe.Pointer(tokenType)) = TK_EQ
return 1 + libc.Bool32(int32(*(*uint8)(unsafe.Pointer(z + 1))) == '=')
}
case CC_LT:
{
if libc.AssignInt32(&c, int32(*(*uint8)(unsafe.Pointer(z + 1)))) == '=' {
*(*int32)(unsafe.Pointer(tokenType)) = TK_LE
return 2
} else if c == '>' {
*(*int32)(unsafe.Pointer(tokenType)) = TK_NE
return 2
} else if c == '<' {
*(*int32)(unsafe.Pointer(tokenType)) = TK_LSHIFT
return 2
} else {
*(*int32)(unsafe.Pointer(tokenType)) = TK_LT
return 1
}
}
fallthrough
case CC_GT:
{
if libc.AssignInt32(&c, int32(*(*uint8)(unsafe.Pointer(z + 1)))) == '=' {
*(*int32)(unsafe.Pointer(tokenType)) = TK_GE
return 2
} else if c == '>' {
*(*int32)(unsafe.Pointer(tokenType)) = TK_RSHIFT
return 2
} else {
*(*int32)(unsafe.Pointer(tokenType)) = TK_GT
return 1
}
}
fallthrough
case CC_BANG:
{
if int32(*(*uint8)(unsafe.Pointer(z + 1))) != '=' {
*(*int32)(unsafe.Pointer(tokenType)) = TK_ILLEGAL
return 1
} else {
*(*int32)(unsafe.Pointer(tokenType)) = TK_NE
return 2
}
}
fallthrough
case CC_PIPE:
{
if int32(*(*uint8)(unsafe.Pointer(z + 1))) != '|' {
*(*int32)(unsafe.Pointer(tokenType)) = TK_BITOR
return 1
} else {
*(*int32)(unsafe.Pointer(tokenType)) = TK_CONCAT
return 2
}
}
fallthrough
case CC_COMMA:
{
*(*int32)(unsafe.Pointer(tokenType)) = TK_COMMA
return 1
}
case CC_AND:
{
*(*int32)(unsafe.Pointer(tokenType)) = TK_BITAND
return 1
}
case CC_TILDA:
{
*(*int32)(unsafe.Pointer(tokenType)) = TK_BITNOT
return 1
}
case CC_QUOTE:
{
var delim int32 = int32(*(*uint8)(unsafe.Pointer(z)))
for i = 1; libc.AssignInt32(&c, int32(*(*uint8)(unsafe.Pointer(z + uintptr(i))))) != 0; i++ {
if c == delim {
if int32(*(*uint8)(unsafe.Pointer(z + uintptr(i+1)))) == delim {
i++
} else {
break
}
}
}
if c == '\'' {
*(*int32)(unsafe.Pointer(tokenType)) = TK_STRING
return i + 1
} else if c != 0 {
*(*int32)(unsafe.Pointer(tokenType)) = TK_ID
return i + 1
} else {
*(*int32)(unsafe.Pointer(tokenType)) = TK_ILLEGAL
return i
}
}
fallthrough
case CC_DOT:
{
if !(int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(z + 1))])&0x04 != 0) {
*(*int32)(unsafe.Pointer(tokenType)) = TK_DOT
return 1
}
}
fallthrough
case CC_DIGIT:
{
*(*int32)(unsafe.Pointer(tokenType)) = TK_INTEGER
if int32(*(*uint8)(unsafe.Pointer(z))) == '0' && (int32(*(*uint8)(unsafe.Pointer(z + 1))) == 'x' || int32(*(*uint8)(unsafe.Pointer(z + 1))) == 'X') && int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(z + 2))])&0x08 != 0 {
for i = 3; int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(z + uintptr(i)))])&0x08 != 0; i++ {
}
return i
}
for i = 0; int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(z + uintptr(i)))])&0x04 != 0; i++ {
}
if int32(*(*uint8)(unsafe.Pointer(z + uintptr(i)))) == '.' {
i++
for int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(z + uintptr(i)))])&0x04 != 0 {
i++
}
*(*int32)(unsafe.Pointer(tokenType)) = TK_FLOAT
}
if (int32(*(*uint8)(unsafe.Pointer(z + uintptr(i)))) == 'e' || int32(*(*uint8)(unsafe.Pointer(z + uintptr(i)))) == 'E') && (int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(z + uintptr(i+1)))])&0x04 != 0 ||
(int32(*(*uint8)(unsafe.Pointer(z + uintptr(i+1)))) == '+' || int32(*(*uint8)(unsafe.Pointer(z + uintptr(i+1)))) == '-') && int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(z + uintptr(i+2)))])&0x04 != 0) {
i = i + 2
for int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(z + uintptr(i)))])&0x04 != 0 {
i++
}
*(*int32)(unsafe.Pointer(tokenType)) = TK_FLOAT
}
for int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(z + uintptr(i)))])&0x46 != 0 {
*(*int32)(unsafe.Pointer(tokenType)) = TK_ILLEGAL
i++
}
return i
}
case CC_QUOTE2:
{
i = 1
c = int32(*(*uint8)(unsafe.Pointer(z)))
for ; c != ']' && libc.AssignInt32(&c, int32(*(*uint8)(unsafe.Pointer(z + uintptr(i))))) != 0; i++ {
}
*(*int32)(unsafe.Pointer(tokenType)) = func() int32 {
if c == ']' {
return TK_ID
}
return TK_ILLEGAL
}()
return i
}
case CC_VARNUM:
{
*(*int32)(unsafe.Pointer(tokenType)) = TK_VARIABLE
for i = 1; int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(z + uintptr(i)))])&0x04 != 0; i++ {
}
return i
}
case CC_DOLLAR:
fallthrough
case CC_VARALPHA:
{
var n int32 = 0
*(*int32)(unsafe.Pointer(tokenType)) = TK_VARIABLE
for i = 1; libc.AssignInt32(&c, int32(*(*uint8)(unsafe.Pointer(z + uintptr(i))))) != 0; i++ {
if int32(Xsqlite3CtypeMap[uint8(c)])&0x46 != 0 {
n++
} else if c == '(' && n > 0 {
for __ccgo := true; __ccgo; __ccgo = libc.AssignInt32(&c, int32(*(*uint8)(unsafe.Pointer(z + uintptr(i))))) != 0 && !(int32(Xsqlite3CtypeMap[uint8(c)])&0x01 != 0) && c != ')' {
i++
}
if c == ')' {
i++
} else {
*(*int32)(unsafe.Pointer(tokenType)) = TK_ILLEGAL
}
break
} else if c == ':' && int32(*(*uint8)(unsafe.Pointer(z + uintptr(i+1)))) == ':' {
i++
} else {
break
}
}
if n == 0 {
*(*int32)(unsafe.Pointer(tokenType)) = TK_ILLEGAL
}
return i
}
case CC_KYWD0:
{
for i = 1; int32(aiClass[*(*uint8)(unsafe.Pointer(z + uintptr(i)))]) <= CC_KYWD; i++ {
}
if int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(z + uintptr(i)))])&0x46 != 0 {
i++
break
}
*(*int32)(unsafe.Pointer(tokenType)) = TK_ID
return keywordCode(tls, z, i, tokenType)
}
case CC_X:
{
if int32(*(*uint8)(unsafe.Pointer(z + 1))) == '\'' {
*(*int32)(unsafe.Pointer(tokenType)) = TK_BLOB
for i = 2; int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(z + uintptr(i)))])&0x08 != 0; i++ {
}
if int32(*(*uint8)(unsafe.Pointer(z + uintptr(i)))) != '\'' || i%2 != 0 {
*(*int32)(unsafe.Pointer(tokenType)) = TK_ILLEGAL
for *(*uint8)(unsafe.Pointer(z + uintptr(i))) != 0 && int32(*(*uint8)(unsafe.Pointer(z + uintptr(i)))) != '\'' {
i++
}
}
if *(*uint8)(unsafe.Pointer(z + uintptr(i))) != 0 {
i++
}
return i
}
}
fallthrough
case CC_KYWD:
fallthrough
case CC_ID:
{
i = 1
break
}
case CC_BOM:
{
if int32(*(*uint8)(unsafe.Pointer(z + 1))) == 0xbb && int32(*(*uint8)(unsafe.Pointer(z + 2))) == 0xbf {
*(*int32)(unsafe.Pointer(tokenType)) = TK_SPACE
return 3
}
i = 1
break
}
case CC_NUL:
{
*(*int32)(unsafe.Pointer(tokenType)) = TK_ILLEGAL
return 0
}
default:
{
*(*int32)(unsafe.Pointer(tokenType)) = TK_ILLEGAL
return 1
}
}
for int32(Xsqlite3CtypeMap[*(*uint8)(unsafe.Pointer(z + uintptr(i)))])&0x46 != 0 {
i++
}
*(*int32)(unsafe.Pointer(tokenType)) = TK_ID
return i
}
// Run the parser on the given SQL string.
func Xsqlite3RunParser(tls *libc.TLS, pParse uintptr, zSql uintptr) int32 {
bp := tls.Alloc(2480)
defer tls.Free(2480)
var nErr int32 = 0
var pEngine uintptr
var n int32 = 0
var lastTokenParsed int32 = -1
var db uintptr = (*Parse)(unsafe.Pointer(pParse)).Fdb
var mxSqlLen int32
var pParentParse uintptr = uintptr(0)
mxSqlLen = *(*int32)(unsafe.Pointer(db + 136 + 1*4))
if (*Sqlite3)(unsafe.Pointer(db)).FnVdbeActive == 0 {
*(*int32)(unsafe.Pointer(db + 432)) = 0
}
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_OK
(*Parse)(unsafe.Pointer(pParse)).FzTail = zSql
pEngine = bp + 32
Xsqlite3ParserInit(tls, pEngine, pParse)
pParentParse = (*Sqlite3)(unsafe.Pointer(db)).FpParse
(*Sqlite3)(unsafe.Pointer(db)).FpParse = pParse
for 1 != 0 {
n = Xsqlite3GetToken(tls, zSql, bp+2456)
mxSqlLen = mxSqlLen - n
if mxSqlLen < 0 {
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_TOOBIG
(*Parse)(unsafe.Pointer(pParse)).FnErr++
break
}
if *(*int32)(unsafe.Pointer(bp + 2456)) >= TK_WINDOW {
if *(*int32)(unsafe.Pointer(db + 432)) != 0 {
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_INTERRUPT
(*Parse)(unsafe.Pointer(pParse)).FnErr++
break
}
if *(*int32)(unsafe.Pointer(bp + 2456)) == TK_SPACE {
zSql += uintptr(n)
continue
}
if int32(*(*int8)(unsafe.Pointer(zSql))) == 0 {
if lastTokenParsed == TK_SEMI {
*(*int32)(unsafe.Pointer(bp + 2456)) = 0
} else if lastTokenParsed == 0 {
break
} else {
*(*int32)(unsafe.Pointer(bp + 2456)) = TK_SEMI
}
n = 0
} else if *(*int32)(unsafe.Pointer(bp + 2456)) == TK_WINDOW {
*(*int32)(unsafe.Pointer(bp + 2456)) = analyzeWindowKeyword(tls, zSql+6)
} else if *(*int32)(unsafe.Pointer(bp + 2456)) == TK_OVER {
*(*int32)(unsafe.Pointer(bp + 2456)) = analyzeOverKeyword(tls, zSql+4, lastTokenParsed)
} else if *(*int32)(unsafe.Pointer(bp + 2456)) == TK_FILTER {
*(*int32)(unsafe.Pointer(bp + 2456)) = analyzeFilterKeyword(tls, zSql+6, lastTokenParsed)
} else {
(*Token)(unsafe.Pointer(bp + 2464)).Fz = zSql
(*Token)(unsafe.Pointer(bp + 2464)).Fn = uint32(n)
Xsqlite3ErrorMsg(tls, pParse, ts+23759, libc.VaList(bp, bp+2464))
break
}
}
(*Parse)(unsafe.Pointer(pParse)).FsLastToken.Fz = zSql
(*Parse)(unsafe.Pointer(pParse)).FsLastToken.Fn = uint32(n)
Xsqlite3Parser(tls, pEngine, *(*int32)(unsafe.Pointer(bp + 2456)), (*Parse)(unsafe.Pointer(pParse)).FsLastToken)
lastTokenParsed = *(*int32)(unsafe.Pointer(bp + 2456))
zSql += uintptr(n)
if (*Parse)(unsafe.Pointer(pParse)).Frc != SQLITE_OK {
break
}
}
Xsqlite3ParserFinalize(tls, pEngine)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
(*Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_NOMEM
}
if (*Parse)(unsafe.Pointer(pParse)).FzErrMsg != 0 || (*Parse)(unsafe.Pointer(pParse)).Frc != SQLITE_OK && (*Parse)(unsafe.Pointer(pParse)).Frc != SQLITE_DONE {
if (*Parse)(unsafe.Pointer(pParse)).FzErrMsg == uintptr(0) {
(*Parse)(unsafe.Pointer(pParse)).FzErrMsg = Xsqlite3MPrintf(tls, db, ts+3658, libc.VaList(bp+8, Xsqlite3ErrStr(tls, (*Parse)(unsafe.Pointer(pParse)).Frc)))
}
Xsqlite3_log(tls, (*Parse)(unsafe.Pointer(pParse)).Frc, ts+23784, libc.VaList(bp+16, (*Parse)(unsafe.Pointer(pParse)).FzErrMsg, (*Parse)(unsafe.Pointer(pParse)).FzTail))
nErr++
}
(*Parse)(unsafe.Pointer(pParse)).FzTail = zSql
Xsqlite3_free(tls, (*Parse)(unsafe.Pointer(pParse)).FapVtabLock)
if (*Parse)(unsafe.Pointer(pParse)).FpNewTable != 0 && !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) != PARSE_MODE_NORMAL) {
Xsqlite3DeleteTable(tls, db, (*Parse)(unsafe.Pointer(pParse)).FpNewTable)
}
if (*Parse)(unsafe.Pointer(pParse)).FpNewTrigger != 0 && !(int32((*Parse)(unsafe.Pointer(pParse)).FeParseMode) >= PARSE_MODE_RENAME) {
Xsqlite3DeleteTrigger(tls, db, (*Parse)(unsafe.Pointer(pParse)).FpNewTrigger)
}
if (*Parse)(unsafe.Pointer(pParse)).FpVList != 0 {
Xsqlite3DbNNFreeNN(tls, db, (*Parse)(unsafe.Pointer(pParse)).FpVList)
}
(*Sqlite3)(unsafe.Pointer(db)).FpParse = pParentParse
return nErr
}
// Return TRUE if the given SQL string ends in a semicolon.
//
// Special handling is require for CREATE TRIGGER statements.
// Whenever the CREATE TRIGGER keywords are seen, the statement
// must end with ";END;".
//
// This implementation uses a state machine with 8 states:
//
// (0) INVALID We have not yet seen a non-whitespace character.
//
// (1) START At the beginning or end of an SQL statement. This routine
// returns 1 if it ends in the START state and 0 if it ends
// in any other state.
//
// (2) NORMAL We are in the middle of statement which ends with a single
// semicolon.
//
// (3) EXPLAIN The keyword EXPLAIN has been seen at the beginning of
// a statement.
//
// (4) CREATE The keyword CREATE has been seen at the beginning of a
// statement, possibly preceded by EXPLAIN and/or followed by
// TEMP or TEMPORARY
//
// (5) TRIGGER We are in the middle of a trigger definition that must be
// ended by a semicolon, the keyword END, and another semicolon.
//
// (6) SEMI We've seen the first semicolon in the ";END;" that occurs at
// the end of a trigger definition.
//
// (7) END We've seen the ";END" of the ";END;" that occurs at the end
// of a trigger definition.
//
// Transitions between states above are determined by tokens extracted
// from the input. The following tokens are significant:
//
// (0) tkSEMI A semicolon.
// (1) tkWS Whitespace.
// (2) tkOTHER Any other SQL token.
// (3) tkEXPLAIN The "explain" keyword.
// (4) tkCREATE The "create" keyword.
// (5) tkTEMP The "temp" or "temporary" keyword.
// (6) tkTRIGGER The "trigger" keyword.
// (7) tkEND The "end" keyword.
//
// Whitespace never causes a state transition and is always ignored.
// This means that a SQL string of all whitespace is invalid.
//
// If we compile with SQLITE_OMIT_TRIGGER, all of the computation needed
// to recognize the end of a trigger can be omitted. All we have to do
// is look for a semicolon that is not part of an string or comment.
func Xsqlite3_complete(tls *libc.TLS, zSql uintptr) int32 {
var state U8 = U8(0)
var token U8
for *(*int8)(unsafe.Pointer(zSql)) != 0 {
switch int32(*(*int8)(unsafe.Pointer(zSql))) {
case ';':
{
token = U8(TkSEMI)
break
}
case ' ':
fallthrough
case '\r':
fallthrough
case '\t':
fallthrough
case '\n':
fallthrough
case '\f':
{
token = U8(TkWS)
break
}
case '/':
{
if int32(*(*int8)(unsafe.Pointer(zSql + 1))) != '*' {
token = U8(TkOTHER)
break
}
zSql += uintptr(2)
for *(*int8)(unsafe.Pointer(zSql)) != 0 && (int32(*(*int8)(unsafe.Pointer(zSql))) != '*' || int32(*(*int8)(unsafe.Pointer(zSql + 1))) != '/') {
zSql++
}
if int32(*(*int8)(unsafe.Pointer(zSql))) == 0 {
return 0
}
zSql++
token = U8(TkWS)
break
}
case '-':
{
if int32(*(*int8)(unsafe.Pointer(zSql + 1))) != '-' {
token = U8(TkOTHER)
break
}
for *(*int8)(unsafe.Pointer(zSql)) != 0 && int32(*(*int8)(unsafe.Pointer(zSql))) != '\n' {
zSql++
}
if int32(*(*int8)(unsafe.Pointer(zSql))) == 0 {
return libc.Bool32(int32(state) == 1)
}
token = U8(TkWS)
break
}
case '[':
{
zSql++
for *(*int8)(unsafe.Pointer(zSql)) != 0 && int32(*(*int8)(unsafe.Pointer(zSql))) != ']' {
zSql++
}
if int32(*(*int8)(unsafe.Pointer(zSql))) == 0 {
return 0
}
token = U8(TkOTHER)
break
}
case '`':
fallthrough
case '"':
fallthrough
case '\'':
{
var c int32 = int32(*(*int8)(unsafe.Pointer(zSql)))
zSql++
for *(*int8)(unsafe.Pointer(zSql)) != 0 && int32(*(*int8)(unsafe.Pointer(zSql))) != c {
zSql++
}
if int32(*(*int8)(unsafe.Pointer(zSql))) == 0 {
return 0
}
token = U8(TkOTHER)
break
}
default:
{
if int32(Xsqlite3CtypeMap[U8(*(*int8)(unsafe.Pointer(zSql)))])&0x46 != 0 {
var nId int32
for nId = 1; int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zSql + uintptr(nId))))])&0x46 != 0; nId++ {
}
switch int32(*(*int8)(unsafe.Pointer(zSql))) {
case 'c':
fallthrough
case 'C':
{
if nId == 6 && Xsqlite3_strnicmp(tls, zSql, ts+23795, 6) == 0 {
token = U8(TkCREATE)
} else {
token = U8(TkOTHER)
}
break
}
fallthrough
case 't':
fallthrough
case 'T':
{
if nId == 7 && Xsqlite3_strnicmp(tls, zSql, ts+20381, 7) == 0 {
token = U8(TkTRIGGER)
} else if nId == 4 && Xsqlite3_strnicmp(tls, zSql, ts+23802, 4) == 0 {
token = U8(TkTEMP)
} else if nId == 9 && Xsqlite3_strnicmp(tls, zSql, ts+23807, 9) == 0 {
token = U8(TkTEMP)
} else {
token = U8(TkOTHER)
}
break
}
fallthrough
case 'e':
fallthrough
case 'E':
{
if nId == 3 && Xsqlite3_strnicmp(tls, zSql, ts+23817, 3) == 0 {
token = U8(TkEND)
} else if nId == 7 && Xsqlite3_strnicmp(tls, zSql, ts+23821, 7) == 0 {
token = U8(TkEXPLAIN)
} else {
token = U8(TkOTHER)
}
break
}
fallthrough
default:
{
token = U8(TkOTHER)
break
}
}
zSql += uintptr(nId - 1)
} else {
token = U8(TkOTHER)
}
break
}
}
state = *(*U8)(unsafe.Pointer(uintptr(unsafe.Pointer(&trans)) + uintptr(state)*8 + uintptr(token)))
zSql++
}
return libc.Bool32(int32(state) == 1)
}
var trans = [8][8]U8{
{U8(1), U8(0), U8(2), U8(3), U8(4), U8(2), U8(2), U8(2)},
{U8(1), U8(1), U8(2), U8(3), U8(4), U8(2), U8(2), U8(2)},
{U8(1), U8(2), U8(2), U8(2), U8(2), U8(2), U8(2), U8(2)},
{U8(1), U8(3), U8(3), U8(2), U8(4), U8(2), U8(2), U8(2)},
{U8(1), U8(4), U8(2), U8(2), U8(2), U8(4), U8(5), U8(2)},
{U8(6), U8(5), U8(5), U8(5), U8(5), U8(5), U8(5), U8(5)},
{U8(6), U8(6), U8(5), U8(5), U8(5), U8(5), U8(5), U8(7)},
{U8(1), U8(7), U8(5), U8(5), U8(5), U8(5), U8(5), U8(5)},
}
// This routine is the same as the sqlite3_complete() routine described
// above, except that the parameter is required to be UTF-16 encoded, not
// UTF-8.
func Xsqlite3_complete16(tls *libc.TLS, zSql uintptr) int32 {
var pVal uintptr
var zSql8 uintptr
var rc int32
rc = Xsqlite3_initialize(tls)
if rc != 0 {
return rc
}
pVal = Xsqlite3ValueNew(tls, uintptr(0))
Xsqlite3ValueSetStr(tls, pVal, -1, zSql, uint8(SQLITE_UTF16LE), uintptr(0))
zSql8 = Xsqlite3ValueText(tls, pVal, uint8(SQLITE_UTF8))
if zSql8 != 0 {
rc = Xsqlite3_complete(tls, zSql8)
} else {
rc = SQLITE_NOMEM
}
Xsqlite3ValueFree(tls, pVal)
return rc & 0xff
}
func sqlite3TestExtInit(tls *libc.TLS, db uintptr) int32 {
_ = db
return Xsqlite3FaultSim(tls, 500)
}
var sqlite3BuiltinExtensions = [4]uintptr{
0,
0,
0,
0,
}
// IMPLEMENTATION-OF: R-53536-42575 The sqlite3_libversion() function returns
// a pointer to the to the sqlite3_version[] string constant.
func Xsqlite3_libversion(tls *libc.TLS) uintptr {
return uintptr(unsafe.Pointer(&Xsqlite3_version))
}
// IMPLEMENTATION-OF: R-35210-63508 The sqlite3_libversion_number() function
// returns an integer equal to SQLITE_VERSION_NUMBER.
func Xsqlite3_libversion_number(tls *libc.TLS) int32 {
return SQLITE_VERSION_NUMBER
}
// IMPLEMENTATION-OF: R-20790-14025 The sqlite3_threadsafe() function returns
// zero if and only if SQLite was compiled with mutexing code omitted due to
// the SQLITE_THREADSAFE compile-time option being set to 0.
func Xsqlite3_threadsafe(tls *libc.TLS) int32 {
return SQLITE_THREADSAFE
}
// If the following global variable points to a string which is the
// name of a directory, then that directory will be used to store
// temporary files.
//
// See also the "PRAGMA temp_store_directory" SQL command.
var Xsqlite3_temp_directory uintptr = uintptr(0)
// If the following global variable points to a string which is the
// name of a directory, then that directory will be used to store
// all database files specified with a relative pathname.
//
// See also the "PRAGMA data_store_directory" SQL command.
var Xsqlite3_data_directory uintptr = uintptr(0)
var mu mutex
func init() { mu.recursive = true }
func Xsqlite3_initialize(tls *libc.TLS) int32 {
mu.enter(tls.ID)
defer mu.leave(tls.ID)
var pMainMtx uintptr
var rc int32
if Xsqlite3Config.FisInit != 0 {
return SQLITE_OK
}
rc = Xsqlite3MutexInit(tls)
if rc != 0 {
return rc
}
pMainMtx = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MAIN)
Xsqlite3_mutex_enter(tls, pMainMtx)
Xsqlite3Config.FisMutexInit = 1
if !(Xsqlite3Config.FisMallocInit != 0) {
rc = Xsqlite3MallocInit(tls)
}
if rc == SQLITE_OK {
Xsqlite3Config.FisMallocInit = 1
if !(int32(Xsqlite3Config.FpInitMutex) != 0) {
Xsqlite3Config.FpInitMutex = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_RECURSIVE)
if Xsqlite3Config.FbCoreMutex != 0 && !(int32(Xsqlite3Config.FpInitMutex) != 0) {
rc = SQLITE_NOMEM
}
}
}
if rc == SQLITE_OK {
Xsqlite3Config.FnRefInitMutex++
}
Xsqlite3_mutex_leave(tls, pMainMtx)
if rc != SQLITE_OK {
return rc
}
Xsqlite3_mutex_enter(tls, Xsqlite3Config.FpInitMutex)
if Xsqlite3Config.FisInit == 0 && Xsqlite3Config.FinProgress == 0 {
Xsqlite3Config.FinProgress = 1
libc.X__builtin___memset_chk(tls, uintptr(unsafe.Pointer(&Xsqlite3BuiltinFunctions)), 0, uint64(unsafe.Sizeof(Xsqlite3BuiltinFunctions)), libc.X__builtin_object_size(tls, uintptr(unsafe.Pointer(&Xsqlite3BuiltinFunctions)), 0))
Xsqlite3RegisterBuiltinFunctions(tls)
if Xsqlite3Config.FisPCacheInit == 0 {
rc = Xsqlite3PcacheInitialize(tls)
}
if rc == SQLITE_OK {
Xsqlite3Config.FisPCacheInit = 1
rc = Xsqlite3OsInit(tls)
}
if rc == SQLITE_OK {
rc = Xsqlite3MemdbInit(tls)
}
if rc == SQLITE_OK {
Xsqlite3PCacheBufferSetup(tls, Xsqlite3Config.FpPage,
Xsqlite3Config.FszPage, Xsqlite3Config.FnPage)
Xsqlite3Config.FisInit = 1
}
Xsqlite3Config.FinProgress = 0
}
Xsqlite3_mutex_leave(tls, Xsqlite3Config.FpInitMutex)
Xsqlite3_mutex_enter(tls, pMainMtx)
Xsqlite3Config.FnRefInitMutex--
if Xsqlite3Config.FnRefInitMutex <= 0 {
Xsqlite3_mutex_free(tls, Xsqlite3Config.FpInitMutex)
Xsqlite3Config.FpInitMutex = uintptr(0)
}
Xsqlite3_mutex_leave(tls, pMainMtx)
return rc
}
// Undo the effects of sqlite3_initialize(). Must not be called while
// there are outstanding database connections or memory allocations or
// while any part of SQLite is otherwise in use in any thread. This
// routine is not threadsafe. But it is safe to invoke this routine
// on when SQLite is already shut down. If SQLite is already shut down
// when this routine is invoked, then this routine is a harmless no-op.
func Xsqlite3_shutdown(tls *libc.TLS) int32 {
if Xsqlite3Config.FisInit != 0 {
Xsqlite3_os_end(tls)
Xsqlite3_reset_auto_extension(tls)
Xsqlite3Config.FisInit = 0
}
if Xsqlite3Config.FisPCacheInit != 0 {
Xsqlite3PcacheShutdown(tls)
Xsqlite3Config.FisPCacheInit = 0
}
if Xsqlite3Config.FisMallocInit != 0 {
Xsqlite3MallocEnd(tls)
Xsqlite3Config.FisMallocInit = 0
Xsqlite3_data_directory = uintptr(0)
Xsqlite3_temp_directory = uintptr(0)
}
if Xsqlite3Config.FisMutexInit != 0 {
Xsqlite3MutexEnd(tls)
Xsqlite3Config.FisMutexInit = 0
}
return SQLITE_OK
}
// This API allows applications to modify the global configuration of
// the SQLite library at run-time.
//
// This routine should only be called when there are no outstanding
// database connections or memory allocations. This routine is not
// threadsafe. Failure to heed these warnings can lead to unpredictable
// behavior.
func Xsqlite3_config(tls *libc.TLS, op int32, va uintptr) int32 {
var ap Va_list
_ = ap
var rc int32 = SQLITE_OK
if Xsqlite3Config.FisInit != 0 {
return Xsqlite3MisuseError(tls, 174337)
}
ap = va
switch op {
case SQLITE_CONFIG_SINGLETHREAD:
{
Xsqlite3Config.FbCoreMutex = U8(0)
Xsqlite3Config.FbFullMutex = U8(0)
break
}
case SQLITE_CONFIG_MULTITHREAD:
{
Xsqlite3Config.FbCoreMutex = U8(1)
Xsqlite3Config.FbFullMutex = U8(0)
break
}
case SQLITE_CONFIG_SERIALIZED:
{
Xsqlite3Config.FbCoreMutex = U8(1)
Xsqlite3Config.FbFullMutex = U8(1)
break
}
case SQLITE_CONFIG_MUTEX:
{
Xsqlite3Config.Fmutex = *(*Sqlite3_mutex_methods)(unsafe.Pointer(libc.VaUintptr(&ap)))
break
}
case SQLITE_CONFIG_GETMUTEX:
{
*(*Sqlite3_mutex_methods)(unsafe.Pointer(libc.VaUintptr(&ap))) = Xsqlite3Config.Fmutex
break
}
case SQLITE_CONFIG_MALLOC:
{
Xsqlite3Config.Fm = *(*Sqlite3_mem_methods)(unsafe.Pointer(libc.VaUintptr(&ap)))
break
}
case SQLITE_CONFIG_GETMALLOC:
{
if Xsqlite3Config.Fm.FxMalloc == uintptr(0) {
Xsqlite3MemSetDefault(tls)
}
*(*Sqlite3_mem_methods)(unsafe.Pointer(libc.VaUintptr(&ap))) = Xsqlite3Config.Fm
break
}
case SQLITE_CONFIG_MEMSTATUS:
{
Xsqlite3Config.FbMemstat = libc.VaInt32(&ap)
break
}
case SQLITE_CONFIG_SMALL_MALLOC:
{
Xsqlite3Config.FbSmallMalloc = U8(libc.VaInt32(&ap))
break
}
case SQLITE_CONFIG_PAGECACHE:
{
Xsqlite3Config.FpPage = libc.VaUintptr(&ap)
Xsqlite3Config.FszPage = libc.VaInt32(&ap)
Xsqlite3Config.FnPage = libc.VaInt32(&ap)
break
}
case SQLITE_CONFIG_PCACHE_HDRSZ:
{
*(*int32)(unsafe.Pointer(libc.VaUintptr(&ap))) = Xsqlite3HeaderSizeBtree(tls) + Xsqlite3HeaderSizePcache(tls) + Xsqlite3HeaderSizePcache1(tls)
break
}
case SQLITE_CONFIG_PCACHE:
{
break
}
case SQLITE_CONFIG_GETPCACHE:
{
rc = SQLITE_ERROR
break
}
case SQLITE_CONFIG_PCACHE2:
{
Xsqlite3Config.Fpcache2 = *(*Sqlite3_pcache_methods2)(unsafe.Pointer(libc.VaUintptr(&ap)))
break
}
case SQLITE_CONFIG_GETPCACHE2:
{
if Xsqlite3Config.Fpcache2.FxInit == uintptr(0) {
Xsqlite3PCacheSetDefault(tls)
}
*(*Sqlite3_pcache_methods2)(unsafe.Pointer(libc.VaUintptr(&ap))) = Xsqlite3Config.Fpcache2
break
}
case SQLITE_CONFIG_LOOKASIDE:
{
Xsqlite3Config.FszLookaside = libc.VaInt32(&ap)
Xsqlite3Config.FnLookaside = libc.VaInt32(&ap)
break
}
case SQLITE_CONFIG_LOG:
{
Xsqlite3Config.FxLog = libc.VaUintptr(&ap)
Xsqlite3Config.FpLogArg = libc.VaUintptr(&ap)
break
}
case SQLITE_CONFIG_URI:
{
Xsqlite3Config.FbOpenUri = U8(libc.VaInt32(&ap))
break
}
case SQLITE_CONFIG_COVERING_INDEX_SCAN:
{
Xsqlite3Config.FbUseCis = U8(libc.VaInt32(&ap))
break
}
case SQLITE_CONFIG_MMAP_SIZE:
{
var szMmap Sqlite3_int64 = libc.VaInt64(&ap)
var mxMmap Sqlite3_int64 = libc.VaInt64(&ap)
if mxMmap < int64(0) || mxMmap > int64(SQLITE_MAX_MMAP_SIZE) {
mxMmap = int64(SQLITE_MAX_MMAP_SIZE)
}
if szMmap < int64(0) {
szMmap = int64(SQLITE_DEFAULT_MMAP_SIZE)
}
if szMmap > mxMmap {
szMmap = mxMmap
}
Xsqlite3Config.FmxMmap = mxMmap
Xsqlite3Config.FszMmap = szMmap
break
}
case SQLITE_CONFIG_PMASZ:
{
Xsqlite3Config.FszPma = libc.VaUint32(&ap)
break
}
case SQLITE_CONFIG_STMTJRNL_SPILL:
{
Xsqlite3Config.FnStmtSpill = libc.VaInt32(&ap)
break
}
case SQLITE_CONFIG_MEMDB_MAXSIZE:
{
Xsqlite3Config.FmxMemdbSize = libc.VaInt64(&ap)
break
}
default:
{
rc = SQLITE_ERROR
break
}
}
_ = ap
return rc
}
func setupLookaside(tls *libc.TLS, db uintptr, pBuf uintptr, sz int32, cnt int32) int32 {
var pStart uintptr
var szAlloc Sqlite3_int64 = Sqlite3_int64(sz) * Sqlite3_int64(cnt)
var nBig int32
var nSm int32
if Xsqlite3LookasideUsed(tls, db, uintptr(0)) > 0 {
return SQLITE_BUSY
}
if (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbMalloced != 0 {
Xsqlite3_free(tls, (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpStart)
}
sz = sz & libc.CplInt32(7)
if sz <= int32(unsafe.Sizeof(uintptr(0))) {
sz = 0
}
if cnt < 0 {
cnt = 0
}
if sz == 0 || cnt == 0 {
sz = 0
pStart = uintptr(0)
} else if pBuf == uintptr(0) {
Xsqlite3BeginBenignMalloc(tls)
pStart = Xsqlite3Malloc(tls, uint64(szAlloc))
Xsqlite3EndBenignMalloc(tls)
if pStart != 0 {
szAlloc = Sqlite3_int64(Xsqlite3MallocSize(tls, pStart))
}
} else {
pStart = pBuf
}
if sz >= LOOKASIDE_SMALL*3 {
nBig = int32(szAlloc / Sqlite3_int64(3*LOOKASIDE_SMALL+sz))
nSm = int32((szAlloc - Sqlite3_int64(sz*nBig)) / int64(LOOKASIDE_SMALL))
} else if sz >= LOOKASIDE_SMALL*2 {
nBig = int32(szAlloc / Sqlite3_int64(LOOKASIDE_SMALL+sz))
nSm = int32((szAlloc - Sqlite3_int64(sz*nBig)) / int64(LOOKASIDE_SMALL))
} else if sz > 0 {
nBig = int32(szAlloc / Sqlite3_int64(sz))
nSm = 0
} else {
nBig = libc.AssignInt32(&nSm, 0)
}
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpStart = pStart
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpInit = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpFree = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz = U16(sz)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FszTrue = U16(sz)
if pStart != 0 {
var i int32
var p uintptr
p = pStart
for i = 0; i < nBig; i++ {
(*LookasideSlot)(unsafe.Pointer(p)).FpNext = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpInit
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpInit = p
p = p + uintptr(sz)
}
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallInit = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallFree = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpMiddle = p
for i = 0; i < nSm; i++ {
(*LookasideSlot)(unsafe.Pointer(p)).FpNext = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallInit
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallInit = p
p = p + 128
}
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpEnd = p
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable = U32(0)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbMalloced = func() uint8 {
if pBuf == uintptr(0) {
return uint8(1)
}
return uint8(0)
}()
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FnSlot = U32(nBig + nSm)
} else {
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpStart = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallInit = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpSmallFree = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpMiddle = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpEnd = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable = U32(1)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz = U16(0)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbMalloced = U8(0)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FnSlot = U32(0)
}
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpTrueEnd = (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpEnd
return SQLITE_OK
}
// Return the mutex associated with a database connection.
func Xsqlite3_db_mutex(tls *libc.TLS, db uintptr) uintptr {
return (*Sqlite3)(unsafe.Pointer(db)).Fmutex
}
// Free up as much memory as we can from the given database
// connection.
func Xsqlite3_db_release_memory(tls *libc.TLS, db uintptr) int32 {
var i int32
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
Xsqlite3BtreeEnterAll(tls, db)
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if pBt != 0 {
var pPager uintptr = Xsqlite3BtreePager(tls, pBt)
Xsqlite3PagerShrink(tls, pPager)
}
}
Xsqlite3BtreeLeaveAll(tls, db)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return SQLITE_OK
}
// Flush any dirty pages in the pager-cache for any attached database
// to disk.
func Xsqlite3_db_cacheflush(tls *libc.TLS, db uintptr) int32 {
var i int32
var rc int32 = SQLITE_OK
var bSeenBusy int32 = 0
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
Xsqlite3BtreeEnterAll(tls, db)
for i = 0; rc == SQLITE_OK && i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if pBt != 0 && Xsqlite3BtreeTxnState(tls, pBt) == SQLITE_TXN_WRITE {
var pPager uintptr = Xsqlite3BtreePager(tls, pBt)
rc = Xsqlite3PagerFlush(tls, pPager)
if rc == SQLITE_BUSY {
bSeenBusy = 1
rc = SQLITE_OK
}
}
}
Xsqlite3BtreeLeaveAll(tls, db)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return func() int32 {
if rc == SQLITE_OK && bSeenBusy != 0 {
return SQLITE_BUSY
}
return rc
}()
}
// Configuration settings for an individual database connection
func Xsqlite3_db_config(tls *libc.TLS, db uintptr, op int32, va uintptr) int32 {
var ap Va_list
_ = ap
var rc int32
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
ap = va
switch op {
case SQLITE_DBCONFIG_MAINDBNAME:
{
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FzDbSName = libc.VaUintptr(&ap)
rc = SQLITE_OK
break
}
case SQLITE_DBCONFIG_LOOKASIDE:
{
var pBuf uintptr = libc.VaUintptr(&ap)
var sz int32 = libc.VaInt32(&ap)
var cnt int32 = libc.VaInt32(&ap)
rc = setupLookaside(tls, db, pBuf, sz, cnt)
break
}
default:
{
var i uint32
rc = SQLITE_ERROR
for i = uint32(0); i < uint32(int32(uint64(unsafe.Sizeof(aFlagOp))/uint64(unsafe.Sizeof(struct {
Fop int32
Fmask U32
}{})))); i++ {
if aFlagOp[i].Fop == op {
var onoff int32 = libc.VaInt32(&ap)
var pRes uintptr = libc.VaUintptr(&ap)
var oldFlags U64 = (*Sqlite3)(unsafe.Pointer(db)).Fflags
if onoff > 0 {
*(*U64)(unsafe.Pointer(db + 48)) |= U64(aFlagOp[i].Fmask)
} else if onoff == 0 {
*(*U64)(unsafe.Pointer(db + 48)) &= ^U64(aFlagOp[i].Fmask)
}
if oldFlags != (*Sqlite3)(unsafe.Pointer(db)).Fflags {
Xsqlite3ExpirePreparedStatements(tls, db, 0)
}
if pRes != 0 {
*(*int32)(unsafe.Pointer(pRes)) = libc.Bool32((*Sqlite3)(unsafe.Pointer(db)).Fflags&U64(aFlagOp[i].Fmask) != uint64(0))
}
rc = SQLITE_OK
break
}
}
break
}
}
_ = ap
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
var aFlagOp = [16]struct {
Fop int32
Fmask U32
}{
{Fop: SQLITE_DBCONFIG_ENABLE_FKEY, Fmask: U32(SQLITE_ForeignKeys)},
{Fop: SQLITE_DBCONFIG_ENABLE_TRIGGER, Fmask: U32(SQLITE_EnableTrigger)},
{Fop: SQLITE_DBCONFIG_ENABLE_VIEW, Fmask: SQLITE_EnableView},
{Fop: SQLITE_DBCONFIG_ENABLE_FTS3_TOKENIZER, Fmask: U32(SQLITE_Fts3Tokenizer)},
{Fop: SQLITE_DBCONFIG_ENABLE_LOAD_EXTENSION, Fmask: U32(SQLITE_LoadExtension)},
{Fop: SQLITE_DBCONFIG_NO_CKPT_ON_CLOSE, Fmask: U32(SQLITE_NoCkptOnClose)},
{Fop: SQLITE_DBCONFIG_ENABLE_QPSG, Fmask: U32(SQLITE_EnableQPSG)},
{Fop: SQLITE_DBCONFIG_TRIGGER_EQP, Fmask: U32(SQLITE_TriggerEQP)},
{Fop: SQLITE_DBCONFIG_RESET_DATABASE, Fmask: U32(SQLITE_ResetDatabase)},
{Fop: SQLITE_DBCONFIG_DEFENSIVE, Fmask: U32(SQLITE_Defensive)},
{Fop: SQLITE_DBCONFIG_WRITABLE_SCHEMA, Fmask: U32(SQLITE_WriteSchema | SQLITE_NoSchemaError)},
{Fop: SQLITE_DBCONFIG_LEGACY_ALTER_TABLE, Fmask: U32(SQLITE_LegacyAlter)},
{Fop: SQLITE_DBCONFIG_DQS_DDL, Fmask: U32(SQLITE_DqsDDL)},
{Fop: SQLITE_DBCONFIG_DQS_DML, Fmask: U32(SQLITE_DqsDML)},
{Fop: SQLITE_DBCONFIG_LEGACY_FILE_FORMAT, Fmask: U32(SQLITE_LegacyFileFmt)},
{Fop: SQLITE_DBCONFIG_TRUSTED_SCHEMA, Fmask: U32(SQLITE_TrustedSchema)},
}
func binCollFunc(tls *libc.TLS, NotUsed uintptr, nKey1 int32, pKey1 uintptr, nKey2 int32, pKey2 uintptr) int32 {
var rc int32
var n int32
_ = NotUsed
if nKey1 < nKey2 {
n = nKey1
} else {
n = nKey2
}
rc = libc.Xmemcmp(tls, pKey1, pKey2, uint64(n))
if rc == 0 {
rc = nKey1 - nKey2
}
return rc
}
func rtrimCollFunc(tls *libc.TLS, pUser uintptr, nKey1 int32, pKey1 uintptr, nKey2 int32, pKey2 uintptr) int32 {
var pK1 uintptr = pKey1
var pK2 uintptr = pKey2
for nKey1 != 0 && int32(*(*U8)(unsafe.Pointer(pK1 + uintptr(nKey1-1)))) == ' ' {
nKey1--
}
for nKey2 != 0 && int32(*(*U8)(unsafe.Pointer(pK2 + uintptr(nKey2-1)))) == ' ' {
nKey2--
}
return binCollFunc(tls, pUser, nKey1, pKey1, nKey2, pKey2)
}
// Return true if CollSeq is the default built-in BINARY.
func Xsqlite3IsBinary(tls *libc.TLS, p uintptr) int32 {
return libc.Bool32(p == uintptr(0) || (*CollSeq)(unsafe.Pointer(p)).FxCmp == *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32
}{binCollFunc})))
}
func nocaseCollatingFunc(tls *libc.TLS, NotUsed uintptr, nKey1 int32, pKey1 uintptr, nKey2 int32, pKey2 uintptr) int32 {
var r int32 = Xsqlite3_strnicmp(tls,
pKey1, pKey2, func() int32 {
if nKey1 < nKey2 {
return nKey1
}
return nKey2
}())
_ = NotUsed
if 0 == r {
r = nKey1 - nKey2
}
return r
}
// Return the ROWID of the most recent insert
func Xsqlite3_last_insert_rowid(tls *libc.TLS, db uintptr) Sqlite_int64 {
return (*Sqlite3)(unsafe.Pointer(db)).FlastRowid
}
// Set the value returned by the sqlite3_last_insert_rowid() API function.
func Xsqlite3_set_last_insert_rowid(tls *libc.TLS, db uintptr, iRowid Sqlite3_int64) {
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
(*Sqlite3)(unsafe.Pointer(db)).FlastRowid = iRowid
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
}
// Return the number of changes in the most recent call to sqlite3_exec().
func Xsqlite3_changes64(tls *libc.TLS, db uintptr) Sqlite3_int64 {
return (*Sqlite3)(unsafe.Pointer(db)).FnChange
}
func Xsqlite3_changes(tls *libc.TLS, db uintptr) int32 {
return int32(Xsqlite3_changes64(tls, db))
}
// Return the number of changes since the database handle was opened.
func Xsqlite3_total_changes64(tls *libc.TLS, db uintptr) Sqlite3_int64 {
return (*Sqlite3)(unsafe.Pointer(db)).FnTotalChange
}
func Xsqlite3_total_changes(tls *libc.TLS, db uintptr) int32 {
return int32(Xsqlite3_total_changes64(tls, db))
}
// Close all open savepoints. This function only manipulates fields of the
// database handle object, it does not close any savepoints that may be open
// at the b-tree/pager level.
func Xsqlite3CloseSavepoints(tls *libc.TLS, db uintptr) {
for (*Sqlite3)(unsafe.Pointer(db)).FpSavepoint != 0 {
var pTmp uintptr = (*Sqlite3)(unsafe.Pointer(db)).FpSavepoint
(*Sqlite3)(unsafe.Pointer(db)).FpSavepoint = (*Savepoint)(unsafe.Pointer(pTmp)).FpNext
Xsqlite3DbFree(tls, db, pTmp)
}
(*Sqlite3)(unsafe.Pointer(db)).FnSavepoint = 0
(*Sqlite3)(unsafe.Pointer(db)).FnStatement = 0
(*Sqlite3)(unsafe.Pointer(db)).FisTransactionSavepoint = U8(0)
}
func functionDestroy(tls *libc.TLS, db uintptr, p uintptr) {
var pDestructor uintptr
pDestructor = *(*uintptr)(unsafe.Pointer(p + 64))
if pDestructor != 0 {
(*FuncDestructor)(unsafe.Pointer(pDestructor)).FnRef--
if (*FuncDestructor)(unsafe.Pointer(pDestructor)).FnRef == 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*FuncDestructor)(unsafe.Pointer(pDestructor)).FxDestroy})).f(tls, (*FuncDestructor)(unsafe.Pointer(pDestructor)).FpUserData)
Xsqlite3DbFree(tls, db, pDestructor)
}
}
}
func disconnectAllVtab(tls *libc.TLS, db uintptr) {
var i int32
var p uintptr
Xsqlite3BtreeEnterAll(tls, db)
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var pSchema uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpSchema
if pSchema != 0 {
for p = (*Hash)(unsafe.Pointer(pSchema + 8)).Ffirst; p != 0; p = (*HashElem)(unsafe.Pointer(p)).Fnext {
var pTab uintptr = (*HashElem)(unsafe.Pointer(p)).Fdata
if int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VTAB {
Xsqlite3VtabDisconnect(tls, db, pTab)
}
}
}
}
for p = (*Hash)(unsafe.Pointer(db + 576)).Ffirst; p != 0; p = (*HashElem)(unsafe.Pointer(p)).Fnext {
var pMod uintptr = (*HashElem)(unsafe.Pointer(p)).Fdata
if (*Module)(unsafe.Pointer(pMod)).FpEpoTab != 0 {
Xsqlite3VtabDisconnect(tls, db, (*Module)(unsafe.Pointer(pMod)).FpEpoTab)
}
}
Xsqlite3VtabUnlockList(tls, db)
Xsqlite3BtreeLeaveAll(tls, db)
}
func connectionIsBusy(tls *libc.TLS, db uintptr) int32 {
var j int32
if (*Sqlite3)(unsafe.Pointer(db)).FpVdbe != 0 {
return 1
}
for j = 0; j < (*Sqlite3)(unsafe.Pointer(db)).FnDb; j++ {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(j)*32)).FpBt
if pBt != 0 && Xsqlite3BtreeIsInBackup(tls, pBt) != 0 {
return 1
}
}
return 0
}
func sqlite3Close(tls *libc.TLS, db uintptr, forceZombie int32) int32 {
if !(db != 0) {
return SQLITE_OK
}
if !(Xsqlite3SafetyCheckSickOrOk(tls, db) != 0) {
return Xsqlite3MisuseError(tls, 175111)
}
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if int32((*Sqlite3)(unsafe.Pointer(db)).FmTrace)&SQLITE_TRACE_CLOSE != 0 {
(*struct {
f func(*libc.TLS, U32, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{*(*uintptr)(unsafe.Pointer(db + 248))})).f(tls, uint32(SQLITE_TRACE_CLOSE), (*Sqlite3)(unsafe.Pointer(db)).FpTraceArg, db, uintptr(0))
}
disconnectAllVtab(tls, db)
Xsqlite3VtabRollback(tls, db)
if !(forceZombie != 0) && connectionIsBusy(tls, db) != 0 {
Xsqlite3ErrorWithMsg(tls, db, SQLITE_BUSY,
ts+23829, 0)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return SQLITE_BUSY
}
(*Sqlite3)(unsafe.Pointer(db)).FeOpenState = U8(SQLITE_STATE_ZOMBIE)
Xsqlite3LeaveMutexAndCloseZombie(tls, db)
return SQLITE_OK
}
// Return the transaction state for a single databse, or the maximum
// transaction state over all attached databases if zSchema is null.
func Xsqlite3_txn_state(tls *libc.TLS, db uintptr, zSchema uintptr) int32 {
var iDb int32
var nDb int32
var iTxn int32 = -1
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if zSchema != 0 {
nDb = libc.AssignInt32(&iDb, Xsqlite3FindDbName(tls, db, zSchema))
if iDb < 0 {
nDb--
}
} else {
iDb = 0
nDb = (*Sqlite3)(unsafe.Pointer(db)).FnDb - 1
}
for ; iDb <= nDb; iDb++ {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpBt
var x int32
if pBt != uintptr(0) {
x = Xsqlite3BtreeTxnState(tls, pBt)
} else {
x = SQLITE_TXN_NONE
}
if x > iTxn {
iTxn = x
}
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return iTxn
}
// Two variations on the public interface for closing a database
// connection. The sqlite3_close() version returns SQLITE_BUSY and
// leaves the connection open if there are unfinalized prepared
// statements or unfinished sqlite3_backups. The sqlite3_close_v2()
// version forces the connection to become a zombie if there are
// unclosed resources, and arranges for deallocation when the last
// prepare statement or sqlite3_backup closes.
func Xsqlite3_close(tls *libc.TLS, db uintptr) int32 {
return sqlite3Close(tls, db, 0)
}
func Xsqlite3_close_v2(tls *libc.TLS, db uintptr) int32 {
return sqlite3Close(tls, db, 1)
}
// Close the mutex on database connection db.
//
// Furthermore, if database connection db is a zombie (meaning that there
// has been a prior call to sqlite3_close(db) or sqlite3_close_v2(db)) and
// every sqlite3_stmt has now been finalized and every sqlite3_backup has
// finished, then free all resources.
func Xsqlite3LeaveMutexAndCloseZombie(tls *libc.TLS, db uintptr) {
var i uintptr
var j int32
if int32((*Sqlite3)(unsafe.Pointer(db)).FeOpenState) != SQLITE_STATE_ZOMBIE || connectionIsBusy(tls, db) != 0 {
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return
}
Xsqlite3RollbackAll(tls, db, SQLITE_OK)
Xsqlite3CloseSavepoints(tls, db)
for j = 0; j < (*Sqlite3)(unsafe.Pointer(db)).FnDb; j++ {
var pDb uintptr = (*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(j)*32
if (*Db1)(unsafe.Pointer(pDb)).FpBt != 0 {
Xsqlite3BtreeClose(tls, (*Db1)(unsafe.Pointer(pDb)).FpBt)
(*Db1)(unsafe.Pointer(pDb)).FpBt = uintptr(0)
if j != 1 {
(*Db1)(unsafe.Pointer(pDb)).FpSchema = uintptr(0)
}
}
}
if (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema != 0 {
Xsqlite3SchemaClear(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema)
}
Xsqlite3VtabUnlockList(tls, db)
Xsqlite3CollapseDatabaseArray(tls, db)
Xsqlite3ConnectionClosed(tls, db)
for i = (*Hash)(unsafe.Pointer(db + 624)).Ffirst; i != 0; i = (*HashElem)(unsafe.Pointer(i)).Fnext {
var pNext uintptr
var p uintptr
p = (*HashElem)(unsafe.Pointer(i)).Fdata
for __ccgo := true; __ccgo; __ccgo = p != 0 {
functionDestroy(tls, db, p)
pNext = (*FuncDef)(unsafe.Pointer(p)).FpNext
Xsqlite3DbFree(tls, db, p)
p = pNext
}
}
Xsqlite3HashClear(tls, db+624)
for i = (*Hash)(unsafe.Pointer(db + 648)).Ffirst; i != 0; i = (*HashElem)(unsafe.Pointer(i)).Fnext {
var pColl uintptr = (*HashElem)(unsafe.Pointer(i)).Fdata
for j = 0; j < 3; j++ {
if (*CollSeq)(unsafe.Pointer(pColl+uintptr(j)*40)).FxDel != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*CollSeq)(unsafe.Pointer(pColl + uintptr(j)*40)).FxDel})).f(tls, (*CollSeq)(unsafe.Pointer(pColl+uintptr(j)*40)).FpUser)
}
}
Xsqlite3DbFree(tls, db, pColl)
}
Xsqlite3HashClear(tls, db+648)
for i = (*Hash)(unsafe.Pointer(db + 576)).Ffirst; i != 0; i = (*HashElem)(unsafe.Pointer(i)).Fnext {
var pMod uintptr = (*HashElem)(unsafe.Pointer(i)).Fdata
Xsqlite3VtabEponymousTableClear(tls, db, pMod)
Xsqlite3VtabModuleUnref(tls, db, pMod)
}
Xsqlite3HashClear(tls, db+576)
Xsqlite3Error(tls, db, SQLITE_OK)
Xsqlite3ValueFree(tls, (*Sqlite3)(unsafe.Pointer(db)).FpErr)
Xsqlite3CloseExtensions(tls, db)
(*Sqlite3)(unsafe.Pointer(db)).FeOpenState = U8(SQLITE_STATE_ERROR)
Xsqlite3DbFree(tls, db, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+1*32)).FpSchema)
if (*Sqlite3)(unsafe.Pointer(db)).FxAutovacDestr != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxAutovacDestr})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpAutovacPagesArg)
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
(*Sqlite3)(unsafe.Pointer(db)).FeOpenState = U8(SQLITE_STATE_CLOSED)
Xsqlite3_mutex_free(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbMalloced != 0 {
Xsqlite3_free(tls, (*Sqlite3)(unsafe.Pointer(db)).Flookaside.FpStart)
}
Xsqlite3_free(tls, db)
}
// Rollback all database files. If tripCode is not SQLITE_OK, then
// any write cursors are invalidated ("tripped" - as in "tripping a circuit
// breaker") and made to return tripCode if there are any further
// attempts to use that cursor. Read cursors remain open and valid
// but are "saved" in case the table pages are moved around.
func Xsqlite3RollbackAll(tls *libc.TLS, db uintptr, tripCode int32) {
var i int32
var inTrans int32 = 0
var schemaChange int32
Xsqlite3BeginBenignMalloc(tls)
Xsqlite3BtreeEnterAll(tls, db)
schemaChange = libc.Bool32((*Sqlite3)(unsafe.Pointer(db)).FmDbFlags&U32(DBFLAG_SchemaChange) != U32(0) && int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) == 0)
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb; i++ {
var p uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(i)*32)).FpBt
if p != 0 {
if Xsqlite3BtreeTxnState(tls, p) == SQLITE_TXN_WRITE {
inTrans = 1
}
Xsqlite3BtreeRollback(tls, p, tripCode, libc.BoolInt32(!(schemaChange != 0)))
}
}
Xsqlite3VtabRollback(tls, db)
Xsqlite3EndBenignMalloc(tls)
if schemaChange != 0 {
Xsqlite3ExpirePreparedStatements(tls, db, 0)
Xsqlite3ResetAllSchemasOfConnection(tls, db)
}
Xsqlite3BtreeLeaveAll(tls, db)
(*Sqlite3)(unsafe.Pointer(db)).FnDeferredCons = int64(0)
(*Sqlite3)(unsafe.Pointer(db)).FnDeferredImmCons = int64(0)
*(*U64)(unsafe.Pointer(db + 48)) &= libc.CplUint64(uint64(SQLITE_DeferFKs) | uint64(0x00002)<<32)
if (*Sqlite3)(unsafe.Pointer(db)).FxRollbackCallback != 0 && (inTrans != 0 || !(int32((*Sqlite3)(unsafe.Pointer(db)).FautoCommit) != 0)) {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxRollbackCallback})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpRollbackArg)
}
}
// Return a static string that describes the kind of error specified in the
// argument.
func Xsqlite3ErrStr(tls *libc.TLS, rc int32) uintptr {
var zErr uintptr = ts + 23897
switch rc {
case SQLITE_ABORT | int32(2)<<8:
{
zErr = ts + 23911
break
}
case SQLITE_ROW:
{
zErr = ts + 23933
break
}
case SQLITE_DONE:
{
zErr = ts + 23955
break
}
default:
{
rc = rc & 0xff
if rc >= 0 && rc < int32(uint64(unsafe.Sizeof(aMsg))/uint64(unsafe.Sizeof(uintptr(0)))) && aMsg[rc] != uintptr(0) {
zErr = aMsg[rc]
}
break
}
}
return zErr
}
var aMsg = [29]uintptr{
ts + 23978,
ts + 23991,
uintptr(0),
ts + 24007,
ts + 24032,
ts + 24046,
ts + 24065,
ts + 1483,
ts + 24090,
ts + 24127,
ts + 24139,
ts + 24154,
ts + 24187,
ts + 24205,
ts + 24230,
ts + 24259,
uintptr(0),
ts + 6241,
ts + 5737,
ts + 24276,
ts + 24294,
ts + 24312,
uintptr(0),
ts + 24346,
uintptr(0),
ts + 24367,
ts + 24393,
ts + 24416,
ts + 24437,
}
func sqliteDefaultBusyCallback(tls *libc.TLS, ptr uintptr, count int32) int32 {
var db uintptr = ptr
var tmout int32 = (*Sqlite3)(unsafe.Pointer(db)).FbusyTimeout
var delay int32
var prior int32
if count < int32(uint64(unsafe.Sizeof(delays))/uint64(unsafe.Sizeof(U8(0)))) {
delay = int32(delays[count])
prior = int32(totals[count])
} else {
delay = int32(delays[int32(uint64(unsafe.Sizeof(delays))/uint64(unsafe.Sizeof(U8(0))))-1])
prior = int32(totals[int32(uint64(unsafe.Sizeof(delays))/uint64(unsafe.Sizeof(U8(0))))-1]) + delay*(count-(int32(uint64(unsafe.Sizeof(delays))/uint64(unsafe.Sizeof(U8(0))))-1))
}
if prior+delay > tmout {
delay = tmout - prior
if delay <= 0 {
return 0
}
}
Xsqlite3OsSleep(tls, (*Sqlite3)(unsafe.Pointer(db)).FpVfs, delay*1000)
return 1
}
var delays = [12]U8{U8(1), U8(2), U8(5), U8(10), U8(15), U8(20), U8(25), U8(25), U8(25), U8(50), U8(50), U8(100)}
var totals = [12]U8{U8(0), U8(1), U8(3), U8(8), U8(18), U8(33), U8(53), U8(78), U8(103), U8(128), U8(178), U8(228)}
// Invoke the given busy handler.
//
// This routine is called when an operation failed to acquire a
// lock on VFS file pFile.
//
// If this routine returns non-zero, the lock is retried. If it
// returns 0, the operation aborts with an SQLITE_BUSY error.
func Xsqlite3InvokeBusyHandler(tls *libc.TLS, p uintptr) int32 {
var rc int32
if (*BusyHandler)(unsafe.Pointer(p)).FxBusyHandler == uintptr(0) || (*BusyHandler)(unsafe.Pointer(p)).FnBusy < 0 {
return 0
}
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*BusyHandler)(unsafe.Pointer(p)).FxBusyHandler})).f(tls, (*BusyHandler)(unsafe.Pointer(p)).FpBusyArg, (*BusyHandler)(unsafe.Pointer(p)).FnBusy)
if rc == 0 {
(*BusyHandler)(unsafe.Pointer(p)).FnBusy = -1
} else {
(*BusyHandler)(unsafe.Pointer(p)).FnBusy++
}
return rc
}
// This routine sets the busy callback for an Sqlite database to the
// given callback function with the given argument.
func Xsqlite3_busy_handler(tls *libc.TLS, db uintptr, xBusy uintptr, pArg uintptr) int32 {
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
(*Sqlite3)(unsafe.Pointer(db)).FbusyHandler.FxBusyHandler = xBusy
(*Sqlite3)(unsafe.Pointer(db)).FbusyHandler.FpBusyArg = pArg
(*Sqlite3)(unsafe.Pointer(db)).FbusyHandler.FnBusy = 0
(*Sqlite3)(unsafe.Pointer(db)).FbusyTimeout = 0
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return SQLITE_OK
}
// This routine sets the progress callback for an Sqlite database to the
// given callback function with the given argument. The progress callback will
// be invoked every nOps opcodes.
func Xsqlite3_progress_handler(tls *libc.TLS, db uintptr, nOps int32, xProgress uintptr, pArg uintptr) {
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if nOps > 0 {
(*Sqlite3)(unsafe.Pointer(db)).FxProgress = xProgress
(*Sqlite3)(unsafe.Pointer(db)).FnProgressOps = uint32(nOps)
(*Sqlite3)(unsafe.Pointer(db)).FpProgressArg = pArg
} else {
(*Sqlite3)(unsafe.Pointer(db)).FxProgress = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).FnProgressOps = uint32(0)
(*Sqlite3)(unsafe.Pointer(db)).FpProgressArg = uintptr(0)
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
}
// This routine installs a default busy handler that waits for the
// specified number of milliseconds before returning 0.
func Xsqlite3_busy_timeout(tls *libc.TLS, db uintptr, ms int32) int32 {
if ms > 0 {
Xsqlite3_busy_handler(tls, db, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32) int32
}{sqliteDefaultBusyCallback})),
db)
(*Sqlite3)(unsafe.Pointer(db)).FbusyTimeout = ms
} else {
Xsqlite3_busy_handler(tls, db, uintptr(0), uintptr(0))
}
return SQLITE_OK
}
// Cause any pending operation to stop at its earliest opportunity.
func Xsqlite3_interrupt(tls *libc.TLS, db uintptr) {
*(*int32)(unsafe.Pointer(db + 432)) = 1
}
// Return true or false depending on whether or not an interrupt is
// pending on connection db.
func Xsqlite3_is_interrupted(tls *libc.TLS, db uintptr) int32 {
return libc.Bool32(*(*int32)(unsafe.Pointer(db + 432)) != 0)
}
// This function is exactly the same as sqlite3_create_function(), except
// that it is designed to be called by internal code. The difference is
// that if a malloc() fails in sqlite3_create_function(), an error code
// is returned and the mallocFailed flag cleared.
func Xsqlite3CreateFunc(tls *libc.TLS, db uintptr, zFunctionName uintptr, nArg int32, enc int32, pUserData uintptr, xSFunc uintptr, xStep uintptr, xFinal uintptr, xValue uintptr, xInverse uintptr, pDestructor uintptr) int32 {
var p uintptr
var extraFlags int32
if zFunctionName == uintptr(0) ||
xSFunc != uintptr(0) && xFinal != uintptr(0) ||
libc.Bool32(xFinal == uintptr(0)) != libc.Bool32(xStep == uintptr(0)) ||
libc.Bool32(xValue == uintptr(0)) != libc.Bool32(xInverse == uintptr(0)) ||
(nArg < -1 || nArg > SQLITE_MAX_FUNCTION_ARG) ||
255 < Xsqlite3Strlen30(tls, zFunctionName) {
return Xsqlite3MisuseError(tls, 175758)
}
extraFlags = enc & (SQLITE_DETERMINISTIC | SQLITE_DIRECTONLY | SQLITE_SUBTYPE | SQLITE_INNOCUOUS)
enc = enc & (SQLITE_FUNC_ENCMASK | SQLITE_ANY)
extraFlags = extraFlags ^ SQLITE_FUNC_UNSAFE
switch enc {
case SQLITE_UTF16:
enc = SQLITE_UTF16LE
break
case SQLITE_ANY:
{
var rc int32
rc = Xsqlite3CreateFunc(tls, db, zFunctionName, nArg,
SQLITE_UTF8|extraFlags^SQLITE_FUNC_UNSAFE,
pUserData, xSFunc, xStep, xFinal, xValue, xInverse, pDestructor)
if rc == SQLITE_OK {
rc = Xsqlite3CreateFunc(tls, db, zFunctionName, nArg,
SQLITE_UTF16LE|extraFlags^SQLITE_FUNC_UNSAFE,
pUserData, xSFunc, xStep, xFinal, xValue, xInverse, pDestructor)
}
if rc != SQLITE_OK {
return rc
}
enc = SQLITE_UTF16BE
break
}
case SQLITE_UTF8:
fallthrough
case SQLITE_UTF16LE:
fallthrough
case SQLITE_UTF16BE:
break
default:
enc = SQLITE_UTF8
break
}
p = Xsqlite3FindFunction(tls, db, zFunctionName, nArg, U8(enc), uint8(0))
if p != 0 && (*FuncDef)(unsafe.Pointer(p)).FfuncFlags&U32(SQLITE_FUNC_ENCMASK) == U32(enc) && int32((*FuncDef)(unsafe.Pointer(p)).FnArg) == nArg {
if (*Sqlite3)(unsafe.Pointer(db)).FnVdbeActive != 0 {
Xsqlite3ErrorWithMsg(tls, db, SQLITE_BUSY,
ts+24453, 0)
return SQLITE_BUSY
} else {
Xsqlite3ExpirePreparedStatements(tls, db, 0)
}
} else if xSFunc == uintptr(0) && xFinal == uintptr(0) {
return SQLITE_OK
}
p = Xsqlite3FindFunction(tls, db, zFunctionName, nArg, U8(enc), uint8(1))
if !(p != 0) {
return SQLITE_NOMEM
}
functionDestroy(tls, db, p)
if pDestructor != 0 {
(*FuncDestructor)(unsafe.Pointer(pDestructor)).FnRef++
}
*(*uintptr)(unsafe.Pointer(p + 64)) = pDestructor
(*FuncDef)(unsafe.Pointer(p)).FfuncFlags = (*FuncDef)(unsafe.Pointer(p)).FfuncFlags&U32(SQLITE_FUNC_ENCMASK) | U32(extraFlags)
(*FuncDef)(unsafe.Pointer(p)).FxSFunc = func() uintptr {
if xSFunc != 0 {
return xSFunc
}
return xStep
}()
(*FuncDef)(unsafe.Pointer(p)).FxFinalize = xFinal
(*FuncDef)(unsafe.Pointer(p)).FxValue = xValue
(*FuncDef)(unsafe.Pointer(p)).FxInverse = xInverse
(*FuncDef)(unsafe.Pointer(p)).FpUserData = pUserData
(*FuncDef)(unsafe.Pointer(p)).FnArg = I8(U16(nArg))
return SQLITE_OK
}
func createFunctionApi(tls *libc.TLS, db uintptr, zFunc uintptr, nArg int32, enc int32, p uintptr, xSFunc uintptr, xStep uintptr, xFinal uintptr, xValue uintptr, xInverse uintptr, xDestroy uintptr) int32 {
var rc int32
var pArg uintptr
rc = SQLITE_ERROR
pArg = uintptr(0)
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if !(xDestroy != 0) {
goto __1
}
pArg = Xsqlite3Malloc(tls, uint64(unsafe.Sizeof(FuncDestructor{})))
if !!(pArg != 0) {
goto __2
}
Xsqlite3OomFault(tls, db)
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{xDestroy})).f(tls, p)
goto out
__2:
;
(*FuncDestructor)(unsafe.Pointer(pArg)).FnRef = 0
(*FuncDestructor)(unsafe.Pointer(pArg)).FxDestroy = xDestroy
(*FuncDestructor)(unsafe.Pointer(pArg)).FpUserData = p
__1:
;
rc = Xsqlite3CreateFunc(tls, db, zFunc, nArg, enc, p,
xSFunc, xStep, xFinal, xValue, xInverse, pArg)
if !(pArg != 0 && (*FuncDestructor)(unsafe.Pointer(pArg)).FnRef == 0) {
goto __3
}
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{xDestroy})).f(tls, p)
Xsqlite3_free(tls, pArg)
__3:
;
out:
rc = Xsqlite3ApiExit(tls, db, rc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Create new user functions.
func Xsqlite3_create_function(tls *libc.TLS, db uintptr, zFunc uintptr, nArg int32, enc int32, p uintptr, xSFunc uintptr, xStep uintptr, xFinal uintptr) int32 {
return createFunctionApi(tls, db, zFunc, nArg, enc, p, xSFunc, xStep,
xFinal, uintptr(0), uintptr(0), uintptr(0))
}
func Xsqlite3_create_function_v2(tls *libc.TLS, db uintptr, zFunc uintptr, nArg int32, enc int32, p uintptr, xSFunc uintptr, xStep uintptr, xFinal uintptr, xDestroy uintptr) int32 {
return createFunctionApi(tls, db, zFunc, nArg, enc, p, xSFunc, xStep,
xFinal, uintptr(0), uintptr(0), xDestroy)
}
func Xsqlite3_create_window_function(tls *libc.TLS, db uintptr, zFunc uintptr, nArg int32, enc int32, p uintptr, xStep uintptr, xFinal uintptr, xValue uintptr, xInverse uintptr, xDestroy uintptr) int32 {
return createFunctionApi(tls, db, zFunc, nArg, enc, p, uintptr(0), xStep,
xFinal, xValue, xInverse, xDestroy)
}
func Xsqlite3_create_function16(tls *libc.TLS, db uintptr, zFunctionName uintptr, nArg int32, eTextRep int32, p uintptr, xSFunc uintptr, xStep uintptr, xFinal uintptr) int32 {
var rc int32
var zFunc8 uintptr
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
zFunc8 = Xsqlite3Utf16to8(tls, db, zFunctionName, -1, uint8(SQLITE_UTF16LE))
rc = Xsqlite3CreateFunc(tls, db, zFunc8, nArg, eTextRep, p, xSFunc, xStep, xFinal, uintptr(0), uintptr(0), uintptr(0))
Xsqlite3DbFree(tls, db, zFunc8)
rc = Xsqlite3ApiExit(tls, db, rc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
func sqlite3InvalidFunction(tls *libc.TLS, context uintptr, NotUsed int32, NotUsed2 uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var zName uintptr = Xsqlite3_user_data(tls, context)
var zErr uintptr
_ = NotUsed
_ = NotUsed2
zErr = Xsqlite3_mprintf(tls,
ts+24516, libc.VaList(bp, zName))
Xsqlite3_result_error(tls, context, zErr, -1)
Xsqlite3_free(tls, zErr)
}
// Declare that a function has been overloaded by a virtual table.
//
// If the function already exists as a regular global function, then
// this routine is a no-op. If the function does not exist, then create
// a new one that always throws a run-time error.
//
// When virtual tables intend to provide an overloaded function, they
// should call this routine to make sure the global function exists.
// A global function must exist in order for name resolution to work
// properly.
func Xsqlite3_overload_function(tls *libc.TLS, db uintptr, zName uintptr, nArg int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
var zCopy uintptr
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
rc = libc.Bool32(Xsqlite3FindFunction(tls, db, zName, nArg, uint8(SQLITE_UTF8), uint8(0)) != uintptr(0))
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if rc != 0 {
return SQLITE_OK
}
zCopy = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp, zName))
if zCopy == uintptr(0) {
return SQLITE_NOMEM
}
return Xsqlite3_create_function_v2(tls, db, zName, nArg, SQLITE_UTF8,
zCopy, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{sqlite3InvalidFunction})), uintptr(0), uintptr(0), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
}
// Register a trace function. The pArg from the previously registered trace
// is returned.
//
// A NULL trace function means that no tracing is executes. A non-NULL
// trace is a pointer to a function that is invoked at the start of each
// SQL statement.
func Xsqlite3_trace(tls *libc.TLS, db uintptr, xTrace uintptr, pArg uintptr) uintptr {
var pOld uintptr
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
pOld = (*Sqlite3)(unsafe.Pointer(db)).FpTraceArg
(*Sqlite3)(unsafe.Pointer(db)).FmTrace = func() uint8 {
if xTrace != 0 {
return uint8(SQLITE_TRACE_LEGACY)
}
return uint8(0)
}()
*(*uintptr)(unsafe.Pointer(db + 248)) = xTrace
(*Sqlite3)(unsafe.Pointer(db)).FpTraceArg = pArg
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return pOld
}
// Register a trace callback using the version-2 interface.
func Xsqlite3_trace_v2(tls *libc.TLS, db uintptr, mTrace uint32, xTrace uintptr, pArg uintptr) int32 {
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if mTrace == uint32(0) {
xTrace = uintptr(0)
}
if xTrace == uintptr(0) {
mTrace = uint32(0)
}
(*Sqlite3)(unsafe.Pointer(db)).FmTrace = U8(mTrace)
*(*uintptr)(unsafe.Pointer(db + 248)) = xTrace
(*Sqlite3)(unsafe.Pointer(db)).FpTraceArg = pArg
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return SQLITE_OK
}
// Register a profile function. The pArg from the previously registered
// profile function is returned.
//
// A NULL profile function means that no profiling is executes. A non-NULL
// profile is a pointer to a function that is invoked at the conclusion of
// each SQL statement that is run.
func Xsqlite3_profile(tls *libc.TLS, db uintptr, xProfile uintptr, pArg uintptr) uintptr {
var pOld uintptr
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
pOld = (*Sqlite3)(unsafe.Pointer(db)).FpProfileArg
(*Sqlite3)(unsafe.Pointer(db)).FxProfile = xProfile
(*Sqlite3)(unsafe.Pointer(db)).FpProfileArg = pArg
*(*U8)(unsafe.Pointer(db + 110)) &= U8(SQLITE_TRACE_NONLEGACY_MASK)
if (*Sqlite3)(unsafe.Pointer(db)).FxProfile != 0 {
*(*U8)(unsafe.Pointer(db + 110)) |= U8(SQLITE_TRACE_XPROFILE)
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return pOld
}
// Register a function to be invoked when a transaction commits.
// If the invoked function returns non-zero, then the commit becomes a
// rollback.
func Xsqlite3_commit_hook(tls *libc.TLS, db uintptr, xCallback uintptr, pArg uintptr) uintptr {
var pOld uintptr
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
pOld = (*Sqlite3)(unsafe.Pointer(db)).FpCommitArg
(*Sqlite3)(unsafe.Pointer(db)).FxCommitCallback = xCallback
(*Sqlite3)(unsafe.Pointer(db)).FpCommitArg = pArg
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return pOld
}
// Register a callback to be invoked each time a row is updated,
// inserted or deleted using this database connection.
func Xsqlite3_update_hook(tls *libc.TLS, db uintptr, xCallback uintptr, pArg uintptr) uintptr {
var pRet uintptr
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
pRet = (*Sqlite3)(unsafe.Pointer(db)).FpUpdateArg
(*Sqlite3)(unsafe.Pointer(db)).FxUpdateCallback = xCallback
(*Sqlite3)(unsafe.Pointer(db)).FpUpdateArg = pArg
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return pRet
}
// Register a callback to be invoked each time a transaction is rolled
// back by this database connection.
func Xsqlite3_rollback_hook(tls *libc.TLS, db uintptr, xCallback uintptr, pArg uintptr) uintptr {
var pRet uintptr
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
pRet = (*Sqlite3)(unsafe.Pointer(db)).FpRollbackArg
(*Sqlite3)(unsafe.Pointer(db)).FxRollbackCallback = xCallback
(*Sqlite3)(unsafe.Pointer(db)).FpRollbackArg = pArg
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return pRet
}
// Register a callback to be invoked each time a row is updated,
// inserted or deleted using this database connection.
func Xsqlite3_preupdate_hook(tls *libc.TLS, db uintptr, xCallback uintptr, pArg uintptr) uintptr {
var pRet uintptr
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
pRet = (*Sqlite3)(unsafe.Pointer(db)).FpPreUpdateArg
(*Sqlite3)(unsafe.Pointer(db)).FxPreUpdateCallback = xCallback
(*Sqlite3)(unsafe.Pointer(db)).FpPreUpdateArg = pArg
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return pRet
}
// Register a function to be invoked prior to each autovacuum that
// determines the number of pages to vacuum.
func Xsqlite3_autovacuum_pages(tls *libc.TLS, db uintptr, xCallback uintptr, pArg uintptr, xDestructor uintptr) int32 {
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if (*Sqlite3)(unsafe.Pointer(db)).FxAutovacDestr != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3)(unsafe.Pointer(db)).FxAutovacDestr})).f(tls, (*Sqlite3)(unsafe.Pointer(db)).FpAutovacPagesArg)
}
(*Sqlite3)(unsafe.Pointer(db)).FxAutovacPages = xCallback
(*Sqlite3)(unsafe.Pointer(db)).FpAutovacPagesArg = pArg
(*Sqlite3)(unsafe.Pointer(db)).FxAutovacDestr = xDestructor
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return SQLITE_OK
}
// The sqlite3_wal_hook() callback registered by sqlite3_wal_autocheckpoint().
// Invoke sqlite3_wal_checkpoint if the number of frames in the log file
// is greater than sqlite3.pWalArg cast to an integer (the value configured by
// wal_autocheckpoint()).
func Xsqlite3WalDefaultHook(tls *libc.TLS, pClientData uintptr, db uintptr, zDb uintptr, nFrame int32) int32 {
if nFrame >= int32(pClientData) {
Xsqlite3BeginBenignMalloc(tls)
Xsqlite3_wal_checkpoint(tls, db, zDb)
Xsqlite3EndBenignMalloc(tls)
}
return SQLITE_OK
}
// Configure an sqlite3_wal_hook() callback to automatically checkpoint
// a database after committing a transaction if there are nFrame or
// more frames in the log file. Passing zero or a negative value as the
// nFrame parameter disables automatic checkpoints entirely.
//
// The callback registered by this function replaces any existing callback
// registered using sqlite3_wal_hook(). Likewise, registering a callback
// using sqlite3_wal_hook() disables the automatic checkpoint mechanism
// configured by this function.
func Xsqlite3_wal_autocheckpoint(tls *libc.TLS, db uintptr, nFrame int32) int32 {
if nFrame > 0 {
Xsqlite3_wal_hook(tls, db, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32) int32
}{Xsqlite3WalDefaultHook})), uintptr(int64(nFrame)))
} else {
Xsqlite3_wal_hook(tls, db, uintptr(0), uintptr(0))
}
return SQLITE_OK
}
// Register a callback to be invoked each time a transaction is written
// into the write-ahead-log by this database connection.
func Xsqlite3_wal_hook(tls *libc.TLS, db uintptr, xCallback uintptr, pArg uintptr) uintptr {
var pRet uintptr
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
pRet = (*Sqlite3)(unsafe.Pointer(db)).FpWalArg
(*Sqlite3)(unsafe.Pointer(db)).FxWalCallback = xCallback
(*Sqlite3)(unsafe.Pointer(db)).FpWalArg = pArg
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return pRet
}
// Checkpoint database zDb.
func Xsqlite3_wal_checkpoint_v2(tls *libc.TLS, db uintptr, zDb uintptr, eMode int32, pnLog uintptr, pnCkpt uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
var iDb int32
if pnLog != 0 {
*(*int32)(unsafe.Pointer(pnLog)) = -1
}
if pnCkpt != 0 {
*(*int32)(unsafe.Pointer(pnCkpt)) = -1
}
if eMode < SQLITE_CHECKPOINT_PASSIVE || eMode > SQLITE_CHECKPOINT_TRUNCATE {
return SQLITE_MISUSE
}
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if zDb != 0 && *(*int8)(unsafe.Pointer(zDb)) != 0 {
iDb = Xsqlite3FindDbName(tls, db, zDb)
} else {
iDb = SQLITE_MAX_ATTACHED + 2
}
if iDb < 0 {
rc = SQLITE_ERROR
Xsqlite3ErrorWithMsg(tls, db, SQLITE_ERROR, ts+24567, libc.VaList(bp, zDb))
} else {
(*Sqlite3)(unsafe.Pointer(db)).FbusyHandler.FnBusy = 0
rc = Xsqlite3Checkpoint(tls, db, iDb, eMode, pnLog, pnCkpt)
Xsqlite3Error(tls, db, rc)
}
rc = Xsqlite3ApiExit(tls, db, rc)
if (*Sqlite3)(unsafe.Pointer(db)).FnVdbeActive == 0 {
*(*int32)(unsafe.Pointer(db + 432)) = 0
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Checkpoint database zDb. If zDb is NULL, or if the buffer zDb points
// to contains a zero-length string, all attached databases are
// checkpointed.
func Xsqlite3_wal_checkpoint(tls *libc.TLS, db uintptr, zDb uintptr) int32 {
return Xsqlite3_wal_checkpoint_v2(tls, db, zDb, SQLITE_CHECKPOINT_PASSIVE, uintptr(0), uintptr(0))
}
// Run a checkpoint on database iDb. This is a no-op if database iDb is
// not currently open in WAL mode.
//
// If a transaction is open on the database being checkpointed, this
// function returns SQLITE_LOCKED and a checkpoint is not attempted. If
// an error occurs while running the checkpoint, an SQLite error code is
// returned (i.e. SQLITE_IOERR). Otherwise, SQLITE_OK.
//
// The mutex on database handle db should be held by the caller. The mutex
// associated with the specific b-tree being checkpointed is taken by
// this function while the checkpoint is running.
//
// If iDb is passed SQLITE_MAX_DB then all attached databases are
// checkpointed. If an error is encountered it is returned immediately -
// no attempt is made to checkpoint any remaining databases.
//
// Parameter eMode is one of SQLITE_CHECKPOINT_PASSIVE, FULL, RESTART
// or TRUNCATE.
func Xsqlite3Checkpoint(tls *libc.TLS, db uintptr, iDb int32, eMode int32, pnLog uintptr, pnCkpt uintptr) int32 {
var rc int32 = SQLITE_OK
var i int32
var bBusy int32 = 0
for i = 0; i < (*Sqlite3)(unsafe.Pointer(db)).FnDb && rc == SQLITE_OK; i++ {
if i == iDb || iDb == SQLITE_MAX_ATTACHED+2 {
rc = Xsqlite3BtreeCheckpoint(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb+uintptr(i)*32)).FpBt, eMode, pnLog, pnCkpt)
pnLog = uintptr(0)
pnCkpt = uintptr(0)
if rc == SQLITE_BUSY {
bBusy = 1
rc = SQLITE_OK
}
}
}
if rc == SQLITE_OK && bBusy != 0 {
return SQLITE_BUSY
}
return rc
}
// This function returns true if main-memory should be used instead of
// a temporary file for transient pager files and statement journals.
// The value returned depends on the value of db->temp_store (runtime
// parameter) and the compile time value of SQLITE_TEMP_STORE. The
// following table describes the relationship between these two values
// and this functions return value.
//
// SQLITE_TEMP_STORE db->temp_store Location of temporary database
// ----------------- -------------- ------------------------------
// 0 any file (return 0)
// 1 1 file (return 0)
// 1 2 memory (return 1)
// 1 0 file (return 0)
// 2 1 file (return 0)
// 2 2 memory (return 1)
// 2 0 memory (return 1)
// 3 any memory (return 1)
func Xsqlite3TempInMemory(tls *libc.TLS, db uintptr) int32 {
return libc.Bool32(int32((*Sqlite3)(unsafe.Pointer(db)).Ftemp_store) == 2)
}
// Return UTF-8 encoded English language explanation of the most recent
// error.
func Xsqlite3_errmsg(tls *libc.TLS, db uintptr) uintptr {
var z uintptr
if !(db != 0) {
return Xsqlite3ErrStr(tls, SQLITE_NOMEM)
}
if !(Xsqlite3SafetyCheckSickOrOk(tls, db) != 0) {
return Xsqlite3ErrStr(tls, Xsqlite3MisuseError(tls, 176503))
}
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
z = Xsqlite3ErrStr(tls, SQLITE_NOMEM)
} else {
if (*Sqlite3)(unsafe.Pointer(db)).FerrCode != 0 {
z = Xsqlite3_value_text(tls, (*Sqlite3)(unsafe.Pointer(db)).FpErr)
} else {
z = uintptr(0)
}
if z == uintptr(0) {
z = Xsqlite3ErrStr(tls, (*Sqlite3)(unsafe.Pointer(db)).FerrCode)
}
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return z
}
// Return the byte offset of the most recent error
func Xsqlite3_error_offset(tls *libc.TLS, db uintptr) int32 {
var iOffset int32 = -1
if db != 0 && Xsqlite3SafetyCheckSickOrOk(tls, db) != 0 && (*Sqlite3)(unsafe.Pointer(db)).FerrCode != 0 {
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
iOffset = (*Sqlite3)(unsafe.Pointer(db)).FerrByteOffset
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
}
return iOffset
}
// Return UTF-16 encoded English language explanation of the most recent
// error.
func Xsqlite3_errmsg16(tls *libc.TLS, db uintptr) uintptr {
var z uintptr
if !(db != 0) {
return uintptr(unsafe.Pointer(&outOfMem))
}
if !(Xsqlite3SafetyCheckSickOrOk(tls, db) != 0) {
return uintptr(unsafe.Pointer(&misuse))
}
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
z = uintptr(unsafe.Pointer(&outOfMem))
} else {
z = Xsqlite3_value_text16(tls, (*Sqlite3)(unsafe.Pointer(db)).FpErr)
if z == uintptr(0) {
Xsqlite3ErrorWithMsg(tls, db, (*Sqlite3)(unsafe.Pointer(db)).FerrCode, Xsqlite3ErrStr(tls, (*Sqlite3)(unsafe.Pointer(db)).FerrCode), 0)
z = Xsqlite3_value_text16(tls, (*Sqlite3)(unsafe.Pointer(db)).FpErr)
}
Xsqlite3OomClear(tls, db)
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return z
}
var outOfMem = [14]U16{
U16('o'), U16('u'), U16('t'), U16(' '), U16('o'), U16('f'), U16(' '), U16('m'), U16('e'), U16('m'), U16('o'), U16('r'), U16('y'), U16(0),
}
var misuse = [34]U16{
U16('b'), U16('a'), U16('d'), U16(' '), U16('p'), U16('a'), U16('r'), U16('a'), U16('m'), U16('e'), U16('t'), U16('e'), U16('r'), U16(' '),
U16('o'), U16('r'), U16(' '), U16('o'), U16('t'), U16('h'), U16('e'), U16('r'), U16(' '), U16('A'), U16('P'), U16('I'), U16(' '),
U16('m'), U16('i'), U16('s'), U16('u'), U16('s'), U16('e'), U16(0),
}
// Return the most recent error code generated by an SQLite routine. If NULL is
// passed to this function, we assume a malloc() failed during sqlite3_open().
func Xsqlite3_errcode(tls *libc.TLS, db uintptr) int32 {
if db != 0 && !(Xsqlite3SafetyCheckSickOrOk(tls, db) != 0) {
return Xsqlite3MisuseError(tls, 176582)
}
if !(db != 0) || (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return SQLITE_NOMEM
}
return (*Sqlite3)(unsafe.Pointer(db)).FerrCode & (*Sqlite3)(unsafe.Pointer(db)).FerrMask
}
func Xsqlite3_extended_errcode(tls *libc.TLS, db uintptr) int32 {
if db != 0 && !(Xsqlite3SafetyCheckSickOrOk(tls, db) != 0) {
return Xsqlite3MisuseError(tls, 176591)
}
if !(db != 0) || (*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0 {
return SQLITE_NOMEM
}
return (*Sqlite3)(unsafe.Pointer(db)).FerrCode
}
func Xsqlite3_system_errno(tls *libc.TLS, db uintptr) int32 {
if db != 0 {
return (*Sqlite3)(unsafe.Pointer(db)).FiSysErrno
}
return 0
}
// Return a string that describes the kind of error specified in the
// argument. For now, this simply calls the internal sqlite3ErrStr()
// function.
func Xsqlite3_errstr(tls *libc.TLS, rc int32) uintptr {
return Xsqlite3ErrStr(tls, rc)
}
func createCollation(tls *libc.TLS, db uintptr, zName uintptr, enc U8, pCtx uintptr, xCompare uintptr, xDel uintptr) int32 {
var pColl uintptr
var enc2 int32
enc2 = int32(enc)
if enc2 == SQLITE_UTF16 || enc2 == SQLITE_UTF16_ALIGNED {
enc2 = SQLITE_UTF16LE
}
if enc2 < SQLITE_UTF8 || enc2 > SQLITE_UTF16BE {
return Xsqlite3MisuseError(tls, 176639)
}
pColl = Xsqlite3FindCollSeq(tls, db, U8(enc2), zName, 0)
if pColl != 0 && (*CollSeq)(unsafe.Pointer(pColl)).FxCmp != 0 {
if (*Sqlite3)(unsafe.Pointer(db)).FnVdbeActive != 0 {
Xsqlite3ErrorWithMsg(tls, db, SQLITE_BUSY,
ts+24588, 0)
return SQLITE_BUSY
}
Xsqlite3ExpirePreparedStatements(tls, db, 0)
if int32((*CollSeq)(unsafe.Pointer(pColl)).Fenc)&libc.CplInt32(SQLITE_UTF16_ALIGNED) == enc2 {
var aColl uintptr = Xsqlite3HashFind(tls, db+648, zName)
var j int32
for j = 0; j < 3; j++ {
var p uintptr = aColl + uintptr(j)*40
if int32((*CollSeq)(unsafe.Pointer(p)).Fenc) == int32((*CollSeq)(unsafe.Pointer(pColl)).Fenc) {
if (*CollSeq)(unsafe.Pointer(p)).FxDel != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*CollSeq)(unsafe.Pointer(p)).FxDel})).f(tls, (*CollSeq)(unsafe.Pointer(p)).FpUser)
}
(*CollSeq)(unsafe.Pointer(p)).FxCmp = uintptr(0)
}
}
}
}
pColl = Xsqlite3FindCollSeq(tls, db, U8(enc2), zName, 1)
if pColl == uintptr(0) {
return SQLITE_NOMEM
}
(*CollSeq)(unsafe.Pointer(pColl)).FxCmp = xCompare
(*CollSeq)(unsafe.Pointer(pColl)).FpUser = pCtx
(*CollSeq)(unsafe.Pointer(pColl)).FxDel = xDel
(*CollSeq)(unsafe.Pointer(pColl)).Fenc = U8(enc2 | int32(enc)&SQLITE_UTF16_ALIGNED)
Xsqlite3Error(tls, db, SQLITE_OK)
return SQLITE_OK
}
var aHardLimit = [12]int32{
SQLITE_MAX_LENGTH,
SQLITE_MAX_SQL_LENGTH,
SQLITE_MAX_COLUMN,
SQLITE_MAX_EXPR_DEPTH,
SQLITE_MAX_COMPOUND_SELECT,
SQLITE_MAX_VDBE_OP,
SQLITE_MAX_FUNCTION_ARG,
SQLITE_MAX_ATTACHED,
SQLITE_MAX_LIKE_PATTERN_LENGTH,
SQLITE_MAX_VARIABLE_NUMBER,
SQLITE_MAX_TRIGGER_DEPTH,
SQLITE_MAX_WORKER_THREADS,
}
// Change the value of a limit. Report the old value.
// If an invalid limit index is supplied, report -1.
// Make no changes but still report the old value if the
// new limit is negative.
//
// A new lower limit does not shrink existing constructs.
// It merely prevents new constructs that exceed the limit
// from forming.
func Xsqlite3_limit(tls *libc.TLS, db uintptr, limitId int32, newLimit int32) int32 {
var oldLimit int32
if limitId < 0 || limitId >= SQLITE_LIMIT_WORKER_THREADS+1 {
return -1
}
oldLimit = *(*int32)(unsafe.Pointer(db + 136 + uintptr(limitId)*4))
if newLimit >= 0 {
if newLimit > aHardLimit[limitId] {
newLimit = aHardLimit[limitId]
} else if newLimit < 1 && limitId == SQLITE_LIMIT_LENGTH {
newLimit = 1
}
*(*int32)(unsafe.Pointer(db + 136 + uintptr(limitId)*4)) = newLimit
}
return oldLimit
}
// This function is used to parse both URIs and non-URI filenames passed by the
// user to API functions sqlite3_open() or sqlite3_open_v2(), and for database
// URIs specified as part of ATTACH statements.
//
// The first argument to this function is the name of the VFS to use (or
// a NULL to signify the default VFS) if the URI does not contain a "vfs=xxx"
// query parameter. The second argument contains the URI (or non-URI filename)
// itself. When this function is called the *pFlags variable should contain
// the default flags to open the database handle with. The value stored in
// *pFlags may be updated before returning if the URI filename contains
// "cache=xxx" or "mode=xxx" query parameters.
//
// If successful, SQLITE_OK is returned. In this case *ppVfs is set to point to
// the VFS that should be used to open the database file. *pzFile is set to
// point to a buffer containing the name of the file to open. The value
// stored in *pzFile is a database name acceptable to sqlite3_uri_parameter()
// and is in the same format as names created using sqlite3_create_filename().
// The caller must invoke sqlite3_free_filename() (not sqlite3_free()!) on
// the value returned in *pzFile to avoid a memory leak.
//
// If an error occurs, then an SQLite error code is returned and *pzErrMsg
// may be set to point to a buffer containing an English language error
// message. It is the responsibility of the caller to eventually release
// this buffer by calling sqlite3_free().
func Xsqlite3ParseUri(tls *libc.TLS, zDefaultVfs uintptr, zUri uintptr, pFlags uintptr, ppVfs uintptr, pzFile uintptr, pzErrMsg uintptr) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
var rc int32
var flags uint32
var zVfs uintptr
var zFile uintptr
var c int8
var nUri int32
var octet int32
var z uintptr
var i int32
var mode int32
var aMode uintptr
var zModeType uintptr
var mask int32
var limit int32
var nOpt int32
var zVal uintptr
var nVal int32
var zOpt uintptr
var eState int32
var iIn int32
var iOut int32
var nByte U64
rc = SQLITE_OK
flags = *(*uint32)(unsafe.Pointer(pFlags))
zVfs = zDefaultVfs
nUri = Xsqlite3Strlen30(tls, zUri)
if !((flags&uint32(SQLITE_OPEN_URI) != 0 ||
Xsqlite3Config.FbOpenUri != 0) &&
nUri >= 5 && libc.Xmemcmp(tls, zUri, ts+24656, uint64(5)) == 0) {
goto __1
}
iOut = 0
nByte = U64(nUri + 8)
flags = flags | uint32(SQLITE_OPEN_URI)
iIn = 0
__3:
if !(iIn < nUri) {
goto __5
}
nByte = nByte + U64(libc.Bool32(int32(*(*int8)(unsafe.Pointer(zUri + uintptr(iIn)))) == '&'))
goto __4
__4:
iIn++
goto __3
goto __5
__5:
;
zFile = Xsqlite3_malloc64(tls, nByte)
if !!(zFile != 0) {
goto __6
}
return SQLITE_NOMEM
__6:
;
libc.X__builtin___memset_chk(tls, zFile, 0, uint64(4), libc.X__builtin_object_size(tls, zFile, 0))
zFile += uintptr(4)
iIn = 5
if !(int32(*(*int8)(unsafe.Pointer(zUri + 5))) == '/' && int32(*(*int8)(unsafe.Pointer(zUri + 6))) == '/') {
goto __7
}
iIn = 7
__8:
if !(*(*int8)(unsafe.Pointer(zUri + uintptr(iIn))) != 0 && int32(*(*int8)(unsafe.Pointer(zUri + uintptr(iIn)))) != '/') {
goto __9
}
iIn++
goto __8
__9:
;
if !(iIn != 7 && (iIn != 16 || libc.Xmemcmp(tls, ts+24662, zUri+7, uint64(9)) != 0)) {
goto __10
}
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = Xsqlite3_mprintf(tls, ts+24672,
libc.VaList(bp, iIn-7, zUri+7))
rc = SQLITE_ERROR
goto parse_uri_out
__10:
;
__7:
;
eState = 0
__11:
if !(int32(libc.AssignInt8(&c, *(*int8)(unsafe.Pointer(zUri + uintptr(iIn))))) != 0 && int32(c) != '#') {
goto __12
}
iIn++
if !(int32(c) == '%' &&
int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zUri + uintptr(iIn))))])&0x08 != 0 &&
int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zUri + uintptr(iIn+1))))])&0x08 != 0) {
goto __13
}
octet = int32(Xsqlite3HexToInt(tls, int32(*(*int8)(unsafe.Pointer(zUri + uintptr(libc.PostIncInt32(&iIn, 1))))))) << 4
octet = octet + int32(Xsqlite3HexToInt(tls, int32(*(*int8)(unsafe.Pointer(zUri + uintptr(libc.PostIncInt32(&iIn, 1)))))))
if !(octet == 0) {
goto __15
}
__16:
if !(int32(libc.AssignInt8(&c, *(*int8)(unsafe.Pointer(zUri + uintptr(iIn))))) != 0 && int32(c) != '#' &&
(eState != 0 || int32(c) != '?') &&
(eState != 1 || int32(c) != '=' && int32(c) != '&') &&
(eState != 2 || int32(c) != '&')) {
goto __17
}
iIn++
goto __16
__17:
;
goto __11
__15:
;
c = int8(octet)
goto __14
__13:
if !(eState == 1 && (int32(c) == '&' || int32(c) == '=')) {
goto __18
}
if !(int32(*(*int8)(unsafe.Pointer(zFile + uintptr(iOut-1)))) == 0) {
goto __20
}
__21:
if !(*(*int8)(unsafe.Pointer(zUri + uintptr(iIn))) != 0 && int32(*(*int8)(unsafe.Pointer(zUri + uintptr(iIn)))) != '#' && int32(*(*int8)(unsafe.Pointer(zUri + uintptr(iIn-1)))) != '&') {
goto __22
}
iIn++
goto __21
__22:
;
goto __11
__20:
;
if !(int32(c) == '&') {
goto __23
}
*(*int8)(unsafe.Pointer(zFile + uintptr(libc.PostIncInt32(&iOut, 1)))) = int8(0)
goto __24
__23:
eState = 2
__24:
;
c = int8(0)
goto __19
__18:
if !(eState == 0 && int32(c) == '?' || eState == 2 && int32(c) == '&') {
goto __25
}
c = int8(0)
eState = 1
__25:
;
__19:
;
__14:
;
*(*int8)(unsafe.Pointer(zFile + uintptr(libc.PostIncInt32(&iOut, 1)))) = c
goto __11
__12:
;
if !(eState == 1) {
goto __26
}
*(*int8)(unsafe.Pointer(zFile + uintptr(libc.PostIncInt32(&iOut, 1)))) = int8(0)
__26:
;
libc.X__builtin___memset_chk(tls, zFile+uintptr(iOut), 0, uint64(4), libc.X__builtin_object_size(tls, zFile+uintptr(iOut), 0))
zOpt = zFile + uintptr(Xsqlite3Strlen30(tls, zFile)+1)
__27:
if !(*(*int8)(unsafe.Pointer(zOpt)) != 0) {
goto __28
}
nOpt = Xsqlite3Strlen30(tls, zOpt)
zVal = zOpt + uintptr(nOpt+1)
nVal = Xsqlite3Strlen30(tls, zVal)
if !(nOpt == 3 && libc.Xmemcmp(tls, ts+24700, zOpt, uint64(3)) == 0) {
goto __29
}
zVfs = zVal
goto __30
__29:
aMode = uintptr(0)
zModeType = uintptr(0)
mask = 0
limit = 0
if !(nOpt == 5 && libc.Xmemcmp(tls, ts+24704, zOpt, uint64(5)) == 0) {
goto __31
}
mask = SQLITE_OPEN_SHAREDCACHE | SQLITE_OPEN_PRIVATECACHE
aMode = uintptr(unsafe.Pointer(&aCacheMode))
limit = mask
zModeType = ts + 24704
__31:
;
if !(nOpt == 4 && libc.Xmemcmp(tls, ts+24710, zOpt, uint64(4)) == 0) {
goto __32
}
mask = SQLITE_OPEN_READONLY | SQLITE_OPEN_READWRITE |
SQLITE_OPEN_CREATE | SQLITE_OPEN_MEMORY
aMode = uintptr(unsafe.Pointer(&aOpenMode))
limit = int32(uint32(mask) & flags)
zModeType = ts + 3265
__32:
;
if !(aMode != 0) {
goto __33
}
mode = 0
i = 0
__34:
if !((*OpenMode)(unsafe.Pointer(aMode+uintptr(i)*16)).Fz != 0) {
goto __36
}
z = (*OpenMode)(unsafe.Pointer(aMode + uintptr(i)*16)).Fz
if !(nVal == Xsqlite3Strlen30(tls, z) && 0 == libc.Xmemcmp(tls, zVal, z, uint64(nVal))) {
goto __37
}
mode = (*OpenMode)(unsafe.Pointer(aMode + uintptr(i)*16)).Fmode
goto __36
__37:
;
goto __35
__35:
i++
goto __34
goto __36
__36:
;
if !(mode == 0) {
goto __38
}
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = Xsqlite3_mprintf(tls, ts+24715, libc.VaList(bp+16, zModeType, zVal))
rc = SQLITE_ERROR
goto parse_uri_out
__38:
;
if !(mode&libc.CplInt32(SQLITE_OPEN_MEMORY) > limit) {
goto __39
}
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = Xsqlite3_mprintf(tls, ts+24735,
libc.VaList(bp+32, zModeType, zVal))
rc = SQLITE_PERM
goto parse_uri_out
__39:
;
flags = flags&uint32(^mask) | uint32(mode)
__33:
;
__30:
;
zOpt = zVal + uintptr(nVal+1)
goto __27
__28:
;
goto __2
__1:
zFile = Xsqlite3_malloc64(tls, uint64(nUri+8))
if !!(zFile != 0) {
goto __40
}
return SQLITE_NOMEM
__40:
;
libc.X__builtin___memset_chk(tls, zFile, 0, uint64(4), libc.X__builtin_object_size(tls, zFile, 0))
zFile += uintptr(4)
if !(nUri != 0) {
goto __41
}
libc.X__builtin___memcpy_chk(tls, zFile, zUri, uint64(nUri), libc.X__builtin_object_size(tls, zFile, 0))
__41:
;
libc.X__builtin___memset_chk(tls, zFile+uintptr(nUri), 0, uint64(4), libc.X__builtin_object_size(tls, zFile+uintptr(nUri), 0))
flags = flags & libc.Uint32FromInt32(libc.CplInt32(SQLITE_OPEN_URI))
__2:
;
*(*uintptr)(unsafe.Pointer(ppVfs)) = Xsqlite3_vfs_find(tls, zVfs)
if !(*(*uintptr)(unsafe.Pointer(ppVfs)) == uintptr(0)) {
goto __42
}
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = Xsqlite3_mprintf(tls, ts+24759, libc.VaList(bp+48, zVfs))
rc = SQLITE_ERROR
__42:
;
parse_uri_out:
if !(rc != SQLITE_OK) {
goto __43
}
Xsqlite3_free_filename(tls, zFile)
zFile = uintptr(0)
__43:
;
*(*uint32)(unsafe.Pointer(pFlags)) = flags
*(*uintptr)(unsafe.Pointer(pzFile)) = zFile
return rc
}
type OpenMode = struct {
Fz uintptr
Fmode int32
F__ccgo_pad1 [4]byte
}
var aCacheMode = [3]OpenMode{
{Fz: ts + 24775, Fmode: SQLITE_OPEN_SHAREDCACHE},
{Fz: ts + 24782, Fmode: SQLITE_OPEN_PRIVATECACHE},
{},
}
var aOpenMode = [5]OpenMode{
{Fz: ts + 24790, Fmode: SQLITE_OPEN_READONLY},
{Fz: ts + 24793, Fmode: SQLITE_OPEN_READWRITE},
{Fz: ts + 24796, Fmode: SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE},
{Fz: ts + 17784, Fmode: SQLITE_OPEN_MEMORY},
{},
}
func uriParameter(tls *libc.TLS, zFilename uintptr, zParam uintptr) uintptr {
zFilename += uintptr(Xsqlite3Strlen30(tls, zFilename) + 1)
for zFilename != uintptr(0) && *(*int8)(unsafe.Pointer(zFilename)) != 0 {
var x int32 = libc.Xstrcmp(tls, zFilename, zParam)
zFilename += uintptr(Xsqlite3Strlen30(tls, zFilename) + 1)
if x == 0 {
return zFilename
}
zFilename += uintptr(Xsqlite3Strlen30(tls, zFilename) + 1)
}
return uintptr(0)
}
func openDatabase(tls *libc.TLS, zFilename uintptr, ppDb uintptr, flags uint32, zVfs uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
*(*uint32)(unsafe.Pointer(bp + 8)) = flags
var db uintptr
var rc int32
var isThreadsafe int32
var i int32
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(ppDb)) = uintptr(0)
rc = Xsqlite3_initialize(tls)
if !(rc != 0) {
goto __1
}
return rc
__1:
;
if !(int32(Xsqlite3Config.FbCoreMutex) == 0) {
goto __2
}
isThreadsafe = 0
goto __3
__2:
if !(*(*uint32)(unsafe.Pointer(bp + 8))&uint32(SQLITE_OPEN_NOMUTEX) != 0) {
goto __4
}
isThreadsafe = 0
goto __5
__4:
if !(*(*uint32)(unsafe.Pointer(bp + 8))&uint32(SQLITE_OPEN_FULLMUTEX) != 0) {
goto __6
}
isThreadsafe = 1
goto __7
__6:
isThreadsafe = int32(Xsqlite3Config.FbFullMutex)
__7:
;
__5:
;
__3:
;
if !(*(*uint32)(unsafe.Pointer(bp + 8))&uint32(SQLITE_OPEN_PRIVATECACHE) != 0) {
goto __8
}
*(*uint32)(unsafe.Pointer(bp + 8)) &= libc.Uint32FromInt32(libc.CplInt32(SQLITE_OPEN_SHAREDCACHE))
goto __9
__8:
if !(Xsqlite3Config.FsharedCacheEnabled != 0) {
goto __10
}
*(*uint32)(unsafe.Pointer(bp + 8)) |= uint32(SQLITE_OPEN_SHAREDCACHE)
__10:
;
__9:
;
*(*uint32)(unsafe.Pointer(bp + 8)) &= libc.Uint32FromInt32(libc.CplInt32(SQLITE_OPEN_DELETEONCLOSE | SQLITE_OPEN_EXCLUSIVE | SQLITE_OPEN_MAIN_DB | SQLITE_OPEN_TEMP_DB | SQLITE_OPEN_TRANSIENT_DB | SQLITE_OPEN_MAIN_JOURNAL | SQLITE_OPEN_TEMP_JOURNAL | SQLITE_OPEN_SUBJOURNAL | SQLITE_OPEN_SUPER_JOURNAL | SQLITE_OPEN_NOMUTEX | SQLITE_OPEN_FULLMUTEX | SQLITE_OPEN_WAL))
db = Xsqlite3MallocZero(tls, uint64(unsafe.Sizeof(Sqlite3{})))
if !(db == uintptr(0)) {
goto __11
}
goto opendb_out
__11:
;
if !(isThreadsafe != 0) {
goto __12
}
(*Sqlite3)(unsafe.Pointer(db)).Fmutex = Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_RECURSIVE)
if !((*Sqlite3)(unsafe.Pointer(db)).Fmutex == uintptr(0)) {
goto __13
}
Xsqlite3_free(tls, db)
db = uintptr(0)
goto opendb_out
__13:
;
if !(isThreadsafe == 0) {
goto __14
}
__14:
;
__12:
;
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
(*Sqlite3)(unsafe.Pointer(db)).FerrMask = func() int32 {
if *(*uint32)(unsafe.Pointer(bp + 8))&uint32(SQLITE_OPEN_EXRESCODE) != uint32(0) {
return libc.Int32FromUint32(0xffffffff)
}
return 0xff
}()
(*Sqlite3)(unsafe.Pointer(db)).FnDb = 2
(*Sqlite3)(unsafe.Pointer(db)).FeOpenState = U8(SQLITE_STATE_BUSY)
(*Sqlite3)(unsafe.Pointer(db)).FaDb = db + 696
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.FbDisable = U32(1)
(*Sqlite3)(unsafe.Pointer(db)).Flookaside.Fsz = U16(0)
libc.X__builtin___memcpy_chk(tls, db+136, uintptr(unsafe.Pointer(&aHardLimit)), uint64(unsafe.Sizeof([12]int32{})), libc.X__builtin_object_size(tls, db+136, 0))
*(*int32)(unsafe.Pointer(db + 136 + 11*4)) = SQLITE_DEFAULT_WORKER_THREADS
(*Sqlite3)(unsafe.Pointer(db)).FautoCommit = U8(1)
(*Sqlite3)(unsafe.Pointer(db)).FnextAutovac = int8(-1)
(*Sqlite3)(unsafe.Pointer(db)).FszMmap = Xsqlite3Config.FszMmap
(*Sqlite3)(unsafe.Pointer(db)).FnextPagesize = 0
(*Sqlite3)(unsafe.Pointer(db)).Finit.FazInit = uintptr(unsafe.Pointer(&Xsqlite3StdType))
*(*U64)(unsafe.Pointer(db + 48)) |= uint64(uint32(SQLITE_ShortColNames|
SQLITE_EnableTrigger) |
SQLITE_EnableView |
uint32(SQLITE_CacheSpill) |
uint32(SQLITE_TrustedSchema) |
uint32(SQLITE_DqsDML) |
uint32(SQLITE_DqsDDL) |
uint32(SQLITE_AutoIndex))
Xsqlite3HashInit(tls, db+648)
Xsqlite3HashInit(tls, db+576)
createCollation(tls, db, uintptr(unsafe.Pointer(&Xsqlite3StrBINARY)), uint8(SQLITE_UTF8), uintptr(0), *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32
}{binCollFunc})), uintptr(0))
createCollation(tls, db, uintptr(unsafe.Pointer(&Xsqlite3StrBINARY)), uint8(SQLITE_UTF16BE), uintptr(0), *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32
}{binCollFunc})), uintptr(0))
createCollation(tls, db, uintptr(unsafe.Pointer(&Xsqlite3StrBINARY)), uint8(SQLITE_UTF16LE), uintptr(0), *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32
}{binCollFunc})), uintptr(0))
createCollation(tls, db, ts+22313, uint8(SQLITE_UTF8), uintptr(0), *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32
}{nocaseCollatingFunc})), uintptr(0))
createCollation(tls, db, ts+24800, uint8(SQLITE_UTF8), uintptr(0), *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32
}{rtrimCollFunc})), uintptr(0))
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __15
}
goto opendb_out
__15:
;
(*Sqlite3)(unsafe.Pointer(db)).FopenFlags = *(*uint32)(unsafe.Pointer(bp + 8))
if !(int32(1)<<(*(*uint32)(unsafe.Pointer(bp + 8))&uint32(7))&0x46 == 0) {
goto __16
}
rc = Xsqlite3MisuseError(tls, 177308)
goto __17
__16:
rc = Xsqlite3ParseUri(tls, zVfs, zFilename, bp+8, db, bp+16, bp+24)
__17:
;
if !(rc != SQLITE_OK) {
goto __18
}
if !(rc == SQLITE_NOMEM) {
goto __19
}
Xsqlite3OomFault(tls, db)
__19:
;
Xsqlite3ErrorWithMsg(tls, db, rc, func() uintptr {
if *(*uintptr)(unsafe.Pointer(bp + 24)) != 0 {
return ts + 3658
}
return uintptr(0)
}(), libc.VaList(bp, *(*uintptr)(unsafe.Pointer(bp + 24))))
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
goto opendb_out
__18:
;
rc = Xsqlite3BtreeOpen(tls, (*Sqlite3)(unsafe.Pointer(db)).FpVfs, *(*uintptr)(unsafe.Pointer(bp + 16)), db, (*Sqlite3)(unsafe.Pointer(db)).FaDb+8, 0,
int32(*(*uint32)(unsafe.Pointer(bp + 8))|uint32(SQLITE_OPEN_MAIN_DB)))
if !(rc != SQLITE_OK) {
goto __20
}
if !(rc == SQLITE_IOERR|int32(12)<<8) {
goto __21
}
rc = SQLITE_NOMEM
__21:
;
Xsqlite3Error(tls, db, rc)
goto opendb_out
__20:
;
Xsqlite3BtreeEnter(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpBt)
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpSchema = Xsqlite3SchemaGet(tls, db, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpBt)
if !!(int32((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed) != 0) {
goto __22
}
Xsqlite3SetTextEncoding(tls, db, (*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpSchema)).Fenc)
__22:
;
Xsqlite3BtreeLeave(tls, (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpBt)
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + 1*32)).FpSchema = Xsqlite3SchemaGet(tls, db, uintptr(0))
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FzDbSName = ts + 6844
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).Fsafety_level = U8(SQLITE_DEFAULT_SYNCHRONOUS + 1)
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + 1*32)).FzDbSName = ts + 23802
(*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + 1*32)).Fsafety_level = U8(PAGER_SYNCHRONOUS_OFF)
(*Sqlite3)(unsafe.Pointer(db)).FeOpenState = U8(SQLITE_STATE_OPEN)
if !((*Sqlite3)(unsafe.Pointer(db)).FmallocFailed != 0) {
goto __23
}
goto opendb_out
__23:
;
Xsqlite3Error(tls, db, SQLITE_OK)
Xsqlite3RegisterPerConnectionBuiltinFunctions(tls, db)
rc = Xsqlite3_errcode(tls, db)
i = 0
__24:
if !(rc == SQLITE_OK && i < int32(uint64(unsafe.Sizeof(sqlite3BuiltinExtensions))/uint64(unsafe.Sizeof(uintptr(0))))) {
goto __26
}
rc = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{sqlite3BuiltinExtensions[i]})).f(tls, db)
goto __25
__25:
i++
goto __24
goto __26
__26:
;
if !(rc == SQLITE_OK) {
goto __27
}
Xsqlite3AutoLoadExtensions(tls, db)
rc = Xsqlite3_errcode(tls, db)
if !(rc != SQLITE_OK) {
goto __28
}
goto opendb_out
__28:
;
__27:
;
if !(rc != 0) {
goto __29
}
Xsqlite3Error(tls, db, rc)
__29:
;
setupLookaside(tls, db, uintptr(0), Xsqlite3Config.FszLookaside,
Xsqlite3Config.FnLookaside)
Xsqlite3_wal_autocheckpoint(tls, db, SQLITE_DEFAULT_WAL_AUTOCHECKPOINT)
opendb_out:
if !(db != 0) {
goto __30
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
__30:
;
rc = Xsqlite3_errcode(tls, db)
if !(rc&0xff == SQLITE_NOMEM) {
goto __31
}
Xsqlite3_close(tls, db)
db = uintptr(0)
goto __32
__31:
if !(rc != SQLITE_OK) {
goto __33
}
(*Sqlite3)(unsafe.Pointer(db)).FeOpenState = U8(SQLITE_STATE_SICK)
__33:
;
__32:
;
*(*uintptr)(unsafe.Pointer(ppDb)) = db
Xsqlite3_free_filename(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
return rc
}
// Open a new database handle.
func Xsqlite3_open(tls *libc.TLS, zFilename uintptr, ppDb uintptr) int32 {
return openDatabase(tls, zFilename, ppDb,
uint32(SQLITE_OPEN_READWRITE|SQLITE_OPEN_CREATE), uintptr(0))
}
func Xsqlite3_open_v2(tls *libc.TLS, filename uintptr, ppDb uintptr, flags int32, zVfs uintptr) int32 {
return openDatabase(tls, filename, ppDb, uint32(flags), zVfs)
}
// Open a new database handle.
func Xsqlite3_open16(tls *libc.TLS, zFilename uintptr, ppDb uintptr) int32 {
var zFilename8 uintptr
var pVal uintptr
var rc int32
*(*uintptr)(unsafe.Pointer(ppDb)) = uintptr(0)
rc = Xsqlite3_initialize(tls)
if rc != 0 {
return rc
}
if zFilename == uintptr(0) {
zFilename = ts + 24806
}
pVal = Xsqlite3ValueNew(tls, uintptr(0))
Xsqlite3ValueSetStr(tls, pVal, -1, zFilename, uint8(SQLITE_UTF16LE), uintptr(0))
zFilename8 = Xsqlite3ValueText(tls, pVal, uint8(SQLITE_UTF8))
if zFilename8 != 0 {
rc = openDatabase(tls, zFilename8, ppDb,
uint32(SQLITE_OPEN_READWRITE|SQLITE_OPEN_CREATE), uintptr(0))
if rc == SQLITE_OK && !(int32((*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ppDb)))).FaDb)).FpSchema)).FschemaFlags)&DB_SchemaLoaded == DB_SchemaLoaded) {
(*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ppDb)))).FaDb)).FpSchema)).Fenc = libc.AssignPtrUint8(*(*uintptr)(unsafe.Pointer(ppDb))+100, U8(SQLITE_UTF16LE))
}
} else {
rc = SQLITE_NOMEM
}
Xsqlite3ValueFree(tls, pVal)
return rc & 0xff
}
// Register a new collation sequence with the database handle db.
func Xsqlite3_create_collation(tls *libc.TLS, db uintptr, zName uintptr, enc int32, pCtx uintptr, xCompare uintptr) int32 {
return Xsqlite3_create_collation_v2(tls, db, zName, enc, pCtx, xCompare, uintptr(0))
}
// Register a new collation sequence with the database handle db.
func Xsqlite3_create_collation_v2(tls *libc.TLS, db uintptr, zName uintptr, enc int32, pCtx uintptr, xCompare uintptr, xDel uintptr) int32 {
var rc int32
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
rc = createCollation(tls, db, zName, U8(enc), pCtx, xCompare, xDel)
rc = Xsqlite3ApiExit(tls, db, rc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Register a new collation sequence with the database handle db.
func Xsqlite3_create_collation16(tls *libc.TLS, db uintptr, zName uintptr, enc int32, pCtx uintptr, xCompare uintptr) int32 {
var rc int32 = SQLITE_OK
var zName8 uintptr
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
zName8 = Xsqlite3Utf16to8(tls, db, zName, -1, uint8(SQLITE_UTF16LE))
if zName8 != 0 {
rc = createCollation(tls, db, zName8, U8(enc), pCtx, xCompare, uintptr(0))
Xsqlite3DbFree(tls, db, zName8)
}
rc = Xsqlite3ApiExit(tls, db, rc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Register a collation sequence factory callback with the database handle
// db. Replace any previously installed collation sequence factory.
func Xsqlite3_collation_needed(tls *libc.TLS, db uintptr, pCollNeededArg uintptr, xCollNeeded uintptr) int32 {
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
(*Sqlite3)(unsafe.Pointer(db)).FxCollNeeded = xCollNeeded
(*Sqlite3)(unsafe.Pointer(db)).FxCollNeeded16 = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).FpCollNeededArg = pCollNeededArg
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return SQLITE_OK
}
// Register a collation sequence factory callback with the database handle
// db. Replace any previously installed collation sequence factory.
func Xsqlite3_collation_needed16(tls *libc.TLS, db uintptr, pCollNeededArg uintptr, xCollNeeded16 uintptr) int32 {
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
(*Sqlite3)(unsafe.Pointer(db)).FxCollNeeded = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).FxCollNeeded16 = xCollNeeded16
(*Sqlite3)(unsafe.Pointer(db)).FpCollNeededArg = pCollNeededArg
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return SQLITE_OK
}
// This function is now an anachronism. It used to be used to recover from a
// malloc() failure, but SQLite now does this automatically.
func Xsqlite3_global_recover(tls *libc.TLS) int32 {
return SQLITE_OK
}
// Test to see whether or not the database connection is in autocommit
// mode. Return TRUE if it is and FALSE if not. Autocommit mode is on
// by default. Autocommit is disabled by a BEGIN statement and reenabled
// by the next COMMIT or ROLLBACK.
func Xsqlite3_get_autocommit(tls *libc.TLS, db uintptr) int32 {
return int32((*Sqlite3)(unsafe.Pointer(db)).FautoCommit)
}
// The following routines are substitutes for constants SQLITE_CORRUPT,
// SQLITE_MISUSE, SQLITE_CANTOPEN, SQLITE_NOMEM and possibly other error
// constants. They serve two purposes:
//
// 1. Serve as a convenient place to set a breakpoint in a debugger
// to detect when version error conditions occurs.
//
// 2. Invoke sqlite3_log() to provide the source code location where
// a low-level error is first detected.
func Xsqlite3ReportError(tls *libc.TLS, iErr int32, lineno int32, zType uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
Xsqlite3_log(tls, iErr, ts+24809,
libc.VaList(bp, zType, lineno, uintptr(20)+Xsqlite3_sourceid(tls)))
return iErr
}
func Xsqlite3CorruptError(tls *libc.TLS, lineno int32) int32 {
return Xsqlite3ReportError(tls, SQLITE_CORRUPT, lineno, ts+24834)
}
func Xsqlite3MisuseError(tls *libc.TLS, lineno int32) int32 {
return Xsqlite3ReportError(tls, SQLITE_MISUSE, lineno, ts+24854)
}
func Xsqlite3CantopenError(tls *libc.TLS, lineno int32) int32 {
return Xsqlite3ReportError(tls, SQLITE_CANTOPEN, lineno, ts+24861)
}
// This is a convenience routine that makes sure that all thread-specific
// data for this thread has been deallocated.
//
// SQLite no longer uses thread-specific data so this routine is now a
// no-op. It is retained for historical compatibility.
func Xsqlite3_thread_cleanup(tls *libc.TLS) {
}
// Return meta information about a specific column of a database table.
// See comment in sqlite3.h (sqlite.h.in) for details.
func Xsqlite3_table_column_metadata(tls *libc.TLS, db uintptr, zDbName uintptr, zTableName uintptr, zColumnName uintptr, pzDataType uintptr, pzCollSeq uintptr, pNotNull uintptr, pPrimaryKey uintptr, pAutoinc uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var rc int32
var pTab uintptr
var pCol uintptr
var iCol int32
var zDataType uintptr
var zCollSeq uintptr
var notnull int32
var primarykey int32
var autoinc int32
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
pTab = uintptr(0)
pCol = uintptr(0)
iCol = 0
zDataType = uintptr(0)
zCollSeq = uintptr(0)
notnull = 0
primarykey = 0
autoinc = 0
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
Xsqlite3BtreeEnterAll(tls, db)
rc = Xsqlite3Init(tls, db, bp+24)
if !(SQLITE_OK != rc) {
goto __1
}
goto error_out
__1:
;
pTab = Xsqlite3FindTable(tls, db, zTableName, zDbName)
if !(!(pTab != 0) || int32((*Table)(unsafe.Pointer(pTab)).FeTabType) == TABTYP_VIEW) {
goto __2
}
pTab = uintptr(0)
goto error_out
__2:
;
if !(zColumnName == uintptr(0)) {
goto __3
}
goto __4
__3:
iCol = 0
__5:
if !(iCol < int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __7
}
pCol = (*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(iCol)*24
if !(0 == Xsqlite3StrICmp(tls, (*Column)(unsafe.Pointer(pCol)).FzCnName, zColumnName)) {
goto __8
}
goto __7
__8:
;
goto __6
__6:
iCol++
goto __5
goto __7
__7:
;
if !(iCol == int32((*Table)(unsafe.Pointer(pTab)).FnCol)) {
goto __9
}
if !((*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_WithoutRowid) == U32(0) && Xsqlite3IsRowid(tls, zColumnName) != 0) {
goto __10
}
iCol = int32((*Table)(unsafe.Pointer(pTab)).FiPKey)
if iCol >= 0 {
pCol = (*Table)(unsafe.Pointer(pTab)).FaCol + uintptr(iCol)*24
} else {
pCol = uintptr(0)
}
goto __11
__10:
pTab = uintptr(0)
goto error_out
__11:
;
__9:
;
__4:
;
if !(pCol != 0) {
goto __12
}
zDataType = Xsqlite3ColumnType(tls, pCol, uintptr(0))
zCollSeq = Xsqlite3ColumnColl(tls, pCol)
notnull = libc.Bool32(int32(*(*uint8)(unsafe.Pointer(pCol + 8))&0xf>>0) != 0)
primarykey = libc.Bool32(int32((*Column)(unsafe.Pointer(pCol)).FcolFlags)&COLFLAG_PRIMKEY != 0)
autoinc = libc.Bool32(int32((*Table)(unsafe.Pointer(pTab)).FiPKey) == iCol && (*Table)(unsafe.Pointer(pTab)).FtabFlags&U32(TF_Autoincrement) != U32(0))
goto __13
__12:
zDataType = ts + 1112
primarykey = 1
__13:
;
if !!(zCollSeq != 0) {
goto __14
}
zCollSeq = uintptr(unsafe.Pointer(&Xsqlite3StrBINARY))
__14:
;
error_out:
Xsqlite3BtreeLeaveAll(tls, db)
if !(pzDataType != 0) {
goto __15
}
*(*uintptr)(unsafe.Pointer(pzDataType)) = zDataType
__15:
;
if !(pzCollSeq != 0) {
goto __16
}
*(*uintptr)(unsafe.Pointer(pzCollSeq)) = zCollSeq
__16:
;
if !(pNotNull != 0) {
goto __17
}
*(*int32)(unsafe.Pointer(pNotNull)) = notnull
__17:
;
if !(pPrimaryKey != 0) {
goto __18
}
*(*int32)(unsafe.Pointer(pPrimaryKey)) = primarykey
__18:
;
if !(pAutoinc != 0) {
goto __19
}
*(*int32)(unsafe.Pointer(pAutoinc)) = autoinc
__19:
;
if !(SQLITE_OK == rc && !(pTab != 0)) {
goto __20
}
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 24)))
*(*uintptr)(unsafe.Pointer(bp + 24)) = Xsqlite3MPrintf(tls, db, ts+24878, libc.VaList(bp, zTableName,
zColumnName))
rc = SQLITE_ERROR
__20:
;
Xsqlite3ErrorWithMsg(tls, db, rc, func() uintptr {
if *(*uintptr)(unsafe.Pointer(bp + 24)) != 0 {
return ts + 3658
}
return uintptr(0)
}(), libc.VaList(bp+16, *(*uintptr)(unsafe.Pointer(bp + 24))))
Xsqlite3DbFree(tls, db, *(*uintptr)(unsafe.Pointer(bp + 24)))
rc = Xsqlite3ApiExit(tls, db, rc)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Sleep for a little while. Return the amount of time slept.
func Xsqlite3_sleep(tls *libc.TLS, ms int32) int32 {
var pVfs uintptr
var rc int32
pVfs = Xsqlite3_vfs_find(tls, uintptr(0))
if pVfs == uintptr(0) {
return 0
}
rc = Xsqlite3OsSleep(tls, pVfs, 1000*ms) / 1000
return rc
}
// Enable or disable the extended result codes.
func Xsqlite3_extended_result_codes(tls *libc.TLS, db uintptr, onoff int32) int32 {
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
(*Sqlite3)(unsafe.Pointer(db)).FerrMask = func() int32 {
if onoff != 0 {
return libc.Int32FromUint32(0xffffffff)
}
return 0xff
}()
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return SQLITE_OK
}
// Invoke the xFileControl method on a particular database.
func Xsqlite3_file_control(tls *libc.TLS, db uintptr, zDbName uintptr, op int32, pArg uintptr) int32 {
var rc int32 = SQLITE_ERROR
var pBtree uintptr
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
pBtree = Xsqlite3DbNameToBtree(tls, db, zDbName)
if pBtree != 0 {
var pPager uintptr
var fd uintptr
Xsqlite3BtreeEnter(tls, pBtree)
pPager = Xsqlite3BtreePager(tls, pBtree)
fd = Xsqlite3PagerFile(tls, pPager)
if op == SQLITE_FCNTL_FILE_POINTER {
*(*uintptr)(unsafe.Pointer(pArg)) = fd
rc = SQLITE_OK
} else if op == SQLITE_FCNTL_VFS_POINTER {
*(*uintptr)(unsafe.Pointer(pArg)) = Xsqlite3PagerVfs(tls, pPager)
rc = SQLITE_OK
} else if op == SQLITE_FCNTL_JOURNAL_POINTER {
*(*uintptr)(unsafe.Pointer(pArg)) = Xsqlite3PagerJrnlFile(tls, pPager)
rc = SQLITE_OK
} else if op == SQLITE_FCNTL_DATA_VERSION {
*(*uint32)(unsafe.Pointer(pArg)) = Xsqlite3PagerDataVersion(tls, pPager)
rc = SQLITE_OK
} else if op == SQLITE_FCNTL_RESERVE_BYTES {
var iNew int32 = *(*int32)(unsafe.Pointer(pArg))
*(*int32)(unsafe.Pointer(pArg)) = Xsqlite3BtreeGetRequestedReserve(tls, pBtree)
if iNew >= 0 && iNew <= 255 {
Xsqlite3BtreeSetPageSize(tls, pBtree, 0, iNew, 0)
}
rc = SQLITE_OK
} else if op == SQLITE_FCNTL_RESET_CACHE {
Xsqlite3BtreeClearCache(tls, pBtree)
rc = SQLITE_OK
} else {
var nSave int32 = (*Sqlite3)(unsafe.Pointer(db)).FbusyHandler.FnBusy
rc = Xsqlite3OsFileControl(tls, fd, op, pArg)
(*Sqlite3)(unsafe.Pointer(db)).FbusyHandler.FnBusy = nSave
}
Xsqlite3BtreeLeave(tls, pBtree)
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Interface to the testing logic.
func Xsqlite3_test_control(tls *libc.TLS, op int32, va uintptr) int32 {
var rc int32 = 0
var ap Va_list
_ = ap
ap = va
switch op {
case SQLITE_TESTCTRL_PRNG_SAVE:
{
Xsqlite3PrngSaveState(tls)
break
}
case SQLITE_TESTCTRL_PRNG_RESTORE:
{
Xsqlite3PrngRestoreState(tls)
break
}
case SQLITE_TESTCTRL_PRNG_SEED:
{
var x int32 = libc.VaInt32(&ap)
var y int32
var db uintptr = libc.VaUintptr(&ap)
if db != 0 && libc.AssignInt32(&y, (*Schema)(unsafe.Pointer((*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb)).FpSchema)).Fschema_cookie) != 0 {
x = y
}
Xsqlite3Config.FiPrngSeed = uint32(x)
Xsqlite3_randomness(tls, 0, uintptr(0))
break
}
case SQLITE_TESTCTRL_BITVEC_TEST:
{
var sz int32 = libc.VaInt32(&ap)
var aProg uintptr = libc.VaUintptr(&ap)
rc = Xsqlite3BitvecBuiltinTest(tls, sz, aProg)
break
}
case SQLITE_TESTCTRL_FAULT_INSTALL:
{
Xsqlite3Config.FxTestCallback = libc.VaUintptr(&ap)
rc = Xsqlite3FaultSim(tls, 0)
break
}
case SQLITE_TESTCTRL_BENIGN_MALLOC_HOOKS:
{
var xBenignBegin uintptr
var xBenignEnd uintptr
xBenignBegin = libc.VaUintptr(&ap)
xBenignEnd = libc.VaUintptr(&ap)
Xsqlite3BenignMallocHooks(tls, xBenignBegin, xBenignEnd)
break
}
case SQLITE_TESTCTRL_PENDING_BYTE:
{
rc = Xsqlite3PendingByte
{
var newVal uint32 = libc.VaUint32(&ap)
if newVal != 0 {
Xsqlite3PendingByte = int32(newVal)
}
}
break
}
case SQLITE_TESTCTRL_ASSERT:
{
var x int32 = 0
rc = x
break
}
case SQLITE_TESTCTRL_ALWAYS:
{
var x int32 = libc.VaInt32(&ap)
if x != 0 {
rc = x
} else {
rc = 0
}
break
}
case SQLITE_TESTCTRL_BYTEORDER:
{
rc = SQLITE_BYTEORDER*100 + SQLITE_LITTLEENDIAN*10 + SQLITE_BIGENDIAN
break
}
case SQLITE_TESTCTRL_OPTIMIZATIONS:
{
var db uintptr = libc.VaUintptr(&ap)
(*Sqlite3)(unsafe.Pointer(db)).FdbOptFlags = libc.VaUint32(&ap)
break
}
case SQLITE_TESTCTRL_LOCALTIME_FAULT:
{
Xsqlite3Config.FbLocaltimeFault = libc.VaInt32(&ap)
if Xsqlite3Config.FbLocaltimeFault == 2 {
Xsqlite3Config.FxAltLocaltime = libc.VaUintptr(&ap)
} else {
Xsqlite3Config.FxAltLocaltime = uintptr(0)
}
break
}
case SQLITE_TESTCTRL_INTERNAL_FUNCTIONS:
{
var db uintptr = libc.VaUintptr(&ap)
*(*U32)(unsafe.Pointer(db + 44)) ^= U32(DBFLAG_InternalFunc)
break
}
case SQLITE_TESTCTRL_NEVER_CORRUPT:
{
Xsqlite3Config.FneverCorrupt = libc.VaInt32(&ap)
break
}
case SQLITE_TESTCTRL_EXTRA_SCHEMA_CHECKS:
{
Xsqlite3Config.FbExtraSchemaChecks = U8(libc.VaInt32(&ap))
break
}
case SQLITE_TESTCTRL_ONCE_RESET_THRESHOLD:
{
Xsqlite3Config.FiOnceResetThreshold = libc.VaInt32(&ap)
break
}
case SQLITE_TESTCTRL_VDBE_COVERAGE:
{
break
}
case SQLITE_TESTCTRL_SORTER_MMAP:
{
var db uintptr = libc.VaUintptr(&ap)
(*Sqlite3)(unsafe.Pointer(db)).FnMaxSorterMmap = libc.VaInt32(&ap)
break
}
case SQLITE_TESTCTRL_ISINIT:
{
if Xsqlite3Config.FisInit == 0 {
rc = SQLITE_ERROR
}
break
}
case SQLITE_TESTCTRL_IMPOSTER:
{
var db uintptr = libc.VaUintptr(&ap)
var iDb int32
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
iDb = Xsqlite3FindDbName(tls, db, libc.VaUintptr(&ap))
if iDb >= 0 {
(*Sqlite3)(unsafe.Pointer(db)).Finit.FiDb = U8(iDb)
(*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy = U8(libc.AssignBitFieldPtr8Uint32(db+192+8, uint32(libc.VaInt32(&ap)), 1, 1, 0x2))
(*Sqlite3)(unsafe.Pointer(db)).Finit.FnewTnum = Pgno(libc.VaInt32(&ap))
if int32((*Sqlite3)(unsafe.Pointer(db)).Finit.Fbusy) == 0 && (*Sqlite3)(unsafe.Pointer(db)).Finit.FnewTnum > Pgno(0) {
Xsqlite3ResetAllSchemasOfConnection(tls, db)
}
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
break
}
case SQLITE_TESTCTRL_RESULT_INTREAL:
{
var pCtx uintptr = libc.VaUintptr(&ap)
Xsqlite3ResultIntReal(tls, pCtx)
break
}
case SQLITE_TESTCTRL_SEEK_COUNT:
{
var db uintptr = libc.VaUintptr(&ap)
_ = db
var pn uintptr = libc.VaUintptr(&ap)
*(*U64)(unsafe.Pointer(pn)) = uint64(0)
_ = db
break
}
case SQLITE_TESTCTRL_TRACEFLAGS:
{
var opTrace int32 = libc.VaInt32(&ap)
var ptr uintptr = libc.VaUintptr(&ap)
switch opTrace {
case 0:
*(*U32)(unsafe.Pointer(ptr)) = Xsqlite3TreeTrace
break
case 1:
Xsqlite3TreeTrace = *(*U32)(unsafe.Pointer(ptr))
break
case 2:
*(*U32)(unsafe.Pointer(ptr)) = Xsqlite3WhereTrace
break
case 3:
Xsqlite3WhereTrace = *(*U32)(unsafe.Pointer(ptr))
break
}
break
}
case SQLITE_TESTCTRL_LOGEST:
{
var rIn float64 = libc.VaFloat64(&ap)
var rLogEst LogEst = Xsqlite3LogEstFromDouble(tls, rIn)
var pI1 uintptr = libc.VaUintptr(&ap)
var pU64 uintptr = libc.VaUintptr(&ap)
var pI2 uintptr = libc.VaUintptr(&ap)
*(*int32)(unsafe.Pointer(pI1)) = int32(rLogEst)
*(*U64)(unsafe.Pointer(pU64)) = Xsqlite3LogEstToInt(tls, rLogEst)
*(*int32)(unsafe.Pointer(pI2)) = int32(Xsqlite3LogEst(tls, *(*U64)(unsafe.Pointer(pU64))))
break
}
}
_ = ap
return rc
}
func databaseName(tls *libc.TLS, zName uintptr) uintptr {
for int32(*(*int8)(unsafe.Pointer(zName + libc.UintptrFromInt32(-1)))) != 0 || int32(*(*int8)(unsafe.Pointer(zName + libc.UintptrFromInt32(-2)))) != 0 || int32(*(*int8)(unsafe.Pointer(zName + libc.UintptrFromInt32(-3)))) != 0 || int32(*(*int8)(unsafe.Pointer(zName + libc.UintptrFromInt32(-4)))) != 0 {
zName--
}
return zName
}
func appendText(tls *libc.TLS, p uintptr, z uintptr) uintptr {
var n Size_t = libc.Xstrlen(tls, z)
libc.X__builtin___memcpy_chk(tls, p, z, n+uint64(1), libc.X__builtin_object_size(tls, p, 0))
return p + uintptr(n) + uintptr(1)
}
// Allocate memory to hold names for a database, journal file, WAL file,
// and query parameters. The pointer returned is valid for use by
// sqlite3_filename_database() and sqlite3_uri_parameter() and related
// functions.
//
// Memory layout must be compatible with that generated by the pager
// and expected by sqlite3_uri_parameter() and databaseName().
func Xsqlite3_create_filename(tls *libc.TLS, zDatabase uintptr, zJournal uintptr, zWal uintptr, nParam int32, azParam uintptr) uintptr {
var nByte Sqlite3_int64
var i int32
var pResult uintptr
var p uintptr
nByte = Sqlite3_int64(libc.Xstrlen(tls, zDatabase) + libc.Xstrlen(tls, zJournal) + libc.Xstrlen(tls, zWal) + uint64(10))
for i = 0; i < nParam*2; i++ {
nByte = Sqlite3_int64(uint64(nByte) + (libc.Xstrlen(tls, *(*uintptr)(unsafe.Pointer(azParam + uintptr(i)*8))) + uint64(1)))
}
pResult = libc.AssignUintptr(&p, Xsqlite3_malloc64(tls, uint64(nByte)))
if p == uintptr(0) {
return uintptr(0)
}
libc.X__builtin___memset_chk(tls, p, 0, uint64(4), libc.X__builtin_object_size(tls, p, 0))
p += uintptr(4)
p = appendText(tls, p, zDatabase)
for i = 0; i < nParam*2; i++ {
p = appendText(tls, p, *(*uintptr)(unsafe.Pointer(azParam + uintptr(i)*8)))
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&p, 1))) = int8(0)
p = appendText(tls, p, zJournal)
p = appendText(tls, p, zWal)
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&p, 1))) = int8(0)
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&p, 1))) = int8(0)
return pResult + uintptr(4)
}
// Free memory obtained from sqlite3_create_filename(). It is a severe
// error to call this routine with any parameter other than a pointer
// previously obtained from sqlite3_create_filename() or a NULL pointer.
func Xsqlite3_free_filename(tls *libc.TLS, p uintptr) {
if p == uintptr(0) {
return
}
p = databaseName(tls, p)
Xsqlite3_free(tls, p-uintptr(4))
}
// This is a utility routine, useful to VFS implementations, that checks
// to see if a database file was a URI that contained a specific query
// parameter, and if so obtains the value of the query parameter.
//
// The zFilename argument is the filename pointer passed into the xOpen()
// method of a VFS implementation. The zParam argument is the name of the
// query parameter we seek. This routine returns the value of the zParam
// parameter if it exists. If the parameter does not exist, this routine
// returns a NULL pointer.
func Xsqlite3_uri_parameter(tls *libc.TLS, zFilename uintptr, zParam uintptr) uintptr {
if zFilename == uintptr(0) || zParam == uintptr(0) {
return uintptr(0)
}
zFilename = databaseName(tls, zFilename)
return uriParameter(tls, zFilename, zParam)
}
// Return a pointer to the name of Nth query parameter of the filename.
func Xsqlite3_uri_key(tls *libc.TLS, zFilename uintptr, N int32) uintptr {
if zFilename == uintptr(0) || N < 0 {
return uintptr(0)
}
zFilename = databaseName(tls, zFilename)
zFilename += uintptr(Xsqlite3Strlen30(tls, zFilename) + 1)
for zFilename != 0 && *(*int8)(unsafe.Pointer(zFilename)) != 0 && libc.PostDecInt32(&N, 1) > 0 {
zFilename += uintptr(Xsqlite3Strlen30(tls, zFilename) + 1)
zFilename += uintptr(Xsqlite3Strlen30(tls, zFilename) + 1)
}
if *(*int8)(unsafe.Pointer(zFilename)) != 0 {
return zFilename
}
return uintptr(0)
}
// Return a boolean value for a query parameter.
func Xsqlite3_uri_boolean(tls *libc.TLS, zFilename uintptr, zParam uintptr, bDflt int32) int32 {
var z uintptr = Xsqlite3_uri_parameter(tls, zFilename, zParam)
bDflt = libc.Bool32(bDflt != 0)
if z != 0 {
return int32(Xsqlite3GetBoolean(tls, z, uint8(bDflt)))
}
return bDflt
}
// Return a 64-bit integer value for a query parameter.
func Xsqlite3_uri_int64(tls *libc.TLS, zFilename uintptr, zParam uintptr, bDflt Sqlite3_int64) Sqlite3_int64 {
bp := tls.Alloc(8)
defer tls.Free(8)
var z uintptr = Xsqlite3_uri_parameter(tls, zFilename, zParam)
if z != 0 && Xsqlite3DecOrHexToI64(tls, z, bp) == 0 {
bDflt = *(*Sqlite3_int64)(unsafe.Pointer(bp))
}
return bDflt
}
// Translate a filename that was handed to a VFS routine into the corresponding
// database, journal, or WAL file.
//
// It is an error to pass this routine a filename string that was not
// passed into the VFS from the SQLite core. Doing so is similar to
// passing free() a pointer that was not obtained from malloc() - it is
// an error that we cannot easily detect but that will likely cause memory
// corruption.
func Xsqlite3_filename_database(tls *libc.TLS, zFilename uintptr) uintptr {
if zFilename == uintptr(0) {
return uintptr(0)
}
return databaseName(tls, zFilename)
}
func Xsqlite3_filename_journal(tls *libc.TLS, zFilename uintptr) uintptr {
if zFilename == uintptr(0) {
return uintptr(0)
}
zFilename = databaseName(tls, zFilename)
zFilename += uintptr(Xsqlite3Strlen30(tls, zFilename) + 1)
for zFilename != 0 && *(*int8)(unsafe.Pointer(zFilename)) != 0 {
zFilename += uintptr(Xsqlite3Strlen30(tls, zFilename) + 1)
zFilename += uintptr(Xsqlite3Strlen30(tls, zFilename) + 1)
}
return zFilename + uintptr(1)
}
func Xsqlite3_filename_wal(tls *libc.TLS, zFilename uintptr) uintptr {
zFilename = Xsqlite3_filename_journal(tls, zFilename)
if zFilename != 0 {
zFilename += uintptr(Xsqlite3Strlen30(tls, zFilename) + 1)
}
return zFilename
}
// Return the Btree pointer identified by zDbName. Return NULL if not found.
func Xsqlite3DbNameToBtree(tls *libc.TLS, db uintptr, zDbName uintptr) uintptr {
var iDb int32
if zDbName != 0 {
iDb = Xsqlite3FindDbName(tls, db, zDbName)
} else {
iDb = 0
}
if iDb < 0 {
return uintptr(0)
}
return (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpBt
}
// Return the name of the N-th database schema. Return NULL if N is out
// of range.
func Xsqlite3_db_name(tls *libc.TLS, db uintptr, N int32) uintptr {
if N < 0 || N >= (*Sqlite3)(unsafe.Pointer(db)).FnDb {
return uintptr(0)
} else {
return (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(N)*32)).FzDbSName
}
return uintptr(0)
}
// Return the filename of the database associated with a database
// connection.
func Xsqlite3_db_filename(tls *libc.TLS, db uintptr, zDbName uintptr) uintptr {
var pBt uintptr
pBt = Xsqlite3DbNameToBtree(tls, db, zDbName)
if pBt != 0 {
return Xsqlite3BtreeGetFilename(tls, pBt)
}
return uintptr(0)
}
// Return 1 if database is read-only or 0 if read/write. Return -1 if
// no such database exists.
func Xsqlite3_db_readonly(tls *libc.TLS, db uintptr, zDbName uintptr) int32 {
var pBt uintptr
pBt = Xsqlite3DbNameToBtree(tls, db, zDbName)
if pBt != 0 {
return Xsqlite3BtreeIsReadonly(tls, pBt)
}
return -1
}
// Obtain a snapshot handle for the snapshot of database zDb currently
// being read by handle db.
func Xsqlite3_snapshot_get(tls *libc.TLS, db uintptr, zDb uintptr, ppSnapshot uintptr) int32 {
var rc int32 = SQLITE_ERROR
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if int32((*Sqlite3)(unsafe.Pointer(db)).FautoCommit) == 0 {
var iDb int32 = Xsqlite3FindDbName(tls, db, zDb)
if iDb == 0 || iDb > 1 {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpBt
if SQLITE_TXN_WRITE != Xsqlite3BtreeTxnState(tls, pBt) {
rc = Xsqlite3BtreeBeginTrans(tls, pBt, 0, uintptr(0))
if rc == SQLITE_OK {
rc = Xsqlite3PagerSnapshotGet(tls, Xsqlite3BtreePager(tls, pBt), ppSnapshot)
}
}
}
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Open a read-transaction on the snapshot idendified by pSnapshot.
func Xsqlite3_snapshot_open(tls *libc.TLS, db uintptr, zDb uintptr, pSnapshot uintptr) int32 {
var rc int32 = SQLITE_ERROR
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
if int32((*Sqlite3)(unsafe.Pointer(db)).FautoCommit) == 0 {
var iDb int32
iDb = Xsqlite3FindDbName(tls, db, zDb)
if iDb == 0 || iDb > 1 {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpBt
if Xsqlite3BtreeTxnState(tls, pBt) != SQLITE_TXN_WRITE {
var pPager uintptr = Xsqlite3BtreePager(tls, pBt)
var bUnlock int32 = 0
if Xsqlite3BtreeTxnState(tls, pBt) != SQLITE_TXN_NONE {
if (*Sqlite3)(unsafe.Pointer(db)).FnVdbeActive == 0 {
rc = Xsqlite3PagerSnapshotCheck(tls, pPager, pSnapshot)
if rc == SQLITE_OK {
bUnlock = 1
rc = Xsqlite3BtreeCommit(tls, pBt)
}
}
} else {
rc = SQLITE_OK
}
if rc == SQLITE_OK {
rc = Xsqlite3PagerSnapshotOpen(tls, pPager, pSnapshot)
}
if rc == SQLITE_OK {
rc = Xsqlite3BtreeBeginTrans(tls, pBt, 0, uintptr(0))
Xsqlite3PagerSnapshotOpen(tls, pPager, uintptr(0))
}
if bUnlock != 0 {
Xsqlite3PagerSnapshotUnlock(tls, pPager)
}
}
}
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Recover as many snapshots as possible from the wal file associated with
// schema zDb of database db.
func Xsqlite3_snapshot_recover(tls *libc.TLS, db uintptr, zDb uintptr) int32 {
var rc int32 = SQLITE_ERROR
var iDb int32
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
iDb = Xsqlite3FindDbName(tls, db, zDb)
if iDb == 0 || iDb > 1 {
var pBt uintptr = (*Db)(unsafe.Pointer((*Sqlite3)(unsafe.Pointer(db)).FaDb + uintptr(iDb)*32)).FpBt
if SQLITE_TXN_NONE == Xsqlite3BtreeTxnState(tls, pBt) {
rc = Xsqlite3BtreeBeginTrans(tls, pBt, 0, uintptr(0))
if rc == SQLITE_OK {
rc = Xsqlite3PagerSnapshotRecover(tls, Xsqlite3BtreePager(tls, pBt))
Xsqlite3BtreeCommit(tls, pBt)
}
}
}
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// Free a snapshot handle obtained from sqlite3_snapshot_get().
func Xsqlite3_snapshot_free(tls *libc.TLS, pSnapshot uintptr) {
Xsqlite3_free(tls, pSnapshot)
}
// Given the name of a compile-time option, return true if that option
// was used and false if not.
//
// The name can optionally begin with "SQLITE_" but the "SQLITE_" prefix
// is not required for a match.
func Xsqlite3_compileoption_used(tls *libc.TLS, zOptName uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var i int32
var n int32
var azCompileOpt uintptr
azCompileOpt = Xsqlite3CompileOptions(tls, bp)
if Xsqlite3_strnicmp(tls, zOptName, ts+24906, 7) == 0 {
zOptName += uintptr(7)
}
n = Xsqlite3Strlen30(tls, zOptName)
for i = 0; i < *(*int32)(unsafe.Pointer(bp)); i++ {
if Xsqlite3_strnicmp(tls, zOptName, *(*uintptr)(unsafe.Pointer(azCompileOpt + uintptr(i)*8)), n) == 0 &&
Xsqlite3IsIdChar(tls, uint8(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(azCompileOpt + uintptr(i)*8)) + uintptr(n))))) == 0 {
return 1
}
}
return 0
}
// Return the N-th compile-time option string. If N is out of range,
// return a NULL pointer.
func Xsqlite3_compileoption_get(tls *libc.TLS, N int32) uintptr {
bp := tls.Alloc(4)
defer tls.Free(4)
var azCompileOpt uintptr
azCompileOpt = Xsqlite3CompileOptions(tls, bp)
if N >= 0 && N < *(*int32)(unsafe.Pointer(bp)) {
return *(*uintptr)(unsafe.Pointer(azCompileOpt + uintptr(N)*8))
}
return uintptr(0)
}
var sqlite3BlockedList uintptr = uintptr(0)
func removeFromBlockedList(tls *libc.TLS, db uintptr) {
var pp uintptr
for pp = uintptr(unsafe.Pointer(&sqlite3BlockedList)); *(*uintptr)(unsafe.Pointer(pp)) != 0; pp = *(*uintptr)(unsafe.Pointer(pp)) + 840 {
if *(*uintptr)(unsafe.Pointer(pp)) == db {
*(*uintptr)(unsafe.Pointer(pp)) = (*Sqlite3)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).FpNextBlocked
break
}
}
}
func addToBlockedList(tls *libc.TLS, db uintptr) {
var pp uintptr
for pp = uintptr(unsafe.Pointer(&sqlite3BlockedList)); *(*uintptr)(unsafe.Pointer(pp)) != 0 && (*Sqlite3)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).FxUnlockNotify != (*Sqlite3)(unsafe.Pointer(db)).FxUnlockNotify; pp = *(*uintptr)(unsafe.Pointer(pp)) + 840 {
}
(*Sqlite3)(unsafe.Pointer(db)).FpNextBlocked = *(*uintptr)(unsafe.Pointer(pp))
*(*uintptr)(unsafe.Pointer(pp)) = db
}
func enterMutex(tls *libc.TLS) {
Xsqlite3_mutex_enter(tls, Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MAIN))
}
func leaveMutex(tls *libc.TLS) {
Xsqlite3_mutex_leave(tls, Xsqlite3MutexAlloc(tls, SQLITE_MUTEX_STATIC_MAIN))
}
// Register an unlock-notify callback.
//
// This is called after connection "db" has attempted some operation
// but has received an SQLITE_LOCKED error because another connection
// (call it pOther) in the same process was busy using the same shared
// cache. pOther is found by looking at db->pBlockingConnection.
//
// If there is no blocking connection, the callback is invoked immediately,
// before this routine returns.
//
// If pOther is already blocked on db, then report SQLITE_LOCKED, to indicate
// a deadlock.
//
// Otherwise, make arrangements to invoke xNotify when pOther drops
// its locks.
//
// Each call to this routine overrides any prior callbacks registered
// on the same "db". If xNotify==0 then any prior callbacks are immediately
// cancelled.
func Xsqlite3_unlock_notify(tls *libc.TLS, db uintptr, xNotify uintptr, pArg uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = pArg
var rc int32 = SQLITE_OK
Xsqlite3_mutex_enter(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
enterMutex(tls)
if xNotify == uintptr(0) {
removeFromBlockedList(tls, db)
(*Sqlite3)(unsafe.Pointer(db)).FpBlockingConnection = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).FpUnlockConnection = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).FxUnlockNotify = uintptr(0)
(*Sqlite3)(unsafe.Pointer(db)).FpUnlockArg = uintptr(0)
} else if uintptr(0) == (*Sqlite3)(unsafe.Pointer(db)).FpBlockingConnection {
(*struct {
f func(*libc.TLS, uintptr, int32)
})(unsafe.Pointer(&struct{ uintptr }{xNotify})).f(tls, bp, 1)
} else {
var p uintptr
for p = (*Sqlite3)(unsafe.Pointer(db)).FpBlockingConnection; p != 0 && p != db; p = (*Sqlite3)(unsafe.Pointer(p)).FpUnlockConnection {
}
if p != 0 {
rc = SQLITE_LOCKED
} else {
(*Sqlite3)(unsafe.Pointer(db)).FpUnlockConnection = (*Sqlite3)(unsafe.Pointer(db)).FpBlockingConnection
(*Sqlite3)(unsafe.Pointer(db)).FxUnlockNotify = xNotify
(*Sqlite3)(unsafe.Pointer(db)).FpUnlockArg = *(*uintptr)(unsafe.Pointer(bp))
removeFromBlockedList(tls, db)
addToBlockedList(tls, db)
}
}
leaveMutex(tls)
Xsqlite3ErrorWithMsg(tls, db, rc, func() uintptr {
if rc != 0 {
return ts + 24914
}
return uintptr(0)
}(), 0)
Xsqlite3_mutex_leave(tls, (*Sqlite3)(unsafe.Pointer(db)).Fmutex)
return rc
}
// This function is called while stepping or preparing a statement
// associated with connection db. The operation will return SQLITE_LOCKED
// to the user because it requires a lock that will not be available
// until connection pBlocker concludes its current transaction.
func Xsqlite3ConnectionBlocked(tls *libc.TLS, db uintptr, pBlocker uintptr) {
enterMutex(tls)
if (*Sqlite3)(unsafe.Pointer(db)).FpBlockingConnection == uintptr(0) && (*Sqlite3)(unsafe.Pointer(db)).FpUnlockConnection == uintptr(0) {
addToBlockedList(tls, db)
}
(*Sqlite3)(unsafe.Pointer(db)).FpBlockingConnection = pBlocker
leaveMutex(tls)
}
// This function is called when
// the transaction opened by database db has just finished. Locks held
// by database connection db have been released.
//
// This function loops through each entry in the blocked connections
// list and does the following:
//
// 1. If the sqlite3.pBlockingConnection member of a list entry is
// set to db, then set pBlockingConnection=0.
//
// 2. If the sqlite3.pUnlockConnection member of a list entry is
// set to db, then invoke the configured unlock-notify callback and
// set pUnlockConnection=0.
//
// 3. If the two steps above mean that pBlockingConnection==0 and
// pUnlockConnection==0, remove the entry from the blocked connections
// list.
func Xsqlite3ConnectionUnlocked(tls *libc.TLS, db uintptr) {
bp := tls.Alloc(128)
defer tls.Free(128)
var xUnlockNotify uintptr = uintptr(0)
var nArg int32 = 0
var pp uintptr
var aArg uintptr
var aDyn uintptr = uintptr(0)
aArg = bp
enterMutex(tls)
for pp = uintptr(unsafe.Pointer(&sqlite3BlockedList)); *(*uintptr)(unsafe.Pointer(pp)) != 0; {
var p uintptr = *(*uintptr)(unsafe.Pointer(pp))
if (*Sqlite3)(unsafe.Pointer(p)).FpBlockingConnection == db {
(*Sqlite3)(unsafe.Pointer(p)).FpBlockingConnection = uintptr(0)
}
if (*Sqlite3)(unsafe.Pointer(p)).FpUnlockConnection == db {
if (*Sqlite3)(unsafe.Pointer(p)).FxUnlockNotify != xUnlockNotify && nArg != 0 {
(*struct {
f func(*libc.TLS, uintptr, int32)
})(unsafe.Pointer(&struct{ uintptr }{xUnlockNotify})).f(tls, aArg, nArg)
nArg = 0
}
Xsqlite3BeginBenignMalloc(tls)
if !(aDyn != 0) && nArg == int32(uint64(unsafe.Sizeof([16]uintptr{}))/uint64(unsafe.Sizeof(uintptr(0)))) ||
aDyn != 0 && nArg == int32(uint64(Xsqlite3MallocSize(tls, aDyn))/uint64(unsafe.Sizeof(uintptr(0)))) {
var pNew uintptr = Xsqlite3Malloc(tls, uint64(nArg)*uint64(unsafe.Sizeof(uintptr(0)))*uint64(2))
if pNew != 0 {
libc.X__builtin___memcpy_chk(tls, pNew, aArg, uint64(nArg)*uint64(unsafe.Sizeof(uintptr(0))), libc.X__builtin_object_size(tls, pNew, 0))
Xsqlite3_free(tls, aDyn)
aDyn = libc.AssignUintptr(&aArg, pNew)
} else {
(*struct {
f func(*libc.TLS, uintptr, int32)
})(unsafe.Pointer(&struct{ uintptr }{xUnlockNotify})).f(tls, aArg, nArg)
nArg = 0
}
}
Xsqlite3EndBenignMalloc(tls)
*(*uintptr)(unsafe.Pointer(aArg + uintptr(libc.PostIncInt32(&nArg, 1))*8)) = (*Sqlite3)(unsafe.Pointer(p)).FpUnlockArg
xUnlockNotify = (*Sqlite3)(unsafe.Pointer(p)).FxUnlockNotify
(*Sqlite3)(unsafe.Pointer(p)).FpUnlockConnection = uintptr(0)
(*Sqlite3)(unsafe.Pointer(p)).FxUnlockNotify = uintptr(0)
(*Sqlite3)(unsafe.Pointer(p)).FpUnlockArg = uintptr(0)
}
if (*Sqlite3)(unsafe.Pointer(p)).FpBlockingConnection == uintptr(0) && (*Sqlite3)(unsafe.Pointer(p)).FpUnlockConnection == uintptr(0) {
*(*uintptr)(unsafe.Pointer(pp)) = (*Sqlite3)(unsafe.Pointer(p)).FpNextBlocked
(*Sqlite3)(unsafe.Pointer(p)).FpNextBlocked = uintptr(0)
} else {
pp = p + 840
}
}
if nArg != 0 {
(*struct {
f func(*libc.TLS, uintptr, int32)
})(unsafe.Pointer(&struct{ uintptr }{xUnlockNotify})).f(tls, aArg, nArg)
}
Xsqlite3_free(tls, aDyn)
leaveMutex(tls)
}
// This is called when the database connection passed as an argument is
// being closed. The connection is removed from the blocked list.
func Xsqlite3ConnectionClosed(tls *libc.TLS, db uintptr) {
Xsqlite3ConnectionUnlocked(tls, db)
enterMutex(tls)
removeFromBlockedList(tls, db)
leaveMutex(tls)
}
var jsonIsSpace = [256]int8{
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(1), int8(1), int8(0), int8(0), int8(1), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
int8(1), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
}
// Objects
type JsonString1 = struct {
FpCtx uintptr
FzBuf uintptr
FnAlloc U64
FnUsed U64
FbStatic U8
FbErr U8
FzSpace [100]int8
F__ccgo_pad1 [2]byte
}
// Objects
type JsonString = JsonString1
type JsonNode1 = struct {
FeType U8
FjnFlags U8
FeU U8
F__ccgo_pad1 [1]byte
Fn U32
Fu struct{ FzJContent uintptr }
}
type JsonNode = JsonNode1
type JsonParse1 = struct {
FnNode U32
FnAlloc U32
FaNode uintptr
FzJson uintptr
FaUp uintptr
Foom U8
FnErr U8
FiDepth U16
FnJson int32
FiHold U32
F__ccgo_pad1 [4]byte
}
type JsonParse = JsonParse1
var jsonType = [8]uintptr{
ts + 6584, ts + 7167, ts + 7172, ts + 6594, ts + 6589, ts + 8408, ts + 24937, ts + 24943,
}
func jsonZero(tls *libc.TLS, p uintptr) {
(*JsonString)(unsafe.Pointer(p)).FzBuf = p + 34
(*JsonString)(unsafe.Pointer(p)).FnAlloc = U64(unsafe.Sizeof([100]int8{}))
(*JsonString)(unsafe.Pointer(p)).FnUsed = uint64(0)
(*JsonString)(unsafe.Pointer(p)).FbStatic = U8(1)
}
func jsonInit(tls *libc.TLS, p uintptr, pCtx uintptr) {
(*JsonString)(unsafe.Pointer(p)).FpCtx = pCtx
(*JsonString)(unsafe.Pointer(p)).FbErr = U8(0)
jsonZero(tls, p)
}
func jsonReset(tls *libc.TLS, p uintptr) {
if !(int32((*JsonString)(unsafe.Pointer(p)).FbStatic) != 0) {
Xsqlite3_free(tls, (*JsonString)(unsafe.Pointer(p)).FzBuf)
}
jsonZero(tls, p)
}
func jsonOom(tls *libc.TLS, p uintptr) {
(*JsonString)(unsafe.Pointer(p)).FbErr = U8(1)
Xsqlite3_result_error_nomem(tls, (*JsonString)(unsafe.Pointer(p)).FpCtx)
jsonReset(tls, p)
}
func jsonGrow(tls *libc.TLS, p uintptr, N U32) int32 {
var nTotal U64
if U64(N) < (*JsonString)(unsafe.Pointer(p)).FnAlloc {
nTotal = (*JsonString)(unsafe.Pointer(p)).FnAlloc * uint64(2)
} else {
nTotal = (*JsonString)(unsafe.Pointer(p)).FnAlloc + U64(N) + uint64(10)
}
var zNew uintptr
if (*JsonString)(unsafe.Pointer(p)).FbStatic != 0 {
if (*JsonString)(unsafe.Pointer(p)).FbErr != 0 {
return 1
}
zNew = Xsqlite3_malloc64(tls, nTotal)
if zNew == uintptr(0) {
jsonOom(tls, p)
return SQLITE_NOMEM
}
libc.X__builtin___memcpy_chk(tls, zNew, (*JsonString)(unsafe.Pointer(p)).FzBuf, (*JsonString)(unsafe.Pointer(p)).FnUsed, libc.X__builtin_object_size(tls, zNew, 0))
(*JsonString)(unsafe.Pointer(p)).FzBuf = zNew
(*JsonString)(unsafe.Pointer(p)).FbStatic = U8(0)
} else {
zNew = Xsqlite3_realloc64(tls, (*JsonString)(unsafe.Pointer(p)).FzBuf, nTotal)
if zNew == uintptr(0) {
jsonOom(tls, p)
return SQLITE_NOMEM
}
(*JsonString)(unsafe.Pointer(p)).FzBuf = zNew
}
(*JsonString)(unsafe.Pointer(p)).FnAlloc = nTotal
return SQLITE_OK
}
func jsonAppendRaw(tls *libc.TLS, p uintptr, zIn uintptr, N U32) {
if N == U32(0) {
return
}
if U64(N)+(*JsonString)(unsafe.Pointer(p)).FnUsed >= (*JsonString)(unsafe.Pointer(p)).FnAlloc && jsonGrow(tls, p, N) != 0 {
return
}
libc.X__builtin___memcpy_chk(tls, (*JsonString)(unsafe.Pointer(p)).FzBuf+uintptr((*JsonString)(unsafe.Pointer(p)).FnUsed), zIn, uint64(N), libc.X__builtin_object_size(tls, (*JsonString)(unsafe.Pointer(p)).FzBuf+uintptr((*JsonString)(unsafe.Pointer(p)).FnUsed), 0))
*(*U64)(unsafe.Pointer(p + 24)) += U64(N)
}
func jsonPrintf(tls *libc.TLS, N int32, p uintptr, zFormat uintptr, va uintptr) {
var ap Va_list
_ = ap
if (*JsonString)(unsafe.Pointer(p)).FnUsed+U64(N) >= (*JsonString)(unsafe.Pointer(p)).FnAlloc && jsonGrow(tls, p, uint32(N)) != 0 {
return
}
ap = va
Xsqlite3_vsnprintf(tls, N, (*JsonString)(unsafe.Pointer(p)).FzBuf+uintptr((*JsonString)(unsafe.Pointer(p)).FnUsed), zFormat, ap)
_ = ap
*(*U64)(unsafe.Pointer(p + 24)) += U64(int32(libc.Xstrlen(tls, (*JsonString)(unsafe.Pointer(p)).FzBuf+uintptr((*JsonString)(unsafe.Pointer(p)).FnUsed))))
}
func jsonAppendChar(tls *libc.TLS, p uintptr, c int8) {
if (*JsonString)(unsafe.Pointer(p)).FnUsed >= (*JsonString)(unsafe.Pointer(p)).FnAlloc && jsonGrow(tls, p, uint32(1)) != 0 {
return
}
*(*int8)(unsafe.Pointer((*JsonString)(unsafe.Pointer(p)).FzBuf + uintptr(libc.PostIncUint64(&(*JsonString)(unsafe.Pointer(p)).FnUsed, 1)))) = c
}
func jsonAppendSeparator(tls *libc.TLS, p uintptr) {
var c int8
if (*JsonString)(unsafe.Pointer(p)).FnUsed == uint64(0) {
return
}
c = *(*int8)(unsafe.Pointer((*JsonString)(unsafe.Pointer(p)).FzBuf + uintptr((*JsonString)(unsafe.Pointer(p)).FnUsed-uint64(1))))
if int32(c) != '[' && int32(c) != '{' {
jsonAppendChar(tls, p, int8(','))
}
}
func jsonAppendString(tls *libc.TLS, p uintptr, zIn uintptr, N U32) {
var i U32
var c uint8
if !(zIn == uintptr(0) || U64(N)+(*JsonString)(unsafe.Pointer(p)).FnUsed+uint64(2) >= (*JsonString)(unsafe.Pointer(p)).FnAlloc && jsonGrow(tls, p, N+U32(2)) != 0) {
goto __1
}
return
__1:
;
*(*int8)(unsafe.Pointer((*JsonString)(unsafe.Pointer(p)).FzBuf + uintptr(libc.PostIncUint64(&(*JsonString)(unsafe.Pointer(p)).FnUsed, 1)))) = int8('"')
i = U32(0)
__2:
if !(i < N) {
goto __4
}
c = *(*uint8)(unsafe.Pointer(zIn + uintptr(i)))
if !(int32(c) == '"' || int32(c) == '\\') {
goto __5
}
json_simple_escape:
if !((*JsonString)(unsafe.Pointer(p)).FnUsed+U64(N)+uint64(3)-U64(i) > (*JsonString)(unsafe.Pointer(p)).FnAlloc && jsonGrow(tls, p, N+U32(3)-i) != 0) {
goto __7
}
return
__7:
;
*(*int8)(unsafe.Pointer((*JsonString)(unsafe.Pointer(p)).FzBuf + uintptr(libc.PostIncUint64(&(*JsonString)(unsafe.Pointer(p)).FnUsed, 1)))) = int8('\\')
goto __6
__5:
if !(int32(c) <= 0x1f) {
goto __8
}
if !(aSpecial[c] != 0) {
goto __9
}
c = uint8(aSpecial[c])
goto json_simple_escape
__9:
;
if !((*JsonString)(unsafe.Pointer(p)).FnUsed+U64(N)+uint64(7)+U64(i) > (*JsonString)(unsafe.Pointer(p)).FnAlloc && jsonGrow(tls, p, N+U32(7)-i) != 0) {
goto __10
}
return
__10:
;
*(*int8)(unsafe.Pointer((*JsonString)(unsafe.Pointer(p)).FzBuf + uintptr(libc.PostIncUint64(&(*JsonString)(unsafe.Pointer(p)).FnUsed, 1)))) = int8('\\')
*(*int8)(unsafe.Pointer((*JsonString)(unsafe.Pointer(p)).FzBuf + uintptr(libc.PostIncUint64(&(*JsonString)(unsafe.Pointer(p)).FnUsed, 1)))) = int8('u')
*(*int8)(unsafe.Pointer((*JsonString)(unsafe.Pointer(p)).FzBuf + uintptr(libc.PostIncUint64(&(*JsonString)(unsafe.Pointer(p)).FnUsed, 1)))) = int8('0')
*(*int8)(unsafe.Pointer((*JsonString)(unsafe.Pointer(p)).FzBuf + uintptr(libc.PostIncUint64(&(*JsonString)(unsafe.Pointer(p)).FnUsed, 1)))) = int8('0')
*(*int8)(unsafe.Pointer((*JsonString)(unsafe.Pointer(p)).FzBuf + uintptr(libc.PostIncUint64(&(*JsonString)(unsafe.Pointer(p)).FnUsed, 1)))) = int8('0' + int32(c)>>4)
c = uint8(*(*int8)(unsafe.Pointer(ts + 24950 + uintptr(int32(c)&0xf))))
__8:
;
__6:
;
*(*int8)(unsafe.Pointer((*JsonString)(unsafe.Pointer(p)).FzBuf + uintptr(libc.PostIncUint64(&(*JsonString)(unsafe.Pointer(p)).FnUsed, 1)))) = int8(c)
goto __3
__3:
i++
goto __2
goto __4
__4:
;
*(*int8)(unsafe.Pointer((*JsonString)(unsafe.Pointer(p)).FzBuf + uintptr(libc.PostIncUint64(&(*JsonString)(unsafe.Pointer(p)).FnUsed, 1)))) = int8('"')
}
var aSpecial = [32]int8{
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8('b'), int8('t'), int8('n'), int8(0), int8('f'), int8('r'), int8(0), int8(0),
int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0), int8(0),
}
func jsonAppendValue(tls *libc.TLS, p uintptr, pValue uintptr) {
switch Xsqlite3_value_type(tls, pValue) {
case SQLITE_NULL:
{
jsonAppendRaw(tls, p, ts+6584, uint32(4))
break
}
case SQLITE_INTEGER:
fallthrough
case SQLITE_FLOAT:
{
var z uintptr = Xsqlite3_value_text(tls, pValue)
var n U32 = U32(Xsqlite3_value_bytes(tls, pValue))
jsonAppendRaw(tls, p, z, n)
break
}
case SQLITE_TEXT:
{
var z uintptr = Xsqlite3_value_text(tls, pValue)
var n U32 = U32(Xsqlite3_value_bytes(tls, pValue))
if Xsqlite3_value_subtype(tls, pValue) == uint32(JSON_SUBTYPE) {
jsonAppendRaw(tls, p, z, n)
} else {
jsonAppendString(tls, p, z, n)
}
break
}
default:
{
if int32((*JsonString)(unsafe.Pointer(p)).FbErr) == 0 {
Xsqlite3_result_error(tls, (*JsonString)(unsafe.Pointer(p)).FpCtx, ts+24967, -1)
(*JsonString)(unsafe.Pointer(p)).FbErr = U8(2)
jsonReset(tls, p)
}
break
}
}
}
func jsonResult(tls *libc.TLS, p uintptr) {
if int32((*JsonString)(unsafe.Pointer(p)).FbErr) == 0 {
Xsqlite3_result_text64(tls, (*JsonString)(unsafe.Pointer(p)).FpCtx, (*JsonString)(unsafe.Pointer(p)).FzBuf, (*JsonString)(unsafe.Pointer(p)).FnUsed,
func() uintptr {
if (*JsonString)(unsafe.Pointer(p)).FbStatic != 0 {
return libc.UintptrFromInt32(-1)
}
return *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free}))
}(),
uint8(SQLITE_UTF8))
jsonZero(tls, p)
}
}
func jsonNodeSize(tls *libc.TLS, pNode uintptr) U32 {
if int32((*JsonNode)(unsafe.Pointer(pNode)).FeType) >= JSON_ARRAY {
return (*JsonNode)(unsafe.Pointer(pNode)).Fn + U32(1)
}
return uint32(1)
}
func jsonParseReset(tls *libc.TLS, pParse uintptr) {
Xsqlite3_free(tls, (*JsonParse)(unsafe.Pointer(pParse)).FaNode)
(*JsonParse)(unsafe.Pointer(pParse)).FaNode = uintptr(0)
(*JsonParse)(unsafe.Pointer(pParse)).FnNode = U32(0)
(*JsonParse)(unsafe.Pointer(pParse)).FnAlloc = U32(0)
Xsqlite3_free(tls, (*JsonParse)(unsafe.Pointer(pParse)).FaUp)
(*JsonParse)(unsafe.Pointer(pParse)).FaUp = uintptr(0)
}
func jsonParseFree(tls *libc.TLS, pParse uintptr) {
jsonParseReset(tls, pParse)
Xsqlite3_free(tls, pParse)
}
func jsonRenderNode(tls *libc.TLS, pNode uintptr, pOut uintptr, aReplace uintptr) {
if int32((*JsonNode)(unsafe.Pointer(pNode)).FjnFlags)&(JNODE_REPLACE|JNODE_PATCH) != 0 {
if int32((*JsonNode)(unsafe.Pointer(pNode)).FjnFlags)&JNODE_REPLACE != 0 && aReplace != uintptr(0) {
jsonAppendValue(tls, pOut, *(*uintptr)(unsafe.Pointer(aReplace + uintptr(*(*U32)(unsafe.Pointer(pNode + 8)))*8)))
return
}
pNode = *(*uintptr)(unsafe.Pointer(pNode + 8))
}
switch int32((*JsonNode)(unsafe.Pointer(pNode)).FeType) {
default:
{
jsonAppendRaw(tls, pOut, ts+6584, uint32(4))
break
}
case JSON_TRUE:
{
jsonAppendRaw(tls, pOut, ts+7167, uint32(4))
break
}
case JSON_FALSE:
{
jsonAppendRaw(tls, pOut, ts+7172, uint32(5))
break
}
case JSON_STRING:
{
if int32((*JsonNode)(unsafe.Pointer(pNode)).FjnFlags)&JNODE_RAW != 0 {
jsonAppendString(tls, pOut, *(*uintptr)(unsafe.Pointer(pNode + 8)), (*JsonNode)(unsafe.Pointer(pNode)).Fn)
break
}
}
fallthrough
case JSON_REAL:
fallthrough
case JSON_INT:
{
jsonAppendRaw(tls, pOut, *(*uintptr)(unsafe.Pointer(pNode + 8)), (*JsonNode)(unsafe.Pointer(pNode)).Fn)
break
}
case JSON_ARRAY:
{
var j U32 = U32(1)
jsonAppendChar(tls, pOut, int8('['))
for {
for j <= (*JsonNode)(unsafe.Pointer(pNode)).Fn {
if int32((*JsonNode)(unsafe.Pointer(pNode+uintptr(j)*16)).FjnFlags)&JNODE_REMOVE == 0 {
jsonAppendSeparator(tls, pOut)
jsonRenderNode(tls, pNode+uintptr(j)*16, pOut, aReplace)
}
j = j + jsonNodeSize(tls, pNode+uintptr(j)*16)
}
if int32((*JsonNode)(unsafe.Pointer(pNode)).FjnFlags)&JNODE_APPEND == 0 {
break
}
pNode = pNode + uintptr(*(*U32)(unsafe.Pointer(pNode + 8)))*16
j = U32(1)
}
jsonAppendChar(tls, pOut, int8(']'))
break
}
case JSON_OBJECT:
{
var j U32 = U32(1)
jsonAppendChar(tls, pOut, int8('{'))
for {
for j <= (*JsonNode)(unsafe.Pointer(pNode)).Fn {
if int32((*JsonNode)(unsafe.Pointer(pNode+uintptr(j+U32(1))*16)).FjnFlags)&JNODE_REMOVE == 0 {
jsonAppendSeparator(tls, pOut)
jsonRenderNode(tls, pNode+uintptr(j)*16, pOut, aReplace)
jsonAppendChar(tls, pOut, int8(':'))
jsonRenderNode(tls, pNode+uintptr(j+U32(1))*16, pOut, aReplace)
}
j = j + (U32(1) + jsonNodeSize(tls, pNode+uintptr(j+U32(1))*16))
}
if int32((*JsonNode)(unsafe.Pointer(pNode)).FjnFlags)&JNODE_APPEND == 0 {
break
}
pNode = pNode + uintptr(*(*U32)(unsafe.Pointer(pNode + 8)))*16
j = U32(1)
}
jsonAppendChar(tls, pOut, int8('}'))
break
}
}
}
func jsonReturnJson(tls *libc.TLS, pNode uintptr, pCtx uintptr, aReplace uintptr) {
bp := tls.Alloc(136)
defer tls.Free(136)
jsonInit(tls, bp, pCtx)
jsonRenderNode(tls, pNode, bp, aReplace)
jsonResult(tls, bp)
Xsqlite3_result_subtype(tls, pCtx, uint32(JSON_SUBTYPE))
}
func jsonHexToInt(tls *libc.TLS, h int32) U8 {
h = h + 9*(1&(h>>6))
return U8(h & 0xf)
}
func jsonHexToInt4(tls *libc.TLS, z uintptr) U32 {
var v U32
v = U32(int32(jsonHexToInt(tls, int32(*(*int8)(unsafe.Pointer(z)))))<<12 +
int32(jsonHexToInt(tls, int32(*(*int8)(unsafe.Pointer(z + 1)))))<<8 +
int32(jsonHexToInt(tls, int32(*(*int8)(unsafe.Pointer(z + 2)))))<<4 +
int32(jsonHexToInt(tls, int32(*(*int8)(unsafe.Pointer(z + 3))))))
return v
}
func jsonReturn(tls *libc.TLS, pNode uintptr, pCtx uintptr, aReplace uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var v uint32
var i Sqlite3_int64
var z uintptr
var z1 uintptr
var vlo U32
var v1 U32
var c int8
var i1 U32
var n U32
var z2 uintptr
var zOut uintptr
var j U32
switch int32((*JsonNode)(unsafe.Pointer(pNode)).FeType) {
default:
goto __2
case JSON_TRUE:
goto __3
case JSON_FALSE:
goto __4
case JSON_INT:
goto __5
case JSON_REAL:
goto __6
case JSON_STRING:
goto __7
case JSON_ARRAY:
goto __8
case JSON_OBJECT:
goto __9
}
goto __1
__2:
;
Xsqlite3_result_null(tls, pCtx)
goto __1
__3:
Xsqlite3_result_int(tls, pCtx, 1)
goto __1
__4:
Xsqlite3_result_int(tls, pCtx, 0)
goto __1
__5:
i = int64(0)
z = *(*uintptr)(unsafe.Pointer(pNode + 8))
if !(int32(*(*int8)(unsafe.Pointer(z))) == '-') {
goto __10
}
z++
__10:
;
__11:
if !(int32(*(*int8)(unsafe.Pointer(z))) >= '0' && int32(*(*int8)(unsafe.Pointer(z))) <= '9') {
goto __12
}
v = uint32(int32(*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1)))) - '0')
if !(i >= (int64(0xffffffff)|int64(0x7fffffff)<<32)/int64(10)) {
goto __13
}
if !(i > (int64(0xffffffff)|int64(0x7fffffff)<<32)/int64(10)) {
goto __14
}
goto int_as_real
__14:
;
if !(int32(*(*int8)(unsafe.Pointer(z))) >= '0' && int32(*(*int8)(unsafe.Pointer(z))) <= '9') {
goto __15
}
goto int_as_real
__15:
;
if !(v == uint32(9)) {
goto __16
}
goto int_as_real
__16:
;
if !(v == uint32(8)) {
goto __17
}
if !(int32(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNode + 8))))) == '-') {
goto __18
}
Xsqlite3_result_int64(tls, pCtx, int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32))
goto int_done
goto __19
__18:
goto int_as_real
__19:
;
__17:
;
__13:
;
i = i*int64(10) + Sqlite3_int64(v)
goto __11
__12:
;
if !(int32(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNode + 8))))) == '-') {
goto __20
}
i = -i
__20:
;
Xsqlite3_result_int64(tls, pCtx, i)
int_done:
goto __1
int_as_real:
;
__6:
;
z1 = *(*uintptr)(unsafe.Pointer(pNode + 8))
Xsqlite3AtoF(tls, z1, bp, Xsqlite3Strlen30(tls, z1), uint8(SQLITE_UTF8))
Xsqlite3_result_double(tls, pCtx, *(*float64)(unsafe.Pointer(bp)))
goto __1
__7:
;
if !(int32((*JsonNode)(unsafe.Pointer(pNode)).FjnFlags)&JNODE_ESCAPE == 0) {
goto __21
}
Xsqlite3_result_text(tls, pCtx, *(*uintptr)(unsafe.Pointer(pNode + 8))+uintptr(1), int32((*JsonNode)(unsafe.Pointer(pNode)).Fn-U32(2)),
libc.UintptrFromInt32(-1))
goto __22
__21:
n = (*JsonNode)(unsafe.Pointer(pNode)).Fn
z2 = *(*uintptr)(unsafe.Pointer(pNode + 8))
zOut = Xsqlite3_malloc(tls, int32(n+U32(1)))
if !(zOut == uintptr(0)) {
goto __23
}
Xsqlite3_result_error_nomem(tls, pCtx)
goto __1
__23:
;
i1 = U32(1)
j = U32(0)
__24:
if !(i1 < n-U32(1)) {
goto __26
}
c = *(*int8)(unsafe.Pointer(z2 + uintptr(i1)))
if !(int32(c) != '\\') {
goto __27
}
*(*int8)(unsafe.Pointer(zOut + uintptr(libc.PostIncUint32(&j, 1)))) = c
goto __28
__27:
c = *(*int8)(unsafe.Pointer(z2 + uintptr(libc.PreIncUint32(&i1, 1))))
if !(int32(c) == 'u') {
goto __29
}
v1 = jsonHexToInt4(tls, z2+uintptr(i1)+uintptr(1))
i1 = i1 + U32(4)
if !(v1 == U32(0)) {
goto __31
}
goto __26
__31:
;
if !(v1 <= U32(0x7f)) {
goto __32
}
*(*int8)(unsafe.Pointer(zOut + uintptr(libc.PostIncUint32(&j, 1)))) = int8(v1)
goto __33
__32:
if !(v1 <= U32(0x7ff)) {
goto __34
}
*(*int8)(unsafe.Pointer(zOut + uintptr(libc.PostIncUint32(&j, 1)))) = int8(U32(0xc0) | v1>>6)
*(*int8)(unsafe.Pointer(zOut + uintptr(libc.PostIncUint32(&j, 1)))) = int8(U32(0x80) | v1&U32(0x3f))
goto __35
__34:
if !(v1&U32(0xfc00) == U32(0xd800) &&
i1 < n-U32(6) &&
int32(*(*int8)(unsafe.Pointer(z2 + uintptr(i1+U32(1))))) == '\\' &&
int32(*(*int8)(unsafe.Pointer(z2 + uintptr(i1+U32(2))))) == 'u' &&
libc.AssignUint32(&vlo, jsonHexToInt4(tls, z2+uintptr(i1)+uintptr(3)))&U32(0xfc00) == U32(0xdc00)) {
goto __36
}
v1 = v1&U32(0x3ff)<<10 + vlo&U32(0x3ff) + U32(0x10000)
i1 = i1 + U32(6)
*(*int8)(unsafe.Pointer(zOut + uintptr(libc.PostIncUint32(&j, 1)))) = int8(U32(0xf0) | v1>>18)
*(*int8)(unsafe.Pointer(zOut + uintptr(libc.PostIncUint32(&j, 1)))) = int8(U32(0x80) | v1>>12&U32(0x3f))
*(*int8)(unsafe.Pointer(zOut + uintptr(libc.PostIncUint32(&j, 1)))) = int8(U32(0x80) | v1>>6&U32(0x3f))
*(*int8)(unsafe.Pointer(zOut + uintptr(libc.PostIncUint32(&j, 1)))) = int8(U32(0x80) | v1&U32(0x3f))
goto __37
__36:
*(*int8)(unsafe.Pointer(zOut + uintptr(libc.PostIncUint32(&j, 1)))) = int8(U32(0xe0) | v1>>12)
*(*int8)(unsafe.Pointer(zOut + uintptr(libc.PostIncUint32(&j, 1)))) = int8(U32(0x80) | v1>>6&U32(0x3f))
*(*int8)(unsafe.Pointer(zOut + uintptr(libc.PostIncUint32(&j, 1)))) = int8(U32(0x80) | v1&U32(0x3f))
__37:
;
__35:
;
__33:
;
goto __30
__29:
if !(int32(c) == 'b') {
goto __38
}
c = int8('\b')
goto __39
__38:
if !(int32(c) == 'f') {
goto __40
}
c = int8('\f')
goto __41
__40:
if !(int32(c) == 'n') {
goto __42
}
c = int8('\n')
goto __43
__42:
if !(int32(c) == 'r') {
goto __44
}
c = int8('\r')
goto __45
__44:
if !(int32(c) == 't') {
goto __46
}
c = int8('\t')
__46:
;
__45:
;
__43:
;
__41:
;
__39:
;
*(*int8)(unsafe.Pointer(zOut + uintptr(libc.PostIncUint32(&j, 1)))) = c
__30:
;
__28:
;
goto __25
__25:
i1++
goto __24
goto __26
__26:
;
*(*int8)(unsafe.Pointer(zOut + uintptr(j))) = int8(0)
Xsqlite3_result_text(tls, pCtx, zOut, int32(j), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
__22:
;
goto __1
__8:
__9:
jsonReturnJson(tls, pNode, pCtx, aReplace)
goto __1
__1:
}
func jsonParseAddNodeExpand(tls *libc.TLS, pParse uintptr, eType U32, n U32, zContent uintptr) int32 {
var nNew U32
var pNew uintptr
if (*JsonParse)(unsafe.Pointer(pParse)).Foom != 0 {
return -1
}
nNew = (*JsonParse)(unsafe.Pointer(pParse)).FnAlloc*U32(2) + U32(10)
pNew = Xsqlite3_realloc64(tls, (*JsonParse)(unsafe.Pointer(pParse)).FaNode, uint64(unsafe.Sizeof(JsonNode{}))*uint64(nNew))
if pNew == uintptr(0) {
(*JsonParse)(unsafe.Pointer(pParse)).Foom = U8(1)
return -1
}
(*JsonParse)(unsafe.Pointer(pParse)).FnAlloc = nNew
(*JsonParse)(unsafe.Pointer(pParse)).FaNode = pNew
return jsonParseAddNode(tls, pParse, eType, n, zContent)
}
func jsonParseAddNode(tls *libc.TLS, pParse uintptr, eType U32, n U32, zContent uintptr) int32 {
var p uintptr
if (*JsonParse)(unsafe.Pointer(pParse)).FaNode == uintptr(0) || (*JsonParse)(unsafe.Pointer(pParse)).FnNode >= (*JsonParse)(unsafe.Pointer(pParse)).FnAlloc {
return jsonParseAddNodeExpand(tls, pParse, eType, n, zContent)
}
p = (*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr((*JsonParse)(unsafe.Pointer(pParse)).FnNode)*16
(*JsonNode)(unsafe.Pointer(p)).FeType = U8(eType)
(*JsonNode)(unsafe.Pointer(p)).FjnFlags = U8(0)
(*JsonNode)(unsafe.Pointer(p)).Fn = n
*(*uintptr)(unsafe.Pointer(p + 8)) = zContent
return int32(libc.PostIncUint32(&(*JsonParse)(unsafe.Pointer(pParse)).FnNode, 1))
}
func jsonIs4Hex(tls *libc.TLS, z uintptr) int32 {
var i int32
for i = 0; i < 4; i++ {
if !(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z + uintptr(i))))])&0x08 != 0) {
return 0
}
}
return 1
}
func jsonParseValue(tls *libc.TLS, pParse uintptr, i U32) int32 {
var c int8
var j U32
var iThis int32
var x int32
var pNode uintptr
var z uintptr = (*JsonParse)(unsafe.Pointer(pParse)).FzJson
for jsonIsSpace[uint8(*(*int8)(unsafe.Pointer(z + uintptr(i))))] != 0 {
i++
}
if int32(libc.AssignInt8(&c, *(*int8)(unsafe.Pointer(z + uintptr(i))))) == '{' {
iThis = jsonParseAddNode(tls, pParse, uint32(JSON_OBJECT), uint32(0), uintptr(0))
if iThis < 0 {
return -1
}
for j = i + U32(1); ; j++ {
for jsonIsSpace[uint8(*(*int8)(unsafe.Pointer(z + uintptr(j))))] != 0 {
j++
}
if int32(libc.PreIncUint16(&(*JsonParse)(unsafe.Pointer(pParse)).FiDepth, 1)) > JSON_MAX_DEPTH {
return -1
}
x = jsonParseValue(tls, pParse, j)
if x < 0 {
(*JsonParse)(unsafe.Pointer(pParse)).FiDepth--
if x == -2 && (*JsonParse)(unsafe.Pointer(pParse)).FnNode == U32(iThis)+U32(1) {
return int32(j + U32(1))
}
return -1
}
if (*JsonParse)(unsafe.Pointer(pParse)).Foom != 0 {
return -1
}
pNode = (*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr((*JsonParse)(unsafe.Pointer(pParse)).FnNode-U32(1))*16
if int32((*JsonNode)(unsafe.Pointer(pNode)).FeType) != JSON_STRING {
return -1
}
*(*U8)(unsafe.Pointer(pNode + 1)) |= U8(JNODE_LABEL)
j = U32(x)
for jsonIsSpace[uint8(*(*int8)(unsafe.Pointer(z + uintptr(j))))] != 0 {
j++
}
if int32(*(*int8)(unsafe.Pointer(z + uintptr(j)))) != ':' {
return -1
}
j++
x = jsonParseValue(tls, pParse, j)
(*JsonParse)(unsafe.Pointer(pParse)).FiDepth--
if x < 0 {
return -1
}
j = U32(x)
for jsonIsSpace[uint8(*(*int8)(unsafe.Pointer(z + uintptr(j))))] != 0 {
j++
}
c = *(*int8)(unsafe.Pointer(z + uintptr(j)))
if int32(c) == ',' {
continue
}
if int32(c) != '}' {
return -1
}
break
}
(*JsonNode)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iThis)*16)).Fn = (*JsonParse)(unsafe.Pointer(pParse)).FnNode - U32(iThis) - U32(1)
return int32(j + U32(1))
} else if int32(c) == '[' {
iThis = jsonParseAddNode(tls, pParse, uint32(JSON_ARRAY), uint32(0), uintptr(0))
if iThis < 0 {
return -1
}
libc.X__builtin___memset_chk(tls, (*JsonParse)(unsafe.Pointer(pParse)).FaNode+uintptr(iThis)*16+8, 0, uint64(unsafe.Sizeof(struct{ FzJContent uintptr }{})), libc.X__builtin_object_size(tls, (*JsonParse)(unsafe.Pointer(pParse)).FaNode+uintptr(iThis)*16+8, 0))
for j = i + U32(1); ; j++ {
for jsonIsSpace[uint8(*(*int8)(unsafe.Pointer(z + uintptr(j))))] != 0 {
j++
}
if int32(libc.PreIncUint16(&(*JsonParse)(unsafe.Pointer(pParse)).FiDepth, 1)) > JSON_MAX_DEPTH {
return -1
}
x = jsonParseValue(tls, pParse, j)
(*JsonParse)(unsafe.Pointer(pParse)).FiDepth--
if x < 0 {
if x == -3 && (*JsonParse)(unsafe.Pointer(pParse)).FnNode == U32(iThis)+U32(1) {
return int32(j + U32(1))
}
return -1
}
j = U32(x)
for jsonIsSpace[uint8(*(*int8)(unsafe.Pointer(z + uintptr(j))))] != 0 {
j++
}
c = *(*int8)(unsafe.Pointer(z + uintptr(j)))
if int32(c) == ',' {
continue
}
if int32(c) != ']' {
return -1
}
break
}
(*JsonNode)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iThis)*16)).Fn = (*JsonParse)(unsafe.Pointer(pParse)).FnNode - U32(iThis) - U32(1)
return int32(j + U32(1))
} else if int32(c) == '"' {
var jnFlags U8 = U8(0)
j = i + U32(1)
for {
c = *(*int8)(unsafe.Pointer(z + uintptr(j)))
if int32(c)&libc.CplInt32(0x1f) == 0 {
return -1
}
if int32(c) == '\\' {
c = *(*int8)(unsafe.Pointer(z + uintptr(libc.PreIncUint32(&j, 1))))
if int32(c) == '"' || int32(c) == '\\' || int32(c) == '/' || int32(c) == 'b' || int32(c) == 'f' ||
int32(c) == 'n' || int32(c) == 'r' || int32(c) == 't' ||
int32(c) == 'u' && jsonIs4Hex(tls, z+uintptr(j)+uintptr(1)) != 0 {
jnFlags = U8(JNODE_ESCAPE)
} else {
return -1
}
} else if int32(c) == '"' {
break
}
j++
}
jsonParseAddNode(tls, pParse, uint32(JSON_STRING), j+U32(1)-i, z+uintptr(i))
if !(int32((*JsonParse)(unsafe.Pointer(pParse)).Foom) != 0) {
(*JsonNode)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr((*JsonParse)(unsafe.Pointer(pParse)).FnNode-U32(1))*16)).FjnFlags = jnFlags
}
return int32(j + U32(1))
} else if int32(c) == 'n' &&
libc.Xstrncmp(tls, z+uintptr(i), ts+6584, uint64(4)) == 0 &&
!(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z + uintptr(i+U32(4)))))])&0x06 != 0) {
jsonParseAddNode(tls, pParse, uint32(JSON_NULL), uint32(0), uintptr(0))
return int32(i + U32(4))
} else if int32(c) == 't' &&
libc.Xstrncmp(tls, z+uintptr(i), ts+7167, uint64(4)) == 0 &&
!(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z + uintptr(i+U32(4)))))])&0x06 != 0) {
jsonParseAddNode(tls, pParse, uint32(JSON_TRUE), uint32(0), uintptr(0))
return int32(i + U32(4))
} else if int32(c) == 'f' &&
libc.Xstrncmp(tls, z+uintptr(i), ts+7172, uint64(5)) == 0 &&
!(int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z + uintptr(i+U32(5)))))])&0x06 != 0) {
jsonParseAddNode(tls, pParse, uint32(JSON_FALSE), uint32(0), uintptr(0))
return int32(i + U32(5))
} else if int32(c) == '-' || int32(c) >= '0' && int32(c) <= '9' {
var seenDP U8 = U8(0)
var seenE U8 = U8(0)
if int32(c) <= '0' {
if int32(c) == '-' {
j = i + U32(1)
} else {
j = i
}
if int32(*(*int8)(unsafe.Pointer(z + uintptr(j)))) == '0' && int32(*(*int8)(unsafe.Pointer(z + uintptr(j+U32(1))))) >= '0' && int32(*(*int8)(unsafe.Pointer(z + uintptr(j+U32(1))))) <= '9' {
return -1
}
}
j = i + U32(1)
for ; ; j++ {
c = *(*int8)(unsafe.Pointer(z + uintptr(j)))
if int32(c) >= '0' && int32(c) <= '9' {
continue
}
if int32(c) == '.' {
if int32(*(*int8)(unsafe.Pointer(z + uintptr(j-U32(1))))) == '-' {
return -1
}
if seenDP != 0 {
return -1
}
seenDP = U8(1)
continue
}
if int32(c) == 'e' || int32(c) == 'E' {
if int32(*(*int8)(unsafe.Pointer(z + uintptr(j-U32(1))))) < '0' {
return -1
}
if seenE != 0 {
return -1
}
seenDP = libc.AssignUint8(&seenE, U8(1))
c = *(*int8)(unsafe.Pointer(z + uintptr(j+U32(1))))
if int32(c) == '+' || int32(c) == '-' {
j++
c = *(*int8)(unsafe.Pointer(z + uintptr(j+U32(1))))
}
if int32(c) < '0' || int32(c) > '9' {
return -1
}
continue
}
break
}
if int32(*(*int8)(unsafe.Pointer(z + uintptr(j-U32(1))))) < '0' {
return -1
}
jsonParseAddNode(tls, pParse, func() uint32 {
if seenDP != 0 {
return uint32(JSON_REAL)
}
return uint32(JSON_INT)
}(),
j-i, z+uintptr(i))
return int32(j)
} else if int32(c) == '}' {
return -2
} else if int32(c) == ']' {
return -3
} else if int32(c) == 0 {
return 0
} else {
return -1
}
return int32(0)
}
func jsonParse(tls *libc.TLS, pParse uintptr, pCtx uintptr, zJson uintptr) int32 {
var i int32
libc.X__builtin___memset_chk(tls, pParse, 0, uint64(unsafe.Sizeof(JsonParse{})), libc.X__builtin_object_size(tls, pParse, 0))
if zJson == uintptr(0) {
return 1
}
(*JsonParse)(unsafe.Pointer(pParse)).FzJson = zJson
i = jsonParseValue(tls, pParse, uint32(0))
if (*JsonParse)(unsafe.Pointer(pParse)).Foom != 0 {
i = -1
}
if i > 0 {
for jsonIsSpace[uint8(*(*int8)(unsafe.Pointer(zJson + uintptr(i))))] != 0 {
i++
}
if *(*int8)(unsafe.Pointer(zJson + uintptr(i))) != 0 {
i = -1
}
}
if i <= 0 {
if pCtx != uintptr(0) {
if (*JsonParse)(unsafe.Pointer(pParse)).Foom != 0 {
Xsqlite3_result_error_nomem(tls, pCtx)
} else {
Xsqlite3_result_error(tls, pCtx, ts+24996, -1)
}
}
jsonParseReset(tls, pParse)
return 1
}
return 0
}
func jsonParseFillInParentage(tls *libc.TLS, pParse uintptr, i U32, iParent U32) {
var pNode uintptr = (*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(i)*16
var j U32
*(*U32)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(pParse)).FaUp + uintptr(i)*4)) = iParent
switch int32((*JsonNode)(unsafe.Pointer(pNode)).FeType) {
case JSON_ARRAY:
{
for j = U32(1); j <= (*JsonNode)(unsafe.Pointer(pNode)).Fn; j = j + jsonNodeSize(tls, pNode+uintptr(j)*16) {
jsonParseFillInParentage(tls, pParse, i+j, i)
}
break
}
case JSON_OBJECT:
{
for j = U32(1); j <= (*JsonNode)(unsafe.Pointer(pNode)).Fn; j = j + (jsonNodeSize(tls, pNode+uintptr(j)*16+uintptr(1)*16) + U32(1)) {
*(*U32)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(pParse)).FaUp + uintptr(i+j)*4)) = i
jsonParseFillInParentage(tls, pParse, i+j+U32(1), i)
}
break
}
default:
{
break
}
}
}
func jsonParseFindParents(tls *libc.TLS, pParse uintptr) int32 {
var aUp uintptr
aUp = libc.AssignPtrUintptr(pParse+24, Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(U32(0)))*uint64((*JsonParse)(unsafe.Pointer(pParse)).FnNode)))
if aUp == uintptr(0) {
(*JsonParse)(unsafe.Pointer(pParse)).Foom = U8(1)
return SQLITE_NOMEM
}
jsonParseFillInParentage(tls, pParse, uint32(0), uint32(0))
return SQLITE_OK
}
func jsonParseCached(tls *libc.TLS, pCtx uintptr, argv uintptr, pErrCtx uintptr) uintptr {
var zJson uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
var nJson int32 = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv)))
var p uintptr
var pMatch uintptr = uintptr(0)
var iKey int32
var iMinKey int32 = 0
var iMinHold U32 = 0xffffffff
var iMaxHold U32 = U32(0)
if zJson == uintptr(0) {
return uintptr(0)
}
for iKey = 0; iKey < JSON_CACHE_SZ; iKey++ {
p = Xsqlite3_get_auxdata(tls, pCtx, -429938+iKey)
if p == uintptr(0) {
iMinKey = iKey
break
}
if pMatch == uintptr(0) &&
(*JsonParse)(unsafe.Pointer(p)).FnJson == nJson &&
libc.Xmemcmp(tls, (*JsonParse)(unsafe.Pointer(p)).FzJson, zJson, uint64(nJson)) == 0 {
(*JsonParse)(unsafe.Pointer(p)).FnErr = U8(0)
pMatch = p
} else if (*JsonParse)(unsafe.Pointer(p)).FiHold < iMinHold {
iMinHold = (*JsonParse)(unsafe.Pointer(p)).FiHold
iMinKey = iKey
}
if (*JsonParse)(unsafe.Pointer(p)).FiHold > iMaxHold {
iMaxHold = (*JsonParse)(unsafe.Pointer(p)).FiHold
}
}
if pMatch != 0 {
(*JsonParse)(unsafe.Pointer(pMatch)).FnErr = U8(0)
(*JsonParse)(unsafe.Pointer(pMatch)).FiHold = iMaxHold + U32(1)
return pMatch
}
p = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(JsonParse{}))+uint64(nJson)+uint64(1))
if p == uintptr(0) {
Xsqlite3_result_error_nomem(tls, pCtx)
return uintptr(0)
}
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(JsonParse{})), libc.X__builtin_object_size(tls, p, 0))
(*JsonParse)(unsafe.Pointer(p)).FzJson = p + 1*48
libc.X__builtin___memcpy_chk(tls, (*JsonParse)(unsafe.Pointer(p)).FzJson, zJson, uint64(nJson+1), libc.X__builtin_object_size(tls, (*JsonParse)(unsafe.Pointer(p)).FzJson, 0))
if jsonParse(tls, p, pErrCtx, (*JsonParse)(unsafe.Pointer(p)).FzJson) != 0 {
Xsqlite3_free(tls, p)
return uintptr(0)
}
(*JsonParse)(unsafe.Pointer(p)).FnJson = nJson
(*JsonParse)(unsafe.Pointer(p)).FiHold = iMaxHold + U32(1)
Xsqlite3_set_auxdata(tls, pCtx, -429938+iMinKey, p,
*(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{jsonParseFree})))
return Xsqlite3_get_auxdata(tls, pCtx, -429938+iMinKey)
}
func jsonLabelCompare(tls *libc.TLS, pNode uintptr, zKey uintptr, nKey U32) int32 {
if int32((*JsonNode)(unsafe.Pointer(pNode)).FjnFlags)&JNODE_RAW != 0 {
if (*JsonNode)(unsafe.Pointer(pNode)).Fn != nKey {
return 0
}
return libc.Bool32(libc.Xstrncmp(tls, *(*uintptr)(unsafe.Pointer(pNode + 8)), zKey, uint64(nKey)) == 0)
} else {
if (*JsonNode)(unsafe.Pointer(pNode)).Fn != nKey+U32(2) {
return 0
}
return libc.Bool32(libc.Xstrncmp(tls, *(*uintptr)(unsafe.Pointer(pNode + 8))+uintptr(1), zKey, uint64(nKey)) == 0)
}
return int32(0)
}
func jsonLookupStep(tls *libc.TLS, pParse uintptr, iRoot U32, zPath uintptr, pApnd uintptr, pzErr uintptr) uintptr {
var i U32
var j U32
var nKey U32
var zKey uintptr
var pRoot uintptr = (*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iRoot)*16
if int32(*(*int8)(unsafe.Pointer(zPath))) == 0 {
return pRoot
}
if int32((*JsonNode)(unsafe.Pointer(pRoot)).FjnFlags)&JNODE_REPLACE != 0 {
return uintptr(0)
}
if int32(*(*int8)(unsafe.Pointer(zPath))) == '.' {
if int32((*JsonNode)(unsafe.Pointer(pRoot)).FeType) != JSON_OBJECT {
return uintptr(0)
}
zPath++
if int32(*(*int8)(unsafe.Pointer(zPath))) == '"' {
zKey = zPath + uintptr(1)
for i = U32(1); *(*int8)(unsafe.Pointer(zPath + uintptr(i))) != 0 && int32(*(*int8)(unsafe.Pointer(zPath + uintptr(i)))) != '"'; i++ {
}
nKey = i - U32(1)
if *(*int8)(unsafe.Pointer(zPath + uintptr(i))) != 0 {
i++
} else {
*(*uintptr)(unsafe.Pointer(pzErr)) = zPath
return uintptr(0)
}
} else {
zKey = zPath
for i = U32(0); *(*int8)(unsafe.Pointer(zPath + uintptr(i))) != 0 && int32(*(*int8)(unsafe.Pointer(zPath + uintptr(i)))) != '.' && int32(*(*int8)(unsafe.Pointer(zPath + uintptr(i)))) != '['; i++ {
}
nKey = i
if nKey == U32(0) {
*(*uintptr)(unsafe.Pointer(pzErr)) = zPath
return uintptr(0)
}
}
j = U32(1)
for {
for j <= (*JsonNode)(unsafe.Pointer(pRoot)).Fn {
if jsonLabelCompare(tls, pRoot+uintptr(j)*16, zKey, nKey) != 0 {
return jsonLookupStep(tls, pParse, iRoot+j+U32(1), zPath+uintptr(i), pApnd, pzErr)
}
j++
j = j + jsonNodeSize(tls, pRoot+uintptr(j)*16)
}
if int32((*JsonNode)(unsafe.Pointer(pRoot)).FjnFlags)&JNODE_APPEND == 0 {
break
}
iRoot = iRoot + *(*U32)(unsafe.Pointer(pRoot + 8))
pRoot = (*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iRoot)*16
j = U32(1)
}
if pApnd != 0 {
var iStart U32
var iLabel U32
var pNode uintptr
iStart = U32(jsonParseAddNode(tls, pParse, uint32(JSON_OBJECT), uint32(2), uintptr(0)))
iLabel = U32(jsonParseAddNode(tls, pParse, uint32(JSON_STRING), nKey, zKey))
zPath += uintptr(i)
pNode = jsonLookupAppend(tls, pParse, zPath, pApnd, pzErr)
if (*JsonParse)(unsafe.Pointer(pParse)).Foom != 0 {
return uintptr(0)
}
if pNode != 0 {
pRoot = (*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iRoot)*16
*(*U32)(unsafe.Pointer(pRoot + 8)) = iStart - iRoot
*(*U8)(unsafe.Pointer(pRoot + 1)) |= U8(JNODE_APPEND)
*(*U8)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iLabel)*16 + 1)) |= U8(JNODE_RAW)
}
return pNode
}
} else if int32(*(*int8)(unsafe.Pointer(zPath))) == '[' {
i = U32(0)
j = U32(1)
for int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zPath + uintptr(j))))])&0x04 != 0 {
i = i*U32(10) + U32(*(*int8)(unsafe.Pointer(zPath + uintptr(j)))) - U32('0')
j++
}
if j < U32(2) || int32(*(*int8)(unsafe.Pointer(zPath + uintptr(j)))) != ']' {
if int32(*(*int8)(unsafe.Pointer(zPath + 1))) == '#' {
var pBase uintptr = pRoot
var iBase int32 = int32(iRoot)
if int32((*JsonNode)(unsafe.Pointer(pRoot)).FeType) != JSON_ARRAY {
return uintptr(0)
}
for {
for j <= (*JsonNode)(unsafe.Pointer(pBase)).Fn {
if int32((*JsonNode)(unsafe.Pointer(pBase+uintptr(j)*16)).FjnFlags)&JNODE_REMOVE == 0 {
i++
}
j = j + jsonNodeSize(tls, pBase+uintptr(j)*16)
}
if int32((*JsonNode)(unsafe.Pointer(pBase)).FjnFlags)&JNODE_APPEND == 0 {
break
}
iBase = int32(U32(iBase) + *(*U32)(unsafe.Pointer(pBase + 8)))
pBase = (*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iBase)*16
j = U32(1)
}
j = U32(2)
if int32(*(*int8)(unsafe.Pointer(zPath + 2))) == '-' && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zPath + 3)))])&0x04 != 0 {
var x uint32 = uint32(0)
j = U32(3)
for __ccgo := true; __ccgo; __ccgo = int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zPath + uintptr(j))))])&0x04 != 0 {
x = x*uint32(10) + uint32(*(*int8)(unsafe.Pointer(zPath + uintptr(j)))) - uint32('0')
j++
}
if x > i {
return uintptr(0)
}
i = i - x
}
if int32(*(*int8)(unsafe.Pointer(zPath + uintptr(j)))) != ']' {
*(*uintptr)(unsafe.Pointer(pzErr)) = zPath
return uintptr(0)
}
} else {
*(*uintptr)(unsafe.Pointer(pzErr)) = zPath
return uintptr(0)
}
}
if int32((*JsonNode)(unsafe.Pointer(pRoot)).FeType) != JSON_ARRAY {
return uintptr(0)
}
zPath += uintptr(j + U32(1))
j = U32(1)
for {
for j <= (*JsonNode)(unsafe.Pointer(pRoot)).Fn && (i > U32(0) || int32((*JsonNode)(unsafe.Pointer(pRoot+uintptr(j)*16)).FjnFlags)&JNODE_REMOVE != 0) {
if int32((*JsonNode)(unsafe.Pointer(pRoot+uintptr(j)*16)).FjnFlags)&JNODE_REMOVE == 0 {
i--
}
j = j + jsonNodeSize(tls, pRoot+uintptr(j)*16)
}
if int32((*JsonNode)(unsafe.Pointer(pRoot)).FjnFlags)&JNODE_APPEND == 0 {
break
}
iRoot = iRoot + *(*U32)(unsafe.Pointer(pRoot + 8))
pRoot = (*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iRoot)*16
j = U32(1)
}
if j <= (*JsonNode)(unsafe.Pointer(pRoot)).Fn {
return jsonLookupStep(tls, pParse, iRoot+j, zPath, pApnd, pzErr)
}
if i == U32(0) && pApnd != 0 {
var iStart U32
var pNode uintptr
iStart = U32(jsonParseAddNode(tls, pParse, uint32(JSON_ARRAY), uint32(1), uintptr(0)))
pNode = jsonLookupAppend(tls, pParse, zPath, pApnd, pzErr)
if (*JsonParse)(unsafe.Pointer(pParse)).Foom != 0 {
return uintptr(0)
}
if pNode != 0 {
pRoot = (*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iRoot)*16
*(*U32)(unsafe.Pointer(pRoot + 8)) = iStart - iRoot
*(*U8)(unsafe.Pointer(pRoot + 1)) |= U8(JNODE_APPEND)
}
return pNode
}
} else {
*(*uintptr)(unsafe.Pointer(pzErr)) = zPath
}
return uintptr(0)
}
func jsonLookupAppend(tls *libc.TLS, pParse uintptr, zPath uintptr, pApnd uintptr, pzErr uintptr) uintptr {
*(*int32)(unsafe.Pointer(pApnd)) = 1
if int32(*(*int8)(unsafe.Pointer(zPath))) == 0 {
jsonParseAddNode(tls, pParse, uint32(JSON_NULL), uint32(0), uintptr(0))
if (*JsonParse)(unsafe.Pointer(pParse)).Foom != 0 {
return uintptr(0)
}
return (*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr((*JsonParse)(unsafe.Pointer(pParse)).FnNode-U32(1))*16
}
if int32(*(*int8)(unsafe.Pointer(zPath))) == '.' {
jsonParseAddNode(tls, pParse, uint32(JSON_OBJECT), uint32(0), uintptr(0))
} else if libc.Xstrncmp(tls, zPath, ts+25011, uint64(3)) == 0 {
jsonParseAddNode(tls, pParse, uint32(JSON_ARRAY), uint32(0), uintptr(0))
} else {
return uintptr(0)
}
if (*JsonParse)(unsafe.Pointer(pParse)).Foom != 0 {
return uintptr(0)
}
return jsonLookupStep(tls, pParse, (*JsonParse)(unsafe.Pointer(pParse)).FnNode-U32(1), zPath, pApnd, pzErr)
}
func jsonPathSyntaxError(tls *libc.TLS, zErr uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
return Xsqlite3_mprintf(tls, ts+25015, libc.VaList(bp, zErr))
}
func jsonLookup(tls *libc.TLS, pParse uintptr, zPath uintptr, pApnd uintptr, pCtx uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var pNode uintptr
var zMsg uintptr
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
pNode = uintptr(0)
if !(zPath == uintptr(0)) {
goto __1
}
return uintptr(0)
__1:
;
if !(int32(*(*int8)(unsafe.Pointer(zPath))) != '$') {
goto __2
}
*(*uintptr)(unsafe.Pointer(bp)) = zPath
goto lookup_err
__2:
;
zPath++
pNode = jsonLookupStep(tls, pParse, uint32(0), zPath, pApnd, bp)
if !(*(*uintptr)(unsafe.Pointer(bp)) == uintptr(0)) {
goto __3
}
return pNode
__3:
;
lookup_err:
(*JsonParse)(unsafe.Pointer(pParse)).FnErr++
zMsg = jsonPathSyntaxError(tls, *(*uintptr)(unsafe.Pointer(bp)))
if !(zMsg != 0) {
goto __4
}
Xsqlite3_result_error(tls, pCtx, zMsg, -1)
Xsqlite3_free(tls, zMsg)
goto __5
__4:
Xsqlite3_result_error_nomem(tls, pCtx)
__5:
;
return uintptr(0)
}
func jsonWrongNumArgs(tls *libc.TLS, pCtx uintptr, zFuncName uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var zMsg uintptr = Xsqlite3_mprintf(tls, ts+25041,
libc.VaList(bp, zFuncName))
Xsqlite3_result_error(tls, pCtx, zMsg, -1)
Xsqlite3_free(tls, zMsg)
}
func jsonRemoveAllNulls(tls *libc.TLS, pNode uintptr) {
var i int32
var n int32
n = int32((*JsonNode)(unsafe.Pointer(pNode)).Fn)
for i = 2; i <= n; i = int32(U32(i) + (jsonNodeSize(tls, pNode+uintptr(i)*16) + U32(1))) {
switch int32((*JsonNode)(unsafe.Pointer(pNode + uintptr(i)*16)).FeType) {
case JSON_NULL:
*(*U8)(unsafe.Pointer(pNode + uintptr(i)*16 + 1)) |= U8(JNODE_REMOVE)
break
case JSON_OBJECT:
jsonRemoveAllNulls(tls, pNode+uintptr(i)*16)
break
}
}
}
func jsonQuoteFunc(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(136)
defer tls.Free(136)
_ = argc
jsonInit(tls, bp, ctx)
jsonAppendValue(tls, bp, *(*uintptr)(unsafe.Pointer(argv)))
jsonResult(tls, bp)
Xsqlite3_result_subtype(tls, ctx, uint32(JSON_SUBTYPE))
}
func jsonArrayFunc(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(136)
defer tls.Free(136)
var i int32
jsonInit(tls, bp, ctx)
jsonAppendChar(tls, bp, int8('['))
for i = 0; i < argc; i++ {
jsonAppendSeparator(tls, bp)
jsonAppendValue(tls, bp, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8)))
}
jsonAppendChar(tls, bp, int8(']'))
jsonResult(tls, bp)
Xsqlite3_result_subtype(tls, ctx, uint32(JSON_SUBTYPE))
}
func jsonArrayLengthFunc(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
var p uintptr
var n Sqlite3_int64 = int64(0)
var i U32
var pNode uintptr
p = jsonParseCached(tls, ctx, argv, ctx)
if p == uintptr(0) {
return
}
if argc == 2 {
var zPath uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
pNode = jsonLookup(tls, p, zPath, uintptr(0), ctx)
} else {
pNode = (*JsonParse)(unsafe.Pointer(p)).FaNode
}
if pNode == uintptr(0) {
return
}
if int32((*JsonNode)(unsafe.Pointer(pNode)).FeType) == JSON_ARRAY {
for i = U32(1); i <= (*JsonNode)(unsafe.Pointer(pNode)).Fn; n++ {
i = i + jsonNodeSize(tls, pNode+uintptr(i)*16)
}
}
Xsqlite3_result_int64(tls, ctx, n)
}
func jsonExtractFunc(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(136)
defer tls.Free(136)
var p uintptr
var pNode uintptr
var zPath uintptr
var flags int32 = int32(Xsqlite3_user_data(tls, ctx))
if argc < 2 {
return
}
p = jsonParseCached(tls, ctx, argv, ctx)
if p == uintptr(0) {
return
}
if argc == 2 {
zPath = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
if zPath == uintptr(0) {
return
}
if flags&JSON_ABPATH != 0 {
if int32(*(*int8)(unsafe.Pointer(zPath))) != '$' {
jsonInit(tls, bp, ctx)
if int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(zPath)))])&0x04 != 0 {
jsonAppendRaw(tls, bp, ts+25084, uint32(2))
jsonAppendRaw(tls, bp, zPath, uint32(int32(libc.Xstrlen(tls, zPath))))
jsonAppendRaw(tls, bp, ts+5401, uint32(2))
} else {
jsonAppendRaw(tls, bp, ts+25087, uint32(1+libc.Bool32(int32(*(*int8)(unsafe.Pointer(zPath))) != '[')))
jsonAppendRaw(tls, bp, zPath, uint32(int32(libc.Xstrlen(tls, zPath))))
jsonAppendChar(tls, bp, int8(0))
}
if (*JsonString)(unsafe.Pointer(bp)).FbErr != 0 {
pNode = uintptr(0)
} else {
pNode = jsonLookup(tls, p, (*JsonString)(unsafe.Pointer(bp)).FzBuf, uintptr(0), ctx)
}
jsonReset(tls, bp)
} else {
pNode = jsonLookup(tls, p, zPath, uintptr(0), ctx)
}
if pNode != 0 {
if flags&JSON_JSON != 0 {
jsonReturnJson(tls, pNode, ctx, uintptr(0))
} else {
jsonReturn(tls, pNode, ctx, uintptr(0))
Xsqlite3_result_subtype(tls, ctx, uint32(0))
}
}
} else {
pNode = jsonLookup(tls, p, zPath, uintptr(0), ctx)
if int32((*JsonParse)(unsafe.Pointer(p)).FnErr) == 0 && pNode != 0 {
jsonReturn(tls, pNode, ctx, uintptr(0))
}
}
} else {
var i int32
jsonInit(tls, bp, ctx)
jsonAppendChar(tls, bp, int8('['))
for i = 1; i < argc; i++ {
zPath = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8)))
pNode = jsonLookup(tls, p, zPath, uintptr(0), ctx)
if (*JsonParse)(unsafe.Pointer(p)).FnErr != 0 {
break
}
jsonAppendSeparator(tls, bp)
if pNode != 0 {
jsonRenderNode(tls, pNode, bp, uintptr(0))
} else {
jsonAppendRaw(tls, bp, ts+6584, uint32(4))
}
}
if i == argc {
jsonAppendChar(tls, bp, int8(']'))
jsonResult(tls, bp)
Xsqlite3_result_subtype(tls, ctx, uint32(JSON_SUBTYPE))
}
jsonReset(tls, bp)
}
}
func jsonMergePatch(tls *libc.TLS, pParse uintptr, iTarget U32, pPatch uintptr) uintptr {
var i U32
var j U32
var iRoot U32
var pTarget uintptr
if int32((*JsonNode)(unsafe.Pointer(pPatch)).FeType) != JSON_OBJECT {
return pPatch
}
pTarget = (*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iTarget)*16
if int32((*JsonNode)(unsafe.Pointer(pTarget)).FeType) != JSON_OBJECT {
jsonRemoveAllNulls(tls, pPatch)
return pPatch
}
iRoot = iTarget
for i = U32(1); i < (*JsonNode)(unsafe.Pointer(pPatch)).Fn; i = i + (jsonNodeSize(tls, pPatch+uintptr(i+U32(1))*16) + U32(1)) {
var nKey U32
var zKey uintptr
nKey = (*JsonNode)(unsafe.Pointer(pPatch + uintptr(i)*16)).Fn
zKey = *(*uintptr)(unsafe.Pointer(pPatch + uintptr(i)*16 + 8))
for j = U32(1); j < (*JsonNode)(unsafe.Pointer(pTarget)).Fn; j = j + (jsonNodeSize(tls, pTarget+uintptr(j+U32(1))*16) + U32(1)) {
if (*JsonNode)(unsafe.Pointer(pTarget+uintptr(j)*16)).Fn == nKey && libc.Xstrncmp(tls, *(*uintptr)(unsafe.Pointer(pTarget + uintptr(j)*16 + 8)), zKey, uint64(nKey)) == 0 {
if int32((*JsonNode)(unsafe.Pointer(pTarget+uintptr(j+U32(1))*16)).FjnFlags)&(JNODE_REMOVE|JNODE_PATCH) != 0 {
break
}
if int32((*JsonNode)(unsafe.Pointer(pPatch+uintptr(i+U32(1))*16)).FeType) == JSON_NULL {
*(*U8)(unsafe.Pointer(pTarget + uintptr(j+U32(1))*16 + 1)) |= U8(JNODE_REMOVE)
} else {
var pNew uintptr = jsonMergePatch(tls, pParse, iTarget+j+U32(1), pPatch+uintptr(i+U32(1))*16)
if pNew == uintptr(0) {
return uintptr(0)
}
pTarget = (*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iTarget)*16
if pNew != pTarget+uintptr(j+U32(1))*16 {
*(*uintptr)(unsafe.Pointer(pTarget + uintptr(j+U32(1))*16 + 8)) = pNew
*(*U8)(unsafe.Pointer(pTarget + uintptr(j+U32(1))*16 + 1)) |= U8(JNODE_PATCH)
}
}
break
}
}
if j >= (*JsonNode)(unsafe.Pointer(pTarget)).Fn && int32((*JsonNode)(unsafe.Pointer(pPatch+uintptr(i+U32(1))*16)).FeType) != JSON_NULL {
var iStart int32
var iPatch int32
iStart = jsonParseAddNode(tls, pParse, uint32(JSON_OBJECT), uint32(2), uintptr(0))
jsonParseAddNode(tls, pParse, uint32(JSON_STRING), nKey, zKey)
iPatch = jsonParseAddNode(tls, pParse, uint32(JSON_TRUE), uint32(0), uintptr(0))
if (*JsonParse)(unsafe.Pointer(pParse)).Foom != 0 {
return uintptr(0)
}
jsonRemoveAllNulls(tls, pPatch)
pTarget = (*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iTarget)*16
*(*U8)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iRoot)*16 + 1)) |= U8(JNODE_APPEND)
*(*U32)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iRoot)*16 + 8)) = U32(iStart) - iRoot
iRoot = U32(iStart)
*(*U8)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iPatch)*16 + 1)) |= U8(JNODE_PATCH)
*(*uintptr)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(pParse)).FaNode + uintptr(iPatch)*16 + 8)) = pPatch + uintptr(i+U32(1))*16
}
}
return pTarget
}
func jsonPatchFunc(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(96)
defer tls.Free(96)
var pResult uintptr
_ = argc
if jsonParse(tls, bp, ctx, Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))) != 0 {
return
}
if jsonParse(tls, bp+48, ctx, Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))) != 0 {
jsonParseReset(tls, bp)
return
}
pResult = jsonMergePatch(tls, bp, uint32(0), (*JsonParse)(unsafe.Pointer(bp+48)).FaNode)
if pResult != 0 {
jsonReturnJson(tls, pResult, ctx, uintptr(0))
} else {
Xsqlite3_result_error_nomem(tls, ctx)
}
jsonParseReset(tls, bp)
jsonParseReset(tls, bp+48)
}
func jsonObjectFunc(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(136)
defer tls.Free(136)
var i int32
var z uintptr
var n U32
if argc&1 != 0 {
Xsqlite3_result_error(tls, ctx,
ts+25090, -1)
return
}
jsonInit(tls, bp, ctx)
jsonAppendChar(tls, bp, int8('{'))
for i = 0; i < argc; i = i + 2 {
if Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8))) != SQLITE_TEXT {
Xsqlite3_result_error(tls, ctx, ts+25141, -1)
jsonReset(tls, bp)
return
}
jsonAppendSeparator(tls, bp)
z = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8)))
n = U32(Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8))))
jsonAppendString(tls, bp, z, n)
jsonAppendChar(tls, bp, int8(':'))
jsonAppendValue(tls, bp, *(*uintptr)(unsafe.Pointer(argv + uintptr(i+1)*8)))
}
jsonAppendChar(tls, bp, int8('}'))
jsonResult(tls, bp)
Xsqlite3_result_subtype(tls, ctx, uint32(JSON_SUBTYPE))
}
func jsonRemoveFunc(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
var pNode uintptr
var zPath uintptr
var i U32
if !(argc < 1) {
goto __1
}
return
__1:
;
if !(jsonParse(tls, bp, ctx, Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))) != 0) {
goto __2
}
return
__2:
;
i = U32(1)
__3:
if !(i < U32(argc)) {
goto __5
}
zPath = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8)))
if !(zPath == uintptr(0)) {
goto __6
}
goto remove_done
__6:
;
pNode = jsonLookup(tls, bp, zPath, uintptr(0), ctx)
if !((*JsonParse)(unsafe.Pointer(bp)).FnErr != 0) {
goto __7
}
goto remove_done
__7:
;
if !(pNode != 0) {
goto __8
}
*(*U8)(unsafe.Pointer(pNode + 1)) |= U8(JNODE_REMOVE)
__8:
;
goto __4
__4:
i++
goto __3
goto __5
__5:
;
if !(int32((*JsonNode)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(bp)).FaNode)).FjnFlags)&JNODE_REMOVE == 0) {
goto __9
}
jsonReturnJson(tls, (*JsonParse)(unsafe.Pointer(bp)).FaNode, ctx, uintptr(0))
__9:
;
remove_done:
jsonParseReset(tls, bp)
}
func jsonReplaceFunc(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
var pNode uintptr
var zPath uintptr
var i U32
if !(argc < 1) {
goto __1
}
return
__1:
;
if !(argc&1 == 0) {
goto __2
}
jsonWrongNumArgs(tls, ctx, ts+15783)
return
__2:
;
if !(jsonParse(tls, bp, ctx, Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))) != 0) {
goto __3
}
return
__3:
;
i = U32(1)
__4:
if !(i < U32(argc)) {
goto __6
}
zPath = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8)))
pNode = jsonLookup(tls, bp, zPath, uintptr(0), ctx)
if !((*JsonParse)(unsafe.Pointer(bp)).FnErr != 0) {
goto __7
}
goto replace_err
__7:
;
if !(pNode != 0) {
goto __8
}
*(*U8)(unsafe.Pointer(pNode + 1)) |= U8(int32(U8(JNODE_REPLACE)))
*(*U32)(unsafe.Pointer(pNode + 8)) = i + U32(1)
__8:
;
goto __5
__5:
i = i + U32(2)
goto __4
goto __6
__6:
;
if !(int32((*JsonNode)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(bp)).FaNode)).FjnFlags)&JNODE_REPLACE != 0) {
goto __9
}
Xsqlite3_result_value(tls, ctx, *(*uintptr)(unsafe.Pointer(argv + uintptr(*(*U32)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(bp)).FaNode + 8)))*8)))
goto __10
__9:
jsonReturnJson(tls, (*JsonParse)(unsafe.Pointer(bp)).FaNode, ctx, argv)
__10:
;
replace_err:
jsonParseReset(tls, bp)
}
func jsonSetFunc(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(52)
defer tls.Free(52)
var pNode uintptr
var zPath uintptr
var i U32
var bIsSet int32
bIsSet = libc.Bool32(Xsqlite3_user_data(tls, ctx) != uintptr(0))
if !(argc < 1) {
goto __1
}
return
__1:
;
if !(argc&1 == 0) {
goto __2
}
jsonWrongNumArgs(tls, ctx, func() uintptr {
if bIsSet != 0 {
return ts + 25175
}
return ts + 25179
}())
return
__2:
;
if !(jsonParse(tls, bp, ctx, Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))) != 0) {
goto __3
}
return
__3:
;
i = U32(1)
__4:
if !(i < U32(argc)) {
goto __6
}
zPath = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8)))
*(*int32)(unsafe.Pointer(bp + 48)) = 0
pNode = jsonLookup(tls, bp, zPath, bp+48, ctx)
if !((*JsonParse)(unsafe.Pointer(bp)).Foom != 0) {
goto __7
}
Xsqlite3_result_error_nomem(tls, ctx)
goto jsonSetDone
goto __8
__7:
if !((*JsonParse)(unsafe.Pointer(bp)).FnErr != 0) {
goto __9
}
goto jsonSetDone
goto __10
__9:
if !(pNode != 0 && (*(*int32)(unsafe.Pointer(bp + 48)) != 0 || bIsSet != 0)) {
goto __11
}
*(*U8)(unsafe.Pointer(pNode + 1)) |= U8(int32(U8(JNODE_REPLACE)))
*(*U32)(unsafe.Pointer(pNode + 8)) = i + U32(1)
__11:
;
__10:
;
__8:
;
goto __5
__5:
i = i + U32(2)
goto __4
goto __6
__6:
;
if !(int32((*JsonNode)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(bp)).FaNode)).FjnFlags)&JNODE_REPLACE != 0) {
goto __12
}
Xsqlite3_result_value(tls, ctx, *(*uintptr)(unsafe.Pointer(argv + uintptr(*(*U32)(unsafe.Pointer((*JsonParse)(unsafe.Pointer(bp)).FaNode + 8)))*8)))
goto __13
__12:
jsonReturnJson(tls, (*JsonParse)(unsafe.Pointer(bp)).FaNode, ctx, argv)
__13:
;
jsonSetDone:
jsonParseReset(tls, bp)
}
func jsonTypeFunc(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
var p uintptr
var zPath uintptr
var pNode uintptr
p = jsonParseCached(tls, ctx, argv, ctx)
if p == uintptr(0) {
return
}
if argc == 2 {
zPath = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
pNode = jsonLookup(tls, p, zPath, uintptr(0), ctx)
} else {
pNode = (*JsonParse)(unsafe.Pointer(p)).FaNode
}
if pNode != 0 {
Xsqlite3_result_text(tls, ctx, jsonType[(*JsonNode)(unsafe.Pointer(pNode)).FeType], -1, uintptr(0))
}
}
func jsonValidFunc(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
var p uintptr
_ = argc
p = jsonParseCached(tls, ctx, argv, uintptr(0))
Xsqlite3_result_int(tls, ctx, libc.Bool32(p != uintptr(0)))
}
func jsonArrayStep(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
var pStr uintptr
_ = argc
pStr = Xsqlite3_aggregate_context(tls, ctx, int32(unsafe.Sizeof(JsonString{})))
if pStr != 0 {
if (*JsonString)(unsafe.Pointer(pStr)).FzBuf == uintptr(0) {
jsonInit(tls, pStr, ctx)
jsonAppendChar(tls, pStr, int8('['))
} else if (*JsonString)(unsafe.Pointer(pStr)).FnUsed > uint64(1) {
jsonAppendChar(tls, pStr, int8(','))
}
(*JsonString)(unsafe.Pointer(pStr)).FpCtx = ctx
jsonAppendValue(tls, pStr, *(*uintptr)(unsafe.Pointer(argv)))
}
}
func jsonArrayCompute(tls *libc.TLS, ctx uintptr, isFinal int32) {
var pStr uintptr
pStr = Xsqlite3_aggregate_context(tls, ctx, 0)
if pStr != 0 {
(*JsonString)(unsafe.Pointer(pStr)).FpCtx = ctx
jsonAppendChar(tls, pStr, int8(']'))
if (*JsonString)(unsafe.Pointer(pStr)).FbErr != 0 {
if int32((*JsonString)(unsafe.Pointer(pStr)).FbErr) == 1 {
Xsqlite3_result_error_nomem(tls, ctx)
}
} else if isFinal != 0 {
Xsqlite3_result_text(tls, ctx, (*JsonString)(unsafe.Pointer(pStr)).FzBuf, int32((*JsonString)(unsafe.Pointer(pStr)).FnUsed),
func() uintptr {
if (*JsonString)(unsafe.Pointer(pStr)).FbStatic != 0 {
return libc.UintptrFromInt32(-1)
}
return *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free}))
}())
(*JsonString)(unsafe.Pointer(pStr)).FbStatic = U8(1)
} else {
Xsqlite3_result_text(tls, ctx, (*JsonString)(unsafe.Pointer(pStr)).FzBuf, int32((*JsonString)(unsafe.Pointer(pStr)).FnUsed), libc.UintptrFromInt32(-1))
(*JsonString)(unsafe.Pointer(pStr)).FnUsed--
}
} else {
Xsqlite3_result_text(tls, ctx, ts+25186, 2, uintptr(0))
}
Xsqlite3_result_subtype(tls, ctx, uint32(JSON_SUBTYPE))
}
func jsonArrayValue(tls *libc.TLS, ctx uintptr) {
jsonArrayCompute(tls, ctx, 0)
}
func jsonArrayFinal(tls *libc.TLS, ctx uintptr) {
jsonArrayCompute(tls, ctx, 1)
}
func jsonGroupInverse(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
var i uint32
var inStr int32 = 0
var nNest int32 = 0
var z uintptr
var c int8
var pStr uintptr
_ = argc
_ = argv
pStr = Xsqlite3_aggregate_context(tls, ctx, 0)
if !(pStr != 0) {
return
}
z = (*JsonString)(unsafe.Pointer(pStr)).FzBuf
for i = uint32(1); U64(i) < (*JsonString)(unsafe.Pointer(pStr)).FnUsed && (int32(libc.AssignInt8(&c, *(*int8)(unsafe.Pointer(z + uintptr(i))))) != ',' || inStr != 0 || nNest != 0); i++ {
if int32(c) == '"' {
inStr = libc.BoolInt32(!(inStr != 0))
} else if int32(c) == '\\' {
i++
} else if !(inStr != 0) {
if int32(c) == '{' || int32(c) == '[' {
nNest++
}
if int32(c) == '}' || int32(c) == ']' {
nNest--
}
}
}
if U64(i) < (*JsonString)(unsafe.Pointer(pStr)).FnUsed {
*(*U64)(unsafe.Pointer(pStr + 24)) -= U64(i)
libc.X__builtin___memmove_chk(tls, z+1, z+uintptr(i+uint32(1)), (*JsonString)(unsafe.Pointer(pStr)).FnUsed-uint64(1), libc.X__builtin_object_size(tls, z+1, 0))
*(*int8)(unsafe.Pointer(z + uintptr((*JsonString)(unsafe.Pointer(pStr)).FnUsed))) = int8(0)
} else {
(*JsonString)(unsafe.Pointer(pStr)).FnUsed = uint64(1)
}
}
func jsonObjectStep(tls *libc.TLS, ctx uintptr, argc int32, argv uintptr) {
var pStr uintptr
var z uintptr
var n U32
_ = argc
pStr = Xsqlite3_aggregate_context(tls, ctx, int32(unsafe.Sizeof(JsonString{})))
if pStr != 0 {
if (*JsonString)(unsafe.Pointer(pStr)).FzBuf == uintptr(0) {
jsonInit(tls, pStr, ctx)
jsonAppendChar(tls, pStr, int8('{'))
} else if (*JsonString)(unsafe.Pointer(pStr)).FnUsed > uint64(1) {
jsonAppendChar(tls, pStr, int8(','))
}
(*JsonString)(unsafe.Pointer(pStr)).FpCtx = ctx
z = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
n = U32(Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv))))
jsonAppendString(tls, pStr, z, n)
jsonAppendChar(tls, pStr, int8(':'))
jsonAppendValue(tls, pStr, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
}
}
func jsonObjectCompute(tls *libc.TLS, ctx uintptr, isFinal int32) {
var pStr uintptr
pStr = Xsqlite3_aggregate_context(tls, ctx, 0)
if pStr != 0 {
jsonAppendChar(tls, pStr, int8('}'))
if (*JsonString)(unsafe.Pointer(pStr)).FbErr != 0 {
if int32((*JsonString)(unsafe.Pointer(pStr)).FbErr) == 1 {
Xsqlite3_result_error_nomem(tls, ctx)
}
} else if isFinal != 0 {
Xsqlite3_result_text(tls, ctx, (*JsonString)(unsafe.Pointer(pStr)).FzBuf, int32((*JsonString)(unsafe.Pointer(pStr)).FnUsed),
func() uintptr {
if (*JsonString)(unsafe.Pointer(pStr)).FbStatic != 0 {
return libc.UintptrFromInt32(-1)
}
return *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free}))
}())
(*JsonString)(unsafe.Pointer(pStr)).FbStatic = U8(1)
} else {
Xsqlite3_result_text(tls, ctx, (*JsonString)(unsafe.Pointer(pStr)).FzBuf, int32((*JsonString)(unsafe.Pointer(pStr)).FnUsed), libc.UintptrFromInt32(-1))
(*JsonString)(unsafe.Pointer(pStr)).FnUsed--
}
} else {
Xsqlite3_result_text(tls, ctx, ts+25189, 2, uintptr(0))
}
Xsqlite3_result_subtype(tls, ctx, uint32(JSON_SUBTYPE))
}
func jsonObjectValue(tls *libc.TLS, ctx uintptr) {
jsonObjectCompute(tls, ctx, 0)
}
func jsonObjectFinal(tls *libc.TLS, ctx uintptr) {
jsonObjectCompute(tls, ctx, 1)
}
// ***************************************************************************
//
// The json_each virtual table
type JsonEachCursor1 = struct {
Fbase Sqlite3_vtab_cursor
FiRowid U32
FiBegin U32
Fi U32
FiEnd U32
FeType U8
FbRecursive U8
F__ccgo_pad1 [6]byte
FzJson uintptr
FzRoot uintptr
FsParse JsonParse
}
// ***************************************************************************
//
// The json_each virtual table
type JsonEachCursor = JsonEachCursor1
func jsonEachConnect(tls *libc.TLS, db uintptr, pAux uintptr, argc int32, argv uintptr, ppVtab uintptr, pzErr uintptr) int32 {
var pNew uintptr
var rc int32
_ = pzErr
_ = argv
_ = argc
_ = pAux
rc = Xsqlite3_declare_vtab(tls, db,
ts+25192)
if rc == SQLITE_OK {
pNew = libc.AssignPtrUintptr(ppVtab, Xsqlite3_malloc(tls, int32(unsafe.Sizeof(Sqlite3_vtab{}))))
if pNew == uintptr(0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, pNew, 0, uint64(unsafe.Sizeof(Sqlite3_vtab{})), libc.X__builtin_object_size(tls, pNew, 0))
Xsqlite3_vtab_config(tls, db, SQLITE_VTAB_INNOCUOUS, 0)
}
return rc
}
func jsonEachDisconnect(tls *libc.TLS, pVtab uintptr) int32 {
Xsqlite3_free(tls, pVtab)
return SQLITE_OK
}
func jsonEachOpenEach(tls *libc.TLS, p uintptr, ppCursor uintptr) int32 {
var pCur uintptr
_ = p
pCur = Xsqlite3_malloc(tls, int32(unsafe.Sizeof(JsonEachCursor{})))
if pCur == uintptr(0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, pCur, 0, uint64(unsafe.Sizeof(JsonEachCursor{})), libc.X__builtin_object_size(tls, pCur, 0))
*(*uintptr)(unsafe.Pointer(ppCursor)) = pCur
return SQLITE_OK
}
func jsonEachOpenTree(tls *libc.TLS, p uintptr, ppCursor uintptr) int32 {
var rc int32 = jsonEachOpenEach(tls, p, ppCursor)
if rc == SQLITE_OK {
var pCur uintptr = *(*uintptr)(unsafe.Pointer(ppCursor))
(*JsonEachCursor)(unsafe.Pointer(pCur)).FbRecursive = U8(1)
}
return rc
}
func jsonEachCursorReset(tls *libc.TLS, p uintptr) {
Xsqlite3_free(tls, (*JsonEachCursor)(unsafe.Pointer(p)).FzJson)
Xsqlite3_free(tls, (*JsonEachCursor)(unsafe.Pointer(p)).FzRoot)
jsonParseReset(tls, p+48)
(*JsonEachCursor)(unsafe.Pointer(p)).FiRowid = U32(0)
(*JsonEachCursor)(unsafe.Pointer(p)).Fi = U32(0)
(*JsonEachCursor)(unsafe.Pointer(p)).FiEnd = U32(0)
(*JsonEachCursor)(unsafe.Pointer(p)).FeType = U8(0)
(*JsonEachCursor)(unsafe.Pointer(p)).FzJson = uintptr(0)
(*JsonEachCursor)(unsafe.Pointer(p)).FzRoot = uintptr(0)
}
func jsonEachClose(tls *libc.TLS, cur uintptr) int32 {
var p uintptr = cur
jsonEachCursorReset(tls, p)
Xsqlite3_free(tls, cur)
return SQLITE_OK
}
func jsonEachEof(tls *libc.TLS, cur uintptr) int32 {
var p uintptr = cur
return libc.Bool32((*JsonEachCursor)(unsafe.Pointer(p)).Fi >= (*JsonEachCursor)(unsafe.Pointer(p)).FiEnd)
}
func jsonEachNext(tls *libc.TLS, cur uintptr) int32 {
var p uintptr = cur
if (*JsonEachCursor)(unsafe.Pointer(p)).FbRecursive != 0 {
if int32((*JsonNode)(unsafe.Pointer((*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaNode+uintptr((*JsonEachCursor)(unsafe.Pointer(p)).Fi)*16)).FjnFlags)&JNODE_LABEL != 0 {
(*JsonEachCursor)(unsafe.Pointer(p)).Fi++
}
(*JsonEachCursor)(unsafe.Pointer(p)).Fi++
(*JsonEachCursor)(unsafe.Pointer(p)).FiRowid++
if (*JsonEachCursor)(unsafe.Pointer(p)).Fi < (*JsonEachCursor)(unsafe.Pointer(p)).FiEnd {
var iUp U32 = *(*U32)(unsafe.Pointer((*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaUp + uintptr((*JsonEachCursor)(unsafe.Pointer(p)).Fi)*4))
var pUp uintptr = (*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaNode + uintptr(iUp)*16
(*JsonEachCursor)(unsafe.Pointer(p)).FeType = (*JsonNode)(unsafe.Pointer(pUp)).FeType
if int32((*JsonNode)(unsafe.Pointer(pUp)).FeType) == JSON_ARRAY {
if iUp == (*JsonEachCursor)(unsafe.Pointer(p)).Fi-U32(1) {
*(*U32)(unsafe.Pointer(pUp + 8)) = U32(0)
} else {
*(*U32)(unsafe.Pointer(pUp + 8))++
}
}
}
} else {
switch int32((*JsonEachCursor)(unsafe.Pointer(p)).FeType) {
case JSON_ARRAY:
{
*(*U32)(unsafe.Pointer(p + 16)) += jsonNodeSize(tls, (*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaNode+uintptr((*JsonEachCursor)(unsafe.Pointer(p)).Fi)*16)
(*JsonEachCursor)(unsafe.Pointer(p)).FiRowid++
break
}
fallthrough
case JSON_OBJECT:
{
*(*U32)(unsafe.Pointer(p + 16)) += U32(1) + jsonNodeSize(tls, (*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaNode+uintptr((*JsonEachCursor)(unsafe.Pointer(p)).Fi+U32(1))*16)
(*JsonEachCursor)(unsafe.Pointer(p)).FiRowid++
break
}
fallthrough
default:
{
(*JsonEachCursor)(unsafe.Pointer(p)).Fi = (*JsonEachCursor)(unsafe.Pointer(p)).FiEnd
break
}
}
}
return SQLITE_OK
}
func jsonAppendObjectPathElement(tls *libc.TLS, pStr uintptr, pNode uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
var jj int32
var nn int32
var z uintptr
z = *(*uintptr)(unsafe.Pointer(pNode + 8))
nn = int32((*JsonNode)(unsafe.Pointer(pNode)).Fn)
if nn > 2 && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z + 1)))])&0x02 != 0 {
for jj = 2; jj < nn-1 && int32(Xsqlite3CtypeMap[uint8(*(*int8)(unsafe.Pointer(z + uintptr(jj))))])&0x06 != 0; jj++ {
}
if jj == nn-1 {
z++
nn = nn - 2
}
}
jsonPrintf(tls, nn+2, pStr, ts+25275, libc.VaList(bp, nn, z))
}
func jsonEachComputePath(tls *libc.TLS, p uintptr, pStr uintptr, i U32) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pNode uintptr
var pUp uintptr
var iUp U32
if i == U32(0) {
jsonAppendChar(tls, pStr, int8('$'))
return
}
iUp = *(*U32)(unsafe.Pointer((*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaUp + uintptr(i)*4))
jsonEachComputePath(tls, p, pStr, iUp)
pNode = (*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaNode + uintptr(i)*16
pUp = (*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaNode + uintptr(iUp)*16
if int32((*JsonNode)(unsafe.Pointer(pUp)).FeType) == JSON_ARRAY {
jsonPrintf(tls, 30, pStr, ts+25281, libc.VaList(bp, *(*U32)(unsafe.Pointer(pUp + 8))))
} else {
if int32((*JsonNode)(unsafe.Pointer(pNode)).FjnFlags)&JNODE_LABEL == 0 {
pNode -= 16
}
jsonAppendObjectPathElement(tls, pStr, pNode)
}
}
func jsonEachColumn(tls *libc.TLS, cur uintptr, ctx uintptr, i int32) int32 {
bp := tls.Alloc(280)
defer tls.Free(280)
var p uintptr = cur
var pThis uintptr = (*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaNode + uintptr((*JsonEachCursor)(unsafe.Pointer(p)).Fi)*16
switch i {
case JEACH_KEY:
{
if (*JsonEachCursor)(unsafe.Pointer(p)).Fi == U32(0) {
break
}
if int32((*JsonEachCursor)(unsafe.Pointer(p)).FeType) == JSON_OBJECT {
jsonReturn(tls, pThis, ctx, uintptr(0))
} else if int32((*JsonEachCursor)(unsafe.Pointer(p)).FeType) == JSON_ARRAY {
var iKey U32
if (*JsonEachCursor)(unsafe.Pointer(p)).FbRecursive != 0 {
if (*JsonEachCursor)(unsafe.Pointer(p)).FiRowid == U32(0) {
break
}
iKey = *(*U32)(unsafe.Pointer((*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaNode + uintptr(*(*U32)(unsafe.Pointer((*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaUp + uintptr((*JsonEachCursor)(unsafe.Pointer(p)).Fi)*4)))*16 + 8))
} else {
iKey = (*JsonEachCursor)(unsafe.Pointer(p)).FiRowid
}
Xsqlite3_result_int64(tls, ctx, Sqlite3_int64(iKey))
}
break
}
case JEACH_VALUE:
{
if int32((*JsonNode)(unsafe.Pointer(pThis)).FjnFlags)&JNODE_LABEL != 0 {
pThis += 16
}
jsonReturn(tls, pThis, ctx, uintptr(0))
break
}
case JEACH_TYPE:
{
if int32((*JsonNode)(unsafe.Pointer(pThis)).FjnFlags)&JNODE_LABEL != 0 {
pThis += 16
}
Xsqlite3_result_text(tls, ctx, jsonType[(*JsonNode)(unsafe.Pointer(pThis)).FeType], -1, uintptr(0))
break
}
case JEACH_ATOM:
{
if int32((*JsonNode)(unsafe.Pointer(pThis)).FjnFlags)&JNODE_LABEL != 0 {
pThis += 16
}
if int32((*JsonNode)(unsafe.Pointer(pThis)).FeType) >= JSON_ARRAY {
break
}
jsonReturn(tls, pThis, ctx, uintptr(0))
break
}
case JEACH_ID:
{
Xsqlite3_result_int64(tls, ctx,
Sqlite3_int64((*JsonEachCursor)(unsafe.Pointer(p)).Fi)+Sqlite3_int64(libc.Bool32(int32((*JsonNode)(unsafe.Pointer(pThis)).FjnFlags)&JNODE_LABEL != 0)))
break
}
case JEACH_PARENT:
{
if (*JsonEachCursor)(unsafe.Pointer(p)).Fi > (*JsonEachCursor)(unsafe.Pointer(p)).FiBegin && (*JsonEachCursor)(unsafe.Pointer(p)).FbRecursive != 0 {
Xsqlite3_result_int64(tls, ctx, Sqlite3_int64(*(*U32)(unsafe.Pointer((*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaUp + uintptr((*JsonEachCursor)(unsafe.Pointer(p)).Fi)*4))))
}
break
}
case JEACH_FULLKEY:
{
jsonInit(tls, bp+8, ctx)
if (*JsonEachCursor)(unsafe.Pointer(p)).FbRecursive != 0 {
jsonEachComputePath(tls, p, bp+8, (*JsonEachCursor)(unsafe.Pointer(p)).Fi)
} else {
if (*JsonEachCursor)(unsafe.Pointer(p)).FzRoot != 0 {
jsonAppendRaw(tls, bp+8, (*JsonEachCursor)(unsafe.Pointer(p)).FzRoot, uint32(int32(libc.Xstrlen(tls, (*JsonEachCursor)(unsafe.Pointer(p)).FzRoot))))
} else {
jsonAppendChar(tls, bp+8, int8('$'))
}
if int32((*JsonEachCursor)(unsafe.Pointer(p)).FeType) == JSON_ARRAY {
jsonPrintf(tls, 30, bp+8, ts+25281, libc.VaList(bp, (*JsonEachCursor)(unsafe.Pointer(p)).FiRowid))
} else if int32((*JsonEachCursor)(unsafe.Pointer(p)).FeType) == JSON_OBJECT {
jsonAppendObjectPathElement(tls, bp+8, pThis)
}
}
jsonResult(tls, bp+8)
break
}
case JEACH_PATH:
{
if (*JsonEachCursor)(unsafe.Pointer(p)).FbRecursive != 0 {
jsonInit(tls, bp+144, ctx)
jsonEachComputePath(tls, p, bp+144, *(*U32)(unsafe.Pointer((*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaUp + uintptr((*JsonEachCursor)(unsafe.Pointer(p)).Fi)*4)))
jsonResult(tls, bp+144)
break
}
}
fallthrough
default:
{
var zRoot uintptr = (*JsonEachCursor)(unsafe.Pointer(p)).FzRoot
if zRoot == uintptr(0) {
zRoot = ts + 25286
}
Xsqlite3_result_text(tls, ctx, zRoot, -1, uintptr(0))
break
}
case JEACH_JSON:
{
Xsqlite3_result_text(tls, ctx, (*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FzJson, -1, uintptr(0))
break
}
}
return SQLITE_OK
}
func jsonEachRowid(tls *libc.TLS, cur uintptr, pRowid uintptr) int32 {
var p uintptr = cur
*(*Sqlite_int64)(unsafe.Pointer(pRowid)) = Sqlite_int64((*JsonEachCursor)(unsafe.Pointer(p)).FiRowid)
return SQLITE_OK
}
func jsonEachBestIndex(tls *libc.TLS, tab uintptr, pIdxInfo uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var i int32
var unusableMask int32 = 0
var idxMask int32 = 0
var pConstraint uintptr
_ = tab
*(*int32)(unsafe.Pointer(bp)) = libc.AssignPtrInt32(bp+1*4, -1)
pConstraint = (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraint
i = 0
__1:
if !(i < (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FnConstraint) {
goto __3
}
{
var iCol int32
var iMask int32
if (*sqlite3_index_constraint)(unsafe.Pointer(pConstraint)).FiColumn < JEACH_JSON {
goto __2
}
iCol = (*sqlite3_index_constraint)(unsafe.Pointer(pConstraint)).FiColumn - JEACH_JSON
iMask = int32(1) << iCol
if int32((*sqlite3_index_constraint)(unsafe.Pointer(pConstraint)).Fusable) == 0 {
unusableMask = unusableMask | iMask
} else if int32((*sqlite3_index_constraint)(unsafe.Pointer(pConstraint)).Fop) == SQLITE_INDEX_CONSTRAINT_EQ {
*(*int32)(unsafe.Pointer(bp + uintptr(iCol)*4)) = i
idxMask = idxMask | iMask
}
}
goto __2
__2:
i++
pConstraint += 12
goto __1
goto __3
__3:
;
if (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FnOrderBy > 0 &&
(*sqlite3_index_orderby)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaOrderBy)).FiColumn < 0 &&
int32((*sqlite3_index_orderby)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaOrderBy)).Fdesc) == 0 {
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).ForderByConsumed = 1
}
if unusableMask & ^idxMask != 0 {
return SQLITE_CONSTRAINT
}
if *(*int32)(unsafe.Pointer(bp)) < 0 {
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxNum = 0
} else {
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedCost = 1.0
i = *(*int32)(unsafe.Pointer(bp))
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(i)*8)).FargvIndex = 1
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(i)*8)).Fomit = uint8(1)
if *(*int32)(unsafe.Pointer(bp + 1*4)) < 0 {
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxNum = 1
} else {
i = *(*int32)(unsafe.Pointer(bp + 1*4))
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(i)*8)).FargvIndex = 2
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(i)*8)).Fomit = uint8(1)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxNum = 3
}
}
return SQLITE_OK
}
func jsonEachFilter(tls *libc.TLS, cur uintptr, idxNum int32, idxStr uintptr, argc int32, argv uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var p uintptr = cur
var z uintptr
var zRoot uintptr = uintptr(0)
var n Sqlite3_int64
_ = idxStr
_ = argc
jsonEachCursorReset(tls, p)
if idxNum == 0 {
return SQLITE_OK
}
z = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
if z == uintptr(0) {
return SQLITE_OK
}
n = Sqlite3_int64(Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv))))
(*JsonEachCursor)(unsafe.Pointer(p)).FzJson = Xsqlite3_malloc64(tls, uint64(n+int64(1)))
if (*JsonEachCursor)(unsafe.Pointer(p)).FzJson == uintptr(0) {
return SQLITE_NOMEM
}
libc.X__builtin___memcpy_chk(tls, (*JsonEachCursor)(unsafe.Pointer(p)).FzJson, z, Size_t(n)+uint64(1), libc.X__builtin_object_size(tls, (*JsonEachCursor)(unsafe.Pointer(p)).FzJson, 0))
if jsonParse(tls, p+48, uintptr(0), (*JsonEachCursor)(unsafe.Pointer(p)).FzJson) != 0 {
var rc int32 = SQLITE_NOMEM
if int32((*JsonEachCursor)(unsafe.Pointer(p)).FsParse.Foom) == 0 {
Xsqlite3_free(tls, (*Sqlite3_vtab)(unsafe.Pointer((*Sqlite3_vtab_cursor)(unsafe.Pointer(cur)).FpVtab)).FzErrMsg)
(*Sqlite3_vtab)(unsafe.Pointer((*Sqlite3_vtab_cursor)(unsafe.Pointer(cur)).FpVtab)).FzErrMsg = Xsqlite3_mprintf(tls, ts+24996, 0)
if (*Sqlite3_vtab)(unsafe.Pointer((*Sqlite3_vtab_cursor)(unsafe.Pointer(cur)).FpVtab)).FzErrMsg != 0 {
rc = SQLITE_ERROR
}
}
jsonEachCursorReset(tls, p)
return rc
} else if (*JsonEachCursor)(unsafe.Pointer(p)).FbRecursive != 0 && jsonParseFindParents(tls, p+48) != 0 {
jsonEachCursorReset(tls, p)
return SQLITE_NOMEM
} else {
var pNode uintptr = uintptr(0)
if idxNum == 3 {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
zRoot = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
if zRoot == uintptr(0) {
return SQLITE_OK
}
n = Sqlite3_int64(Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8))))
(*JsonEachCursor)(unsafe.Pointer(p)).FzRoot = Xsqlite3_malloc64(tls, uint64(n+int64(1)))
if (*JsonEachCursor)(unsafe.Pointer(p)).FzRoot == uintptr(0) {
return SQLITE_NOMEM
}
libc.X__builtin___memcpy_chk(tls, (*JsonEachCursor)(unsafe.Pointer(p)).FzRoot, zRoot, Size_t(n)+uint64(1), libc.X__builtin_object_size(tls, (*JsonEachCursor)(unsafe.Pointer(p)).FzRoot, 0))
if int32(*(*int8)(unsafe.Pointer(zRoot))) != '$' {
*(*uintptr)(unsafe.Pointer(bp)) = zRoot
} else {
pNode = jsonLookupStep(tls, p+48, uint32(0), (*JsonEachCursor)(unsafe.Pointer(p)).FzRoot+uintptr(1), uintptr(0), bp)
}
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
Xsqlite3_free(tls, (*Sqlite3_vtab)(unsafe.Pointer((*Sqlite3_vtab_cursor)(unsafe.Pointer(cur)).FpVtab)).FzErrMsg)
(*Sqlite3_vtab)(unsafe.Pointer((*Sqlite3_vtab_cursor)(unsafe.Pointer(cur)).FpVtab)).FzErrMsg = jsonPathSyntaxError(tls, *(*uintptr)(unsafe.Pointer(bp)))
jsonEachCursorReset(tls, p)
if (*Sqlite3_vtab)(unsafe.Pointer((*Sqlite3_vtab_cursor)(unsafe.Pointer(cur)).FpVtab)).FzErrMsg != 0 {
return SQLITE_ERROR
}
return SQLITE_NOMEM
} else if pNode == uintptr(0) {
return SQLITE_OK
}
} else {
pNode = (*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaNode
}
(*JsonEachCursor)(unsafe.Pointer(p)).FiBegin = libc.AssignPtrUint32(p+16, U32(int32((int64(pNode)-int64((*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaNode))/16)))
(*JsonEachCursor)(unsafe.Pointer(p)).FeType = (*JsonNode)(unsafe.Pointer(pNode)).FeType
if int32((*JsonEachCursor)(unsafe.Pointer(p)).FeType) >= JSON_ARRAY {
*(*U32)(unsafe.Pointer(pNode + 8)) = U32(0)
(*JsonEachCursor)(unsafe.Pointer(p)).FiEnd = (*JsonEachCursor)(unsafe.Pointer(p)).Fi + (*JsonNode)(unsafe.Pointer(pNode)).Fn + U32(1)
if (*JsonEachCursor)(unsafe.Pointer(p)).FbRecursive != 0 {
(*JsonEachCursor)(unsafe.Pointer(p)).FeType = (*JsonNode)(unsafe.Pointer((*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaNode + uintptr(*(*U32)(unsafe.Pointer((*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaUp + uintptr((*JsonEachCursor)(unsafe.Pointer(p)).Fi)*4)))*16)).FeType
if (*JsonEachCursor)(unsafe.Pointer(p)).Fi > U32(0) && int32((*JsonNode)(unsafe.Pointer((*JsonEachCursor)(unsafe.Pointer(p)).FsParse.FaNode+uintptr((*JsonEachCursor)(unsafe.Pointer(p)).Fi-U32(1))*16)).FjnFlags)&JNODE_LABEL != 0 {
(*JsonEachCursor)(unsafe.Pointer(p)).Fi--
}
} else {
(*JsonEachCursor)(unsafe.Pointer(p)).Fi++
}
} else {
(*JsonEachCursor)(unsafe.Pointer(p)).FiEnd = (*JsonEachCursor)(unsafe.Pointer(p)).Fi + U32(1)
}
}
return SQLITE_OK
}
var jsonEachModule = Sqlite3_module{
FxConnect: 0,
FxBestIndex: 0,
FxDisconnect: 0,
FxOpen: 0,
FxClose: 0,
FxFilter: 0,
FxNext: 0,
FxEof: 0,
FxColumn: 0,
FxRowid: 0,
}
var jsonTreeModule = Sqlite3_module{
FxConnect: 0,
FxBestIndex: 0,
FxDisconnect: 0,
FxOpen: 0,
FxClose: 0,
FxFilter: 0,
FxNext: 0,
FxEof: 0,
FxColumn: 0,
FxRowid: 0,
}
// Register JSON functions.
func Xsqlite3RegisterJsonFunctions(tls *libc.TLS) {
Xsqlite3InsertBuiltinFuncs(tls, uintptr(unsafe.Pointer(&aJsonFunc)), int32(uint64(unsafe.Sizeof(aJsonFunc))/uint64(unsafe.Sizeof(FuncDef{}))))
}
var aJsonFunc = [19]FuncDef{
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 25288},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 25293},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 25304},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 25304},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 25322},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: uintptr(int64(JSON_JSON)), FxSFunc: 0, FzName: ts + 25335},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: uintptr(int64(JSON_SQL)), FxSFunc: 0, FzName: ts + 25338},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 25342},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 25354},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 25366},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 25377},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 25388},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 25400},
{FnArg: int8(-1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FpUserData: uintptr(int64(JSON_ISSET)), FxSFunc: 0, FzName: ts + 25413},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 25422},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 25422},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_DETERMINISTIC | SQLITE_FUNC_CONSTANT | SQLITE_UTF8), FxSFunc: 0, FzName: ts + 25432},
{FnArg: int8(1), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL | SQLITE_SUBTYPE | SQLITE_UTF8 | SQLITE_DETERMINISTIC), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: ts + 25443},
{FnArg: int8(2), FfuncFlags: U32(SQLITE_FUNC_BUILTIN | SQLITE_UTF8 | 0*SQLITE_FUNC_NEEDCOLL | SQLITE_SUBTYPE | SQLITE_UTF8 | SQLITE_DETERMINISTIC), FxSFunc: 0, FxFinalize: 0, FxValue: 0, FxInverse: 0, FzName: ts + 25460}}
// Register the JSON table-valued functions
func Xsqlite3JsonTableFunctions(tls *libc.TLS, db uintptr) int32 {
var rc int32 = SQLITE_OK
var i uint32
for i = uint32(0); uint64(i) < uint64(unsafe.Sizeof(aMod))/uint64(unsafe.Sizeof(struct {
FzName uintptr
FpModule uintptr
}{})) && rc == SQLITE_OK; i++ {
rc = Xsqlite3_create_module(tls, db, aMod[i].FzName, aMod[i].FpModule, uintptr(0))
}
return rc
}
var aMod = [2]struct {
FzName uintptr
FpModule uintptr
}{
{FzName: ts + 25478, FpModule: 0},
{FzName: ts + 25488, FpModule: 0},
}
type Rtree1 = struct {
Fbase Sqlite3_vtab
Fdb uintptr
FiNodeSize int32
FnDim U8
FnDim2 U8
FeCoordType U8
FnBytesPerCell U8
FinWrTrans U8
FnAux U8
FnAuxNotNull U8
F__ccgo_pad1 [1]byte
FiDepth int32
FzDb uintptr
FzName uintptr
FnBusy U32
F__ccgo_pad2 [4]byte
FnRowEst I64
FnCursor U32
FnNodeRef U32
FzReadAuxSql uintptr
FpDeleted uintptr
FiReinsertHeight int32
F__ccgo_pad3 [4]byte
FpNodeBlob uintptr
FpWriteNode uintptr
FpDeleteNode uintptr
FpReadRowid uintptr
FpWriteRowid uintptr
FpDeleteRowid uintptr
FpReadParent uintptr
FpWriteParent uintptr
FpDeleteParent uintptr
FpWriteAux uintptr
FaHash [97]uintptr
}
type Rtree = Rtree1
type RtreeCursor1 = struct {
Fbase Sqlite3_vtab_cursor
FatEOF U8
FbPoint U8
FbAuxValid U8
F__ccgo_pad1 [1]byte
FiStrategy int32
FnConstraint int32
F__ccgo_pad2 [4]byte
FaConstraint uintptr
FnPointAlloc int32
FnPoint int32
FmxLevel int32
F__ccgo_pad3 [4]byte
FaPoint uintptr
FpReadAux uintptr
FsPoint RtreeSearchPoint
FaNode [5]uintptr
FanQueue [41]U32
F__ccgo_pad4 [4]byte
}
type RtreeCursor = RtreeCursor1
type RtreeNode1 = struct {
FpParent uintptr
FiNode I64
FnRef int32
FisDirty int32
FzData uintptr
FpNext uintptr
}
type RtreeNode = RtreeNode1
type RtreeCell1 = struct {
FiRowid I64
FaCoord [10]RtreeCoord
}
type RtreeCell = RtreeCell1
type RtreeConstraint1 = struct {
FiCoord int32
Fop int32
Fu struct{ FrValue RtreeDValue }
FpInfo uintptr
}
type RtreeConstraint = RtreeConstraint1
type RtreeMatchArg1 = struct {
FiSize U32
F__ccgo_pad1 [4]byte
Fcb RtreeGeomCallback
FnParam int32
F__ccgo_pad2 [4]byte
FapSqlParam uintptr
FaParam [1]RtreeDValue
}
type RtreeMatchArg = RtreeMatchArg1
type RtreeGeomCallback1 = struct {
FxGeom uintptr
FxQueryFunc uintptr
FxDestructor uintptr
FpContext uintptr
}
type RtreeGeomCallback = RtreeGeomCallback1
type RtreeCoord1 = struct{ Ff RtreeValue }
type RtreeCoord = RtreeCoord1
type RtreeSearchPoint1 = struct {
FrScore RtreeDValue
Fid Sqlite3_int64
FiLevel U8
FeWithin U8
FiCell U8
F__ccgo_pad1 [5]byte
}
type RtreeSearchPoint = RtreeSearchPoint1
// If SQLITE_RTREE_INT_ONLY is defined, then this virtual table will
// only deal with integer coordinates. No floating point operations
// will be done.
type RtreeDValue = float64
type RtreeValue = float32
func readInt16(tls *libc.TLS, p uintptr) int32 {
return int32(*(*U8)(unsafe.Pointer(p)))<<8 + int32(*(*U8)(unsafe.Pointer(p + 1)))
}
func readCoord(tls *libc.TLS, p uintptr, pCoord uintptr) {
*(*U32)(unsafe.Pointer(pCoord)) = U32(*(*U8)(unsafe.Pointer(p)))<<24 + U32(*(*U8)(unsafe.Pointer(p + 1)))<<16 + U32(*(*U8)(unsafe.Pointer(p + 2)))<<8 + U32(*(*U8)(unsafe.Pointer(p + 3)))<<0
}
func readInt64(tls *libc.TLS, p uintptr) I64 {
return I64(U64(*(*U8)(unsafe.Pointer(p)))<<56 + U64(*(*U8)(unsafe.Pointer(p + 1)))<<48 + U64(*(*U8)(unsafe.Pointer(p + 2)))<<40 + U64(*(*U8)(unsafe.Pointer(p + 3)))<<32 + U64(*(*U8)(unsafe.Pointer(p + 4)))<<24 + U64(*(*U8)(unsafe.Pointer(p + 5)))<<16 + U64(*(*U8)(unsafe.Pointer(p + 6)))<<8 + U64(*(*U8)(unsafe.Pointer(p + 7)))<<0)
}
func writeInt16(tls *libc.TLS, p uintptr, i int32) {
*(*U8)(unsafe.Pointer(p)) = U8(i >> 8 & 0xFF)
*(*U8)(unsafe.Pointer(p + 1)) = U8(i >> 0 & 0xFF)
}
func writeCoord(tls *libc.TLS, p uintptr, pCoord uintptr) int32 {
var i U32
i = *(*U32)(unsafe.Pointer(pCoord))
*(*U8)(unsafe.Pointer(p)) = U8(i >> 24 & U32(0xFF))
*(*U8)(unsafe.Pointer(p + 1)) = U8(i >> 16 & U32(0xFF))
*(*U8)(unsafe.Pointer(p + 2)) = U8(i >> 8 & U32(0xFF))
*(*U8)(unsafe.Pointer(p + 3)) = U8(i >> 0 & U32(0xFF))
return 4
}
func writeInt64(tls *libc.TLS, p uintptr, i I64) int32 {
*(*U8)(unsafe.Pointer(p)) = U8(i >> 56 & int64(0xFF))
*(*U8)(unsafe.Pointer(p + 1)) = U8(i >> 48 & int64(0xFF))
*(*U8)(unsafe.Pointer(p + 2)) = U8(i >> 40 & int64(0xFF))
*(*U8)(unsafe.Pointer(p + 3)) = U8(i >> 32 & int64(0xFF))
*(*U8)(unsafe.Pointer(p + 4)) = U8(i >> 24 & int64(0xFF))
*(*U8)(unsafe.Pointer(p + 5)) = U8(i >> 16 & int64(0xFF))
*(*U8)(unsafe.Pointer(p + 6)) = U8(i >> 8 & int64(0xFF))
*(*U8)(unsafe.Pointer(p + 7)) = U8(i >> 0 & int64(0xFF))
return 8
}
func nodeReference(tls *libc.TLS, p uintptr) {
if p != 0 {
(*RtreeNode)(unsafe.Pointer(p)).FnRef++
}
}
func nodeZero(tls *libc.TLS, pRtree uintptr, p uintptr) {
libc.X__builtin___memset_chk(tls, (*RtreeNode)(unsafe.Pointer(p)).FzData+2, 0, uint64((*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize-2), libc.X__builtin_object_size(tls, (*RtreeNode)(unsafe.Pointer(p)).FzData+2, 0))
(*RtreeNode)(unsafe.Pointer(p)).FisDirty = 1
}
func nodeHash(tls *libc.TLS, iNode I64) uint32 {
return uint32(iNode) % uint32(HASHSIZE)
}
func nodeHashLookup(tls *libc.TLS, pRtree uintptr, iNode I64) uintptr {
var p uintptr
for p = *(*uintptr)(unsafe.Pointer(pRtree + 192 + uintptr(nodeHash(tls, iNode))*8)); p != 0 && (*RtreeNode)(unsafe.Pointer(p)).FiNode != iNode; p = (*RtreeNode)(unsafe.Pointer(p)).FpNext {
}
return p
}
func nodeHashInsert(tls *libc.TLS, pRtree uintptr, pNode uintptr) {
var iHash int32
iHash = int32(nodeHash(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FiNode))
(*RtreeNode)(unsafe.Pointer(pNode)).FpNext = *(*uintptr)(unsafe.Pointer(pRtree + 192 + uintptr(iHash)*8))
*(*uintptr)(unsafe.Pointer(pRtree + 192 + uintptr(iHash)*8)) = pNode
}
func nodeHashDelete(tls *libc.TLS, pRtree uintptr, pNode uintptr) {
var pp uintptr
if (*RtreeNode)(unsafe.Pointer(pNode)).FiNode != int64(0) {
pp = pRtree + 192 + uintptr(nodeHash(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FiNode))*8
for ; *(*uintptr)(unsafe.Pointer(pp)) != pNode; pp = *(*uintptr)(unsafe.Pointer(pp)) + 32 {
}
*(*uintptr)(unsafe.Pointer(pp)) = (*RtreeNode)(unsafe.Pointer(pNode)).FpNext
(*RtreeNode)(unsafe.Pointer(pNode)).FpNext = uintptr(0)
}
}
func nodeNew(tls *libc.TLS, pRtree uintptr, pParent uintptr) uintptr {
var pNode uintptr
pNode = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(RtreeNode{}))+uint64((*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize))
if pNode != 0 {
libc.X__builtin___memset_chk(tls, pNode, 0, uint64(unsafe.Sizeof(RtreeNode{}))+uint64((*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize), libc.X__builtin_object_size(tls, pNode, 0))
(*RtreeNode)(unsafe.Pointer(pNode)).FzData = pNode + 1*40
(*RtreeNode)(unsafe.Pointer(pNode)).FnRef = 1
(*Rtree)(unsafe.Pointer(pRtree)).FnNodeRef++
(*RtreeNode)(unsafe.Pointer(pNode)).FpParent = pParent
(*RtreeNode)(unsafe.Pointer(pNode)).FisDirty = 1
nodeReference(tls, pParent)
}
return pNode
}
func nodeBlobReset(tls *libc.TLS, pRtree uintptr) {
if (*Rtree)(unsafe.Pointer(pRtree)).FpNodeBlob != 0 && int32((*Rtree)(unsafe.Pointer(pRtree)).FinWrTrans) == 0 && (*Rtree)(unsafe.Pointer(pRtree)).FnCursor == U32(0) {
var pBlob uintptr = (*Rtree)(unsafe.Pointer(pRtree)).FpNodeBlob
(*Rtree)(unsafe.Pointer(pRtree)).FpNodeBlob = uintptr(0)
Xsqlite3_blob_close(tls, pBlob)
}
}
func nodeAcquire(tls *libc.TLS, pRtree uintptr, iNode I64, pParent uintptr, ppNode uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
var pNode uintptr = uintptr(0)
if libc.AssignUintptr(&pNode, nodeHashLookup(tls, pRtree, iNode)) != uintptr(0) {
if pParent != 0 && pParent != (*RtreeNode)(unsafe.Pointer(pNode)).FpParent {
return SQLITE_CORRUPT | int32(1)<<8
}
(*RtreeNode)(unsafe.Pointer(pNode)).FnRef++
*(*uintptr)(unsafe.Pointer(ppNode)) = pNode
return SQLITE_OK
}
if (*Rtree)(unsafe.Pointer(pRtree)).FpNodeBlob != 0 {
var pBlob uintptr = (*Rtree)(unsafe.Pointer(pRtree)).FpNodeBlob
(*Rtree)(unsafe.Pointer(pRtree)).FpNodeBlob = uintptr(0)
rc = Xsqlite3_blob_reopen(tls, pBlob, iNode)
(*Rtree)(unsafe.Pointer(pRtree)).FpNodeBlob = pBlob
if rc != 0 {
nodeBlobReset(tls, pRtree)
if rc == SQLITE_NOMEM {
return SQLITE_NOMEM
}
}
}
if (*Rtree)(unsafe.Pointer(pRtree)).FpNodeBlob == uintptr(0) {
var zTab uintptr = Xsqlite3_mprintf(tls, ts+25498, libc.VaList(bp, (*Rtree)(unsafe.Pointer(pRtree)).FzName))
if zTab == uintptr(0) {
return SQLITE_NOMEM
}
rc = Xsqlite3_blob_open(tls, (*Rtree)(unsafe.Pointer(pRtree)).Fdb, (*Rtree)(unsafe.Pointer(pRtree)).FzDb, zTab, ts+25506, iNode, 0,
pRtree+112)
Xsqlite3_free(tls, zTab)
}
if rc != 0 {
nodeBlobReset(tls, pRtree)
*(*uintptr)(unsafe.Pointer(ppNode)) = uintptr(0)
if rc == SQLITE_ERROR {
rc = SQLITE_CORRUPT | int32(1)<<8
}
} else if (*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize == Xsqlite3_blob_bytes(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpNodeBlob) {
pNode = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(RtreeNode{}))+uint64((*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize))
if !(pNode != 0) {
rc = SQLITE_NOMEM
} else {
(*RtreeNode)(unsafe.Pointer(pNode)).FpParent = pParent
(*RtreeNode)(unsafe.Pointer(pNode)).FzData = pNode + 1*40
(*RtreeNode)(unsafe.Pointer(pNode)).FnRef = 1
(*Rtree)(unsafe.Pointer(pRtree)).FnNodeRef++
(*RtreeNode)(unsafe.Pointer(pNode)).FiNode = iNode
(*RtreeNode)(unsafe.Pointer(pNode)).FisDirty = 0
(*RtreeNode)(unsafe.Pointer(pNode)).FpNext = uintptr(0)
rc = Xsqlite3_blob_read(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpNodeBlob, (*RtreeNode)(unsafe.Pointer(pNode)).FzData,
(*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize, 0)
}
}
if rc == SQLITE_OK && pNode != 0 && iNode == int64(1) {
(*Rtree)(unsafe.Pointer(pRtree)).FiDepth = readInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData)
if (*Rtree)(unsafe.Pointer(pRtree)).FiDepth > RTREE_MAX_DEPTH {
rc = SQLITE_CORRUPT | int32(1)<<8
}
}
if pNode != 0 && rc == SQLITE_OK {
if readInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+2) > ((*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize-4)/int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell) {
rc = SQLITE_CORRUPT | int32(1)<<8
}
}
if rc == SQLITE_OK {
if pNode != uintptr(0) {
nodeReference(tls, pParent)
nodeHashInsert(tls, pRtree, pNode)
} else {
rc = SQLITE_CORRUPT | int32(1)<<8
}
*(*uintptr)(unsafe.Pointer(ppNode)) = pNode
} else {
if pNode != 0 {
(*Rtree)(unsafe.Pointer(pRtree)).FnNodeRef--
Xsqlite3_free(tls, pNode)
}
*(*uintptr)(unsafe.Pointer(ppNode)) = uintptr(0)
}
return rc
}
func nodeOverwriteCell(tls *libc.TLS, pRtree uintptr, pNode uintptr, pCell uintptr, iCell int32) {
var ii int32
var p uintptr = (*RtreeNode)(unsafe.Pointer(pNode)).FzData + uintptr(4+int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)*iCell)
p += uintptr(writeInt64(tls, p, (*RtreeCell)(unsafe.Pointer(pCell)).FiRowid))
for ii = 0; ii < int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2); ii++ {
p += uintptr(writeCoord(tls, p, pCell+8+uintptr(ii)*4))
}
(*RtreeNode)(unsafe.Pointer(pNode)).FisDirty = 1
}
func nodeDeleteCell(tls *libc.TLS, pRtree uintptr, pNode uintptr, iCell int32) {
var pDst uintptr = (*RtreeNode)(unsafe.Pointer(pNode)).FzData + uintptr(4+int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)*iCell)
var pSrc uintptr = pDst + uintptr((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)
var nByte int32 = (readInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+2) - iCell - 1) * int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)
libc.X__builtin___memmove_chk(tls, pDst, pSrc, uint64(nByte), libc.X__builtin_object_size(tls, pDst, 0))
writeInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+2, readInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+2)-1)
(*RtreeNode)(unsafe.Pointer(pNode)).FisDirty = 1
}
func nodeInsertCell(tls *libc.TLS, pRtree uintptr, pNode uintptr, pCell uintptr) int32 {
var nCell int32
var nMaxCell int32
nMaxCell = ((*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize - 4) / int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)
nCell = readInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+2)
if nCell < nMaxCell {
nodeOverwriteCell(tls, pRtree, pNode, pCell, nCell)
writeInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+2, nCell+1)
(*RtreeNode)(unsafe.Pointer(pNode)).FisDirty = 1
}
return libc.Bool32(nCell == nMaxCell)
}
func nodeWrite(tls *libc.TLS, pRtree uintptr, pNode uintptr) int32 {
var rc int32 = SQLITE_OK
if (*RtreeNode)(unsafe.Pointer(pNode)).FisDirty != 0 {
var p uintptr = (*Rtree)(unsafe.Pointer(pRtree)).FpWriteNode
if (*RtreeNode)(unsafe.Pointer(pNode)).FiNode != 0 {
Xsqlite3_bind_int64(tls, p, 1, (*RtreeNode)(unsafe.Pointer(pNode)).FiNode)
} else {
Xsqlite3_bind_null(tls, p, 1)
}
Xsqlite3_bind_blob(tls, p, 2, (*RtreeNode)(unsafe.Pointer(pNode)).FzData, (*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize, uintptr(0))
Xsqlite3_step(tls, p)
(*RtreeNode)(unsafe.Pointer(pNode)).FisDirty = 0
rc = Xsqlite3_reset(tls, p)
Xsqlite3_bind_null(tls, p, 2)
if (*RtreeNode)(unsafe.Pointer(pNode)).FiNode == int64(0) && rc == SQLITE_OK {
(*RtreeNode)(unsafe.Pointer(pNode)).FiNode = Xsqlite3_last_insert_rowid(tls, (*Rtree)(unsafe.Pointer(pRtree)).Fdb)
nodeHashInsert(tls, pRtree, pNode)
}
}
return rc
}
func nodeRelease(tls *libc.TLS, pRtree uintptr, pNode uintptr) int32 {
var rc int32 = SQLITE_OK
if pNode != 0 {
(*RtreeNode)(unsafe.Pointer(pNode)).FnRef--
if (*RtreeNode)(unsafe.Pointer(pNode)).FnRef == 0 {
(*Rtree)(unsafe.Pointer(pRtree)).FnNodeRef--
if (*RtreeNode)(unsafe.Pointer(pNode)).FiNode == int64(1) {
(*Rtree)(unsafe.Pointer(pRtree)).FiDepth = -1
}
if (*RtreeNode)(unsafe.Pointer(pNode)).FpParent != 0 {
rc = nodeRelease(tls, pRtree, (*RtreeNode)(unsafe.Pointer(pNode)).FpParent)
}
if rc == SQLITE_OK {
rc = nodeWrite(tls, pRtree, pNode)
}
nodeHashDelete(tls, pRtree, pNode)
Xsqlite3_free(tls, pNode)
}
}
return rc
}
func nodeGetRowid(tls *libc.TLS, pRtree uintptr, pNode uintptr, iCell int32) I64 {
return readInt64(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+uintptr(4+int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)*iCell))
}
func nodeGetCoord(tls *libc.TLS, pRtree uintptr, pNode uintptr, iCell int32, iCoord int32, pCoord uintptr) {
readCoord(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+uintptr(12+int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)*iCell+4*iCoord), pCoord)
}
func nodeGetCell(tls *libc.TLS, pRtree uintptr, pNode uintptr, iCell int32, pCell uintptr) {
var pData uintptr
var pCoord uintptr
var ii int32 = 0
(*RtreeCell)(unsafe.Pointer(pCell)).FiRowid = nodeGetRowid(tls, pRtree, pNode, iCell)
pData = (*RtreeNode)(unsafe.Pointer(pNode)).FzData + uintptr(12+int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)*iCell)
pCoord = pCell + 8
for __ccgo := true; __ccgo; __ccgo = ii < int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2) {
readCoord(tls, pData, pCoord+uintptr(ii)*4)
readCoord(tls, pData+uintptr(4), pCoord+uintptr(ii+1)*4)
pData += uintptr(8)
ii = ii + 2
}
}
func rtreeCreate(tls *libc.TLS, db uintptr, pAux uintptr, argc int32, argv uintptr, ppVtab uintptr, pzErr uintptr) int32 {
return rtreeInit(tls, db, pAux, argc, argv, ppVtab, pzErr, 1)
}
func rtreeConnect(tls *libc.TLS, db uintptr, pAux uintptr, argc int32, argv uintptr, ppVtab uintptr, pzErr uintptr) int32 {
return rtreeInit(tls, db, pAux, argc, argv, ppVtab, pzErr, 0)
}
func rtreeReference(tls *libc.TLS, pRtree uintptr) {
(*Rtree)(unsafe.Pointer(pRtree)).FnBusy++
}
func rtreeRelease(tls *libc.TLS, pRtree uintptr) {
(*Rtree)(unsafe.Pointer(pRtree)).FnBusy--
if (*Rtree)(unsafe.Pointer(pRtree)).FnBusy == U32(0) {
(*Rtree)(unsafe.Pointer(pRtree)).FinWrTrans = U8(0)
nodeBlobReset(tls, pRtree)
Xsqlite3_finalize(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteNode)
Xsqlite3_finalize(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpDeleteNode)
Xsqlite3_finalize(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadRowid)
Xsqlite3_finalize(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteRowid)
Xsqlite3_finalize(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpDeleteRowid)
Xsqlite3_finalize(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadParent)
Xsqlite3_finalize(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteParent)
Xsqlite3_finalize(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpDeleteParent)
Xsqlite3_finalize(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteAux)
Xsqlite3_free(tls, (*Rtree)(unsafe.Pointer(pRtree)).FzReadAuxSql)
Xsqlite3_free(tls, pRtree)
}
}
func rtreeDisconnect(tls *libc.TLS, pVtab uintptr) int32 {
rtreeRelease(tls, pVtab)
return SQLITE_OK
}
func rtreeDestroy(tls *libc.TLS, pVtab uintptr) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
var pRtree uintptr = pVtab
var rc int32
var zCreate uintptr = Xsqlite3_mprintf(tls,
ts+25511,
libc.VaList(bp, (*Rtree)(unsafe.Pointer(pRtree)).FzDb, (*Rtree)(unsafe.Pointer(pRtree)).FzName,
(*Rtree)(unsafe.Pointer(pRtree)).FzDb, (*Rtree)(unsafe.Pointer(pRtree)).FzName,
(*Rtree)(unsafe.Pointer(pRtree)).FzDb, (*Rtree)(unsafe.Pointer(pRtree)).FzName))
if !(zCreate != 0) {
rc = SQLITE_NOMEM
} else {
nodeBlobReset(tls, pRtree)
rc = Xsqlite3_exec(tls, (*Rtree)(unsafe.Pointer(pRtree)).Fdb, zCreate, uintptr(0), uintptr(0), uintptr(0))
Xsqlite3_free(tls, zCreate)
}
if rc == SQLITE_OK {
rtreeRelease(tls, pRtree)
}
return rc
}
func rtreeOpen(tls *libc.TLS, pVTab uintptr, ppCursor uintptr) int32 {
var rc int32 = SQLITE_NOMEM
var pRtree uintptr = pVTab
var pCsr uintptr
pCsr = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(RtreeCursor{})))
if pCsr != 0 {
libc.X__builtin___memset_chk(tls, pCsr, 0, uint64(unsafe.Sizeof(RtreeCursor{})), libc.X__builtin_object_size(tls, pCsr, 0))
(*RtreeCursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab = pVTab
rc = SQLITE_OK
(*Rtree)(unsafe.Pointer(pRtree)).FnCursor++
}
*(*uintptr)(unsafe.Pointer(ppCursor)) = pCsr
return rc
}
func resetCursor(tls *libc.TLS, pCsr uintptr) {
var pRtree uintptr = (*RtreeCursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab
var ii int32
var pStmt uintptr
if (*RtreeCursor)(unsafe.Pointer(pCsr)).FaConstraint != 0 {
var i int32
for i = 0; i < (*RtreeCursor)(unsafe.Pointer(pCsr)).FnConstraint; i++ {
var pInfo uintptr = (*RtreeConstraint)(unsafe.Pointer((*RtreeCursor)(unsafe.Pointer(pCsr)).FaConstraint + uintptr(i)*24)).FpInfo
if pInfo != 0 {
if (*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FxDelUser != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FxDelUser})).f(tls, (*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FpUser)
}
Xsqlite3_free(tls, pInfo)
}
}
Xsqlite3_free(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FaConstraint)
(*RtreeCursor)(unsafe.Pointer(pCsr)).FaConstraint = uintptr(0)
}
for ii = 0; ii < RTREE_CACHE_SZ; ii++ {
nodeRelease(tls, pRtree, *(*uintptr)(unsafe.Pointer(pCsr + 88 + uintptr(ii)*8)))
}
Xsqlite3_free(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FaPoint)
pStmt = (*RtreeCursor)(unsafe.Pointer(pCsr)).FpReadAux
libc.X__builtin___memset_chk(tls, pCsr, 0, uint64(unsafe.Sizeof(RtreeCursor{})), libc.X__builtin_object_size(tls, pCsr, 0))
(*RtreeCursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab = pRtree
(*RtreeCursor)(unsafe.Pointer(pCsr)).FpReadAux = pStmt
}
func rtreeClose(tls *libc.TLS, cur uintptr) int32 {
var pRtree uintptr = (*Sqlite3_vtab_cursor)(unsafe.Pointer(cur)).FpVtab
var pCsr uintptr = cur
resetCursor(tls, pCsr)
Xsqlite3_finalize(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FpReadAux)
Xsqlite3_free(tls, pCsr)
(*Rtree)(unsafe.Pointer(pRtree)).FnCursor--
nodeBlobReset(tls, pRtree)
return SQLITE_OK
}
func rtreeEof(tls *libc.TLS, cur uintptr) int32 {
var pCsr uintptr = cur
return int32((*RtreeCursor)(unsafe.Pointer(pCsr)).FatEOF)
}
func rtreeCallbackConstraint(tls *libc.TLS, pConstraint uintptr, eInt int32, pCellData uintptr, pSearch uintptr, prScore uintptr, peWithin uintptr) int32 {
bp := tls.Alloc(92)
defer tls.Free(92)
var pInfo uintptr = (*RtreeConstraint)(unsafe.Pointer(pConstraint)).FpInfo
var nCoord int32 = (*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FnCoord
var rc int32
if (*RtreeConstraint)(unsafe.Pointer(pConstraint)).Fop == RTREE_QUERY && int32((*RtreeSearchPoint)(unsafe.Pointer(pSearch)).FiLevel) == 1 {
(*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FiRowid = readInt64(tls, pCellData)
}
pCellData += uintptr(8)
if eInt == 0 {
switch nCoord {
case 10:
readCoord(tls, pCellData+uintptr(36), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 9*8)) = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp)))
readCoord(tls, pCellData+uintptr(32), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 8*8)) = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp)))
fallthrough
case 8:
readCoord(tls, pCellData+uintptr(28), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 7*8)) = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp)))
readCoord(tls, pCellData+uintptr(24), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 6*8)) = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp)))
fallthrough
case 6:
readCoord(tls, pCellData+uintptr(20), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 5*8)) = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp)))
readCoord(tls, pCellData+uintptr(16), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 4*8)) = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp)))
fallthrough
case 4:
readCoord(tls, pCellData+uintptr(12), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 3*8)) = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp)))
readCoord(tls, pCellData+uintptr(8), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 2*8)) = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp)))
fallthrough
default:
readCoord(tls, pCellData+uintptr(4), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 1*8)) = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp)))
readCoord(tls, pCellData, bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8)) = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp)))
}
} else {
switch nCoord {
case 10:
readCoord(tls, pCellData+uintptr(36), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 9*8)) = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp)))
readCoord(tls, pCellData+uintptr(32), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 8*8)) = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp)))
fallthrough
case 8:
readCoord(tls, pCellData+uintptr(28), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 7*8)) = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp)))
readCoord(tls, pCellData+uintptr(24), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 6*8)) = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp)))
fallthrough
case 6:
readCoord(tls, pCellData+uintptr(20), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 5*8)) = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp)))
readCoord(tls, pCellData+uintptr(16), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 4*8)) = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp)))
fallthrough
case 4:
readCoord(tls, pCellData+uintptr(12), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 3*8)) = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp)))
readCoord(tls, pCellData+uintptr(8), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 2*8)) = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp)))
fallthrough
default:
readCoord(tls, pCellData+uintptr(4), bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8 + 1*8)) = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp)))
readCoord(tls, pCellData, bp)
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8)) = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp)))
}
}
if (*RtreeConstraint)(unsafe.Pointer(pConstraint)).Fop == RTREE_MATCH {
*(*int32)(unsafe.Pointer(bp + 88)) = 0
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{*(*uintptr)(unsafe.Pointer(pConstraint + 8))})).f(tls, pInfo,
nCoord, bp+8, bp+88)
if *(*int32)(unsafe.Pointer(bp + 88)) == 0 {
*(*int32)(unsafe.Pointer(peWithin)) = NOT_WITHIN
}
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(prScore)) = 0.0
} else {
(*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FaCoord = bp + 8
(*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FiLevel = int32((*RtreeSearchPoint)(unsafe.Pointer(pSearch)).FiLevel) - 1
(*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FrScore = libc.AssignPtrFloat64(pInfo+80, (*RtreeSearchPoint)(unsafe.Pointer(pSearch)).FrScore)
(*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FeWithin = libc.AssignPtrInt32(pInfo+88, int32((*RtreeSearchPoint)(unsafe.Pointer(pSearch)).FeWithin))
rc = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{*(*uintptr)(unsafe.Pointer(pConstraint + 8))})).f(tls, pInfo)
if (*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FeWithin < *(*int32)(unsafe.Pointer(peWithin)) {
*(*int32)(unsafe.Pointer(peWithin)) = (*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FeWithin
}
if (*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FrScore < *(*Sqlite3_rtree_dbl)(unsafe.Pointer(prScore)) || *(*Sqlite3_rtree_dbl)(unsafe.Pointer(prScore)) < 0.0 {
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(prScore)) = (*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FrScore
}
}
return rc
}
func rtreeNonleafConstraint(tls *libc.TLS, p uintptr, eInt int32, pCellData uintptr, peWithin uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
var val Sqlite3_rtree_dbl
pCellData += uintptr(8 + 4*((*RtreeConstraint)(unsafe.Pointer(p)).FiCoord&0xfe))
switch (*RtreeConstraint)(unsafe.Pointer(p)).Fop {
case RTREE_TRUE:
return
case RTREE_FALSE:
break
case RTREE_EQ:
{
libc.X__builtin___memcpy_chk(tls, bp, pCellData, uint64(4), libc.X__builtin_object_size(tls, bp, 0))
*(*U32)(unsafe.Pointer(bp)) = *(*U32)(unsafe.Pointer(bp))>>24&U32(0xff) | *(*U32)(unsafe.Pointer(bp))>>8&U32(0xff00) | *(*U32)(unsafe.Pointer(bp))&U32(0xff)<<24 | *(*U32)(unsafe.Pointer(bp))&U32(0xff00)<<8
if eInt != 0 {
val = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp)))
} else {
val = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp)))
}
}
if *(*RtreeDValue)(unsafe.Pointer(p + 8)) >= val {
pCellData += uintptr(4)
{
libc.X__builtin___memcpy_chk(tls, bp+4, pCellData, uint64(4), libc.X__builtin_object_size(tls, bp+4, 0))
*(*U32)(unsafe.Pointer(bp + 4)) = *(*U32)(unsafe.Pointer(bp + 4))>>24&U32(0xff) | *(*U32)(unsafe.Pointer(bp + 4))>>8&U32(0xff00) | *(*U32)(unsafe.Pointer(bp + 4))&U32(0xff)<<24 | *(*U32)(unsafe.Pointer(bp + 4))&U32(0xff00)<<8
if eInt != 0 {
val = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp + 4)))
} else {
val = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp + 4)))
}
}
if *(*RtreeDValue)(unsafe.Pointer(p + 8)) <= val {
return
}
}
break
case RTREE_LE:
fallthrough
case RTREE_LT:
{
libc.X__builtin___memcpy_chk(tls, bp+8, pCellData, uint64(4), libc.X__builtin_object_size(tls, bp+8, 0))
*(*U32)(unsafe.Pointer(bp + 8)) = *(*U32)(unsafe.Pointer(bp + 8))>>24&U32(0xff) | *(*U32)(unsafe.Pointer(bp + 8))>>8&U32(0xff00) | *(*U32)(unsafe.Pointer(bp + 8))&U32(0xff)<<24 | *(*U32)(unsafe.Pointer(bp + 8))&U32(0xff00)<<8
if eInt != 0 {
val = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp + 8)))
} else {
val = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp + 8)))
}
}
if *(*RtreeDValue)(unsafe.Pointer(p + 8)) >= val {
return
}
break
default:
pCellData += uintptr(4)
{
libc.X__builtin___memcpy_chk(tls, bp+12, pCellData, uint64(4), libc.X__builtin_object_size(tls, bp+12, 0))
*(*U32)(unsafe.Pointer(bp + 12)) = *(*U32)(unsafe.Pointer(bp + 12))>>24&U32(0xff) | *(*U32)(unsafe.Pointer(bp + 12))>>8&U32(0xff00) | *(*U32)(unsafe.Pointer(bp + 12))&U32(0xff)<<24 | *(*U32)(unsafe.Pointer(bp + 12))&U32(0xff00)<<8
if eInt != 0 {
val = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp + 12)))
} else {
val = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp + 12)))
}
}
if *(*RtreeDValue)(unsafe.Pointer(p + 8)) <= val {
return
}
break
}
*(*int32)(unsafe.Pointer(peWithin)) = NOT_WITHIN
}
func rtreeLeafConstraint(tls *libc.TLS, p uintptr, eInt int32, pCellData uintptr, peWithin uintptr) {
bp := tls.Alloc(4)
defer tls.Free(4)
var xN RtreeDValue
pCellData += uintptr(8 + (*RtreeConstraint)(unsafe.Pointer(p)).FiCoord*4)
{
libc.X__builtin___memcpy_chk(tls, bp, pCellData, uint64(4), libc.X__builtin_object_size(tls, bp, 0))
*(*U32)(unsafe.Pointer(bp)) = *(*U32)(unsafe.Pointer(bp))>>24&U32(0xff) | *(*U32)(unsafe.Pointer(bp))>>8&U32(0xff00) | *(*U32)(unsafe.Pointer(bp))&U32(0xff)<<24 | *(*U32)(unsafe.Pointer(bp))&U32(0xff00)<<8
if eInt != 0 {
xN = Sqlite3_rtree_dbl(*(*int32)(unsafe.Pointer(bp)))
} else {
xN = Sqlite3_rtree_dbl(*(*RtreeValue)(unsafe.Pointer(bp)))
}
}
switch (*RtreeConstraint)(unsafe.Pointer(p)).Fop {
case RTREE_TRUE:
return
case RTREE_FALSE:
break
case RTREE_LE:
if xN <= *(*RtreeDValue)(unsafe.Pointer(p + 8)) {
return
}
break
case RTREE_LT:
if xN < *(*RtreeDValue)(unsafe.Pointer(p + 8)) {
return
}
break
case RTREE_GE:
if xN >= *(*RtreeDValue)(unsafe.Pointer(p + 8)) {
return
}
break
case RTREE_GT:
if xN > *(*RtreeDValue)(unsafe.Pointer(p + 8)) {
return
}
break
default:
if xN == *(*RtreeDValue)(unsafe.Pointer(p + 8)) {
return
}
break
}
*(*int32)(unsafe.Pointer(peWithin)) = NOT_WITHIN
}
func nodeRowidIndex(tls *libc.TLS, pRtree uintptr, pNode uintptr, iRowid I64, piIndex uintptr) int32 {
var ii int32
var nCell int32 = readInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+2)
for ii = 0; ii < nCell; ii++ {
if nodeGetRowid(tls, pRtree, pNode, ii) == iRowid {
*(*int32)(unsafe.Pointer(piIndex)) = ii
return SQLITE_OK
}
}
return SQLITE_CORRUPT | int32(1)<<8
}
func nodeParentIndex(tls *libc.TLS, pRtree uintptr, pNode uintptr, piIndex uintptr) int32 {
var pParent uintptr = (*RtreeNode)(unsafe.Pointer(pNode)).FpParent
if pParent != 0 {
return nodeRowidIndex(tls, pRtree, pParent, (*RtreeNode)(unsafe.Pointer(pNode)).FiNode, piIndex)
} else {
*(*int32)(unsafe.Pointer(piIndex)) = -1
return SQLITE_OK
}
return int32(0)
}
func rtreeSearchPointCompare(tls *libc.TLS, pA uintptr, pB uintptr) int32 {
if (*RtreeSearchPoint)(unsafe.Pointer(pA)).FrScore < (*RtreeSearchPoint)(unsafe.Pointer(pB)).FrScore {
return -1
}
if (*RtreeSearchPoint)(unsafe.Pointer(pA)).FrScore > (*RtreeSearchPoint)(unsafe.Pointer(pB)).FrScore {
return +1
}
if int32((*RtreeSearchPoint)(unsafe.Pointer(pA)).FiLevel) < int32((*RtreeSearchPoint)(unsafe.Pointer(pB)).FiLevel) {
return -1
}
if int32((*RtreeSearchPoint)(unsafe.Pointer(pA)).FiLevel) > int32((*RtreeSearchPoint)(unsafe.Pointer(pB)).FiLevel) {
return +1
}
return 0
}
func rtreeSearchPointSwap(tls *libc.TLS, p uintptr, i int32, j int32) {
var t = *(*RtreeSearchPoint)(unsafe.Pointer((*RtreeCursor)(unsafe.Pointer(p)).FaPoint + uintptr(i)*24))
*(*RtreeSearchPoint)(unsafe.Pointer((*RtreeCursor)(unsafe.Pointer(p)).FaPoint + uintptr(i)*24)) = *(*RtreeSearchPoint)(unsafe.Pointer((*RtreeCursor)(unsafe.Pointer(p)).FaPoint + uintptr(j)*24))
*(*RtreeSearchPoint)(unsafe.Pointer((*RtreeCursor)(unsafe.Pointer(p)).FaPoint + uintptr(j)*24)) = t
i++
j++
if i < RTREE_CACHE_SZ {
if j >= RTREE_CACHE_SZ {
nodeRelease(tls, (*RtreeCursor)(unsafe.Pointer(p)).Fbase.FpVtab, *(*uintptr)(unsafe.Pointer(p + 88 + uintptr(i)*8)))
*(*uintptr)(unsafe.Pointer(p + 88 + uintptr(i)*8)) = uintptr(0)
} else {
var pTemp uintptr = *(*uintptr)(unsafe.Pointer(p + 88 + uintptr(i)*8))
*(*uintptr)(unsafe.Pointer(p + 88 + uintptr(i)*8)) = *(*uintptr)(unsafe.Pointer(p + 88 + uintptr(j)*8))
*(*uintptr)(unsafe.Pointer(p + 88 + uintptr(j)*8)) = pTemp
}
}
}
func rtreeSearchPointFirst(tls *libc.TLS, pCur uintptr) uintptr {
if (*RtreeCursor)(unsafe.Pointer(pCur)).FbPoint != 0 {
return pCur + 64
}
if (*RtreeCursor)(unsafe.Pointer(pCur)).FnPoint != 0 {
return (*RtreeCursor)(unsafe.Pointer(pCur)).FaPoint
}
return uintptr(0)
}
func rtreeNodeOfFirstSearchPoint(tls *libc.TLS, pCur uintptr, pRC uintptr) uintptr {
var id Sqlite3_int64
var ii int32 = 1 - int32((*RtreeCursor)(unsafe.Pointer(pCur)).FbPoint)
if *(*uintptr)(unsafe.Pointer(pCur + 88 + uintptr(ii)*8)) == uintptr(0) {
if ii != 0 {
id = (*RtreeSearchPoint)(unsafe.Pointer((*RtreeCursor)(unsafe.Pointer(pCur)).FaPoint)).Fid
} else {
id = (*RtreeCursor)(unsafe.Pointer(pCur)).FsPoint.Fid
}
*(*int32)(unsafe.Pointer(pRC)) = nodeAcquire(tls, (*RtreeCursor)(unsafe.Pointer(pCur)).Fbase.FpVtab, id, uintptr(0), pCur+88+uintptr(ii)*8)
}
return *(*uintptr)(unsafe.Pointer(pCur + 88 + uintptr(ii)*8))
}
func rtreeEnqueue(tls *libc.TLS, pCur uintptr, rScore RtreeDValue, iLevel U8) uintptr {
var i int32
var j int32
var pNew uintptr
if (*RtreeCursor)(unsafe.Pointer(pCur)).FnPoint >= (*RtreeCursor)(unsafe.Pointer(pCur)).FnPointAlloc {
var nNew int32 = (*RtreeCursor)(unsafe.Pointer(pCur)).FnPointAlloc*2 + 8
pNew = Xsqlite3_realloc64(tls, (*RtreeCursor)(unsafe.Pointer(pCur)).FaPoint, uint64(nNew)*uint64(unsafe.Sizeof(RtreeSearchPoint{})))
if pNew == uintptr(0) {
return uintptr(0)
}
(*RtreeCursor)(unsafe.Pointer(pCur)).FaPoint = pNew
(*RtreeCursor)(unsafe.Pointer(pCur)).FnPointAlloc = nNew
}
i = libc.PostIncInt32(&(*RtreeCursor)(unsafe.Pointer(pCur)).FnPoint, 1)
pNew = (*RtreeCursor)(unsafe.Pointer(pCur)).FaPoint + uintptr(i)*24
(*RtreeSearchPoint)(unsafe.Pointer(pNew)).FrScore = rScore
(*RtreeSearchPoint)(unsafe.Pointer(pNew)).FiLevel = iLevel
for i > 0 {
var pParent uintptr
j = (i - 1) / 2
pParent = (*RtreeCursor)(unsafe.Pointer(pCur)).FaPoint + uintptr(j)*24
if rtreeSearchPointCompare(tls, pNew, pParent) >= 0 {
break
}
rtreeSearchPointSwap(tls, pCur, j, i)
i = j
pNew = pParent
}
return pNew
}
func rtreeSearchPointNew(tls *libc.TLS, pCur uintptr, rScore RtreeDValue, iLevel U8) uintptr {
var pNew uintptr
var pFirst uintptr
pFirst = rtreeSearchPointFirst(tls, pCur)
*(*U32)(unsafe.Pointer(pCur + 128 + uintptr(iLevel)*4))++
if pFirst == uintptr(0) ||
(*RtreeSearchPoint)(unsafe.Pointer(pFirst)).FrScore > rScore ||
(*RtreeSearchPoint)(unsafe.Pointer(pFirst)).FrScore == rScore && int32((*RtreeSearchPoint)(unsafe.Pointer(pFirst)).FiLevel) > int32(iLevel) {
if (*RtreeCursor)(unsafe.Pointer(pCur)).FbPoint != 0 {
var ii int32
pNew = rtreeEnqueue(tls, pCur, rScore, iLevel)
if pNew == uintptr(0) {
return uintptr(0)
}
ii = int32((int64(pNew)-int64((*RtreeCursor)(unsafe.Pointer(pCur)).FaPoint))/24) + 1
if ii < RTREE_CACHE_SZ {
*(*uintptr)(unsafe.Pointer(pCur + 88 + uintptr(ii)*8)) = *(*uintptr)(unsafe.Pointer(pCur + 88))
} else {
nodeRelease(tls, (*RtreeCursor)(unsafe.Pointer(pCur)).Fbase.FpVtab, *(*uintptr)(unsafe.Pointer(pCur + 88)))
}
*(*uintptr)(unsafe.Pointer(pCur + 88)) = uintptr(0)
*(*RtreeSearchPoint)(unsafe.Pointer(pNew)) = (*RtreeCursor)(unsafe.Pointer(pCur)).FsPoint
}
(*RtreeCursor)(unsafe.Pointer(pCur)).FsPoint.FrScore = rScore
(*RtreeCursor)(unsafe.Pointer(pCur)).FsPoint.FiLevel = iLevel
(*RtreeCursor)(unsafe.Pointer(pCur)).FbPoint = U8(1)
return pCur + 64
} else {
return rtreeEnqueue(tls, pCur, rScore, iLevel)
}
return uintptr(0)
}
func rtreeSearchPointPop(tls *libc.TLS, p uintptr) {
var i int32
var j int32
var k int32
var n int32
i = 1 - int32((*RtreeCursor)(unsafe.Pointer(p)).FbPoint)
if *(*uintptr)(unsafe.Pointer(p + 88 + uintptr(i)*8)) != 0 {
nodeRelease(tls, (*RtreeCursor)(unsafe.Pointer(p)).Fbase.FpVtab, *(*uintptr)(unsafe.Pointer(p + 88 + uintptr(i)*8)))
*(*uintptr)(unsafe.Pointer(p + 88 + uintptr(i)*8)) = uintptr(0)
}
if (*RtreeCursor)(unsafe.Pointer(p)).FbPoint != 0 {
*(*U32)(unsafe.Pointer(p + 128 + uintptr((*RtreeCursor)(unsafe.Pointer(p)).FsPoint.FiLevel)*4))--
(*RtreeCursor)(unsafe.Pointer(p)).FbPoint = U8(0)
} else if (*RtreeCursor)(unsafe.Pointer(p)).FnPoint != 0 {
*(*U32)(unsafe.Pointer(p + 128 + uintptr((*RtreeSearchPoint)(unsafe.Pointer((*RtreeCursor)(unsafe.Pointer(p)).FaPoint)).FiLevel)*4))--
n = libc.PreDecInt32(&(*RtreeCursor)(unsafe.Pointer(p)).FnPoint, 1)
*(*RtreeSearchPoint)(unsafe.Pointer((*RtreeCursor)(unsafe.Pointer(p)).FaPoint)) = *(*RtreeSearchPoint)(unsafe.Pointer((*RtreeCursor)(unsafe.Pointer(p)).FaPoint + uintptr(n)*24))
if n < RTREE_CACHE_SZ-1 {
*(*uintptr)(unsafe.Pointer(p + 88 + 1*8)) = *(*uintptr)(unsafe.Pointer(p + 88 + uintptr(n+1)*8))
*(*uintptr)(unsafe.Pointer(p + 88 + uintptr(n+1)*8)) = uintptr(0)
}
i = 0
for libc.AssignInt32(&j, i*2+1) < n {
k = j + 1
if k < n && rtreeSearchPointCompare(tls, (*RtreeCursor)(unsafe.Pointer(p)).FaPoint+uintptr(k)*24, (*RtreeCursor)(unsafe.Pointer(p)).FaPoint+uintptr(j)*24) < 0 {
if rtreeSearchPointCompare(tls, (*RtreeCursor)(unsafe.Pointer(p)).FaPoint+uintptr(k)*24, (*RtreeCursor)(unsafe.Pointer(p)).FaPoint+uintptr(i)*24) < 0 {
rtreeSearchPointSwap(tls, p, i, k)
i = k
} else {
break
}
} else {
if rtreeSearchPointCompare(tls, (*RtreeCursor)(unsafe.Pointer(p)).FaPoint+uintptr(j)*24, (*RtreeCursor)(unsafe.Pointer(p)).FaPoint+uintptr(i)*24) < 0 {
rtreeSearchPointSwap(tls, p, i, j)
i = j
} else {
break
}
}
}
}
}
func rtreeStepToLeaf(tls *libc.TLS, pCur uintptr) int32 {
bp := tls.Alloc(20)
defer tls.Free(20)
var p uintptr
var pRtree uintptr = (*RtreeCursor)(unsafe.Pointer(pCur)).Fbase.FpVtab
var pNode uintptr
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
var nCell int32
var nConstraint int32 = (*RtreeCursor)(unsafe.Pointer(pCur)).FnConstraint
var ii int32
var eInt int32
var x RtreeSearchPoint
eInt = libc.Bool32(int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_INT32)
for libc.AssignUintptr(&p, rtreeSearchPointFirst(tls, pCur)) != uintptr(0) && int32((*RtreeSearchPoint)(unsafe.Pointer(p)).FiLevel) > 0 {
var pCellData uintptr
pNode = rtreeNodeOfFirstSearchPoint(tls, pCur, bp)
if *(*int32)(unsafe.Pointer(bp)) != 0 {
return *(*int32)(unsafe.Pointer(bp))
}
nCell = readInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+2)
pCellData = (*RtreeNode)(unsafe.Pointer(pNode)).FzData + uintptr(4+int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)*int32((*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell))
for int32((*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell) < nCell {
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8)) = Sqlite3_rtree_dbl(-1)
*(*int32)(unsafe.Pointer(bp + 16)) = FULLY_WITHIN
for ii = 0; ii < nConstraint; ii++ {
var pConstraint uintptr = (*RtreeCursor)(unsafe.Pointer(pCur)).FaConstraint + uintptr(ii)*24
if (*RtreeConstraint)(unsafe.Pointer(pConstraint)).Fop >= RTREE_MATCH {
*(*int32)(unsafe.Pointer(bp)) = rtreeCallbackConstraint(tls, pConstraint, eInt, pCellData, p,
bp+8, bp+16)
if *(*int32)(unsafe.Pointer(bp)) != 0 {
return *(*int32)(unsafe.Pointer(bp))
}
} else if int32((*RtreeSearchPoint)(unsafe.Pointer(p)).FiLevel) == 1 {
rtreeLeafConstraint(tls, pConstraint, eInt, pCellData, bp+16)
} else {
rtreeNonleafConstraint(tls, pConstraint, eInt, pCellData, bp+16)
}
if *(*int32)(unsafe.Pointer(bp + 16)) == NOT_WITHIN {
(*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell++
pCellData += uintptr((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)
break
}
}
if *(*int32)(unsafe.Pointer(bp + 16)) == NOT_WITHIN {
continue
}
(*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell++
x.FiLevel = U8(int32((*RtreeSearchPoint)(unsafe.Pointer(p)).FiLevel) - 1)
if x.FiLevel != 0 {
x.Fid = readInt64(tls, pCellData)
for ii = 0; ii < (*RtreeCursor)(unsafe.Pointer(pCur)).FnPoint; ii++ {
if (*RtreeSearchPoint)(unsafe.Pointer((*RtreeCursor)(unsafe.Pointer(pCur)).FaPoint+uintptr(ii)*24)).Fid == x.Fid {
return SQLITE_CORRUPT | int32(1)<<8
}
}
x.FiCell = U8(0)
} else {
x.Fid = (*RtreeSearchPoint)(unsafe.Pointer(p)).Fid
x.FiCell = U8(int32((*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell) - 1)
}
if int32((*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell) >= nCell {
rtreeSearchPointPop(tls, pCur)
}
if *(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8)) < 0.0 {
*(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8)) = 0.0
}
p = rtreeSearchPointNew(tls, pCur, *(*Sqlite3_rtree_dbl)(unsafe.Pointer(bp + 8)), x.FiLevel)
if p == uintptr(0) {
return SQLITE_NOMEM
}
(*RtreeSearchPoint)(unsafe.Pointer(p)).FeWithin = U8(*(*int32)(unsafe.Pointer(bp + 16)))
(*RtreeSearchPoint)(unsafe.Pointer(p)).Fid = x.Fid
(*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell = x.FiCell
break
}
if int32((*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell) >= nCell {
rtreeSearchPointPop(tls, pCur)
}
}
(*RtreeCursor)(unsafe.Pointer(pCur)).FatEOF = U8(libc.Bool32(p == uintptr(0)))
return SQLITE_OK
}
func rtreeNext(tls *libc.TLS, pVtabCursor uintptr) int32 {
var pCsr uintptr = pVtabCursor
var rc int32 = SQLITE_OK
if (*RtreeCursor)(unsafe.Pointer(pCsr)).FbAuxValid != 0 {
(*RtreeCursor)(unsafe.Pointer(pCsr)).FbAuxValid = U8(0)
Xsqlite3_reset(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FpReadAux)
}
rtreeSearchPointPop(tls, pCsr)
rc = rtreeStepToLeaf(tls, pCsr)
return rc
}
func rtreeRowid(tls *libc.TLS, pVtabCursor uintptr, pRowid uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pCsr uintptr = pVtabCursor
var p uintptr = rtreeSearchPointFirst(tls, pCsr)
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
var pNode uintptr = rtreeNodeOfFirstSearchPoint(tls, pCsr, bp)
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK && p != 0 {
*(*Sqlite_int64)(unsafe.Pointer(pRowid)) = nodeGetRowid(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab, pNode, int32((*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell))
}
return *(*int32)(unsafe.Pointer(bp))
}
func rtreeColumn(tls *libc.TLS, cur uintptr, ctx uintptr, i int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pRtree uintptr = (*Sqlite3_vtab_cursor)(unsafe.Pointer(cur)).FpVtab
var pCsr uintptr = cur
var p uintptr = rtreeSearchPointFirst(tls, pCsr)
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
var pNode uintptr = rtreeNodeOfFirstSearchPoint(tls, pCsr, bp)
if *(*int32)(unsafe.Pointer(bp)) != 0 {
return *(*int32)(unsafe.Pointer(bp))
}
if p == uintptr(0) {
return SQLITE_OK
}
if i == 0 {
Xsqlite3_result_int64(tls, ctx, nodeGetRowid(tls, pRtree, pNode, int32((*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell)))
} else if i <= int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2) {
nodeGetCoord(tls, pRtree, pNode, int32((*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell), i-1, bp+4)
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
Xsqlite3_result_double(tls, ctx, float64(*(*RtreeValue)(unsafe.Pointer(bp + 4))))
} else {
Xsqlite3_result_int(tls, ctx, *(*int32)(unsafe.Pointer(bp + 4)))
}
} else {
if !(int32((*RtreeCursor)(unsafe.Pointer(pCsr)).FbAuxValid) != 0) {
if (*RtreeCursor)(unsafe.Pointer(pCsr)).FpReadAux == uintptr(0) {
*(*int32)(unsafe.Pointer(bp)) = Xsqlite3_prepare_v3(tls, (*Rtree)(unsafe.Pointer(pRtree)).Fdb, (*Rtree)(unsafe.Pointer(pRtree)).FzReadAuxSql, -1, uint32(0),
pCsr+56, uintptr(0))
if *(*int32)(unsafe.Pointer(bp)) != 0 {
return *(*int32)(unsafe.Pointer(bp))
}
}
Xsqlite3_bind_int64(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FpReadAux, 1,
nodeGetRowid(tls, pRtree, pNode, int32((*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell)))
*(*int32)(unsafe.Pointer(bp)) = Xsqlite3_step(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FpReadAux)
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_ROW {
(*RtreeCursor)(unsafe.Pointer(pCsr)).FbAuxValid = U8(1)
} else {
Xsqlite3_reset(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FpReadAux)
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_DONE {
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
}
return *(*int32)(unsafe.Pointer(bp))
}
}
Xsqlite3_result_value(tls, ctx,
Xsqlite3_column_value(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FpReadAux, i-int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2)+1))
}
return SQLITE_OK
}
func findLeafNode(tls *libc.TLS, pRtree uintptr, iRowid I64, ppLeaf uintptr, piNode uintptr) int32 {
var rc int32
*(*uintptr)(unsafe.Pointer(ppLeaf)) = uintptr(0)
Xsqlite3_bind_int64(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadRowid, 1, iRowid)
if Xsqlite3_step(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadRowid) == SQLITE_ROW {
var iNode I64 = Xsqlite3_column_int64(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadRowid, 0)
if piNode != 0 {
*(*Sqlite3_int64)(unsafe.Pointer(piNode)) = iNode
}
rc = nodeAcquire(tls, pRtree, iNode, uintptr(0), ppLeaf)
Xsqlite3_reset(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadRowid)
} else {
rc = Xsqlite3_reset(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadRowid)
}
return rc
}
func deserializeGeometry(tls *libc.TLS, pValue uintptr, pCons uintptr) int32 {
var pBlob uintptr
var pSrc uintptr
var pInfo uintptr
pSrc = Xsqlite3_value_pointer(tls, pValue, ts+25593)
if pSrc == uintptr(0) {
return SQLITE_ERROR
}
pInfo = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(Sqlite3_rtree_query_info{}))+uint64((*RtreeMatchArg)(unsafe.Pointer(pSrc)).FiSize))
if !(pInfo != 0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, pInfo, 0, uint64(unsafe.Sizeof(Sqlite3_rtree_query_info{})), libc.X__builtin_object_size(tls, pInfo, 0))
pBlob = pInfo + 1*112
libc.X__builtin___memcpy_chk(tls, pBlob, pSrc, uint64((*RtreeMatchArg)(unsafe.Pointer(pSrc)).FiSize), libc.X__builtin_object_size(tls, pBlob, 0))
(*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FpContext = (*RtreeMatchArg)(unsafe.Pointer(pBlob)).Fcb.FpContext
(*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FnParam = (*RtreeMatchArg)(unsafe.Pointer(pBlob)).FnParam
(*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FaParam = pBlob + 56
(*Sqlite3_rtree_query_info)(unsafe.Pointer(pInfo)).FapSqlParam = (*RtreeMatchArg)(unsafe.Pointer(pBlob)).FapSqlParam
if (*RtreeMatchArg)(unsafe.Pointer(pBlob)).Fcb.FxGeom != 0 {
*(*uintptr)(unsafe.Pointer(pCons + 8)) = (*RtreeMatchArg)(unsafe.Pointer(pBlob)).Fcb.FxGeom
} else {
(*RtreeConstraint)(unsafe.Pointer(pCons)).Fop = RTREE_QUERY
*(*uintptr)(unsafe.Pointer(pCons + 8)) = (*RtreeMatchArg)(unsafe.Pointer(pBlob)).Fcb.FxQueryFunc
}
(*RtreeConstraint)(unsafe.Pointer(pCons)).FpInfo = pInfo
return SQLITE_OK
}
func rtreeFilter(tls *libc.TLS, pVtabCursor uintptr, idxNum int32, idxStr uintptr, argc int32, argv uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var pRtree uintptr = (*Sqlite3_vtab_cursor)(unsafe.Pointer(pVtabCursor)).FpVtab
var pCsr uintptr = pVtabCursor
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
var ii int32
var rc int32 = SQLITE_OK
*(*int32)(unsafe.Pointer(bp + 16)) = 0
rtreeReference(tls, pRtree)
resetCursor(tls, pCsr)
(*RtreeCursor)(unsafe.Pointer(pCsr)).FiStrategy = idxNum
if idxNum == 1 {
var p uintptr
var iRowid I64 = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(argv)))
*(*I64)(unsafe.Pointer(bp + 8)) = int64(0)
var eType int32 = Xsqlite3_value_numeric_type(tls, *(*uintptr)(unsafe.Pointer(argv)))
if eType == SQLITE_INTEGER ||
eType == SQLITE_FLOAT && Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv))) == float64(iRowid) {
rc = findLeafNode(tls, pRtree, iRowid, bp, bp+8)
} else {
rc = SQLITE_OK
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
}
if rc == SQLITE_OK && *(*uintptr)(unsafe.Pointer(bp)) != uintptr(0) {
p = rtreeSearchPointNew(tls, pCsr, 0.0, uint8(0))
*(*uintptr)(unsafe.Pointer(pCsr + 88)) = *(*uintptr)(unsafe.Pointer(bp))
(*RtreeSearchPoint)(unsafe.Pointer(p)).Fid = *(*I64)(unsafe.Pointer(bp + 8))
(*RtreeSearchPoint)(unsafe.Pointer(p)).FeWithin = U8(PARTLY_WITHIN)
rc = nodeRowidIndex(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp)), iRowid, bp+16)
(*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell = U8(*(*int32)(unsafe.Pointer(bp + 16)))
} else {
(*RtreeCursor)(unsafe.Pointer(pCsr)).FatEOF = U8(1)
}
} else {
rc = nodeAcquire(tls, pRtree, int64(1), uintptr(0), bp+24)
if rc == SQLITE_OK && argc > 0 {
(*RtreeCursor)(unsafe.Pointer(pCsr)).FaConstraint = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(RtreeConstraint{}))*uint64(argc))
(*RtreeCursor)(unsafe.Pointer(pCsr)).FnConstraint = argc
if !(int32((*RtreeCursor)(unsafe.Pointer(pCsr)).FaConstraint) != 0) {
rc = SQLITE_NOMEM
} else {
libc.X__builtin___memset_chk(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FaConstraint, 0, uint64(unsafe.Sizeof(RtreeConstraint{}))*uint64(argc), libc.X__builtin_object_size(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FaConstraint, 0))
libc.X__builtin___memset_chk(tls, pCsr+128, 0, uint64(unsafe.Sizeof(U32(0)))*uint64((*Rtree)(unsafe.Pointer(pRtree)).FiDepth+1), libc.X__builtin_object_size(tls, pCsr+128, 0))
for ii = 0; ii < argc; ii++ {
var p uintptr = (*RtreeCursor)(unsafe.Pointer(pCsr)).FaConstraint + uintptr(ii)*24
var eType int32 = Xsqlite3_value_numeric_type(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(ii)*8)))
(*RtreeConstraint)(unsafe.Pointer(p)).Fop = int32(*(*int8)(unsafe.Pointer(idxStr + uintptr(ii*2))))
(*RtreeConstraint)(unsafe.Pointer(p)).FiCoord = int32(*(*int8)(unsafe.Pointer(idxStr + uintptr(ii*2+1)))) - '0'
if (*RtreeConstraint)(unsafe.Pointer(p)).Fop >= RTREE_MATCH {
rc = deserializeGeometry(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(ii)*8)), p)
if rc != SQLITE_OK {
break
}
(*Sqlite3_rtree_query_info)(unsafe.Pointer((*RtreeConstraint)(unsafe.Pointer(p)).FpInfo)).FnCoord = int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2)
(*Sqlite3_rtree_query_info)(unsafe.Pointer((*RtreeConstraint)(unsafe.Pointer(p)).FpInfo)).FanQueue = pCsr + 128
(*Sqlite3_rtree_query_info)(unsafe.Pointer((*RtreeConstraint)(unsafe.Pointer(p)).FpInfo)).FmxLevel = (*Rtree)(unsafe.Pointer(pRtree)).FiDepth + 1
} else if eType == SQLITE_INTEGER || eType == SQLITE_FLOAT {
*(*RtreeDValue)(unsafe.Pointer(p + 8)) = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(ii)*8)))
} else {
*(*RtreeDValue)(unsafe.Pointer(p + 8)) = 0.0
if eType == SQLITE_NULL {
(*RtreeConstraint)(unsafe.Pointer(p)).Fop = RTREE_FALSE
} else if (*RtreeConstraint)(unsafe.Pointer(p)).Fop == RTREE_LT || (*RtreeConstraint)(unsafe.Pointer(p)).Fop == RTREE_LE {
(*RtreeConstraint)(unsafe.Pointer(p)).Fop = RTREE_TRUE
} else {
(*RtreeConstraint)(unsafe.Pointer(p)).Fop = RTREE_FALSE
}
}
}
}
}
if rc == SQLITE_OK {
var pNew uintptr
pNew = rtreeSearchPointNew(tls, pCsr, 0.0, U8((*Rtree)(unsafe.Pointer(pRtree)).FiDepth+1))
if pNew == uintptr(0) {
return SQLITE_NOMEM
}
(*RtreeSearchPoint)(unsafe.Pointer(pNew)).Fid = int64(1)
(*RtreeSearchPoint)(unsafe.Pointer(pNew)).FiCell = U8(0)
(*RtreeSearchPoint)(unsafe.Pointer(pNew)).FeWithin = U8(PARTLY_WITHIN)
*(*uintptr)(unsafe.Pointer(pCsr + 88)) = *(*uintptr)(unsafe.Pointer(bp + 24))
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
rc = rtreeStepToLeaf(tls, pCsr)
}
}
nodeRelease(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 24)))
rtreeRelease(tls, pRtree)
return rc
}
func rtreeBestIndex(tls *libc.TLS, tab uintptr, pIdxInfo uintptr) int32 {
bp := tls.Alloc(49)
defer tls.Free(49)
var pRtree uintptr = tab
var rc int32 = SQLITE_OK
var ii int32
var bMatch int32 = 0
var nRow I64
var iIdx int32 = 0
libc.X__builtin___memset_chk(tls, bp+8, 0, uint64(unsafe.Sizeof([41]int8{})), libc.X__builtin_object_size(tls, bp+8, 0))
for ii = 0; ii < (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FnConstraint; ii++ {
if int32((*sqlite3_index_constraint)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraint+uintptr(ii)*12)).Fop) == SQLITE_INDEX_CONSTRAINT_MATCH {
bMatch = 1
}
}
for ii = 0; ii < (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FnConstraint && iIdx < int32(uint64(unsafe.Sizeof([41]int8{}))-uint64(1)); ii++ {
var p uintptr = (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraint + uintptr(ii)*12
if bMatch == 0 && (*sqlite3_index_constraint)(unsafe.Pointer(p)).Fusable != 0 &&
(*sqlite3_index_constraint)(unsafe.Pointer(p)).FiColumn <= 0 && int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == SQLITE_INDEX_CONSTRAINT_EQ {
var jj int32
for jj = 0; jj < ii; jj++ {
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(jj)*8)).FargvIndex = 0
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(jj)*8)).Fomit = uint8(0)
}
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxNum = 1
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(ii)*8)).FargvIndex = 1
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(jj)*8)).Fomit = uint8(1)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedCost = 30.0
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedRows = int64(1)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxFlags = SQLITE_INDEX_SCAN_UNIQUE
return SQLITE_OK
}
if (*sqlite3_index_constraint)(unsafe.Pointer(p)).Fusable != 0 &&
((*sqlite3_index_constraint)(unsafe.Pointer(p)).FiColumn > 0 && (*sqlite3_index_constraint)(unsafe.Pointer(p)).FiColumn <= int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2) ||
int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == SQLITE_INDEX_CONSTRAINT_MATCH) {
var op U8
switch int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) {
case SQLITE_INDEX_CONSTRAINT_EQ:
op = U8(RTREE_EQ)
break
fallthrough
case SQLITE_INDEX_CONSTRAINT_GT:
op = U8(RTREE_GT)
break
fallthrough
case SQLITE_INDEX_CONSTRAINT_LE:
op = U8(RTREE_LE)
break
fallthrough
case SQLITE_INDEX_CONSTRAINT_LT:
op = U8(RTREE_LT)
break
fallthrough
case SQLITE_INDEX_CONSTRAINT_GE:
op = U8(RTREE_GE)
break
fallthrough
case SQLITE_INDEX_CONSTRAINT_MATCH:
op = U8(RTREE_MATCH)
break
fallthrough
default:
op = U8(0)
break
}
if op != 0 {
*(*int8)(unsafe.Pointer(bp + 8 + uintptr(libc.PostIncInt32(&iIdx, 1)))) = int8(op)
*(*int8)(unsafe.Pointer(bp + 8 + uintptr(libc.PostIncInt32(&iIdx, 1)))) = int8((*sqlite3_index_constraint)(unsafe.Pointer(p)).FiColumn - 1 + '0')
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(ii)*8)).FargvIndex = iIdx / 2
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(ii)*8)).Fomit = uint8(1)
}
}
}
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxNum = 2
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FneedToFreeIdxStr = 1
if iIdx > 0 && uintptr(0) == libc.AssignPtrUintptr(pIdxInfo+48, Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp, bp+8))) {
return SQLITE_NOMEM
}
nRow = (*Rtree)(unsafe.Pointer(pRtree)).FnRowEst >> (iIdx / 2)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedCost = 6.0 * float64(nRow)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedRows = nRow
return rc
}
func cellArea(tls *libc.TLS, pRtree uintptr, p uintptr) RtreeDValue {
var area RtreeDValue = RtreeDValue(1)
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
switch int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim) {
case 5:
area = RtreeDValue(*(*RtreeValue)(unsafe.Pointer(p + 8 + 9*4)) - *(*RtreeValue)(unsafe.Pointer(p + 8 + 8*4)))
fallthrough
case 4:
area = area * float64(*(*RtreeValue)(unsafe.Pointer(p + 8 + 7*4))-*(*RtreeValue)(unsafe.Pointer(p + 8 + 6*4)))
fallthrough
case 3:
area = area * float64(*(*RtreeValue)(unsafe.Pointer(p + 8 + 5*4))-*(*RtreeValue)(unsafe.Pointer(p + 8 + 4*4)))
fallthrough
case 2:
area = area * float64(*(*RtreeValue)(unsafe.Pointer(p + 8 + 3*4))-*(*RtreeValue)(unsafe.Pointer(p + 8 + 2*4)))
fallthrough
default:
area = area * float64(*(*RtreeValue)(unsafe.Pointer(p + 8 + 1*4))-*(*RtreeValue)(unsafe.Pointer(p + 8)))
}
} else {
switch int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim) {
case 5:
area = RtreeDValue(I64(*(*int32)(unsafe.Pointer(p + 8 + 9*4))) - I64(*(*int32)(unsafe.Pointer(p + 8 + 8*4))))
fallthrough
case 4:
area = area * float64(I64(*(*int32)(unsafe.Pointer(p + 8 + 7*4)))-I64(*(*int32)(unsafe.Pointer(p + 8 + 6*4))))
fallthrough
case 3:
area = area * float64(I64(*(*int32)(unsafe.Pointer(p + 8 + 5*4)))-I64(*(*int32)(unsafe.Pointer(p + 8 + 4*4))))
fallthrough
case 2:
area = area * float64(I64(*(*int32)(unsafe.Pointer(p + 8 + 3*4)))-I64(*(*int32)(unsafe.Pointer(p + 8 + 2*4))))
fallthrough
default:
area = area * float64(I64(*(*int32)(unsafe.Pointer(p + 8 + 1*4)))-I64(*(*int32)(unsafe.Pointer(p + 8))))
}
}
return area
}
func cellMargin(tls *libc.TLS, pRtree uintptr, p uintptr) RtreeDValue {
var margin RtreeDValue = RtreeDValue(0)
var ii int32 = int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2) - 2
for __ccgo := true; __ccgo; __ccgo = ii >= 0 {
margin = margin + (func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(p + 8 + uintptr(ii+1)*4)))
}
return float64(*(*int32)(unsafe.Pointer(p + 8 + uintptr(ii+1)*4)))
}() - func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(p + 8 + uintptr(ii)*4)))
}
return float64(*(*int32)(unsafe.Pointer(p + 8 + uintptr(ii)*4)))
}())
ii = ii - 2
}
return margin
}
func cellUnion(tls *libc.TLS, pRtree uintptr, p1 uintptr, p2 uintptr) {
var ii int32 = 0
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
for __ccgo := true; __ccgo; __ccgo = ii < int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2) {
*(*RtreeValue)(unsafe.Pointer(p1 + 8 + uintptr(ii)*4)) = func() float32 {
if *(*RtreeValue)(unsafe.Pointer(p1 + 8 + uintptr(ii)*4)) < *(*RtreeValue)(unsafe.Pointer(p2 + 8 + uintptr(ii)*4)) {
return *(*RtreeValue)(unsafe.Pointer(p1 + 8 + uintptr(ii)*4))
}
return *(*RtreeValue)(unsafe.Pointer(p2 + 8 + uintptr(ii)*4))
}()
*(*RtreeValue)(unsafe.Pointer(p1 + 8 + uintptr(ii+1)*4)) = func() float32 {
if *(*RtreeValue)(unsafe.Pointer(p1 + 8 + uintptr(ii+1)*4)) > *(*RtreeValue)(unsafe.Pointer(p2 + 8 + uintptr(ii+1)*4)) {
return *(*RtreeValue)(unsafe.Pointer(p1 + 8 + uintptr(ii+1)*4))
}
return *(*RtreeValue)(unsafe.Pointer(p2 + 8 + uintptr(ii+1)*4))
}()
ii = ii + 2
}
} else {
for __ccgo1 := true; __ccgo1; __ccgo1 = ii < int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2) {
*(*int32)(unsafe.Pointer(p1 + 8 + uintptr(ii)*4)) = func() int32 {
if *(*int32)(unsafe.Pointer(p1 + 8 + uintptr(ii)*4)) < *(*int32)(unsafe.Pointer(p2 + 8 + uintptr(ii)*4)) {
return *(*int32)(unsafe.Pointer(p1 + 8 + uintptr(ii)*4))
}
return *(*int32)(unsafe.Pointer(p2 + 8 + uintptr(ii)*4))
}()
*(*int32)(unsafe.Pointer(p1 + 8 + uintptr(ii+1)*4)) = func() int32 {
if *(*int32)(unsafe.Pointer(p1 + 8 + uintptr(ii+1)*4)) > *(*int32)(unsafe.Pointer(p2 + 8 + uintptr(ii+1)*4)) {
return *(*int32)(unsafe.Pointer(p1 + 8 + uintptr(ii+1)*4))
}
return *(*int32)(unsafe.Pointer(p2 + 8 + uintptr(ii+1)*4))
}()
ii = ii + 2
}
}
}
func cellContains(tls *libc.TLS, pRtree uintptr, p1 uintptr, p2 uintptr) int32 {
var ii int32
var isInt int32 = libc.Bool32(int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_INT32)
for ii = 0; ii < int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2); ii = ii + 2 {
var a1 uintptr = p1 + 8 + uintptr(ii)*4
var a2 uintptr = p2 + 8 + uintptr(ii)*4
if !(isInt != 0) && (*(*RtreeValue)(unsafe.Pointer(a2)) < *(*RtreeValue)(unsafe.Pointer(a1)) || *(*RtreeValue)(unsafe.Pointer(a2 + 1*4)) > *(*RtreeValue)(unsafe.Pointer(a1 + 1*4))) ||
isInt != 0 && (*(*int32)(unsafe.Pointer(a2)) < *(*int32)(unsafe.Pointer(a1)) || *(*int32)(unsafe.Pointer(a2 + 1*4)) > *(*int32)(unsafe.Pointer(a1 + 1*4))) {
return 0
}
}
return 1
}
func cellGrowth(tls *libc.TLS, pRtree uintptr, p uintptr, pCell uintptr) RtreeDValue {
bp := tls.Alloc(48)
defer tls.Free(48)
var area RtreeDValue
libc.X__builtin___memcpy_chk(tls, bp, p, uint64(unsafe.Sizeof(RtreeCell{})), libc.X__builtin_object_size(tls, bp, 0))
area = cellArea(tls, pRtree, bp)
cellUnion(tls, pRtree, bp, pCell)
return cellArea(tls, pRtree, bp) - area
}
func cellOverlap(tls *libc.TLS, pRtree uintptr, p uintptr, aCell uintptr, nCell int32) RtreeDValue {
var ii int32
var overlap RtreeDValue = 0.0
for ii = 0; ii < nCell; ii++ {
var jj int32
var o RtreeDValue = RtreeDValue(1)
for jj = 0; jj < int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2); jj = jj + 2 {
var x1 RtreeDValue
var x2 RtreeDValue
x1 = func() float64 {
if func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(p + 8 + uintptr(jj)*4)))
}
return float64(*(*int32)(unsafe.Pointer(p + 8 + uintptr(jj)*4)))
}() > func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(jj)*4)))
}
return float64(*(*int32)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(jj)*4)))
}() {
return func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(p + 8 + uintptr(jj)*4)))
}
return float64(*(*int32)(unsafe.Pointer(p + 8 + uintptr(jj)*4)))
}()
}
return func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(jj)*4)))
}
return float64(*(*int32)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(jj)*4)))
}()
}()
x2 = func() float64 {
if func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(p + 8 + uintptr(jj+1)*4)))
}
return float64(*(*int32)(unsafe.Pointer(p + 8 + uintptr(jj+1)*4)))
}() < func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(jj+1)*4)))
}
return float64(*(*int32)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(jj+1)*4)))
}() {
return func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(p + 8 + uintptr(jj+1)*4)))
}
return float64(*(*int32)(unsafe.Pointer(p + 8 + uintptr(jj+1)*4)))
}()
}
return func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(jj+1)*4)))
}
return float64(*(*int32)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(jj+1)*4)))
}()
}()
if x2 < x1 {
o = RtreeDValue(0)
break
} else {
o = o * (x2 - x1)
}
}
overlap = overlap + o
}
return overlap
}
func sChooseLeaf(tls *libc.TLS, pRtree uintptr, pCell uintptr, iHeight int32, ppLeaf uintptr) int32 {
bp := tls.Alloc(64)
defer tls.Free(64)
var rc int32
var ii int32
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
rc = nodeAcquire(tls, pRtree, int64(1), uintptr(0), bp)
for ii = 0; rc == SQLITE_OK && ii < (*Rtree)(unsafe.Pointer(pRtree)).FiDepth-iHeight; ii++ {
var iCell int32
var iBest Sqlite3_int64 = int64(0)
var fMinGrowth RtreeDValue = 0.0
var fMinArea RtreeDValue = 0.0
var nCell int32 = readInt16(tls, (*RtreeNode)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FzData+2)
*(*uintptr)(unsafe.Pointer(bp + 56)) = uintptr(0)
var aCell uintptr = uintptr(0)
for iCell = 0; iCell < nCell; iCell++ {
var bBest int32 = 0
var growth RtreeDValue
var area RtreeDValue
nodeGetCell(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp)), iCell, bp+8)
growth = cellGrowth(tls, pRtree, bp+8, pCell)
area = cellArea(tls, pRtree, bp+8)
if iCell == 0 || growth < fMinGrowth || growth == fMinGrowth && area < fMinArea {
bBest = 1
}
if bBest != 0 {
fMinGrowth = growth
fMinArea = area
iBest = (*RtreeCell)(unsafe.Pointer(bp + 8)).FiRowid
}
}
Xsqlite3_free(tls, aCell)
rc = nodeAcquire(tls, pRtree, iBest, *(*uintptr)(unsafe.Pointer(bp)), bp+56)
nodeRelease(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp)))
*(*uintptr)(unsafe.Pointer(bp)) = *(*uintptr)(unsafe.Pointer(bp + 56))
}
*(*uintptr)(unsafe.Pointer(ppLeaf)) = *(*uintptr)(unsafe.Pointer(bp))
return rc
}
func sAdjustTree(tls *libc.TLS, pRtree uintptr, pNode uintptr, pCell uintptr) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
var p uintptr = pNode
var cnt int32 = 0
var rc int32
for (*RtreeNode)(unsafe.Pointer(p)).FpParent != 0 {
var pParent uintptr = (*RtreeNode)(unsafe.Pointer(p)).FpParent
cnt++
if cnt > 100 {
return SQLITE_CORRUPT | int32(1)<<8
}
rc = nodeParentIndex(tls, pRtree, p, bp)
if rc != SQLITE_OK {
return SQLITE_CORRUPT | int32(1)<<8
}
nodeGetCell(tls, pRtree, pParent, *(*int32)(unsafe.Pointer(bp)), bp+8)
if !(cellContains(tls, pRtree, bp+8, pCell) != 0) {
cellUnion(tls, pRtree, bp+8, pCell)
nodeOverwriteCell(tls, pRtree, pParent, bp+8, *(*int32)(unsafe.Pointer(bp)))
}
p = pParent
}
return SQLITE_OK
}
func rowidWrite(tls *libc.TLS, pRtree uintptr, iRowid Sqlite3_int64, iNode Sqlite3_int64) int32 {
Xsqlite3_bind_int64(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteRowid, 1, iRowid)
Xsqlite3_bind_int64(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteRowid, 2, iNode)
Xsqlite3_step(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteRowid)
return Xsqlite3_reset(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteRowid)
}
func parentWrite(tls *libc.TLS, pRtree uintptr, iNode Sqlite3_int64, iPar Sqlite3_int64) int32 {
Xsqlite3_bind_int64(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteParent, 1, iNode)
Xsqlite3_bind_int64(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteParent, 2, iPar)
Xsqlite3_step(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteParent)
return Xsqlite3_reset(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteParent)
}
func sSortByDistance(tls *libc.TLS, aIdx uintptr, nIdx int32, aDistance uintptr, aSpare uintptr) {
if nIdx > 1 {
var iLeft int32 = 0
var iRight int32 = 0
var nLeft int32 = nIdx / 2
var nRight int32 = nIdx - nLeft
var aLeft uintptr = aIdx
var aRight uintptr = aIdx + uintptr(nLeft)*4
sSortByDistance(tls, aLeft, nLeft, aDistance, aSpare)
sSortByDistance(tls, aRight, nRight, aDistance, aSpare)
libc.X__builtin___memcpy_chk(tls, aSpare, aLeft, uint64(unsafe.Sizeof(int32(0)))*uint64(nLeft), libc.X__builtin_object_size(tls, aSpare, 0))
aLeft = aSpare
for iLeft < nLeft || iRight < nRight {
if iLeft == nLeft {
*(*int32)(unsafe.Pointer(aIdx + uintptr(iLeft+iRight)*4)) = *(*int32)(unsafe.Pointer(aRight + uintptr(iRight)*4))
iRight++
} else if iRight == nRight {
*(*int32)(unsafe.Pointer(aIdx + uintptr(iLeft+iRight)*4)) = *(*int32)(unsafe.Pointer(aLeft + uintptr(iLeft)*4))
iLeft++
} else {
var fLeft RtreeDValue = *(*RtreeDValue)(unsafe.Pointer(aDistance + uintptr(*(*int32)(unsafe.Pointer(aLeft + uintptr(iLeft)*4)))*8))
var fRight RtreeDValue = *(*RtreeDValue)(unsafe.Pointer(aDistance + uintptr(*(*int32)(unsafe.Pointer(aRight + uintptr(iRight)*4)))*8))
if fLeft < fRight {
*(*int32)(unsafe.Pointer(aIdx + uintptr(iLeft+iRight)*4)) = *(*int32)(unsafe.Pointer(aLeft + uintptr(iLeft)*4))
iLeft++
} else {
*(*int32)(unsafe.Pointer(aIdx + uintptr(iLeft+iRight)*4)) = *(*int32)(unsafe.Pointer(aRight + uintptr(iRight)*4))
iRight++
}
}
}
}
}
func sSortByDimension(tls *libc.TLS, pRtree uintptr, aIdx uintptr, nIdx int32, iDim int32, aCell uintptr, aSpare uintptr) {
if nIdx > 1 {
var iLeft int32 = 0
var iRight int32 = 0
var nLeft int32 = nIdx / 2
var nRight int32 = nIdx - nLeft
var aLeft uintptr = aIdx
var aRight uintptr = aIdx + uintptr(nLeft)*4
sSortByDimension(tls, pRtree, aLeft, nLeft, iDim, aCell, aSpare)
sSortByDimension(tls, pRtree, aRight, nRight, iDim, aCell, aSpare)
libc.X__builtin___memcpy_chk(tls, aSpare, aLeft, uint64(unsafe.Sizeof(int32(0)))*uint64(nLeft), libc.X__builtin_object_size(tls, aSpare, 0))
aLeft = aSpare
for iLeft < nLeft || iRight < nRight {
var xleft1 RtreeDValue = func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(aCell + uintptr(*(*int32)(unsafe.Pointer(aLeft + uintptr(iLeft)*4)))*48 + 8 + uintptr(iDim*2)*4)))
}
return float64(*(*int32)(unsafe.Pointer(aCell + uintptr(*(*int32)(unsafe.Pointer(aLeft + uintptr(iLeft)*4)))*48 + 8 + uintptr(iDim*2)*4)))
}()
var xleft2 RtreeDValue = func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(aCell + uintptr(*(*int32)(unsafe.Pointer(aLeft + uintptr(iLeft)*4)))*48 + 8 + uintptr(iDim*2+1)*4)))
}
return float64(*(*int32)(unsafe.Pointer(aCell + uintptr(*(*int32)(unsafe.Pointer(aLeft + uintptr(iLeft)*4)))*48 + 8 + uintptr(iDim*2+1)*4)))
}()
var xright1 RtreeDValue = func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(aCell + uintptr(*(*int32)(unsafe.Pointer(aRight + uintptr(iRight)*4)))*48 + 8 + uintptr(iDim*2)*4)))
}
return float64(*(*int32)(unsafe.Pointer(aCell + uintptr(*(*int32)(unsafe.Pointer(aRight + uintptr(iRight)*4)))*48 + 8 + uintptr(iDim*2)*4)))
}()
var xright2 RtreeDValue = func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(aCell + uintptr(*(*int32)(unsafe.Pointer(aRight + uintptr(iRight)*4)))*48 + 8 + uintptr(iDim*2+1)*4)))
}
return float64(*(*int32)(unsafe.Pointer(aCell + uintptr(*(*int32)(unsafe.Pointer(aRight + uintptr(iRight)*4)))*48 + 8 + uintptr(iDim*2+1)*4)))
}()
if iLeft != nLeft && (iRight == nRight ||
xleft1 < xright1 ||
xleft1 == xright1 && xleft2 < xright2) {
*(*int32)(unsafe.Pointer(aIdx + uintptr(iLeft+iRight)*4)) = *(*int32)(unsafe.Pointer(aLeft + uintptr(iLeft)*4))
iLeft++
} else {
*(*int32)(unsafe.Pointer(aIdx + uintptr(iLeft+iRight)*4)) = *(*int32)(unsafe.Pointer(aRight + uintptr(iRight)*4))
iRight++
}
}
}
}
func splitNodeStartree(tls *libc.TLS, pRtree uintptr, aCell uintptr, nCell int32, pLeft uintptr, pRight uintptr, pBboxLeft uintptr, pBboxRight uintptr) int32 {
bp := tls.Alloc(96)
defer tls.Free(96)
var aaSorted uintptr
var aSpare uintptr
var ii int32
var iBestDim int32 = 0
var iBestSplit int32 = 0
var fBestMargin RtreeDValue = 0.0
var nByte Sqlite3_int64 = Sqlite3_int64(uint64(int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim)+1) * (uint64(unsafe.Sizeof(uintptr(0))) + uint64(nCell)*uint64(unsafe.Sizeof(int32(0)))))
aaSorted = Xsqlite3_malloc64(tls, uint64(nByte))
if !(aaSorted != 0) {
return SQLITE_NOMEM
}
aSpare = aaSorted + uintptr((*Rtree)(unsafe.Pointer(pRtree)).FnDim)*8 + uintptr(int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim)*nCell)*4
libc.X__builtin___memset_chk(tls, aaSorted, 0, uint64(nByte), libc.X__builtin_object_size(tls, aaSorted, 0))
for ii = 0; ii < int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim); ii++ {
var jj int32
*(*uintptr)(unsafe.Pointer(aaSorted + uintptr(ii)*8)) = aaSorted + uintptr((*Rtree)(unsafe.Pointer(pRtree)).FnDim)*8 + uintptr(ii*nCell)*4
for jj = 0; jj < nCell; jj++ {
*(*int32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(aaSorted + uintptr(ii)*8)) + uintptr(jj)*4)) = jj
}
sSortByDimension(tls, pRtree, *(*uintptr)(unsafe.Pointer(aaSorted + uintptr(ii)*8)), nCell, ii, aCell, aSpare)
}
for ii = 0; ii < int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim); ii++ {
var margin RtreeDValue = 0.0
var fBestOverlap RtreeDValue = 0.0
var fBestArea RtreeDValue = 0.0
var iBestLeft int32 = 0
var nLeft int32
for nLeft = ((*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize - 4) / int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell) / 3; nLeft <= nCell-((*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize-4)/int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)/3; nLeft++ {
var kk int32
var overlap RtreeDValue
var area RtreeDValue
libc.X__builtin___memcpy_chk(tls, bp, aCell+uintptr(*(*int32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(aaSorted + uintptr(ii)*8)))))*48, uint64(unsafe.Sizeof(RtreeCell{})), libc.X__builtin_object_size(tls, bp, 0))
libc.X__builtin___memcpy_chk(tls, bp+48, aCell+uintptr(*(*int32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(aaSorted + uintptr(ii)*8)) + uintptr(nCell-1)*4)))*48, uint64(unsafe.Sizeof(RtreeCell{})), libc.X__builtin_object_size(tls, bp+48, 0))
for kk = 1; kk < nCell-1; kk++ {
if kk < nLeft {
cellUnion(tls, pRtree, bp, aCell+uintptr(*(*int32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(aaSorted + uintptr(ii)*8)) + uintptr(kk)*4)))*48)
} else {
cellUnion(tls, pRtree, bp+48, aCell+uintptr(*(*int32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(aaSorted + uintptr(ii)*8)) + uintptr(kk)*4)))*48)
}
}
margin = margin + cellMargin(tls, pRtree, bp)
margin = margin + cellMargin(tls, pRtree, bp+48)
overlap = cellOverlap(tls, pRtree, bp, bp+48, 1)
area = cellArea(tls, pRtree, bp) + cellArea(tls, pRtree, bp+48)
if nLeft == ((*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize-4)/int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)/3 ||
overlap < fBestOverlap ||
overlap == fBestOverlap && area < fBestArea {
iBestLeft = nLeft
fBestOverlap = overlap
fBestArea = area
}
}
if ii == 0 || margin < fBestMargin {
iBestDim = ii
fBestMargin = margin
iBestSplit = iBestLeft
}
}
libc.X__builtin___memcpy_chk(tls, pBboxLeft, aCell+uintptr(*(*int32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(aaSorted + uintptr(iBestDim)*8)))))*48, uint64(unsafe.Sizeof(RtreeCell{})), libc.X__builtin_object_size(tls, pBboxLeft, 0))
libc.X__builtin___memcpy_chk(tls, pBboxRight, aCell+uintptr(*(*int32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(aaSorted + uintptr(iBestDim)*8)) + uintptr(iBestSplit)*4)))*48, uint64(unsafe.Sizeof(RtreeCell{})), libc.X__builtin_object_size(tls, pBboxRight, 0))
for ii = 0; ii < nCell; ii++ {
var pTarget uintptr
if ii < iBestSplit {
pTarget = pLeft
} else {
pTarget = pRight
}
var pBbox uintptr
if ii < iBestSplit {
pBbox = pBboxLeft
} else {
pBbox = pBboxRight
}
var pCell uintptr = aCell + uintptr(*(*int32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(aaSorted + uintptr(iBestDim)*8)) + uintptr(ii)*4)))*48
nodeInsertCell(tls, pRtree, pTarget, pCell)
cellUnion(tls, pRtree, pBbox, pCell)
}
Xsqlite3_free(tls, aaSorted)
return SQLITE_OK
}
func updateMapping(tls *libc.TLS, pRtree uintptr, iRowid I64, pNode uintptr, iHeight int32) int32 {
var xSetMapping uintptr
xSetMapping = func() uintptr {
if iHeight == 0 {
return *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, Sqlite3_int64, Sqlite3_int64) int32
}{rowidWrite}))
}
return *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, Sqlite3_int64, Sqlite3_int64) int32
}{parentWrite}))
}()
if iHeight > 0 {
var pChild uintptr = nodeHashLookup(tls, pRtree, iRowid)
var p uintptr
for p = pNode; p != 0; p = (*RtreeNode)(unsafe.Pointer(p)).FpParent {
if p == pChild {
return SQLITE_CORRUPT | int32(1)<<8
}
}
if pChild != 0 {
nodeRelease(tls, pRtree, (*RtreeNode)(unsafe.Pointer(pChild)).FpParent)
nodeReference(tls, pNode)
(*RtreeNode)(unsafe.Pointer(pChild)).FpParent = pNode
}
}
if pNode == uintptr(0) {
return SQLITE_ERROR
}
return (*struct {
f func(*libc.TLS, uintptr, Sqlite3_int64, Sqlite3_int64) int32
})(unsafe.Pointer(&struct{ uintptr }{xSetMapping})).f(tls, pRtree, iRowid, (*RtreeNode)(unsafe.Pointer(pNode)).FiNode)
}
func sSplitNode(tls *libc.TLS, pRtree uintptr, pNode uintptr, pCell uintptr, iHeight int32) int32 {
bp := tls.Alloc(100)
defer tls.Free(100)
var i int32
var newCellIsRight int32
var rc int32
var nCell int32
var aCell uintptr
var aiUsed uintptr
var pLeft uintptr
var pRight uintptr
var pParent uintptr
var iRowid I64
var iRowid1 I64
newCellIsRight = 0
rc = SQLITE_OK
nCell = readInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+2)
pLeft = uintptr(0)
pRight = uintptr(0)
aCell = Xsqlite3_malloc64(tls, (uint64(unsafe.Sizeof(RtreeCell{}))+uint64(unsafe.Sizeof(int32(0))))*uint64(nCell+1))
if !!(aCell != 0) {
goto __1
}
rc = SQLITE_NOMEM
goto splitnode_out
__1:
;
aiUsed = aCell + uintptr(nCell+1)*48
libc.X__builtin___memset_chk(tls, aiUsed, 0, uint64(unsafe.Sizeof(int32(0)))*uint64(nCell+1), libc.X__builtin_object_size(tls, aiUsed, 0))
i = 0
__2:
if !(i < nCell) {
goto __4
}
nodeGetCell(tls, pRtree, pNode, i, aCell+uintptr(i)*48)
goto __3
__3:
i++
goto __2
goto __4
__4:
;
nodeZero(tls, pRtree, pNode)
libc.X__builtin___memcpy_chk(tls, aCell+uintptr(nCell)*48, pCell, uint64(unsafe.Sizeof(RtreeCell{})), libc.X__builtin_object_size(tls, aCell+uintptr(nCell)*48, 0))
nCell++
if !((*RtreeNode)(unsafe.Pointer(pNode)).FiNode == int64(1)) {
goto __5
}
pRight = nodeNew(tls, pRtree, pNode)
pLeft = nodeNew(tls, pRtree, pNode)
(*Rtree)(unsafe.Pointer(pRtree)).FiDepth++
(*RtreeNode)(unsafe.Pointer(pNode)).FisDirty = 1
writeInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData, (*Rtree)(unsafe.Pointer(pRtree)).FiDepth)
goto __6
__5:
pLeft = pNode
pRight = nodeNew(tls, pRtree, (*RtreeNode)(unsafe.Pointer(pLeft)).FpParent)
(*RtreeNode)(unsafe.Pointer(pLeft)).FnRef++
__6:
;
if !(!(pLeft != 0) || !(pRight != 0)) {
goto __7
}
rc = SQLITE_NOMEM
goto splitnode_out
__7:
;
libc.X__builtin___memset_chk(tls, (*RtreeNode)(unsafe.Pointer(pLeft)).FzData, 0, uint64((*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize), libc.X__builtin_object_size(tls, (*RtreeNode)(unsafe.Pointer(pLeft)).FzData, 0))
libc.X__builtin___memset_chk(tls, (*RtreeNode)(unsafe.Pointer(pRight)).FzData, 0, uint64((*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize), libc.X__builtin_object_size(tls, (*RtreeNode)(unsafe.Pointer(pRight)).FzData, 0))
rc = splitNodeStartree(tls, pRtree, aCell, nCell, pLeft, pRight,
bp, bp+48)
if !(rc != SQLITE_OK) {
goto __8
}
goto splitnode_out
__8:
;
if !(SQLITE_OK != libc.AssignInt32(&rc, nodeWrite(tls, pRtree, pRight)) ||
int64(0) == (*RtreeNode)(unsafe.Pointer(pLeft)).FiNode && SQLITE_OK != libc.AssignInt32(&rc, nodeWrite(tls, pRtree, pLeft))) {
goto __9
}
goto splitnode_out
__9:
;
(*RtreeCell)(unsafe.Pointer(bp + 48)).FiRowid = (*RtreeNode)(unsafe.Pointer(pRight)).FiNode
(*RtreeCell)(unsafe.Pointer(bp)).FiRowid = (*RtreeNode)(unsafe.Pointer(pLeft)).FiNode
if !((*RtreeNode)(unsafe.Pointer(pNode)).FiNode == int64(1)) {
goto __10
}
rc = rtreeInsertCell(tls, pRtree, (*RtreeNode)(unsafe.Pointer(pLeft)).FpParent, bp, iHeight+1)
if !(rc != SQLITE_OK) {
goto __12
}
goto splitnode_out
__12:
;
goto __11
__10:
pParent = (*RtreeNode)(unsafe.Pointer(pLeft)).FpParent
rc = nodeParentIndex(tls, pRtree, pLeft, bp+96)
if !(rc == SQLITE_OK) {
goto __13
}
nodeOverwriteCell(tls, pRtree, pParent, bp, *(*int32)(unsafe.Pointer(bp + 96)))
rc = sAdjustTree(tls, pRtree, pParent, bp)
__13:
;
if !(rc != SQLITE_OK) {
goto __14
}
goto splitnode_out
__14:
;
__11:
;
if !(libc.AssignInt32(&rc, rtreeInsertCell(tls, pRtree, (*RtreeNode)(unsafe.Pointer(pRight)).FpParent, bp+48, iHeight+1)) != 0) {
goto __15
}
goto splitnode_out
__15:
;
i = 0
__16:
if !(i < readInt16(tls, (*RtreeNode)(unsafe.Pointer(pRight)).FzData+2)) {
goto __18
}
iRowid = nodeGetRowid(tls, pRtree, pRight, i)
rc = updateMapping(tls, pRtree, iRowid, pRight, iHeight)
if !(iRowid == (*RtreeCell)(unsafe.Pointer(pCell)).FiRowid) {
goto __19
}
newCellIsRight = 1
__19:
;
if !(rc != SQLITE_OK) {
goto __20
}
goto splitnode_out
__20:
;
goto __17
__17:
i++
goto __16
goto __18
__18:
;
if !((*RtreeNode)(unsafe.Pointer(pNode)).FiNode == int64(1)) {
goto __21
}
i = 0
__23:
if !(i < readInt16(tls, (*RtreeNode)(unsafe.Pointer(pLeft)).FzData+2)) {
goto __25
}
iRowid1 = nodeGetRowid(tls, pRtree, pLeft, i)
rc = updateMapping(tls, pRtree, iRowid1, pLeft, iHeight)
if !(rc != SQLITE_OK) {
goto __26
}
goto splitnode_out
__26:
;
goto __24
__24:
i++
goto __23
goto __25
__25:
;
goto __22
__21:
if !(newCellIsRight == 0) {
goto __27
}
rc = updateMapping(tls, pRtree, (*RtreeCell)(unsafe.Pointer(pCell)).FiRowid, pLeft, iHeight)
__27:
;
__22:
;
if !(rc == SQLITE_OK) {
goto __28
}
rc = nodeRelease(tls, pRtree, pRight)
pRight = uintptr(0)
__28:
;
if !(rc == SQLITE_OK) {
goto __29
}
rc = nodeRelease(tls, pRtree, pLeft)
pLeft = uintptr(0)
__29:
;
splitnode_out:
nodeRelease(tls, pRtree, pRight)
nodeRelease(tls, pRtree, pLeft)
Xsqlite3_free(tls, aCell)
return rc
}
func fixLeafParent(tls *libc.TLS, pRtree uintptr, pLeaf uintptr) int32 {
var rc int32 = SQLITE_OK
var pChild uintptr = pLeaf
for rc == SQLITE_OK && (*RtreeNode)(unsafe.Pointer(pChild)).FiNode != int64(1) && (*RtreeNode)(unsafe.Pointer(pChild)).FpParent == uintptr(0) {
var rc2 int32 = SQLITE_OK
Xsqlite3_bind_int64(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadParent, 1, (*RtreeNode)(unsafe.Pointer(pChild)).FiNode)
rc = Xsqlite3_step(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadParent)
if rc == SQLITE_ROW {
var pTest uintptr
var iNode I64
iNode = Xsqlite3_column_int64(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadParent, 0)
for pTest = pLeaf; pTest != 0 && (*RtreeNode)(unsafe.Pointer(pTest)).FiNode != iNode; pTest = (*RtreeNode)(unsafe.Pointer(pTest)).FpParent {
}
if pTest == uintptr(0) {
rc2 = nodeAcquire(tls, pRtree, iNode, uintptr(0), pChild)
}
}
rc = Xsqlite3_reset(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadParent)
if rc == SQLITE_OK {
rc = rc2
}
if rc == SQLITE_OK && !(int32((*RtreeNode)(unsafe.Pointer(pChild)).FpParent) != 0) {
rc = SQLITE_CORRUPT | int32(1)<<8
}
pChild = (*RtreeNode)(unsafe.Pointer(pChild)).FpParent
}
return rc
}
func removeNode(tls *libc.TLS, pRtree uintptr, pNode uintptr, iHeight int32) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32
var rc2 int32
var pParent uintptr = uintptr(0)
rc = nodeParentIndex(tls, pRtree, pNode, bp)
if rc == SQLITE_OK {
pParent = (*RtreeNode)(unsafe.Pointer(pNode)).FpParent
(*RtreeNode)(unsafe.Pointer(pNode)).FpParent = uintptr(0)
rc = deleteCell(tls, pRtree, pParent, *(*int32)(unsafe.Pointer(bp)), iHeight+1)
}
rc2 = nodeRelease(tls, pRtree, pParent)
if rc == SQLITE_OK {
rc = rc2
}
if rc != SQLITE_OK {
return rc
}
Xsqlite3_bind_int64(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpDeleteNode, 1, (*RtreeNode)(unsafe.Pointer(pNode)).FiNode)
Xsqlite3_step(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpDeleteNode)
if SQLITE_OK != libc.AssignInt32(&rc, Xsqlite3_reset(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpDeleteNode)) {
return rc
}
Xsqlite3_bind_int64(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpDeleteParent, 1, (*RtreeNode)(unsafe.Pointer(pNode)).FiNode)
Xsqlite3_step(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpDeleteParent)
if SQLITE_OK != libc.AssignInt32(&rc, Xsqlite3_reset(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpDeleteParent)) {
return rc
}
nodeHashDelete(tls, pRtree, pNode)
(*RtreeNode)(unsafe.Pointer(pNode)).FiNode = I64(iHeight)
(*RtreeNode)(unsafe.Pointer(pNode)).FpNext = (*Rtree)(unsafe.Pointer(pRtree)).FpDeleted
(*RtreeNode)(unsafe.Pointer(pNode)).FnRef++
(*Rtree)(unsafe.Pointer(pRtree)).FpDeleted = pNode
return SQLITE_OK
}
func fixBoundingBox(tls *libc.TLS, pRtree uintptr, pNode uintptr) int32 {
bp := tls.Alloc(100)
defer tls.Free(100)
var pParent uintptr = (*RtreeNode)(unsafe.Pointer(pNode)).FpParent
var rc int32 = SQLITE_OK
if pParent != 0 {
var nCell int32 = readInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+2)
nodeGetCell(tls, pRtree, pNode, 0, bp)
for *(*int32)(unsafe.Pointer(bp + 96)) = 1; *(*int32)(unsafe.Pointer(bp + 96)) < nCell; *(*int32)(unsafe.Pointer(bp + 96))++ {
nodeGetCell(tls, pRtree, pNode, *(*int32)(unsafe.Pointer(bp + 96)), bp+48)
cellUnion(tls, pRtree, bp, bp+48)
}
(*RtreeCell)(unsafe.Pointer(bp)).FiRowid = (*RtreeNode)(unsafe.Pointer(pNode)).FiNode
rc = nodeParentIndex(tls, pRtree, pNode, bp+96)
if rc == SQLITE_OK {
nodeOverwriteCell(tls, pRtree, pParent, bp, *(*int32)(unsafe.Pointer(bp + 96)))
rc = fixBoundingBox(tls, pRtree, pParent)
}
}
return rc
}
func deleteCell(tls *libc.TLS, pRtree uintptr, pNode uintptr, iCell int32, iHeight int32) int32 {
var pParent uintptr
var rc int32
if SQLITE_OK != libc.AssignInt32(&rc, fixLeafParent(tls, pRtree, pNode)) {
return rc
}
nodeDeleteCell(tls, pRtree, pNode, iCell)
pParent = (*RtreeNode)(unsafe.Pointer(pNode)).FpParent
if pParent != 0 {
if readInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+2) < ((*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize-4)/int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)/3 {
rc = removeNode(tls, pRtree, pNode, iHeight)
} else {
rc = fixBoundingBox(tls, pRtree, pNode)
}
}
return rc
}
func sReinsert(tls *libc.TLS, pRtree uintptr, pNode uintptr, pCell uintptr, iHeight int32) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
var aOrder uintptr
var aSpare uintptr
var aCell uintptr
var aDistance uintptr
var nCell int32
var iDim int32
var ii int32
var rc int32 = SQLITE_OK
var n int32
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(RtreeDValue(0)))*uint64(RTREE_MAX_DIMENSIONS), libc.X__builtin_object_size(tls, bp, 0))
nCell = readInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+2) + 1
n = (nCell + 1) & libc.CplInt32(1)
aCell = Xsqlite3_malloc64(tls, uint64(n)*(uint64(unsafe.Sizeof(RtreeCell{}))+uint64(unsafe.Sizeof(int32(0)))+uint64(unsafe.Sizeof(int32(0)))+uint64(unsafe.Sizeof(RtreeDValue(0)))))
if !(aCell != 0) {
return SQLITE_NOMEM
}
aOrder = aCell + uintptr(n)*48
aSpare = aOrder + uintptr(n)*4
aDistance = aSpare + uintptr(n)*4
for ii = 0; ii < nCell; ii++ {
if ii == nCell-1 {
libc.X__builtin___memcpy_chk(tls, aCell+uintptr(ii)*48, pCell, uint64(unsafe.Sizeof(RtreeCell{})), libc.X__builtin_object_size(tls, aCell+uintptr(ii)*48, 0))
} else {
nodeGetCell(tls, pRtree, pNode, ii, aCell+uintptr(ii)*48)
}
*(*int32)(unsafe.Pointer(aOrder + uintptr(ii)*4)) = ii
for iDim = 0; iDim < int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim); iDim++ {
*(*RtreeDValue)(unsafe.Pointer(bp + uintptr(iDim)*8)) += func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(iDim*2)*4)))
}
return float64(*(*int32)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(iDim*2)*4)))
}()
*(*RtreeDValue)(unsafe.Pointer(bp + uintptr(iDim)*8)) += func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(iDim*2+1)*4)))
}
return float64(*(*int32)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(iDim*2+1)*4)))
}()
}
}
for iDim = 0; iDim < int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim); iDim++ {
*(*RtreeDValue)(unsafe.Pointer(bp + uintptr(iDim)*8)) = *(*RtreeDValue)(unsafe.Pointer(bp + uintptr(iDim)*8)) / (float64(nCell) * RtreeDValue(2))
}
for ii = 0; ii < nCell; ii++ {
*(*RtreeDValue)(unsafe.Pointer(aDistance + uintptr(ii)*8)) = 0.0
for iDim = 0; iDim < int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim); iDim++ {
var coord RtreeDValue = func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(iDim*2+1)*4)))
}
return float64(*(*int32)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(iDim*2+1)*4)))
}() - func() float64 {
if int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32 {
return float64(*(*RtreeValue)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(iDim*2)*4)))
}
return float64(*(*int32)(unsafe.Pointer(aCell + uintptr(ii)*48 + 8 + uintptr(iDim*2)*4)))
}()
*(*RtreeDValue)(unsafe.Pointer(aDistance + uintptr(ii)*8)) += (coord - *(*RtreeDValue)(unsafe.Pointer(bp + uintptr(iDim)*8))) * (coord - *(*RtreeDValue)(unsafe.Pointer(bp + uintptr(iDim)*8)))
}
}
sSortByDistance(tls, aOrder, nCell, aDistance, aSpare)
nodeZero(tls, pRtree, pNode)
for ii = 0; rc == SQLITE_OK && ii < nCell-(((*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize-4)/int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)/3+1); ii++ {
var p uintptr = aCell + uintptr(*(*int32)(unsafe.Pointer(aOrder + uintptr(ii)*4)))*48
nodeInsertCell(tls, pRtree, pNode, p)
if (*RtreeCell)(unsafe.Pointer(p)).FiRowid == (*RtreeCell)(unsafe.Pointer(pCell)).FiRowid {
if iHeight == 0 {
rc = rowidWrite(tls, pRtree, (*RtreeCell)(unsafe.Pointer(p)).FiRowid, (*RtreeNode)(unsafe.Pointer(pNode)).FiNode)
} else {
rc = parentWrite(tls, pRtree, (*RtreeCell)(unsafe.Pointer(p)).FiRowid, (*RtreeNode)(unsafe.Pointer(pNode)).FiNode)
}
}
}
if rc == SQLITE_OK {
rc = fixBoundingBox(tls, pRtree, pNode)
}
for ; rc == SQLITE_OK && ii < nCell; ii++ {
var p uintptr = aCell + uintptr(*(*int32)(unsafe.Pointer(aOrder + uintptr(ii)*4)))*48
rc = sChooseLeaf(tls, pRtree, p, iHeight, bp+40)
if rc == SQLITE_OK {
var rc2 int32
rc = rtreeInsertCell(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 40)), p, iHeight)
rc2 = nodeRelease(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 40)))
if rc == SQLITE_OK {
rc = rc2
}
}
}
Xsqlite3_free(tls, aCell)
return rc
}
func rtreeInsertCell(tls *libc.TLS, pRtree uintptr, pNode uintptr, pCell uintptr, iHeight int32) int32 {
var rc int32 = SQLITE_OK
if iHeight > 0 {
var pChild uintptr = nodeHashLookup(tls, pRtree, (*RtreeCell)(unsafe.Pointer(pCell)).FiRowid)
if pChild != 0 {
nodeRelease(tls, pRtree, (*RtreeNode)(unsafe.Pointer(pChild)).FpParent)
nodeReference(tls, pNode)
(*RtreeNode)(unsafe.Pointer(pChild)).FpParent = pNode
}
}
if nodeInsertCell(tls, pRtree, pNode, pCell) != 0 {
if iHeight <= (*Rtree)(unsafe.Pointer(pRtree)).FiReinsertHeight || (*RtreeNode)(unsafe.Pointer(pNode)).FiNode == int64(1) {
rc = sSplitNode(tls, pRtree, pNode, pCell, iHeight)
} else {
(*Rtree)(unsafe.Pointer(pRtree)).FiReinsertHeight = iHeight
rc = sReinsert(tls, pRtree, pNode, pCell, iHeight)
}
} else {
rc = sAdjustTree(tls, pRtree, pNode, pCell)
if rc == SQLITE_OK {
if iHeight == 0 {
rc = rowidWrite(tls, pRtree, (*RtreeCell)(unsafe.Pointer(pCell)).FiRowid, (*RtreeNode)(unsafe.Pointer(pNode)).FiNode)
} else {
rc = parentWrite(tls, pRtree, (*RtreeCell)(unsafe.Pointer(pCell)).FiRowid, (*RtreeNode)(unsafe.Pointer(pNode)).FiNode)
}
}
}
return rc
}
func reinsertNodeContent(tls *libc.TLS, pRtree uintptr, pNode uintptr) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
var ii int32
var rc int32 = SQLITE_OK
var nCell int32 = readInt16(tls, (*RtreeNode)(unsafe.Pointer(pNode)).FzData+2)
for ii = 0; rc == SQLITE_OK && ii < nCell; ii++ {
nodeGetCell(tls, pRtree, pNode, ii, bp)
rc = sChooseLeaf(tls, pRtree, bp, int32((*RtreeNode)(unsafe.Pointer(pNode)).FiNode), bp+48)
if rc == SQLITE_OK {
var rc2 int32
rc = rtreeInsertCell(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 48)), bp, int32((*RtreeNode)(unsafe.Pointer(pNode)).FiNode))
rc2 = nodeRelease(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 48)))
if rc == SQLITE_OK {
rc = rc2
}
}
}
return rc
}
func rtreeNewRowid(tls *libc.TLS, pRtree uintptr, piRowid uintptr) int32 {
var rc int32
Xsqlite3_bind_null(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteRowid, 1)
Xsqlite3_bind_null(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteRowid, 2)
Xsqlite3_step(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteRowid)
rc = Xsqlite3_reset(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpWriteRowid)
*(*I64)(unsafe.Pointer(piRowid)) = Xsqlite3_last_insert_rowid(tls, (*Rtree)(unsafe.Pointer(pRtree)).Fdb)
return rc
}
func rtreeDeleteRowid(tls *libc.TLS, pRtree uintptr, iDelete Sqlite3_int64) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var rc int32
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
rc = nodeAcquire(tls, pRtree, int64(1), uintptr(0), bp)
if rc == SQLITE_OK {
rc = findLeafNode(tls, pRtree, iDelete, bp+8, uintptr(0))
}
if rc == SQLITE_OK && *(*uintptr)(unsafe.Pointer(bp + 8)) != 0 {
var rc2 int32
rc = nodeRowidIndex(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 8)), iDelete, bp+16)
if rc == SQLITE_OK {
rc = deleteCell(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 8)), *(*int32)(unsafe.Pointer(bp + 16)), 0)
}
rc2 = nodeRelease(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 8)))
if rc == SQLITE_OK {
rc = rc2
}
}
if rc == SQLITE_OK {
Xsqlite3_bind_int64(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpDeleteRowid, 1, iDelete)
Xsqlite3_step(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpDeleteRowid)
rc = Xsqlite3_reset(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpDeleteRowid)
}
if rc == SQLITE_OK && (*Rtree)(unsafe.Pointer(pRtree)).FiDepth > 0 && readInt16(tls, (*RtreeNode)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FzData+2) == 1 {
var rc2 int32
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
var iChild I64 = nodeGetRowid(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp)), 0)
rc = nodeAcquire(tls, pRtree, iChild, *(*uintptr)(unsafe.Pointer(bp)), bp+24)
if rc == SQLITE_OK {
rc = removeNode(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 24)), (*Rtree)(unsafe.Pointer(pRtree)).FiDepth-1)
}
rc2 = nodeRelease(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 24)))
if rc == SQLITE_OK {
rc = rc2
}
if rc == SQLITE_OK {
(*Rtree)(unsafe.Pointer(pRtree)).FiDepth--
writeInt16(tls, (*RtreeNode)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FzData, (*Rtree)(unsafe.Pointer(pRtree)).FiDepth)
(*RtreeNode)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FisDirty = 1
}
}
for *(*uintptr)(unsafe.Pointer(bp + 8)) = (*Rtree)(unsafe.Pointer(pRtree)).FpDeleted; *(*uintptr)(unsafe.Pointer(bp + 8)) != 0; *(*uintptr)(unsafe.Pointer(bp + 8)) = (*Rtree)(unsafe.Pointer(pRtree)).FpDeleted {
if rc == SQLITE_OK {
rc = reinsertNodeContent(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
(*Rtree)(unsafe.Pointer(pRtree)).FpDeleted = (*RtreeNode)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FpNext
(*Rtree)(unsafe.Pointer(pRtree)).FnNodeRef--
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
if rc == SQLITE_OK {
rc = nodeRelease(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp)))
} else {
nodeRelease(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp)))
}
return rc
}
func rtreeValueDown(tls *libc.TLS, v uintptr) RtreeValue {
var d float64 = Xsqlite3_value_double(tls, v)
var f float32 = float32(d)
if float64(f) > d {
f = float32(d * func() float64 {
if d < float64(0) {
return float64(1.0) + float64(1.0)/8388608.0
}
return float64(1.0) - float64(1.0)/8388608.0
}())
}
return f
}
func rtreeValueUp(tls *libc.TLS, v uintptr) RtreeValue {
var d float64 = Xsqlite3_value_double(tls, v)
var f float32 = float32(d)
if float64(f) < d {
f = float32(d * func() float64 {
if d < float64(0) {
return float64(1.0) - float64(1.0)/8388608.0
}
return float64(1.0) + float64(1.0)/8388608.0
}())
}
return f
}
func rtreeConstraintError(tls *libc.TLS, pRtree uintptr, iCol int32) int32 {
bp := tls.Alloc(64)
defer tls.Free(64)
*(*uintptr)(unsafe.Pointer(bp + 56)) = uintptr(0)
var zSql uintptr
var rc int32
zSql = Xsqlite3_mprintf(tls, ts+25607, libc.VaList(bp, (*Rtree)(unsafe.Pointer(pRtree)).FzDb, (*Rtree)(unsafe.Pointer(pRtree)).FzName))
if zSql != 0 {
rc = Xsqlite3_prepare_v2(tls, (*Rtree)(unsafe.Pointer(pRtree)).Fdb, zSql, -1, bp+56, uintptr(0))
} else {
rc = SQLITE_NOMEM
}
Xsqlite3_free(tls, zSql)
if rc == SQLITE_OK {
if iCol == 0 {
var zCol uintptr = Xsqlite3_column_name(tls, *(*uintptr)(unsafe.Pointer(bp + 56)), 0)
(*Rtree)(unsafe.Pointer(pRtree)).Fbase.FzErrMsg = Xsqlite3_mprintf(tls,
ts+25627, libc.VaList(bp+16, (*Rtree)(unsafe.Pointer(pRtree)).FzName, zCol))
} else {
var zCol1 uintptr = Xsqlite3_column_name(tls, *(*uintptr)(unsafe.Pointer(bp + 56)), iCol)
var zCol2 uintptr = Xsqlite3_column_name(tls, *(*uintptr)(unsafe.Pointer(bp + 56)), iCol+1)
(*Rtree)(unsafe.Pointer(pRtree)).Fbase.FzErrMsg = Xsqlite3_mprintf(tls,
ts+25659, libc.VaList(bp+32, (*Rtree)(unsafe.Pointer(pRtree)).FzName, zCol1, zCol2))
}
}
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 56)))
return func() int32 {
if rc == SQLITE_OK {
return SQLITE_CONSTRAINT
}
return rc
}()
}
func rtreeUpdate(tls *libc.TLS, pVtab uintptr, nData int32, aData uintptr, pRowid uintptr) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
var pRtree uintptr
var rc int32
var bHaveRowid int32
var steprc int32
var ii int32
var nn int32
var rc2 int32
var pUp uintptr
var jj int32
pRtree = pVtab
rc = SQLITE_OK
bHaveRowid = 0
if !((*Rtree)(unsafe.Pointer(pRtree)).FnNodeRef != 0) {
goto __1
}
return SQLITE_LOCKED | int32(2)<<8
__1:
;
rtreeReference(tls, pRtree)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(RtreeCell{})), libc.X__builtin_object_size(tls, bp, 0))
if !(nData > 1) {
goto __2
}
nn = nData - 4
if !(nn > int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2)) {
goto __3
}
nn = int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2)
__3:
;
if !(int32((*Rtree)(unsafe.Pointer(pRtree)).FeCoordType) == RTREE_COORD_REAL32) {
goto __4
}
ii = 0
__6:
if !(ii < nn) {
goto __8
}
*(*RtreeValue)(unsafe.Pointer(bp + 8 + uintptr(ii)*4)) = rtreeValueDown(tls, *(*uintptr)(unsafe.Pointer(aData + uintptr(ii+3)*8)))
*(*RtreeValue)(unsafe.Pointer(bp + 8 + uintptr(ii+1)*4)) = rtreeValueUp(tls, *(*uintptr)(unsafe.Pointer(aData + uintptr(ii+4)*8)))
if !(*(*RtreeValue)(unsafe.Pointer(bp + 8 + uintptr(ii)*4)) > *(*RtreeValue)(unsafe.Pointer(bp + 8 + uintptr(ii+1)*4))) {
goto __9
}
rc = rtreeConstraintError(tls, pRtree, ii+1)
goto constraint
__9:
;
goto __7
__7:
ii = ii + 2
goto __6
goto __8
__8:
;
goto __5
__4:
ii = 0
__10:
if !(ii < nn) {
goto __12
}
*(*int32)(unsafe.Pointer(bp + 8 + uintptr(ii)*4)) = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(aData + uintptr(ii+3)*8)))
*(*int32)(unsafe.Pointer(bp + 8 + uintptr(ii+1)*4)) = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(aData + uintptr(ii+4)*8)))
if !(*(*int32)(unsafe.Pointer(bp + 8 + uintptr(ii)*4)) > *(*int32)(unsafe.Pointer(bp + 8 + uintptr(ii+1)*4))) {
goto __13
}
rc = rtreeConstraintError(tls, pRtree, ii+1)
goto constraint
__13:
;
goto __11
__11:
ii = ii + 2
goto __10
goto __12
__12:
;
__5:
;
if !(Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(aData + 2*8))) != SQLITE_NULL) {
goto __14
}
(*RtreeCell)(unsafe.Pointer(bp)).FiRowid = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(aData + 2*8)))
if !(Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(aData))) == SQLITE_NULL ||
Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(aData))) != (*RtreeCell)(unsafe.Pointer(bp)).FiRowid) {
goto __15
}
Xsqlite3_bind_int64(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadRowid, 1, (*RtreeCell)(unsafe.Pointer(bp)).FiRowid)
steprc = Xsqlite3_step(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadRowid)
rc = Xsqlite3_reset(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadRowid)
if !(SQLITE_ROW == steprc) {
goto __16
}
if !(Xsqlite3_vtab_on_conflict(tls, (*Rtree)(unsafe.Pointer(pRtree)).Fdb) == SQLITE_REPLACE) {
goto __17
}
rc = rtreeDeleteRowid(tls, pRtree, (*RtreeCell)(unsafe.Pointer(bp)).FiRowid)
goto __18
__17:
rc = rtreeConstraintError(tls, pRtree, 0)
goto constraint
__18:
;
__16:
;
__15:
;
bHaveRowid = 1
__14:
;
__2:
;
if !(Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(aData))) != SQLITE_NULL) {
goto __19
}
rc = rtreeDeleteRowid(tls, pRtree, Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(aData))))
__19:
;
if !(rc == SQLITE_OK && nData > 1) {
goto __20
}
*(*uintptr)(unsafe.Pointer(bp + 48)) = uintptr(0)
if !(bHaveRowid == 0) {
goto __21
}
rc = rtreeNewRowid(tls, pRtree, bp)
__21:
;
*(*Sqlite_int64)(unsafe.Pointer(pRowid)) = (*RtreeCell)(unsafe.Pointer(bp)).FiRowid
if !(rc == SQLITE_OK) {
goto __22
}
rc = sChooseLeaf(tls, pRtree, bp, 0, bp+48)
__22:
;
if !(rc == SQLITE_OK) {
goto __23
}
(*Rtree)(unsafe.Pointer(pRtree)).FiReinsertHeight = -1
rc = rtreeInsertCell(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 48)), bp, 0)
rc2 = nodeRelease(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 48)))
if !(rc == SQLITE_OK) {
goto __24
}
rc = rc2
__24:
;
__23:
;
if !(rc == SQLITE_OK && (*Rtree)(unsafe.Pointer(pRtree)).FnAux != 0) {
goto __25
}
pUp = (*Rtree)(unsafe.Pointer(pRtree)).FpWriteAux
Xsqlite3_bind_int64(tls, pUp, 1, *(*Sqlite_int64)(unsafe.Pointer(pRowid)))
jj = 0
__26:
if !(jj < int32((*Rtree)(unsafe.Pointer(pRtree)).FnAux)) {
goto __28
}
Xsqlite3_bind_value(tls, pUp, jj+2, *(*uintptr)(unsafe.Pointer(aData + uintptr(int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2)+3+jj)*8)))
goto __27
__27:
jj++
goto __26
goto __28
__28:
;
Xsqlite3_step(tls, pUp)
rc = Xsqlite3_reset(tls, pUp)
__25:
;
__20:
;
constraint:
rtreeRelease(tls, pRtree)
return rc
}
func rtreeBeginTransaction(tls *libc.TLS, pVtab uintptr) int32 {
var pRtree uintptr = pVtab
(*Rtree)(unsafe.Pointer(pRtree)).FinWrTrans++
return SQLITE_OK
}
func rtreeEndTransaction(tls *libc.TLS, pVtab uintptr) int32 {
var pRtree uintptr = pVtab
(*Rtree)(unsafe.Pointer(pRtree)).FinWrTrans = U8(0)
nodeBlobReset(tls, pRtree)
return SQLITE_OK
}
func rtreeRename(tls *libc.TLS, pVtab uintptr, zNewName uintptr) int32 {
bp := tls.Alloc(72)
defer tls.Free(72)
var pRtree uintptr = pVtab
var rc int32 = SQLITE_NOMEM
var zSql uintptr = Xsqlite3_mprintf(tls,
ts+25696, libc.VaList(bp, (*Rtree)(unsafe.Pointer(pRtree)).FzDb, (*Rtree)(unsafe.Pointer(pRtree)).FzName, zNewName, (*Rtree)(unsafe.Pointer(pRtree)).FzDb, (*Rtree)(unsafe.Pointer(pRtree)).FzName, zNewName, (*Rtree)(unsafe.Pointer(pRtree)).FzDb, (*Rtree)(unsafe.Pointer(pRtree)).FzName, zNewName))
if zSql != 0 {
nodeBlobReset(tls, pRtree)
rc = Xsqlite3_exec(tls, (*Rtree)(unsafe.Pointer(pRtree)).Fdb, zSql, uintptr(0), uintptr(0), uintptr(0))
Xsqlite3_free(tls, zSql)
}
return rc
}
func rtreeSavepoint(tls *libc.TLS, pVtab uintptr, iSavepoint int32) int32 {
var pRtree uintptr = pVtab
var iwt U8 = (*Rtree)(unsafe.Pointer(pRtree)).FinWrTrans
_ = iSavepoint
(*Rtree)(unsafe.Pointer(pRtree)).FinWrTrans = U8(0)
nodeBlobReset(tls, pRtree)
(*Rtree)(unsafe.Pointer(pRtree)).FinWrTrans = iwt
return SQLITE_OK
}
func rtreeQueryStat1(tls *libc.TLS, db uintptr, pRtree uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var zFmt uintptr = ts + 25841
var zSql uintptr
var rc int32
var nRow I64 = int64(RTREE_MIN_ROWEST)
rc = Xsqlite3_table_column_metadata(tls,
db, (*Rtree)(unsafe.Pointer(pRtree)).FzDb, ts+11751, uintptr(0), uintptr(0), uintptr(0), uintptr(0), uintptr(0), uintptr(0))
if rc != SQLITE_OK {
(*Rtree)(unsafe.Pointer(pRtree)).FnRowEst = int64(RTREE_DEFAULT_ROWEST)
if rc == SQLITE_ERROR {
return SQLITE_OK
}
return rc
}
zSql = Xsqlite3_mprintf(tls, zFmt, libc.VaList(bp, (*Rtree)(unsafe.Pointer(pRtree)).FzDb, (*Rtree)(unsafe.Pointer(pRtree)).FzName))
if zSql == uintptr(0) {
rc = SQLITE_NOMEM
} else {
rc = Xsqlite3_prepare_v2(tls, db, zSql, -1, bp+16, uintptr(0))
if rc == SQLITE_OK {
if Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 16))) == SQLITE_ROW {
nRow = Xsqlite3_column_int64(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 0)
}
rc = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
}
Xsqlite3_free(tls, zSql)
}
(*Rtree)(unsafe.Pointer(pRtree)).FnRowEst = func() int64 {
if nRow > int64(RTREE_MIN_ROWEST) {
return nRow
}
return int64(RTREE_MIN_ROWEST)
}()
return rc
}
func rtreeShadowName(tls *libc.TLS, zName uintptr) int32 {
var i uint32
for i = uint32(0); uint64(i) < uint64(unsafe.Sizeof(azName1))/uint64(unsafe.Sizeof(uintptr(0))); i++ {
if Xsqlite3_stricmp(tls, zName, azName1[i]) == 0 {
return 1
}
}
return 0
}
var azName1 = [3]uintptr{
ts + 25897, ts + 5463, ts + 16673,
}
var rtreeModule = Sqlite3_module{
FiVersion: 3,
FxCreate: 0,
FxConnect: 0,
FxBestIndex: 0,
FxDisconnect: 0,
FxDestroy: 0,
FxOpen: 0,
FxClose: 0,
FxFilter: 0,
FxNext: 0,
FxEof: 0,
FxColumn: 0,
FxRowid: 0,
FxUpdate: 0,
FxBegin: 0,
FxSync: 0,
FxCommit: 0,
FxRollback: 0,
FxRename: 0,
FxSavepoint: 0,
FxShadowName: 0,
}
func rtreeSqlInit(tls *libc.TLS, pRtree uintptr, db uintptr, zDb uintptr, zPrefix uintptr, isCreate int32) int32 {
bp := tls.Alloc(232)
defer tls.Free(232)
var rc int32 = SQLITE_OK
var i int32
var f int32 = SQLITE_PREPARE_PERSISTENT | SQLITE_PREPARE_NO_VTAB
(*Rtree)(unsafe.Pointer(pRtree)).Fdb = db
if isCreate != 0 {
var zCreate uintptr
var p uintptr = Xsqlite3_str_new(tls, db)
var ii int32
Xsqlite3_str_appendf(tls, p,
ts+25902,
libc.VaList(bp, zDb, zPrefix))
for ii = 0; ii < int32((*Rtree)(unsafe.Pointer(pRtree)).FnAux); ii++ {
Xsqlite3_str_appendf(tls, p, ts+25964, libc.VaList(bp+16, ii))
}
Xsqlite3_str_appendf(tls, p,
ts+25969,
libc.VaList(bp+24, zDb, zPrefix))
Xsqlite3_str_appendf(tls, p,
ts+26033,
libc.VaList(bp+40, zDb, zPrefix))
Xsqlite3_str_appendf(tls, p,
ts+26103,
libc.VaList(bp+56, zDb, zPrefix, (*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize))
zCreate = Xsqlite3_str_finish(tls, p)
if !(zCreate != 0) {
return SQLITE_NOMEM
}
rc = Xsqlite3_exec(tls, db, zCreate, uintptr(0), uintptr(0), uintptr(0))
Xsqlite3_free(tls, zCreate)
if rc != SQLITE_OK {
return rc
}
}
*(*uintptr)(unsafe.Pointer(bp + 168)) = pRtree + 120
*(*uintptr)(unsafe.Pointer(bp + 168 + 1*8)) = pRtree + 128
*(*uintptr)(unsafe.Pointer(bp + 168 + 2*8)) = pRtree + 136
*(*uintptr)(unsafe.Pointer(bp + 168 + 3*8)) = pRtree + 144
*(*uintptr)(unsafe.Pointer(bp + 168 + 4*8)) = pRtree + 152
*(*uintptr)(unsafe.Pointer(bp + 168 + 5*8)) = pRtree + 160
*(*uintptr)(unsafe.Pointer(bp + 168 + 6*8)) = pRtree + 168
*(*uintptr)(unsafe.Pointer(bp + 168 + 7*8)) = pRtree + 176
rc = rtreeQueryStat1(tls, db, pRtree)
for i = 0; i < N_STATEMENT && rc == SQLITE_OK; i++ {
var zSql uintptr
var zFormat uintptr
if i != 3 || int32((*Rtree)(unsafe.Pointer(pRtree)).FnAux) == 0 {
zFormat = azSql[i]
} else {
zFormat = ts + 26152
}
zSql = Xsqlite3_mprintf(tls, zFormat, libc.VaList(bp+80, zDb, zPrefix))
if zSql != 0 {
rc = Xsqlite3_prepare_v3(tls, db, zSql, -1, uint32(f), *(*uintptr)(unsafe.Pointer(bp + 168 + uintptr(i)*8)), uintptr(0))
} else {
rc = SQLITE_NOMEM
}
Xsqlite3_free(tls, zSql)
}
if (*Rtree)(unsafe.Pointer(pRtree)).FnAux != 0 {
(*Rtree)(unsafe.Pointer(pRtree)).FzReadAuxSql = Xsqlite3_mprintf(tls,
ts+26260,
libc.VaList(bp+96, zDb, zPrefix))
if (*Rtree)(unsafe.Pointer(pRtree)).FzReadAuxSql == uintptr(0) {
rc = SQLITE_NOMEM
} else {
var p uintptr = Xsqlite3_str_new(tls, db)
var ii int32
var zSql uintptr
Xsqlite3_str_appendf(tls, p, ts+26305, libc.VaList(bp+112, zDb, zPrefix))
for ii = 0; ii < int32((*Rtree)(unsafe.Pointer(pRtree)).FnAux); ii++ {
if ii != 0 {
Xsqlite3_str_append(tls, p, ts+13170, 1)
}
if ii < int32((*Rtree)(unsafe.Pointer(pRtree)).FnAuxNotNull) {
Xsqlite3_str_appendf(tls, p, ts+26332, libc.VaList(bp+128, ii, ii+2, ii))
} else {
Xsqlite3_str_appendf(tls, p, ts+26354, libc.VaList(bp+152, ii, ii+2))
}
}
Xsqlite3_str_appendf(tls, p, ts+26362, 0)
zSql = Xsqlite3_str_finish(tls, p)
if zSql == uintptr(0) {
rc = SQLITE_NOMEM
} else {
rc = Xsqlite3_prepare_v3(tls, db, zSql, -1, uint32(f), pRtree+184, uintptr(0))
Xsqlite3_free(tls, zSql)
}
}
}
return rc
}
var azSql = [8]uintptr{
ts + 26378,
ts + 26431,
ts + 26476,
ts + 26528,
ts + 26582,
ts + 26627,
ts + 26685,
ts + 26740,
}
func getIntFromStmt(tls *libc.TLS, db uintptr, zSql uintptr, piVal uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_NOMEM
if zSql != 0 {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
rc = Xsqlite3_prepare_v2(tls, db, zSql, -1, bp, uintptr(0))
if rc == SQLITE_OK {
if SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp))) {
*(*int32)(unsafe.Pointer(piVal)) = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp)), 0)
}
rc = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
}
return rc
}
func getNodeSize(tls *libc.TLS, db uintptr, pRtree uintptr, isCreate int32, pzErr uintptr) int32 {
bp := tls.Alloc(52)
defer tls.Free(52)
var rc int32
var zSql uintptr
if isCreate != 0 {
*(*int32)(unsafe.Pointer(bp + 48)) = 0
zSql = Xsqlite3_mprintf(tls, ts+26787, libc.VaList(bp, (*Rtree)(unsafe.Pointer(pRtree)).FzDb))
rc = getIntFromStmt(tls, db, zSql, bp+48)
if rc == SQLITE_OK {
(*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize = *(*int32)(unsafe.Pointer(bp + 48)) - 64
if 4+int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)*RTREE_MAXCELLS < (*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize {
(*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize = 4 + int32((*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell)*RTREE_MAXCELLS
}
} else {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp+8, Xsqlite3_errmsg(tls, db)))
}
} else {
zSql = Xsqlite3_mprintf(tls,
ts+26807,
libc.VaList(bp+16, (*Rtree)(unsafe.Pointer(pRtree)).FzDb, (*Rtree)(unsafe.Pointer(pRtree)).FzName))
rc = getIntFromStmt(tls, db, zSql, pRtree+32)
if rc != SQLITE_OK {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp+32, Xsqlite3_errmsg(tls, db)))
} else if (*Rtree)(unsafe.Pointer(pRtree)).FiNodeSize < 512-64 {
rc = SQLITE_CORRUPT | int32(1)<<8
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+26864,
libc.VaList(bp+40, (*Rtree)(unsafe.Pointer(pRtree)).FzName))
}
}
Xsqlite3_free(tls, zSql)
return rc
}
func rtreeTokenLength(tls *libc.TLS, z uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
*(*int32)(unsafe.Pointer(bp)) = 0
return Xsqlite3GetToken(tls, z, bp)
}
func rtreeInit(tls *libc.TLS, db uintptr, pAux uintptr, argc int32, argv uintptr, ppVtab uintptr, pzErr uintptr, isCreate int32) int32 {
bp := tls.Alloc(136)
defer tls.Free(136)
var rc int32
var pRtree uintptr
var nDb int32
var nName int32
var eCoordType int32
var pSql uintptr
var zSql uintptr
var ii int32
var iErr int32
var zArg uintptr
rc = SQLITE_OK
eCoordType = func() int32 {
if pAux != 0 {
return RTREE_COORD_INT32
}
return RTREE_COORD_REAL32
}()
ii = 4
*(*[5]uintptr)(unsafe.Pointer(bp + 96)) = [5]uintptr{
uintptr(0),
ts + 26899,
ts + 26942,
ts + 26977,
ts + 27013,
}
if !(argc < 6 || argc > RTREE_MAX_AUX_COLUMN+3) {
goto __1
}
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp, *(*uintptr)(unsafe.Pointer(bp + 96 + uintptr(2+libc.Bool32(argc >= 6))*8))))
return SQLITE_ERROR
__1:
;
Xsqlite3_vtab_config(tls, db, SQLITE_VTAB_CONSTRAINT_SUPPORT, libc.VaList(bp+8, 1))
nDb = int32(libc.Xstrlen(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8))))
nName = int32(libc.Xstrlen(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8))))
pRtree = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(Rtree{}))+uint64(nDb)+uint64(nName)+uint64(2))
if !!(pRtree != 0) {
goto __2
}
return SQLITE_NOMEM
__2:
;
libc.X__builtin___memset_chk(tls, pRtree, 0, uint64(unsafe.Sizeof(Rtree{}))+uint64(nDb)+uint64(nName)+uint64(2), libc.X__builtin_object_size(tls, pRtree, 0))
(*Rtree)(unsafe.Pointer(pRtree)).FnBusy = U32(1)
(*Rtree)(unsafe.Pointer(pRtree)).Fbase.FpModule = uintptr(unsafe.Pointer(&rtreeModule))
(*Rtree)(unsafe.Pointer(pRtree)).FzDb = pRtree + 1*968
(*Rtree)(unsafe.Pointer(pRtree)).FzName = (*Rtree)(unsafe.Pointer(pRtree)).FzDb + uintptr(nDb+1)
(*Rtree)(unsafe.Pointer(pRtree)).FeCoordType = U8(eCoordType)
libc.X__builtin___memcpy_chk(tls, (*Rtree)(unsafe.Pointer(pRtree)).FzDb, *(*uintptr)(unsafe.Pointer(argv + 1*8)), uint64(nDb), libc.X__builtin_object_size(tls, (*Rtree)(unsafe.Pointer(pRtree)).FzDb, 0))
libc.X__builtin___memcpy_chk(tls, (*Rtree)(unsafe.Pointer(pRtree)).FzName, *(*uintptr)(unsafe.Pointer(argv + 2*8)), uint64(nName), libc.X__builtin_object_size(tls, (*Rtree)(unsafe.Pointer(pRtree)).FzName, 0))
pSql = Xsqlite3_str_new(tls, db)
Xsqlite3_str_appendf(tls, pSql, ts+27050,
libc.VaList(bp+16, rtreeTokenLength(tls, *(*uintptr)(unsafe.Pointer(argv + 3*8))), *(*uintptr)(unsafe.Pointer(argv + 3*8))))
ii = 4
__3:
if !(ii < argc) {
goto __5
}
zArg = *(*uintptr)(unsafe.Pointer(argv + uintptr(ii)*8))
if !(int32(*(*int8)(unsafe.Pointer(zArg))) == '+') {
goto __6
}
(*Rtree)(unsafe.Pointer(pRtree)).FnAux++
Xsqlite3_str_appendf(tls, pSql, ts+27074, libc.VaList(bp+32, rtreeTokenLength(tls, zArg+uintptr(1)), zArg+uintptr(1)))
goto __7
__6:
if !(int32((*Rtree)(unsafe.Pointer(pRtree)).FnAux) > 0) {
goto __8
}
goto __5
goto __9
__8:
(*Rtree)(unsafe.Pointer(pRtree)).FnDim2++
Xsqlite3_str_appendf(tls, pSql, azFormat[eCoordType],
libc.VaList(bp+48, rtreeTokenLength(tls, zArg), zArg))
__9:
;
__7:
;
goto __4
__4:
ii++
goto __3
goto __5
__5:
;
Xsqlite3_str_appendf(tls, pSql, ts+27080, 0)
zSql = Xsqlite3_str_finish(tls, pSql)
if !!(zSql != 0) {
goto __10
}
rc = SQLITE_NOMEM
goto __11
__10:
if !(ii < argc) {
goto __12
}
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp+64, *(*uintptr)(unsafe.Pointer(bp + 96 + 4*8))))
rc = SQLITE_ERROR
goto __13
__12:
if !(SQLITE_OK != libc.AssignInt32(&rc, Xsqlite3_declare_vtab(tls, db, zSql))) {
goto __14
}
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp+72, Xsqlite3_errmsg(tls, db)))
__14:
;
__13:
;
__11:
;
Xsqlite3_free(tls, zSql)
if !(rc != 0) {
goto __15
}
goto rtreeInit_fail
__15:
;
(*Rtree)(unsafe.Pointer(pRtree)).FnDim = U8(int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2) / 2)
if !(int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim) < 1) {
goto __16
}
iErr = 2
goto __17
__16:
if !(int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2) > RTREE_MAX_DIMENSIONS*2) {
goto __18
}
iErr = 3
goto __19
__18:
if !(int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2)%2 != 0) {
goto __20
}
iErr = 1
goto __21
__20:
iErr = 0
__21:
;
__19:
;
__17:
;
if !(iErr != 0) {
goto __22
}
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp+80, *(*uintptr)(unsafe.Pointer(bp + 96 + uintptr(iErr)*8))))
goto rtreeInit_fail
__22:
;
(*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell = U8(8 + int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2)*4)
rc = getNodeSize(tls, db, pRtree, isCreate, pzErr)
if !(rc != 0) {
goto __23
}
goto rtreeInit_fail
__23:
;
rc = rtreeSqlInit(tls, pRtree, db, *(*uintptr)(unsafe.Pointer(argv + 1*8)), *(*uintptr)(unsafe.Pointer(argv + 2*8)), isCreate)
if !(rc != 0) {
goto __24
}
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp+88, Xsqlite3_errmsg(tls, db)))
goto rtreeInit_fail
__24:
;
*(*uintptr)(unsafe.Pointer(ppVtab)) = pRtree
return SQLITE_OK
rtreeInit_fail:
if !(rc == SQLITE_OK) {
goto __25
}
rc = SQLITE_ERROR
__25:
;
rtreeRelease(tls, pRtree)
return rc
}
var azFormat = [2]uintptr{ts + 27083, ts + 27094}
func rtreenode(tls *libc.TLS, ctx uintptr, nArg int32, apArg uintptr) {
bp := tls.Alloc(1072)
defer tls.Free(1072)
var ii int32
var nData int32
var errCode int32
var pOut uintptr
_ = nArg
libc.X__builtin___memset_chk(tls, bp+16, 0, uint64(unsafe.Sizeof(RtreeNode{})), libc.X__builtin_object_size(tls, bp+16, 0))
libc.X__builtin___memset_chk(tls, bp+56, 0, uint64(unsafe.Sizeof(Rtree{})), libc.X__builtin_object_size(tls, bp+56, 0))
(*Rtree)(unsafe.Pointer(bp + 56)).FnDim = U8(Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(apArg))))
if int32((*Rtree)(unsafe.Pointer(bp+56)).FnDim) < 1 || int32((*Rtree)(unsafe.Pointer(bp+56)).FnDim) > 5 {
return
}
(*Rtree)(unsafe.Pointer(bp + 56)).FnDim2 = U8(int32((*Rtree)(unsafe.Pointer(bp+56)).FnDim) * 2)
(*Rtree)(unsafe.Pointer(bp + 56)).FnBytesPerCell = U8(8 + 8*int32((*Rtree)(unsafe.Pointer(bp+56)).FnDim))
(*RtreeNode)(unsafe.Pointer(bp + 16)).FzData = Xsqlite3_value_blob(tls, *(*uintptr)(unsafe.Pointer(apArg + 1*8)))
if (*RtreeNode)(unsafe.Pointer(bp+16)).FzData == uintptr(0) {
return
}
nData = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(apArg + 1*8)))
if nData < 4 {
return
}
if nData < readInt16(tls, (*RtreeNode)(unsafe.Pointer(bp+16)).FzData+2)*int32((*Rtree)(unsafe.Pointer(bp+56)).FnBytesPerCell) {
return
}
pOut = Xsqlite3_str_new(tls, uintptr(0))
for ii = 0; ii < readInt16(tls, (*RtreeNode)(unsafe.Pointer(bp+16)).FzData+2); ii++ {
var jj int32
nodeGetCell(tls, bp+56, bp+16, ii, bp+1024)
if ii > 0 {
Xsqlite3_str_append(tls, pOut, ts+11323, 1)
}
Xsqlite3_str_appendf(tls, pOut, ts+27104, libc.VaList(bp, (*RtreeCell)(unsafe.Pointer(bp+1024)).FiRowid))
for jj = 0; jj < int32((*Rtree)(unsafe.Pointer(bp+56)).FnDim2); jj++ {
Xsqlite3_str_appendf(tls, pOut, ts+27110, libc.VaList(bp+8, float64(*(*RtreeValue)(unsafe.Pointer(bp + 1024 + 8 + uintptr(jj)*4)))))
}
Xsqlite3_str_append(tls, pOut, ts+27114, 1)
}
errCode = Xsqlite3_str_errcode(tls, pOut)
Xsqlite3_result_text(tls, ctx, Xsqlite3_str_finish(tls, pOut), -1, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
Xsqlite3_result_error_code(tls, ctx, errCode)
}
func rtreedepth(tls *libc.TLS, ctx uintptr, nArg int32, apArg uintptr) {
_ = nArg
if Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(apArg))) != SQLITE_BLOB ||
Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(apArg))) < 2 {
Xsqlite3_result_error(tls, ctx, ts+27116, -1)
} else {
var zBlob uintptr = Xsqlite3_value_blob(tls, *(*uintptr)(unsafe.Pointer(apArg)))
if zBlob != 0 {
Xsqlite3_result_int(tls, ctx, readInt16(tls, zBlob))
} else {
Xsqlite3_result_error_nomem(tls, ctx)
}
}
}
// Context object passed between the various routines that make up the
// implementation of integrity-check function rtreecheck().
type RtreeCheck1 = struct {
Fdb uintptr
FzDb uintptr
FzTab uintptr
FbInt int32
FnDim int32
FpGetNode uintptr
FaCheckMapping [2]uintptr
FnLeaf int32
FnNonLeaf int32
Frc int32
F__ccgo_pad1 [4]byte
FzReport uintptr
FnErr int32
F__ccgo_pad2 [4]byte
}
// Context object passed between the various routines that make up the
// implementation of integrity-check function rtreecheck().
type RtreeCheck = RtreeCheck1
func rtreeCheckReset(tls *libc.TLS, pCheck uintptr, pStmt uintptr) {
var rc int32 = Xsqlite3_reset(tls, pStmt)
if (*RtreeCheck)(unsafe.Pointer(pCheck)).Frc == SQLITE_OK {
(*RtreeCheck)(unsafe.Pointer(pCheck)).Frc = rc
}
}
func rtreeCheckPrepare(tls *libc.TLS, pCheck uintptr, zFmt uintptr, va uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var ap Va_list
_ = ap
var z uintptr
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
ap = va
z = Xsqlite3_vmprintf(tls, zFmt, ap)
if (*RtreeCheck)(unsafe.Pointer(pCheck)).Frc == SQLITE_OK {
if z == uintptr(0) {
(*RtreeCheck)(unsafe.Pointer(pCheck)).Frc = SQLITE_NOMEM
} else {
(*RtreeCheck)(unsafe.Pointer(pCheck)).Frc = Xsqlite3_prepare_v2(tls, (*RtreeCheck)(unsafe.Pointer(pCheck)).Fdb, z, -1, bp, uintptr(0))
}
}
Xsqlite3_free(tls, z)
_ = ap
return *(*uintptr)(unsafe.Pointer(bp))
}
func rtreeCheckAppendMsg(tls *libc.TLS, pCheck uintptr, zFmt uintptr, va uintptr) {
bp := tls.Alloc(24)
defer tls.Free(24)
var ap Va_list
_ = ap
ap = va
if (*RtreeCheck)(unsafe.Pointer(pCheck)).Frc == SQLITE_OK && (*RtreeCheck)(unsafe.Pointer(pCheck)).FnErr < RTREE_CHECK_MAX_ERROR {
var z uintptr = Xsqlite3_vmprintf(tls, zFmt, ap)
if z == uintptr(0) {
(*RtreeCheck)(unsafe.Pointer(pCheck)).Frc = SQLITE_NOMEM
} else {
(*RtreeCheck)(unsafe.Pointer(pCheck)).FzReport = Xsqlite3_mprintf(tls, ts+27149,
libc.VaList(bp, (*RtreeCheck)(unsafe.Pointer(pCheck)).FzReport, func() uintptr {
if (*RtreeCheck)(unsafe.Pointer(pCheck)).FzReport != 0 {
return ts + 4465
}
return ts + 1547
}(), z))
if (*RtreeCheck)(unsafe.Pointer(pCheck)).FzReport == uintptr(0) {
(*RtreeCheck)(unsafe.Pointer(pCheck)).Frc = SQLITE_NOMEM
}
}
(*RtreeCheck)(unsafe.Pointer(pCheck)).FnErr++
}
_ = ap
}
func rtreeCheckGetNode(tls *libc.TLS, pCheck uintptr, iNode I64, pnNode uintptr) uintptr {
bp := tls.Alloc(24)
defer tls.Free(24)
var pRet uintptr = uintptr(0)
if (*RtreeCheck)(unsafe.Pointer(pCheck)).Frc == SQLITE_OK && (*RtreeCheck)(unsafe.Pointer(pCheck)).FpGetNode == uintptr(0) {
(*RtreeCheck)(unsafe.Pointer(pCheck)).FpGetNode = rtreeCheckPrepare(tls, pCheck,
ts+27156,
libc.VaList(bp, (*RtreeCheck)(unsafe.Pointer(pCheck)).FzDb, (*RtreeCheck)(unsafe.Pointer(pCheck)).FzTab))
}
if (*RtreeCheck)(unsafe.Pointer(pCheck)).Frc == SQLITE_OK {
Xsqlite3_bind_int64(tls, (*RtreeCheck)(unsafe.Pointer(pCheck)).FpGetNode, 1, iNode)
if Xsqlite3_step(tls, (*RtreeCheck)(unsafe.Pointer(pCheck)).FpGetNode) == SQLITE_ROW {
var nNode int32 = Xsqlite3_column_bytes(tls, (*RtreeCheck)(unsafe.Pointer(pCheck)).FpGetNode, 0)
var pNode uintptr = Xsqlite3_column_blob(tls, (*RtreeCheck)(unsafe.Pointer(pCheck)).FpGetNode, 0)
pRet = Xsqlite3_malloc64(tls, uint64(nNode))
if pRet == uintptr(0) {
(*RtreeCheck)(unsafe.Pointer(pCheck)).Frc = SQLITE_NOMEM
} else {
libc.X__builtin___memcpy_chk(tls, pRet, pNode, uint64(nNode), libc.X__builtin_object_size(tls, pRet, 0))
*(*int32)(unsafe.Pointer(pnNode)) = nNode
}
}
rtreeCheckReset(tls, pCheck, (*RtreeCheck)(unsafe.Pointer(pCheck)).FpGetNode)
if (*RtreeCheck)(unsafe.Pointer(pCheck)).Frc == SQLITE_OK && pRet == uintptr(0) {
rtreeCheckAppendMsg(tls, pCheck, ts+27201, libc.VaList(bp+16, iNode))
}
}
return pRet
}
func rtreeCheckMapping(tls *libc.TLS, pCheck uintptr, bLeaf int32, iKey I64, iVal I64) {
bp := tls.Alloc(96)
defer tls.Free(96)
var rc int32
var pStmt uintptr
*(*[2]uintptr)(unsafe.Pointer(bp + 80)) = [2]uintptr{
ts + 27233,
ts + 27287,
}
if *(*uintptr)(unsafe.Pointer(pCheck + 40 + uintptr(bLeaf)*8)) == uintptr(0) {
*(*uintptr)(unsafe.Pointer(pCheck + 40 + uintptr(bLeaf)*8)) = rtreeCheckPrepare(tls, pCheck,
*(*uintptr)(unsafe.Pointer(bp + 80 + uintptr(bLeaf)*8)), libc.VaList(bp, (*RtreeCheck)(unsafe.Pointer(pCheck)).FzDb, (*RtreeCheck)(unsafe.Pointer(pCheck)).FzTab))
}
if (*RtreeCheck)(unsafe.Pointer(pCheck)).Frc != SQLITE_OK {
return
}
pStmt = *(*uintptr)(unsafe.Pointer(pCheck + 40 + uintptr(bLeaf)*8))
Xsqlite3_bind_int64(tls, pStmt, 1, iKey)
rc = Xsqlite3_step(tls, pStmt)
if rc == SQLITE_DONE {
rtreeCheckAppendMsg(tls, pCheck, ts+27335,
libc.VaList(bp+16, iKey, iVal, func() uintptr {
if bLeaf != 0 {
return ts + 27380
}
return ts + 27388
}()))
} else if rc == SQLITE_ROW {
var ii I64 = Xsqlite3_column_int64(tls, pStmt, 0)
if ii != iVal {
rtreeCheckAppendMsg(tls, pCheck,
ts+27397,
libc.VaList(bp+40, iKey, ii, func() uintptr {
if bLeaf != 0 {
return ts + 27380
}
return ts + 27388
}(), iKey, iVal))
}
}
rtreeCheckReset(tls, pCheck, pStmt)
}
func rtreeCheckCellCoord(tls *libc.TLS, pCheck uintptr, iNode I64, iCell int32, pCell uintptr, pParent uintptr) {
bp := tls.Alloc(64)
defer tls.Free(64)
var i int32
for i = 0; i < (*RtreeCheck)(unsafe.Pointer(pCheck)).FnDim; i++ {
readCoord(tls, pCell+uintptr(4*2*i), bp+48)
readCoord(tls, pCell+uintptr(4*(2*i+1)), bp+52)
if func() int32 {
if (*RtreeCheck)(unsafe.Pointer(pCheck)).FbInt != 0 {
return libc.Bool32(*(*int32)(unsafe.Pointer(bp + 48)) > *(*int32)(unsafe.Pointer(bp + 52)))
}
return libc.Bool32(*(*RtreeValue)(unsafe.Pointer(bp + 48)) > *(*RtreeValue)(unsafe.Pointer(bp + 52)))
}() != 0 {
rtreeCheckAppendMsg(tls, pCheck,
ts+27455, libc.VaList(bp, i, iCell, iNode))
}
if pParent != 0 {
readCoord(tls, pParent+uintptr(4*2*i), bp+56)
readCoord(tls, pParent+uintptr(4*(2*i+1)), bp+60)
if func() int32 {
if (*RtreeCheck)(unsafe.Pointer(pCheck)).FbInt != 0 {
return libc.Bool32(*(*int32)(unsafe.Pointer(bp + 48)) < *(*int32)(unsafe.Pointer(bp + 56)))
}
return libc.Bool32(*(*RtreeValue)(unsafe.Pointer(bp + 48)) < *(*RtreeValue)(unsafe.Pointer(bp + 56)))
}() != 0 ||
func() int32 {
if (*RtreeCheck)(unsafe.Pointer(pCheck)).FbInt != 0 {
return libc.Bool32(*(*int32)(unsafe.Pointer(bp + 52)) > *(*int32)(unsafe.Pointer(bp + 60)))
}
return libc.Bool32(*(*RtreeValue)(unsafe.Pointer(bp + 52)) > *(*RtreeValue)(unsafe.Pointer(bp + 60)))
}() != 0 {
rtreeCheckAppendMsg(tls, pCheck,
ts+27503, libc.VaList(bp+24, i, iCell, iNode))
}
}
}
}
func rtreeCheckNode(tls *libc.TLS, pCheck uintptr, iDepth int32, aParent uintptr, iNode I64) {
bp := tls.Alloc(52)
defer tls.Free(52)
var aNode uintptr = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 48)) = 0
aNode = rtreeCheckGetNode(tls, pCheck, iNode, bp+48)
if aNode != 0 {
if *(*int32)(unsafe.Pointer(bp + 48)) < 4 {
rtreeCheckAppendMsg(tls, pCheck,
ts+27570, libc.VaList(bp, iNode, *(*int32)(unsafe.Pointer(bp + 48))))
} else {
var nCell int32
var i int32
if aParent == uintptr(0) {
iDepth = readInt16(tls, aNode)
if iDepth > RTREE_MAX_DEPTH {
rtreeCheckAppendMsg(tls, pCheck, ts+27604, libc.VaList(bp+16, iDepth))
Xsqlite3_free(tls, aNode)
return
}
}
nCell = readInt16(tls, aNode+2)
if 4+nCell*(8+(*RtreeCheck)(unsafe.Pointer(pCheck)).FnDim*2*4) > *(*int32)(unsafe.Pointer(bp + 48)) {
rtreeCheckAppendMsg(tls, pCheck,
ts+27634,
libc.VaList(bp+24, iNode, nCell, *(*int32)(unsafe.Pointer(bp + 48))))
} else {
for i = 0; i < nCell; i++ {
var pCell uintptr = aNode + uintptr(4+i*(8+(*RtreeCheck)(unsafe.Pointer(pCheck)).FnDim*2*4))
var iVal I64 = readInt64(tls, pCell)
rtreeCheckCellCoord(tls, pCheck, iNode, i, pCell+8, aParent)
if iDepth > 0 {
rtreeCheckMapping(tls, pCheck, 0, iVal, iNode)
rtreeCheckNode(tls, pCheck, iDepth-1, pCell+8, iVal)
(*RtreeCheck)(unsafe.Pointer(pCheck)).FnNonLeaf++
} else {
rtreeCheckMapping(tls, pCheck, 1, iVal, iNode)
(*RtreeCheck)(unsafe.Pointer(pCheck)).FnLeaf++
}
}
}
}
Xsqlite3_free(tls, aNode)
}
}
func rtreeCheckCount(tls *libc.TLS, pCheck uintptr, zTbl uintptr, nExpect I64) {
bp := tls.Alloc(48)
defer tls.Free(48)
if (*RtreeCheck)(unsafe.Pointer(pCheck)).Frc == SQLITE_OK {
var pCount uintptr
pCount = rtreeCheckPrepare(tls, pCheck, ts+27689,
libc.VaList(bp, (*RtreeCheck)(unsafe.Pointer(pCheck)).FzDb, (*RtreeCheck)(unsafe.Pointer(pCheck)).FzTab, zTbl))
if pCount != 0 {
if Xsqlite3_step(tls, pCount) == SQLITE_ROW {
var nActual I64 = Xsqlite3_column_int64(tls, pCount, 0)
if nActual != nExpect {
rtreeCheckAppendMsg(tls, pCheck,
ts+27720, libc.VaList(bp+24, zTbl, nExpect, nActual))
}
}
(*RtreeCheck)(unsafe.Pointer(pCheck)).Frc = Xsqlite3_finalize(tls, pCount)
}
}
}
func rtreeCheckTable(tls *libc.TLS, db uintptr, zDb uintptr, zTab uintptr, pzReport uintptr) int32 {
bp := tls.Alloc(120)
defer tls.Free(120)
var pStmt uintptr = uintptr(0)
var bEnd int32 = 0
var nAux int32 = 0
libc.X__builtin___memset_chk(tls, bp+32, 0, uint64(unsafe.Sizeof(RtreeCheck{})), libc.X__builtin_object_size(tls, bp+32, 0))
(*RtreeCheck)(unsafe.Pointer(bp + 32)).Fdb = db
(*RtreeCheck)(unsafe.Pointer(bp + 32)).FzDb = zDb
(*RtreeCheck)(unsafe.Pointer(bp + 32)).FzTab = zTab
if Xsqlite3_get_autocommit(tls, db) != 0 {
(*RtreeCheck)(unsafe.Pointer(bp + 32)).Frc = Xsqlite3_exec(tls, db, ts+14906, uintptr(0), uintptr(0), uintptr(0))
bEnd = 1
}
if (*RtreeCheck)(unsafe.Pointer(bp+32)).Frc == SQLITE_OK {
pStmt = rtreeCheckPrepare(tls, bp+32, ts+27787, libc.VaList(bp, zDb, zTab))
if pStmt != 0 {
nAux = Xsqlite3_column_count(tls, pStmt) - 2
Xsqlite3_finalize(tls, pStmt)
} else if (*RtreeCheck)(unsafe.Pointer(bp+32)).Frc != SQLITE_NOMEM {
(*RtreeCheck)(unsafe.Pointer(bp + 32)).Frc = SQLITE_OK
}
}
pStmt = rtreeCheckPrepare(tls, bp+32, ts+25607, libc.VaList(bp+16, zDb, zTab))
if pStmt != 0 {
var rc int32
(*RtreeCheck)(unsafe.Pointer(bp + 32)).FnDim = (Xsqlite3_column_count(tls, pStmt) - 1 - nAux) / 2
if (*RtreeCheck)(unsafe.Pointer(bp+32)).FnDim < 1 {
rtreeCheckAppendMsg(tls, bp+32, ts+27815, 0)
} else if SQLITE_ROW == Xsqlite3_step(tls, pStmt) {
(*RtreeCheck)(unsafe.Pointer(bp + 32)).FbInt = libc.Bool32(Xsqlite3_column_type(tls, pStmt, 1) == SQLITE_INTEGER)
}
rc = Xsqlite3_finalize(tls, pStmt)
if rc != SQLITE_CORRUPT {
(*RtreeCheck)(unsafe.Pointer(bp + 32)).Frc = rc
}
}
if (*RtreeCheck)(unsafe.Pointer(bp+32)).FnDim >= 1 {
if (*RtreeCheck)(unsafe.Pointer(bp+32)).Frc == SQLITE_OK {
rtreeCheckNode(tls, bp+32, 0, uintptr(0), int64(1))
}
rtreeCheckCount(tls, bp+32, ts+27846, int64((*RtreeCheck)(unsafe.Pointer(bp+32)).FnLeaf))
rtreeCheckCount(tls, bp+32, ts+27853, int64((*RtreeCheck)(unsafe.Pointer(bp+32)).FnNonLeaf))
}
Xsqlite3_finalize(tls, (*RtreeCheck)(unsafe.Pointer(bp+32)).FpGetNode)
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 32 + 40)))
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 32 + 40 + 1*8)))
if bEnd != 0 {
var rc int32 = Xsqlite3_exec(tls, db, ts+27861, uintptr(0), uintptr(0), uintptr(0))
if (*RtreeCheck)(unsafe.Pointer(bp+32)).Frc == SQLITE_OK {
(*RtreeCheck)(unsafe.Pointer(bp + 32)).Frc = rc
}
}
*(*uintptr)(unsafe.Pointer(pzReport)) = (*RtreeCheck)(unsafe.Pointer(bp + 32)).FzReport
return (*RtreeCheck)(unsafe.Pointer(bp + 32)).Frc
}
func rtreecheck(tls *libc.TLS, ctx uintptr, nArg int32, apArg uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
if nArg != 1 && nArg != 2 {
Xsqlite3_result_error(tls, ctx,
ts+27865, -1)
} else {
var rc int32
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var zDb uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(apArg)))
var zTab uintptr
if nArg == 1 {
zTab = zDb
zDb = ts + 6844
} else {
zTab = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(apArg + 1*8)))
}
rc = rtreeCheckTable(tls, Xsqlite3_context_db_handle(tls, ctx), zDb, zTab, bp)
if rc == SQLITE_OK {
Xsqlite3_result_text(tls, ctx, func() uintptr {
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
return *(*uintptr)(unsafe.Pointer(bp))
}
return ts + 18464
}(), -1, libc.UintptrFromInt32(-1))
} else {
Xsqlite3_result_error_code(tls, ctx, rc)
}
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
}
// Datatype for coordinates
type GeoCoord = float32
// Internal representation of a polygon.
//
// The polygon consists of a sequence of vertexes. There is a line
// segment between each pair of vertexes, and one final segment from
// the last vertex back to the first. (This differs from the GeoJSON
// standard in which the final vertex is a repeat of the first.)
//
// The polygon follows the right-hand rule. The area to the right of
// each segment is "outside" and the area to the left is "inside".
//
// The on-disk representation consists of a 4-byte header followed by
// the values. The 4-byte header is:
//
// encoding (1 byte) 0=big-endian, 1=little-endian
// nvertex (3 bytes) Number of vertexes as a big-endian integer
//
// Enough space is allocated for 4 coordinates, to work around over-zealous
// warnings coming from some compiler (notably, clang). In reality, the size
// of each GeoPoly memory allocate is adjusted as necessary so that the
// GeoPoly.a[] array at the end is the appropriate size.
type GeoPoly1 = struct {
FnVertex int32
Fhdr [4]uint8
Fa [8]GeoCoord
}
// Internal representation of a polygon.
//
// The polygon consists of a sequence of vertexes. There is a line
// segment between each pair of vertexes, and one final segment from
// the last vertex back to the first. (This differs from the GeoJSON
// standard in which the final vertex is a repeat of the first.)
//
// The polygon follows the right-hand rule. The area to the right of
// each segment is "outside" and the area to the left is "inside".
//
// The on-disk representation consists of a 4-byte header followed by
// the values. The 4-byte header is:
//
// encoding (1 byte) 0=big-endian, 1=little-endian
// nvertex (3 bytes) Number of vertexes as a big-endian integer
//
// Enough space is allocated for 4 coordinates, to work around over-zealous
// warnings coming from some compiler (notably, clang). In reality, the size
// of each GeoPoly memory allocate is adjusted as necessary so that the
// GeoPoly.a[] array at the end is the appropriate size.
type GeoPoly = GeoPoly1
// State of a parse of a GeoJSON input.
type GeoParse1 = struct {
Fz uintptr
FnVertex int32
FnAlloc int32
FnErr int32
F__ccgo_pad1 [4]byte
Fa uintptr
}
// State of a parse of a GeoJSON input.
type GeoParse = GeoParse1
func geopolySwab32(tls *libc.TLS, a uintptr) {
var t uint8 = *(*uint8)(unsafe.Pointer(a))
*(*uint8)(unsafe.Pointer(a)) = *(*uint8)(unsafe.Pointer(a + 3))
*(*uint8)(unsafe.Pointer(a + 3)) = t
t = *(*uint8)(unsafe.Pointer(a + 1))
*(*uint8)(unsafe.Pointer(a + 1)) = *(*uint8)(unsafe.Pointer(a + 2))
*(*uint8)(unsafe.Pointer(a + 2)) = t
}
func geopolySkipSpace(tls *libc.TLS, p uintptr) int8 {
for jsonIsSpace[*(*uint8)(unsafe.Pointer((*GeoParse)(unsafe.Pointer(p)).Fz))] != 0 {
(*GeoParse)(unsafe.Pointer(p)).Fz++
}
return int8(*(*uint8)(unsafe.Pointer((*GeoParse)(unsafe.Pointer(p)).Fz)))
}
func geopolyParseNumber(tls *libc.TLS, p uintptr, pVal uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var c int8 = geopolySkipSpace(tls, p)
var z uintptr = (*GeoParse)(unsafe.Pointer(p)).Fz
var j int32 = 0
var seenDP int32 = 0
var seenE int32 = 0
if int32(c) == '-' {
j = 1
c = int8(*(*uint8)(unsafe.Pointer(z + uintptr(j))))
}
if int32(c) == '0' && int32(*(*uint8)(unsafe.Pointer(z + uintptr(j+1)))) >= '0' && int32(*(*uint8)(unsafe.Pointer(z + uintptr(j+1)))) <= '9' {
return 0
}
for ; ; j++ {
c = int8(*(*uint8)(unsafe.Pointer(z + uintptr(j))))
if int32(Xsqlite3CtypeMap[uint8(c)])&0x04 != 0 {
continue
}
if int32(c) == '.' {
if int32(*(*uint8)(unsafe.Pointer(z + uintptr(j-1)))) == '-' {
return 0
}
if seenDP != 0 {
return 0
}
seenDP = 1
continue
}
if int32(c) == 'e' || int32(c) == 'E' {
if int32(*(*uint8)(unsafe.Pointer(z + uintptr(j-1)))) < '0' {
return 0
}
if seenE != 0 {
return -1
}
seenDP = libc.AssignInt32(&seenE, 1)
c = int8(*(*uint8)(unsafe.Pointer(z + uintptr(j+1))))
if int32(c) == '+' || int32(c) == '-' {
j++
c = int8(*(*uint8)(unsafe.Pointer(z + uintptr(j+1))))
}
if int32(c) < '0' || int32(c) > '9' {
return 0
}
continue
}
break
}
if int32(*(*uint8)(unsafe.Pointer(z + uintptr(j-1)))) < '0' {
return 0
}
if pVal != 0 {
Xsqlite3AtoF(tls, (*GeoParse)(unsafe.Pointer(p)).Fz, bp, j, uint8(SQLITE_UTF8))
*(*GeoCoord)(unsafe.Pointer(pVal)) = GeoCoord(*(*float64)(unsafe.Pointer(bp)))
}
*(*uintptr)(unsafe.Pointer(p)) += uintptr(j)
return 1
}
func geopolyParseJson(tls *libc.TLS, z uintptr, pRc uintptr) uintptr {
bp := tls.Alloc(36)
defer tls.Free(36)
var rc int32
var aNew uintptr
var ii int32
var c int8
var pOut uintptr
rc = SQLITE_OK
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(GeoParse{})), libc.X__builtin_object_size(tls, bp, 0))
(*GeoParse)(unsafe.Pointer(bp)).Fz = z
if !(int32(geopolySkipSpace(tls, bp)) == '[') {
goto __1
}
(*GeoParse)(unsafe.Pointer(bp)).Fz++
__2:
if !(int32(geopolySkipSpace(tls, bp)) == '[') {
goto __3
}
ii = 0
(*GeoParse)(unsafe.Pointer(bp)).Fz++
if !((*GeoParse)(unsafe.Pointer(bp)).FnVertex >= (*GeoParse)(unsafe.Pointer(bp)).FnAlloc) {
goto __4
}
(*GeoParse)(unsafe.Pointer(bp)).FnAlloc = (*GeoParse)(unsafe.Pointer(bp)).FnAlloc*2 + 16
aNew = Xsqlite3_realloc64(tls, (*GeoParse)(unsafe.Pointer(bp)).Fa, uint64((*GeoParse)(unsafe.Pointer(bp)).FnAlloc)*uint64(unsafe.Sizeof(GeoCoord(0)))*uint64(2))
if !(aNew == uintptr(0)) {
goto __5
}
rc = SQLITE_NOMEM
(*GeoParse)(unsafe.Pointer(bp)).FnErr++
goto __3
__5:
;
(*GeoParse)(unsafe.Pointer(bp)).Fa = aNew
__4:
;
__6:
if !(geopolyParseNumber(tls, bp, func() uintptr {
if ii <= 1 {
return (*GeoParse)(unsafe.Pointer(bp)).Fa + uintptr((*GeoParse)(unsafe.Pointer(bp)).FnVertex*2+ii)*4
}
return uintptr(0)
}()) != 0) {
goto __7
}
ii++
if !(ii == 2) {
goto __8
}
(*GeoParse)(unsafe.Pointer(bp)).FnVertex++
__8:
;
c = geopolySkipSpace(tls, bp)
(*GeoParse)(unsafe.Pointer(bp)).Fz++
if !(int32(c) == ',') {
goto __9
}
goto __6
__9:
;
if !(int32(c) == ']' && ii >= 2) {
goto __10
}
goto __7
__10:
;
(*GeoParse)(unsafe.Pointer(bp)).FnErr++
rc = SQLITE_ERROR
goto parse_json_err
goto __6
__7:
;
if !(int32(geopolySkipSpace(tls, bp)) == ',') {
goto __11
}
(*GeoParse)(unsafe.Pointer(bp)).Fz++
goto __2
__11:
;
goto __3
goto __2
__3:
;
if !(int32(geopolySkipSpace(tls, bp)) == ']' &&
(*GeoParse)(unsafe.Pointer(bp)).FnVertex >= 4 &&
*(*GeoCoord)(unsafe.Pointer((*GeoParse)(unsafe.Pointer(bp)).Fa)) == *(*GeoCoord)(unsafe.Pointer((*GeoParse)(unsafe.Pointer(bp)).Fa + uintptr((*GeoParse)(unsafe.Pointer(bp)).FnVertex*2-2)*4)) &&
*(*GeoCoord)(unsafe.Pointer((*GeoParse)(unsafe.Pointer(bp)).Fa + 1*4)) == *(*GeoCoord)(unsafe.Pointer((*GeoParse)(unsafe.Pointer(bp)).Fa + uintptr((*GeoParse)(unsafe.Pointer(bp)).FnVertex*2-1)*4)) &&
func() bool { (*GeoParse)(unsafe.Pointer(bp)).Fz++; return int32(geopolySkipSpace(tls, bp)) == 0 }()) {
goto __12
}
*(*int32)(unsafe.Pointer(bp + 32)) = 1
(*GeoParse)(unsafe.Pointer(bp)).FnVertex--
pOut = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(GeoPoly{}))+uint64(unsafe.Sizeof(GeoCoord(0)))*uint64(2)*uint64(Sqlite3_int64((*GeoParse)(unsafe.Pointer(bp)).FnVertex)-int64(4)))
*(*int32)(unsafe.Pointer(bp + 32)) = 1
if !(pOut == uintptr(0)) {
goto __14
}
goto parse_json_err
__14:
;
(*GeoPoly)(unsafe.Pointer(pOut)).FnVertex = (*GeoParse)(unsafe.Pointer(bp)).FnVertex
libc.X__builtin___memcpy_chk(tls, pOut+8, (*GeoParse)(unsafe.Pointer(bp)).Fa, uint64((*GeoParse)(unsafe.Pointer(bp)).FnVertex*2)*uint64(unsafe.Sizeof(GeoCoord(0))), libc.X__builtin_object_size(tls, pOut+8, 0))
*(*uint8)(unsafe.Pointer(pOut + 4)) = *(*uint8)(unsafe.Pointer(bp + 32))
*(*uint8)(unsafe.Pointer(pOut + 4 + 1)) = uint8((*GeoParse)(unsafe.Pointer(bp)).FnVertex >> 16 & 0xff)
*(*uint8)(unsafe.Pointer(pOut + 4 + 2)) = uint8((*GeoParse)(unsafe.Pointer(bp)).FnVertex >> 8 & 0xff)
*(*uint8)(unsafe.Pointer(pOut + 4 + 3)) = uint8((*GeoParse)(unsafe.Pointer(bp)).FnVertex & 0xff)
Xsqlite3_free(tls, (*GeoParse)(unsafe.Pointer(bp)).Fa)
if !(pRc != 0) {
goto __15
}
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_OK
__15:
;
return pOut
goto __13
__12:
(*GeoParse)(unsafe.Pointer(bp)).FnErr++
rc = SQLITE_ERROR
__13:
;
__1:
;
parse_json_err:
if !(pRc != 0) {
goto __16
}
*(*int32)(unsafe.Pointer(pRc)) = rc
__16:
;
Xsqlite3_free(tls, (*GeoParse)(unsafe.Pointer(bp)).Fa)
return uintptr(0)
}
func geopolyFuncParam(tls *libc.TLS, pCtx uintptr, pVal uintptr, pRc uintptr) uintptr {
bp := tls.Alloc(4)
defer tls.Free(4)
var p uintptr = uintptr(0)
var nByte int32
if Xsqlite3_value_type(tls, pVal) == SQLITE_BLOB &&
libc.AssignInt32(&nByte, Xsqlite3_value_bytes(tls, pVal)) >= int32(uint64(4)+uint64(6)*uint64(unsafe.Sizeof(GeoCoord(0)))) {
var a uintptr = Xsqlite3_value_blob(tls, pVal)
var nVertex int32
if a == uintptr(0) {
if pCtx != 0 {
Xsqlite3_result_error_nomem(tls, pCtx)
}
return uintptr(0)
}
nVertex = int32(*(*uint8)(unsafe.Pointer(a + 1)))<<16 + int32(*(*uint8)(unsafe.Pointer(a + 2)))<<8 + int32(*(*uint8)(unsafe.Pointer(a + 3)))
if (int32(*(*uint8)(unsafe.Pointer(a))) == 0 || int32(*(*uint8)(unsafe.Pointer(a))) == 1) &&
uint64(nVertex*2)*uint64(unsafe.Sizeof(GeoCoord(0)))+uint64(4) == uint64(uint32(nByte)) {
p = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(GeoPoly{}))+uint64((nVertex-1)*2)*uint64(unsafe.Sizeof(GeoCoord(0))))
if p == uintptr(0) {
if pRc != 0 {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
}
if pCtx != 0 {
Xsqlite3_result_error_nomem(tls, pCtx)
}
} else {
*(*int32)(unsafe.Pointer(bp)) = 1
(*GeoPoly)(unsafe.Pointer(p)).FnVertex = nVertex
libc.X__builtin___memcpy_chk(tls, p+4, a, uint64(nByte), libc.X__builtin_object_size(tls, p+4, 0))
if int32(*(*uint8)(unsafe.Pointer(a))) != int32(*(*uint8)(unsafe.Pointer(bp))) {
var ii int32
for ii = 0; ii < nVertex; ii++ {
geopolySwab32(tls, p+8+uintptr(ii*2)*4)
geopolySwab32(tls, p+8+uintptr(ii*2+1)*4)
}
*(*uint8)(unsafe.Pointer(p + 4)) ^= uint8(1)
}
}
}
if pRc != 0 {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_OK
}
return p
} else if Xsqlite3_value_type(tls, pVal) == SQLITE_TEXT {
var zJson uintptr = Xsqlite3_value_text(tls, pVal)
if zJson == uintptr(0) {
if pRc != 0 {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
}
return uintptr(0)
}
return geopolyParseJson(tls, zJson, pRc)
} else {
if pRc != 0 {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_ERROR
}
return uintptr(0)
}
return uintptr(0)
}
func geopolyBlobFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var p uintptr = geopolyFuncParam(tls, context, *(*uintptr)(unsafe.Pointer(argv)), uintptr(0))
_ = argc
if p != 0 {
Xsqlite3_result_blob(tls, context, p+4,
4+8*(*GeoPoly)(unsafe.Pointer(p)).FnVertex, libc.UintptrFromInt32(-1))
Xsqlite3_free(tls, p)
}
}
func geopolyJsonFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(32)
defer tls.Free(32)
var p uintptr = geopolyFuncParam(tls, context, *(*uintptr)(unsafe.Pointer(argv)), uintptr(0))
_ = argc
if p != 0 {
var db uintptr = Xsqlite3_context_db_handle(tls, context)
var x uintptr = Xsqlite3_str_new(tls, db)
var i int32
Xsqlite3_str_append(tls, x, ts+27916, 1)
for i = 0; i < (*GeoPoly)(unsafe.Pointer(p)).FnVertex; i++ {
Xsqlite3_str_appendf(tls, x, ts+27918, libc.VaList(bp, float64(*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(i*2)*4))), float64(*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(i*2+1)*4)))))
}
Xsqlite3_str_appendf(tls, x, ts+27929, libc.VaList(bp+16, float64(*(*GeoCoord)(unsafe.Pointer(p + 8))), float64(*(*GeoCoord)(unsafe.Pointer(p + 8 + 1*4)))))
Xsqlite3_result_text(tls, context, Xsqlite3_str_finish(tls, x), -1, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
Xsqlite3_free(tls, p)
}
}
func geopolySvgFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
var p uintptr
if argc < 1 {
return
}
p = geopolyFuncParam(tls, context, *(*uintptr)(unsafe.Pointer(argv)), uintptr(0))
if p != 0 {
var db uintptr = Xsqlite3_context_db_handle(tls, context)
var x uintptr = Xsqlite3_str_new(tls, db)
var i int32
var cSep int8 = int8('\'')
Xsqlite3_str_appendf(tls, x, ts+27940, 0)
for i = 0; i < (*GeoPoly)(unsafe.Pointer(p)).FnVertex; i++ {
Xsqlite3_str_appendf(tls, x, ts+27958, libc.VaList(bp, int32(cSep), float64(*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(i*2)*4))), float64(*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(i*2+1)*4)))))
cSep = int8(' ')
}
Xsqlite3_str_appendf(tls, x, ts+27966, libc.VaList(bp+24, float64(*(*GeoCoord)(unsafe.Pointer(p + 8))), float64(*(*GeoCoord)(unsafe.Pointer(p + 8 + 1*4)))))
for i = 1; i < argc; i++ {
var z uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv + uintptr(i)*8)))
if z != 0 && *(*int8)(unsafe.Pointer(z)) != 0 {
Xsqlite3_str_appendf(tls, x, ts+27974, libc.VaList(bp+40, z))
}
}
Xsqlite3_str_appendf(tls, x, ts+27978, 0)
Xsqlite3_result_text(tls, context, Xsqlite3_str_finish(tls, x), -1, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
Xsqlite3_free(tls, p)
}
}
func geopolyXformFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var p uintptr = geopolyFuncParam(tls, context, *(*uintptr)(unsafe.Pointer(argv)), uintptr(0))
var A float64 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
var B float64 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8)))
var C float64 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv + 3*8)))
var D float64 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv + 4*8)))
var E float64 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv + 5*8)))
var F float64 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv + 6*8)))
var x1 GeoCoord
var y1 GeoCoord
var x0 GeoCoord
var y0 GeoCoord
var ii int32
_ = argc
if p != 0 {
for ii = 0; ii < (*GeoPoly)(unsafe.Pointer(p)).FnVertex; ii++ {
x0 = *(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(ii*2)*4))
y0 = *(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(ii*2+1)*4))
x1 = GeoCoord(A*float64(x0) + B*float64(y0) + E)
y1 = GeoCoord(C*float64(x0) + D*float64(y0) + F)
*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(ii*2)*4)) = x1
*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(ii*2+1)*4)) = y1
}
Xsqlite3_result_blob(tls, context, p+4,
4+8*(*GeoPoly)(unsafe.Pointer(p)).FnVertex, libc.UintptrFromInt32(-1))
Xsqlite3_free(tls, p)
}
}
func geopolyArea(tls *libc.TLS, p uintptr) float64 {
var rArea float64 = 0.0
var ii int32
for ii = 0; ii < (*GeoPoly)(unsafe.Pointer(p)).FnVertex-1; ii++ {
rArea = rArea + float64((*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(ii*2)*4))-*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr((ii+1)*2)*4)))*
(*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(ii*2+1)*4))+*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr((ii+1)*2+1)*4))))*
0.5
}
rArea = rArea + float64((*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(ii*2)*4))-*(*GeoCoord)(unsafe.Pointer(p + 8)))*
(*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(ii*2+1)*4))+*(*GeoCoord)(unsafe.Pointer(p + 8 + 1*4))))*
0.5
return rArea
}
func geopolyAreaFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var p uintptr = geopolyFuncParam(tls, context, *(*uintptr)(unsafe.Pointer(argv)), uintptr(0))
_ = argc
if p != 0 {
Xsqlite3_result_double(tls, context, geopolyArea(tls, p))
Xsqlite3_free(tls, p)
}
}
func geopolyCcwFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var p uintptr = geopolyFuncParam(tls, context, *(*uintptr)(unsafe.Pointer(argv)), uintptr(0))
_ = argc
if p != 0 {
if geopolyArea(tls, p) < 0.0 {
var ii int32
var jj int32
ii = 1
jj = (*GeoPoly)(unsafe.Pointer(p)).FnVertex - 1
__1:
if !(ii < jj) {
goto __3
}
{
var t GeoCoord = *(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(ii*2)*4))
*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(ii*2)*4)) = *(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(jj*2)*4))
*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(jj*2)*4)) = t
t = *(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(ii*2+1)*4))
*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(ii*2+1)*4)) = *(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(jj*2+1)*4))
*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(jj*2+1)*4)) = t
}
goto __2
__2:
ii++
jj--
goto __1
goto __3
__3:
}
Xsqlite3_result_blob(tls, context, p+4,
4+8*(*GeoPoly)(unsafe.Pointer(p)).FnVertex, libc.UintptrFromInt32(-1))
Xsqlite3_free(tls, p)
}
}
func geopolySine(tls *libc.TLS, r float64) float64 {
if r >= float64(1.5)*3.1415926535897932385 {
r = r - float64(2.0)*3.1415926535897932385
}
if r >= float64(0.5)*3.1415926535897932385 {
return -geopolySine(tls, r-3.1415926535897932385)
} else {
var r2 float64 = r * r
var r3 float64 = r2 * r
var r5 float64 = r3 * r2
return 0.9996949*r - 0.1656700*r3 + 0.0075134*r5
}
return float64(0)
}
func geopolyRegularFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(4)
defer tls.Free(4)
var x float64 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv)))
var y float64 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
var r float64 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8)))
var n int32 = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 3*8)))
var p uintptr
_ = argc
if n < 3 || r <= 0.0 {
return
}
if n > 1000 {
n = 1000
}
p = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(GeoPoly{}))+uint64((n-1)*2)*uint64(unsafe.Sizeof(GeoCoord(0))))
if p == uintptr(0) {
Xsqlite3_result_error_nomem(tls, context)
return
}
*(*int32)(unsafe.Pointer(bp)) = 1
*(*uint8)(unsafe.Pointer(p + 4)) = *(*uint8)(unsafe.Pointer(bp))
*(*uint8)(unsafe.Pointer(p + 4 + 1)) = uint8(0)
*(*uint8)(unsafe.Pointer(p + 4 + 2)) = uint8(n >> 8 & 0xff)
*(*uint8)(unsafe.Pointer(p + 4 + 3)) = uint8(n & 0xff)
for *(*int32)(unsafe.Pointer(bp)) = 0; *(*int32)(unsafe.Pointer(bp)) < n; *(*int32)(unsafe.Pointer(bp))++ {
var rAngle float64 = float64(2.0) * 3.1415926535897932385 * float64(*(*int32)(unsafe.Pointer(bp))) / float64(n)
*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(*(*int32)(unsafe.Pointer(bp))*2)*4)) = GeoCoord(x - r*geopolySine(tls, rAngle-float64(0.5)*3.1415926535897932385))
*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(*(*int32)(unsafe.Pointer(bp))*2+1)*4)) = GeoCoord(y + r*geopolySine(tls, rAngle))
}
Xsqlite3_result_blob(tls, context, p+4, 4+8*n, libc.UintptrFromInt32(-1))
Xsqlite3_free(tls, p)
}
func geopolyBBox(tls *libc.TLS, context uintptr, pPoly uintptr, aCoord uintptr, pRc uintptr) uintptr {
bp := tls.Alloc(4)
defer tls.Free(4)
var pOut uintptr
var p uintptr
var mnX float32
var mxX float32
var mnY float32
var mxY float32
var r float64
pOut = uintptr(0)
if !(pPoly == uintptr(0) && aCoord != uintptr(0)) {
goto __1
}
p = uintptr(0)
mnX = *(*RtreeValue)(unsafe.Pointer(aCoord))
mxX = *(*RtreeValue)(unsafe.Pointer(aCoord + 1*4))
mnY = *(*RtreeValue)(unsafe.Pointer(aCoord + 2*4))
mxY = *(*RtreeValue)(unsafe.Pointer(aCoord + 3*4))
goto geopolyBboxFill
goto __2
__1:
p = geopolyFuncParam(tls, context, pPoly, pRc)
__2:
;
if !(p != 0) {
goto __3
}
mnX = libc.AssignFloat32(&mxX, *(*GeoCoord)(unsafe.Pointer(p + 8)))
mnY = libc.AssignFloat32(&mxY, *(*GeoCoord)(unsafe.Pointer(p + 8 + 1*4)))
*(*int32)(unsafe.Pointer(bp)) = 1
__5:
if !(*(*int32)(unsafe.Pointer(bp)) < (*GeoPoly)(unsafe.Pointer(p)).FnVertex) {
goto __7
}
r = float64(*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(*(*int32)(unsafe.Pointer(bp))*2)*4)))
if !(r < float64(mnX)) {
goto __8
}
mnX = float32(r)
goto __9
__8:
if !(r > float64(mxX)) {
goto __10
}
mxX = float32(r)
__10:
;
__9:
;
r = float64(*(*GeoCoord)(unsafe.Pointer(p + 8 + uintptr(*(*int32)(unsafe.Pointer(bp))*2+1)*4)))
if !(r < float64(mnY)) {
goto __11
}
mnY = float32(r)
goto __12
__11:
if !(r > float64(mxY)) {
goto __13
}
mxY = float32(r)
__13:
;
__12:
;
goto __6
__6:
*(*int32)(unsafe.Pointer(bp))++
goto __5
goto __7
__7:
;
if !(pRc != 0) {
goto __14
}
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_OK
__14:
;
if !(aCoord == uintptr(0)) {
goto __15
}
geopolyBboxFill:
pOut = Xsqlite3_realloc64(tls, p, uint64(unsafe.Sizeof(GeoPoly{}))+uint64(unsafe.Sizeof(GeoCoord(0)))*uint64(2)*uint64(4-4))
if !(pOut == uintptr(0)) {
goto __17
}
Xsqlite3_free(tls, p)
if !(context != 0) {
goto __18
}
Xsqlite3_result_error_nomem(tls, context)
__18:
;
if !(pRc != 0) {
goto __19
}
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
__19:
;
return uintptr(0)
__17:
;
(*GeoPoly)(unsafe.Pointer(pOut)).FnVertex = 4
*(*int32)(unsafe.Pointer(bp)) = 1
*(*uint8)(unsafe.Pointer(pOut + 4)) = *(*uint8)(unsafe.Pointer(bp))
*(*uint8)(unsafe.Pointer(pOut + 4 + 1)) = uint8(0)
*(*uint8)(unsafe.Pointer(pOut + 4 + 2)) = uint8(0)
*(*uint8)(unsafe.Pointer(pOut + 4 + 3)) = uint8(4)
*(*GeoCoord)(unsafe.Pointer(pOut + 8)) = mnX
*(*GeoCoord)(unsafe.Pointer(pOut + 8 + 1*4)) = mnY
*(*GeoCoord)(unsafe.Pointer(pOut + 8 + 2*4)) = mxX
*(*GeoCoord)(unsafe.Pointer(pOut + 8 + 3*4)) = mnY
*(*GeoCoord)(unsafe.Pointer(pOut + 8 + 4*4)) = mxX
*(*GeoCoord)(unsafe.Pointer(pOut + 8 + 5*4)) = mxY
*(*GeoCoord)(unsafe.Pointer(pOut + 8 + 6*4)) = mnX
*(*GeoCoord)(unsafe.Pointer(pOut + 8 + 7*4)) = mxY
goto __16
__15:
Xsqlite3_free(tls, p)
*(*RtreeValue)(unsafe.Pointer(aCoord)) = mnX
*(*RtreeValue)(unsafe.Pointer(aCoord + 1*4)) = mxX
*(*RtreeValue)(unsafe.Pointer(aCoord + 2*4)) = mnY
*(*RtreeValue)(unsafe.Pointer(aCoord + 3*4)) = mxY
__16:
;
goto __4
__3:
if !(aCoord != 0) {
goto __20
}
libc.X__builtin___memset_chk(tls, aCoord, 0, uint64(unsafe.Sizeof(RtreeCoord{}))*uint64(4), libc.X__builtin_object_size(tls, aCoord, 0))
__20:
;
__4:
;
return pOut
}
func geopolyBBoxFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var p uintptr = geopolyBBox(tls, context, *(*uintptr)(unsafe.Pointer(argv)), uintptr(0), uintptr(0))
_ = argc
if p != 0 {
Xsqlite3_result_blob(tls, context, p+4,
4+8*(*GeoPoly)(unsafe.Pointer(p)).FnVertex, libc.UintptrFromInt32(-1))
Xsqlite3_free(tls, p)
}
}
// State vector for the geopoly_group_bbox() aggregate function.
type GeoBBox1 = struct {
FisInit int32
Fa [4]RtreeCoord
}
// State vector for the geopoly_group_bbox() aggregate function.
type GeoBBox = GeoBBox1
func geopolyBBoxStep(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(20)
defer tls.Free(20)
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_OK
_ = argc
geopolyBBox(tls, context, *(*uintptr)(unsafe.Pointer(argv)), bp, bp+16)
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
var pBBox uintptr
pBBox = Xsqlite3_aggregate_context(tls, context, int32(unsafe.Sizeof(GeoBBox{})))
if pBBox == uintptr(0) {
return
}
if (*GeoBBox)(unsafe.Pointer(pBBox)).FisInit == 0 {
(*GeoBBox)(unsafe.Pointer(pBBox)).FisInit = 1
libc.X__builtin___memcpy_chk(tls, pBBox+4, bp, uint64(unsafe.Sizeof(RtreeCoord{}))*uint64(4), libc.X__builtin_object_size(tls, pBBox+4, 0))
} else {
if *(*RtreeValue)(unsafe.Pointer(bp)) < *(*RtreeValue)(unsafe.Pointer(pBBox + 4)) {
*(*RtreeCoord)(unsafe.Pointer(pBBox + 4)) = *(*RtreeCoord)(unsafe.Pointer(bp))
}
if *(*RtreeValue)(unsafe.Pointer(bp + 1*4)) > *(*RtreeValue)(unsafe.Pointer(pBBox + 4 + 1*4)) {
*(*RtreeCoord)(unsafe.Pointer(pBBox + 4 + 1*4)) = *(*RtreeCoord)(unsafe.Pointer(bp + 1*4))
}
if *(*RtreeValue)(unsafe.Pointer(bp + 2*4)) < *(*RtreeValue)(unsafe.Pointer(pBBox + 4 + 2*4)) {
*(*RtreeCoord)(unsafe.Pointer(pBBox + 4 + 2*4)) = *(*RtreeCoord)(unsafe.Pointer(bp + 2*4))
}
if *(*RtreeValue)(unsafe.Pointer(bp + 3*4)) > *(*RtreeValue)(unsafe.Pointer(pBBox + 4 + 3*4)) {
*(*RtreeCoord)(unsafe.Pointer(pBBox + 4 + 3*4)) = *(*RtreeCoord)(unsafe.Pointer(bp + 3*4))
}
}
}
}
func geopolyBBoxFinal(tls *libc.TLS, context uintptr) {
var p uintptr
var pBBox uintptr
pBBox = Xsqlite3_aggregate_context(tls, context, 0)
if pBBox == uintptr(0) {
return
}
p = geopolyBBox(tls, context, uintptr(0), pBBox+4, uintptr(0))
if p != 0 {
Xsqlite3_result_blob(tls, context, p+4,
4+8*(*GeoPoly)(unsafe.Pointer(p)).FnVertex, libc.UintptrFromInt32(-1))
Xsqlite3_free(tls, p)
}
}
func pointBeneathLine(tls *libc.TLS, x0 float64, y0 float64, x1 float64, y1 float64, x2 float64, y2 float64) int32 {
var y float64
if x0 == x1 && y0 == y1 {
return 2
}
if x1 < x2 {
if x0 <= x1 || x0 > x2 {
return 0
}
} else if x1 > x2 {
if x0 <= x2 || x0 > x1 {
return 0
}
} else {
if x0 != x1 {
return 0
}
if y0 < y1 && y0 < y2 {
return 0
}
if y0 > y1 && y0 > y2 {
return 0
}
return 2
}
y = y1 + (y2-y1)*(x0-x1)/(x2-x1)
if y0 == y {
return 2
}
if y0 < y {
return 1
}
return 0
}
func geopolyContainsPointFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var p1 uintptr = geopolyFuncParam(tls, context, *(*uintptr)(unsafe.Pointer(argv)), uintptr(0))
var x0 float64 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
var y0 float64 = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8)))
var v int32 = 0
var cnt int32 = 0
var ii int32
_ = argc
if p1 == uintptr(0) {
return
}
for ii = 0; ii < (*GeoPoly)(unsafe.Pointer(p1)).FnVertex-1; ii++ {
v = pointBeneathLine(tls, x0, y0, float64(*(*GeoCoord)(unsafe.Pointer(p1 + 8 + uintptr(ii*2)*4))), float64(*(*GeoCoord)(unsafe.Pointer(p1 + 8 + uintptr(ii*2+1)*4))),
float64(*(*GeoCoord)(unsafe.Pointer(p1 + 8 + uintptr((ii+1)*2)*4))), float64(*(*GeoCoord)(unsafe.Pointer(p1 + 8 + uintptr((ii+1)*2+1)*4))))
if v == 2 {
break
}
cnt = cnt + v
}
if v != 2 {
v = pointBeneathLine(tls, x0, y0, float64(*(*GeoCoord)(unsafe.Pointer(p1 + 8 + uintptr(ii*2)*4))), float64(*(*GeoCoord)(unsafe.Pointer(p1 + 8 + uintptr(ii*2+1)*4))),
float64(*(*GeoCoord)(unsafe.Pointer(p1 + 8))), float64(*(*GeoCoord)(unsafe.Pointer(p1 + 8 + 1*4))))
}
if v == 2 {
Xsqlite3_result_int(tls, context, 1)
} else if (v+cnt)&1 == 0 {
Xsqlite3_result_int(tls, context, 0)
} else {
Xsqlite3_result_int(tls, context, 2)
}
Xsqlite3_free(tls, p1)
}
func geopolyWithinFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var p1 uintptr = geopolyFuncParam(tls, context, *(*uintptr)(unsafe.Pointer(argv)), uintptr(0))
var p2 uintptr = geopolyFuncParam(tls, context, *(*uintptr)(unsafe.Pointer(argv + 1*8)), uintptr(0))
_ = argc
if p1 != 0 && p2 != 0 {
var x int32 = geopolyOverlap(tls, p1, p2)
if x < 0 {
Xsqlite3_result_error_nomem(tls, context)
} else {
Xsqlite3_result_int(tls, context, func() int32 {
if x == 2 {
return 1
}
return func() int32 {
if x == 4 {
return 2
}
return 0
}()
}())
}
}
Xsqlite3_free(tls, p1)
Xsqlite3_free(tls, p2)
}
// Objects used by the overlap algorihm.
type GeoEvent1 = struct {
Fx float64
FeType int32
F__ccgo_pad1 [4]byte
FpSeg uintptr
FpNext uintptr
}
// Objects used by the overlap algorihm.
type GeoEvent = GeoEvent1
type GeoSegment1 = struct {
FC float64
FB float64
Fy float64
Fy0 float32
Fside uint8
F__ccgo_pad1 [3]byte
Fidx uint32
F__ccgo_pad2 [4]byte
FpNext uintptr
}
type GeoSegment = GeoSegment1
type GeoOverlap1 = struct {
FaEvent uintptr
FaSegment uintptr
FnEvent int32
FnSegment int32
}
type GeoOverlap = GeoOverlap1
func geopolyAddOneSegment(tls *libc.TLS, p uintptr, x0 GeoCoord, y0 GeoCoord, x1 GeoCoord, y1 GeoCoord, side uint8, idx uint32) {
var pSeg uintptr
var pEvent uintptr
if x0 == x1 {
return
}
if x0 > x1 {
var t GeoCoord = x0
x0 = x1
x1 = t
t = y0
y0 = y1
y1 = t
}
pSeg = (*GeoOverlap)(unsafe.Pointer(p)).FaSegment + uintptr((*GeoOverlap)(unsafe.Pointer(p)).FnSegment)*48
(*GeoOverlap)(unsafe.Pointer(p)).FnSegment++
(*GeoSegment)(unsafe.Pointer(pSeg)).FC = float64((y1 - y0) / (x1 - x0))
(*GeoSegment)(unsafe.Pointer(pSeg)).FB = float64(y1) - float64(x1)*(*GeoSegment)(unsafe.Pointer(pSeg)).FC
(*GeoSegment)(unsafe.Pointer(pSeg)).Fy0 = y0
(*GeoSegment)(unsafe.Pointer(pSeg)).Fside = side
(*GeoSegment)(unsafe.Pointer(pSeg)).Fidx = idx
pEvent = (*GeoOverlap)(unsafe.Pointer(p)).FaEvent + uintptr((*GeoOverlap)(unsafe.Pointer(p)).FnEvent)*32
(*GeoOverlap)(unsafe.Pointer(p)).FnEvent++
(*GeoEvent)(unsafe.Pointer(pEvent)).Fx = float64(x0)
(*GeoEvent)(unsafe.Pointer(pEvent)).FeType = 0
(*GeoEvent)(unsafe.Pointer(pEvent)).FpSeg = pSeg
pEvent = (*GeoOverlap)(unsafe.Pointer(p)).FaEvent + uintptr((*GeoOverlap)(unsafe.Pointer(p)).FnEvent)*32
(*GeoOverlap)(unsafe.Pointer(p)).FnEvent++
(*GeoEvent)(unsafe.Pointer(pEvent)).Fx = float64(x1)
(*GeoEvent)(unsafe.Pointer(pEvent)).FeType = 1
(*GeoEvent)(unsafe.Pointer(pEvent)).FpSeg = pSeg
}
func geopolyAddSegments(tls *libc.TLS, p uintptr, pPoly uintptr, side uint8) {
var i uint32
var x uintptr
for i = uint32(0); i < uint32((*GeoPoly)(unsafe.Pointer(pPoly)).FnVertex)-uint32(1); i++ {
x = pPoly + 8 + uintptr(i*uint32(2))*4
geopolyAddOneSegment(tls, p, *(*GeoCoord)(unsafe.Pointer(x)), *(*GeoCoord)(unsafe.Pointer(x + 1*4)), *(*GeoCoord)(unsafe.Pointer(x + 2*4)), *(*GeoCoord)(unsafe.Pointer(x + 3*4)), side, i)
}
x = pPoly + 8 + uintptr(i*uint32(2))*4
geopolyAddOneSegment(tls, p, *(*GeoCoord)(unsafe.Pointer(x)), *(*GeoCoord)(unsafe.Pointer(x + 1*4)), *(*GeoCoord)(unsafe.Pointer(pPoly + 8)), *(*GeoCoord)(unsafe.Pointer(pPoly + 8 + 1*4)), side, i)
}
func geopolyEventMerge(tls *libc.TLS, pLeft uintptr, pRight uintptr) uintptr {
bp := tls.Alloc(32)
defer tls.Free(32)
var pLast uintptr
(*GeoEvent)(unsafe.Pointer(bp)).FpNext = uintptr(0)
pLast = bp
for pRight != 0 && pLeft != 0 {
if (*GeoEvent)(unsafe.Pointer(pRight)).Fx <= (*GeoEvent)(unsafe.Pointer(pLeft)).Fx {
(*GeoEvent)(unsafe.Pointer(pLast)).FpNext = pRight
pLast = pRight
pRight = (*GeoEvent)(unsafe.Pointer(pRight)).FpNext
} else {
(*GeoEvent)(unsafe.Pointer(pLast)).FpNext = pLeft
pLast = pLeft
pLeft = (*GeoEvent)(unsafe.Pointer(pLeft)).FpNext
}
}
(*GeoEvent)(unsafe.Pointer(pLast)).FpNext = func() uintptr {
if pRight != 0 {
return pRight
}
return pLeft
}()
return (*GeoEvent)(unsafe.Pointer(bp)).FpNext
}
func geopolySortEventsByX(tls *libc.TLS, aEvent uintptr, nEvent int32) uintptr {
bp := tls.Alloc(400)
defer tls.Free(400)
var mx int32 = 0
var i int32
var j int32
var p uintptr
for i = 0; i < nEvent; i++ {
p = aEvent + uintptr(i)*32
(*GeoEvent)(unsafe.Pointer(p)).FpNext = uintptr(0)
for j = 0; j < mx && *(*uintptr)(unsafe.Pointer(bp + uintptr(j)*8)) != 0; j++ {
p = geopolyEventMerge(tls, *(*uintptr)(unsafe.Pointer(bp + uintptr(j)*8)), p)
*(*uintptr)(unsafe.Pointer(bp + uintptr(j)*8)) = uintptr(0)
}
*(*uintptr)(unsafe.Pointer(bp + uintptr(j)*8)) = p
if j >= mx {
mx = j + 1
}
}
p = uintptr(0)
for i = 0; i < mx; i++ {
p = geopolyEventMerge(tls, *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)), p)
}
return p
}
func geopolySegmentMerge(tls *libc.TLS, pLeft uintptr, pRight uintptr) uintptr {
bp := tls.Alloc(48)
defer tls.Free(48)
var pLast uintptr
(*GeoSegment)(unsafe.Pointer(bp)).FpNext = uintptr(0)
pLast = bp
for pRight != 0 && pLeft != 0 {
var r float64 = (*GeoSegment)(unsafe.Pointer(pRight)).Fy - (*GeoSegment)(unsafe.Pointer(pLeft)).Fy
if r == 0.0 {
r = (*GeoSegment)(unsafe.Pointer(pRight)).FC - (*GeoSegment)(unsafe.Pointer(pLeft)).FC
}
if r < 0.0 {
(*GeoSegment)(unsafe.Pointer(pLast)).FpNext = pRight
pLast = pRight
pRight = (*GeoSegment)(unsafe.Pointer(pRight)).FpNext
} else {
(*GeoSegment)(unsafe.Pointer(pLast)).FpNext = pLeft
pLast = pLeft
pLeft = (*GeoSegment)(unsafe.Pointer(pLeft)).FpNext
}
}
(*GeoSegment)(unsafe.Pointer(pLast)).FpNext = func() uintptr {
if pRight != 0 {
return pRight
}
return pLeft
}()
return (*GeoSegment)(unsafe.Pointer(bp)).FpNext
}
func geopolySortSegmentsByYAndC(tls *libc.TLS, pList uintptr) uintptr {
bp := tls.Alloc(400)
defer tls.Free(400)
var mx int32 = 0
var i int32
var p uintptr
for pList != 0 {
p = pList
pList = (*GeoSegment)(unsafe.Pointer(pList)).FpNext
(*GeoSegment)(unsafe.Pointer(p)).FpNext = uintptr(0)
for i = 0; i < mx && *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) != 0; i++ {
p = geopolySegmentMerge(tls, *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)), p)
*(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) = uintptr(0)
}
*(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)) = p
if i >= mx {
mx = i + 1
}
}
p = uintptr(0)
for i = 0; i < mx; i++ {
p = geopolySegmentMerge(tls, *(*uintptr)(unsafe.Pointer(bp + uintptr(i)*8)), p)
}
return p
}
func geopolyOverlap(tls *libc.TLS, p1 uintptr, p2 uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var nVertex Sqlite3_int64
var p uintptr
var nByte Sqlite3_int64
var pThisEvent uintptr
var rX float64
var rc int32
var needSort int32
var pActive uintptr
var pSeg uintptr
var y float64
var pPrev uintptr
var iMask int32
nVertex = Sqlite3_int64((*GeoPoly)(unsafe.Pointer(p1)).FnVertex + (*GeoPoly)(unsafe.Pointer(p2)).FnVertex + 2)
rc = 0
needSort = 0
pActive = uintptr(0)
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(GeoEvent{}))*uint64(nVertex)*uint64(2) +
uint64(unsafe.Sizeof(GeoSegment{}))*uint64(nVertex) +
uint64(unsafe.Sizeof(GeoOverlap{})))
p = Xsqlite3_malloc64(tls, uint64(nByte))
if !(p == uintptr(0)) {
goto __1
}
return -1
__1:
;
(*GeoOverlap)(unsafe.Pointer(p)).FaEvent = p + 1*24
(*GeoOverlap)(unsafe.Pointer(p)).FaSegment = (*GeoOverlap)(unsafe.Pointer(p)).FaEvent + uintptr(nVertex*int64(2))*32
(*GeoOverlap)(unsafe.Pointer(p)).FnEvent = libc.AssignPtrInt32(p+20, 0)
geopolyAddSegments(tls, p, p1, uint8(1))
geopolyAddSegments(tls, p, p2, uint8(2))
pThisEvent = geopolySortEventsByX(tls, (*GeoOverlap)(unsafe.Pointer(p)).FaEvent, (*GeoOverlap)(unsafe.Pointer(p)).FnEvent)
if pThisEvent != 0 && (*GeoEvent)(unsafe.Pointer(pThisEvent)).Fx == 0.0 {
rX = -1.0
} else {
rX = 0.0
}
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof([4]uint8{})), libc.X__builtin_object_size(tls, bp, 0))
__2:
if !(pThisEvent != 0) {
goto __3
}
if !((*GeoEvent)(unsafe.Pointer(pThisEvent)).Fx != rX) {
goto __4
}
pPrev = uintptr(0)
iMask = 0
rX = (*GeoEvent)(unsafe.Pointer(pThisEvent)).Fx
if !(needSort != 0) {
goto __5
}
pActive = geopolySortSegmentsByYAndC(tls, pActive)
needSort = 0
__5:
;
pSeg = pActive
__6:
if !(pSeg != 0) {
goto __8
}
if !(pPrev != 0) {
goto __9
}
if !((*GeoSegment)(unsafe.Pointer(pPrev)).Fy != (*GeoSegment)(unsafe.Pointer(pSeg)).Fy) {
goto __10
}
*(*uint8)(unsafe.Pointer(bp + uintptr(iMask))) = uint8(1)
__10:
;
__9:
;
iMask = iMask ^ int32((*GeoSegment)(unsafe.Pointer(pSeg)).Fside)
pPrev = pSeg
goto __7
__7:
pSeg = (*GeoSegment)(unsafe.Pointer(pSeg)).FpNext
goto __6
goto __8
__8:
;
pPrev = uintptr(0)
pSeg = pActive
__11:
if !(pSeg != 0) {
goto __13
}
y = (*GeoSegment)(unsafe.Pointer(pSeg)).FC*rX + (*GeoSegment)(unsafe.Pointer(pSeg)).FB
(*GeoSegment)(unsafe.Pointer(pSeg)).Fy = y
if !(pPrev != 0) {
goto __14
}
if !((*GeoSegment)(unsafe.Pointer(pPrev)).Fy > (*GeoSegment)(unsafe.Pointer(pSeg)).Fy && int32((*GeoSegment)(unsafe.Pointer(pPrev)).Fside) != int32((*GeoSegment)(unsafe.Pointer(pSeg)).Fside)) {
goto __15
}
rc = 1
goto geopolyOverlapDone
goto __16
__15:
if !((*GeoSegment)(unsafe.Pointer(pPrev)).Fy != (*GeoSegment)(unsafe.Pointer(pSeg)).Fy) {
goto __17
}
*(*uint8)(unsafe.Pointer(bp + uintptr(iMask))) = uint8(1)
__17:
;
__16:
;
__14:
;
iMask = iMask ^ int32((*GeoSegment)(unsafe.Pointer(pSeg)).Fside)
pPrev = pSeg
goto __12
__12:
pSeg = (*GeoSegment)(unsafe.Pointer(pSeg)).FpNext
goto __11
goto __13
__13:
;
__4:
;
if !((*GeoEvent)(unsafe.Pointer(pThisEvent)).FeType == 0) {
goto __18
}
pSeg = (*GeoEvent)(unsafe.Pointer(pThisEvent)).FpSeg
(*GeoSegment)(unsafe.Pointer(pSeg)).Fy = float64((*GeoSegment)(unsafe.Pointer(pSeg)).Fy0)
(*GeoSegment)(unsafe.Pointer(pSeg)).FpNext = pActive
pActive = pSeg
needSort = 1
goto __19
__18:
if !(pActive == (*GeoEvent)(unsafe.Pointer(pThisEvent)).FpSeg) {
goto __20
}
if pActive != 0 {
pActive = (*GeoSegment)(unsafe.Pointer(pActive)).FpNext
} else {
pActive = uintptr(0)
}
goto __21
__20:
pSeg = pActive
__22:
if !(pSeg != 0) {
goto __24
}
if !((*GeoSegment)(unsafe.Pointer(pSeg)).FpNext == (*GeoEvent)(unsafe.Pointer(pThisEvent)).FpSeg) {
goto __25
}
(*GeoSegment)(unsafe.Pointer(pSeg)).FpNext = func() uintptr {
if (*GeoSegment)(unsafe.Pointer(pSeg)).FpNext != 0 {
return (*GeoSegment)(unsafe.Pointer((*GeoSegment)(unsafe.Pointer(pSeg)).FpNext)).FpNext
}
return uintptr(0)
}()
goto __24
__25:
;
goto __23
__23:
pSeg = (*GeoSegment)(unsafe.Pointer(pSeg)).FpNext
goto __22
goto __24
__24:
;
__21:
;
__19:
;
pThisEvent = (*GeoEvent)(unsafe.Pointer(pThisEvent)).FpNext
goto __2
__3:
;
if !(int32(*(*uint8)(unsafe.Pointer(bp + 3))) == 0) {
goto __26
}
rc = 0
goto __27
__26:
if !(int32(*(*uint8)(unsafe.Pointer(bp + 1))) != 0 && int32(*(*uint8)(unsafe.Pointer(bp + 2))) == 0) {
goto __28
}
rc = 3
goto __29
__28:
if !(int32(*(*uint8)(unsafe.Pointer(bp + 1))) == 0 && int32(*(*uint8)(unsafe.Pointer(bp + 2))) != 0) {
goto __30
}
rc = 2
goto __31
__30:
if !(int32(*(*uint8)(unsafe.Pointer(bp + 1))) == 0 && int32(*(*uint8)(unsafe.Pointer(bp + 2))) == 0) {
goto __32
}
rc = 4
goto __33
__32:
rc = 1
__33:
;
__31:
;
__29:
;
__27:
;
geopolyOverlapDone:
Xsqlite3_free(tls, p)
return rc
}
func geopolyOverlapFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var p1 uintptr = geopolyFuncParam(tls, context, *(*uintptr)(unsafe.Pointer(argv)), uintptr(0))
var p2 uintptr = geopolyFuncParam(tls, context, *(*uintptr)(unsafe.Pointer(argv + 1*8)), uintptr(0))
_ = argc
if p1 != 0 && p2 != 0 {
var x int32 = geopolyOverlap(tls, p1, p2)
if x < 0 {
Xsqlite3_result_error_nomem(tls, context)
} else {
Xsqlite3_result_int(tls, context, x)
}
}
Xsqlite3_free(tls, p1)
Xsqlite3_free(tls, p2)
}
func geopolyDebugFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
_ = context
_ = argc
_ = argv
}
func geopolyInit(tls *libc.TLS, db uintptr, pAux uintptr, argc int32, argv uintptr, ppVtab uintptr, pzErr uintptr, isCreate int32) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var rc int32
var pRtree uintptr
var nDb Sqlite3_int64
var nName Sqlite3_int64
var pSql uintptr
var zSql uintptr
var ii int32
rc = SQLITE_OK
_ = pAux
Xsqlite3_vtab_config(tls, db, SQLITE_VTAB_CONSTRAINT_SUPPORT, libc.VaList(bp, 1))
nDb = Sqlite3_int64(libc.Xstrlen(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8))))
nName = Sqlite3_int64(libc.Xstrlen(tls, *(*uintptr)(unsafe.Pointer(argv + 2*8))))
pRtree = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(Rtree{}))+uint64(nDb)+uint64(nName)+uint64(2))
if !!(pRtree != 0) {
goto __1
}
return SQLITE_NOMEM
__1:
;
libc.X__builtin___memset_chk(tls, pRtree, 0, uint64(unsafe.Sizeof(Rtree{}))+uint64(nDb)+uint64(nName)+uint64(2), libc.X__builtin_object_size(tls, pRtree, 0))
(*Rtree)(unsafe.Pointer(pRtree)).FnBusy = U32(1)
(*Rtree)(unsafe.Pointer(pRtree)).Fbase.FpModule = uintptr(unsafe.Pointer(&rtreeModule))
(*Rtree)(unsafe.Pointer(pRtree)).FzDb = pRtree + 1*968
(*Rtree)(unsafe.Pointer(pRtree)).FzName = (*Rtree)(unsafe.Pointer(pRtree)).FzDb + uintptr(nDb+int64(1))
(*Rtree)(unsafe.Pointer(pRtree)).FeCoordType = U8(RTREE_COORD_REAL32)
(*Rtree)(unsafe.Pointer(pRtree)).FnDim = U8(2)
(*Rtree)(unsafe.Pointer(pRtree)).FnDim2 = U8(4)
libc.X__builtin___memcpy_chk(tls, (*Rtree)(unsafe.Pointer(pRtree)).FzDb, *(*uintptr)(unsafe.Pointer(argv + 1*8)), uint64(nDb), libc.X__builtin_object_size(tls, (*Rtree)(unsafe.Pointer(pRtree)).FzDb, 0))
libc.X__builtin___memcpy_chk(tls, (*Rtree)(unsafe.Pointer(pRtree)).FzName, *(*uintptr)(unsafe.Pointer(argv + 2*8)), uint64(nName), libc.X__builtin_object_size(tls, (*Rtree)(unsafe.Pointer(pRtree)).FzName, 0))
pSql = Xsqlite3_str_new(tls, db)
Xsqlite3_str_appendf(tls, pSql, ts+27991, 0)
(*Rtree)(unsafe.Pointer(pRtree)).FnAux = U8(1)
(*Rtree)(unsafe.Pointer(pRtree)).FnAuxNotNull = U8(1)
ii = 3
__2:
if !(ii < argc) {
goto __4
}
(*Rtree)(unsafe.Pointer(pRtree)).FnAux++
Xsqlite3_str_appendf(tls, pSql, ts+28013, libc.VaList(bp+8, *(*uintptr)(unsafe.Pointer(argv + uintptr(ii)*8))))
goto __3
__3:
ii++
goto __2
goto __4
__4:
;
Xsqlite3_str_appendf(tls, pSql, ts+27080, 0)
zSql = Xsqlite3_str_finish(tls, pSql)
if !!(zSql != 0) {
goto __5
}
rc = SQLITE_NOMEM
goto __6
__5:
if !(SQLITE_OK != libc.AssignInt32(&rc, Xsqlite3_declare_vtab(tls, db, zSql))) {
goto __7
}
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp+16, Xsqlite3_errmsg(tls, db)))
__7:
;
__6:
;
Xsqlite3_free(tls, zSql)
if !(rc != 0) {
goto __8
}
goto geopolyInit_fail
__8:
;
(*Rtree)(unsafe.Pointer(pRtree)).FnBytesPerCell = U8(8 + int32((*Rtree)(unsafe.Pointer(pRtree)).FnDim2)*4)
rc = getNodeSize(tls, db, pRtree, isCreate, pzErr)
if !(rc != 0) {
goto __9
}
goto geopolyInit_fail
__9:
;
rc = rtreeSqlInit(tls, pRtree, db, *(*uintptr)(unsafe.Pointer(argv + 1*8)), *(*uintptr)(unsafe.Pointer(argv + 2*8)), isCreate)
if !(rc != 0) {
goto __10
}
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp+24, Xsqlite3_errmsg(tls, db)))
goto geopolyInit_fail
__10:
;
*(*uintptr)(unsafe.Pointer(ppVtab)) = pRtree
return SQLITE_OK
geopolyInit_fail:
if !(rc == SQLITE_OK) {
goto __11
}
rc = SQLITE_ERROR
__11:
;
rtreeRelease(tls, pRtree)
return rc
}
func geopolyCreate(tls *libc.TLS, db uintptr, pAux uintptr, argc int32, argv uintptr, ppVtab uintptr, pzErr uintptr) int32 {
return geopolyInit(tls, db, pAux, argc, argv, ppVtab, pzErr, 1)
}
func geopolyConnect(tls *libc.TLS, db uintptr, pAux uintptr, argc int32, argv uintptr, ppVtab uintptr, pzErr uintptr) int32 {
return geopolyInit(tls, db, pAux, argc, argv, ppVtab, pzErr, 0)
}
func geopolyFilter(tls *libc.TLS, pVtabCursor uintptr, idxNum int32, idxStr uintptr, argc int32, argv uintptr) int32 {
bp := tls.Alloc(52)
defer tls.Free(52)
var pRtree uintptr
var pCsr uintptr
var p uintptr
var iRowid I64
var p1 uintptr
var pNew uintptr
pRtree = (*Sqlite3_vtab_cursor)(unsafe.Pointer(pVtabCursor)).FpVtab
pCsr = pVtabCursor
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 48)) = SQLITE_OK
*(*int32)(unsafe.Pointer(bp + 16)) = 0
_ = idxStr
rtreeReference(tls, pRtree)
resetCursor(tls, pCsr)
(*RtreeCursor)(unsafe.Pointer(pCsr)).FiStrategy = idxNum
if !(idxNum == 1) {
goto __1
}
iRowid = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(argv)))
*(*I64)(unsafe.Pointer(bp + 8)) = int64(0)
*(*int32)(unsafe.Pointer(bp + 48)) = findLeafNode(tls, pRtree, iRowid, bp, bp+8)
if !(*(*int32)(unsafe.Pointer(bp + 48)) == SQLITE_OK && *(*uintptr)(unsafe.Pointer(bp)) != uintptr(0)) {
goto __3
}
p = rtreeSearchPointNew(tls, pCsr, 0.0, uint8(0))
*(*uintptr)(unsafe.Pointer(pCsr + 88)) = *(*uintptr)(unsafe.Pointer(bp))
(*RtreeSearchPoint)(unsafe.Pointer(p)).Fid = *(*I64)(unsafe.Pointer(bp + 8))
(*RtreeSearchPoint)(unsafe.Pointer(p)).FeWithin = U8(PARTLY_WITHIN)
*(*int32)(unsafe.Pointer(bp + 48)) = nodeRowidIndex(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp)), iRowid, bp+16)
(*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell = U8(*(*int32)(unsafe.Pointer(bp + 16)))
goto __4
__3:
(*RtreeCursor)(unsafe.Pointer(pCsr)).FatEOF = U8(1)
__4:
;
goto __2
__1:
*(*int32)(unsafe.Pointer(bp + 48)) = nodeAcquire(tls, pRtree, int64(1), uintptr(0), bp+24)
if !(*(*int32)(unsafe.Pointer(bp + 48)) == SQLITE_OK && idxNum <= 3) {
goto __5
}
geopolyBBox(tls, uintptr(0), *(*uintptr)(unsafe.Pointer(argv)), bp+32, bp+48)
if !(*(*int32)(unsafe.Pointer(bp + 48)) != 0) {
goto __6
}
goto geopoly_filter_end
__6:
;
(*RtreeCursor)(unsafe.Pointer(pCsr)).FaConstraint = libc.AssignUintptr(&p1, Xsqlite3_malloc(tls, int32(uint64(unsafe.Sizeof(RtreeConstraint{}))*uint64(4))))
(*RtreeCursor)(unsafe.Pointer(pCsr)).FnConstraint = 4
if !(p1 == uintptr(0)) {
goto __7
}
*(*int32)(unsafe.Pointer(bp + 48)) = SQLITE_NOMEM
goto __8
__7:
libc.X__builtin___memset_chk(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FaConstraint, 0, uint64(unsafe.Sizeof(RtreeConstraint{}))*uint64(4), libc.X__builtin_object_size(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FaConstraint, 0))
libc.X__builtin___memset_chk(tls, pCsr+128, 0, uint64(unsafe.Sizeof(U32(0)))*uint64((*Rtree)(unsafe.Pointer(pRtree)).FiDepth+1), libc.X__builtin_object_size(tls, pCsr+128, 0))
if !(idxNum == 2) {
goto __9
}
(*RtreeConstraint)(unsafe.Pointer(p1)).Fop = 'B'
(*RtreeConstraint)(unsafe.Pointer(p1)).FiCoord = 0
*(*RtreeDValue)(unsafe.Pointer(p1 + 8)) = RtreeDValue(*(*RtreeValue)(unsafe.Pointer(bp + 32 + 1*4)))
p1 += 24
(*RtreeConstraint)(unsafe.Pointer(p1)).Fop = 'D'
(*RtreeConstraint)(unsafe.Pointer(p1)).FiCoord = 1
*(*RtreeDValue)(unsafe.Pointer(p1 + 8)) = RtreeDValue(*(*RtreeValue)(unsafe.Pointer(bp + 32)))
p1 += 24
(*RtreeConstraint)(unsafe.Pointer(p1)).Fop = 'B'
(*RtreeConstraint)(unsafe.Pointer(p1)).FiCoord = 2
*(*RtreeDValue)(unsafe.Pointer(p1 + 8)) = RtreeDValue(*(*RtreeValue)(unsafe.Pointer(bp + 32 + 3*4)))
p1 += 24
(*RtreeConstraint)(unsafe.Pointer(p1)).Fop = 'D'
(*RtreeConstraint)(unsafe.Pointer(p1)).FiCoord = 3
*(*RtreeDValue)(unsafe.Pointer(p1 + 8)) = RtreeDValue(*(*RtreeValue)(unsafe.Pointer(bp + 32 + 2*4)))
goto __10
__9:
(*RtreeConstraint)(unsafe.Pointer(p1)).Fop = 'D'
(*RtreeConstraint)(unsafe.Pointer(p1)).FiCoord = 0
*(*RtreeDValue)(unsafe.Pointer(p1 + 8)) = RtreeDValue(*(*RtreeValue)(unsafe.Pointer(bp + 32)))
p1 += 24
(*RtreeConstraint)(unsafe.Pointer(p1)).Fop = 'B'
(*RtreeConstraint)(unsafe.Pointer(p1)).FiCoord = 1
*(*RtreeDValue)(unsafe.Pointer(p1 + 8)) = RtreeDValue(*(*RtreeValue)(unsafe.Pointer(bp + 32 + 1*4)))
p1 += 24
(*RtreeConstraint)(unsafe.Pointer(p1)).Fop = 'D'
(*RtreeConstraint)(unsafe.Pointer(p1)).FiCoord = 2
*(*RtreeDValue)(unsafe.Pointer(p1 + 8)) = RtreeDValue(*(*RtreeValue)(unsafe.Pointer(bp + 32 + 2*4)))
p1 += 24
(*RtreeConstraint)(unsafe.Pointer(p1)).Fop = 'B'
(*RtreeConstraint)(unsafe.Pointer(p1)).FiCoord = 3
*(*RtreeDValue)(unsafe.Pointer(p1 + 8)) = RtreeDValue(*(*RtreeValue)(unsafe.Pointer(bp + 32 + 3*4)))
__10:
;
__8:
;
__5:
;
if !(*(*int32)(unsafe.Pointer(bp + 48)) == SQLITE_OK) {
goto __11
}
pNew = rtreeSearchPointNew(tls, pCsr, 0.0, U8((*Rtree)(unsafe.Pointer(pRtree)).FiDepth+1))
if !(pNew == uintptr(0)) {
goto __12
}
*(*int32)(unsafe.Pointer(bp + 48)) = SQLITE_NOMEM
goto geopoly_filter_end
__12:
;
(*RtreeSearchPoint)(unsafe.Pointer(pNew)).Fid = int64(1)
(*RtreeSearchPoint)(unsafe.Pointer(pNew)).FiCell = U8(0)
(*RtreeSearchPoint)(unsafe.Pointer(pNew)).FeWithin = U8(PARTLY_WITHIN)
*(*uintptr)(unsafe.Pointer(pCsr + 88)) = *(*uintptr)(unsafe.Pointer(bp + 24))
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 48)) = rtreeStepToLeaf(tls, pCsr)
__11:
;
__2:
;
geopoly_filter_end:
nodeRelease(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 24)))
rtreeRelease(tls, pRtree)
return *(*int32)(unsafe.Pointer(bp + 48))
}
func geopolyBestIndex(tls *libc.TLS, tab uintptr, pIdxInfo uintptr) int32 {
var ii int32
var iRowidTerm int32 = -1
var iFuncTerm int32 = -1
var idxNum int32 = 0
_ = tab
for ii = 0; ii < (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FnConstraint; ii++ {
var p uintptr = (*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraint + uintptr(ii)*12
if !(int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fusable) != 0) {
continue
}
if (*sqlite3_index_constraint)(unsafe.Pointer(p)).FiColumn < 0 && int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == SQLITE_INDEX_CONSTRAINT_EQ {
iRowidTerm = ii
break
}
if (*sqlite3_index_constraint)(unsafe.Pointer(p)).FiColumn == 0 && int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) >= SQLITE_INDEX_CONSTRAINT_FUNCTION {
iFuncTerm = ii
idxNum = int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) - SQLITE_INDEX_CONSTRAINT_FUNCTION + 2
}
}
if iRowidTerm >= 0 {
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxNum = 1
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxStr = ts + 16673
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(iRowidTerm)*8)).FargvIndex = 1
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(iRowidTerm)*8)).Fomit = uint8(1)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedCost = 30.0
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedRows = int64(1)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxFlags = SQLITE_INDEX_SCAN_UNIQUE
return SQLITE_OK
}
if iFuncTerm >= 0 {
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxNum = idxNum
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxStr = ts + 28017
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(iFuncTerm)*8)).FargvIndex = 1
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FaConstraintUsage + uintptr(iFuncTerm)*8)).Fomit = uint8(0)
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedCost = 300.0
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedRows = int64(10)
return SQLITE_OK
}
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxNum = 4
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FidxStr = ts + 28023
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedCost = 3000000.0
(*Sqlite3_index_info)(unsafe.Pointer(pIdxInfo)).FestimatedRows = int64(100000)
return SQLITE_OK
}
func geopolyColumn(tls *libc.TLS, cur uintptr, ctx uintptr, i int32) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pRtree uintptr = (*Sqlite3_vtab_cursor)(unsafe.Pointer(cur)).FpVtab
var pCsr uintptr = cur
var p uintptr = rtreeSearchPointFirst(tls, pCsr)
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
var pNode uintptr = rtreeNodeOfFirstSearchPoint(tls, pCsr, bp)
if *(*int32)(unsafe.Pointer(bp)) != 0 {
return *(*int32)(unsafe.Pointer(bp))
}
if p == uintptr(0) {
return SQLITE_OK
}
if i == 0 && Xsqlite3_vtab_nochange(tls, ctx) != 0 {
return SQLITE_OK
}
if i <= int32((*Rtree)(unsafe.Pointer(pRtree)).FnAux) {
if !(int32((*RtreeCursor)(unsafe.Pointer(pCsr)).FbAuxValid) != 0) {
if (*RtreeCursor)(unsafe.Pointer(pCsr)).FpReadAux == uintptr(0) {
*(*int32)(unsafe.Pointer(bp)) = Xsqlite3_prepare_v3(tls, (*Rtree)(unsafe.Pointer(pRtree)).Fdb, (*Rtree)(unsafe.Pointer(pRtree)).FzReadAuxSql, -1, uint32(0),
pCsr+56, uintptr(0))
if *(*int32)(unsafe.Pointer(bp)) != 0 {
return *(*int32)(unsafe.Pointer(bp))
}
}
Xsqlite3_bind_int64(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FpReadAux, 1,
nodeGetRowid(tls, pRtree, pNode, int32((*RtreeSearchPoint)(unsafe.Pointer(p)).FiCell)))
*(*int32)(unsafe.Pointer(bp)) = Xsqlite3_step(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FpReadAux)
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_ROW {
(*RtreeCursor)(unsafe.Pointer(pCsr)).FbAuxValid = U8(1)
} else {
Xsqlite3_reset(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FpReadAux)
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_DONE {
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
}
return *(*int32)(unsafe.Pointer(bp))
}
}
Xsqlite3_result_value(tls, ctx, Xsqlite3_column_value(tls, (*RtreeCursor)(unsafe.Pointer(pCsr)).FpReadAux, i+2))
}
return SQLITE_OK
}
func geopolyUpdate(tls *libc.TLS, pVtab uintptr, nData int32, aData uintptr, pRowid uintptr) int32 {
bp := tls.Alloc(64)
defer tls.Free(64)
var pRtree uintptr
var oldRowid I64
var oldRowidValid int32
var newRowid I64
var newRowidValid int32
var coordChange int32
var steprc int32
var rc2 int32
var p uintptr
var pUp uintptr
var jj int32
var nChange int32
pRtree = pVtab
*(*int32)(unsafe.Pointer(bp + 48)) = SQLITE_OK
coordChange = 0
if !((*Rtree)(unsafe.Pointer(pRtree)).FnNodeRef != 0) {
goto __1
}
return SQLITE_LOCKED | int32(2)<<8
__1:
;
rtreeReference(tls, pRtree)
oldRowidValid = libc.Bool32(Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(aData))) != SQLITE_NULL)
if oldRowidValid != 0 {
oldRowid = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(aData)))
} else {
oldRowid = int64(0)
}
newRowidValid = libc.Bool32(nData > 1 && Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(aData + 1*8))) != SQLITE_NULL)
if newRowidValid != 0 {
newRowid = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(aData + 1*8)))
} else {
newRowid = int64(0)
}
(*RtreeCell)(unsafe.Pointer(bp)).FiRowid = newRowid
if !(nData > 1 &&
(!(oldRowidValid != 0) ||
!(Xsqlite3_value_nochange(tls, *(*uintptr)(unsafe.Pointer(aData + 2*8))) != 0) ||
oldRowid != newRowid)) {
goto __2
}
geopolyBBox(tls, uintptr(0), *(*uintptr)(unsafe.Pointer(aData + 2*8)), bp+8, bp+48)
if !(*(*int32)(unsafe.Pointer(bp + 48)) != 0) {
goto __3
}
if !(*(*int32)(unsafe.Pointer(bp + 48)) == SQLITE_ERROR) {
goto __4
}
(*Sqlite3_vtab)(unsafe.Pointer(pVtab)).FzErrMsg = Xsqlite3_mprintf(tls, ts+28032, 0)
__4:
;
goto geopoly_update_end
__3:
;
coordChange = 1
if !(newRowidValid != 0 && (!(oldRowidValid != 0) || oldRowid != newRowid)) {
goto __5
}
Xsqlite3_bind_int64(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadRowid, 1, (*RtreeCell)(unsafe.Pointer(bp)).FiRowid)
steprc = Xsqlite3_step(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadRowid)
*(*int32)(unsafe.Pointer(bp + 48)) = Xsqlite3_reset(tls, (*Rtree)(unsafe.Pointer(pRtree)).FpReadRowid)
if !(SQLITE_ROW == steprc) {
goto __6
}
if !(Xsqlite3_vtab_on_conflict(tls, (*Rtree)(unsafe.Pointer(pRtree)).Fdb) == SQLITE_REPLACE) {
goto __7
}
*(*int32)(unsafe.Pointer(bp + 48)) = rtreeDeleteRowid(tls, pRtree, (*RtreeCell)(unsafe.Pointer(bp)).FiRowid)
goto __8
__7:
*(*int32)(unsafe.Pointer(bp + 48)) = rtreeConstraintError(tls, pRtree, 0)
__8:
;
__6:
;
__5:
;
__2:
;
if !(*(*int32)(unsafe.Pointer(bp + 48)) == SQLITE_OK && (nData == 1 || coordChange != 0 && oldRowidValid != 0)) {
goto __9
}
*(*int32)(unsafe.Pointer(bp + 48)) = rtreeDeleteRowid(tls, pRtree, oldRowid)
__9:
;
if !(*(*int32)(unsafe.Pointer(bp + 48)) == SQLITE_OK && nData > 1 && coordChange != 0) {
goto __10
}
*(*uintptr)(unsafe.Pointer(bp + 56)) = uintptr(0)
if !!(newRowidValid != 0) {
goto __11
}
*(*int32)(unsafe.Pointer(bp + 48)) = rtreeNewRowid(tls, pRtree, bp)
__11:
;
*(*Sqlite_int64)(unsafe.Pointer(pRowid)) = (*RtreeCell)(unsafe.Pointer(bp)).FiRowid
if !(*(*int32)(unsafe.Pointer(bp + 48)) == SQLITE_OK) {
goto __12
}
*(*int32)(unsafe.Pointer(bp + 48)) = sChooseLeaf(tls, pRtree, bp, 0, bp+56)
__12:
;
if !(*(*int32)(unsafe.Pointer(bp + 48)) == SQLITE_OK) {
goto __13
}
(*Rtree)(unsafe.Pointer(pRtree)).FiReinsertHeight = -1
*(*int32)(unsafe.Pointer(bp + 48)) = rtreeInsertCell(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 56)), bp, 0)
rc2 = nodeRelease(tls, pRtree, *(*uintptr)(unsafe.Pointer(bp + 56)))
if !(*(*int32)(unsafe.Pointer(bp + 48)) == SQLITE_OK) {
goto __14
}
*(*int32)(unsafe.Pointer(bp + 48)) = rc2
__14:
;
__13:
;
__10:
;
if !(*(*int32)(unsafe.Pointer(bp + 48)) == SQLITE_OK && nData > 1) {
goto __15
}
pUp = (*Rtree)(unsafe.Pointer(pRtree)).FpWriteAux
nChange = 0
Xsqlite3_bind_int64(tls, pUp, 1, (*RtreeCell)(unsafe.Pointer(bp)).FiRowid)
if !(Xsqlite3_value_nochange(tls, *(*uintptr)(unsafe.Pointer(aData + 2*8))) != 0) {
goto __16
}
Xsqlite3_bind_null(tls, pUp, 2)
goto __17
__16:
p = uintptr(0)
if !(Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(aData + 2*8))) == SQLITE_TEXT &&
libc.AssignUintptr(&p, geopolyFuncParam(tls, uintptr(0), *(*uintptr)(unsafe.Pointer(aData + 2*8)), bp+48)) != uintptr(0) &&
*(*int32)(unsafe.Pointer(bp + 48)) == SQLITE_OK) {
goto __18
}
Xsqlite3_bind_blob(tls, pUp, 2, p+4, 4+8*(*GeoPoly)(unsafe.Pointer(p)).FnVertex, libc.UintptrFromInt32(-1))
goto __19
__18:
Xsqlite3_bind_value(tls, pUp, 2, *(*uintptr)(unsafe.Pointer(aData + 2*8)))
__19:
;
Xsqlite3_free(tls, p)
nChange = 1
__17:
;
jj = 1
__20:
if !(jj < nData-2) {
goto __22
}
nChange++
Xsqlite3_bind_value(tls, pUp, jj+2, *(*uintptr)(unsafe.Pointer(aData + uintptr(jj+2)*8)))
goto __21
__21:
jj++
goto __20
goto __22
__22:
;
if !(nChange != 0) {
goto __23
}
Xsqlite3_step(tls, pUp)
*(*int32)(unsafe.Pointer(bp + 48)) = Xsqlite3_reset(tls, pUp)
__23:
;
__15:
;
geopoly_update_end:
rtreeRelease(tls, pRtree)
return *(*int32)(unsafe.Pointer(bp + 48))
}
func geopolyFindFunction(tls *libc.TLS, pVtab uintptr, nArg int32, zName uintptr, pxFunc uintptr, ppArg uintptr) int32 {
_ = pVtab
_ = nArg
if Xsqlite3_stricmp(tls, zName, ts+28072) == 0 {
*(*uintptr)(unsafe.Pointer(pxFunc)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{geopolyOverlapFunc}))
*(*uintptr)(unsafe.Pointer(ppArg)) = uintptr(0)
return SQLITE_INDEX_CONSTRAINT_FUNCTION
}
if Xsqlite3_stricmp(tls, zName, ts+28088) == 0 {
*(*uintptr)(unsafe.Pointer(pxFunc)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{geopolyWithinFunc}))
*(*uintptr)(unsafe.Pointer(ppArg)) = uintptr(0)
return SQLITE_INDEX_CONSTRAINT_FUNCTION + 1
}
return 0
}
var geopolyModule = Sqlite3_module{
FiVersion: 3,
FxCreate: 0,
FxConnect: 0,
FxBestIndex: 0,
FxDisconnect: 0,
FxDestroy: 0,
FxOpen: 0,
FxClose: 0,
FxFilter: 0,
FxNext: 0,
FxEof: 0,
FxColumn: 0,
FxRowid: 0,
FxUpdate: 0,
FxBegin: 0,
FxSync: 0,
FxCommit: 0,
FxRollback: 0,
FxFindFunction: 0,
FxRename: 0,
FxSavepoint: 0,
FxShadowName: 0,
}
func sqlite3_geopoly_init(tls *libc.TLS, db uintptr) int32 {
var rc int32 = SQLITE_OK
var i uint32
for i = uint32(0); uint64(i) < uint64(unsafe.Sizeof(aFunc))/uint64(unsafe.Sizeof(struct {
FxFunc uintptr
FnArg int8
FbPure uint8
F__ccgo_pad1 [6]byte
FzName uintptr
}{})) && rc == SQLITE_OK; i++ {
var enc int32
if aFunc[i].FbPure != 0 {
enc = SQLITE_UTF8 | SQLITE_DETERMINISTIC | SQLITE_INNOCUOUS
} else {
enc = SQLITE_UTF8 | SQLITE_DIRECTONLY
}
rc = Xsqlite3_create_function(tls, db, aFunc[i].FzName, int32(aFunc[i].FnArg),
enc, uintptr(0),
aFunc[i].FxFunc, uintptr(0), uintptr(0))
}
for i = uint32(0); uint64(i) < uint64(unsafe.Sizeof(aAgg))/uint64(unsafe.Sizeof(struct {
FxStep uintptr
FxFinal uintptr
FzName uintptr
}{})) && rc == SQLITE_OK; i++ {
rc = Xsqlite3_create_function(tls, db, aAgg[i].FzName, 1,
SQLITE_UTF8|SQLITE_DETERMINISTIC|SQLITE_INNOCUOUS, uintptr(0),
uintptr(0), aAgg[i].FxStep, aAgg[i].FxFinal)
}
if rc == SQLITE_OK {
rc = Xsqlite3_create_module_v2(tls, db, ts+28103, uintptr(unsafe.Pointer(&geopolyModule)), uintptr(0), uintptr(0))
}
return rc
}
var aFunc = [12]struct {
FxFunc uintptr
FnArg int8
FbPure uint8
F__ccgo_pad1 [6]byte
FzName uintptr
}{
{FxFunc: 0, FnArg: int8(1), FbPure: uint8(1), FzName: ts + 28111},
{FxFunc: 0, FnArg: int8(1), FbPure: uint8(1), FzName: ts + 28124},
{FxFunc: 0, FnArg: int8(1), FbPure: uint8(1), FzName: ts + 28137},
{FxFunc: 0, FnArg: int8(-1), FbPure: uint8(1), FzName: ts + 28150},
{FxFunc: 0, FnArg: int8(2), FbPure: uint8(1), FzName: ts + 28088},
{FxFunc: 0, FnArg: int8(3), FbPure: uint8(1), FzName: ts + 28162},
{FxFunc: 0, FnArg: int8(2), FbPure: uint8(1), FzName: ts + 28072},
{FxFunc: 0, FnArg: int8(1), FzName: ts + 28185},
{FxFunc: 0, FnArg: int8(1), FbPure: uint8(1), FzName: ts + 28199},
{FxFunc: 0, FnArg: int8(7), FbPure: uint8(1), FzName: ts + 28212},
{FxFunc: 0, FnArg: int8(4), FbPure: uint8(1), FzName: ts + 28226},
{FxFunc: 0, FnArg: int8(1), FbPure: uint8(1), FzName: ts + 28242},
}
var aAgg = [1]struct {
FxStep uintptr
FxFinal uintptr
FzName uintptr
}{
{FxStep: 0, FxFinal: 0, FzName: ts + 28254},
}
// Register the r-tree module with database handle db. This creates the
// virtual table module "rtree" and the debugging/analysis scalar
// function "rtreenode".
func Xsqlite3RtreeInit(tls *libc.TLS, db uintptr) int32 {
var utf8 int32 = SQLITE_UTF8
var rc int32
rc = Xsqlite3_create_function(tls, db, ts+28273, 2, utf8, uintptr(0), *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{rtreenode})), uintptr(0), uintptr(0))
if rc == SQLITE_OK {
rc = Xsqlite3_create_function(tls, db, ts+28283, 1, utf8, uintptr(0), *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{rtreedepth})), uintptr(0), uintptr(0))
}
if rc == SQLITE_OK {
rc = Xsqlite3_create_function(tls, db, ts+28294, -1, utf8, uintptr(0), *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{rtreecheck})), uintptr(0), uintptr(0))
}
if rc == SQLITE_OK {
var c uintptr = uintptr(RTREE_COORD_REAL32)
rc = Xsqlite3_create_module_v2(tls, db, ts+28017, uintptr(unsafe.Pointer(&rtreeModule)), c, uintptr(0))
}
if rc == SQLITE_OK {
var c uintptr = uintptr(RTREE_COORD_INT32)
rc = Xsqlite3_create_module_v2(tls, db, ts+28305, uintptr(unsafe.Pointer(&rtreeModule)), c, uintptr(0))
}
if rc == SQLITE_OK {
rc = sqlite3_geopoly_init(tls, db)
}
return rc
}
func rtreeFreeCallback(tls *libc.TLS, p uintptr) {
var pInfo uintptr = p
if (*RtreeGeomCallback)(unsafe.Pointer(pInfo)).FxDestructor != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*RtreeGeomCallback)(unsafe.Pointer(pInfo)).FxDestructor})).f(tls, (*RtreeGeomCallback)(unsafe.Pointer(pInfo)).FpContext)
}
Xsqlite3_free(tls, p)
}
func rtreeMatchArgFree(tls *libc.TLS, pArg uintptr) {
var i int32
var p uintptr = pArg
for i = 0; i < (*RtreeMatchArg)(unsafe.Pointer(p)).FnParam; i++ {
Xsqlite3_value_free(tls, *(*uintptr)(unsafe.Pointer((*RtreeMatchArg)(unsafe.Pointer(p)).FapSqlParam + uintptr(i)*8)))
}
Xsqlite3_free(tls, p)
}
func geomCallback(tls *libc.TLS, ctx uintptr, nArg int32, aArg uintptr) {
var pGeomCtx uintptr = Xsqlite3_user_data(tls, ctx)
var pBlob uintptr
var nBlob Sqlite3_int64
var memErr int32 = 0
nBlob = Sqlite3_int64(uint64(unsafe.Sizeof(RtreeMatchArg{})) + uint64(nArg-1)*uint64(unsafe.Sizeof(RtreeDValue(0))) +
uint64(nArg)*uint64(unsafe.Sizeof(uintptr(0))))
pBlob = Xsqlite3_malloc64(tls, uint64(nBlob))
if !(pBlob != 0) {
Xsqlite3_result_error_nomem(tls, ctx)
} else {
var i int32
(*RtreeMatchArg)(unsafe.Pointer(pBlob)).FiSize = U32(nBlob)
(*RtreeMatchArg)(unsafe.Pointer(pBlob)).Fcb = *(*RtreeGeomCallback)(unsafe.Pointer(pGeomCtx))
(*RtreeMatchArg)(unsafe.Pointer(pBlob)).FapSqlParam = pBlob + 56 + uintptr(nArg)*8
(*RtreeMatchArg)(unsafe.Pointer(pBlob)).FnParam = nArg
for i = 0; i < nArg; i++ {
*(*uintptr)(unsafe.Pointer((*RtreeMatchArg)(unsafe.Pointer(pBlob)).FapSqlParam + uintptr(i)*8)) = Xsqlite3_value_dup(tls, *(*uintptr)(unsafe.Pointer(aArg + uintptr(i)*8)))
if *(*uintptr)(unsafe.Pointer((*RtreeMatchArg)(unsafe.Pointer(pBlob)).FapSqlParam + uintptr(i)*8)) == uintptr(0) {
memErr = 1
}
*(*RtreeDValue)(unsafe.Pointer(pBlob + 56 + uintptr(i)*8)) = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(aArg + uintptr(i)*8)))
}
if memErr != 0 {
Xsqlite3_result_error_nomem(tls, ctx)
rtreeMatchArgFree(tls, pBlob)
} else {
Xsqlite3_result_pointer(tls, ctx, pBlob, ts+25593, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{rtreeMatchArgFree})))
}
}
}
// Register a new geometry function for use with the r-tree MATCH operator.
func Xsqlite3_rtree_geometry_callback(tls *libc.TLS, db uintptr, zGeom uintptr, xGeom uintptr, pContext uintptr) int32 {
var pGeomCtx uintptr
pGeomCtx = Xsqlite3_malloc(tls, int32(unsafe.Sizeof(RtreeGeomCallback{})))
if !(pGeomCtx != 0) {
return SQLITE_NOMEM
}
(*RtreeGeomCallback)(unsafe.Pointer(pGeomCtx)).FxGeom = xGeom
(*RtreeGeomCallback)(unsafe.Pointer(pGeomCtx)).FxQueryFunc = uintptr(0)
(*RtreeGeomCallback)(unsafe.Pointer(pGeomCtx)).FxDestructor = uintptr(0)
(*RtreeGeomCallback)(unsafe.Pointer(pGeomCtx)).FpContext = pContext
return Xsqlite3_create_function_v2(tls, db, zGeom, -1, SQLITE_ANY,
pGeomCtx, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{geomCallback})), uintptr(0), uintptr(0), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{rtreeFreeCallback})))
}
// Register a new 2nd-generation geometry function for use with the
// r-tree MATCH operator.
func Xsqlite3_rtree_query_callback(tls *libc.TLS, db uintptr, zQueryFunc uintptr, xQueryFunc uintptr, pContext uintptr, xDestructor uintptr) int32 {
var pGeomCtx uintptr
pGeomCtx = Xsqlite3_malloc(tls, int32(unsafe.Sizeof(RtreeGeomCallback{})))
if !(pGeomCtx != 0) {
if xDestructor != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{xDestructor})).f(tls, pContext)
}
return SQLITE_NOMEM
}
(*RtreeGeomCallback)(unsafe.Pointer(pGeomCtx)).FxGeom = uintptr(0)
(*RtreeGeomCallback)(unsafe.Pointer(pGeomCtx)).FxQueryFunc = xQueryFunc
(*RtreeGeomCallback)(unsafe.Pointer(pGeomCtx)).FxDestructor = xDestructor
(*RtreeGeomCallback)(unsafe.Pointer(pGeomCtx)).FpContext = pContext
return Xsqlite3_create_function_v2(tls, db, zQueryFunc, -1, SQLITE_ANY,
pGeomCtx, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{geomCallback})), uintptr(0), uintptr(0), *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{rtreeFreeCallback})))
}
type sqlite3rbu = struct {
FeStage int32
F__ccgo_pad1 [4]byte
FdbMain uintptr
FdbRbu uintptr
FzTarget uintptr
FzRbu uintptr
FzState uintptr
FzStateDb [5]int8
F__ccgo_pad2 [3]byte
Frc int32
F__ccgo_pad3 [4]byte
FzErrmsg uintptr
FnStep int32
FnProgress int32
Fobjiter RbuObjIter
FzVfsName uintptr
FpTargetFd uintptr
FnPagePerSector int32
F__ccgo_pad4 [4]byte
FiOalSz I64
FnPhaseOneStep I64
FpRenameArg uintptr
FxRename uintptr
FiMaxFrame U32
FmLock U32
FnFrame int32
FnFrameAlloc int32
FaFrame uintptr
Fpgsz int32
F__ccgo_pad5 [4]byte
FaBuf uintptr
FiWalCksum I64
FszTemp I64
FszTempLimit I64
FnRbu int32
F__ccgo_pad6 [4]byte
FpRbuFd uintptr
}
type Sqlite3rbu = sqlite3rbu
type RbuFrame1 = struct {
FiDbPage U32
FiWalFrame U32
}
type RbuFrame = RbuFrame1
type RbuObjIter1 = struct {
FpTblIter uintptr
FpIdxIter uintptr
FnTblCol int32
F__ccgo_pad1 [4]byte
FazTblCol uintptr
FazTblType uintptr
FaiSrcOrder uintptr
FabTblPk uintptr
FabNotNull uintptr
FabIndexed uintptr
FeType int32
FbCleanup int32
FzTbl uintptr
FzDataTbl uintptr
FzIdx uintptr
FiTnum int32
FiPkTnum int32
FbUnique int32
FnIndex int32
FnCol int32
F__ccgo_pad2 [4]byte
FpSelect uintptr
FpInsert uintptr
FpDelete uintptr
FpTmpInsert uintptr
FnIdxCol int32
F__ccgo_pad3 [4]byte
FaIdxCol uintptr
FzIdxSql uintptr
FpRbuUpdate uintptr
}
type RbuObjIter = RbuObjIter1
type RbuState1 = struct {
FeStage int32
F__ccgo_pad1 [4]byte
FzTbl uintptr
FzDataTbl uintptr
FzIdx uintptr
FiWalCksum I64
FnRow int32
F__ccgo_pad2 [4]byte
FnProgress I64
FiCookie U32
F__ccgo_pad3 [4]byte
FiOalSz I64
FnPhaseOneStep I64
}
type RbuState = RbuState1
type RbuSpan1 = struct {
FzSpan uintptr
FnSpan int32
F__ccgo_pad1 [4]byte
}
type RbuSpan = RbuSpan1
type rbu_vfs = struct {
Fbase Sqlite3_vfs
FpRealVfs uintptr
Fmutex uintptr
FpRbu uintptr
FpMain uintptr
FpMainRbu uintptr
}
type Rbu_vfs = rbu_vfs
type rbu_file = struct {
Fbase Sqlite3_file
FpReal uintptr
FpRbuVfs uintptr
FpRbu uintptr
Fsz I64
FopenFlags int32
FiCookie U32
FiWriteVer U8
FbNolock U8
F__ccgo_pad1 [2]byte
FnShm int32
FapShm uintptr
FzDel uintptr
FzWal uintptr
FpWalFd uintptr
FpMainNext uintptr
FpMainRbuNext uintptr
}
type Rbu_file = rbu_file
type RbuUpdateStmt1 = struct {
FzMask uintptr
FpUpdate uintptr
FpNext uintptr
}
type RbuUpdateStmt = RbuUpdateStmt1
func rbuDeltaGetInt(tls *libc.TLS, pz uintptr, pLen uintptr) uint32 {
var v uint32 = uint32(0)
var c int32
var z uintptr = *(*uintptr)(unsafe.Pointer(pz))
var zStart uintptr = z
for libc.AssignInt32(&c, int32(zValue[0x7f&int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&z, 1))))])) >= 0 {
v = v<<6 + uint32(c)
}
z--
*(*int32)(unsafe.Pointer(pLen)) -= int32((int64(z) - int64(zStart)) / 1)
*(*uintptr)(unsafe.Pointer(pz)) = z
return v
}
var zValue = [128]int8{
int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1),
int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1),
int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1),
int8(0), int8(1), int8(2), int8(3), int8(4), int8(5), int8(6), int8(7), int8(8), int8(9), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1), int8(-1),
int8(-1), int8(10), int8(11), int8(12), int8(13), int8(14), int8(15), int8(16), int8(17), int8(18), int8(19), int8(20), int8(21), int8(22), int8(23), int8(24),
int8(25), int8(26), int8(27), int8(28), int8(29), int8(30), int8(31), int8(32), int8(33), int8(34), int8(35), int8(-1), int8(-1), int8(-1), int8(-1), int8(36),
int8(-1), int8(37), int8(38), int8(39), int8(40), int8(41), int8(42), int8(43), int8(44), int8(45), int8(46), int8(47), int8(48), int8(49), int8(50), int8(51),
int8(52), int8(53), int8(54), int8(55), int8(56), int8(57), int8(58), int8(59), int8(60), int8(61), int8(62), int8(-1), int8(-1), int8(-1), int8(63), int8(-1),
}
func rbuDeltaApply(tls *libc.TLS, zSrc uintptr, lenSrc int32, zDelta uintptr, lenDelta int32, zOut uintptr) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
*(*uintptr)(unsafe.Pointer(bp)) = zDelta
*(*int32)(unsafe.Pointer(bp + 8)) = lenDelta
var limit uint32
var total uint32 = uint32(0)
limit = rbuDeltaGetInt(tls, bp, bp+8)
if int32(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))))) != '\n' {
return -1
}
*(*uintptr)(unsafe.Pointer(bp))++
*(*int32)(unsafe.Pointer(bp + 8))--
for *(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))) != 0 && *(*int32)(unsafe.Pointer(bp + 8)) > 0 {
var cnt uint32
var ofst uint32
cnt = rbuDeltaGetInt(tls, bp, bp+8)
switch int32(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))))) {
case '@':
{
*(*uintptr)(unsafe.Pointer(bp))++
*(*int32)(unsafe.Pointer(bp + 8))--
ofst = rbuDeltaGetInt(tls, bp, bp+8)
if *(*int32)(unsafe.Pointer(bp + 8)) > 0 && int32(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))))) != ',' {
return -1
}
*(*uintptr)(unsafe.Pointer(bp))++
*(*int32)(unsafe.Pointer(bp + 8))--
total = total + cnt
if total > limit {
return -1
}
if int32(ofst+cnt) > lenSrc {
return -1
}
libc.X__builtin___memcpy_chk(tls, zOut, zSrc+uintptr(ofst), uint64(cnt), libc.X__builtin_object_size(tls, zOut, 0))
zOut += uintptr(cnt)
break
}
case ':':
{
*(*uintptr)(unsafe.Pointer(bp))++
*(*int32)(unsafe.Pointer(bp + 8))--
total = total + cnt
if total > limit {
return -1
}
if int32(cnt) > *(*int32)(unsafe.Pointer(bp + 8)) {
return -1
}
libc.X__builtin___memcpy_chk(tls, zOut, *(*uintptr)(unsafe.Pointer(bp)), uint64(cnt), libc.X__builtin_object_size(tls, zOut, 0))
zOut += uintptr(cnt)
*(*uintptr)(unsafe.Pointer(bp)) += uintptr(cnt)
*(*int32)(unsafe.Pointer(bp + 8)) -= int32(cnt)
break
}
case ';':
{
*(*uintptr)(unsafe.Pointer(bp))++
*(*int32)(unsafe.Pointer(bp + 8))--
*(*int8)(unsafe.Pointer(zOut)) = int8(0)
if total != limit {
return -1
}
return int32(total)
}
default:
{
return -1
}
}
}
return -1
}
func rbuDeltaOutputSize(tls *libc.TLS, zDelta uintptr, lenDelta int32) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
*(*uintptr)(unsafe.Pointer(bp)) = zDelta
*(*int32)(unsafe.Pointer(bp + 8)) = lenDelta
var size int32
size = int32(rbuDeltaGetInt(tls, bp, bp+8))
if int32(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))))) != '\n' {
return -1
}
return size
}
func rbuFossilDeltaFunc(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
var aDelta uintptr
var nDelta int32
var aOrig uintptr
var nOrig int32
var nOut int32
var nOut2 int32
var aOut uintptr
nOrig = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv)))
aOrig = Xsqlite3_value_blob(tls, *(*uintptr)(unsafe.Pointer(argv)))
nDelta = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
aDelta = Xsqlite3_value_blob(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8)))
nOut = rbuDeltaOutputSize(tls, aDelta, nDelta)
if nOut < 0 {
Xsqlite3_result_error(tls, context, ts+28315, -1)
return
}
aOut = Xsqlite3_malloc(tls, nOut+1)
if aOut == uintptr(0) {
Xsqlite3_result_error_nomem(tls, context)
} else {
nOut2 = rbuDeltaApply(tls, aOrig, nOrig, aDelta, nDelta, aOut)
if nOut2 != nOut {
Xsqlite3_free(tls, aOut)
Xsqlite3_result_error(tls, context, ts+28315, -1)
} else {
Xsqlite3_result_blob(tls, context, aOut, nOut, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
}
}
}
func prepareAndCollectError(tls *libc.TLS, db uintptr, ppStmt uintptr, pzErrmsg uintptr, zSql uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = Xsqlite3_prepare_v2(tls, db, zSql, -1, ppStmt, uintptr(0))
if rc != SQLITE_OK {
*(*uintptr)(unsafe.Pointer(pzErrmsg)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp, Xsqlite3_errmsg(tls, db)))
*(*uintptr)(unsafe.Pointer(ppStmt)) = uintptr(0)
}
return rc
}
func resetAndCollectError(tls *libc.TLS, pStmt uintptr, pzErrmsg uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = Xsqlite3_reset(tls, pStmt)
if rc != SQLITE_OK {
*(*uintptr)(unsafe.Pointer(pzErrmsg)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp, Xsqlite3_errmsg(tls, Xsqlite3_db_handle(tls, pStmt))))
}
return rc
}
func prepareFreeAndCollectError(tls *libc.TLS, db uintptr, ppStmt uintptr, pzErrmsg uintptr, zSql uintptr) int32 {
var rc int32
if zSql == uintptr(0) {
rc = SQLITE_NOMEM
*(*uintptr)(unsafe.Pointer(ppStmt)) = uintptr(0)
} else {
rc = prepareAndCollectError(tls, db, ppStmt, pzErrmsg, zSql)
Xsqlite3_free(tls, zSql)
}
return rc
}
func rbuObjIterFreeCols(tls *libc.TLS, pIter uintptr) {
var i int32
for i = 0; i < (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol; i++ {
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8)))
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblType + uintptr(i)*8)))
}
Xsqlite3_free(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol)
(*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol = uintptr(0)
(*RbuObjIter)(unsafe.Pointer(pIter)).FazTblType = uintptr(0)
(*RbuObjIter)(unsafe.Pointer(pIter)).FaiSrcOrder = uintptr(0)
(*RbuObjIter)(unsafe.Pointer(pIter)).FabTblPk = uintptr(0)
(*RbuObjIter)(unsafe.Pointer(pIter)).FabNotNull = uintptr(0)
(*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol = 0
(*RbuObjIter)(unsafe.Pointer(pIter)).FeType = 0
}
func rbuObjIterClearStatements(tls *libc.TLS, pIter uintptr) {
var pUp uintptr
Xsqlite3_finalize(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpSelect)
Xsqlite3_finalize(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpInsert)
Xsqlite3_finalize(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpDelete)
Xsqlite3_finalize(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpTmpInsert)
pUp = (*RbuObjIter)(unsafe.Pointer(pIter)).FpRbuUpdate
for pUp != 0 {
var pTmp uintptr = (*RbuUpdateStmt)(unsafe.Pointer(pUp)).FpNext
Xsqlite3_finalize(tls, (*RbuUpdateStmt)(unsafe.Pointer(pUp)).FpUpdate)
Xsqlite3_free(tls, pUp)
pUp = pTmp
}
Xsqlite3_free(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FaIdxCol)
Xsqlite3_free(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FzIdxSql)
(*RbuObjIter)(unsafe.Pointer(pIter)).FpSelect = uintptr(0)
(*RbuObjIter)(unsafe.Pointer(pIter)).FpInsert = uintptr(0)
(*RbuObjIter)(unsafe.Pointer(pIter)).FpDelete = uintptr(0)
(*RbuObjIter)(unsafe.Pointer(pIter)).FpRbuUpdate = uintptr(0)
(*RbuObjIter)(unsafe.Pointer(pIter)).FpTmpInsert = uintptr(0)
(*RbuObjIter)(unsafe.Pointer(pIter)).FnCol = 0
(*RbuObjIter)(unsafe.Pointer(pIter)).FnIdxCol = 0
(*RbuObjIter)(unsafe.Pointer(pIter)).FaIdxCol = uintptr(0)
(*RbuObjIter)(unsafe.Pointer(pIter)).FzIdxSql = uintptr(0)
}
func rbuObjIterFinalize(tls *libc.TLS, pIter uintptr) {
rbuObjIterClearStatements(tls, pIter)
Xsqlite3_finalize(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpTblIter)
Xsqlite3_finalize(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpIdxIter)
rbuObjIterFreeCols(tls, pIter)
libc.X__builtin___memset_chk(tls, pIter, 0, uint64(unsafe.Sizeof(RbuObjIter{})), libc.X__builtin_object_size(tls, pIter, 0))
}
func rbuObjIterNext(tls *libc.TLS, p uintptr, pIter uintptr) int32 {
var rc int32 = (*Sqlite3rbu)(unsafe.Pointer(p)).Frc
if rc == SQLITE_OK {
rbuObjIterClearStatements(tls, pIter)
if (*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx == uintptr(0) {
rc = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain,
ts+28336, uintptr(0), uintptr(0), p+64)
}
if rc == SQLITE_OK {
if (*RbuObjIter)(unsafe.Pointer(pIter)).FbCleanup != 0 {
rbuObjIterFreeCols(tls, pIter)
(*RbuObjIter)(unsafe.Pointer(pIter)).FbCleanup = 0
rc = Xsqlite3_step(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpTblIter)
if rc != SQLITE_ROW {
rc = resetAndCollectError(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpTblIter, p+64)
(*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl = uintptr(0)
} else {
(*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl = Xsqlite3_column_text(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpTblIter, 0)
(*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl = Xsqlite3_column_text(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpTblIter, 1)
if (*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl != 0 && (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl != 0 {
rc = SQLITE_OK
} else {
rc = SQLITE_NOMEM
}
}
} else {
if (*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx == uintptr(0) {
var pIdx uintptr = (*RbuObjIter)(unsafe.Pointer(pIter)).FpIdxIter
rc = Xsqlite3_bind_text(tls, pIdx, 1, (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl, -1, uintptr(0))
}
if rc == SQLITE_OK {
rc = Xsqlite3_step(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpIdxIter)
if rc != SQLITE_ROW {
rc = resetAndCollectError(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpIdxIter, p+64)
(*RbuObjIter)(unsafe.Pointer(pIter)).FbCleanup = 1
(*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx = uintptr(0)
} else {
(*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx = Xsqlite3_column_text(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpIdxIter, 0)
(*RbuObjIter)(unsafe.Pointer(pIter)).FiTnum = Xsqlite3_column_int(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpIdxIter, 1)
(*RbuObjIter)(unsafe.Pointer(pIter)).FbUnique = Xsqlite3_column_int(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpIdxIter, 2)
if (*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx != 0 {
rc = SQLITE_OK
} else {
rc = SQLITE_NOMEM
}
}
}
}
}
}
if rc != SQLITE_OK {
rbuObjIterFinalize(tls, pIter)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = rc
}
return rc
}
func rbuTargetNameFunc(tls *libc.TLS, pCtx uintptr, argc int32, argv uintptr) {
var p uintptr = Xsqlite3_user_data(tls, pCtx)
var zIn uintptr
zIn = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(argv)))
if zIn != 0 {
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
if argc == 1 || 0 == Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8))) {
Xsqlite3_result_text(tls, pCtx, zIn, -1, uintptr(0))
}
} else {
if libc.Xstrlen(tls, zIn) > uint64(4) && libc.Xmemcmp(tls, ts+25506, zIn, uint64(4)) == 0 {
var i int32
for i = 4; int32(*(*int8)(unsafe.Pointer(zIn + uintptr(i)))) >= '0' && int32(*(*int8)(unsafe.Pointer(zIn + uintptr(i)))) <= '9'; i++ {
}
if int32(*(*int8)(unsafe.Pointer(zIn + uintptr(i)))) == '_' && *(*int8)(unsafe.Pointer(zIn + uintptr(i+1))) != 0 {
Xsqlite3_result_text(tls, pCtx, zIn+uintptr(i+1), -1, uintptr(0))
}
}
}
}
}
func rbuObjIterFirst(tls *libc.TLS, p uintptr, pIter uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
libc.X__builtin___memset_chk(tls, pIter, 0, uint64(unsafe.Sizeof(RbuObjIter{})), libc.X__builtin_object_size(tls, pIter, 0))
rc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, pIter, p+64,
Xsqlite3_mprintf(tls,
ts+28507, libc.VaList(bp, func() uintptr {
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
return ts + 28657
}
return ts + 1547
}())))
if rc == SQLITE_OK {
rc = prepareAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, pIter+8, p+64,
ts+28698)
}
(*RbuObjIter)(unsafe.Pointer(pIter)).FbCleanup = 1
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = rc
return rbuObjIterNext(tls, p, pIter)
}
func rbuMPrintf(tls *libc.TLS, p uintptr, zFmt uintptr, va uintptr) uintptr {
var zSql uintptr = uintptr(0)
var ap Va_list
_ = ap
ap = va
zSql = Xsqlite3_vmprintf(tls, zFmt, ap)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
if zSql == uintptr(0) {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
}
} else {
Xsqlite3_free(tls, zSql)
zSql = uintptr(0)
}
_ = ap
return zSql
}
func rbuMPrintfExec(tls *libc.TLS, p uintptr, db uintptr, zFmt uintptr, va uintptr) int32 {
var ap Va_list
_ = ap
var zSql uintptr
ap = va
zSql = Xsqlite3_vmprintf(tls, zFmt, ap)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
if zSql == uintptr(0) {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
} else {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_exec(tls, db, zSql, uintptr(0), uintptr(0), p+64)
}
}
Xsqlite3_free(tls, zSql)
_ = ap
return (*Sqlite3rbu)(unsafe.Pointer(p)).Frc
}
func rbuMalloc(tls *libc.TLS, p uintptr, nByte Sqlite3_int64) uintptr {
var pRet uintptr = uintptr(0)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
pRet = Xsqlite3_malloc64(tls, uint64(nByte))
if pRet == uintptr(0) {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
} else {
libc.X__builtin___memset_chk(tls, pRet, 0, uint64(nByte), libc.X__builtin_object_size(tls, pRet, 0))
}
}
return pRet
}
func rbuAllocateIterArrays(tls *libc.TLS, p uintptr, pIter uintptr, nCol int32) {
var nByte Sqlite3_int64 = Sqlite3_int64((uint64(2)*uint64(unsafe.Sizeof(uintptr(0))) + uint64(unsafe.Sizeof(int32(0))) + uint64(3)*uint64(unsafe.Sizeof(U8(0)))) * uint64(nCol))
var azNew uintptr
azNew = rbuMalloc(tls, p, nByte)
if azNew != 0 {
(*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol = azNew
(*RbuObjIter)(unsafe.Pointer(pIter)).FazTblType = azNew + uintptr(nCol)*8
(*RbuObjIter)(unsafe.Pointer(pIter)).FaiSrcOrder = (*RbuObjIter)(unsafe.Pointer(pIter)).FazTblType + uintptr(nCol)*8
(*RbuObjIter)(unsafe.Pointer(pIter)).FabTblPk = (*RbuObjIter)(unsafe.Pointer(pIter)).FaiSrcOrder + uintptr(nCol)*4
(*RbuObjIter)(unsafe.Pointer(pIter)).FabNotNull = (*RbuObjIter)(unsafe.Pointer(pIter)).FabTblPk + uintptr(nCol)
(*RbuObjIter)(unsafe.Pointer(pIter)).FabIndexed = (*RbuObjIter)(unsafe.Pointer(pIter)).FabNotNull + uintptr(nCol)
}
}
func rbuStrndup(tls *libc.TLS, zStr uintptr, pRc uintptr) uintptr {
var zRet uintptr = uintptr(0)
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK {
if zStr != 0 {
var nCopy Size_t = libc.Xstrlen(tls, zStr) + uint64(1)
zRet = Xsqlite3_malloc64(tls, nCopy)
if zRet != 0 {
libc.X__builtin___memcpy_chk(tls, zRet, zStr, nCopy, libc.X__builtin_object_size(tls, zRet, 0))
} else {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
}
}
}
return zRet
}
func rbuFinalize(tls *libc.TLS, p uintptr, pStmt uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var db uintptr = Xsqlite3_db_handle(tls, pStmt)
var rc int32 = Xsqlite3_finalize(tls, pStmt)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && rc != SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = rc
(*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp, Xsqlite3_errmsg(tls, db)))
}
}
func rbuTableType(tls *libc.TLS, p uintptr, zTab uintptr, peType uintptr, piTnum uintptr, piPk uintptr) {
bp := tls.Alloc(64)
defer tls.Free(64)
var zOrig uintptr
var zIdx uintptr
var i uint32
*(*[4]uintptr)(unsafe.Pointer(bp + 32)) = [4]uintptr{uintptr(0), uintptr(0), uintptr(0), uintptr(0)}
*(*int32)(unsafe.Pointer(peType)) = RBU_PK_NOTABLE
*(*int32)(unsafe.Pointer(piPk)) = 0
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+32, p+64,
Xsqlite3_mprintf(tls,
ts+28823, libc.VaList(bp, zTab)))
if !((*Sqlite3rbu)(unsafe.Pointer(p)).Frc != SQLITE_OK || Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 32))) != SQLITE_ROW) {
goto __1
}
goto rbuTableType_end
__1:
;
if !(Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 32)), 0) != 0) {
goto __2
}
*(*int32)(unsafe.Pointer(peType)) = RBU_PK_VTAB
goto rbuTableType_end
__2:
;
*(*int32)(unsafe.Pointer(piTnum)) = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 32)), 1)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+32+1*8, p+64,
Xsqlite3_mprintf(tls, ts+28942, libc.VaList(bp+8, zTab)))
if !((*Sqlite3rbu)(unsafe.Pointer(p)).Frc != 0) {
goto __3
}
goto rbuTableType_end
__3:
;
__4:
if !(Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 32 + 1*8))) == SQLITE_ROW) {
goto __5
}
zOrig = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 32 + 1*8)), 3)
zIdx = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 32 + 1*8)), 1)
if !(zOrig != 0 && zIdx != 0 && int32(*(*U8)(unsafe.Pointer(zOrig))) == 'p') {
goto __6
}
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+32+2*8, p+64,
Xsqlite3_mprintf(tls,
ts+28963, libc.VaList(bp+16, zIdx)))
if !((*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK) {
goto __7
}
if !(Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 32 + 2*8))) == SQLITE_ROW) {
goto __8
}
*(*int32)(unsafe.Pointer(piPk)) = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 32 + 2*8)), 0)
*(*int32)(unsafe.Pointer(peType)) = RBU_PK_EXTERNAL
goto __9
__8:
*(*int32)(unsafe.Pointer(peType)) = RBU_PK_WITHOUT_ROWID
__9:
;
__7:
;
goto rbuTableType_end
__6:
;
goto __4
__5:
;
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+32+3*8, p+64,
Xsqlite3_mprintf(tls, ts+29014, libc.VaList(bp+24, zTab)))
if !((*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK) {
goto __10
}
__11:
if !(Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 32 + 3*8))) == SQLITE_ROW) {
goto __12
}
if !(Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 32 + 3*8)), 5) > 0) {
goto __13
}
*(*int32)(unsafe.Pointer(peType)) = RBU_PK_IPK
goto rbuTableType_end
__13:
;
goto __11
__12:
;
*(*int32)(unsafe.Pointer(peType)) = RBU_PK_NONE
__10:
;
rbuTableType_end:
i = uint32(0)
__14:
if !(uint64(i) < uint64(unsafe.Sizeof([4]uintptr{}))/uint64(unsafe.Sizeof(uintptr(0)))) {
goto __16
}
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 32 + uintptr(i)*8)))
goto __15
__15:
i++
goto __14
goto __16
__16:
}
func rbuObjIterCacheIndexedCols(tls *libc.TLS, p uintptr, pIter uintptr) {
bp := tls.Alloc(32)
defer tls.Free(32)
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
var bIndex int32 = 0
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
libc.X__builtin___memcpy_chk(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FabIndexed, (*RbuObjIter)(unsafe.Pointer(pIter)).FabTblPk, uint64(unsafe.Sizeof(U8(0)))*uint64((*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol), libc.X__builtin_object_size(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FabIndexed, 0))
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+16, p+64,
Xsqlite3_mprintf(tls, ts+29035, libc.VaList(bp, (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl)))
}
(*RbuObjIter)(unsafe.Pointer(pIter)).FnIndex = 0
for (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 16))) {
var zIdx uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 1)
var bPartial int32 = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 4)
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
if zIdx == uintptr(0) {
break
}
if bPartial != 0 {
libc.X__builtin___memset_chk(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FabIndexed, 0x01, uint64(unsafe.Sizeof(U8(0)))*uint64((*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol), libc.X__builtin_object_size(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FabIndexed, 0))
}
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+24, p+64,
Xsqlite3_mprintf(tls, ts+29063, libc.VaList(bp+8, zIdx)))
for (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 24))) {
var iCid int32 = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 24)), 1)
if iCid >= 0 {
*(*U8)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FabIndexed + uintptr(iCid))) = U8(1)
}
if iCid == -2 {
libc.X__builtin___memset_chk(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FabIndexed, 0x01, uint64(unsafe.Sizeof(U8(0)))*uint64((*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol), libc.X__builtin_object_size(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FabIndexed, 0))
}
}
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 24)))
bIndex = 1
(*RbuObjIter)(unsafe.Pointer(pIter)).FnIndex++
}
if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_WITHOUT_ROWID {
(*RbuObjIter)(unsafe.Pointer(pIter)).FnIndex--
}
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 16)))
if bIndex == 0 {
(*RbuObjIter)(unsafe.Pointer(pIter)).FabIndexed = uintptr(0)
}
}
func rbuObjIterCacheTableInfo(tls *libc.TLS, p uintptr, pIter uintptr) int32 {
bp := tls.Alloc(72)
defer tls.Free(72)
if (*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol == uintptr(0) {
*(*uintptr)(unsafe.Pointer(bp + 64)) = uintptr(0)
var nCol int32 = 0
var i int32
var bRbuRowid int32 = 0
var iOrder int32 = 0
*(*int32)(unsafe.Pointer(bp + 56)) = 0
rbuTableType(tls, p, (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl, pIter+72, bp+56, pIter+108)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_NOTABLE {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_ERROR
(*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg = Xsqlite3_mprintf(tls, ts+19939, libc.VaList(bp, (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl))
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc != 0 {
return (*Sqlite3rbu)(unsafe.Pointer(p)).Frc
}
if (*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx == uintptr(0) {
(*RbuObjIter)(unsafe.Pointer(pIter)).FiTnum = *(*int32)(unsafe.Pointer(bp + 56))
}
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, bp+64, p+64,
Xsqlite3_mprintf(tls, ts+29092, libc.VaList(bp+8, (*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl)))
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
nCol = Xsqlite3_column_count(tls, *(*uintptr)(unsafe.Pointer(bp + 64)))
rbuAllocateIterArrays(tls, p, pIter, nCol)
}
for i = 0; (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && i < nCol; i++ {
var zName uintptr = Xsqlite3_column_name(tls, *(*uintptr)(unsafe.Pointer(bp + 64)), i)
if Xsqlite3_strnicmp(tls, ts+29111, zName, 4) != 0 {
var zCopy uintptr = rbuStrndup(tls, zName, p+56)
*(*int32)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaiSrcOrder + uintptr((*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol)*4)) = (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol
*(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(libc.PostIncInt32(&(*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol, 1))*8)) = zCopy
} else if 0 == Xsqlite3_stricmp(tls, ts+29116, zName) {
bRbuRowid = 1
}
}
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 64)))
*(*uintptr)(unsafe.Pointer(bp + 64)) = uintptr(0)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK &&
libc.Bool32((*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0)) == 0 &&
bRbuRowid != libc.Bool32((*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_VTAB || (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_NONE) {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_ERROR
(*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg = Xsqlite3_mprintf(tls,
ts+29126, libc.VaList(bp+16, (*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl,
func() uintptr {
if bRbuRowid != 0 {
return ts + 29155
}
return ts + 29168
}()))
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+64, p+64,
Xsqlite3_mprintf(tls, ts+29177, libc.VaList(bp+32, (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl)))
}
for (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 64))) {
var zName uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 64)), 1)
if zName == uintptr(0) {
break
}
for i = iOrder; i < (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol; i++ {
if 0 == libc.Xstrcmp(tls, zName, *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8))) {
break
}
}
if i == (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_ERROR
(*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg = Xsqlite3_mprintf(tls, ts+29199,
libc.VaList(bp+40, (*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl, zName))
} else {
var iPk int32 = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 64)), 5)
var bNotNull int32 = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 64)), 3)
var zType uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 64)), 2)
if i != iOrder {
{
var t int32 = *(*int32)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaiSrcOrder + uintptr(i)*4))
*(*int32)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaiSrcOrder + uintptr(i)*4)) = *(*int32)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaiSrcOrder + uintptr(iOrder)*4))
*(*int32)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaiSrcOrder + uintptr(iOrder)*4)) = t
}
{
var t uintptr = *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8))
*(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8)) = *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(iOrder)*8))
*(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(iOrder)*8)) = t
}
}
*(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblType + uintptr(iOrder)*8)) = rbuStrndup(tls, zType, p+56)
*(*U8)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FabTblPk + uintptr(iOrder))) = U8(iPk)
*(*U8)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FabNotNull + uintptr(iOrder))) = U8(libc.Bool32(U8(bNotNull) != 0 || iPk != 0))
iOrder++
}
}
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 64)))
rbuObjIterCacheIndexedCols(tls, p, pIter)
}
return (*Sqlite3rbu)(unsafe.Pointer(p)).Frc
}
func rbuObjIterGetCollist(tls *libc.TLS, p uintptr, pIter uintptr) uintptr {
bp := tls.Alloc(24)
defer tls.Free(24)
var zList uintptr = uintptr(0)
var zSep uintptr = ts + 1547
var i int32
for i = 0; i < (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol; i++ {
var z uintptr = *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8))
zList = rbuMPrintf(tls, p, ts+29226, libc.VaList(bp, zList, zSep, z))
zSep = ts + 15017
}
return zList
}
func rbuObjIterGetPkList(tls *libc.TLS, p uintptr, pIter uintptr, zPre uintptr, zSeparator uintptr, zPost uintptr) uintptr {
bp := tls.Alloc(40)
defer tls.Free(40)
var iPk int32 = 1
var zRet uintptr = uintptr(0)
var zSep uintptr = ts + 1547
for 1 != 0 {
var i int32
for i = 0; i < (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol; i++ {
if int32(*(*U8)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FabTblPk + uintptr(i)))) == iPk {
var zCol uintptr = *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8))
zRet = rbuMPrintf(tls, p, ts+29235, libc.VaList(bp, zRet, zSep, zPre, zCol, zPost))
zSep = zSeparator
break
}
}
if i == (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol {
break
}
iPk++
}
return zRet
}
func rbuVacuumTableStart(tls *libc.TLS, p uintptr, pIter uintptr, bRowid int32, zWrite uintptr) uintptr {
bp := tls.Alloc(80)
defer tls.Free(80)
*(*uintptr)(unsafe.Pointer(bp + 72)) = uintptr(0)
var zRet uintptr = uintptr(0)
if bRowid != 0 {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+72, p+64,
Xsqlite3_mprintf(tls,
ts+29248, libc.VaList(bp, zWrite, (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl)))
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 72))) {
var iMax Sqlite3_int64 = Xsqlite3_column_int64(tls, *(*uintptr)(unsafe.Pointer(bp + 72)), 0)
zRet = rbuMPrintf(tls, p, ts+29280, libc.VaList(bp+16, iMax))
}
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 72)))
} else {
var zOrder uintptr = rbuObjIterGetPkList(tls, p, pIter, ts+1547, ts+15017, ts+29303)
var zSelect uintptr = rbuObjIterGetPkList(tls, p, pIter, ts+29309, ts+29316, ts+5360)
var zList uintptr = rbuObjIterGetPkList(tls, p, pIter, ts+1547, ts+15017, ts+1547)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+72, p+64,
Xsqlite3_mprintf(tls,
ts+29324,
libc.VaList(bp+24, zSelect, zWrite, (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl, zOrder)))
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 72))) {
var zVal uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 72)), 0)
zRet = rbuMPrintf(tls, p, ts+29366, libc.VaList(bp+56, zList, zVal))
}
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 72)))
}
Xsqlite3_free(tls, zOrder)
Xsqlite3_free(tls, zSelect)
Xsqlite3_free(tls, zList)
}
return zRet
}
func rbuVacuumIndexStart(tls *libc.TLS, p uintptr, pIter uintptr) uintptr {
bp := tls.Alloc(192)
defer tls.Free(192)
var zOrder uintptr
var zLhs uintptr
var zSelect uintptr
var zVector uintptr
var zRet uintptr
var bFailed int32
var zSep uintptr
var iCol int32
var i int32
var iCid int32
var zCollate uintptr
var zCol uintptr
var zQuoted uintptr
zOrder = uintptr(0)
zLhs = uintptr(0)
zSelect = uintptr(0)
zVector = uintptr(0)
zRet = uintptr(0)
bFailed = 0
zSep = ts + 1547
iCol = 0
*(*uintptr)(unsafe.Pointer(bp + 176)) = uintptr(0)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+176, p+64,
Xsqlite3_mprintf(tls, ts+29063, libc.VaList(bp, (*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx)))
__1:
if !((*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 176)))) {
goto __2
}
iCid = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 176)), 1)
zCollate = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 176)), 4)
if !(Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 176)), 3) != 0) {
goto __3
}
bFailed = 1
goto __2
__3:
;
if !(iCid < 0) {
goto __4
}
if !((*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_IPK) {
goto __6
}
i = 0
__8:
if !(int32(*(*U8)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FabTblPk + uintptr(i)))) == 0) {
goto __10
}
goto __9
__9:
i++
goto __8
goto __10
__10:
;
zCol = *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8))
goto __7
__6:
zCol = ts + 29386
__7:
;
goto __5
__4:
zCol = *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(iCid)*8))
__5:
;
zLhs = rbuMPrintf(tls, p, ts+29394,
libc.VaList(bp+8, zLhs, zSep, zCol, zCollate))
zOrder = rbuMPrintf(tls, p, ts+29415,
libc.VaList(bp+40, zOrder, zSep, iCol, zCol, zCollate))
zSelect = rbuMPrintf(tls, p, ts+29451,
libc.VaList(bp+80, zSelect, zSep, iCol, zCol))
zSep = ts + 15017
iCol++
goto __1
__2:
;
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 176)))
if !(bFailed != 0) {
goto __11
}
goto index_start_out
__11:
;
if !((*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK) {
goto __12
}
*(*uintptr)(unsafe.Pointer(bp + 184)) = uintptr(0)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+184, p+64,
Xsqlite3_mprintf(tls, ts+29478,
libc.VaList(bp+112, zSelect, (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl, zOrder)))
if !((*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 184)))) {
goto __13
}
zSep = ts + 1547
iCol = 0
__14:
if !(iCol < (*RbuObjIter)(unsafe.Pointer(pIter)).FnCol) {
goto __16
}
zQuoted = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 184)), iCol)
if !(zQuoted == uintptr(0)) {
goto __17
}
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
goto __18
__17:
if !(int32(*(*int8)(unsafe.Pointer(zQuoted))) == 'N') {
goto __19
}
bFailed = 1
goto __16
__19:
;
__18:
;
zVector = rbuMPrintf(tls, p, ts+29526, libc.VaList(bp+136, zVector, zSep, zQuoted))
zSep = ts + 15017
goto __15
__15:
iCol++
goto __14
goto __16
__16:
;
if !!(bFailed != 0) {
goto __20
}
zRet = rbuMPrintf(tls, p, ts+29533, libc.VaList(bp+160, zLhs, zVector))
__20:
;
__13:
;
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 184)))
__12:
;
index_start_out:
Xsqlite3_free(tls, zOrder)
Xsqlite3_free(tls, zSelect)
Xsqlite3_free(tls, zVector)
Xsqlite3_free(tls, zLhs)
return zRet
}
func rbuObjIterGetIndexCols(tls *libc.TLS, p uintptr, pIter uintptr, pzImposterCols uintptr, pzImposterPk uintptr, pzWhere uintptr, pnBind uintptr) uintptr {
bp := tls.Alloc(208)
defer tls.Free(208)
var rc int32 = (*Sqlite3rbu)(unsafe.Pointer(p)).Frc
var rc2 int32
var zRet uintptr = uintptr(0)
var zImpCols uintptr = uintptr(0)
var zImpPK uintptr = uintptr(0)
var zWhere uintptr = uintptr(0)
var nBind int32 = 0
var zCom uintptr = ts + 1547
var zAnd uintptr = ts + 1547
*(*uintptr)(unsafe.Pointer(bp + 200)) = uintptr(0)
if rc == SQLITE_OK {
rc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+200, p+64,
Xsqlite3_mprintf(tls, ts+29063, libc.VaList(bp, (*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx)))
}
for rc == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 200))) {
var iCid int32 = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 200)), 1)
var bDesc int32 = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 200)), 3)
var zCollate uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 200)), 4)
var zCol uintptr = uintptr(0)
var zType uintptr
if iCid == -2 {
var iSeq int32 = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 200)), 0)
zRet = Xsqlite3_mprintf(tls, ts+29545, libc.VaList(bp+8, zRet, zCom,
(*RbuSpan)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaIdxCol+uintptr(iSeq)*16)).FnSpan, (*RbuSpan)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaIdxCol+uintptr(iSeq)*16)).FzSpan, zCollate))
zType = ts + 1547
} else {
if iCid < 0 {
if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_IPK {
var i int32
for i = 0; int32(*(*U8)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FabTblPk + uintptr(i)))) == 0; i++ {
}
zCol = *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8))
} else if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
zCol = ts + 29386
} else {
zCol = ts + 29116
}
zType = ts + 1112
} else {
zCol = *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(iCid)*8))
zType = *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblType + uintptr(iCid)*8))
}
zRet = Xsqlite3_mprintf(tls, ts+29567, libc.VaList(bp+48, zRet, zCom, zCol, zCollate))
}
if (*RbuObjIter)(unsafe.Pointer(pIter)).FbUnique == 0 || Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 200)), 5) != 0 {
var zOrder uintptr = func() uintptr {
if bDesc != 0 {
return ts + 29303
}
return ts + 1547
}()
zImpPK = Xsqlite3_mprintf(tls, ts+29587,
libc.VaList(bp+80, zImpPK, zCom, nBind, zCol, zOrder))
}
zImpCols = Xsqlite3_mprintf(tls, ts+29608,
libc.VaList(bp+120, zImpCols, zCom, nBind, zCol, zType, zCollate))
zWhere = Xsqlite3_mprintf(tls,
ts+29641, libc.VaList(bp+168, zWhere, zAnd, nBind, zCol))
if zRet == uintptr(0) || zImpPK == uintptr(0) || zImpCols == uintptr(0) || zWhere == uintptr(0) {
rc = SQLITE_NOMEM
}
zCom = ts + 15017
zAnd = ts + 21975
nBind++
}
rc2 = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 200)))
if rc == SQLITE_OK {
rc = rc2
}
if rc != SQLITE_OK {
Xsqlite3_free(tls, zRet)
Xsqlite3_free(tls, zImpCols)
Xsqlite3_free(tls, zImpPK)
Xsqlite3_free(tls, zWhere)
zRet = uintptr(0)
zImpCols = uintptr(0)
zImpPK = uintptr(0)
zWhere = uintptr(0)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = rc
}
*(*uintptr)(unsafe.Pointer(pzImposterCols)) = zImpCols
*(*uintptr)(unsafe.Pointer(pzImposterPk)) = zImpPK
*(*uintptr)(unsafe.Pointer(pzWhere)) = zWhere
*(*int32)(unsafe.Pointer(pnBind)) = nBind
return zRet
}
func rbuObjIterGetOldlist(tls *libc.TLS, p uintptr, pIter uintptr, zObj uintptr) uintptr {
bp := tls.Alloc(64)
defer tls.Free(64)
var zList uintptr = uintptr(0)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*RbuObjIter)(unsafe.Pointer(pIter)).FabIndexed != 0 {
var zS uintptr = ts + 1547
var i int32
for i = 0; i < (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol; i++ {
if *(*U8)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FabIndexed + uintptr(i))) != 0 {
var zCol uintptr = *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8))
zList = Xsqlite3_mprintf(tls, ts+29665, libc.VaList(bp, zList, zS, zObj, zCol))
} else {
zList = Xsqlite3_mprintf(tls, ts+29677, libc.VaList(bp+32, zList, zS))
}
zS = ts + 15017
if zList == uintptr(0) {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
break
}
}
if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_EXTERNAL || (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_NONE {
zList = rbuMPrintf(tls, p, ts+29686, libc.VaList(bp+48, zList, zObj))
}
}
return zList
}
func rbuObjIterGetWhere(tls *libc.TLS, p uintptr, pIter uintptr) uintptr {
bp := tls.Alloc(80)
defer tls.Free(80)
var zList uintptr = uintptr(0)
if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_VTAB || (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_NONE {
zList = rbuMPrintf(tls, p, ts+29701, libc.VaList(bp, (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol+1))
} else if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_EXTERNAL {
var zSep uintptr = ts + 1547
var i int32
for i = 0; i < (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol; i++ {
if *(*U8)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FabTblPk + uintptr(i))) != 0 {
zList = rbuMPrintf(tls, p, ts+29715, libc.VaList(bp+8, zList, zSep, i, i+1))
zSep = ts + 21975
}
}
zList = rbuMPrintf(tls, p,
ts+29727, libc.VaList(bp+40, zList))
} else {
var zSep uintptr = ts + 1547
var i int32
for i = 0; i < (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol; i++ {
if *(*U8)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FabTblPk + uintptr(i))) != 0 {
var zCol uintptr = *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8))
zList = rbuMPrintf(tls, p, ts+29777, libc.VaList(bp+48, zList, zSep, zCol, i+1))
zSep = ts + 21975
}
}
}
return zList
}
func rbuBadControlError(tls *libc.TLS, p uintptr) {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_ERROR
(*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg = Xsqlite3_mprintf(tls, ts+29790, 0)
}
func rbuObjIterGetSetlist(tls *libc.TLS, p uintptr, pIter uintptr, zMask uintptr) uintptr {
bp := tls.Alloc(112)
defer tls.Free(112)
var zList uintptr = uintptr(0)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var i int32
if int32(libc.Xstrlen(tls, zMask)) != (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol {
rbuBadControlError(tls, p)
} else {
var zSep uintptr = ts + 1547
for i = 0; i < (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol; i++ {
var c int8 = *(*int8)(unsafe.Pointer(zMask + uintptr(*(*int32)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaiSrcOrder + uintptr(i)*4)))))
if int32(c) == 'x' {
zList = rbuMPrintf(tls, p, ts+29777,
libc.VaList(bp, zList, zSep, *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8)), i+1))
zSep = ts + 15017
} else if int32(c) == 'd' {
zList = rbuMPrintf(tls, p, ts+29816,
libc.VaList(bp+32, zList, zSep, *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8)), *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8)), i+1))
zSep = ts + 15017
} else if int32(c) == 'f' {
zList = rbuMPrintf(tls, p, ts+29846,
libc.VaList(bp+72, zList, zSep, *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8)), *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(i)*8)), i+1))
zSep = ts + 15017
}
}
}
}
return zList
}
func rbuObjIterGetBindlist(tls *libc.TLS, p uintptr, nBind int32) uintptr {
var zRet uintptr = uintptr(0)
var nByte Sqlite3_int64 = int64(2)*Sqlite3_int64(nBind) + int64(1)
zRet = rbuMalloc(tls, p, nByte)
if zRet != 0 {
var i int32
for i = 0; i < nBind; i++ {
*(*int8)(unsafe.Pointer(zRet + uintptr(i*2))) = int8('?')
*(*int8)(unsafe.Pointer(zRet + uintptr(i*2+1))) = func() int8 {
if i+1 == nBind {
return int8(0)
}
return int8(',')
}()
}
}
return zRet
}
func rbuWithoutRowidPK(tls *libc.TLS, p uintptr, pIter uintptr) uintptr {
bp := tls.Alloc(72)
defer tls.Free(72)
var z uintptr = uintptr(0)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var zSep uintptr = ts + 29883
*(*uintptr)(unsafe.Pointer(bp + 56)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 64)) = uintptr(0)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+56, p+64,
Xsqlite3_mprintf(tls, ts+29035, libc.VaList(bp, (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl)))
for (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 56))) {
var zOrig uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 56)), 3)
if zOrig != 0 && libc.Xstrcmp(tls, zOrig, ts+16561) == 0 {
var zIdx uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 56)), 1)
if zIdx != 0 {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+64, p+64,
Xsqlite3_mprintf(tls, ts+29063, libc.VaList(bp+8, zIdx)))
}
break
}
}
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 56)))
for (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 64))) {
if Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 64)), 5) != 0 {
var zCol uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 64)), 2)
var zDesc uintptr
if Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 64)), 3) != 0 {
zDesc = ts + 29303
} else {
zDesc = ts + 1547
}
z = rbuMPrintf(tls, p, ts+29896, libc.VaList(bp+16, z, zSep, zCol, zDesc))
zSep = ts + 15017
}
}
z = rbuMPrintf(tls, p, ts+29907, libc.VaList(bp+48, z))
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 64)))
}
return z
}
func rbuCreateImposterTable2(tls *libc.TLS, p uintptr, pIter uintptr) {
bp := tls.Alloc(184)
defer tls.Free(184)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_EXTERNAL {
var tnum int32 = (*RbuObjIter)(unsafe.Pointer(pIter)).FiPkTnum
*(*uintptr)(unsafe.Pointer(bp + 168)) = uintptr(0)
var zIdx uintptr = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 176)) = uintptr(0)
var zComma uintptr = ts + 1547
var zCols uintptr = uintptr(0)
var zPk uintptr = uintptr(0)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+168, p+64,
ts+29911)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
Xsqlite3_bind_int(tls, *(*uintptr)(unsafe.Pointer(bp + 168)), 1, tnum)
if SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 168))) {
zIdx = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 168)), 0)
}
}
if zIdx != 0 {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+176, p+64,
Xsqlite3_mprintf(tls, ts+29063, libc.VaList(bp, zIdx)))
}
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 168)))
for (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 176))) {
var bKey int32 = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 176)), 5)
if bKey != 0 {
var iCid int32 = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 176)), 1)
var bDesc int32 = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 176)), 3)
var zCollate uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 176)), 4)
zCols = rbuMPrintf(tls, p, ts+29961, libc.VaList(bp+8, zCols, zComma,
iCid, *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblType + uintptr(iCid)*8)), zCollate))
zPk = rbuMPrintf(tls, p, ts+29983, libc.VaList(bp+48, zPk, zComma, iCid, func() uintptr {
if bDesc != 0 {
return ts + 29303
}
return ts + 1547
}()))
zComma = ts + 15017
}
}
zCols = rbuMPrintf(tls, p, ts+29993, libc.VaList(bp+80, zCols))
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 176)))
Xsqlite3_test_control(tls, SQLITE_TESTCTRL_IMPOSTER, libc.VaList(bp+88, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+6844, 1, tnum))
rbuMPrintfExec(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain,
ts+30008,
libc.VaList(bp+120, zCols, zPk))
Xsqlite3_test_control(tls, SQLITE_TESTCTRL_IMPOSTER, libc.VaList(bp+136, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+6844, 0, 0))
}
}
func rbuCreateImposterTable(tls *libc.TLS, p uintptr, pIter uintptr) {
bp := tls.Alloc(200)
defer tls.Free(200)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*RbuObjIter)(unsafe.Pointer(pIter)).FeType != RBU_PK_VTAB {
var tnum int32 = (*RbuObjIter)(unsafe.Pointer(pIter)).FiTnum
var zComma uintptr = ts + 1547
var zSql uintptr = uintptr(0)
var iCol int32
Xsqlite3_test_control(tls, SQLITE_TESTCTRL_IMPOSTER, libc.VaList(bp, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+6844, 0, 1))
for iCol = 0; (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && iCol < (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol; iCol++ {
var zPk uintptr = ts + 1547
var zCol uintptr = *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblCol + uintptr(iCol)*8))
*(*uintptr)(unsafe.Pointer(bp + 192)) = uintptr(0)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_table_column_metadata(tls,
(*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+6844, (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl, zCol, uintptr(0), bp+192, uintptr(0), uintptr(0), uintptr(0))
if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_IPK && *(*U8)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FabTblPk + uintptr(iCol))) != 0 {
zPk = ts + 30070
}
zSql = rbuMPrintf(tls, p, ts+30083,
libc.VaList(bp+32, zSql, zComma, zCol, *(*uintptr)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FazTblType + uintptr(iCol)*8)), zPk, *(*uintptr)(unsafe.Pointer(bp + 192)),
func() uintptr {
if *(*U8)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FabNotNull + uintptr(iCol))) != 0 {
return ts + 30110
}
return ts + 1547
}()))
zComma = ts + 15017
}
if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_WITHOUT_ROWID {
var zPk uintptr = rbuWithoutRowidPK(tls, p, pIter)
if zPk != 0 {
zSql = rbuMPrintf(tls, p, ts+30120, libc.VaList(bp+88, zSql, zPk))
}
}
Xsqlite3_test_control(tls, SQLITE_TESTCTRL_IMPOSTER, libc.VaList(bp+104, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+6844, 1, tnum))
rbuMPrintfExec(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+30127,
libc.VaList(bp+136, (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl, zSql,
func() uintptr {
if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_WITHOUT_ROWID {
return ts + 30159
}
return ts + 1547
}()))
Xsqlite3_test_control(tls, SQLITE_TESTCTRL_IMPOSTER, libc.VaList(bp+160, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+6844, 0, 0))
}
}
func rbuObjIterPrepareTmpInsert(tls *libc.TLS, p uintptr, pIter uintptr, zCollist uintptr, zRbuRowid uintptr) {
bp := tls.Alloc(40)
defer tls.Free(40)
var bRbuRowid int32 = libc.Bool32((*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_EXTERNAL || (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_NONE)
var zBind uintptr = rbuObjIterGetBindlist(tls, p, (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol+1+bRbuRowid)
if zBind != 0 {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls,
(*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, pIter+152, p+64, Xsqlite3_mprintf(tls,
ts+30174,
libc.VaList(bp, p+48, (*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl, zCollist, zRbuRowid, zBind)))
}
}
func rbuTmpInsertFunc(tls *libc.TLS, pCtx uintptr, nVal int32, apVal uintptr) {
var p uintptr = Xsqlite3_user_data(tls, pCtx)
var rc int32 = SQLITE_OK
var i int32
if Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(apVal))) != 0 {
*(*I64)(unsafe.Pointer(p + 304)) += I64((*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FnIndex)
}
for i = 0; rc == SQLITE_OK && i < nVal; i++ {
rc = Xsqlite3_bind_value(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FpTmpInsert, i+1, *(*uintptr)(unsafe.Pointer(apVal + uintptr(i)*8)))
}
if rc == SQLITE_OK {
Xsqlite3_step(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FpTmpInsert)
rc = Xsqlite3_reset(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FpTmpInsert)
}
if rc != SQLITE_OK {
Xsqlite3_result_error_code(tls, pCtx, rc)
}
}
func rbuObjIterGetIndexWhere(tls *libc.TLS, p uintptr, pIter uintptr) uintptr {
bp := tls.Alloc(12)
defer tls.Free(12)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 8)) = (*Sqlite3rbu)(unsafe.Pointer(p)).Frc
var zRet uintptr = uintptr(0)
if *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 8)) = prepareAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp, p+64,
ts+30231)
}
if *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK {
var rc2 int32
*(*int32)(unsafe.Pointer(bp + 8)) = Xsqlite3_bind_text(tls, *(*uintptr)(unsafe.Pointer(bp)), 1, (*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx, -1, uintptr(0))
if *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp))) {
var zSql uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp)), 0)
if zSql != 0 {
(*RbuObjIter)(unsafe.Pointer(pIter)).FzIdxSql = libc.AssignUintptr(&zSql, rbuStrndup(tls, zSql, bp+8))
}
if zSql != 0 {
var nParen int32 = 0
var i int32
var iIdxCol int32 = 0
var nIdxAlloc int32 = 0
for i = 0; *(*int8)(unsafe.Pointer(zSql + uintptr(i))) != 0; i++ {
var c int8 = *(*int8)(unsafe.Pointer(zSql + uintptr(i)))
if iIdxCol == nIdxAlloc {
var aIdxCol uintptr = Xsqlite3_realloc(tls,
(*RbuObjIter)(unsafe.Pointer(pIter)).FaIdxCol, int32(uint64(nIdxAlloc+16)*uint64(unsafe.Sizeof(RbuSpan{}))))
if aIdxCol == uintptr(0) {
*(*int32)(unsafe.Pointer(bp + 8)) = SQLITE_NOMEM
break
}
(*RbuObjIter)(unsafe.Pointer(pIter)).FaIdxCol = aIdxCol
nIdxAlloc = nIdxAlloc + 16
}
if int32(c) == '(' {
if nParen == 0 {
(*RbuSpan)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaIdxCol)).FzSpan = zSql + uintptr(i+1)
}
nParen++
} else if int32(c) == ')' {
nParen--
if nParen == 0 {
var nSpan int32 = int32((int64(zSql+uintptr(i)) - int64((*RbuSpan)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaIdxCol+uintptr(iIdxCol)*16)).FzSpan)) / 1)
(*RbuSpan)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaIdxCol + uintptr(libc.PostIncInt32(&iIdxCol, 1))*16)).FnSpan = nSpan
i++
break
}
} else if int32(c) == ',' && nParen == 1 {
var nSpan int32 = int32((int64(zSql+uintptr(i)) - int64((*RbuSpan)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaIdxCol+uintptr(iIdxCol)*16)).FzSpan)) / 1)
(*RbuSpan)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaIdxCol + uintptr(libc.PostIncInt32(&iIdxCol, 1))*16)).FnSpan = nSpan
(*RbuSpan)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaIdxCol + uintptr(iIdxCol)*16)).FzSpan = zSql + uintptr(i+1)
} else if int32(c) == '"' || int32(c) == '\'' || int32(c) == '`' {
for i++; 1 != 0; i++ {
if int32(*(*int8)(unsafe.Pointer(zSql + uintptr(i)))) == int32(c) {
if int32(*(*int8)(unsafe.Pointer(zSql + uintptr(i+1)))) != int32(c) {
break
}
i++
}
}
} else if int32(c) == '[' {
for i++; 1 != 0; i++ {
if int32(*(*int8)(unsafe.Pointer(zSql + uintptr(i)))) == ']' {
break
}
}
} else if int32(c) == '-' && int32(*(*int8)(unsafe.Pointer(zSql + uintptr(i+1)))) == '-' {
for i = i + 2; *(*int8)(unsafe.Pointer(zSql + uintptr(i))) != 0 && int32(*(*int8)(unsafe.Pointer(zSql + uintptr(i)))) != '\n'; i++ {
}
if int32(*(*int8)(unsafe.Pointer(zSql + uintptr(i)))) == 0 {
break
}
} else if int32(c) == '/' && int32(*(*int8)(unsafe.Pointer(zSql + uintptr(i+1)))) == '*' {
for i = i + 2; *(*int8)(unsafe.Pointer(zSql + uintptr(i))) != 0 && (int32(*(*int8)(unsafe.Pointer(zSql + uintptr(i)))) != '*' || int32(*(*int8)(unsafe.Pointer(zSql + uintptr(i+1)))) != '/'); i++ {
}
if int32(*(*int8)(unsafe.Pointer(zSql + uintptr(i)))) == 0 {
break
}
i++
}
}
if *(*int8)(unsafe.Pointer(zSql + uintptr(i))) != 0 {
zRet = rbuStrndup(tls, zSql+uintptr(i), bp+8)
}
(*RbuObjIter)(unsafe.Pointer(pIter)).FnIdxCol = iIdxCol
}
}
rc2 = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
if *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 8)) = rc2
}
}
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = *(*int32)(unsafe.Pointer(bp + 8))
return zRet
}
func rbuObjIterPrepareAll(tls *libc.TLS, p uintptr, pIter uintptr, nOffset int32) int32 {
bp := tls.Alloc(628)
defer tls.Free(628)
if (*RbuObjIter)(unsafe.Pointer(pIter)).FpSelect == uintptr(0) && rbuObjIterCacheTableInfo(tls, p, pIter) == SQLITE_OK {
var tnum int32 = (*RbuObjIter)(unsafe.Pointer(pIter)).FiTnum
var zCollist uintptr = uintptr(0)
var pz uintptr = p + 64
var zIdx uintptr = (*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx
var zLimit uintptr = uintptr(0)
if nOffset != 0 {
zLimit = Xsqlite3_mprintf(tls, ts+30297, libc.VaList(bp, nOffset))
if !(zLimit != 0) {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
}
}
if zIdx != 0 {
var zTbl uintptr = (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl
*(*uintptr)(unsafe.Pointer(bp + 600)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 608)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 616)) = uintptr(0)
var zBind uintptr = uintptr(0)
var zPart uintptr = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 624)) = 0
zPart = rbuObjIterGetIndexWhere(tls, p, pIter)
zCollist = rbuObjIterGetIndexCols(tls,
p, pIter, bp+600, bp+608, bp+616, bp+624)
zBind = rbuObjIterGetBindlist(tls, p, *(*int32)(unsafe.Pointer(bp + 624)))
Xsqlite3_test_control(tls, SQLITE_TESTCTRL_IMPOSTER, libc.VaList(bp+8, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+6844, 0, 1))
Xsqlite3_test_control(tls, SQLITE_TESTCTRL_IMPOSTER, libc.VaList(bp+40, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+6844, 1, tnum))
rbuMPrintfExec(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain,
ts+30317,
libc.VaList(bp+72, zTbl, *(*uintptr)(unsafe.Pointer(bp + 600)), *(*uintptr)(unsafe.Pointer(bp + 608))))
Xsqlite3_test_control(tls, SQLITE_TESTCTRL_IMPOSTER, libc.VaList(bp+96, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+6844, 0, 0))
(*RbuObjIter)(unsafe.Pointer(pIter)).FnCol = *(*int32)(unsafe.Pointer(bp + 624))
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls,
(*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, pIter+136, p+64,
Xsqlite3_mprintf(tls, ts+30382, libc.VaList(bp+128, zTbl, zBind)))
}
if libc.Bool32((*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0)) == 0 && (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls,
(*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, pIter+144, p+64,
Xsqlite3_mprintf(tls, ts+30418, libc.VaList(bp+144, zTbl, *(*uintptr)(unsafe.Pointer(bp + 616)))))
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var zSql uintptr
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
var zStart uintptr = uintptr(0)
if nOffset != 0 {
zStart = rbuVacuumIndexStart(tls, p, pIter)
if zStart != 0 {
Xsqlite3_free(tls, zLimit)
zLimit = uintptr(0)
}
}
zSql = Xsqlite3_mprintf(tls,
ts+30452,
libc.VaList(bp+160, zCollist,
(*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl,
zPart,
func() uintptr {
if zStart != 0 {
return func() uintptr {
if zPart != 0 {
return ts + 30513
}
return ts + 30517
}()
}
return ts + 1547
}(), zStart,
zCollist, zLimit))
Xsqlite3_free(tls, zStart)
} else if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_EXTERNAL || (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_NONE {
zSql = Xsqlite3_mprintf(tls,
ts+30523,
libc.VaList(bp+216, zCollist, p+48, (*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl,
zPart, zCollist, zLimit))
} else {
zSql = Xsqlite3_mprintf(tls,
ts+30584,
libc.VaList(bp+264, zCollist, p+48, (*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl, zPart,
zCollist, (*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl,
zPart,
func() uintptr {
if zPart != 0 {
return ts + 30513
}
return ts + 30517
}(),
zCollist, zLimit))
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, pIter+128, pz, zSql)
} else {
Xsqlite3_free(tls, zSql)
}
}
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 600)))
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 608)))
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 616)))
Xsqlite3_free(tls, zBind)
Xsqlite3_free(tls, zPart)
} else {
var bRbuRowid int32 = libc.Bool32((*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_VTAB ||
(*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_NONE ||
(*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_EXTERNAL && (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0))
var zTbl uintptr = (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl
var zWrite uintptr
var zBindings uintptr = rbuObjIterGetBindlist(tls, p, (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol+bRbuRowid)
var zWhere uintptr = rbuObjIterGetWhere(tls, p, pIter)
var zOldlist uintptr = rbuObjIterGetOldlist(tls, p, pIter, ts+6855)
var zNewlist uintptr = rbuObjIterGetOldlist(tls, p, pIter, ts+6851)
zCollist = rbuObjIterGetCollist(tls, p, pIter)
(*RbuObjIter)(unsafe.Pointer(pIter)).FnCol = (*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol
rbuCreateImposterTable(tls, p, pIter)
rbuCreateImposterTable2(tls, p, pIter)
zWrite = func() uintptr {
if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_VTAB {
return ts + 1547
}
return ts + 30743
}()
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, pIter+136, pz,
Xsqlite3_mprintf(tls,
ts+30752,
libc.VaList(bp+344, zWrite, zTbl, zCollist, func() uintptr {
if bRbuRowid != 0 {
return ts + 30788
}
return ts + 1547
}(), zBindings)))
}
if libc.Bool32((*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0)) == 0 && (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, pIter+144, pz,
Xsqlite3_mprintf(tls,
ts+30798, libc.VaList(bp+384, zWrite, zTbl, zWhere)))
}
if libc.Bool32((*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0)) == 0 && (*RbuObjIter)(unsafe.Pointer(pIter)).FabIndexed != 0 {
var zRbuRowid uintptr = ts + 1547
if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_EXTERNAL || (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_NONE {
zRbuRowid = ts + 30826
}
rbuMPrintfExec(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu,
ts+30838, libc.VaList(bp+408, p+48, (*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl, func() uintptr {
if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_EXTERNAL {
return ts + 30914
}
return ts + 1547
}(), (*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl))
rbuMPrintfExec(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain,
ts+30931,
libc.VaList(bp+440, zWrite, zTbl, zOldlist,
zWrite, zTbl, zOldlist,
zWrite, zTbl, zNewlist))
if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_EXTERNAL || (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_NONE {
rbuMPrintfExec(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain,
ts+31230,
libc.VaList(bp+512, zWrite, zTbl, zNewlist))
}
rbuObjIterPrepareTmpInsert(tls, p, pIter, zCollist, zRbuRowid)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var zRbuRowid uintptr = ts + 1547
var zStart uintptr = uintptr(0)
var zOrder uintptr = uintptr(0)
if bRbuRowid != 0 {
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
zRbuRowid = ts + 31329
} else {
zRbuRowid = ts + 31339
}
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
if nOffset != 0 {
zStart = rbuVacuumTableStart(tls, p, pIter, bRbuRowid, zWrite)
if zStart != 0 {
Xsqlite3_free(tls, zLimit)
zLimit = uintptr(0)
}
}
if bRbuRowid != 0 {
zOrder = rbuMPrintf(tls, p, ts+29386, 0)
} else {
zOrder = rbuObjIterGetPkList(tls, p, pIter, ts+1547, ts+15017, ts+1547)
}
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, pIter+128, pz,
Xsqlite3_mprintf(tls,
ts+31350,
libc.VaList(bp+536, zCollist,
func() uintptr {
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
return ts + 31398
}
return ts + 1547
}(),
zRbuRowid,
(*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl, func() uintptr {
if zStart != 0 {
return zStart
}
return ts + 1547
}(),
func() uintptr {
if zOrder != 0 {
return ts + 23309
}
return ts + 1547
}(), zOrder,
zLimit)))
}
Xsqlite3_free(tls, zStart)
Xsqlite3_free(tls, zOrder)
}
Xsqlite3_free(tls, zWhere)
Xsqlite3_free(tls, zOldlist)
Xsqlite3_free(tls, zNewlist)
Xsqlite3_free(tls, zBindings)
}
Xsqlite3_free(tls, zCollist)
Xsqlite3_free(tls, zLimit)
}
return (*Sqlite3rbu)(unsafe.Pointer(p)).Frc
}
func rbuGetUpdateStmt(tls *libc.TLS, p uintptr, pIter uintptr, zMask uintptr, ppStmt uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var pp uintptr
var pUp uintptr = uintptr(0)
var nUp int32 = 0
*(*uintptr)(unsafe.Pointer(ppStmt)) = uintptr(0)
for pp = pIter + 184; *(*uintptr)(unsafe.Pointer(pp)) != 0; pp = *(*uintptr)(unsafe.Pointer(pp)) + 16 {
pUp = *(*uintptr)(unsafe.Pointer(pp))
if libc.Xstrcmp(tls, (*RbuUpdateStmt)(unsafe.Pointer(pUp)).FzMask, zMask) == 0 {
*(*uintptr)(unsafe.Pointer(pp)) = (*RbuUpdateStmt)(unsafe.Pointer(pUp)).FpNext
(*RbuUpdateStmt)(unsafe.Pointer(pUp)).FpNext = (*RbuObjIter)(unsafe.Pointer(pIter)).FpRbuUpdate
(*RbuObjIter)(unsafe.Pointer(pIter)).FpRbuUpdate = pUp
*(*uintptr)(unsafe.Pointer(ppStmt)) = (*RbuUpdateStmt)(unsafe.Pointer(pUp)).FpUpdate
return SQLITE_OK
}
nUp++
}
if nUp >= SQLITE_RBU_UPDATE_CACHESIZE {
for pp = pIter + 184; *(*uintptr)(unsafe.Pointer(pp)) != pUp; pp = *(*uintptr)(unsafe.Pointer(pp)) + 16 {
}
*(*uintptr)(unsafe.Pointer(pp)) = uintptr(0)
Xsqlite3_finalize(tls, (*RbuUpdateStmt)(unsafe.Pointer(pUp)).FpUpdate)
(*RbuUpdateStmt)(unsafe.Pointer(pUp)).FpUpdate = uintptr(0)
} else {
pUp = rbuMalloc(tls, p, int64(uint64(unsafe.Sizeof(RbuUpdateStmt{}))+uint64((*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol)+uint64(1)))
}
if pUp != 0 {
var zWhere uintptr = rbuObjIterGetWhere(tls, p, pIter)
var zSet uintptr = rbuObjIterGetSetlist(tls, p, pIter, zMask)
var zUpdate uintptr = uintptr(0)
(*RbuUpdateStmt)(unsafe.Pointer(pUp)).FzMask = pUp + 1*24
libc.X__builtin___memcpy_chk(tls, (*RbuUpdateStmt)(unsafe.Pointer(pUp)).FzMask, zMask, uint64((*RbuObjIter)(unsafe.Pointer(pIter)).FnTblCol), libc.X__builtin_object_size(tls, (*RbuUpdateStmt)(unsafe.Pointer(pUp)).FzMask, 0))
(*RbuUpdateStmt)(unsafe.Pointer(pUp)).FpNext = (*RbuObjIter)(unsafe.Pointer(pIter)).FpRbuUpdate
(*RbuObjIter)(unsafe.Pointer(pIter)).FpRbuUpdate = pUp
if zSet != 0 {
var zPrefix uintptr = ts + 1547
if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType != RBU_PK_VTAB {
zPrefix = ts + 30743
}
zUpdate = Xsqlite3_mprintf(tls, ts+31404,
libc.VaList(bp, zPrefix, (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl, zSet, zWhere))
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls,
(*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, pUp+8, p+64, zUpdate)
*(*uintptr)(unsafe.Pointer(ppStmt)) = (*RbuUpdateStmt)(unsafe.Pointer(pUp)).FpUpdate
}
Xsqlite3_free(tls, zWhere)
Xsqlite3_free(tls, zSet)
}
return (*Sqlite3rbu)(unsafe.Pointer(p)).Frc
}
func rbuOpenDbhandle(tls *libc.TLS, p uintptr, zName uintptr, bUseVfs int32) uintptr {
bp := tls.Alloc(16)
defer tls.Free(16)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var flags int32 = SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE | SQLITE_OPEN_URI
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_open_v2(tls, zName, bp+8, flags, func() uintptr {
if bUseVfs != 0 {
return (*Sqlite3rbu)(unsafe.Pointer(p)).FzVfsName
}
return uintptr(0)
}())
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc != 0 {
(*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp, Xsqlite3_errmsg(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))))
Xsqlite3_close(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
}
}
return *(*uintptr)(unsafe.Pointer(bp + 8))
}
func rbuFreeState(tls *libc.TLS, p uintptr) {
if p != 0 {
Xsqlite3_free(tls, (*RbuState)(unsafe.Pointer(p)).FzTbl)
Xsqlite3_free(tls, (*RbuState)(unsafe.Pointer(p)).FzDataTbl)
Xsqlite3_free(tls, (*RbuState)(unsafe.Pointer(p)).FzIdx)
Xsqlite3_free(tls, p)
}
}
func rbuLoadState(tls *libc.TLS, p uintptr) uintptr {
bp := tls.Alloc(20)
defer tls.Free(20)
var pRet uintptr = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
var rc2 int32
pRet = rbuMalloc(tls, p, int64(unsafe.Sizeof(RbuState{})))
if pRet == uintptr(0) {
return uintptr(0)
}
*(*int32)(unsafe.Pointer(bp + 16)) = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, bp+8, p+64,
Xsqlite3_mprintf(tls, ts+31434, libc.VaList(bp, p+48)))
for *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 8))) {
switch Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 0) {
case RBU_STATE_STAGE:
(*RbuState)(unsafe.Pointer(pRet)).FeStage = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 1)
if (*RbuState)(unsafe.Pointer(pRet)).FeStage != RBU_STAGE_OAL &&
(*RbuState)(unsafe.Pointer(pRet)).FeStage != RBU_STAGE_MOVE &&
(*RbuState)(unsafe.Pointer(pRet)).FeStage != RBU_STAGE_CKPT {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT
}
break
case RBU_STATE_TBL:
(*RbuState)(unsafe.Pointer(pRet)).FzTbl = rbuStrndup(tls, Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 1), bp+16)
break
case RBU_STATE_IDX:
(*RbuState)(unsafe.Pointer(pRet)).FzIdx = rbuStrndup(tls, Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 1), bp+16)
break
case RBU_STATE_ROW:
(*RbuState)(unsafe.Pointer(pRet)).FnRow = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 1)
break
case RBU_STATE_PROGRESS:
(*RbuState)(unsafe.Pointer(pRet)).FnProgress = Xsqlite3_column_int64(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 1)
break
case RBU_STATE_CKPT:
(*RbuState)(unsafe.Pointer(pRet)).FiWalCksum = Xsqlite3_column_int64(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 1)
break
case RBU_STATE_COOKIE:
(*RbuState)(unsafe.Pointer(pRet)).FiCookie = U32(Xsqlite3_column_int64(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 1))
break
case RBU_STATE_OALSZ:
(*RbuState)(unsafe.Pointer(pRet)).FiOalSz = Xsqlite3_column_int64(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 1)
break
case RBU_STATE_PHASEONESTEP:
(*RbuState)(unsafe.Pointer(pRet)).FnPhaseOneStep = Xsqlite3_column_int64(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 1)
break
case RBU_STATE_DATATBL:
(*RbuState)(unsafe.Pointer(pRet)).FzDataTbl = rbuStrndup(tls, Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 1), bp+16)
break
default:
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_CORRUPT
break
}
}
rc2 = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 16)) = rc2
}
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = *(*int32)(unsafe.Pointer(bp + 16))
return pRet
}
func rbuOpenDatabase(tls *libc.TLS, p uintptr, dbMain uintptr, pbRetry uintptr) {
bp := tls.Alloc(56)
defer tls.Free(56)
(*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu = rbuOpenDbhandle(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FzRbu, 1)
(*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain = dbMain
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
Xsqlite3_file_control(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, ts+6844, SQLITE_FCNTL_RBUCNT, p)
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzState == uintptr(0) {
var zFile uintptr = Xsqlite3_db_filename(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, ts+6844)
(*Sqlite3rbu)(unsafe.Pointer(p)).FzState = rbuMPrintf(tls, p, ts+31464, libc.VaList(bp, zFile, zFile))
}
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzState != 0 {
rbuMPrintfExec(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, ts+31492, libc.VaList(bp+16, (*Sqlite3rbu)(unsafe.Pointer(p)).FzState))
libc.X__builtin___memcpy_chk(tls, p+48, ts+3279, uint64(4), libc.X__builtin_object_size(tls, p+48, 0))
} else {
libc.X__builtin___memcpy_chk(tls, p+48, ts+6844, uint64(4), libc.X__builtin_object_size(tls, p+48, 0))
}
rbuMPrintfExec(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, ts+31510, libc.VaList(bp+24, p+48))
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
var bOpen int32 = 0
var rc int32
(*Sqlite3rbu)(unsafe.Pointer(p)).FnRbu = 0
(*Sqlite3rbu)(unsafe.Pointer(p)).FpRbuFd = uintptr(0)
rc = Xsqlite3_file_control(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, ts+6844, SQLITE_FCNTL_RBUCNT, p)
if rc != SQLITE_NOTFOUND {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = rc
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage >= RBU_STAGE_MOVE {
bOpen = 1
} else {
var pState uintptr = rbuLoadState(tls, p)
if pState != 0 {
bOpen = libc.Bool32((*RbuState)(unsafe.Pointer(pState)).FeStage >= RBU_STAGE_MOVE)
rbuFreeState(tls, pState)
}
}
if bOpen != 0 {
(*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain = rbuOpenDbhandle(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FzRbu, libc.Bool32((*Sqlite3rbu)(unsafe.Pointer(p)).FnRbu <= 1))
}
}
(*Sqlite3rbu)(unsafe.Pointer(p)).FeStage = 0
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain == uintptr(0) {
if !((*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0)) {
(*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain = rbuOpenDbhandle(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget, 1)
} else if (*Rbu_file)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(p)).FpRbuFd)).FpWalFd != 0 {
if pbRetry != 0 {
(*Rbu_file)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(p)).FpRbuFd)).FbNolock = U8(0)
Xsqlite3_close(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu)
Xsqlite3_close(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain)
(*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain = uintptr(0)
(*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu = uintptr(0)
*(*int32)(unsafe.Pointer(pbRetry)) = 1
return
}
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_ERROR
(*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg = Xsqlite3_mprintf(tls, ts+31576, 0)
} else {
var zTarget uintptr
var zExtra uintptr = uintptr(0)
if libc.Xstrlen(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FzRbu) >= uint64(5) && 0 == libc.Xmemcmp(tls, ts+24656, (*Sqlite3rbu)(unsafe.Pointer(p)).FzRbu, uint64(5)) {
zExtra = (*Sqlite3rbu)(unsafe.Pointer(p)).FzRbu + 5
for *(*int8)(unsafe.Pointer(zExtra)) != 0 {
if int32(*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zExtra, 1)))) == '?' {
break
}
}
if int32(*(*int8)(unsafe.Pointer(zExtra))) == 0 {
zExtra = uintptr(0)
}
}
zTarget = Xsqlite3_mprintf(tls, ts+31608,
libc.VaList(bp+32, Xsqlite3_db_filename(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, ts+6844),
func() uintptr {
if zExtra == uintptr(0) {
return ts + 1547
}
return ts + 31640
}(), func() uintptr {
if zExtra == uintptr(0) {
return ts + 1547
}
return zExtra
}()))
if zTarget == uintptr(0) {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
return
}
(*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain = rbuOpenDbhandle(tls, p, zTarget, libc.Bool32((*Sqlite3rbu)(unsafe.Pointer(p)).FnRbu <= 1))
Xsqlite3_free(tls, zTarget)
}
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_create_function(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain,
ts+31642, -1, SQLITE_UTF8, p, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{rbuTmpInsertFunc})), uintptr(0), uintptr(0))
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_create_function(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain,
ts+31657, 2, SQLITE_UTF8, uintptr(0), *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{rbuFossilDeltaFunc})), uintptr(0), uintptr(0))
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_create_function(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu,
ts+31674, -1, SQLITE_UTF8, p, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{rbuTargetNameFunc})), uintptr(0), uintptr(0))
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_file_control(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+6844, SQLITE_FCNTL_RBU, p)
}
rbuMPrintfExec(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+31690, 0)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_file_control(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+6844, SQLITE_FCNTL_RBU, p)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_NOTFOUND {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_ERROR
(*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg = Xsqlite3_mprintf(tls, ts+31718, 0)
}
}
func rbuFileSuffix3(tls *libc.TLS, zBase uintptr, z uintptr) {
}
func rbuShmChecksum(tls *libc.TLS, p uintptr) I64 {
bp := tls.Alloc(8)
defer tls.Free(8)
var iRet I64 = int64(0)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var pDb uintptr = (*Rbu_file)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(p)).FpTargetFd)).FpReal
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = (*struct {
f func(*libc.TLS, uintptr, int32, int32, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(pDb)).FpMethods)).FxShmMap})).f(tls, pDb, 0, 32*1024, 0, bp)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
iRet = I64(*(*U32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)) + 10*4)))<<32 + I64(*(*U32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)) + 11*4)))
}
}
return iRet
}
func rbuSetupCheckpoint(tls *libc.TLS, p uintptr, pState uintptr) {
if pState == uintptr(0) {
(*Sqlite3rbu)(unsafe.Pointer(p)).FeStage = 0
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+31690, uintptr(0), uintptr(0), uintptr(0))
}
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var rc2 int32
(*Sqlite3rbu)(unsafe.Pointer(p)).FeStage = RBU_STAGE_CAPTURE
rc2 = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+31736, uintptr(0), uintptr(0), uintptr(0))
if rc2 != SQLITE_NOTICE {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = rc2
}
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Sqlite3rbu)(unsafe.Pointer(p)).FnFrame > 0 {
(*Sqlite3rbu)(unsafe.Pointer(p)).FeStage = RBU_STAGE_CKPT
(*Sqlite3rbu)(unsafe.Pointer(p)).FnStep = func() int32 {
if pState != 0 {
return (*RbuState)(unsafe.Pointer(pState)).FnRow
}
return 0
}()
(*Sqlite3rbu)(unsafe.Pointer(p)).FaBuf = rbuMalloc(tls, p, int64((*Sqlite3rbu)(unsafe.Pointer(p)).Fpgsz))
(*Sqlite3rbu)(unsafe.Pointer(p)).FiWalCksum = rbuShmChecksum(tls, p)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
if (*Sqlite3rbu)(unsafe.Pointer(p)).FnFrame == 0 || pState != 0 && (*RbuState)(unsafe.Pointer(pState)).FiWalCksum != (*Sqlite3rbu)(unsafe.Pointer(p)).FiWalCksum {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_DONE
(*Sqlite3rbu)(unsafe.Pointer(p)).FeStage = RBU_STAGE_DONE
} else {
var nSectorSize int32
var pDb uintptr = (*Rbu_file)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(p)).FpTargetFd)).FpReal
var pWal uintptr = (*Rbu_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(p)).FpTargetFd)).FpWalFd)).FpReal
nSectorSize = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(pDb)).FpMethods)).FxSectorSize})).f(tls, pDb)
if nSectorSize > (*Sqlite3rbu)(unsafe.Pointer(p)).Fpgsz {
(*Sqlite3rbu)(unsafe.Pointer(p)).FnPagePerSector = nSectorSize / (*Sqlite3rbu)(unsafe.Pointer(p)).Fpgsz
} else {
(*Sqlite3rbu)(unsafe.Pointer(p)).FnPagePerSector = 1
}
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(pWal)).FpMethods)).FxSync})).f(tls, pWal, SQLITE_SYNC_NORMAL)
}
}
}
func rbuCaptureWalRead(tls *libc.TLS, pRbu uintptr, iOff I64, iAmt int32) int32 {
var mReq U32 = U32(int32(1)<<WAL_LOCK_WRITE | int32(1)<<WAL_LOCK_CKPT | int32(1)<<WAL_LOCK_READ0)
var iFrame U32
if (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FmLock != mReq {
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).Frc = SQLITE_BUSY
return SQLITE_NOTICE | int32(3)<<8
}
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).Fpgsz = iAmt
if (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FnFrame == (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FnFrameAlloc {
var nNew int32 = func() int32 {
if (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FnFrameAlloc != 0 {
return (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FnFrameAlloc
}
return 64
}() * 2
var aNew uintptr
aNew = Xsqlite3_realloc64(tls, (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FaFrame, uint64(nNew)*uint64(unsafe.Sizeof(RbuFrame{})))
if aNew == uintptr(0) {
return SQLITE_NOMEM
}
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FaFrame = aNew
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FnFrameAlloc = nNew
}
iFrame = U32((iOff-int64(32))/I64(iAmt+24)) + U32(1)
if (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FiMaxFrame < iFrame {
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FiMaxFrame = iFrame
}
(*RbuFrame)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(pRbu)).FaFrame + uintptr((*Sqlite3rbu)(unsafe.Pointer(pRbu)).FnFrame)*8)).FiWalFrame = iFrame
(*RbuFrame)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(pRbu)).FaFrame + uintptr((*Sqlite3rbu)(unsafe.Pointer(pRbu)).FnFrame)*8)).FiDbPage = U32(0)
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FnFrame++
return SQLITE_OK
}
func rbuCaptureDbWrite(tls *libc.TLS, pRbu uintptr, iOff I64) int32 {
(*RbuFrame)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(pRbu)).FaFrame + uintptr((*Sqlite3rbu)(unsafe.Pointer(pRbu)).FnFrame-1)*8)).FiDbPage = U32(iOff/I64((*Sqlite3rbu)(unsafe.Pointer(pRbu)).Fpgsz)) + U32(1)
return SQLITE_OK
}
func rbuCheckpointFrame(tls *libc.TLS, p uintptr, pFrame uintptr) {
var pWal uintptr = (*Rbu_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(p)).FpTargetFd)).FpWalFd)).FpReal
var pDb uintptr = (*Rbu_file)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(p)).FpTargetFd)).FpReal
var iOff I64
iOff = I64((*RbuFrame)(unsafe.Pointer(pFrame)).FiWalFrame-U32(1))*I64((*Sqlite3rbu)(unsafe.Pointer(p)).Fpgsz+24) + int64(32) + int64(24)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(pWal)).FpMethods)).FxRead})).f(tls, pWal, (*Sqlite3rbu)(unsafe.Pointer(p)).FaBuf, (*Sqlite3rbu)(unsafe.Pointer(p)).Fpgsz, iOff)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc != 0 {
return
}
iOff = I64((*RbuFrame)(unsafe.Pointer(pFrame)).FiDbPage-U32(1)) * I64((*Sqlite3rbu)(unsafe.Pointer(p)).Fpgsz)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(pDb)).FpMethods)).FxWrite})).f(tls, pDb, (*Sqlite3rbu)(unsafe.Pointer(p)).FaBuf, (*Sqlite3rbu)(unsafe.Pointer(p)).Fpgsz, iOff)
}
func rbuLockDatabase(tls *libc.TLS, db uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
Xsqlite3_file_control(tls, db, ts+6844, SQLITE_FCNTL_FILE_POINTER, bp)
if (*Sqlite3_file)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpMethods != 0 {
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpMethods)).FxLock})).f(tls, *(*uintptr)(unsafe.Pointer(bp)), SQLITE_LOCK_SHARED)
if rc == SQLITE_OK {
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FpMethods)).FxLock})).f(tls, *(*uintptr)(unsafe.Pointer(bp)), SQLITE_LOCK_EXCLUSIVE)
}
}
return rc
}
func rbuExclusiveCheckpoint(tls *libc.TLS, db uintptr) int32 {
var zUri uintptr = Xsqlite3_db_filename(tls, db, uintptr(0))
return Xsqlite3_uri_boolean(tls, zUri, ts+31771, 0)
}
func rbuMoveOalFile(tls *libc.TLS, p uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
var zBase uintptr = Xsqlite3_db_filename(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+6844)
var zMove uintptr = zBase
var zOal uintptr
var zWal uintptr
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
zMove = Xsqlite3_db_filename(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, ts+6844)
}
zOal = Xsqlite3_mprintf(tls, ts+31796, libc.VaList(bp, zMove))
zWal = Xsqlite3_mprintf(tls, ts+31803, libc.VaList(bp+8, zMove))
if zWal == uintptr(0) || zOal == uintptr(0) {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
} else {
var dbMain uintptr = uintptr(0)
rbuFileSuffix3(tls, zBase, zWal)
rbuFileSuffix3(tls, zBase, zOal)
rbuObjIterFinalize(tls, p+80)
Xsqlite3_close(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu)
Xsqlite3_close(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain)
(*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain = uintptr(0)
(*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu = uintptr(0)
dbMain = rbuOpenDbhandle(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget, 1)
if dbMain != 0 {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = rbuLockDatabase(tls, dbMain)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3rbu)(unsafe.Pointer(p)).FxRename})).f(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FpRenameArg, zOal, zWal)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc != SQLITE_OK ||
(*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) ||
rbuExclusiveCheckpoint(tls, dbMain) == 0 {
Xsqlite3_close(tls, dbMain)
dbMain = uintptr(0)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
rbuOpenDatabase(tls, p, dbMain, uintptr(0))
rbuSetupCheckpoint(tls, p, uintptr(0))
}
}
Xsqlite3_free(tls, zWal)
Xsqlite3_free(tls, zOal)
}
func rbuStepType(tls *libc.TLS, p uintptr, pzMask uintptr) int32 {
var iCol int32 = (*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FnCol
var res int32 = 0
switch Xsqlite3_column_type(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FpSelect, iCol) {
case SQLITE_INTEGER:
{
var iVal int32 = Xsqlite3_column_int(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FpSelect, iCol)
switch iVal {
case 0:
res = RBU_INSERT
break
case 1:
res = RBU_DELETE
break
case 2:
res = RBU_REPLACE
break
case 3:
res = RBU_IDX_DELETE
break
case 4:
res = RBU_IDX_INSERT
break
}
break
}
case SQLITE_TEXT:
{
var z uintptr = Xsqlite3_column_text(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FpSelect, iCol)
if z == uintptr(0) {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
} else {
*(*uintptr)(unsafe.Pointer(pzMask)) = z
}
res = RBU_UPDATE
break
}
default:
break
}
if res == 0 {
rbuBadControlError(tls, p)
}
return res
}
func rbuStepOneOp(tls *libc.TLS, p uintptr, eType int32) {
var pIter uintptr = p + 80
var pVal uintptr
var pWriter uintptr
var i int32
if eType == RBU_DELETE {
*(*I64)(unsafe.Pointer(p + 304)) -= I64((*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FnIndex)
}
if eType == RBU_IDX_DELETE || eType == RBU_DELETE {
pWriter = (*RbuObjIter)(unsafe.Pointer(pIter)).FpDelete
} else {
pWriter = (*RbuObjIter)(unsafe.Pointer(pIter)).FpInsert
}
for i = 0; i < (*RbuObjIter)(unsafe.Pointer(pIter)).FnCol; i++ {
if eType == RBU_INSERT &&
(*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx == uintptr(0) && (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_IPK && *(*U8)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FabTblPk + uintptr(i))) != 0 &&
Xsqlite3_column_type(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpSelect, i) == SQLITE_NULL {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_MISMATCH
(*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg = Xsqlite3_mprintf(tls, ts+24294, 0)
return
}
if eType == RBU_DELETE && int32(*(*U8)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FabTblPk + uintptr(i)))) == 0 {
continue
}
pVal = Xsqlite3_column_value(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpSelect, i)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_bind_value(tls, pWriter, i+1, pVal)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc != 0 {
return
}
}
if (*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx == uintptr(0) {
if (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_VTAB ||
(*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_NONE ||
(*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_EXTERNAL && (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
pVal = Xsqlite3_column_value(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpSelect, (*RbuObjIter)(unsafe.Pointer(pIter)).FnCol+1)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_bind_value(tls, pWriter, (*RbuObjIter)(unsafe.Pointer(pIter)).FnCol+1, pVal)
}
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
Xsqlite3_step(tls, pWriter)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = resetAndCollectError(tls, pWriter, p+64)
}
}
func rbuStep(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var pIter uintptr = p + 80
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var eType int32 = rbuStepType(tls, p, bp)
if eType != 0 {
if (*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx == uintptr(0) && (eType == RBU_IDX_DELETE || eType == RBU_IDX_INSERT) {
rbuBadControlError(tls, p)
} else if eType == RBU_REPLACE {
if (*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx == uintptr(0) {
*(*I64)(unsafe.Pointer(p + 304)) += I64((*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FnIndex)
rbuStepOneOp(tls, p, RBU_DELETE)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
rbuStepOneOp(tls, p, RBU_INSERT)
}
} else if eType != RBU_UPDATE {
rbuStepOneOp(tls, p, eType)
} else {
var pVal uintptr
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
*(*I64)(unsafe.Pointer(p + 304)) -= I64((*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FnIndex)
rbuGetUpdateStmt(tls, p, pIter, *(*uintptr)(unsafe.Pointer(bp)), bp+8)
if *(*uintptr)(unsafe.Pointer(bp + 8)) != 0 {
var i int32
for i = 0; (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && i < (*RbuObjIter)(unsafe.Pointer(pIter)).FnCol; i++ {
var c int8 = *(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)) + uintptr(*(*int32)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FaiSrcOrder + uintptr(i)*4)))))
pVal = Xsqlite3_column_value(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpSelect, i)
if *(*U8)(unsafe.Pointer((*RbuObjIter)(unsafe.Pointer(pIter)).FabTblPk + uintptr(i))) != 0 || int32(c) != '.' {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_bind_value(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), i+1, pVal)
}
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK &&
((*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_VTAB || (*RbuObjIter)(unsafe.Pointer(pIter)).FeType == RBU_PK_NONE) {
pVal = Xsqlite3_column_value(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpSelect, (*RbuObjIter)(unsafe.Pointer(pIter)).FnCol+1)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_bind_value(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), (*RbuObjIter)(unsafe.Pointer(pIter)).FnCol+1, pVal)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = resetAndCollectError(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), p+64)
}
}
}
}
return (*Sqlite3rbu)(unsafe.Pointer(p)).Frc
}
func rbuIncrSchemaCookie(tls *libc.TLS, p uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var dbread uintptr = func() uintptr {
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
return (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu
}
return (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain
}()
var iCookie int32 = 1000000
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareAndCollectError(tls, dbread, bp+8, p+64,
ts+31810)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
if SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 8))) {
iCookie = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 0)
}
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
rbuMPrintfExec(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+31832, libc.VaList(bp, iCookie+1))
}
}
}
func rbuSaveState(tls *libc.TLS, p uintptr, eStage int32) {
bp := tls.Alloc(176)
defer tls.Free(176)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK || (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_DONE {
*(*uintptr)(unsafe.Pointer(bp + 168)) = uintptr(0)
var pFd uintptr = func() uintptr {
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
return (*Sqlite3rbu)(unsafe.Pointer(p)).FpRbuFd
}
return (*Sqlite3rbu)(unsafe.Pointer(p)).FpTargetFd
}()
var rc int32
rc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, bp+168, p+64,
Xsqlite3_mprintf(tls,
ts+31859,
libc.VaList(bp, p+48,
RBU_STATE_STAGE, eStage,
RBU_STATE_TBL, (*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FzTbl,
RBU_STATE_IDX, (*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FzIdx,
RBU_STATE_ROW, (*Sqlite3rbu)(unsafe.Pointer(p)).FnStep,
RBU_STATE_PROGRESS, (*Sqlite3rbu)(unsafe.Pointer(p)).FnProgress,
RBU_STATE_CKPT, (*Sqlite3rbu)(unsafe.Pointer(p)).FiWalCksum,
RBU_STATE_COOKIE, I64((*Rbu_file)(unsafe.Pointer(pFd)).FiCookie),
RBU_STATE_OALSZ, (*Sqlite3rbu)(unsafe.Pointer(p)).FiOalSz,
RBU_STATE_PHASEONESTEP, (*Sqlite3rbu)(unsafe.Pointer(p)).FnPhaseOneStep,
RBU_STATE_DATATBL, (*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FzDataTbl)))
if rc == SQLITE_OK {
Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 168)))
rc = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 168)))
}
if rc != SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = rc
}
}
}
func rbuCopyPragma(tls *libc.TLS, p uintptr, zPragma uintptr) {
bp := tls.Alloc(32)
defer tls.Free(32)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareFreeAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, bp+24, p+64,
Xsqlite3_mprintf(tls, ts+32017, libc.VaList(bp, zPragma)))
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 24))) {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = rbuMPrintfExec(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+32032,
libc.VaList(bp+8, zPragma, Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 24)), 0)))
}
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 24)))
}
}
func rbuCreateTargetSchema(tls *libc.TLS, p uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+32052, uintptr(0), uintptr(0), p+64)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, bp, p+64,
ts+32077)
}
for (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp))) == SQLITE_ROW {
var zSql uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp)), 0)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, zSql, uintptr(0), uintptr(0), p+64)
}
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp)))
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc != SQLITE_OK {
return
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, bp, p+64,
ts+32185)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, bp+8, p+64,
ts+32250)
}
for (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp))) == SQLITE_ROW {
var i int32
for i = 0; i < 5; i++ {
Xsqlite3_bind_value(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), i+1, Xsqlite3_column_value(tls, *(*uintptr)(unsafe.Pointer(bp)), i))
}
Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+32294, uintptr(0), uintptr(0), p+64)
}
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp)))
rbuFinalize(tls, p, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
// Step the RBU object.
func Xsqlite3rbu_step(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
if p != 0 {
switch (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage {
case RBU_STAGE_OAL:
{
var pIter uintptr = p + 80
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) && (*Sqlite3rbu)(unsafe.Pointer(p)).FnProgress == 0 && (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
rbuCreateTargetSchema(tls, p)
rbuCopyPragma(tls, p, ts+17662)
rbuCopyPragma(tls, p, ts+16757)
}
for (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl != 0 {
if (*RbuObjIter)(unsafe.Pointer(pIter)).FbCleanup != 0 {
if libc.Bool32((*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0)) == 0 && (*RbuObjIter)(unsafe.Pointer(pIter)).FabIndexed != 0 {
rbuMPrintfExec(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu,
ts+32319, libc.VaList(bp, p+48, (*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl))
}
} else {
rbuObjIterPrepareAll(tls, p, pIter, 0)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var rc int32 = Xsqlite3_step(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpSelect)
if rc == SQLITE_ROW {
(*Sqlite3rbu)(unsafe.Pointer(p)).FnProgress++
(*Sqlite3rbu)(unsafe.Pointer(p)).FnStep++
return rbuStep(tls, p)
}
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_reset(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FpSelect)
(*Sqlite3rbu)(unsafe.Pointer(p)).FnStep = 0
}
}
rbuObjIterNext(tls, p, pIter)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
rbuSaveState(tls, p, RBU_STAGE_MOVE)
rbuIncrSchemaCookie(tls, p)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+14921, uintptr(0), uintptr(0), p+64)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, ts+14921, uintptr(0), uintptr(0), p+64)
}
(*Sqlite3rbu)(unsafe.Pointer(p)).FeStage = RBU_STAGE_MOVE
}
break
}
fallthrough
case RBU_STAGE_MOVE:
{
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
rbuMoveOalFile(tls, p)
(*Sqlite3rbu)(unsafe.Pointer(p)).FnProgress++
}
break
}
fallthrough
case RBU_STAGE_CKPT:
{
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
if (*Sqlite3rbu)(unsafe.Pointer(p)).FnStep >= (*Sqlite3rbu)(unsafe.Pointer(p)).FnFrame {
var pDb uintptr = (*Rbu_file)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(p)).FpTargetFd)).FpReal
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(pDb)).FpMethods)).FxSync})).f(tls, pDb, SQLITE_SYNC_NORMAL)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = (*struct {
f func(*libc.TLS, uintptr, int32, int32, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(pDb)).FpMethods)).FxShmMap})).f(tls, pDb, 0, 32*1024, 0, bp+16)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
*(*U32)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)) + 24*4)) = (*Sqlite3rbu)(unsafe.Pointer(p)).FiMaxFrame
}
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).FeStage = RBU_STAGE_DONE
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_DONE
}
} else {
var iSector U32
for __ccgo := true; __ccgo; __ccgo = (*Sqlite3rbu)(unsafe.Pointer(p)).FnStep < (*Sqlite3rbu)(unsafe.Pointer(p)).FnFrame &&
iSector == ((*RbuFrame)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(p)).FaFrame+uintptr((*Sqlite3rbu)(unsafe.Pointer(p)).FnStep)*8)).FiDbPage-U32(1))/U32((*Sqlite3rbu)(unsafe.Pointer(p)).FnPagePerSector) &&
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var pFrame uintptr = (*Sqlite3rbu)(unsafe.Pointer(p)).FaFrame + uintptr((*Sqlite3rbu)(unsafe.Pointer(p)).FnStep)*8
iSector = ((*RbuFrame)(unsafe.Pointer(pFrame)).FiDbPage - U32(1)) / U32((*Sqlite3rbu)(unsafe.Pointer(p)).FnPagePerSector)
rbuCheckpointFrame(tls, p, pFrame)
(*Sqlite3rbu)(unsafe.Pointer(p)).FnStep++
}
}
(*Sqlite3rbu)(unsafe.Pointer(p)).FnProgress++
}
break
}
fallthrough
default:
break
}
return (*Sqlite3rbu)(unsafe.Pointer(p)).Frc
} else {
return SQLITE_NOMEM
}
return int32(0)
}
func rbuStrCompare(tls *libc.TLS, z1 uintptr, z2 uintptr) int32 {
if z1 == uintptr(0) && z2 == uintptr(0) {
return 0
}
if z1 == uintptr(0) || z2 == uintptr(0) {
return 1
}
return libc.Bool32(Xsqlite3_stricmp(tls, z1, z2) != 0)
}
func rbuSetupOal(tls *libc.TLS, p uintptr, pState uintptr) {
if (*RbuState)(unsafe.Pointer(pState)).FzTbl != 0 {
var pIter uintptr = p + 80
var rc int32 = SQLITE_OK
for rc == SQLITE_OK && (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl != 0 && ((*RbuObjIter)(unsafe.Pointer(pIter)).FbCleanup != 0 ||
rbuStrCompare(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FzIdx, (*RbuState)(unsafe.Pointer(pState)).FzIdx) != 0 ||
(*RbuState)(unsafe.Pointer(pState)).FzDataTbl == uintptr(0) && rbuStrCompare(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl, (*RbuState)(unsafe.Pointer(pState)).FzTbl) != 0 ||
(*RbuState)(unsafe.Pointer(pState)).FzDataTbl != 0 && rbuStrCompare(tls, (*RbuObjIter)(unsafe.Pointer(pIter)).FzDataTbl, (*RbuState)(unsafe.Pointer(pState)).FzDataTbl) != 0) {
rc = rbuObjIterNext(tls, p, pIter)
}
if rc == SQLITE_OK && !(int32((*RbuObjIter)(unsafe.Pointer(pIter)).FzTbl) != 0) {
rc = SQLITE_ERROR
(*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg = Xsqlite3_mprintf(tls, ts+32347, 0)
}
if rc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).FnStep = (*RbuState)(unsafe.Pointer(pState)).FnRow
rc = rbuObjIterPrepareAll(tls, p, p+80, (*Sqlite3rbu)(unsafe.Pointer(p)).FnStep)
}
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = rc
}
}
func rbuDeleteOalFile(tls *libc.TLS, p uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
var zOal uintptr = rbuMPrintf(tls, p, ts+31796, libc.VaList(bp, (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget))
if zOal != 0 {
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
Xsqlite3_file_control(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+6844, SQLITE_FCNTL_VFS_POINTER, bp+8)
(*struct {
f func(*libc.TLS, uintptr, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FxDelete})).f(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), zOal, 0)
Xsqlite3_free(tls, zOal)
}
}
func rbuCreateVfs(tls *libc.TLS, p uintptr) {
bp := tls.Alloc(76)
defer tls.Free(76)
Xsqlite3_randomness(tls, int32(unsafe.Sizeof(int32(0))), bp+8)
Xsqlite3_snprintf(tls, int32(unsafe.Sizeof([64]int8{})), bp+12, ts+32372, libc.VaList(bp, *(*int32)(unsafe.Pointer(bp + 8))))
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3rbu_create_vfs(tls, bp+12, uintptr(0))
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var pVfs uintptr = Xsqlite3_vfs_find(tls, bp+12)
(*Sqlite3rbu)(unsafe.Pointer(p)).FzVfsName = (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FzName
(*Rbu_vfs)(unsafe.Pointer(pVfs)).FpRbu = p
}
}
func rbuDeleteVfs(tls *libc.TLS, p uintptr) {
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzVfsName != 0 {
Xsqlite3rbu_destroy_vfs(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FzVfsName)
(*Sqlite3rbu)(unsafe.Pointer(p)).FzVfsName = uintptr(0)
}
}
func rbuIndexCntFunc(tls *libc.TLS, pCtx uintptr, nVal int32, apVal uintptr) {
bp := tls.Alloc(24)
defer tls.Free(24)
var p uintptr = Xsqlite3_user_data(tls, pCtx)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
var rc int32
var db uintptr = func() uintptr {
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
return (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu
}
return (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain
}()
rc = prepareFreeAndCollectError(tls, db, bp+8, bp+16,
Xsqlite3_mprintf(tls,
ts+32383, libc.VaList(bp, Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(apVal))))))
if rc != SQLITE_OK {
Xsqlite3_result_error(tls, pCtx, *(*uintptr)(unsafe.Pointer(bp + 16)), -1)
} else {
var nIndex int32 = 0
if SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 8))) {
nIndex = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 0)
}
rc = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
if rc == SQLITE_OK {
Xsqlite3_result_int(tls, pCtx, nIndex)
} else {
Xsqlite3_result_error(tls, pCtx, Xsqlite3_errmsg(tls, db), -1)
}
}
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
}
func rbuInitPhaseOneSteps(tls *libc.TLS, p uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var bExists int32 = 0
(*Sqlite3rbu)(unsafe.Pointer(p)).FnPhaseOneStep = int64(-1)
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_create_function(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu,
ts+32455, 1, SQLITE_UTF8, p, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{rbuIndexCntFunc})), uintptr(0), uintptr(0))
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, bp, p+64,
ts+32469)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
if SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp))) {
bExists = 1
}
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && bExists != 0 {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = prepareAndCollectError(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, bp, p+64,
ts+32526)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
if SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp))) {
(*Sqlite3rbu)(unsafe.Pointer(p)).FnPhaseOneStep = Xsqlite3_column_int64(tls, *(*uintptr)(unsafe.Pointer(bp)), 0)
}
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
}
}
}
func openRbuHandle(tls *libc.TLS, zTarget uintptr, zRbu uintptr, zState uintptr) uintptr {
bp := tls.Alloc(20)
defer tls.Free(20)
var p uintptr
var nTarget Size_t
if zTarget != 0 {
nTarget = libc.Xstrlen(tls, zTarget)
} else {
nTarget = uint64(0)
}
var nRbu Size_t = libc.Xstrlen(tls, zRbu)
var nByte Size_t = uint64(unsafe.Sizeof(Sqlite3rbu{})) + nTarget + uint64(1) + nRbu + uint64(1)
p = Xsqlite3_malloc64(tls, nByte)
if p != 0 {
var pState uintptr = uintptr(0)
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(Sqlite3rbu{})), libc.X__builtin_object_size(tls, p, 0))
Xsqlite3rbu_rename_handler(tls, p, uintptr(0), uintptr(0))
rbuCreateVfs(tls, p)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var pCsr uintptr = p + 1*408
*(*int32)(unsafe.Pointer(bp + 16)) = 0
if zTarget != 0 {
(*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget = pCsr
libc.X__builtin___memcpy_chk(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget, zTarget, nTarget+uint64(1), libc.X__builtin_object_size(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget, 0))
pCsr += uintptr(nTarget + uint64(1))
}
(*Sqlite3rbu)(unsafe.Pointer(p)).FzRbu = pCsr
libc.X__builtin___memcpy_chk(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FzRbu, zRbu, nRbu+uint64(1), libc.X__builtin_object_size(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FzRbu, 0))
pCsr += uintptr(nRbu + uint64(1))
if zState != 0 {
(*Sqlite3rbu)(unsafe.Pointer(p)).FzState = rbuMPrintf(tls, p, ts+3658, libc.VaList(bp, zState))
}
rbuOpenDatabase(tls, p, uintptr(0), bp+16)
if *(*int32)(unsafe.Pointer(bp + 16)) != 0 {
rbuOpenDatabase(tls, p, uintptr(0), uintptr(0))
}
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
pState = rbuLoadState(tls, p)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
if (*RbuState)(unsafe.Pointer(pState)).FeStage == 0 {
rbuDeleteOalFile(tls, p)
rbuInitPhaseOneSteps(tls, p)
(*Sqlite3rbu)(unsafe.Pointer(p)).FeStage = RBU_STAGE_OAL
} else {
(*Sqlite3rbu)(unsafe.Pointer(p)).FeStage = (*RbuState)(unsafe.Pointer(pState)).FeStage
(*Sqlite3rbu)(unsafe.Pointer(p)).FnPhaseOneStep = (*RbuState)(unsafe.Pointer(pState)).FnPhaseOneStep
}
(*Sqlite3rbu)(unsafe.Pointer(p)).FnProgress = int32((*RbuState)(unsafe.Pointer(pState)).FnProgress)
(*Sqlite3rbu)(unsafe.Pointer(p)).FiOalSz = (*RbuState)(unsafe.Pointer(pState)).FiOalSz
}
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Rbu_file)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(p)).FpTargetFd)).FpWalFd != 0 {
if (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage == RBU_STAGE_OAL {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_ERROR
(*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg = Xsqlite3_mprintf(tls, ts+32600, 0)
} else if (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage == RBU_STAGE_MOVE {
(*Sqlite3rbu)(unsafe.Pointer(p)).FeStage = RBU_STAGE_CKPT
(*Sqlite3rbu)(unsafe.Pointer(p)).FnStep = 0
}
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK &&
((*Sqlite3rbu)(unsafe.Pointer(p)).FeStage == RBU_STAGE_OAL || (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage == RBU_STAGE_MOVE) &&
(*RbuState)(unsafe.Pointer(pState)).FeStage != 0 {
var pFd uintptr = func() uintptr {
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
return (*Sqlite3rbu)(unsafe.Pointer(p)).FpRbuFd
}
return (*Sqlite3rbu)(unsafe.Pointer(p)).FpTargetFd
}()
if (*Rbu_file)(unsafe.Pointer(pFd)).FiCookie != (*RbuState)(unsafe.Pointer(pState)).FiCookie {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_BUSY
(*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg = Xsqlite3_mprintf(tls, ts+32632,
libc.VaList(bp+8, func() uintptr {
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
return ts + 32664
}
return ts + 32671
}()))
}
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
if (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage == RBU_STAGE_OAL {
var db uintptr = (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, ts+14906, uintptr(0), uintptr(0), p+64)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = rbuObjIterFirst(tls, p, p+80)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Sqlite3rbu)(unsafe.Pointer(p)).Fobjiter.FzTbl == uintptr(0) {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_DONE
(*Sqlite3rbu)(unsafe.Pointer(p)).FeStage = RBU_STAGE_DONE
} else {
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*RbuState)(unsafe.Pointer(pState)).FeStage == 0 && (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
rbuCopyPragma(tls, p, ts+17376)
rbuCopyPragma(tls, p, ts+16772)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_exec(tls, db, ts+32678, uintptr(0), uintptr(0), p+64)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var frc int32 = Xsqlite3_file_control(tls, db, ts+6844, SQLITE_FCNTL_ZIPVFS, uintptr(0))
if frc == SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_exec(tls,
db, ts+32694, uintptr(0), uintptr(0), p+64)
}
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK {
rbuSetupOal(tls, p, pState)
}
}
} else if (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage == RBU_STAGE_MOVE {
} else if (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage == RBU_STAGE_CKPT {
if !((*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0)) && rbuExclusiveCheckpoint(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain) != 0 {
(*Sqlite3rbu)(unsafe.Pointer(p)).FeStage = RBU_STAGE_DONE
rbuLockDatabase(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain)
(*Sqlite3rbu)(unsafe.Pointer(p)).FeStage = RBU_STAGE_CKPT
}
rbuSetupCheckpoint(tls, p, pState)
} else if (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage == RBU_STAGE_DONE {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_DONE
} else {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT
}
}
rbuFreeState(tls, pState)
}
return p
}
func rbuMisuseError(tls *libc.TLS) uintptr {
var pRet uintptr
pRet = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(Sqlite3rbu{})))
if pRet != 0 {
libc.X__builtin___memset_chk(tls, pRet, 0, uint64(unsafe.Sizeof(Sqlite3rbu{})), libc.X__builtin_object_size(tls, pRet, 0))
(*Sqlite3rbu)(unsafe.Pointer(pRet)).Frc = SQLITE_MISUSE
}
return pRet
}
// Open and return a new RBU handle.
func Xsqlite3rbu_open(tls *libc.TLS, zTarget uintptr, zRbu uintptr, zState uintptr) uintptr {
if zTarget == uintptr(0) || zRbu == uintptr(0) {
return rbuMisuseError(tls)
}
return openRbuHandle(tls, zTarget, zRbu, zState)
}
// Open a handle to begin or resume an RBU VACUUM operation.
func Xsqlite3rbu_vacuum(tls *libc.TLS, zTarget uintptr, zState uintptr) uintptr {
if zTarget == uintptr(0) {
return rbuMisuseError(tls)
}
if zState != 0 {
var n int32 = int32(libc.Xstrlen(tls, zState))
if n >= 7 && 0 == libc.Xmemcmp(tls, ts+32718, zState+uintptr(n-7), uint64(7)) {
return rbuMisuseError(tls)
}
}
return openRbuHandle(tls, uintptr(0), zTarget, zState)
}
// Return the database handle used by pRbu.
func Xsqlite3rbu_db(tls *libc.TLS, pRbu uintptr, bRbu int32) uintptr {
var db uintptr = uintptr(0)
if pRbu != 0 {
db = func() uintptr {
if bRbu != 0 {
return (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FdbRbu
}
return (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FdbMain
}()
}
return db
}
func rbuEditErrmsg(tls *libc.TLS, p uintptr) {
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_CONSTRAINT && (*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg != 0 {
var i uint32
var nErrmsg Size_t = libc.Xstrlen(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg)
for i = uint32(0); Size_t(i) < nErrmsg-uint64(8); i++ {
if libc.Xmemcmp(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg+uintptr(i), ts+30743, uint64(8)) == 0 {
var nDel int32 = 8
for int32(*(*int8)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg + uintptr(i+uint32(nDel))))) >= '0' && int32(*(*int8)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg + uintptr(i+uint32(nDel))))) <= '9' {
nDel++
}
libc.X__builtin___memmove_chk(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg+uintptr(i), (*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg+uintptr(i+uint32(nDel)), nErrmsg+uint64(1)-Size_t(i)-Size_t(nDel), libc.X__builtin_object_size(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg+uintptr(i), 0))
nErrmsg = nErrmsg - Size_t(nDel)
}
}
}
}
// Close the RBU handle.
func Xsqlite3rbu_close(tls *libc.TLS, p uintptr, pzErrmsg uintptr) int32 {
var rc int32
if p != 0 {
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage == RBU_STAGE_OAL {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+14921, uintptr(0), uintptr(0), p+64)
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage == RBU_STAGE_CKPT {
var pDb uintptr = (*Rbu_file)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(p)).FpTargetFd)).FpReal
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(pDb)).FpMethods)).FxSync})).f(tls, pDb, SQLITE_SYNC_NORMAL)
}
rbuSaveState(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage)
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage == RBU_STAGE_OAL {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, ts+14921, uintptr(0), uintptr(0), p+64)
}
rbuObjIterFinalize(tls, p+80)
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) && (*Sqlite3rbu)(unsafe.Pointer(p)).Frc != SQLITE_OK && (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu != 0 {
var rc2 int32 = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, ts+32726, uintptr(0), uintptr(0), uintptr(0))
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc == SQLITE_DONE && rc2 != SQLITE_OK {
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = rc2
}
}
Xsqlite3_close(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu)
Xsqlite3_close(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain)
rbuDeleteVfs(tls, p)
Xsqlite3_free(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FaBuf)
Xsqlite3_free(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FaFrame)
rbuEditErrmsg(tls, p)
rc = (*Sqlite3rbu)(unsafe.Pointer(p)).Frc
if pzErrmsg != 0 {
*(*uintptr)(unsafe.Pointer(pzErrmsg)) = (*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg
} else {
Xsqlite3_free(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FzErrmsg)
}
Xsqlite3_free(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FzState)
Xsqlite3_free(tls, p)
} else {
rc = SQLITE_NOMEM
*(*uintptr)(unsafe.Pointer(pzErrmsg)) = uintptr(0)
}
return rc
}
// Return the total number of key-value operations (inserts, deletes or
// updates) that have been performed on the target database since the
// current RBU update was started.
func Xsqlite3rbu_progress(tls *libc.TLS, pRbu uintptr) Sqlite3_int64 {
return Sqlite3_int64((*Sqlite3rbu)(unsafe.Pointer(pRbu)).FnProgress)
}
// Return permyriadage progress indications for the two main stages of
// an RBU update.
func Xsqlite3rbu_bp_progress(tls *libc.TLS, p uintptr, pnOne uintptr, pnTwo uintptr) {
var MAX_PROGRESS int32 = 10000
switch (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage {
case RBU_STAGE_OAL:
if (*Sqlite3rbu)(unsafe.Pointer(p)).FnPhaseOneStep > int64(0) {
*(*int32)(unsafe.Pointer(pnOne)) = int32(I64(MAX_PROGRESS) * I64((*Sqlite3rbu)(unsafe.Pointer(p)).FnProgress) / (*Sqlite3rbu)(unsafe.Pointer(p)).FnPhaseOneStep)
} else {
*(*int32)(unsafe.Pointer(pnOne)) = -1
}
*(*int32)(unsafe.Pointer(pnTwo)) = 0
break
case RBU_STAGE_MOVE:
*(*int32)(unsafe.Pointer(pnOne)) = MAX_PROGRESS
*(*int32)(unsafe.Pointer(pnTwo)) = 0
break
case RBU_STAGE_CKPT:
*(*int32)(unsafe.Pointer(pnOne)) = MAX_PROGRESS
*(*int32)(unsafe.Pointer(pnTwo)) = int32(I64(MAX_PROGRESS) * I64((*Sqlite3rbu)(unsafe.Pointer(p)).FnStep) / I64((*Sqlite3rbu)(unsafe.Pointer(p)).FnFrame))
break
case RBU_STAGE_DONE:
*(*int32)(unsafe.Pointer(pnOne)) = MAX_PROGRESS
*(*int32)(unsafe.Pointer(pnTwo)) = MAX_PROGRESS
break
default:
}
}
// Return the current state of the RBU vacuum or update operation.
func Xsqlite3rbu_state(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
*(*[6]int32)(unsafe.Pointer(bp)) = [6]int32{
0, SQLITE_RBU_STATE_OAL, SQLITE_RBU_STATE_MOVE,
0, SQLITE_RBU_STATE_CHECKPOINT, SQLITE_RBU_STATE_DONE,
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).Frc != SQLITE_OK && (*Sqlite3rbu)(unsafe.Pointer(p)).Frc != SQLITE_DONE {
return SQLITE_RBU_STATE_ERROR
} else {
return *(*int32)(unsafe.Pointer(bp + uintptr((*Sqlite3rbu)(unsafe.Pointer(p)).FeStage)*4))
}
return int32(0)
}
func Xsqlite3rbu_savestate(tls *libc.TLS, p uintptr) int32 {
var rc int32 = (*Sqlite3rbu)(unsafe.Pointer(p)).Frc
if rc == SQLITE_DONE {
return SQLITE_OK
}
if (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage == RBU_STAGE_OAL {
if rc == SQLITE_OK {
rc = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+14921, uintptr(0), uintptr(0), uintptr(0))
}
}
if rc == SQLITE_OK && (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage == RBU_STAGE_CKPT {
var pDb uintptr = (*Rbu_file)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(p)).FpTargetFd)).FpReal
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(pDb)).FpMethods)).FxSync})).f(tls, pDb, SQLITE_SYNC_NORMAL)
}
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = rc
rbuSaveState(tls, p, (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage)
rc = (*Sqlite3rbu)(unsafe.Pointer(p)).Frc
if (*Sqlite3rbu)(unsafe.Pointer(p)).FeStage == RBU_STAGE_OAL {
if rc == SQLITE_OK {
rc = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, ts+14921, uintptr(0), uintptr(0), uintptr(0))
}
if rc == SQLITE_OK {
var zBegin uintptr
if (*Sqlite3rbu)(unsafe.Pointer(p)).FzTarget == uintptr(0) {
zBegin = ts + 14906
} else {
zBegin = ts + 32678
}
rc = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbRbu, zBegin, uintptr(0), uintptr(0), uintptr(0))
}
if rc == SQLITE_OK {
rc = Xsqlite3_exec(tls, (*Sqlite3rbu)(unsafe.Pointer(p)).FdbMain, ts+32678, uintptr(0), uintptr(0), uintptr(0))
}
}
(*Sqlite3rbu)(unsafe.Pointer(p)).Frc = rc
return rc
}
func xDefaultRename(tls *libc.TLS, pArg uintptr, zOld uintptr, zNew uintptr) int32 {
var rc int32 = SQLITE_OK
if libc.Xrename(tls, zOld, zNew) != 0 {
rc = SQLITE_IOERR
} else {
rc = SQLITE_OK
}
return rc
}
func Xsqlite3rbu_rename_handler(tls *libc.TLS, pRbu uintptr, pArg uintptr, xRename uintptr) {
if xRename != 0 {
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FxRename = xRename
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FpRenameArg = pArg
} else {
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FxRename = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr) int32
}{xDefaultRename}))
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FpRenameArg = uintptr(0)
}
}
func rbuUnlockShm(tls *libc.TLS, p uintptr) {
if (*Rbu_file)(unsafe.Pointer(p)).FpRbu != 0 {
var xShmLock uintptr = (*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxShmLock
var i int32
for i = 0; i < SQLITE_SHM_NLOCK; i++ {
if U32(int32(1)<<i)&(*Sqlite3rbu)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpRbu)).FmLock != 0 {
(*struct {
f func(*libc.TLS, uintptr, int32, int32, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{xShmLock})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, i, 1, SQLITE_SHM_UNLOCK|SQLITE_SHM_EXCLUSIVE)
}
}
(*Sqlite3rbu)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpRbu)).FmLock = U32(0)
}
}
func rbuUpdateTempSize(tls *libc.TLS, pFd uintptr, nNew Sqlite3_int64) int32 {
var pRbu uintptr = (*Rbu_file)(unsafe.Pointer(pFd)).FpRbu
var nDiff I64 = nNew - (*Rbu_file)(unsafe.Pointer(pFd)).Fsz
*(*I64)(unsafe.Pointer(pRbu + 376)) += nDiff
(*Rbu_file)(unsafe.Pointer(pFd)).Fsz = nNew
if (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FszTempLimit != 0 && (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FszTemp > (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FszTempLimit {
return SQLITE_FULL
}
return SQLITE_OK
}
func rbuMainlistAdd(tls *libc.TLS, p uintptr) {
var pRbuVfs uintptr = (*Rbu_file)(unsafe.Pointer(p)).FpRbuVfs
var pIter uintptr
Xsqlite3_mutex_enter(tls, (*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).Fmutex)
if (*Rbu_file)(unsafe.Pointer(p)).FpRbu == uintptr(0) {
for pIter = (*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).FpMain; pIter != 0; pIter = (*Rbu_file)(unsafe.Pointer(pIter)).FpMainNext {
}
(*Rbu_file)(unsafe.Pointer(p)).FpMainNext = (*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).FpMain
(*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).FpMain = p
} else {
for pIter = (*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).FpMainRbu; pIter != 0 && pIter != p; pIter = (*Rbu_file)(unsafe.Pointer(pIter)).FpMainRbuNext {
}
if pIter == uintptr(0) {
(*Rbu_file)(unsafe.Pointer(p)).FpMainRbuNext = (*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).FpMainRbu
(*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).FpMainRbu = p
}
}
Xsqlite3_mutex_leave(tls, (*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).Fmutex)
}
func rbuMainlistRemove(tls *libc.TLS, p uintptr) {
var pp uintptr
Xsqlite3_mutex_enter(tls, (*Rbu_vfs)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpRbuVfs)).Fmutex)
for pp = (*Rbu_file)(unsafe.Pointer(p)).FpRbuVfs + 192; *(*uintptr)(unsafe.Pointer(pp)) != 0 && *(*uintptr)(unsafe.Pointer(pp)) != p; pp = *(*uintptr)(unsafe.Pointer(pp)) + 88 {
}
if *(*uintptr)(unsafe.Pointer(pp)) != 0 {
*(*uintptr)(unsafe.Pointer(pp)) = (*Rbu_file)(unsafe.Pointer(p)).FpMainNext
}
(*Rbu_file)(unsafe.Pointer(p)).FpMainNext = uintptr(0)
for pp = (*Rbu_file)(unsafe.Pointer(p)).FpRbuVfs + 200; *(*uintptr)(unsafe.Pointer(pp)) != 0 && *(*uintptr)(unsafe.Pointer(pp)) != p; pp = *(*uintptr)(unsafe.Pointer(pp)) + 96 {
}
if *(*uintptr)(unsafe.Pointer(pp)) != 0 {
*(*uintptr)(unsafe.Pointer(pp)) = (*Rbu_file)(unsafe.Pointer(p)).FpMainRbuNext
}
(*Rbu_file)(unsafe.Pointer(p)).FpMainRbuNext = uintptr(0)
Xsqlite3_mutex_leave(tls, (*Rbu_vfs)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpRbuVfs)).Fmutex)
}
func rbuFindMaindb(tls *libc.TLS, pRbuVfs uintptr, zWal uintptr, bRbu int32) uintptr {
var pDb uintptr
Xsqlite3_mutex_enter(tls, (*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).Fmutex)
if bRbu != 0 {
for pDb = (*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).FpMainRbu; pDb != 0 && (*Rbu_file)(unsafe.Pointer(pDb)).FzWal != zWal; pDb = (*Rbu_file)(unsafe.Pointer(pDb)).FpMainRbuNext {
}
} else {
for pDb = (*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).FpMain; pDb != 0 && (*Rbu_file)(unsafe.Pointer(pDb)).FzWal != zWal; pDb = (*Rbu_file)(unsafe.Pointer(pDb)).FpMainNext {
}
}
Xsqlite3_mutex_leave(tls, (*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).Fmutex)
return pDb
}
func rbuVfsClose(tls *libc.TLS, pFile uintptr) int32 {
var p uintptr = pFile
var rc int32
var i int32
for i = 0; i < (*Rbu_file)(unsafe.Pointer(p)).FnShm; i++ {
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FapShm + uintptr(i)*8)))
}
Xsqlite3_free(tls, (*Rbu_file)(unsafe.Pointer(p)).FapShm)
(*Rbu_file)(unsafe.Pointer(p)).FapShm = uintptr(0)
Xsqlite3_free(tls, (*Rbu_file)(unsafe.Pointer(p)).FzDel)
if (*Rbu_file)(unsafe.Pointer(p)).FopenFlags&SQLITE_OPEN_MAIN_DB != 0 {
var pMeth uintptr = (*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods
rbuMainlistRemove(tls, p)
rbuUnlockShm(tls, p)
if (*Sqlite3_io_methods)(unsafe.Pointer(pMeth)).FiVersion > 1 && (*Sqlite3_io_methods)(unsafe.Pointer(pMeth)).FxShmUnmap != 0 {
(*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_io_methods)(unsafe.Pointer(pMeth)).FxShmUnmap})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, 0)
}
} else if (*Rbu_file)(unsafe.Pointer(p)).FopenFlags&SQLITE_OPEN_DELETEONCLOSE != 0 && (*Rbu_file)(unsafe.Pointer(p)).FpRbu != 0 {
rbuUpdateTempSize(tls, p, int64(0))
}
rc = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxClose})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal)
return rc
}
func rbuGetU32(tls *libc.TLS, aBuf uintptr) U32 {
return U32(*(*U8)(unsafe.Pointer(aBuf)))<<24 +
U32(*(*U8)(unsafe.Pointer(aBuf + 1)))<<16 +
U32(*(*U8)(unsafe.Pointer(aBuf + 2)))<<8 +
U32(*(*U8)(unsafe.Pointer(aBuf + 3)))
}
func rbuPutU32(tls *libc.TLS, aBuf uintptr, iVal U32) {
*(*U8)(unsafe.Pointer(aBuf)) = U8(iVal >> 24 & U32(0xFF))
*(*U8)(unsafe.Pointer(aBuf + 1)) = U8(iVal >> 16 & U32(0xFF))
*(*U8)(unsafe.Pointer(aBuf + 2)) = U8(iVal >> 8 & U32(0xFF))
*(*U8)(unsafe.Pointer(aBuf + 3)) = U8(iVal >> 0 & U32(0xFF))
}
func rbuPutU16(tls *libc.TLS, aBuf uintptr, iVal U16) {
*(*U8)(unsafe.Pointer(aBuf)) = U8(int32(iVal) >> 8 & 0xFF)
*(*U8)(unsafe.Pointer(aBuf + 1)) = U8(int32(iVal) >> 0 & 0xFF)
}
func rbuVfsRead(tls *libc.TLS, pFile uintptr, zBuf uintptr, iAmt int32, iOfst Sqlite_int64) int32 {
var p uintptr = pFile
var pRbu uintptr = (*Rbu_file)(unsafe.Pointer(p)).FpRbu
var rc int32
if pRbu != 0 && (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FeStage == RBU_STAGE_CAPTURE {
rc = rbuCaptureWalRead(tls, (*Rbu_file)(unsafe.Pointer(p)).FpRbu, iOfst, iAmt)
} else {
if pRbu != 0 && (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FeStage == RBU_STAGE_OAL &&
(*Rbu_file)(unsafe.Pointer(p)).FopenFlags&SQLITE_OPEN_WAL != 0 &&
iOfst >= (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FiOalSz {
rc = SQLITE_OK
libc.X__builtin___memset_chk(tls, zBuf, 0, uint64(iAmt), libc.X__builtin_object_size(tls, zBuf, 0))
} else {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxRead})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, zBuf, iAmt, iOfst)
if pRbu != 0 && (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FzTarget == uintptr(0) &&
rc == SQLITE_IOERR|int32(2)<<8 && iOfst == int64(0) &&
(*Rbu_file)(unsafe.Pointer(p)).FopenFlags&SQLITE_OPEN_MAIN_DB != 0 &&
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).Frc == SQLITE_OK {
var pFd uintptr = (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FpRbuFd
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer(pFd)).FpMethods)).FxRead})).f(tls, pFd, zBuf, iAmt, iOfst)
if rc == SQLITE_OK {
var aBuf uintptr = zBuf
var iRoot U32
if rbuGetU32(tls, aBuf+52) != 0 {
iRoot = uint32(1)
} else {
iRoot = uint32(0)
}
rbuPutU32(tls, aBuf+52, iRoot)
rbuPutU32(tls, aBuf+36, uint32(0))
rbuPutU32(tls, aBuf+32, uint32(0))
rbuPutU32(tls, aBuf+28, uint32(1))
rbuPutU32(tls, aBuf+24, (*Rbu_file)(unsafe.Pointer((*Sqlite3rbu)(unsafe.Pointer(pRbu)).FpRbuFd)).FiCookie+U32(1))
if iAmt > 100 {
libc.X__builtin___memset_chk(tls, aBuf+100, 0, uint64(iAmt-100), libc.X__builtin_object_size(tls, aBuf+100, 0))
rbuPutU16(tls, aBuf+105, uint16(iAmt&0xFFFF))
*(*U8)(unsafe.Pointer(aBuf + 100)) = U8(0x0D)
}
}
}
}
if rc == SQLITE_OK && iOfst == int64(0) && (*Rbu_file)(unsafe.Pointer(p)).FopenFlags&SQLITE_OPEN_MAIN_DB != 0 {
var pBuf uintptr = zBuf
(*Rbu_file)(unsafe.Pointer(p)).FiCookie = rbuGetU32(tls, pBuf+24)
(*Rbu_file)(unsafe.Pointer(p)).FiWriteVer = *(*U8)(unsafe.Pointer(pBuf + 19))
}
}
return rc
}
func rbuVfsWrite(tls *libc.TLS, pFile uintptr, zBuf uintptr, iAmt int32, iOfst Sqlite_int64) int32 {
var p uintptr = pFile
var pRbu uintptr = (*Rbu_file)(unsafe.Pointer(p)).FpRbu
var rc int32
if pRbu != 0 && (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FeStage == RBU_STAGE_CAPTURE {
rc = rbuCaptureDbWrite(tls, (*Rbu_file)(unsafe.Pointer(p)).FpRbu, iOfst)
} else {
if pRbu != 0 {
if (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FeStage == RBU_STAGE_OAL &&
(*Rbu_file)(unsafe.Pointer(p)).FopenFlags&SQLITE_OPEN_WAL != 0 &&
iOfst >= (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FiOalSz {
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FiOalSz = Sqlite_int64(iAmt) + iOfst
} else if (*Rbu_file)(unsafe.Pointer(p)).FopenFlags&SQLITE_OPEN_DELETEONCLOSE != 0 {
var szNew I64 = Sqlite_int64(iAmt) + iOfst
if szNew > (*Rbu_file)(unsafe.Pointer(p)).Fsz {
rc = rbuUpdateTempSize(tls, p, szNew)
if rc != SQLITE_OK {
return rc
}
}
}
}
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxWrite})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, zBuf, iAmt, iOfst)
if rc == SQLITE_OK && iOfst == int64(0) && (*Rbu_file)(unsafe.Pointer(p)).FopenFlags&SQLITE_OPEN_MAIN_DB != 0 {
var pBuf uintptr = zBuf
(*Rbu_file)(unsafe.Pointer(p)).FiCookie = rbuGetU32(tls, pBuf+24)
(*Rbu_file)(unsafe.Pointer(p)).FiWriteVer = *(*U8)(unsafe.Pointer(pBuf + 19))
}
}
return rc
}
func rbuVfsTruncate(tls *libc.TLS, pFile uintptr, size Sqlite_int64) int32 {
var p uintptr = pFile
if (*Rbu_file)(unsafe.Pointer(p)).FopenFlags&SQLITE_OPEN_DELETEONCLOSE != 0 && (*Rbu_file)(unsafe.Pointer(p)).FpRbu != 0 {
var rc int32 = rbuUpdateTempSize(tls, p, size)
if rc != SQLITE_OK {
return rc
}
}
return (*struct {
f func(*libc.TLS, uintptr, Sqlite3_int64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxTruncate})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, size)
}
func rbuVfsSync(tls *libc.TLS, pFile uintptr, flags int32) int32 {
var p uintptr = pFile
if (*Rbu_file)(unsafe.Pointer(p)).FpRbu != 0 && (*Sqlite3rbu)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpRbu)).FeStage == RBU_STAGE_CAPTURE {
if (*Rbu_file)(unsafe.Pointer(p)).FopenFlags&SQLITE_OPEN_MAIN_DB != 0 {
return SQLITE_NOTICE | int32(3)<<8
}
return SQLITE_OK
}
return (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxSync})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, flags)
}
func rbuVfsFileSize(tls *libc.TLS, pFile uintptr, pSize uintptr) int32 {
var p uintptr = pFile
var rc int32
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxFileSize})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, pSize)
if rc == SQLITE_OK && *(*Sqlite_int64)(unsafe.Pointer(pSize)) == int64(0) &&
(*Rbu_file)(unsafe.Pointer(p)).FpRbu != 0 && (*Sqlite3rbu)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpRbu)).FzTarget == uintptr(0) &&
(*Rbu_file)(unsafe.Pointer(p)).FopenFlags&SQLITE_OPEN_MAIN_DB != 0 {
*(*Sqlite_int64)(unsafe.Pointer(pSize)) = int64(1024)
}
return rc
}
func rbuVfsLock(tls *libc.TLS, pFile uintptr, eLock int32) int32 {
var p uintptr = pFile
var pRbu uintptr = (*Rbu_file)(unsafe.Pointer(p)).FpRbu
var rc int32 = SQLITE_OK
if eLock == SQLITE_LOCK_EXCLUSIVE &&
((*Rbu_file)(unsafe.Pointer(p)).FbNolock != 0 || pRbu != 0 && (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FeStage != RBU_STAGE_DONE) {
rc = SQLITE_BUSY
} else {
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxLock})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, eLock)
}
return rc
}
func rbuVfsUnlock(tls *libc.TLS, pFile uintptr, eLock int32) int32 {
var p uintptr = pFile
return (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxUnlock})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, eLock)
}
func rbuVfsCheckReservedLock(tls *libc.TLS, pFile uintptr, pResOut uintptr) int32 {
var p uintptr = pFile
return (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxCheckReservedLock})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, pResOut)
}
func rbuVfsFileControl(tls *libc.TLS, pFile uintptr, op int32, pArg uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var p uintptr = pFile
var xControl uintptr = (*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxFileControl
var rc int32
if op == SQLITE_FCNTL_RBU {
var pRbu uintptr = pArg
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xControl})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, op, pArg)
if rc == SQLITE_NOTFOUND {
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xControl})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, SQLITE_FCNTL_ZIPVFS, bp+16)
if rc == SQLITE_OK {
rc = SQLITE_ERROR
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FzErrmsg = Xsqlite3_mprintf(tls, ts+32753, 0)
} else if rc == SQLITE_NOTFOUND {
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FpTargetFd = p
(*Rbu_file)(unsafe.Pointer(p)).FpRbu = pRbu
rbuMainlistAdd(tls, p)
if (*Rbu_file)(unsafe.Pointer(p)).FpWalFd != 0 {
(*Rbu_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpWalFd)).FpRbu = pRbu
}
rc = SQLITE_OK
}
}
return rc
} else if op == SQLITE_FCNTL_RBUCNT {
var pRbu uintptr = pArg
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FnRbu++
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FpRbuFd = p
(*Rbu_file)(unsafe.Pointer(p)).FbNolock = U8(1)
}
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xControl})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, op, pArg)
if rc == SQLITE_OK && op == SQLITE_FCNTL_VFSNAME {
var pRbuVfs uintptr = (*Rbu_file)(unsafe.Pointer(p)).FpRbuVfs
var zIn uintptr = *(*uintptr)(unsafe.Pointer(pArg))
var zOut uintptr = Xsqlite3_mprintf(tls, ts+32776, libc.VaList(bp, (*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).Fbase.FzName, zIn))
*(*uintptr)(unsafe.Pointer(pArg)) = zOut
if zOut == uintptr(0) {
rc = SQLITE_NOMEM
}
}
return rc
}
func rbuVfsSectorSize(tls *libc.TLS, pFile uintptr) int32 {
var p uintptr = pFile
return (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxSectorSize})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal)
}
func rbuVfsDeviceCharacteristics(tls *libc.TLS, pFile uintptr) int32 {
var p uintptr = pFile
return (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxDeviceCharacteristics})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal)
}
func rbuVfsShmLock(tls *libc.TLS, pFile uintptr, ofst int32, n int32, flags int32) int32 {
var p uintptr = pFile
var pRbu uintptr = (*Rbu_file)(unsafe.Pointer(p)).FpRbu
var rc int32 = SQLITE_OK
if pRbu != 0 && ((*Sqlite3rbu)(unsafe.Pointer(pRbu)).FeStage == RBU_STAGE_OAL ||
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FeStage == RBU_STAGE_MOVE ||
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FeStage == RBU_STAGE_DONE) {
if ofst == WAL_LOCK_CKPT && n == 1 {
rc = SQLITE_BUSY
}
} else {
var bCapture int32 = 0
if pRbu != 0 && (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FeStage == RBU_STAGE_CAPTURE {
bCapture = 1
}
if bCapture == 0 || 0 == flags&SQLITE_SHM_UNLOCK {
rc = (*struct {
f func(*libc.TLS, uintptr, int32, int32, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxShmLock})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, ofst, n, flags)
if bCapture != 0 && rc == SQLITE_OK {
*(*U32)(unsafe.Pointer(pRbu + 332)) |= U32((int32(1)<<n - 1) << ofst)
}
}
}
return rc
}
func rbuVfsShmMap(tls *libc.TLS, pFile uintptr, iRegion int32, szRegion int32, isWrite int32, pp uintptr) int32 {
var p uintptr = pFile
var rc int32 = SQLITE_OK
var eStage int32 = func() int32 {
if (*Rbu_file)(unsafe.Pointer(p)).FpRbu != 0 {
return (*Sqlite3rbu)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpRbu)).FeStage
}
return 0
}()
if eStage == RBU_STAGE_OAL {
var nByte Sqlite3_int64 = Sqlite3_int64(uint64(iRegion+1) * uint64(unsafe.Sizeof(uintptr(0))))
var apNew uintptr = Xsqlite3_realloc64(tls, (*Rbu_file)(unsafe.Pointer(p)).FapShm, uint64(nByte))
if apNew == uintptr(0) {
rc = SQLITE_NOMEM
} else {
libc.X__builtin___memset_chk(tls, apNew+uintptr((*Rbu_file)(unsafe.Pointer(p)).FnShm)*8, 0, uint64(unsafe.Sizeof(uintptr(0)))*uint64(1+iRegion-(*Rbu_file)(unsafe.Pointer(p)).FnShm), libc.X__builtin_object_size(tls, apNew+uintptr((*Rbu_file)(unsafe.Pointer(p)).FnShm)*8, 0))
(*Rbu_file)(unsafe.Pointer(p)).FapShm = apNew
(*Rbu_file)(unsafe.Pointer(p)).FnShm = iRegion + 1
}
if rc == SQLITE_OK {
var pNew uintptr = Xsqlite3_malloc64(tls, uint64(szRegion))
if pNew == uintptr(0) {
rc = SQLITE_NOMEM
} else {
libc.X__builtin___memset_chk(tls, pNew, 0, uint64(szRegion), libc.X__builtin_object_size(tls, pNew, 0))
*(*uintptr)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FapShm + uintptr(iRegion)*8)) = pNew
}
}
if rc == SQLITE_OK {
*(*uintptr)(unsafe.Pointer(pp)) = *(*uintptr)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FapShm + uintptr(iRegion)*8))
} else {
*(*uintptr)(unsafe.Pointer(pp)) = uintptr(0)
}
} else {
rc = (*struct {
f func(*libc.TLS, uintptr, int32, int32, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxShmMap})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, iRegion, szRegion, isWrite, pp)
}
return rc
}
func rbuVfsShmBarrier(tls *libc.TLS, pFile uintptr) {
var p uintptr = pFile
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxShmBarrier})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal)
}
func rbuVfsShmUnmap(tls *libc.TLS, pFile uintptr, delFlag int32) int32 {
var p uintptr = pFile
var rc int32 = SQLITE_OK
var eStage int32 = func() int32 {
if (*Rbu_file)(unsafe.Pointer(p)).FpRbu != 0 {
return (*Sqlite3rbu)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpRbu)).FeStage
}
return 0
}()
if eStage == RBU_STAGE_OAL || eStage == RBU_STAGE_MOVE {
} else {
rbuUnlockShm(tls, p)
rc = (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*sqlite3_io_methods)(unsafe.Pointer((*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(p)).FpReal)).FpMethods)).FxShmUnmap})).f(tls, (*Rbu_file)(unsafe.Pointer(p)).FpReal, delFlag)
}
return rc
}
func rbuVfsOpen(tls *libc.TLS, pVfs uintptr, zName uintptr, pFile uintptr, flags int32, pOutFlags uintptr) int32 {
var pRbuVfs uintptr = pVfs
var pRealVfs uintptr = (*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).FpRealVfs
var pFd uintptr = pFile
var rc int32 = SQLITE_OK
var zOpen uintptr = zName
var oflags int32 = flags
libc.X__builtin___memset_chk(tls, pFd, 0, uint64(unsafe.Sizeof(Rbu_file{})), libc.X__builtin_object_size(tls, pFd, 0))
(*Rbu_file)(unsafe.Pointer(pFd)).FpReal = pFd + 1*104
(*Rbu_file)(unsafe.Pointer(pFd)).FpRbuVfs = pRbuVfs
(*Rbu_file)(unsafe.Pointer(pFd)).FopenFlags = flags
if zName != 0 {
if flags&SQLITE_OPEN_MAIN_DB != 0 {
(*Rbu_file)(unsafe.Pointer(pFd)).FzWal = Xsqlite3_filename_wal(tls, zName)
} else if flags&SQLITE_OPEN_WAL != 0 {
var pDb uintptr = rbuFindMaindb(tls, pRbuVfs, zName, 0)
if pDb != 0 {
if (*Rbu_file)(unsafe.Pointer(pDb)).FpRbu != 0 && (*Sqlite3rbu)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(pDb)).FpRbu)).FeStage == RBU_STAGE_OAL {
var nOpen Size_t
if (*Sqlite3rbu)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(pDb)).FpRbu)).FzTarget == uintptr(0) {
zOpen = Xsqlite3_db_filename(tls, (*Sqlite3rbu)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(pDb)).FpRbu)).FdbRbu, ts+6844)
zOpen = Xsqlite3_filename_wal(tls, zOpen)
}
nOpen = libc.Xstrlen(tls, zOpen)
*(*int8)(unsafe.Pointer(zOpen + uintptr(nOpen-uint64(3)))) = int8('o')
(*Rbu_file)(unsafe.Pointer(pFd)).FpRbu = (*Rbu_file)(unsafe.Pointer(pDb)).FpRbu
}
(*Rbu_file)(unsafe.Pointer(pDb)).FpWalFd = pFd
}
}
} else {
(*Rbu_file)(unsafe.Pointer(pFd)).FpRbu = (*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).FpRbu
}
if oflags&SQLITE_OPEN_MAIN_DB != 0 &&
Xsqlite3_uri_boolean(tls, zName, ts+32787, 0) != 0 {
oflags = SQLITE_OPEN_TEMP_DB | SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE | SQLITE_OPEN_EXCLUSIVE | SQLITE_OPEN_DELETEONCLOSE
zOpen = uintptr(0)
}
if rc == SQLITE_OK {
rc = (*struct {
f func(*libc.TLS, uintptr, Sqlite3_filename, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pRealVfs)).FxOpen})).f(tls, pRealVfs, zOpen, (*Rbu_file)(unsafe.Pointer(pFd)).FpReal, oflags, pOutFlags)
}
if (*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(pFd)).FpReal)).FpMethods != 0 {
var pMeth uintptr = (*Sqlite3_file)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(pFd)).FpReal)).FpMethods
if (*Sqlite3_io_methods)(unsafe.Pointer(pMeth)).FiVersion < 2 || (*Sqlite3_io_methods)(unsafe.Pointer(pMeth)).FxShmLock == uintptr(0) {
(*Sqlite3_file)(unsafe.Pointer(pFile)).FpMethods = uintptr(unsafe.Pointer(&rbuvfs_io_methods1))
} else {
(*Sqlite3_file)(unsafe.Pointer(pFile)).FpMethods = uintptr(unsafe.Pointer(&rbuvfs_io_methods))
}
if flags&SQLITE_OPEN_MAIN_DB != 0 {
rbuMainlistAdd(tls, pFd)
}
} else {
Xsqlite3_free(tls, (*Rbu_file)(unsafe.Pointer(pFd)).FzDel)
}
return rc
}
var rbuvfs_io_methods = Sqlite3_io_methods{
FiVersion: 2,
FxClose: 0,
FxRead: 0,
FxWrite: 0,
FxTruncate: 0,
FxSync: 0,
FxFileSize: 0,
FxLock: 0,
FxUnlock: 0,
FxCheckReservedLock: 0,
FxFileControl: 0,
FxSectorSize: 0,
FxDeviceCharacteristics: 0,
FxShmMap: 0,
FxShmLock: 0,
FxShmBarrier: 0,
FxShmUnmap: 0,
}
var rbuvfs_io_methods1 = Sqlite3_io_methods{
FiVersion: 1,
FxClose: 0,
FxRead: 0,
FxWrite: 0,
FxTruncate: 0,
FxSync: 0,
FxFileSize: 0,
FxLock: 0,
FxUnlock: 0,
FxCheckReservedLock: 0,
FxFileControl: 0,
FxSectorSize: 0,
FxDeviceCharacteristics: 0,
}
func rbuVfsDelete(tls *libc.TLS, pVfs uintptr, zPath uintptr, dirSync int32) int32 {
var pRealVfs uintptr = (*Rbu_vfs)(unsafe.Pointer(pVfs)).FpRealVfs
return (*struct {
f func(*libc.TLS, uintptr, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pRealVfs)).FxDelete})).f(tls, pRealVfs, zPath, dirSync)
}
func rbuVfsAccess(tls *libc.TLS, pVfs uintptr, zPath uintptr, flags int32, pResOut uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pRbuVfs uintptr = pVfs
var pRealVfs uintptr = (*Rbu_vfs)(unsafe.Pointer(pRbuVfs)).FpRealVfs
var rc int32
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pRealVfs)).FxAccess})).f(tls, pRealVfs, zPath, flags, pResOut)
if rc == SQLITE_OK && flags == SQLITE_ACCESS_EXISTS {
var pDb uintptr = rbuFindMaindb(tls, pRbuVfs, zPath, 1)
if pDb != 0 && (*Sqlite3rbu)(unsafe.Pointer((*Rbu_file)(unsafe.Pointer(pDb)).FpRbu)).FeStage == RBU_STAGE_OAL {
if *(*int32)(unsafe.Pointer(pResOut)) != 0 {
rc = SQLITE_CANTOPEN
} else {
*(*Sqlite3_int64)(unsafe.Pointer(bp)) = int64(0)
rc = rbuVfsFileSize(tls, pDb, bp)
*(*int32)(unsafe.Pointer(pResOut)) = libc.Bool32(*(*Sqlite3_int64)(unsafe.Pointer(bp)) > int64(0))
}
}
}
return rc
}
func rbuVfsFullPathname(tls *libc.TLS, pVfs uintptr, zPath uintptr, nOut int32, zOut uintptr) int32 {
var pRealVfs uintptr = (*Rbu_vfs)(unsafe.Pointer(pVfs)).FpRealVfs
return (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pRealVfs)).FxFullPathname})).f(tls, pRealVfs, zPath, nOut, zOut)
}
func rbuVfsDlOpen(tls *libc.TLS, pVfs uintptr, zPath uintptr) uintptr {
var pRealVfs uintptr = (*Rbu_vfs)(unsafe.Pointer(pVfs)).FpRealVfs
return (*struct {
f func(*libc.TLS, uintptr, uintptr) uintptr
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pRealVfs)).FxDlOpen})).f(tls, pRealVfs, zPath)
}
func rbuVfsDlError(tls *libc.TLS, pVfs uintptr, nByte int32, zErrMsg uintptr) {
var pRealVfs uintptr = (*Rbu_vfs)(unsafe.Pointer(pVfs)).FpRealVfs
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pRealVfs)).FxDlError})).f(tls, pRealVfs, nByte, zErrMsg)
}
func rbuVfsDlSym(tls *libc.TLS, pVfs uintptr, pArg uintptr, zSym uintptr) uintptr {
var pRealVfs uintptr = (*Rbu_vfs)(unsafe.Pointer(pVfs)).FpRealVfs
return (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr) uintptr
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pRealVfs)).FxDlSym})).f(tls, pRealVfs, pArg, zSym)
}
func rbuVfsDlClose(tls *libc.TLS, pVfs uintptr, pHandle uintptr) {
var pRealVfs uintptr = (*Rbu_vfs)(unsafe.Pointer(pVfs)).FpRealVfs
(*struct {
f func(*libc.TLS, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pRealVfs)).FxDlClose})).f(tls, pRealVfs, pHandle)
}
func rbuVfsRandomness(tls *libc.TLS, pVfs uintptr, nByte int32, zBufOut uintptr) int32 {
var pRealVfs uintptr = (*Rbu_vfs)(unsafe.Pointer(pVfs)).FpRealVfs
return (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pRealVfs)).FxRandomness})).f(tls, pRealVfs, nByte, zBufOut)
}
func rbuVfsSleep(tls *libc.TLS, pVfs uintptr, nMicro int32) int32 {
var pRealVfs uintptr = (*Rbu_vfs)(unsafe.Pointer(pVfs)).FpRealVfs
return (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pRealVfs)).FxSleep})).f(tls, pRealVfs, nMicro)
}
func rbuVfsCurrentTime(tls *libc.TLS, pVfs uintptr, pTimeOut uintptr) int32 {
var pRealVfs uintptr = (*Rbu_vfs)(unsafe.Pointer(pVfs)).FpRealVfs
return (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_vfs)(unsafe.Pointer(pRealVfs)).FxCurrentTime})).f(tls, pRealVfs, pTimeOut)
}
func rbuVfsGetLastError(tls *libc.TLS, pVfs uintptr, a int32, b uintptr) int32 {
return 0
}
// Deregister and destroy an RBU vfs created by an earlier call to
// sqlite3rbu_create_vfs().
func Xsqlite3rbu_destroy_vfs(tls *libc.TLS, zName uintptr) {
var pVfs uintptr = Xsqlite3_vfs_find(tls, zName)
if pVfs != 0 && (*Sqlite3_vfs)(unsafe.Pointer(pVfs)).FxOpen == *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr) int32
}{rbuVfsOpen})) {
Xsqlite3_mutex_free(tls, (*Rbu_vfs)(unsafe.Pointer(pVfs)).Fmutex)
Xsqlite3_vfs_unregister(tls, pVfs)
Xsqlite3_free(tls, pVfs)
}
}
// Create an RBU VFS named zName that accesses the underlying file-system
// via existing VFS zParent. The new object is registered as a non-default
// VFS with SQLite before returning.
func Xsqlite3rbu_create_vfs(tls *libc.TLS, zName uintptr, zParent uintptr) int32 {
var pNew uintptr = uintptr(0)
var rc int32 = SQLITE_OK
var nName Size_t
var nByte Size_t
nName = libc.Xstrlen(tls, zName)
nByte = uint64(unsafe.Sizeof(Rbu_vfs{})) + nName + uint64(1)
pNew = Xsqlite3_malloc64(tls, nByte)
if pNew == uintptr(0) {
rc = SQLITE_NOMEM
} else {
var pParent uintptr
libc.X__builtin___memset_chk(tls, pNew, 0, nByte, libc.X__builtin_object_size(tls, pNew, 0))
pParent = Xsqlite3_vfs_find(tls, zParent)
if pParent == uintptr(0) {
rc = SQLITE_NOTFOUND
} else {
var zSpace uintptr
libc.X__builtin___memcpy_chk(tls, pNew, uintptr(unsafe.Pointer(&vfs_template)), uint64(unsafe.Sizeof(Sqlite3_vfs{})), libc.X__builtin_object_size(tls, pNew, 0))
(*Rbu_vfs)(unsafe.Pointer(pNew)).Fbase.FmxPathname = (*Sqlite3_vfs)(unsafe.Pointer(pParent)).FmxPathname
(*Rbu_vfs)(unsafe.Pointer(pNew)).Fbase.FszOsFile = int32(uint64(unsafe.Sizeof(Rbu_file{})) + uint64((*Sqlite3_vfs)(unsafe.Pointer(pParent)).FszOsFile))
(*Rbu_vfs)(unsafe.Pointer(pNew)).FpRealVfs = pParent
(*Rbu_vfs)(unsafe.Pointer(pNew)).Fbase.FzName = libc.AssignUintptr(&zSpace, pNew+1*208)
libc.X__builtin___memcpy_chk(tls, zSpace, zName, nName, libc.X__builtin_object_size(tls, zSpace, 0))
(*Rbu_vfs)(unsafe.Pointer(pNew)).Fmutex = Xsqlite3_mutex_alloc(tls, SQLITE_MUTEX_RECURSIVE)
if (*Rbu_vfs)(unsafe.Pointer(pNew)).Fmutex == uintptr(0) {
rc = SQLITE_NOMEM
} else {
rc = Xsqlite3_vfs_register(tls, pNew, 0)
}
}
if rc != SQLITE_OK {
Xsqlite3_mutex_free(tls, (*Rbu_vfs)(unsafe.Pointer(pNew)).Fmutex)
Xsqlite3_free(tls, pNew)
}
}
return rc
}
var vfs_template = Sqlite3_vfs{
FiVersion: 1,
FxOpen: 0,
FxDelete: 0,
FxAccess: 0,
FxFullPathname: 0,
FxDlOpen: 0,
FxDlError: 0,
FxDlSym: 0,
FxDlClose: 0,
FxRandomness: 0,
FxSleep: 0,
FxCurrentTime: 0,
FxGetLastError: 0,
}
// Configure the aggregate temp file size limit for this RBU handle.
func Xsqlite3rbu_temp_size_limit(tls *libc.TLS, pRbu uintptr, n Sqlite3_int64) Sqlite3_int64 {
if n >= int64(0) {
(*Sqlite3rbu)(unsafe.Pointer(pRbu)).FszTempLimit = n
}
return (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FszTempLimit
}
func Xsqlite3rbu_temp_size(tls *libc.TLS, pRbu uintptr) Sqlite3_int64 {
return (*Sqlite3rbu)(unsafe.Pointer(pRbu)).FszTemp
}
type SessionTable1 = struct {
FpNext uintptr
FzName uintptr
FnCol int32
FbStat1 int32
FazCol uintptr
FabPK uintptr
FnEntry int32
FnChange int32
FapChange uintptr
}
type SessionTable = SessionTable1
type SessionChange1 = struct {
Fop U8
FbIndirect U8
F__ccgo_pad1 [2]byte
FnMaxSize int32
FnRecord int32
F__ccgo_pad2 [4]byte
FaRecord uintptr
FpNext uintptr
}
type SessionChange = SessionChange1
type SessionBuffer1 = struct {
FaBuf uintptr
FnBuf int32
FnAlloc int32
}
type SessionBuffer = SessionBuffer1
type SessionInput1 = struct {
FbNoDiscard int32
FiCurrent int32
FiNext int32
F__ccgo_pad1 [4]byte
FaData uintptr
FnData int32
F__ccgo_pad2 [4]byte
Fbuf SessionBuffer
FxInput uintptr
FpIn uintptr
FbEof int32
F__ccgo_pad3 [4]byte
}
type SessionInput = SessionInput1
var sessions_strm_chunk_size int32 = SESSIONS_STRM_CHUNK_SIZE
type SessionHook1 = struct {
FpCtx uintptr
FxOld uintptr
FxNew uintptr
FxCount uintptr
FxDepth uintptr
}
type SessionHook = SessionHook1
func sessionVarintPut(tls *libc.TLS, aBuf uintptr, iVal int32) int32 {
return int32(func() uint8 {
if U32(iVal) < U32(0x80) {
return uint8(func() int32 { *(*U8)(unsafe.Pointer(aBuf)) = uint8(iVal); return 1 }())
}
return uint8(Xsqlite3PutVarint(tls, aBuf, uint64(iVal)))
}())
}
func sessionVarintLen(tls *libc.TLS, iVal int32) int32 {
return Xsqlite3VarintLen(tls, uint64(iVal))
}
func sessionVarintGet(tls *libc.TLS, aBuf uintptr, piVal uintptr) int32 {
return int32(func() uint8 {
if int32(*(*U8)(unsafe.Pointer(aBuf))) < int32(U8(0x80)) {
return uint8(func() int32 { *(*int32)(unsafe.Pointer(piVal)) = int32(U32(*(*U8)(unsafe.Pointer(aBuf)))); return 1 }())
}
return Xsqlite3GetVarint32(tls, aBuf, piVal)
}())
}
func sessionGetI64(tls *libc.TLS, aRec uintptr) Sqlite3_int64 {
var x U64 = U64(U32(*(*U8)(unsafe.Pointer(aRec)))<<24 | U32(int32(*(*U8)(unsafe.Pointer(aRec + 1)))<<16) | U32(int32(*(*U8)(unsafe.Pointer(aRec + 2)))<<8) | U32(*(*U8)(unsafe.Pointer(aRec + 3))))
var y U32 = U32(*(*U8)(unsafe.Pointer(aRec + uintptr(4))))<<24 | U32(int32(*(*U8)(unsafe.Pointer(aRec + uintptr(4) + 1)))<<16) | U32(int32(*(*U8)(unsafe.Pointer(aRec + uintptr(4) + 2)))<<8) | U32(*(*U8)(unsafe.Pointer(aRec + uintptr(4) + 3)))
x = x<<32 + U64(y)
return Sqlite3_int64(x)
}
func sessionPutI64(tls *libc.TLS, aBuf uintptr, i Sqlite3_int64) {
*(*U8)(unsafe.Pointer(aBuf)) = U8(i >> 56 & int64(0xFF))
*(*U8)(unsafe.Pointer(aBuf + 1)) = U8(i >> 48 & int64(0xFF))
*(*U8)(unsafe.Pointer(aBuf + 2)) = U8(i >> 40 & int64(0xFF))
*(*U8)(unsafe.Pointer(aBuf + 3)) = U8(i >> 32 & int64(0xFF))
*(*U8)(unsafe.Pointer(aBuf + 4)) = U8(i >> 24 & int64(0xFF))
*(*U8)(unsafe.Pointer(aBuf + 5)) = U8(i >> 16 & int64(0xFF))
*(*U8)(unsafe.Pointer(aBuf + 6)) = U8(i >> 8 & int64(0xFF))
*(*U8)(unsafe.Pointer(aBuf + 7)) = U8(i >> 0 & int64(0xFF))
}
func sessionSerializeValue(tls *libc.TLS, aBuf uintptr, pValue uintptr, pnWrite uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var nByte int32
if pValue != 0 {
var eType int32
eType = Xsqlite3_value_type(tls, pValue)
if aBuf != 0 {
*(*U8)(unsafe.Pointer(aBuf)) = U8(eType)
}
switch eType {
case SQLITE_NULL:
nByte = 1
break
fallthrough
case SQLITE_INTEGER:
fallthrough
case SQLITE_FLOAT:
if aBuf != 0 {
if eType == SQLITE_INTEGER {
*(*U64)(unsafe.Pointer(bp)) = U64(Xsqlite3_value_int64(tls, pValue))
} else {
*(*float64)(unsafe.Pointer(bp + 8)) = Xsqlite3_value_double(tls, pValue)
libc.X__builtin___memcpy_chk(tls, bp, bp+8, uint64(8), libc.X__builtin_object_size(tls, bp, 0))
}
sessionPutI64(tls, aBuf+1, int64(*(*U64)(unsafe.Pointer(bp))))
}
nByte = 9
break
fallthrough
default:
{
var z uintptr
var n int32
var nVarint int32
if eType == SQLITE_TEXT {
z = Xsqlite3_value_text(tls, pValue)
} else {
z = Xsqlite3_value_blob(tls, pValue)
}
n = Xsqlite3_value_bytes(tls, pValue)
if z == uintptr(0) && (eType != SQLITE_BLOB || n > 0) {
return SQLITE_NOMEM
}
nVarint = sessionVarintLen(tls, n)
if aBuf != 0 {
sessionVarintPut(tls, aBuf+1, n)
if n > 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nVarint+1), z, uint64(n), libc.X__builtin_object_size(tls, aBuf+uintptr(nVarint+1), 0))
}
}
nByte = 1 + nVarint + n
break
}
}
} else {
nByte = 1
if aBuf != 0 {
*(*U8)(unsafe.Pointer(aBuf)) = U8(0)
}
}
if pnWrite != 0 {
*(*Sqlite3_int64)(unsafe.Pointer(pnWrite)) += Sqlite3_int64(nByte)
}
return SQLITE_OK
}
func sessionMalloc64(tls *libc.TLS, pSession uintptr, nByte I64) uintptr {
var pRet uintptr = Xsqlite3_malloc64(tls, uint64(nByte))
if pSession != 0 {
*(*I64)(unsafe.Pointer(pSession + 56)) += I64(Xsqlite3_msize(tls, pRet))
}
return pRet
}
func sessionFree(tls *libc.TLS, pSession uintptr, pFree uintptr) {
if pSession != 0 {
*(*I64)(unsafe.Pointer(pSession + 56)) -= I64(Xsqlite3_msize(tls, pFree))
}
Xsqlite3_free(tls, pFree)
}
func sessionHashAppendI64(tls *libc.TLS, h uint32, i I64) uint32 {
h = h<<3 ^ h ^ uint32(i&int64(0xFFFFFFFF))
return h<<3 ^ h ^ uint32(i>>32&int64(0xFFFFFFFF))
}
func sessionHashAppendBlob(tls *libc.TLS, h uint32, n int32, z uintptr) uint32 {
var i int32
for i = 0; i < n; i++ {
h = h<<3 ^ h ^ uint32(*(*U8)(unsafe.Pointer(z + uintptr(i))))
}
return h
}
func sessionHashAppendType(tls *libc.TLS, h uint32, eType int32) uint32 {
return h<<3 ^ h ^ uint32(eType)
}
func sessionPreupdateHash(tls *libc.TLS, pSession uintptr, pTab uintptr, bNew int32, piHash uintptr, pbNullPK uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var h uint32 = uint32(0)
var i int32
for i = 0; i < (*SessionTable)(unsafe.Pointer(pTab)).FnCol; i++ {
if *(*U8)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FabPK + uintptr(i))) != 0 {
var rc int32
var eType int32
if bNew != 0 {
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxNew})).f(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx, i, bp)
} else {
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxOld})).f(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx, i, bp)
}
if rc != SQLITE_OK {
return rc
}
eType = Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(bp)))
h = sessionHashAppendType(tls, h, eType)
if eType == SQLITE_INTEGER || eType == SQLITE_FLOAT {
if eType == SQLITE_INTEGER {
*(*I64)(unsafe.Pointer(bp + 8)) = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(bp)))
} else {
*(*float64)(unsafe.Pointer(bp + 16)) = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(bp)))
libc.X__builtin___memcpy_chk(tls, bp+8, bp+16, uint64(8), libc.X__builtin_object_size(tls, bp+8, 0))
}
h = sessionHashAppendI64(tls, h, *(*I64)(unsafe.Pointer(bp + 8)))
} else if eType == SQLITE_TEXT || eType == SQLITE_BLOB {
var z uintptr
var n int32
if eType == SQLITE_TEXT {
z = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(bp)))
} else {
z = Xsqlite3_value_blob(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
n = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(bp)))
if !(z != 0) && (eType != SQLITE_BLOB || n > 0) {
return SQLITE_NOMEM
}
h = sessionHashAppendBlob(tls, h, n, z)
} else {
*(*int32)(unsafe.Pointer(pbNullPK)) = 1
}
}
}
*(*int32)(unsafe.Pointer(piHash)) = int32(h % uint32((*SessionTable)(unsafe.Pointer(pTab)).FnChange))
return SQLITE_OK
}
func sessionSerialLen(tls *libc.TLS, a uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var e int32 = int32(*(*U8)(unsafe.Pointer(a)))
if e == 0 || e == 0xFF {
return 1
}
if e == SQLITE_NULL {
return 1
}
if e == SQLITE_INTEGER || e == SQLITE_FLOAT {
return 9
}
return sessionVarintGet(tls, a+1, bp) + 1 + *(*int32)(unsafe.Pointer(bp))
}
func sessionChangeHash(tls *libc.TLS, pTab uintptr, bPkOnly int32, aRecord uintptr, nBucket int32) uint32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var h uint32 = uint32(0)
var i int32
var a uintptr = aRecord
for i = 0; i < (*SessionTable)(unsafe.Pointer(pTab)).FnCol; i++ {
var eType int32 = int32(*(*U8)(unsafe.Pointer(a)))
var isPK int32 = int32(*(*U8)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FabPK + uintptr(i))))
if bPkOnly != 0 && isPK == 0 {
continue
}
if isPK != 0 {
a++
h = sessionHashAppendType(tls, h, eType)
if eType == SQLITE_INTEGER || eType == SQLITE_FLOAT {
h = sessionHashAppendI64(tls, h, sessionGetI64(tls, a))
a += uintptr(8)
} else {
a += uintptr(sessionVarintGet(tls, a, bp))
h = sessionHashAppendBlob(tls, h, *(*int32)(unsafe.Pointer(bp)), a)
a += uintptr(*(*int32)(unsafe.Pointer(bp)))
}
} else {
a += uintptr(sessionSerialLen(tls, a))
}
}
return h % uint32(nBucket)
}
func sessionChangeEqual(tls *libc.TLS, pTab uintptr, bLeftPkOnly int32, aLeft uintptr, bRightPkOnly int32, aRight uintptr) int32 {
var a1 uintptr = aLeft
var a2 uintptr = aRight
var iCol int32
for iCol = 0; iCol < (*SessionTable)(unsafe.Pointer(pTab)).FnCol; iCol++ {
if *(*U8)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FabPK + uintptr(iCol))) != 0 {
var n1 int32 = sessionSerialLen(tls, a1)
var n2 int32 = sessionSerialLen(tls, a2)
if n1 != n2 || libc.Xmemcmp(tls, a1, a2, uint64(n1)) != 0 {
return 0
}
a1 += uintptr(n1)
a2 += uintptr(n2)
} else {
if bLeftPkOnly == 0 {
a1 += uintptr(sessionSerialLen(tls, a1))
}
if bRightPkOnly == 0 {
a2 += uintptr(sessionSerialLen(tls, a2))
}
}
}
return 1
}
func sessionMergeRecord(tls *libc.TLS, paOut uintptr, nCol int32, aLeft uintptr, aRight uintptr) {
var a1 uintptr = aLeft
var a2 uintptr = aRight
var aOut uintptr = *(*uintptr)(unsafe.Pointer(paOut))
var iCol int32
for iCol = 0; iCol < nCol; iCol++ {
var n1 int32 = sessionSerialLen(tls, a1)
var n2 int32 = sessionSerialLen(tls, a2)
if *(*U8)(unsafe.Pointer(a2)) != 0 {
libc.X__builtin___memcpy_chk(tls, aOut, a2, uint64(n2), libc.X__builtin_object_size(tls, aOut, 0))
aOut += uintptr(n2)
} else {
libc.X__builtin___memcpy_chk(tls, aOut, a1, uint64(n1), libc.X__builtin_object_size(tls, aOut, 0))
aOut += uintptr(n1)
}
a1 += uintptr(n1)
a2 += uintptr(n2)
}
*(*uintptr)(unsafe.Pointer(paOut)) = aOut
}
func sessionMergeValue(tls *libc.TLS, paOne uintptr, paTwo uintptr, pnVal uintptr) uintptr {
var a1 uintptr = *(*uintptr)(unsafe.Pointer(paOne))
var a2 uintptr = *(*uintptr)(unsafe.Pointer(paTwo))
var pRet uintptr = uintptr(0)
var n1 int32
if a2 != 0 {
var n2 int32 = sessionSerialLen(tls, a2)
if *(*U8)(unsafe.Pointer(a2)) != 0 {
*(*int32)(unsafe.Pointer(pnVal)) = n2
pRet = a2
}
*(*uintptr)(unsafe.Pointer(paTwo)) = a2 + uintptr(n2)
}
n1 = sessionSerialLen(tls, a1)
if pRet == uintptr(0) {
*(*int32)(unsafe.Pointer(pnVal)) = n1
pRet = a1
}
*(*uintptr)(unsafe.Pointer(paOne)) = a1 + uintptr(n1)
return pRet
}
func sessionMergeUpdate(tls *libc.TLS, paOut uintptr, pTab uintptr, bPatchset int32, aOldRecord1 uintptr, aOldRecord2 uintptr, aNewRecord1 uintptr, aNewRecord2 uintptr) int32 {
bp := tls.Alloc(52)
defer tls.Free(52)
*(*uintptr)(unsafe.Pointer(bp)) = aOldRecord1
*(*uintptr)(unsafe.Pointer(bp + 8)) = aOldRecord2
*(*uintptr)(unsafe.Pointer(bp + 24)) = aNewRecord1
*(*uintptr)(unsafe.Pointer(bp + 32)) = aNewRecord2
var aOut uintptr = *(*uintptr)(unsafe.Pointer(paOut))
var i int32
if bPatchset == 0 {
var bRequired int32 = 0
for i = 0; i < (*SessionTable)(unsafe.Pointer(pTab)).FnCol; i++ {
var aOld uintptr
var aNew uintptr
aOld = sessionMergeValue(tls, bp, bp+8, bp+16)
aNew = sessionMergeValue(tls, bp+24, bp+32, bp+40)
if *(*U8)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FabPK + uintptr(i))) != 0 || *(*int32)(unsafe.Pointer(bp + 16)) != *(*int32)(unsafe.Pointer(bp + 40)) || libc.Xmemcmp(tls, aOld, aNew, uint64(*(*int32)(unsafe.Pointer(bp + 40)))) != 0 {
if int32(*(*U8)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FabPK + uintptr(i)))) == 0 {
bRequired = 1
}
libc.X__builtin___memcpy_chk(tls, aOut, aOld, uint64(*(*int32)(unsafe.Pointer(bp + 16))), libc.X__builtin_object_size(tls, aOut, 0))
aOut += uintptr(*(*int32)(unsafe.Pointer(bp + 16)))
} else {
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&aOut, 1))) = U8(0)
}
}
if !(bRequired != 0) {
return 0
}
}
*(*uintptr)(unsafe.Pointer(bp)) = aOldRecord1
*(*uintptr)(unsafe.Pointer(bp + 8)) = aOldRecord2
*(*uintptr)(unsafe.Pointer(bp + 24)) = aNewRecord1
*(*uintptr)(unsafe.Pointer(bp + 32)) = aNewRecord2
for i = 0; i < (*SessionTable)(unsafe.Pointer(pTab)).FnCol; i++ {
var aOld uintptr
var aNew uintptr
aOld = sessionMergeValue(tls, bp, bp+8, bp+44)
aNew = sessionMergeValue(tls, bp+24, bp+32, bp+48)
if bPatchset == 0 &&
(*(*U8)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FabPK + uintptr(i))) != 0 || *(*int32)(unsafe.Pointer(bp + 44)) == *(*int32)(unsafe.Pointer(bp + 48)) && 0 == libc.Xmemcmp(tls, aOld, aNew, uint64(*(*int32)(unsafe.Pointer(bp + 48))))) {
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&aOut, 1))) = U8(0)
} else {
libc.X__builtin___memcpy_chk(tls, aOut, aNew, uint64(*(*int32)(unsafe.Pointer(bp + 48))), libc.X__builtin_object_size(tls, aOut, 0))
aOut += uintptr(*(*int32)(unsafe.Pointer(bp + 48)))
}
}
*(*uintptr)(unsafe.Pointer(paOut)) = aOut
return 1
}
func sessionPreupdateEqual(tls *libc.TLS, pSession uintptr, pTab uintptr, pChange uintptr, op int32) int32 {
bp := tls.Alloc(28)
defer tls.Free(28)
var iCol int32
var a uintptr = (*SessionChange)(unsafe.Pointer(pChange)).FaRecord
for iCol = 0; iCol < (*SessionTable)(unsafe.Pointer(pTab)).FnCol; iCol++ {
if !(int32(*(*U8)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FabPK + uintptr(iCol)))) != 0) {
a += uintptr(sessionSerialLen(tls, a))
} else {
var rc int32
_ = rc
var eType int32 = int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&a, 1))))
if op == SQLITE_INSERT {
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxNew})).f(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx, iCol, bp)
} else {
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxOld})).f(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx, iCol, bp)
}
if Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(bp))) != eType {
return 0
}
if eType == SQLITE_INTEGER || eType == SQLITE_FLOAT {
*(*I64)(unsafe.Pointer(bp + 16)) = sessionGetI64(tls, a)
a += uintptr(8)
if eType == SQLITE_INTEGER {
if Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(bp))) != *(*I64)(unsafe.Pointer(bp + 16)) {
return 0
}
} else {
libc.X__builtin___memcpy_chk(tls, bp+8, bp+16, uint64(8), libc.X__builtin_object_size(tls, bp+8, 0))
if Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(bp))) != *(*float64)(unsafe.Pointer(bp + 8)) {
return 0
}
}
} else {
var z uintptr
a += uintptr(sessionVarintGet(tls, a, bp+24))
if Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(bp))) != *(*int32)(unsafe.Pointer(bp + 24)) {
return 0
}
if eType == SQLITE_TEXT {
z = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(bp)))
} else {
z = Xsqlite3_value_blob(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
if *(*int32)(unsafe.Pointer(bp + 24)) > 0 && libc.Xmemcmp(tls, a, z, uint64(*(*int32)(unsafe.Pointer(bp + 24)))) != 0 {
return 0
}
a += uintptr(*(*int32)(unsafe.Pointer(bp + 24)))
}
}
}
return 1
}
func sessionGrowHash(tls *libc.TLS, pSession uintptr, bPatchset int32, pTab uintptr) int32 {
if (*SessionTable)(unsafe.Pointer(pTab)).FnChange == 0 || (*SessionTable)(unsafe.Pointer(pTab)).FnEntry >= (*SessionTable)(unsafe.Pointer(pTab)).FnChange/2 {
var i int32
var apNew uintptr
var nNew Sqlite3_int64 = int64(2) * func() int64 {
if (*SessionTable)(unsafe.Pointer(pTab)).FnChange != 0 {
return int64((*SessionTable)(unsafe.Pointer(pTab)).FnChange)
}
return int64(128)
}()
apNew = sessionMalloc64(tls,
pSession, int64(uint64(unsafe.Sizeof(uintptr(0)))*uint64(nNew)))
if apNew == uintptr(0) {
if (*SessionTable)(unsafe.Pointer(pTab)).FnChange == 0 {
return SQLITE_ERROR
}
return SQLITE_OK
}
libc.X__builtin___memset_chk(tls, apNew, 0, uint64(unsafe.Sizeof(uintptr(0)))*uint64(nNew), libc.X__builtin_object_size(tls, apNew, 0))
for i = 0; i < (*SessionTable)(unsafe.Pointer(pTab)).FnChange; i++ {
var p uintptr
var pNext uintptr
for p = *(*uintptr)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FapChange + uintptr(i)*8)); p != 0; p = pNext {
var bPkOnly int32 = libc.Bool32(int32((*SessionChange)(unsafe.Pointer(p)).Fop) == SQLITE_DELETE && bPatchset != 0)
var iHash int32 = int32(sessionChangeHash(tls, pTab, bPkOnly, (*SessionChange)(unsafe.Pointer(p)).FaRecord, int32(nNew)))
pNext = (*SessionChange)(unsafe.Pointer(p)).FpNext
(*SessionChange)(unsafe.Pointer(p)).FpNext = *(*uintptr)(unsafe.Pointer(apNew + uintptr(iHash)*8))
*(*uintptr)(unsafe.Pointer(apNew + uintptr(iHash)*8)) = p
}
}
sessionFree(tls, pSession, (*SessionTable)(unsafe.Pointer(pTab)).FapChange)
(*SessionTable)(unsafe.Pointer(pTab)).FnChange = int32(nNew)
(*SessionTable)(unsafe.Pointer(pTab)).FapChange = apNew
}
return SQLITE_OK
}
func sessionTableInfo(tls *libc.TLS, pSession uintptr, db uintptr, zDb uintptr, zThis uintptr, pnCol uintptr, pzTab uintptr, pazCol uintptr, pabPK uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var zPragma uintptr
var rc int32
var nByte Sqlite3_int64
var nDbCol int32 = 0
var nThis int32
var i int32
var pAlloc uintptr = uintptr(0)
var azCol uintptr = uintptr(0)
var abPK uintptr = uintptr(0)
nThis = Xsqlite3Strlen30(tls, zThis)
if nThis == 12 && 0 == Xsqlite3_stricmp(tls, ts+11751, zThis) {
rc = Xsqlite3_table_column_metadata(tls, db, zDb, zThis, uintptr(0), uintptr(0), uintptr(0), uintptr(0), uintptr(0), uintptr(0))
if rc == SQLITE_OK {
zPragma = Xsqlite3_mprintf(tls,
ts+32798, 0)
} else if rc == SQLITE_ERROR {
zPragma = Xsqlite3_mprintf(tls, ts+1547, 0)
} else {
*(*uintptr)(unsafe.Pointer(pazCol)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(pabPK)) = uintptr(0)
*(*int32)(unsafe.Pointer(pnCol)) = 0
if pzTab != 0 {
*(*uintptr)(unsafe.Pointer(pzTab)) = uintptr(0)
}
return rc
}
} else {
zPragma = Xsqlite3_mprintf(tls, ts+32919, libc.VaList(bp, zDb, zThis))
}
if !(zPragma != 0) {
*(*uintptr)(unsafe.Pointer(pazCol)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(pabPK)) = uintptr(0)
*(*int32)(unsafe.Pointer(pnCol)) = 0
if pzTab != 0 {
*(*uintptr)(unsafe.Pointer(pzTab)) = uintptr(0)
}
return SQLITE_NOMEM
}
rc = Xsqlite3_prepare_v2(tls, db, zPragma, -1, bp+16, uintptr(0))
Xsqlite3_free(tls, zPragma)
if rc != SQLITE_OK {
*(*uintptr)(unsafe.Pointer(pazCol)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(pabPK)) = uintptr(0)
*(*int32)(unsafe.Pointer(pnCol)) = 0
if pzTab != 0 {
*(*uintptr)(unsafe.Pointer(pzTab)) = uintptr(0)
}
return rc
}
nByte = Sqlite3_int64(nThis + 1)
for SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 16))) {
nByte = nByte + Sqlite3_int64(Xsqlite3_column_bytes(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 1))
nDbCol++
}
rc = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
if rc == SQLITE_OK {
nByte = Sqlite3_int64(uint64(nByte) + uint64(nDbCol)*(uint64(unsafe.Sizeof(uintptr(0)))+uint64(unsafe.Sizeof(U8(0)))+uint64(1)))
pAlloc = sessionMalloc64(tls, pSession, nByte)
if pAlloc == uintptr(0) {
rc = SQLITE_NOMEM
}
}
if rc == SQLITE_OK {
azCol = pAlloc
pAlloc = azCol + uintptr(nDbCol)*8
abPK = pAlloc
pAlloc = abPK + uintptr(nDbCol)
if pzTab != 0 {
libc.X__builtin___memcpy_chk(tls, pAlloc, zThis, uint64(nThis+1), libc.X__builtin_object_size(tls, pAlloc, 0))
*(*uintptr)(unsafe.Pointer(pzTab)) = pAlloc
pAlloc += uintptr(nThis + 1)
}
i = 0
for SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 16))) {
var nName int32 = Xsqlite3_column_bytes(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 1)
var zName uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 1)
if zName == uintptr(0) {
break
}
libc.X__builtin___memcpy_chk(tls, pAlloc, zName, uint64(nName+1), libc.X__builtin_object_size(tls, pAlloc, 0))
*(*uintptr)(unsafe.Pointer(azCol + uintptr(i)*8)) = pAlloc
pAlloc += uintptr(nName + 1)
*(*U8)(unsafe.Pointer(abPK + uintptr(i))) = U8(Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 5))
i++
}
rc = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
}
if rc == SQLITE_OK {
*(*uintptr)(unsafe.Pointer(pazCol)) = azCol
*(*uintptr)(unsafe.Pointer(pabPK)) = abPK
*(*int32)(unsafe.Pointer(pnCol)) = nDbCol
} else {
*(*uintptr)(unsafe.Pointer(pazCol)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(pabPK)) = uintptr(0)
*(*int32)(unsafe.Pointer(pnCol)) = 0
if pzTab != 0 {
*(*uintptr)(unsafe.Pointer(pzTab)) = uintptr(0)
}
sessionFree(tls, pSession, azCol)
}
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
return rc
}
func sessionInitTable(tls *libc.TLS, pSession uintptr, pTab uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
if (*SessionTable)(unsafe.Pointer(pTab)).FnCol == 0 {
(*Sqlite3_session)(unsafe.Pointer(pSession)).Frc = sessionTableInfo(tls, pSession, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb, (*Sqlite3_session)(unsafe.Pointer(pSession)).FzDb,
(*SessionTable)(unsafe.Pointer(pTab)).FzName, pTab+16, uintptr(0), pTab+24, bp)
if (*Sqlite3_session)(unsafe.Pointer(pSession)).Frc == SQLITE_OK {
var i int32
for i = 0; i < (*SessionTable)(unsafe.Pointer(pTab)).FnCol; i++ {
if *(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)) + uintptr(i))) != 0 {
(*SessionTable)(unsafe.Pointer(pTab)).FabPK = *(*uintptr)(unsafe.Pointer(bp))
break
}
}
if 0 == Xsqlite3_stricmp(tls, ts+11751, (*SessionTable)(unsafe.Pointer(pTab)).FzName) {
(*SessionTable)(unsafe.Pointer(pTab)).FbStat1 = 1
}
if (*Sqlite3_session)(unsafe.Pointer(pSession)).FbEnableSize != 0 {
*(*I64)(unsafe.Pointer(pSession + 64)) += I64(Size_t(1+sessionVarintLen(tls, (*SessionTable)(unsafe.Pointer(pTab)).FnCol)+(*SessionTable)(unsafe.Pointer(pTab)).FnCol) + libc.Xstrlen(tls, (*SessionTable)(unsafe.Pointer(pTab)).FzName) + uint64(1))
}
}
}
return libc.Bool32((*Sqlite3_session)(unsafe.Pointer(pSession)).Frc != 0 || (*SessionTable)(unsafe.Pointer(pTab)).FabPK == uintptr(0))
}
// Versions of the four methods in object SessionHook for use with the
// sqlite_stat1 table. The purpose of this is to substitute a zero-length
// blob each time a NULL value is read from the "idx" column of the
// sqlite_stat1 table.
type SessionStat1Ctx1 = struct {
Fhook SessionHook
FpSession uintptr
}
// Versions of the four methods in object SessionHook for use with the
// sqlite_stat1 table. The purpose of this is to substitute a zero-length
// blob each time a NULL value is read from the "idx" column of the
// sqlite_stat1 table.
type SessionStat1Ctx = SessionStat1Ctx1
func sessionStat1Old(tls *libc.TLS, pCtx uintptr, iCol int32, ppVal uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var p uintptr = pCtx
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var rc int32 = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*SessionStat1Ctx)(unsafe.Pointer(p)).Fhook.FxOld})).f(tls, (*SessionStat1Ctx)(unsafe.Pointer(p)).Fhook.FpCtx, iCol, bp)
if rc == SQLITE_OK && iCol == 1 && Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(bp))) == SQLITE_NULL {
*(*uintptr)(unsafe.Pointer(bp)) = (*Sqlite3_session)(unsafe.Pointer((*SessionStat1Ctx)(unsafe.Pointer(p)).FpSession)).FpZeroBlob
}
*(*uintptr)(unsafe.Pointer(ppVal)) = *(*uintptr)(unsafe.Pointer(bp))
return rc
}
func sessionStat1New(tls *libc.TLS, pCtx uintptr, iCol int32, ppVal uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var p uintptr = pCtx
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var rc int32 = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*SessionStat1Ctx)(unsafe.Pointer(p)).Fhook.FxNew})).f(tls, (*SessionStat1Ctx)(unsafe.Pointer(p)).Fhook.FpCtx, iCol, bp)
if rc == SQLITE_OK && iCol == 1 && Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(bp))) == SQLITE_NULL {
*(*uintptr)(unsafe.Pointer(bp)) = (*Sqlite3_session)(unsafe.Pointer((*SessionStat1Ctx)(unsafe.Pointer(p)).FpSession)).FpZeroBlob
}
*(*uintptr)(unsafe.Pointer(ppVal)) = *(*uintptr)(unsafe.Pointer(bp))
return rc
}
func sessionStat1Count(tls *libc.TLS, pCtx uintptr) int32 {
var p uintptr = pCtx
return (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*SessionStat1Ctx)(unsafe.Pointer(p)).Fhook.FxCount})).f(tls, (*SessionStat1Ctx)(unsafe.Pointer(p)).Fhook.FpCtx)
}
func sessionStat1Depth(tls *libc.TLS, pCtx uintptr) int32 {
var p uintptr = pCtx
return (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*SessionStat1Ctx)(unsafe.Pointer(p)).Fhook.FxDepth})).f(tls, (*SessionStat1Ctx)(unsafe.Pointer(p)).Fhook.FpCtx)
}
func sessionUpdateMaxSize(tls *libc.TLS, op int32, pSession uintptr, pTab uintptr, pC uintptr) int32 {
bp := tls.Alloc(44)
defer tls.Free(44)
*(*I64)(unsafe.Pointer(bp + 8)) = int64(2)
if int32((*SessionChange)(unsafe.Pointer(pC)).Fop) == SQLITE_INSERT {
if op != SQLITE_DELETE {
var ii int32
for ii = 0; ii < (*SessionTable)(unsafe.Pointer(pTab)).FnCol; ii++ {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxNew})).f(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx, ii, bp)
sessionSerializeValue(tls, uintptr(0), *(*uintptr)(unsafe.Pointer(bp)), bp+8)
}
}
} else if op == SQLITE_DELETE {
*(*I64)(unsafe.Pointer(bp + 8)) += I64((*SessionChange)(unsafe.Pointer(pC)).FnRecord)
if Xsqlite3_preupdate_blobwrite(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb) >= 0 {
*(*I64)(unsafe.Pointer(bp + 8)) += I64((*SessionChange)(unsafe.Pointer(pC)).FnRecord)
}
} else {
var ii int32
var pCsr uintptr = (*SessionChange)(unsafe.Pointer(pC)).FaRecord
for ii = 0; ii < (*SessionTable)(unsafe.Pointer(pTab)).FnCol; ii++ {
var bChanged int32 = 1
var nOld int32 = 0
var eType int32
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxNew})).f(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx, ii, bp+16)
if *(*uintptr)(unsafe.Pointer(bp + 16)) == uintptr(0) {
return SQLITE_NOMEM
}
eType = int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pCsr, 1))))
switch eType {
case SQLITE_NULL:
bChanged = libc.Bool32(Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(bp + 16))) != SQLITE_NULL)
break
fallthrough
case SQLITE_FLOAT:
fallthrough
case SQLITE_INTEGER:
{
if eType == Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(bp + 16))) {
*(*Sqlite3_int64)(unsafe.Pointer(bp + 32)) = sessionGetI64(tls, pCsr)
if eType == SQLITE_INTEGER {
bChanged = libc.Bool32(*(*Sqlite3_int64)(unsafe.Pointer(bp + 32)) != Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(bp + 16))))
} else {
libc.X__builtin___memcpy_chk(tls, bp+24, bp+32, uint64(8), libc.X__builtin_object_size(tls, bp+24, 0))
bChanged = libc.Bool32(*(*float64)(unsafe.Pointer(bp + 24)) != Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(bp + 16))))
}
}
nOld = 8
pCsr += uintptr(8)
break
}
fallthrough
default:
{
nOld = sessionVarintGet(tls, pCsr, bp+40)
pCsr += uintptr(nOld)
nOld = nOld + *(*int32)(unsafe.Pointer(bp + 40))
if eType == Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(bp + 16))) &&
*(*int32)(unsafe.Pointer(bp + 40)) == Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(bp + 16))) &&
(*(*int32)(unsafe.Pointer(bp + 40)) == 0 || 0 == libc.Xmemcmp(tls, pCsr, Xsqlite3_value_blob(tls, *(*uintptr)(unsafe.Pointer(bp + 16))), uint64(*(*int32)(unsafe.Pointer(bp + 40))))) {
bChanged = 0
}
pCsr += uintptr(*(*int32)(unsafe.Pointer(bp + 40)))
break
}
}
if bChanged != 0 && *(*U8)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FabPK + uintptr(ii))) != 0 {
*(*I64)(unsafe.Pointer(bp + 8)) = I64((*SessionChange)(unsafe.Pointer(pC)).FnRecord + 2)
break
}
if bChanged != 0 {
*(*I64)(unsafe.Pointer(bp + 8)) += I64(1 + nOld)
sessionSerializeValue(tls, uintptr(0), *(*uintptr)(unsafe.Pointer(bp + 16)), bp+8)
} else if *(*U8)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FabPK + uintptr(ii))) != 0 {
*(*I64)(unsafe.Pointer(bp + 8)) += I64(2 + nOld)
} else {
*(*I64)(unsafe.Pointer(bp + 8)) += int64(2)
}
}
}
if *(*I64)(unsafe.Pointer(bp + 8)) > I64((*SessionChange)(unsafe.Pointer(pC)).FnMaxSize) {
var nIncr int32 = int32(*(*I64)(unsafe.Pointer(bp + 8)) - I64((*SessionChange)(unsafe.Pointer(pC)).FnMaxSize))
(*SessionChange)(unsafe.Pointer(pC)).FnMaxSize = int32(*(*I64)(unsafe.Pointer(bp + 8)))
*(*I64)(unsafe.Pointer(pSession + 64)) += I64(nIncr)
}
return SQLITE_OK
}
func sessionPreupdateOneChange(tls *libc.TLS, op int32, pSession uintptr, pTab uintptr) {
bp := tls.Alloc(80)
defer tls.Free(80)
var rc int32
var p uintptr
var i int32
var pC uintptr
*(*int32)(unsafe.Pointer(bp + 52)) = 0
rc = SQLITE_OK
*(*SessionStat1Ctx)(unsafe.Pointer(bp)) = SessionStat1Ctx{}
if !((*Sqlite3_session)(unsafe.Pointer(pSession)).Frc != 0) {
goto __1
}
return
__1:
;
if !(sessionInitTable(tls, pSession, pTab) != 0) {
goto __2
}
return
__2:
;
if !((*SessionTable)(unsafe.Pointer(pTab)).FnCol != (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxCount})).f(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx)) {
goto __3
}
(*Sqlite3_session)(unsafe.Pointer(pSession)).Frc = SQLITE_SCHEMA
return
__3:
;
if !(sessionGrowHash(tls, pSession, 0, pTab) != 0) {
goto __4
}
(*Sqlite3_session)(unsafe.Pointer(pSession)).Frc = SQLITE_NOMEM
return
__4:
;
if !((*SessionTable)(unsafe.Pointer(pTab)).FbStat1 != 0) {
goto __5
}
(*SessionStat1Ctx)(unsafe.Pointer(bp)).Fhook = (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook
(*SessionStat1Ctx)(unsafe.Pointer(bp)).FpSession = pSession
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx = bp
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxNew = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
}{sessionStat1New}))
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxOld = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
}{sessionStat1Old}))
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxCount = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr) int32
}{sessionStat1Count}))
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxDepth = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr) int32
}{sessionStat1Depth}))
if !((*Sqlite3_session)(unsafe.Pointer(pSession)).FpZeroBlob == uintptr(0)) {
goto __6
}
p = Xsqlite3ValueNew(tls, uintptr(0))
if !(p == uintptr(0)) {
goto __7
}
rc = SQLITE_NOMEM
goto error_out
__7:
;
Xsqlite3ValueSetStr(tls, p, 0, ts+1547, uint8(0), uintptr(0))
(*Sqlite3_session)(unsafe.Pointer(pSession)).FpZeroBlob = p
__6:
;
__5:
;
rc = sessionPreupdateHash(tls, pSession, pTab, libc.Bool32(op == SQLITE_INSERT), bp+48, bp+52)
if !(rc != SQLITE_OK) {
goto __8
}
goto error_out
__8:
;
if !(*(*int32)(unsafe.Pointer(bp + 52)) == 0) {
goto __9
}
pC = *(*uintptr)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FapChange + uintptr(*(*int32)(unsafe.Pointer(bp + 48)))*8))
__10:
if !(pC != 0) {
goto __12
}
if !(sessionPreupdateEqual(tls, pSession, pTab, pC, op) != 0) {
goto __13
}
goto __12
__13:
;
goto __11
__11:
pC = (*SessionChange)(unsafe.Pointer(pC)).FpNext
goto __10
goto __12
__12:
;
if !(pC == uintptr(0)) {
goto __14
}
(*SessionTable)(unsafe.Pointer(pTab)).FnEntry++
*(*Sqlite3_int64)(unsafe.Pointer(bp + 64)) = Sqlite3_int64(unsafe.Sizeof(SessionChange{}))
i = 0
__16:
if !(i < (*SessionTable)(unsafe.Pointer(pTab)).FnCol) {
goto __18
}
*(*uintptr)(unsafe.Pointer(bp + 56)) = uintptr(0)
if !(op != SQLITE_INSERT) {
goto __19
}
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxOld})).f(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx, i, bp+56)
goto __20
__19:
if !(*(*U8)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FabPK + uintptr(i))) != 0) {
goto __21
}
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxNew})).f(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx, i, bp+56)
__21:
;
__20:
;
rc = sessionSerializeValue(tls, uintptr(0), *(*uintptr)(unsafe.Pointer(bp + 56)), bp+64)
if !(rc != SQLITE_OK) {
goto __22
}
goto error_out
__22:
;
goto __17
__17:
i++
goto __16
goto __18
__18:
;
pC = sessionMalloc64(tls, pSession, *(*Sqlite3_int64)(unsafe.Pointer(bp + 64)))
if !!(pC != 0) {
goto __23
}
rc = SQLITE_NOMEM
goto error_out
goto __24
__23:
libc.X__builtin___memset_chk(tls, pC, 0, uint64(unsafe.Sizeof(SessionChange{})), libc.X__builtin_object_size(tls, pC, 0))
(*SessionChange)(unsafe.Pointer(pC)).FaRecord = pC + 1*32
__24:
;
*(*Sqlite3_int64)(unsafe.Pointer(bp + 64)) = int64(0)
i = 0
__25:
if !(i < (*SessionTable)(unsafe.Pointer(pTab)).FnCol) {
goto __27
}
*(*uintptr)(unsafe.Pointer(bp + 72)) = uintptr(0)
if !(op != SQLITE_INSERT) {
goto __28
}
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxOld})).f(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx, i, bp+72)
goto __29
__28:
if !(*(*U8)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FabPK + uintptr(i))) != 0) {
goto __30
}
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxNew})).f(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx, i, bp+72)
__30:
;
__29:
;
sessionSerializeValue(tls, (*SessionChange)(unsafe.Pointer(pC)).FaRecord+uintptr(*(*Sqlite3_int64)(unsafe.Pointer(bp + 64))), *(*uintptr)(unsafe.Pointer(bp + 72)), bp+64)
goto __26
__26:
i++
goto __25
goto __27
__27:
;
if !((*Sqlite3_session)(unsafe.Pointer(pSession)).FbIndirect != 0 || (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxDepth})).f(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx) != 0) {
goto __31
}
(*SessionChange)(unsafe.Pointer(pC)).FbIndirect = U8(1)
__31:
;
(*SessionChange)(unsafe.Pointer(pC)).FnRecord = int32(*(*Sqlite3_int64)(unsafe.Pointer(bp + 64)))
(*SessionChange)(unsafe.Pointer(pC)).Fop = U8(op)
(*SessionChange)(unsafe.Pointer(pC)).FpNext = *(*uintptr)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FapChange + uintptr(*(*int32)(unsafe.Pointer(bp + 48)))*8))
*(*uintptr)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FapChange + uintptr(*(*int32)(unsafe.Pointer(bp + 48)))*8)) = pC
goto __15
__14:
if !((*SessionChange)(unsafe.Pointer(pC)).FbIndirect != 0) {
goto __32
}
if !((*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxDepth})).f(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx) == 0 &&
(*Sqlite3_session)(unsafe.Pointer(pSession)).FbIndirect == 0) {
goto __33
}
(*SessionChange)(unsafe.Pointer(pC)).FbIndirect = U8(0)
__33:
;
__32:
;
__15:
;
if !((*Sqlite3_session)(unsafe.Pointer(pSession)).FbEnableSize != 0) {
goto __34
}
rc = sessionUpdateMaxSize(tls, op, pSession, pTab, pC)
__34:
;
__9:
;
error_out:
if !((*SessionTable)(unsafe.Pointer(pTab)).FbStat1 != 0) {
goto __35
}
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook = (*SessionStat1Ctx)(unsafe.Pointer(bp)).Fhook
__35:
;
if !(rc != SQLITE_OK) {
goto __36
}
(*Sqlite3_session)(unsafe.Pointer(pSession)).Frc = rc
__36:
}
func sessionFindTable(tls *libc.TLS, pSession uintptr, zName uintptr, ppTab uintptr) int32 {
var rc int32 = SQLITE_OK
var nName int32 = Xsqlite3Strlen30(tls, zName)
var pRet uintptr
for pRet = (*Sqlite3_session)(unsafe.Pointer(pSession)).FpTable; pRet != 0; pRet = (*SessionTable)(unsafe.Pointer(pRet)).FpNext {
if 0 == Xsqlite3_strnicmp(tls, (*SessionTable)(unsafe.Pointer(pRet)).FzName, zName, nName+1) {
break
}
}
if pRet == uintptr(0) && (*Sqlite3_session)(unsafe.Pointer(pSession)).FbAutoAttach != 0 {
if (*Sqlite3_session)(unsafe.Pointer(pSession)).FxTableFilter == uintptr(0) ||
(*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Sqlite3_session)(unsafe.Pointer(pSession)).FxTableFilter})).f(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).FpFilterCtx, zName) != 0 {
rc = Xsqlite3session_attach(tls, pSession, zName)
if rc == SQLITE_OK {
pRet = (*Sqlite3_session)(unsafe.Pointer(pSession)).FpTable
for pRet != 0 && (*SessionTable)(unsafe.Pointer(pRet)).FpNext != 0 {
pRet = (*SessionTable)(unsafe.Pointer(pRet)).FpNext
}
}
}
}
*(*uintptr)(unsafe.Pointer(ppTab)) = pRet
return rc
}
func xPreUpdate(tls *libc.TLS, pCtx uintptr, db uintptr, op int32, zDb uintptr, zName uintptr, iKey1 Sqlite3_int64, iKey2 Sqlite3_int64) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pSession uintptr
var nDb int32 = Xsqlite3Strlen30(tls, zDb)
_ = iKey1
_ = iKey2
for pSession = pCtx; pSession != 0; pSession = (*Sqlite3_session)(unsafe.Pointer(pSession)).FpNext {
if (*Sqlite3_session)(unsafe.Pointer(pSession)).FbEnable == 0 {
continue
}
if (*Sqlite3_session)(unsafe.Pointer(pSession)).Frc != 0 {
continue
}
if Xsqlite3_strnicmp(tls, zDb, (*Sqlite3_session)(unsafe.Pointer(pSession)).FzDb, nDb+1) != 0 {
continue
}
(*Sqlite3_session)(unsafe.Pointer(pSession)).Frc = sessionFindTable(tls, pSession, zName, bp)
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
sessionPreupdateOneChange(tls, op, pSession, *(*uintptr)(unsafe.Pointer(bp)))
if op == SQLITE_UPDATE {
sessionPreupdateOneChange(tls, SQLITE_INSERT, pSession, *(*uintptr)(unsafe.Pointer(bp)))
}
}
}
}
func sessionPreupdateOld(tls *libc.TLS, pCtx uintptr, iVal int32, ppVal uintptr) int32 {
return Xsqlite3_preupdate_old(tls, pCtx, iVal, ppVal)
}
func sessionPreupdateNew(tls *libc.TLS, pCtx uintptr, iVal int32, ppVal uintptr) int32 {
return Xsqlite3_preupdate_new(tls, pCtx, iVal, ppVal)
}
func sessionPreupdateCount(tls *libc.TLS, pCtx uintptr) int32 {
return Xsqlite3_preupdate_count(tls, pCtx)
}
func sessionPreupdateDepth(tls *libc.TLS, pCtx uintptr) int32 {
return Xsqlite3_preupdate_depth(tls, pCtx)
}
func sessionPreupdateHooks(tls *libc.TLS, pSession uintptr) {
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx = (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxOld = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
}{sessionPreupdateOld}))
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxNew = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
}{sessionPreupdateNew}))
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxCount = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr) int32
}{sessionPreupdateCount}))
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxDepth = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr) int32
}{sessionPreupdateDepth}))
}
type SessionDiffCtx1 = struct {
FpStmt uintptr
FnOldOff int32
F__ccgo_pad1 [4]byte
}
type SessionDiffCtx = SessionDiffCtx1
func sessionDiffOld(tls *libc.TLS, pCtx uintptr, iVal int32, ppVal uintptr) int32 {
var p uintptr = pCtx
*(*uintptr)(unsafe.Pointer(ppVal)) = Xsqlite3_column_value(tls, (*SessionDiffCtx)(unsafe.Pointer(p)).FpStmt, iVal+(*SessionDiffCtx)(unsafe.Pointer(p)).FnOldOff)
return SQLITE_OK
}
func sessionDiffNew(tls *libc.TLS, pCtx uintptr, iVal int32, ppVal uintptr) int32 {
var p uintptr = pCtx
*(*uintptr)(unsafe.Pointer(ppVal)) = Xsqlite3_column_value(tls, (*SessionDiffCtx)(unsafe.Pointer(p)).FpStmt, iVal)
return SQLITE_OK
}
func sessionDiffCount(tls *libc.TLS, pCtx uintptr) int32 {
var p uintptr = pCtx
if (*SessionDiffCtx)(unsafe.Pointer(p)).FnOldOff != 0 {
return (*SessionDiffCtx)(unsafe.Pointer(p)).FnOldOff
}
return Xsqlite3_column_count(tls, (*SessionDiffCtx)(unsafe.Pointer(p)).FpStmt)
}
func sessionDiffDepth(tls *libc.TLS, pCtx uintptr) int32 {
_ = pCtx
return 0
}
func sessionDiffHooks(tls *libc.TLS, pSession uintptr, pDiffCtx uintptr) {
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx = pDiffCtx
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxOld = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
}{sessionDiffOld}))
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxNew = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
}{sessionDiffNew}))
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxCount = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr) int32
}{sessionDiffCount}))
(*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FxDepth = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr) int32
}{sessionDiffDepth}))
}
func sessionExprComparePK(tls *libc.TLS, nCol int32, zDb1 uintptr, zDb2 uintptr, zTab uintptr, azCol uintptr, abPK uintptr) uintptr {
bp := tls.Alloc(64)
defer tls.Free(64)
var i int32
var zSep uintptr = ts + 1547
var zRet uintptr = uintptr(0)
for i = 0; i < nCol; i++ {
if *(*U8)(unsafe.Pointer(abPK + uintptr(i))) != 0 {
zRet = Xsqlite3_mprintf(tls, ts+32948,
libc.VaList(bp, zRet, zSep, zDb1, zTab, *(*uintptr)(unsafe.Pointer(azCol + uintptr(i)*8)), zDb2, zTab, *(*uintptr)(unsafe.Pointer(azCol + uintptr(i)*8))))
zSep = ts + 21975
if zRet == uintptr(0) {
break
}
}
}
return zRet
}
func sessionExprCompareOther(tls *libc.TLS, nCol int32, zDb1 uintptr, zDb2 uintptr, zTab uintptr, azCol uintptr, abPK uintptr) uintptr {
bp := tls.Alloc(64)
defer tls.Free(64)
var i int32
var zSep uintptr = ts + 1547
var zRet uintptr = uintptr(0)
var bHave int32 = 0
for i = 0; i < nCol; i++ {
if int32(*(*U8)(unsafe.Pointer(abPK + uintptr(i)))) == 0 {
bHave = 1
zRet = Xsqlite3_mprintf(tls,
ts+32982,
libc.VaList(bp, zRet, zSep, zDb1, zTab, *(*uintptr)(unsafe.Pointer(azCol + uintptr(i)*8)), zDb2, zTab, *(*uintptr)(unsafe.Pointer(azCol + uintptr(i)*8))))
zSep = ts + 33023
if zRet == uintptr(0) {
break
}
}
}
if bHave == 0 {
zRet = Xsqlite3_mprintf(tls, ts+7933, 0)
}
return zRet
}
func sessionSelectFindNew(tls *libc.TLS, zDb1 uintptr, zDb2 uintptr, zTbl uintptr, zExpr uintptr) uintptr {
bp := tls.Alloc(40)
defer tls.Free(40)
var zRet uintptr = Xsqlite3_mprintf(tls,
ts+33028,
libc.VaList(bp, zDb1, zTbl, zDb2, zTbl, zExpr))
return zRet
}
func sessionDiffFindNew(tls *libc.TLS, op int32, pSession uintptr, pTab uintptr, zDb1 uintptr, zDb2 uintptr, zExpr uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
var zStmt uintptr = sessionSelectFindNew(tls, zDb1, zDb2, (*SessionTable)(unsafe.Pointer(pTab)).FzName, zExpr)
if zStmt == uintptr(0) {
rc = SQLITE_NOMEM
} else {
rc = Xsqlite3_prepare(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb, zStmt, -1, bp, uintptr(0))
if rc == SQLITE_OK {
var pDiffCtx uintptr = (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx
(*SessionDiffCtx)(unsafe.Pointer(pDiffCtx)).FpStmt = *(*uintptr)(unsafe.Pointer(bp))
(*SessionDiffCtx)(unsafe.Pointer(pDiffCtx)).FnOldOff = 0
for SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp))) {
sessionPreupdateOneChange(tls, op, pSession, pTab)
}
rc = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
Xsqlite3_free(tls, zStmt)
}
return rc
}
func sessionDiffFindModified(tls *libc.TLS, pSession uintptr, pTab uintptr, zFrom uintptr, zExpr uintptr) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
var rc int32 = SQLITE_OK
var zExpr2 uintptr = sessionExprCompareOther(tls, (*SessionTable)(unsafe.Pointer(pTab)).FnCol,
(*Sqlite3_session)(unsafe.Pointer(pSession)).FzDb, zFrom, (*SessionTable)(unsafe.Pointer(pTab)).FzName, (*SessionTable)(unsafe.Pointer(pTab)).FazCol, (*SessionTable)(unsafe.Pointer(pTab)).FabPK)
if zExpr2 == uintptr(0) {
rc = SQLITE_NOMEM
} else {
var zStmt uintptr = Xsqlite3_mprintf(tls,
ts+33106,
libc.VaList(bp, (*Sqlite3_session)(unsafe.Pointer(pSession)).FzDb, (*SessionTable)(unsafe.Pointer(pTab)).FzName, zFrom, (*SessionTable)(unsafe.Pointer(pTab)).FzName, zExpr, zExpr2))
if zStmt == uintptr(0) {
rc = SQLITE_NOMEM
} else {
rc = Xsqlite3_prepare(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb, zStmt, -1, bp+48, uintptr(0))
if rc == SQLITE_OK {
var pDiffCtx uintptr = (*Sqlite3_session)(unsafe.Pointer(pSession)).Fhook.FpCtx
(*SessionDiffCtx)(unsafe.Pointer(pDiffCtx)).FpStmt = *(*uintptr)(unsafe.Pointer(bp + 48))
(*SessionDiffCtx)(unsafe.Pointer(pDiffCtx)).FnOldOff = (*SessionTable)(unsafe.Pointer(pTab)).FnCol
for SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 48))) {
sessionPreupdateOneChange(tls, SQLITE_UPDATE, pSession, pTab)
}
rc = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 48)))
}
Xsqlite3_free(tls, zStmt)
}
}
return rc
}
func Xsqlite3session_diff(tls *libc.TLS, pSession uintptr, zFrom uintptr, zTbl uintptr, pzErrMsg uintptr) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
var zDb uintptr
var rc int32
var i int32
var bHasPk int32
var bMismatch int32
var zExpr uintptr
var db uintptr
zDb = (*Sqlite3_session)(unsafe.Pointer(pSession)).FzDb
rc = (*Sqlite3_session)(unsafe.Pointer(pSession)).Frc
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(SessionDiffCtx{})), libc.X__builtin_object_size(tls, bp, 0))
sessionDiffHooks(tls, pSession, bp)
Xsqlite3_mutex_enter(tls, Xsqlite3_db_mutex(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb))
if !(pzErrMsg != 0) {
goto __1
}
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = uintptr(0)
__1:
;
if !(rc == SQLITE_OK) {
goto __2
}
zExpr = uintptr(0)
db = (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb
rc = sessionFindTable(tls, pSession, zTbl, bp+16)
if !(*(*uintptr)(unsafe.Pointer(bp + 16)) == uintptr(0)) {
goto __3
}
goto diff_out
__3:
;
if !(sessionInitTable(tls, pSession, *(*uintptr)(unsafe.Pointer(bp + 16))) != 0) {
goto __4
}
rc = (*Sqlite3_session)(unsafe.Pointer(pSession)).Frc
goto diff_out
__4:
;
if !(rc == SQLITE_OK) {
goto __5
}
bHasPk = 0
bMismatch = 0
*(*uintptr)(unsafe.Pointer(bp + 32)) = uintptr(0)
rc = sessionTableInfo(tls, uintptr(0), db, zFrom, zTbl, bp+24, uintptr(0), bp+32, bp+40)
if !(rc == SQLITE_OK) {
goto __6
}
if !((*SessionTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FnCol != *(*int32)(unsafe.Pointer(bp + 24))) {
goto __7
}
bMismatch = 1
goto __8
__7:
i = 0
__9:
if !(i < *(*int32)(unsafe.Pointer(bp + 24))) {
goto __11
}
if !(int32(*(*U8)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FabPK + uintptr(i)))) != int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 40)) + uintptr(i))))) {
goto __12
}
bMismatch = 1
__12:
;
if !(Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 32)) + uintptr(i)*8)), *(*uintptr)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FazCol + uintptr(i)*8))) != 0) {
goto __13
}
bMismatch = 1
__13:
;
if !(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 40)) + uintptr(i))) != 0) {
goto __14
}
bHasPk = 1
__14:
;
goto __10
__10:
i++
goto __9
goto __11
__11:
;
__8:
;
__6:
;
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 32)))
if !(bMismatch != 0) {
goto __15
}
if !(pzErrMsg != 0) {
goto __16
}
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = Xsqlite3_mprintf(tls, ts+33159, 0)
__16:
;
rc = SQLITE_SCHEMA
__15:
;
if !(bHasPk == 0) {
goto __17
}
goto diff_out
__17:
;
__5:
;
if !(rc == SQLITE_OK) {
goto __18
}
zExpr = sessionExprComparePK(tls, (*SessionTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FnCol,
zDb, zFrom, (*SessionTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FzName, (*SessionTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FazCol, (*SessionTable)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FabPK)
__18:
;
if !(rc == SQLITE_OK) {
goto __19
}
rc = sessionDiffFindNew(tls, SQLITE_INSERT, pSession, *(*uintptr)(unsafe.Pointer(bp + 16)), zDb, zFrom, zExpr)
__19:
;
if !(rc == SQLITE_OK) {
goto __20
}
rc = sessionDiffFindNew(tls, SQLITE_DELETE, pSession, *(*uintptr)(unsafe.Pointer(bp + 16)), zFrom, zDb, zExpr)
__20:
;
if !(rc == SQLITE_OK) {
goto __21
}
rc = sessionDiffFindModified(tls, pSession, *(*uintptr)(unsafe.Pointer(bp + 16)), zFrom, zExpr)
__21:
;
Xsqlite3_free(tls, zExpr)
__2:
;
diff_out:
sessionPreupdateHooks(tls, pSession)
Xsqlite3_mutex_leave(tls, Xsqlite3_db_mutex(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb))
return rc
}
// Create a session object. This session object will record changes to
// database zDb attached to connection db.
func Xsqlite3session_create(tls *libc.TLS, db uintptr, zDb uintptr, ppSession uintptr) int32 {
var pNew uintptr
var pOld uintptr
var nDb int32 = Xsqlite3Strlen30(tls, zDb)
*(*uintptr)(unsafe.Pointer(ppSession)) = uintptr(0)
pNew = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(Sqlite3_session{}))+uint64(nDb)+uint64(1))
if !(pNew != 0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, pNew, 0, uint64(unsafe.Sizeof(Sqlite3_session{})), libc.X__builtin_object_size(tls, pNew, 0))
(*Sqlite3_session)(unsafe.Pointer(pNew)).Fdb = db
(*Sqlite3_session)(unsafe.Pointer(pNew)).FzDb = pNew + 1*136
(*Sqlite3_session)(unsafe.Pointer(pNew)).FbEnable = 1
libc.X__builtin___memcpy_chk(tls, (*Sqlite3_session)(unsafe.Pointer(pNew)).FzDb, zDb, uint64(nDb+1), libc.X__builtin_object_size(tls, (*Sqlite3_session)(unsafe.Pointer(pNew)).FzDb, 0))
sessionPreupdateHooks(tls, pNew)
Xsqlite3_mutex_enter(tls, Xsqlite3_db_mutex(tls, db))
pOld = Xsqlite3_preupdate_hook(tls, db, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, Sqlite3_int64, Sqlite3_int64)
}{xPreUpdate})), pNew)
(*Sqlite3_session)(unsafe.Pointer(pNew)).FpNext = pOld
Xsqlite3_mutex_leave(tls, Xsqlite3_db_mutex(tls, db))
*(*uintptr)(unsafe.Pointer(ppSession)) = pNew
return SQLITE_OK
}
func sessionDeleteTable(tls *libc.TLS, pSession uintptr, pList uintptr) {
var pNext uintptr
var pTab uintptr
for pTab = pList; pTab != 0; pTab = pNext {
var i int32
pNext = (*SessionTable)(unsafe.Pointer(pTab)).FpNext
for i = 0; i < (*SessionTable)(unsafe.Pointer(pTab)).FnChange; i++ {
var p uintptr
var pNextChange uintptr
for p = *(*uintptr)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FapChange + uintptr(i)*8)); p != 0; p = pNextChange {
pNextChange = (*SessionChange)(unsafe.Pointer(p)).FpNext
sessionFree(tls, pSession, p)
}
}
sessionFree(tls, pSession, (*SessionTable)(unsafe.Pointer(pTab)).FazCol)
sessionFree(tls, pSession, (*SessionTable)(unsafe.Pointer(pTab)).FapChange)
sessionFree(tls, pSession, pTab)
}
}
// Delete a session object previously allocated using sqlite3session_create().
func Xsqlite3session_delete(tls *libc.TLS, pSession uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var db uintptr = (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb
var pp uintptr
Xsqlite3_mutex_enter(tls, Xsqlite3_db_mutex(tls, db))
*(*uintptr)(unsafe.Pointer(bp)) = Xsqlite3_preupdate_hook(tls, db, uintptr(0), uintptr(0))
for pp = bp; *(*uintptr)(unsafe.Pointer(pp)) != uintptr(0); pp = *(*uintptr)(unsafe.Pointer(pp)) + 80 {
if *(*uintptr)(unsafe.Pointer(pp)) == pSession {
*(*uintptr)(unsafe.Pointer(pp)) = (*Sqlite3_session)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).FpNext
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
Xsqlite3_preupdate_hook(tls, db, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, Sqlite3_int64, Sqlite3_int64)
}{xPreUpdate})), *(*uintptr)(unsafe.Pointer(bp)))
}
break
}
}
Xsqlite3_mutex_leave(tls, Xsqlite3_db_mutex(tls, db))
Xsqlite3ValueFree(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).FpZeroBlob)
sessionDeleteTable(tls, pSession, (*Sqlite3_session)(unsafe.Pointer(pSession)).FpTable)
Xsqlite3_free(tls, pSession)
}
// Set a table filter on a Session Object.
func Xsqlite3session_table_filter(tls *libc.TLS, pSession uintptr, xFilter uintptr, pCtx uintptr) {
(*Sqlite3_session)(unsafe.Pointer(pSession)).FbAutoAttach = 1
(*Sqlite3_session)(unsafe.Pointer(pSession)).FpFilterCtx = pCtx
(*Sqlite3_session)(unsafe.Pointer(pSession)).FxTableFilter = xFilter
}
// Attach a table to a session. All subsequent changes made to the table
// while the session object is enabled will be recorded.
//
// Only tables that have a PRIMARY KEY defined may be attached. It does
// not matter if the PRIMARY KEY is an "INTEGER PRIMARY KEY" (rowid alias)
// or not.
func Xsqlite3session_attach(tls *libc.TLS, pSession uintptr, zName uintptr) int32 {
var rc int32 = SQLITE_OK
Xsqlite3_mutex_enter(tls, Xsqlite3_db_mutex(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb))
if !(zName != 0) {
(*Sqlite3_session)(unsafe.Pointer(pSession)).FbAutoAttach = 1
} else {
var pTab uintptr
var nName int32
nName = Xsqlite3Strlen30(tls, zName)
for pTab = (*Sqlite3_session)(unsafe.Pointer(pSession)).FpTable; pTab != 0; pTab = (*SessionTable)(unsafe.Pointer(pTab)).FpNext {
if 0 == Xsqlite3_strnicmp(tls, (*SessionTable)(unsafe.Pointer(pTab)).FzName, zName, nName+1) {
break
}
}
if !(pTab != 0) {
var nByte int32 = int32(uint64(unsafe.Sizeof(SessionTable{})) + uint64(nName) + uint64(1))
pTab = sessionMalloc64(tls, pSession, int64(nByte))
if !(pTab != 0) {
rc = SQLITE_NOMEM
} else {
var ppTab uintptr
libc.X__builtin___memset_chk(tls, pTab, 0, uint64(unsafe.Sizeof(SessionTable{})), libc.X__builtin_object_size(tls, pTab, 0))
(*SessionTable)(unsafe.Pointer(pTab)).FzName = pTab + 1*56
libc.X__builtin___memcpy_chk(tls, (*SessionTable)(unsafe.Pointer(pTab)).FzName, zName, uint64(nName+1), libc.X__builtin_object_size(tls, (*SessionTable)(unsafe.Pointer(pTab)).FzName, 0))
for ppTab = pSession + 88; *(*uintptr)(unsafe.Pointer(ppTab)) != 0; ppTab = *(*uintptr)(unsafe.Pointer(ppTab)) {
}
*(*uintptr)(unsafe.Pointer(ppTab)) = pTab
}
}
}
Xsqlite3_mutex_leave(tls, Xsqlite3_db_mutex(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb))
return rc
}
func sessionBufferGrow(tls *libc.TLS, p uintptr, nByte I64, pRc uintptr) int32 {
var nReq I64 = I64((*SessionBuffer)(unsafe.Pointer(p)).FnBuf) + nByte
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK && nReq > I64((*SessionBuffer)(unsafe.Pointer(p)).FnAlloc) {
var aNew uintptr
var nNew I64
if (*SessionBuffer)(unsafe.Pointer(p)).FnAlloc != 0 {
nNew = int64((*SessionBuffer)(unsafe.Pointer(p)).FnAlloc)
} else {
nNew = int64(128)
}
for __ccgo := true; __ccgo; __ccgo = nNew < nReq {
nNew = nNew * int64(2)
}
if nNew > int64(0x7FFFFF00-1) {
nNew = int64(0x7FFFFF00 - 1)
if nNew < nReq {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
return 1
}
}
aNew = Xsqlite3_realloc64(tls, (*SessionBuffer)(unsafe.Pointer(p)).FaBuf, uint64(nNew))
if uintptr(0) == aNew {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
} else {
(*SessionBuffer)(unsafe.Pointer(p)).FaBuf = aNew
(*SessionBuffer)(unsafe.Pointer(p)).FnAlloc = int32(nNew)
}
}
return libc.Bool32(*(*int32)(unsafe.Pointer(pRc)) != SQLITE_OK)
}
func sessionAppendValue(tls *libc.TLS, p uintptr, pVal uintptr, pRc uintptr) {
bp := tls.Alloc(12)
defer tls.Free(12)
*(*int32)(unsafe.Pointer(bp + 8)) = *(*int32)(unsafe.Pointer(pRc))
if *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK {
*(*Sqlite3_int64)(unsafe.Pointer(bp)) = int64(0)
*(*int32)(unsafe.Pointer(bp + 8)) = sessionSerializeValue(tls, uintptr(0), pVal, bp)
sessionBufferGrow(tls, p, *(*Sqlite3_int64)(unsafe.Pointer(bp)), bp+8)
if *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 8)) = sessionSerializeValue(tls, (*SessionBuffer)(unsafe.Pointer(p)).FaBuf+uintptr((*SessionBuffer)(unsafe.Pointer(p)).FnBuf), pVal, uintptr(0))
*(*int32)(unsafe.Pointer(p + 8)) += int32(*(*Sqlite3_int64)(unsafe.Pointer(bp)))
} else {
*(*int32)(unsafe.Pointer(pRc)) = *(*int32)(unsafe.Pointer(bp + 8))
}
}
}
func sessionAppendByte(tls *libc.TLS, p uintptr, v U8, pRc uintptr) {
if 0 == sessionBufferGrow(tls, p, int64(1), pRc) {
*(*U8)(unsafe.Pointer((*SessionBuffer)(unsafe.Pointer(p)).FaBuf + uintptr(libc.PostIncInt32(&(*SessionBuffer)(unsafe.Pointer(p)).FnBuf, 1)))) = v
}
}
func sessionAppendVarint(tls *libc.TLS, p uintptr, v int32, pRc uintptr) {
if 0 == sessionBufferGrow(tls, p, int64(9), pRc) {
*(*int32)(unsafe.Pointer(p + 8)) += sessionVarintPut(tls, (*SessionBuffer)(unsafe.Pointer(p)).FaBuf+uintptr((*SessionBuffer)(unsafe.Pointer(p)).FnBuf), v)
}
}
func sessionAppendBlob(tls *libc.TLS, p uintptr, aBlob uintptr, nBlob int32, pRc uintptr) {
if nBlob > 0 && 0 == sessionBufferGrow(tls, p, int64(nBlob), pRc) {
libc.X__builtin___memcpy_chk(tls, (*SessionBuffer)(unsafe.Pointer(p)).FaBuf+uintptr((*SessionBuffer)(unsafe.Pointer(p)).FnBuf), aBlob, uint64(nBlob), libc.X__builtin_object_size(tls, (*SessionBuffer)(unsafe.Pointer(p)).FaBuf+uintptr((*SessionBuffer)(unsafe.Pointer(p)).FnBuf), 0))
*(*int32)(unsafe.Pointer(p + 8)) += nBlob
}
}
func sessionAppendStr(tls *libc.TLS, p uintptr, zStr uintptr, pRc uintptr) {
var nStr int32 = Xsqlite3Strlen30(tls, zStr)
if 0 == sessionBufferGrow(tls, p, int64(nStr), pRc) {
libc.X__builtin___memcpy_chk(tls, (*SessionBuffer)(unsafe.Pointer(p)).FaBuf+uintptr((*SessionBuffer)(unsafe.Pointer(p)).FnBuf), zStr, uint64(nStr), libc.X__builtin_object_size(tls, (*SessionBuffer)(unsafe.Pointer(p)).FaBuf+uintptr((*SessionBuffer)(unsafe.Pointer(p)).FnBuf), 0))
*(*int32)(unsafe.Pointer(p + 8)) += nStr
}
}
func sessionAppendInteger(tls *libc.TLS, p uintptr, iVal int32, pRc uintptr) {
bp := tls.Alloc(32)
defer tls.Free(32)
Xsqlite3_snprintf(tls, int32(uint64(unsafe.Sizeof([24]int8{}))-uint64(1)), bp+8, ts+5378, libc.VaList(bp, iVal))
sessionAppendStr(tls, p, bp+8, pRc)
}
func sessionAppendIdent(tls *libc.TLS, p uintptr, zStr uintptr, pRc uintptr) {
var nStr int32 = Xsqlite3Strlen30(tls, zStr)*2 + 2 + 1
if 0 == sessionBufferGrow(tls, p, int64(nStr), pRc) {
var zOut uintptr = (*SessionBuffer)(unsafe.Pointer(p)).FaBuf + uintptr((*SessionBuffer)(unsafe.Pointer(p)).FnBuf)
var zIn uintptr = zStr
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8('"')
for *(*int8)(unsafe.Pointer(zIn)) != 0 {
if int32(*(*int8)(unsafe.Pointer(zIn))) == '"' {
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8('"')
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = *(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1)))
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8('"')
(*SessionBuffer)(unsafe.Pointer(p)).FnBuf = int32((int64(zOut) - int64((*SessionBuffer)(unsafe.Pointer(p)).FaBuf)) / 1)
}
}
func sessionAppendCol(tls *libc.TLS, p uintptr, pStmt uintptr, iCol int32, pRc uintptr) {
bp := tls.Alloc(24)
defer tls.Free(24)
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK {
var eType int32 = Xsqlite3_column_type(tls, pStmt, iCol)
sessionAppendByte(tls, p, U8(eType), pRc)
if eType == SQLITE_INTEGER || eType == SQLITE_FLOAT {
if eType == SQLITE_INTEGER {
*(*Sqlite3_int64)(unsafe.Pointer(bp)) = Xsqlite3_column_int64(tls, pStmt, iCol)
} else {
*(*float64)(unsafe.Pointer(bp + 8)) = Xsqlite3_column_double(tls, pStmt, iCol)
libc.X__builtin___memcpy_chk(tls, bp, bp+8, uint64(8), libc.X__builtin_object_size(tls, bp, 0))
}
sessionPutI64(tls, bp+16, *(*Sqlite3_int64)(unsafe.Pointer(bp)))
sessionAppendBlob(tls, p, bp+16, 8, pRc)
}
if eType == SQLITE_BLOB || eType == SQLITE_TEXT {
var z uintptr
var nByte int32
if eType == SQLITE_BLOB {
z = Xsqlite3_column_blob(tls, pStmt, iCol)
} else {
z = Xsqlite3_column_text(tls, pStmt, iCol)
}
nByte = Xsqlite3_column_bytes(tls, pStmt, iCol)
if z != 0 || eType == SQLITE_BLOB && nByte == 0 {
sessionAppendVarint(tls, p, nByte, pRc)
sessionAppendBlob(tls, p, z, nByte, pRc)
} else {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
}
}
}
}
func sessionAppendUpdate(tls *libc.TLS, pBuf uintptr, bPatchset int32, pStmt uintptr, p uintptr, abPK uintptr) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
*(*SessionBuffer)(unsafe.Pointer(bp + 32)) = SessionBuffer{}
var bNoop int32 = 1
var nRewind int32 = (*SessionBuffer)(unsafe.Pointer(pBuf)).FnBuf
var i int32
var pCsr uintptr = (*SessionChange)(unsafe.Pointer(p)).FaRecord
sessionAppendByte(tls, pBuf, uint8(SQLITE_UPDATE), bp)
sessionAppendByte(tls, pBuf, (*SessionChange)(unsafe.Pointer(p)).FbIndirect, bp)
for i = 0; i < Xsqlite3_column_count(tls, pStmt); i++ {
var bChanged int32 = 0
var nAdvance int32
var eType int32 = int32(*(*U8)(unsafe.Pointer(pCsr)))
switch eType {
case SQLITE_NULL:
nAdvance = 1
if Xsqlite3_column_type(tls, pStmt, i) != SQLITE_NULL {
bChanged = 1
}
break
case SQLITE_FLOAT:
fallthrough
case SQLITE_INTEGER:
{
nAdvance = 9
if eType == Xsqlite3_column_type(tls, pStmt, i) {
*(*Sqlite3_int64)(unsafe.Pointer(bp + 16)) = sessionGetI64(tls, pCsr+1)
if eType == SQLITE_INTEGER {
if *(*Sqlite3_int64)(unsafe.Pointer(bp + 16)) == Xsqlite3_column_int64(tls, pStmt, i) {
break
}
} else {
libc.X__builtin___memcpy_chk(tls, bp+8, bp+16, uint64(8), libc.X__builtin_object_size(tls, bp+8, 0))
if *(*float64)(unsafe.Pointer(bp + 8)) == Xsqlite3_column_double(tls, pStmt, i) {
break
}
}
}
bChanged = 1
break
}
default:
{
var nHdr int32 = 1 + sessionVarintGet(tls, pCsr+1, bp+24)
nAdvance = nHdr + *(*int32)(unsafe.Pointer(bp + 24))
if eType == Xsqlite3_column_type(tls, pStmt, i) &&
*(*int32)(unsafe.Pointer(bp + 24)) == Xsqlite3_column_bytes(tls, pStmt, i) &&
(*(*int32)(unsafe.Pointer(bp + 24)) == 0 || 0 == libc.Xmemcmp(tls, pCsr+uintptr(nHdr), Xsqlite3_column_blob(tls, pStmt, i), uint64(*(*int32)(unsafe.Pointer(bp + 24))))) {
break
}
bChanged = 1
}
}
if bChanged != 0 {
bNoop = 0
}
if bPatchset == 0 {
if bChanged != 0 || *(*U8)(unsafe.Pointer(abPK + uintptr(i))) != 0 {
sessionAppendBlob(tls, pBuf, pCsr, nAdvance, bp)
} else {
sessionAppendByte(tls, pBuf, uint8(0), bp)
}
}
if bChanged != 0 || bPatchset != 0 && *(*U8)(unsafe.Pointer(abPK + uintptr(i))) != 0 {
sessionAppendCol(tls, bp+32, pStmt, i, bp)
} else {
sessionAppendByte(tls, bp+32, uint8(0), bp)
}
pCsr += uintptr(nAdvance)
}
if bNoop != 0 {
(*SessionBuffer)(unsafe.Pointer(pBuf)).FnBuf = nRewind
} else {
sessionAppendBlob(tls, pBuf, (*SessionBuffer)(unsafe.Pointer(bp+32)).FaBuf, (*SessionBuffer)(unsafe.Pointer(bp+32)).FnBuf, bp)
}
Xsqlite3_free(tls, (*SessionBuffer)(unsafe.Pointer(bp+32)).FaBuf)
return *(*int32)(unsafe.Pointer(bp))
}
func sessionAppendDelete(tls *libc.TLS, pBuf uintptr, bPatchset int32, p uintptr, nCol int32, abPK uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
sessionAppendByte(tls, pBuf, uint8(SQLITE_DELETE), bp)
sessionAppendByte(tls, pBuf, (*SessionChange)(unsafe.Pointer(p)).FbIndirect, bp)
if bPatchset == 0 {
sessionAppendBlob(tls, pBuf, (*SessionChange)(unsafe.Pointer(p)).FaRecord, (*SessionChange)(unsafe.Pointer(p)).FnRecord, bp)
} else {
var i int32
var a uintptr = (*SessionChange)(unsafe.Pointer(p)).FaRecord
for i = 0; i < nCol; i++ {
var pStart uintptr = a
var eType int32 = int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&a, 1))))
switch eType {
case 0:
fallthrough
case SQLITE_NULL:
break
fallthrough
case SQLITE_FLOAT:
fallthrough
case SQLITE_INTEGER:
a += uintptr(8)
break
fallthrough
default:
{
a += uintptr(sessionVarintGet(tls, a, bp+4))
a += uintptr(*(*int32)(unsafe.Pointer(bp + 4)))
break
}
}
if *(*U8)(unsafe.Pointer(abPK + uintptr(i))) != 0 {
sessionAppendBlob(tls, pBuf, pStart, int32((int64(a)-int64(pStart))/1), bp)
}
}
}
return *(*int32)(unsafe.Pointer(bp))
}
func sessionSelectStmt(tls *libc.TLS, db uintptr, zDb uintptr, zTab uintptr, nCol int32, azCol uintptr, abPK uintptr, ppStmt uintptr) int32 {
bp := tls.Alloc(28)
defer tls.Free(28)
*(*int32)(unsafe.Pointer(bp + 24)) = SQLITE_OK
var zSql uintptr = uintptr(0)
var nSql int32 = -1
if 0 == Xsqlite3_stricmp(tls, ts+11751, zTab) {
zSql = Xsqlite3_mprintf(tls,
ts+33186, libc.VaList(bp, zDb))
if zSql == uintptr(0) {
*(*int32)(unsafe.Pointer(bp + 24)) = SQLITE_NOMEM
}
} else {
var i int32
var zSep uintptr = ts + 1547
*(*SessionBuffer)(unsafe.Pointer(bp + 8)) = SessionBuffer{}
sessionAppendStr(tls, bp+8, ts+33296, bp+24)
sessionAppendIdent(tls, bp+8, zDb, bp+24)
sessionAppendStr(tls, bp+8, ts+1560, bp+24)
sessionAppendIdent(tls, bp+8, zTab, bp+24)
sessionAppendStr(tls, bp+8, ts+33311, bp+24)
for i = 0; i < nCol; i++ {
if *(*U8)(unsafe.Pointer(abPK + uintptr(i))) != 0 {
sessionAppendStr(tls, bp+8, zSep, bp+24)
sessionAppendIdent(tls, bp+8, *(*uintptr)(unsafe.Pointer(azCol + uintptr(i)*8)), bp+24)
sessionAppendStr(tls, bp+8, ts+33319, bp+24)
sessionAppendInteger(tls, bp+8, i+1, bp+24)
zSep = ts + 21975
}
}
zSql = (*SessionBuffer)(unsafe.Pointer(bp + 8)).FaBuf
nSql = (*SessionBuffer)(unsafe.Pointer(bp + 8)).FnBuf
}
if *(*int32)(unsafe.Pointer(bp + 24)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 24)) = Xsqlite3_prepare_v2(tls, db, zSql, nSql, ppStmt, uintptr(0))
}
Xsqlite3_free(tls, zSql)
return *(*int32)(unsafe.Pointer(bp + 24))
}
func sessionSelectBind(tls *libc.TLS, pSelect uintptr, nCol int32, abPK uintptr, pChange uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var i int32
var rc int32 = SQLITE_OK
var a uintptr = (*SessionChange)(unsafe.Pointer(pChange)).FaRecord
for i = 0; i < nCol && rc == SQLITE_OK; i++ {
var eType int32 = int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&a, 1))))
switch eType {
case 0:
fallthrough
case SQLITE_NULL:
break
case SQLITE_INTEGER:
{
if *(*U8)(unsafe.Pointer(abPK + uintptr(i))) != 0 {
var iVal I64 = sessionGetI64(tls, a)
rc = Xsqlite3_bind_int64(tls, pSelect, i+1, iVal)
}
a += uintptr(8)
break
}
case SQLITE_FLOAT:
{
if *(*U8)(unsafe.Pointer(abPK + uintptr(i))) != 0 {
*(*I64)(unsafe.Pointer(bp + 8)) = sessionGetI64(tls, a)
libc.X__builtin___memcpy_chk(tls, bp, bp+8, uint64(8), libc.X__builtin_object_size(tls, bp, 0))
rc = Xsqlite3_bind_double(tls, pSelect, i+1, *(*float64)(unsafe.Pointer(bp)))
}
a += uintptr(8)
break
}
case SQLITE_TEXT:
{
a += uintptr(sessionVarintGet(tls, a, bp+16))
if *(*U8)(unsafe.Pointer(abPK + uintptr(i))) != 0 {
rc = Xsqlite3_bind_text(tls, pSelect, i+1, a, *(*int32)(unsafe.Pointer(bp + 16)), libc.UintptrFromInt32(-1))
}
a += uintptr(*(*int32)(unsafe.Pointer(bp + 16)))
break
}
default:
{
a += uintptr(sessionVarintGet(tls, a, bp+20))
if *(*U8)(unsafe.Pointer(abPK + uintptr(i))) != 0 {
rc = Xsqlite3_bind_blob(tls, pSelect, i+1, a, *(*int32)(unsafe.Pointer(bp + 20)), libc.UintptrFromInt32(-1))
}
a += uintptr(*(*int32)(unsafe.Pointer(bp + 20)))
break
}
}
}
return rc
}
func sessionAppendTableHdr(tls *libc.TLS, pBuf uintptr, bPatchset int32, pTab uintptr, pRc uintptr) {
sessionAppendByte(tls, pBuf, func() uint8 {
if bPatchset != 0 {
return uint8('P')
}
return uint8('T')
}(), pRc)
sessionAppendVarint(tls, pBuf, (*SessionTable)(unsafe.Pointer(pTab)).FnCol, pRc)
sessionAppendBlob(tls, pBuf, (*SessionTable)(unsafe.Pointer(pTab)).FabPK, (*SessionTable)(unsafe.Pointer(pTab)).FnCol, pRc)
sessionAppendBlob(tls, pBuf, (*SessionTable)(unsafe.Pointer(pTab)).FzName, int32(libc.Xstrlen(tls, (*SessionTable)(unsafe.Pointer(pTab)).FzName))+1, pRc)
}
func sessionGenerateChangeset(tls *libc.TLS, pSession uintptr, bPatchset int32, xOutput uintptr, pOut uintptr, pnChangeset uintptr, ppChangeset uintptr) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
var db uintptr = (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb
var pTab uintptr
*(*SessionBuffer)(unsafe.Pointer(bp + 24)) = SessionBuffer{}
if xOutput == uintptr(0) {
*(*int32)(unsafe.Pointer(pnChangeset)) = 0
*(*uintptr)(unsafe.Pointer(ppChangeset)) = uintptr(0)
}
if (*Sqlite3_session)(unsafe.Pointer(pSession)).Frc != 0 {
return (*Sqlite3_session)(unsafe.Pointer(pSession)).Frc
}
*(*int32)(unsafe.Pointer(bp + 40)) = Xsqlite3_exec(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb, ts+33325, uintptr(0), uintptr(0), uintptr(0))
if *(*int32)(unsafe.Pointer(bp + 40)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp + 40))
}
Xsqlite3_mutex_enter(tls, Xsqlite3_db_mutex(tls, db))
for pTab = (*Sqlite3_session)(unsafe.Pointer(pSession)).FpTable; *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK && pTab != 0; pTab = (*SessionTable)(unsafe.Pointer(pTab)).FpNext {
if (*SessionTable)(unsafe.Pointer(pTab)).FnEntry != 0 {
var zName uintptr = (*SessionTable)(unsafe.Pointer(pTab)).FzName
*(*int32)(unsafe.Pointer(bp)) = 0
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
var i int32
*(*uintptr)(unsafe.Pointer(bp + 48)) = uintptr(0)
var nRewind int32 = (*SessionBuffer)(unsafe.Pointer(bp + 24)).FnBuf
var nNoop int32
*(*int32)(unsafe.Pointer(bp + 40)) = sessionTableInfo(tls, uintptr(0), db, (*Sqlite3_session)(unsafe.Pointer(pSession)).FzDb, zName, bp, uintptr(0), bp+8, bp+16)
if !(*(*int32)(unsafe.Pointer(bp + 40)) != 0) && ((*SessionTable)(unsafe.Pointer(pTab)).FnCol != *(*int32)(unsafe.Pointer(bp)) || libc.Xmemcmp(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), (*SessionTable)(unsafe.Pointer(pTab)).FabPK, uint64(*(*int32)(unsafe.Pointer(bp)))) != 0) {
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_SCHEMA
}
sessionAppendTableHdr(tls, bp+24, bPatchset, pTab, bp+40)
if *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 40)) = sessionSelectStmt(tls,
db, (*Sqlite3_session)(unsafe.Pointer(pSession)).FzDb, zName, *(*int32)(unsafe.Pointer(bp)), *(*uintptr)(unsafe.Pointer(bp + 8)), *(*uintptr)(unsafe.Pointer(bp + 16)), bp+48)
}
nNoop = (*SessionBuffer)(unsafe.Pointer(bp + 24)).FnBuf
for i = 0; i < (*SessionTable)(unsafe.Pointer(pTab)).FnChange && *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK; i++ {
var p uintptr
for p = *(*uintptr)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FapChange + uintptr(i)*8)); *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK && p != 0; p = (*SessionChange)(unsafe.Pointer(p)).FpNext {
*(*int32)(unsafe.Pointer(bp + 40)) = sessionSelectBind(tls, *(*uintptr)(unsafe.Pointer(bp + 48)), *(*int32)(unsafe.Pointer(bp)), *(*uintptr)(unsafe.Pointer(bp + 16)), p)
if *(*int32)(unsafe.Pointer(bp + 40)) != SQLITE_OK {
continue
}
if Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 48))) == SQLITE_ROW {
if int32((*SessionChange)(unsafe.Pointer(p)).Fop) == SQLITE_INSERT {
var iCol int32
sessionAppendByte(tls, bp+24, uint8(SQLITE_INSERT), bp+40)
sessionAppendByte(tls, bp+24, (*SessionChange)(unsafe.Pointer(p)).FbIndirect, bp+40)
for iCol = 0; iCol < *(*int32)(unsafe.Pointer(bp)); iCol++ {
sessionAppendCol(tls, bp+24, *(*uintptr)(unsafe.Pointer(bp + 48)), iCol, bp+40)
}
} else {
*(*int32)(unsafe.Pointer(bp + 40)) = sessionAppendUpdate(tls, bp+24, bPatchset, *(*uintptr)(unsafe.Pointer(bp + 48)), p, *(*uintptr)(unsafe.Pointer(bp + 16)))
}
} else if int32((*SessionChange)(unsafe.Pointer(p)).Fop) != SQLITE_INSERT {
*(*int32)(unsafe.Pointer(bp + 40)) = sessionAppendDelete(tls, bp+24, bPatchset, p, *(*int32)(unsafe.Pointer(bp)), *(*uintptr)(unsafe.Pointer(bp + 16)))
}
if *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 40)) = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp + 48)))
}
if xOutput != 0 &&
*(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK &&
(*SessionBuffer)(unsafe.Pointer(bp+24)).FnBuf > nNoop &&
(*SessionBuffer)(unsafe.Pointer(bp+24)).FnBuf > sessions_strm_chunk_size {
*(*int32)(unsafe.Pointer(bp + 40)) = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{xOutput})).f(tls, pOut, (*SessionBuffer)(unsafe.Pointer(bp+24)).FaBuf, (*SessionBuffer)(unsafe.Pointer(bp+24)).FnBuf)
nNoop = -1
(*SessionBuffer)(unsafe.Pointer(bp + 24)).FnBuf = 0
}
}
}
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 48)))
if (*SessionBuffer)(unsafe.Pointer(bp+24)).FnBuf == nNoop {
(*SessionBuffer)(unsafe.Pointer(bp + 24)).FnBuf = nRewind
}
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
}
if *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK {
if xOutput == uintptr(0) {
*(*int32)(unsafe.Pointer(pnChangeset)) = (*SessionBuffer)(unsafe.Pointer(bp + 24)).FnBuf
*(*uintptr)(unsafe.Pointer(ppChangeset)) = (*SessionBuffer)(unsafe.Pointer(bp + 24)).FaBuf
(*SessionBuffer)(unsafe.Pointer(bp + 24)).FaBuf = uintptr(0)
} else if (*SessionBuffer)(unsafe.Pointer(bp+24)).FnBuf > 0 {
*(*int32)(unsafe.Pointer(bp + 40)) = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{xOutput})).f(tls, pOut, (*SessionBuffer)(unsafe.Pointer(bp+24)).FaBuf, (*SessionBuffer)(unsafe.Pointer(bp+24)).FnBuf)
}
}
Xsqlite3_free(tls, (*SessionBuffer)(unsafe.Pointer(bp+24)).FaBuf)
Xsqlite3_exec(tls, db, ts+33345, uintptr(0), uintptr(0), uintptr(0))
Xsqlite3_mutex_leave(tls, Xsqlite3_db_mutex(tls, db))
return *(*int32)(unsafe.Pointer(bp + 40))
}
// Obtain a changeset object containing all changes recorded by the
// session object passed as the first argument.
//
// It is the responsibility of the caller to eventually free the buffer
// using sqlite3_free().
func Xsqlite3session_changeset(tls *libc.TLS, pSession uintptr, pnChangeset uintptr, ppChangeset uintptr) int32 {
var rc int32
if pnChangeset == uintptr(0) || ppChangeset == uintptr(0) {
return SQLITE_MISUSE
}
rc = sessionGenerateChangeset(tls, pSession, 0, uintptr(0), uintptr(0), pnChangeset, ppChangeset)
return rc
}
// Streaming version of sqlite3session_changeset().
func Xsqlite3session_changeset_strm(tls *libc.TLS, pSession uintptr, xOutput uintptr, pOut uintptr) int32 {
if xOutput == uintptr(0) {
return SQLITE_MISUSE
}
return sessionGenerateChangeset(tls, pSession, 0, xOutput, pOut, uintptr(0), uintptr(0))
}
// Streaming version of sqlite3session_patchset().
func Xsqlite3session_patchset_strm(tls *libc.TLS, pSession uintptr, xOutput uintptr, pOut uintptr) int32 {
if xOutput == uintptr(0) {
return SQLITE_MISUSE
}
return sessionGenerateChangeset(tls, pSession, 1, xOutput, pOut, uintptr(0), uintptr(0))
}
// Obtain a patchset object containing all changes recorded by the
// session object passed as the first argument.
//
// It is the responsibility of the caller to eventually free the buffer
// using sqlite3_free().
func Xsqlite3session_patchset(tls *libc.TLS, pSession uintptr, pnPatchset uintptr, ppPatchset uintptr) int32 {
if pnPatchset == uintptr(0) || ppPatchset == uintptr(0) {
return SQLITE_MISUSE
}
return sessionGenerateChangeset(tls, pSession, 1, uintptr(0), uintptr(0), pnPatchset, ppPatchset)
}
// Enable or disable the session object passed as the first argument.
func Xsqlite3session_enable(tls *libc.TLS, pSession uintptr, bEnable int32) int32 {
var ret int32
Xsqlite3_mutex_enter(tls, Xsqlite3_db_mutex(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb))
if bEnable >= 0 {
(*Sqlite3_session)(unsafe.Pointer(pSession)).FbEnable = bEnable
}
ret = (*Sqlite3_session)(unsafe.Pointer(pSession)).FbEnable
Xsqlite3_mutex_leave(tls, Xsqlite3_db_mutex(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb))
return ret
}
// Enable or disable the session object passed as the first argument.
func Xsqlite3session_indirect(tls *libc.TLS, pSession uintptr, bIndirect int32) int32 {
var ret int32
Xsqlite3_mutex_enter(tls, Xsqlite3_db_mutex(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb))
if bIndirect >= 0 {
(*Sqlite3_session)(unsafe.Pointer(pSession)).FbIndirect = bIndirect
}
ret = (*Sqlite3_session)(unsafe.Pointer(pSession)).FbIndirect
Xsqlite3_mutex_leave(tls, Xsqlite3_db_mutex(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb))
return ret
}
// Return true if there have been no changes to monitored tables recorded
// by the session object passed as the only argument.
func Xsqlite3session_isempty(tls *libc.TLS, pSession uintptr) int32 {
var ret int32 = 0
var pTab uintptr
Xsqlite3_mutex_enter(tls, Xsqlite3_db_mutex(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb))
for pTab = (*Sqlite3_session)(unsafe.Pointer(pSession)).FpTable; pTab != 0 && ret == 0; pTab = (*SessionTable)(unsafe.Pointer(pTab)).FpNext {
ret = libc.Bool32((*SessionTable)(unsafe.Pointer(pTab)).FnEntry > 0)
}
Xsqlite3_mutex_leave(tls, Xsqlite3_db_mutex(tls, (*Sqlite3_session)(unsafe.Pointer(pSession)).Fdb))
return libc.Bool32(ret == 0)
}
// Return the amount of heap memory in use.
func Xsqlite3session_memory_used(tls *libc.TLS, pSession uintptr) Sqlite3_int64 {
return (*Sqlite3_session)(unsafe.Pointer(pSession)).FnMalloc
}
// Configure the session object passed as the first argument.
func Xsqlite3session_object_config(tls *libc.TLS, pSession uintptr, op int32, pArg uintptr) int32 {
var rc int32 = SQLITE_OK
switch op {
case SQLITE_SESSION_OBJCONFIG_SIZE:
{
var iArg int32 = *(*int32)(unsafe.Pointer(pArg))
if iArg >= 0 {
if (*Sqlite3_session)(unsafe.Pointer(pSession)).FpTable != 0 {
rc = SQLITE_MISUSE
} else {
(*Sqlite3_session)(unsafe.Pointer(pSession)).FbEnableSize = libc.Bool32(iArg != 0)
}
}
*(*int32)(unsafe.Pointer(pArg)) = (*Sqlite3_session)(unsafe.Pointer(pSession)).FbEnableSize
break
}
default:
rc = SQLITE_MISUSE
}
return rc
}
// Return the maximum size of sqlite3session_changeset() output.
func Xsqlite3session_changeset_size(tls *libc.TLS, pSession uintptr) Sqlite3_int64 {
return (*Sqlite3_session)(unsafe.Pointer(pSession)).FnMaxChangesetSize
}
func sessionChangesetStart(tls *libc.TLS, pp uintptr, xInput uintptr, pIn uintptr, nChangeset int32, pChangeset uintptr, bInvert int32, bSkipEmpty int32) int32 {
var pRet uintptr
var nByte int32
*(*uintptr)(unsafe.Pointer(pp)) = uintptr(0)
nByte = int32(unsafe.Sizeof(Sqlite3_changeset_iter{}))
pRet = Xsqlite3_malloc(tls, nByte)
if !(pRet != 0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, pRet, 0, uint64(unsafe.Sizeof(Sqlite3_changeset_iter{})), libc.X__builtin_object_size(tls, pRet, 0))
(*Sqlite3_changeset_iter)(unsafe.Pointer(pRet)).Fin.FaData = pChangeset
(*Sqlite3_changeset_iter)(unsafe.Pointer(pRet)).Fin.FnData = nChangeset
(*Sqlite3_changeset_iter)(unsafe.Pointer(pRet)).Fin.FxInput = xInput
(*Sqlite3_changeset_iter)(unsafe.Pointer(pRet)).Fin.FpIn = pIn
(*Sqlite3_changeset_iter)(unsafe.Pointer(pRet)).Fin.FbEof = func() int32 {
if xInput != 0 {
return 0
}
return 1
}()
(*Sqlite3_changeset_iter)(unsafe.Pointer(pRet)).FbInvert = bInvert
(*Sqlite3_changeset_iter)(unsafe.Pointer(pRet)).FbSkipEmpty = bSkipEmpty
*(*uintptr)(unsafe.Pointer(pp)) = pRet
return SQLITE_OK
}
// Create an iterator used to iterate through the contents of a changeset.
func Xsqlite3changeset_start(tls *libc.TLS, pp uintptr, nChangeset int32, pChangeset uintptr) int32 {
return sessionChangesetStart(tls, pp, uintptr(0), uintptr(0), nChangeset, pChangeset, 0, 0)
}
func Xsqlite3changeset_start_v2(tls *libc.TLS, pp uintptr, nChangeset int32, pChangeset uintptr, flags int32) int32 {
var bInvert int32 = libc.BoolInt32(!!(flags&SQLITE_CHANGESETSTART_INVERT != 0))
return sessionChangesetStart(tls, pp, uintptr(0), uintptr(0), nChangeset, pChangeset, bInvert, 0)
}
// Streaming version of sqlite3changeset_start().
func Xsqlite3changeset_start_strm(tls *libc.TLS, pp uintptr, xInput uintptr, pIn uintptr) int32 {
return sessionChangesetStart(tls, pp, xInput, pIn, 0, uintptr(0), 0, 0)
}
func Xsqlite3changeset_start_v2_strm(tls *libc.TLS, pp uintptr, xInput uintptr, pIn uintptr, flags int32) int32 {
var bInvert int32 = libc.BoolInt32(!!(flags&SQLITE_CHANGESETSTART_INVERT != 0))
return sessionChangesetStart(tls, pp, xInput, pIn, 0, uintptr(0), bInvert, 0)
}
func sessionDiscardData(tls *libc.TLS, pIn uintptr) {
if (*SessionInput)(unsafe.Pointer(pIn)).FxInput != 0 && (*SessionInput)(unsafe.Pointer(pIn)).FiNext >= sessions_strm_chunk_size {
var nMove int32 = (*SessionInput)(unsafe.Pointer(pIn)).Fbuf.FnBuf - (*SessionInput)(unsafe.Pointer(pIn)).FiNext
if nMove > 0 {
libc.X__builtin___memmove_chk(tls, (*SessionInput)(unsafe.Pointer(pIn)).Fbuf.FaBuf, (*SessionInput)(unsafe.Pointer(pIn)).Fbuf.FaBuf+uintptr((*SessionInput)(unsafe.Pointer(pIn)).FiNext), uint64(nMove), libc.X__builtin_object_size(tls, (*SessionInput)(unsafe.Pointer(pIn)).Fbuf.FaBuf, 0))
}
*(*int32)(unsafe.Pointer(pIn + 32 + 8)) -= (*SessionInput)(unsafe.Pointer(pIn)).FiNext
(*SessionInput)(unsafe.Pointer(pIn)).FiNext = 0
(*SessionInput)(unsafe.Pointer(pIn)).FnData = (*SessionInput)(unsafe.Pointer(pIn)).Fbuf.FnBuf
}
}
func sessionInputBuffer(tls *libc.TLS, pIn uintptr, nByte int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
if (*SessionInput)(unsafe.Pointer(pIn)).FxInput != 0 {
for !((*SessionInput)(unsafe.Pointer(pIn)).FbEof != 0) && (*SessionInput)(unsafe.Pointer(pIn)).FiNext+nByte >= (*SessionInput)(unsafe.Pointer(pIn)).FnData && *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 4)) = sessions_strm_chunk_size
if (*SessionInput)(unsafe.Pointer(pIn)).FbNoDiscard == 0 {
sessionDiscardData(tls, pIn)
}
if SQLITE_OK == sessionBufferGrow(tls, pIn+32, int64(*(*int32)(unsafe.Pointer(bp + 4))), bp) {
*(*int32)(unsafe.Pointer(bp)) = (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*SessionInput)(unsafe.Pointer(pIn)).FxInput})).f(tls, (*SessionInput)(unsafe.Pointer(pIn)).FpIn, (*SessionInput)(unsafe.Pointer(pIn)).Fbuf.FaBuf+uintptr((*SessionInput)(unsafe.Pointer(pIn)).Fbuf.FnBuf), bp+4)
if *(*int32)(unsafe.Pointer(bp + 4)) == 0 {
(*SessionInput)(unsafe.Pointer(pIn)).FbEof = 1
} else {
*(*int32)(unsafe.Pointer(pIn + 32 + 8)) += *(*int32)(unsafe.Pointer(bp + 4))
}
}
(*SessionInput)(unsafe.Pointer(pIn)).FaData = (*SessionInput)(unsafe.Pointer(pIn)).Fbuf.FaBuf
(*SessionInput)(unsafe.Pointer(pIn)).FnData = (*SessionInput)(unsafe.Pointer(pIn)).Fbuf.FnBuf
}
}
return *(*int32)(unsafe.Pointer(bp))
}
func sessionSkipRecord(tls *libc.TLS, ppRec uintptr, nCol int32) {
bp := tls.Alloc(4)
defer tls.Free(4)
var aRec uintptr = *(*uintptr)(unsafe.Pointer(ppRec))
var i int32
for i = 0; i < nCol; i++ {
var eType int32 = int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&aRec, 1))))
if eType == SQLITE_TEXT || eType == SQLITE_BLOB {
aRec += uintptr(sessionVarintGet(tls, aRec, bp))
aRec += uintptr(*(*int32)(unsafe.Pointer(bp)))
} else if eType == SQLITE_INTEGER || eType == SQLITE_FLOAT {
aRec += uintptr(8)
}
}
*(*uintptr)(unsafe.Pointer(ppRec)) = aRec
}
func sessionValueSetStr(tls *libc.TLS, pVal uintptr, aData uintptr, nData int32, enc U8) int32 {
var aCopy uintptr = Xsqlite3_malloc64(tls, uint64(Sqlite3_int64(nData)+int64(1)))
if aCopy == uintptr(0) {
return SQLITE_NOMEM
}
libc.X__builtin___memcpy_chk(tls, aCopy, aData, uint64(nData), libc.X__builtin_object_size(tls, aCopy, 0))
Xsqlite3ValueSetStr(tls, pVal, nData, aCopy, enc, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
return SQLITE_OK
}
func sessionReadRecord(tls *libc.TLS, pIn uintptr, nCol int32, abPK uintptr, apOut uintptr, pbEmpty uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var i int32
var rc int32 = SQLITE_OK
if pbEmpty != 0 {
*(*int32)(unsafe.Pointer(pbEmpty)) = 1
}
for i = 0; i < nCol && rc == SQLITE_OK; i++ {
var eType int32 = 0
if abPK != 0 && int32(*(*U8)(unsafe.Pointer(abPK + uintptr(i)))) == 0 {
continue
}
rc = sessionInputBuffer(tls, pIn, 9)
if rc == SQLITE_OK {
if (*SessionInput)(unsafe.Pointer(pIn)).FiNext >= (*SessionInput)(unsafe.Pointer(pIn)).FnData {
rc = Xsqlite3CorruptError(tls, 219078)
} else {
eType = int32(*(*U8)(unsafe.Pointer((*SessionInput)(unsafe.Pointer(pIn)).FaData + uintptr(libc.PostIncInt32(&(*SessionInput)(unsafe.Pointer(pIn)).FiNext, 1)))))
if eType != 0 {
if pbEmpty != 0 {
*(*int32)(unsafe.Pointer(pbEmpty)) = 0
}
*(*uintptr)(unsafe.Pointer(apOut + uintptr(i)*8)) = Xsqlite3ValueNew(tls, uintptr(0))
if !(int32(*(*uintptr)(unsafe.Pointer(apOut + uintptr(i)*8))) != 0) {
rc = SQLITE_NOMEM
}
}
}
}
if rc == SQLITE_OK {
var aVal uintptr = (*SessionInput)(unsafe.Pointer(pIn)).FaData + uintptr((*SessionInput)(unsafe.Pointer(pIn)).FiNext)
if eType == SQLITE_TEXT || eType == SQLITE_BLOB {
*(*int32)(unsafe.Pointer(pIn + 8)) += sessionVarintGet(tls, aVal, bp)
rc = sessionInputBuffer(tls, pIn, *(*int32)(unsafe.Pointer(bp)))
if rc == SQLITE_OK {
if *(*int32)(unsafe.Pointer(bp)) < 0 || *(*int32)(unsafe.Pointer(bp)) > (*SessionInput)(unsafe.Pointer(pIn)).FnData-(*SessionInput)(unsafe.Pointer(pIn)).FiNext {
rc = Xsqlite3CorruptError(tls, 219098)
} else {
var enc U8 = func() uint8 {
if eType == SQLITE_TEXT {
return uint8(SQLITE_UTF8)
}
return uint8(0)
}()
rc = sessionValueSetStr(tls, *(*uintptr)(unsafe.Pointer(apOut + uintptr(i)*8)), (*SessionInput)(unsafe.Pointer(pIn)).FaData+uintptr((*SessionInput)(unsafe.Pointer(pIn)).FiNext), *(*int32)(unsafe.Pointer(bp)), enc)
*(*int32)(unsafe.Pointer(pIn + 8)) += *(*int32)(unsafe.Pointer(bp))
}
}
}
if eType == SQLITE_INTEGER || eType == SQLITE_FLOAT {
*(*Sqlite3_int64)(unsafe.Pointer(bp + 16)) = sessionGetI64(tls, aVal)
if eType == SQLITE_INTEGER {
Xsqlite3VdbeMemSetInt64(tls, *(*uintptr)(unsafe.Pointer(apOut + uintptr(i)*8)), *(*Sqlite3_int64)(unsafe.Pointer(bp + 16)))
} else {
libc.X__builtin___memcpy_chk(tls, bp+8, bp+16, uint64(8), libc.X__builtin_object_size(tls, bp+8, 0))
Xsqlite3VdbeMemSetDouble(tls, *(*uintptr)(unsafe.Pointer(apOut + uintptr(i)*8)), *(*float64)(unsafe.Pointer(bp + 8)))
}
*(*int32)(unsafe.Pointer(pIn + 8)) += 8
}
}
}
return rc
}
func sessionChangesetBufferTblhdr(tls *libc.TLS, pIn uintptr, pnByte uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32 = SQLITE_OK
*(*int32)(unsafe.Pointer(bp)) = 0
var nRead int32 = 0
rc = sessionInputBuffer(tls, pIn, 9)
if rc == SQLITE_OK {
nRead = nRead + sessionVarintGet(tls, (*SessionInput)(unsafe.Pointer(pIn)).FaData+uintptr((*SessionInput)(unsafe.Pointer(pIn)).FiNext+nRead), bp)
if *(*int32)(unsafe.Pointer(bp)) < 0 || *(*int32)(unsafe.Pointer(bp)) > 65536 {
rc = Xsqlite3CorruptError(tls, 219152)
} else {
rc = sessionInputBuffer(tls, pIn, nRead+*(*int32)(unsafe.Pointer(bp))+100)
nRead = nRead + *(*int32)(unsafe.Pointer(bp))
}
}
for rc == SQLITE_OK {
for (*SessionInput)(unsafe.Pointer(pIn)).FiNext+nRead < (*SessionInput)(unsafe.Pointer(pIn)).FnData && *(*U8)(unsafe.Pointer((*SessionInput)(unsafe.Pointer(pIn)).FaData + uintptr((*SessionInput)(unsafe.Pointer(pIn)).FiNext+nRead))) != 0 {
nRead++
}
if (*SessionInput)(unsafe.Pointer(pIn)).FiNext+nRead < (*SessionInput)(unsafe.Pointer(pIn)).FnData {
break
}
rc = sessionInputBuffer(tls, pIn, nRead+100)
}
*(*int32)(unsafe.Pointer(pnByte)) = nRead + 1
return rc
}
func sessionChangesetBufferRecord(tls *libc.TLS, pIn uintptr, nCol int32, pnByte uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32 = SQLITE_OK
var nByte int32 = 0
var i int32
for i = 0; rc == SQLITE_OK && i < nCol; i++ {
var eType int32
rc = sessionInputBuffer(tls, pIn, nByte+10)
if rc == SQLITE_OK {
eType = int32(*(*U8)(unsafe.Pointer((*SessionInput)(unsafe.Pointer(pIn)).FaData + uintptr((*SessionInput)(unsafe.Pointer(pIn)).FiNext+libc.PostIncInt32(&nByte, 1)))))
if eType == SQLITE_TEXT || eType == SQLITE_BLOB {
nByte = nByte + sessionVarintGet(tls, (*SessionInput)(unsafe.Pointer(pIn)).FaData+uintptr((*SessionInput)(unsafe.Pointer(pIn)).FiNext+nByte), bp)
nByte = nByte + *(*int32)(unsafe.Pointer(bp))
rc = sessionInputBuffer(tls, pIn, nByte)
} else if eType == SQLITE_INTEGER || eType == SQLITE_FLOAT {
nByte = nByte + 8
}
}
}
*(*int32)(unsafe.Pointer(pnByte)) = nByte
return rc
}
func sessionChangesetReadTblhdr(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*int32)(unsafe.Pointer(bp + 4)) = sessionChangesetBufferTblhdr(tls, p, bp)
if *(*int32)(unsafe.Pointer(bp + 4)) == SQLITE_OK {
var nByte int32
var nVarint int32
nVarint = sessionVarintGet(tls, (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FaData+uintptr((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FiNext), p+120)
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol > 0 {
*(*int32)(unsafe.Pointer(bp)) -= nVarint
*(*int32)(unsafe.Pointer(p + 8)) += nVarint
nByte = int32(uint64((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol)*uint64(unsafe.Sizeof(uintptr(0)))*uint64(2) + uint64(*(*int32)(unsafe.Pointer(bp))))
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Ftblhdr.FnBuf = 0
sessionBufferGrow(tls, p+72, int64(nByte), bp+4)
} else {
*(*int32)(unsafe.Pointer(bp + 4)) = Xsqlite3CorruptError(tls, 219240)
}
}
if *(*int32)(unsafe.Pointer(bp + 4)) == SQLITE_OK {
var iPK Size_t = uint64(unsafe.Sizeof(uintptr(0))) * uint64((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol) * uint64(2)
libc.X__builtin___memset_chk(tls, (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Ftblhdr.FaBuf, 0, iPK, libc.X__builtin_object_size(tls, (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Ftblhdr.FaBuf, 0))
libc.X__builtin___memcpy_chk(tls, (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Ftblhdr.FaBuf+uintptr(iPK), (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FaData+uintptr((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FiNext), uint64(*(*int32)(unsafe.Pointer(bp))), libc.X__builtin_object_size(tls, (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Ftblhdr.FaBuf+uintptr(iPK), 0))
*(*int32)(unsafe.Pointer(p + 8)) += *(*int32)(unsafe.Pointer(bp))
}
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue = (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Ftblhdr.FaBuf
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue == uintptr(0) {
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FabPK = uintptr(0)
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FzTab = uintptr(0)
} else {
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FabPK = (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue + uintptr((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol*2)*8
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FzTab = func() uintptr {
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FabPK != 0 {
return (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FabPK + uintptr((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol)
}
return uintptr(0)
}()
}
return libc.AssignPtrInt32(p+100, *(*int32)(unsafe.Pointer(bp + 4)))
}
func sessionChangesetNextOne(tls *libc.TLS, p uintptr, paRec uintptr, pnRec uintptr, pbNew uintptr, pbEmpty uintptr) int32 {
var i int32
var op U8
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc != SQLITE_OK {
return (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc
}
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue != 0 {
for i = 0; i < (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol*2; i++ {
Xsqlite3ValueFree(tls, *(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue + uintptr(i)*8)))
}
libc.X__builtin___memset_chk(tls, (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue, 0, uint64(unsafe.Sizeof(uintptr(0)))*uint64((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol)*uint64(2), libc.X__builtin_object_size(tls, (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue, 0))
}
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc = sessionInputBuffer(tls, p, 2)
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc != SQLITE_OK {
return (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc
}
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FiNext >= (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FnData {
return SQLITE_DONE
}
sessionDiscardData(tls, p)
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FiCurrent = (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FiNext
op = *(*U8)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FaData + uintptr(libc.PostIncInt32(&(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FiNext, 1))))
for int32(op) == 'T' || int32(op) == 'P' {
if pbNew != 0 {
*(*int32)(unsafe.Pointer(pbNew)) = 1
}
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbPatchset = libc.Bool32(int32(op) == 'P')
if sessionChangesetReadTblhdr(tls, p) != 0 {
return (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc
}
if libc.AssignPtrInt32(p+100, sessionInputBuffer(tls, p, 2)) != 0 {
return (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc
}
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FiCurrent = (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FiNext
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FiNext >= (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FnData {
return SQLITE_DONE
}
op = *(*U8)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FaData + uintptr(libc.PostIncInt32(&(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FiNext, 1))))
}
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FzTab == uintptr(0) || (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbPatchset != 0 && (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbInvert != 0 {
return libc.AssignPtrInt32(p+100, Xsqlite3CorruptError(tls, 219326))
}
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fop = int32(op)
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbIndirect = int32(*(*U8)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FaData + uintptr(libc.PostIncInt32(&(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FiNext, 1)))))
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fop != SQLITE_UPDATE && (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fop != SQLITE_DELETE && (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fop != SQLITE_INSERT {
return libc.AssignPtrInt32(p+100, Xsqlite3CorruptError(tls, 219332))
}
if paRec != 0 {
var nVal int32
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbPatchset == 0 && int32(op) == SQLITE_UPDATE {
nVal = (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol * 2
} else if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbPatchset != 0 && int32(op) == SQLITE_DELETE {
nVal = 0
for i = 0; i < (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol; i++ {
if *(*U8)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FabPK + uintptr(i))) != 0 {
nVal++
}
}
} else {
nVal = (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol
}
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc = sessionChangesetBufferRecord(tls, p, nVal, pnRec)
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc != SQLITE_OK {
return (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc
}
*(*uintptr)(unsafe.Pointer(paRec)) = (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FaData + uintptr((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.FiNext)
*(*int32)(unsafe.Pointer(p + 8)) += *(*int32)(unsafe.Pointer(pnRec))
} else {
var apOld uintptr = func() uintptr {
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbInvert != 0 {
return (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue + uintptr((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol)*8
}
return (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue
}()
var apNew uintptr = func() uintptr {
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbInvert != 0 {
return (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue
}
return (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue + uintptr((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol)*8
}()
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fop != SQLITE_INSERT && ((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbPatchset == 0 || (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fop == SQLITE_DELETE) {
var abPK uintptr
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbPatchset != 0 {
abPK = (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FabPK
} else {
abPK = uintptr(0)
}
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc = sessionReadRecord(tls, p, (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol, abPK, apOld, uintptr(0))
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc != SQLITE_OK {
return (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc
}
}
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fop != SQLITE_DELETE {
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc = sessionReadRecord(tls, p, (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol, uintptr(0), apNew, pbEmpty)
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc != SQLITE_OK {
return (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc
}
}
if ((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbPatchset != 0 || (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbInvert != 0) && (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fop == SQLITE_UPDATE {
for i = 0; i < (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol; i++ {
if *(*U8)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FabPK + uintptr(i))) != 0 {
*(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue + uintptr(i)*8)) = *(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue + uintptr(i+(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol)*8))
if *(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue + uintptr(i)*8)) == uintptr(0) {
return libc.AssignPtrInt32(p+100, Xsqlite3CorruptError(tls, 219376))
}
*(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue + uintptr(i+(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol)*8)) = uintptr(0)
}
}
} else if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbInvert != 0 {
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fop == SQLITE_INSERT {
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fop = SQLITE_DELETE
} else if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fop == SQLITE_DELETE {
(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fop = SQLITE_INSERT
}
}
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbPatchset == 0 && (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fop == SQLITE_UPDATE {
for i = 0; i < (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol; i++ {
if int32(*(*U8)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FabPK + uintptr(i)))) == 0 && *(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue + uintptr(i+(*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol)*8)) == uintptr(0) {
Xsqlite3ValueFree(tls, *(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue + uintptr(i)*8)))
*(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue + uintptr(i)*8)) = uintptr(0)
}
}
}
}
return SQLITE_ROW
}
func sessionChangesetNext(tls *libc.TLS, p uintptr, paRec uintptr, pnRec uintptr, pbNew uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32
for __ccgo := true; __ccgo; __ccgo = rc == SQLITE_ROW && (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FbSkipEmpty != 0 && *(*int32)(unsafe.Pointer(bp)) != 0 {
*(*int32)(unsafe.Pointer(bp)) = 0
rc = sessionChangesetNextOne(tls, p, paRec, pnRec, pbNew, bp)
}
return rc
}
// Advance an iterator created by sqlite3changeset_start() to the next
// change in the changeset. This function may return SQLITE_ROW, SQLITE_DONE
// or SQLITE_CORRUPT.
//
// This function may not be called on iterators passed to a conflict handler
// callback by changeset_apply().
func Xsqlite3changeset_next(tls *libc.TLS, p uintptr) int32 {
return sessionChangesetNext(tls, p, uintptr(0), uintptr(0), uintptr(0))
}
// The following function extracts information on the current change
// from a changeset iterator. It may only be called after changeset_next()
// has returned SQLITE_ROW.
func Xsqlite3changeset_op(tls *libc.TLS, pIter uintptr, pzTab uintptr, pnCol uintptr, pOp uintptr, pbIndirect uintptr) int32 {
*(*int32)(unsafe.Pointer(pOp)) = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).Fop
*(*int32)(unsafe.Pointer(pnCol)) = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol
*(*uintptr)(unsafe.Pointer(pzTab)) = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FzTab
if pbIndirect != 0 {
*(*int32)(unsafe.Pointer(pbIndirect)) = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbIndirect
}
return SQLITE_OK
}
// Return information regarding the PRIMARY KEY and number of columns in
// the database table affected by the change that pIter currently points
// to. This function may only be called after changeset_next() returns
// SQLITE_ROW.
func Xsqlite3changeset_pk(tls *libc.TLS, pIter uintptr, pabPK uintptr, pnCol uintptr) int32 {
*(*uintptr)(unsafe.Pointer(pabPK)) = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FabPK
if pnCol != 0 {
*(*int32)(unsafe.Pointer(pnCol)) = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol
}
return SQLITE_OK
}
// This function may only be called while the iterator is pointing to an
// SQLITE_UPDATE or SQLITE_DELETE change (see sqlite3changeset_op()).
// Otherwise, SQLITE_MISUSE is returned.
//
// It sets *ppValue to point to an sqlite3_value structure containing the
// iVal'th value in the old.* record. Or, if that particular value is not
// included in the record (because the change is an UPDATE and the field
// was not modified and is not a PK column), set *ppValue to NULL.
//
// If value iVal is out-of-range, SQLITE_RANGE is returned and *ppValue is
// not modified. Otherwise, SQLITE_OK.
func Xsqlite3changeset_old(tls *libc.TLS, pIter uintptr, iVal int32, ppValue uintptr) int32 {
if (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).Fop != SQLITE_UPDATE && (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).Fop != SQLITE_DELETE {
return SQLITE_MISUSE
}
if iVal < 0 || iVal >= (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol {
return SQLITE_RANGE
}
*(*uintptr)(unsafe.Pointer(ppValue)) = *(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FapValue + uintptr(iVal)*8))
return SQLITE_OK
}
// This function may only be called while the iterator is pointing to an
// SQLITE_UPDATE or SQLITE_INSERT change (see sqlite3changeset_op()).
// Otherwise, SQLITE_MISUSE is returned.
//
// It sets *ppValue to point to an sqlite3_value structure containing the
// iVal'th value in the new.* record. Or, if that particular value is not
// included in the record (because the change is an UPDATE and the field
// was not modified), set *ppValue to NULL.
//
// If value iVal is out-of-range, SQLITE_RANGE is returned and *ppValue is
// not modified. Otherwise, SQLITE_OK.
func Xsqlite3changeset_new(tls *libc.TLS, pIter uintptr, iVal int32, ppValue uintptr) int32 {
if (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).Fop != SQLITE_UPDATE && (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).Fop != SQLITE_INSERT {
return SQLITE_MISUSE
}
if iVal < 0 || iVal >= (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol {
return SQLITE_RANGE
}
*(*uintptr)(unsafe.Pointer(ppValue)) = *(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FapValue + uintptr((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol+iVal)*8))
return SQLITE_OK
}
// This function may only be called with a changeset iterator that has been
// passed to an SQLITE_CHANGESET_DATA or SQLITE_CHANGESET_CONFLICT
// conflict-handler function. Otherwise, SQLITE_MISUSE is returned.
//
// If successful, *ppValue is set to point to an sqlite3_value structure
// containing the iVal'th value of the conflicting record.
//
// If value iVal is out-of-range or some other error occurs, an SQLite error
// code is returned. Otherwise, SQLITE_OK.
func Xsqlite3changeset_conflict(tls *libc.TLS, pIter uintptr, iVal int32, ppValue uintptr) int32 {
if !(int32((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FpConflict) != 0) {
return SQLITE_MISUSE
}
if iVal < 0 || iVal >= (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol {
return SQLITE_RANGE
}
*(*uintptr)(unsafe.Pointer(ppValue)) = Xsqlite3_column_value(tls, (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FpConflict, iVal)
return SQLITE_OK
}
// This function may only be called with an iterator passed to an
// SQLITE_CHANGESET_FOREIGN_KEY conflict handler callback. In this case
// it sets the output variable to the total number of known foreign key
// violations in the destination database and returns SQLITE_OK.
//
// In all other cases this function returns SQLITE_MISUSE.
func Xsqlite3changeset_fk_conflicts(tls *libc.TLS, pIter uintptr, pnOut uintptr) int32 {
if (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FpConflict != 0 || (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FapValue != 0 {
return SQLITE_MISUSE
}
*(*int32)(unsafe.Pointer(pnOut)) = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol
return SQLITE_OK
}
// Finalize an iterator allocated with sqlite3changeset_start().
//
// This function may not be called on iterators passed to a conflict handler
// callback by changeset_apply().
func Xsqlite3changeset_finalize(tls *libc.TLS, p uintptr) int32 {
var rc int32 = SQLITE_OK
if p != 0 {
var i int32
rc = (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Frc
if (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue != 0 {
for i = 0; i < (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FnCol*2; i++ {
Xsqlite3ValueFree(tls, *(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(p)).FapValue + uintptr(i)*8)))
}
}
Xsqlite3_free(tls, (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Ftblhdr.FaBuf)
Xsqlite3_free(tls, (*Sqlite3_changeset_iter)(unsafe.Pointer(p)).Fin.Fbuf.FaBuf)
Xsqlite3_free(tls, p)
}
return rc
}
func sessionChangesetInvert(tls *libc.TLS, pInput uintptr, xOutput uintptr, pOut uintptr, pnInverted uintptr, ppInverted uintptr) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
var abPK uintptr
var apVal uintptr
var nVar int32
var bIndirect int32
var eType2 int32
var pVal uintptr
var pVal1 uintptr
var iCol int32
var eType U8
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_OK
*(*int32)(unsafe.Pointer(bp + 20)) = 0
abPK = uintptr(0)
apVal = uintptr(0)
*(*SessionBuffer)(unsafe.Pointer(bp + 24)) = SessionBuffer{}
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(SessionBuffer{})), libc.X__builtin_object_size(tls, bp, 0))
if !(ppInverted != 0) {
goto __1
}
*(*uintptr)(unsafe.Pointer(ppInverted)) = uintptr(0)
*(*int32)(unsafe.Pointer(pnInverted)) = 0
__1:
;
__2:
if !(1 != 0) {
goto __3
}
if !(libc.AssignPtrInt32(bp+40, sessionInputBuffer(tls, pInput, 2)) != 0) {
goto __4
}
goto finished_invert
__4:
;
if !((*SessionInput)(unsafe.Pointer(pInput)).FiNext >= (*SessionInput)(unsafe.Pointer(pInput)).FnData) {
goto __5
}
goto __3
__5:
;
eType = *(*U8)(unsafe.Pointer((*SessionInput)(unsafe.Pointer(pInput)).FaData + uintptr((*SessionInput)(unsafe.Pointer(pInput)).FiNext)))
switch int32(eType) {
case 'T':
goto __7
case SQLITE_INSERT:
goto __8
case SQLITE_DELETE:
goto __9
case SQLITE_UPDATE:
goto __10
default:
goto __11
}
goto __6
__7:
(*SessionInput)(unsafe.Pointer(pInput)).FiNext++
if !(libc.AssignPtrInt32(bp+40, sessionChangesetBufferTblhdr(tls, pInput, bp+16)) != 0) {
goto __12
}
goto finished_invert
__12:
;
nVar = sessionVarintGet(tls, (*SessionInput)(unsafe.Pointer(pInput)).FaData+uintptr((*SessionInput)(unsafe.Pointer(pInput)).FiNext), bp+20)
(*SessionBuffer)(unsafe.Pointer(bp + 24)).FnBuf = 0
sessionAppendBlob(tls, bp+24, (*SessionInput)(unsafe.Pointer(pInput)).FaData+uintptr((*SessionInput)(unsafe.Pointer(pInput)).FiNext+nVar), *(*int32)(unsafe.Pointer(bp + 20)), bp+40)
sessionAppendByte(tls, bp, eType, bp+40)
sessionAppendBlob(tls, bp, (*SessionInput)(unsafe.Pointer(pInput)).FaData+uintptr((*SessionInput)(unsafe.Pointer(pInput)).FiNext), *(*int32)(unsafe.Pointer(bp + 16)), bp+40)
if !(*(*int32)(unsafe.Pointer(bp + 40)) != 0) {
goto __13
}
goto finished_invert
__13:
;
*(*int32)(unsafe.Pointer(pInput + 8)) += *(*int32)(unsafe.Pointer(bp + 16))
Xsqlite3_free(tls, apVal)
apVal = uintptr(0)
abPK = (*SessionBuffer)(unsafe.Pointer(bp + 24)).FaBuf
goto __6
__8:
__9:
bIndirect = int32(*(*U8)(unsafe.Pointer((*SessionInput)(unsafe.Pointer(pInput)).FaData + uintptr((*SessionInput)(unsafe.Pointer(pInput)).FiNext+1))))
eType2 = func() int32 {
if int32(eType) == SQLITE_DELETE {
return SQLITE_INSERT
}
return SQLITE_DELETE
}()
*(*int32)(unsafe.Pointer(pInput + 8)) += 2
*(*int32)(unsafe.Pointer(bp + 40)) = sessionChangesetBufferRecord(tls, pInput, *(*int32)(unsafe.Pointer(bp + 20)), bp+44)
sessionAppendByte(tls, bp, uint8(eType2), bp+40)
sessionAppendByte(tls, bp, uint8(bIndirect), bp+40)
sessionAppendBlob(tls, bp, (*SessionInput)(unsafe.Pointer(pInput)).FaData+uintptr((*SessionInput)(unsafe.Pointer(pInput)).FiNext), *(*int32)(unsafe.Pointer(bp + 44)), bp+40)
*(*int32)(unsafe.Pointer(pInput + 8)) += *(*int32)(unsafe.Pointer(bp + 44))
if !(*(*int32)(unsafe.Pointer(bp + 40)) != 0) {
goto __14
}
goto finished_invert
__14:
;
goto __6
__10:
if !(uintptr(0) == apVal) {
goto __15
}
apVal = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(uintptr(0)))*uint64(*(*int32)(unsafe.Pointer(bp + 20)))*uint64(2))
if !(uintptr(0) == apVal) {
goto __16
}
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_NOMEM
goto finished_invert
__16:
;
libc.X__builtin___memset_chk(tls, apVal, 0, uint64(unsafe.Sizeof(uintptr(0)))*uint64(*(*int32)(unsafe.Pointer(bp + 20)))*uint64(2), libc.X__builtin_object_size(tls, apVal, 0))
__15:
;
sessionAppendByte(tls, bp, eType, bp+40)
sessionAppendByte(tls, bp, *(*U8)(unsafe.Pointer((*SessionInput)(unsafe.Pointer(pInput)).FaData + uintptr((*SessionInput)(unsafe.Pointer(pInput)).FiNext+1))), bp+40)
*(*int32)(unsafe.Pointer(pInput + 8)) += 2
*(*int32)(unsafe.Pointer(bp + 40)) = sessionReadRecord(tls, pInput, *(*int32)(unsafe.Pointer(bp + 20)), uintptr(0), apVal, uintptr(0))
if !(*(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK) {
goto __17
}
*(*int32)(unsafe.Pointer(bp + 40)) = sessionReadRecord(tls, pInput, *(*int32)(unsafe.Pointer(bp + 20)), uintptr(0), apVal+uintptr(*(*int32)(unsafe.Pointer(bp + 20)))*8, uintptr(0))
__17:
;
iCol = 0
__18:
if !(iCol < *(*int32)(unsafe.Pointer(bp + 20))) {
goto __20
}
pVal = *(*uintptr)(unsafe.Pointer(apVal + uintptr(iCol+func() int32 {
if *(*U8)(unsafe.Pointer(abPK + uintptr(iCol))) != 0 {
return 0
}
return *(*int32)(unsafe.Pointer(bp + 20))
}())*8))
sessionAppendValue(tls, bp, pVal, bp+40)
goto __19
__19:
iCol++
goto __18
goto __20
__20:
;
iCol = 0
__21:
if !(iCol < *(*int32)(unsafe.Pointer(bp + 20))) {
goto __23
}
pVal1 = func() uintptr {
if *(*U8)(unsafe.Pointer(abPK + uintptr(iCol))) != 0 {
return uintptr(0)
}
return *(*uintptr)(unsafe.Pointer(apVal + uintptr(iCol)*8))
}()
sessionAppendValue(tls, bp, pVal1, bp+40)
goto __22
__22:
iCol++
goto __21
goto __23
__23:
;
iCol = 0
__24:
if !(iCol < *(*int32)(unsafe.Pointer(bp + 20))*2) {
goto __26
}
Xsqlite3ValueFree(tls, *(*uintptr)(unsafe.Pointer(apVal + uintptr(iCol)*8)))
goto __25
__25:
iCol++
goto __24
goto __26
__26:
;
libc.X__builtin___memset_chk(tls, apVal, 0, uint64(unsafe.Sizeof(uintptr(0)))*uint64(*(*int32)(unsafe.Pointer(bp + 20)))*uint64(2), libc.X__builtin_object_size(tls, apVal, 0))
if !(*(*int32)(unsafe.Pointer(bp + 40)) != SQLITE_OK) {
goto __27
}
goto finished_invert
__27:
;
goto __6
__11:
*(*int32)(unsafe.Pointer(bp + 40)) = Xsqlite3CorruptError(tls, 219741)
goto finished_invert
__6:
;
if !(xOutput != 0 && (*SessionBuffer)(unsafe.Pointer(bp)).FnBuf >= sessions_strm_chunk_size) {
goto __28
}
*(*int32)(unsafe.Pointer(bp + 40)) = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{xOutput})).f(tls, pOut, (*SessionBuffer)(unsafe.Pointer(bp)).FaBuf, (*SessionBuffer)(unsafe.Pointer(bp)).FnBuf)
(*SessionBuffer)(unsafe.Pointer(bp)).FnBuf = 0
if !(*(*int32)(unsafe.Pointer(bp + 40)) != SQLITE_OK) {
goto __29
}
goto finished_invert
__29:
;
__28:
;
goto __2
__3:
;
if !(pnInverted != 0 && ppInverted != 0) {
goto __30
}
*(*int32)(unsafe.Pointer(pnInverted)) = (*SessionBuffer)(unsafe.Pointer(bp)).FnBuf
*(*uintptr)(unsafe.Pointer(ppInverted)) = (*SessionBuffer)(unsafe.Pointer(bp)).FaBuf
(*SessionBuffer)(unsafe.Pointer(bp)).FaBuf = uintptr(0)
goto __31
__30:
if !((*SessionBuffer)(unsafe.Pointer(bp)).FnBuf > 0 && xOutput != uintptr(0)) {
goto __32
}
*(*int32)(unsafe.Pointer(bp + 40)) = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{xOutput})).f(tls, pOut, (*SessionBuffer)(unsafe.Pointer(bp)).FaBuf, (*SessionBuffer)(unsafe.Pointer(bp)).FnBuf)
__32:
;
__31:
;
finished_invert:
Xsqlite3_free(tls, (*SessionBuffer)(unsafe.Pointer(bp)).FaBuf)
Xsqlite3_free(tls, apVal)
Xsqlite3_free(tls, (*SessionBuffer)(unsafe.Pointer(bp+24)).FaBuf)
return *(*int32)(unsafe.Pointer(bp + 40))
}
// Invert a changeset object.
func Xsqlite3changeset_invert(tls *libc.TLS, nChangeset int32, pChangeset uintptr, pnInverted uintptr, ppInverted uintptr) int32 {
bp := tls.Alloc(72)
defer tls.Free(72)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(SessionInput{})), libc.X__builtin_object_size(tls, bp, 0))
(*SessionInput)(unsafe.Pointer(bp)).FnData = nChangeset
(*SessionInput)(unsafe.Pointer(bp)).FaData = pChangeset
return sessionChangesetInvert(tls, bp, uintptr(0), uintptr(0), pnInverted, ppInverted)
}
// Streaming version of sqlite3changeset_invert().
func Xsqlite3changeset_invert_strm(tls *libc.TLS, xInput uintptr, pIn uintptr, xOutput uintptr, pOut uintptr) int32 {
bp := tls.Alloc(72)
defer tls.Free(72)
var rc int32
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(SessionInput{})), libc.X__builtin_object_size(tls, bp, 0))
(*SessionInput)(unsafe.Pointer(bp)).FxInput = xInput
(*SessionInput)(unsafe.Pointer(bp)).FpIn = pIn
rc = sessionChangesetInvert(tls, bp, xOutput, pOut, uintptr(0), uintptr(0))
Xsqlite3_free(tls, (*SessionInput)(unsafe.Pointer(bp)).Fbuf.FaBuf)
return rc
}
type SessionUpdate1 = struct {
FpStmt uintptr
FaMask uintptr
FpNext uintptr
}
type SessionUpdate = SessionUpdate1
type SessionApplyCtx1 = struct {
Fdb uintptr
FpDelete uintptr
FpInsert uintptr
FpSelect uintptr
FnCol int32
F__ccgo_pad1 [4]byte
FazCol uintptr
FabPK uintptr
FaUpdateMask uintptr
FpUp uintptr
FbStat1 int32
FbDeferConstraints int32
FbInvertConstraints int32
F__ccgo_pad2 [4]byte
Fconstraints SessionBuffer
Frebase SessionBuffer
FbRebaseStarted U8
FbRebase U8
F__ccgo_pad3 [6]byte
}
type SessionApplyCtx = SessionApplyCtx1
func sessionUpdateFind(tls *libc.TLS, pIter uintptr, p uintptr, bPatchset int32, ppStmt uintptr) int32 {
bp := tls.Alloc(20)
defer tls.Free(20)
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_OK
var pUp uintptr = uintptr(0)
var nCol int32 = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol
var nU32 int32 = ((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol + 33) / 32
var ii int32
if (*SessionApplyCtx)(unsafe.Pointer(p)).FaUpdateMask == uintptr(0) {
(*SessionApplyCtx)(unsafe.Pointer(p)).FaUpdateMask = Xsqlite3_malloc(tls, int32(uint64(nU32)*uint64(unsafe.Sizeof(U32(0)))))
if (*SessionApplyCtx)(unsafe.Pointer(p)).FaUpdateMask == uintptr(0) {
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_NOMEM
}
}
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
libc.X__builtin___memset_chk(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).FaUpdateMask, 0, uint64(nU32)*uint64(unsafe.Sizeof(U32(0))), libc.X__builtin_object_size(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).FaUpdateMask, 0))
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_CORRUPT
for ii = 0; ii < (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol; ii++ {
if *(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FapValue + uintptr((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol+ii)*8)) != 0 {
*(*U32)(unsafe.Pointer((*SessionApplyCtx)(unsafe.Pointer(p)).FaUpdateMask + uintptr(ii/32)*4)) |= U32(int32(1) << (ii % 32))
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_OK
}
}
}
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
if bPatchset != 0 {
*(*U32)(unsafe.Pointer((*SessionApplyCtx)(unsafe.Pointer(p)).FaUpdateMask + uintptr(nCol/32)*4)) |= U32(int32(1) << (nCol % 32))
}
if (*SessionApplyCtx)(unsafe.Pointer(p)).FpUp != 0 {
var nUp int32 = 0
var pp uintptr = p + 64
for 1 != 0 {
nUp++
if 0 == libc.Xmemcmp(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).FaUpdateMask, (*SessionUpdate)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).FaMask, uint64(nU32)*uint64(unsafe.Sizeof(U32(0)))) {
pUp = *(*uintptr)(unsafe.Pointer(pp))
*(*uintptr)(unsafe.Pointer(pp)) = (*SessionUpdate)(unsafe.Pointer(pUp)).FpNext
(*SessionUpdate)(unsafe.Pointer(pUp)).FpNext = (*SessionApplyCtx)(unsafe.Pointer(p)).FpUp
(*SessionApplyCtx)(unsafe.Pointer(p)).FpUp = pUp
break
}
if (*SessionUpdate)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).FpNext != 0 {
pp = *(*uintptr)(unsafe.Pointer(pp)) + 16
} else {
if nUp >= SESSION_UPDATE_CACHE_SZ {
Xsqlite3_finalize(tls, (*SessionUpdate)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).FpStmt)
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(pp)))
*(*uintptr)(unsafe.Pointer(pp)) = uintptr(0)
}
break
}
}
}
if pUp == uintptr(0) {
var nByte int32 = int32(uint64(unsafe.Sizeof(SessionUpdate{})) * uint64(nU32) * uint64(unsafe.Sizeof(U32(0))))
var bStat1 int32 = libc.Bool32(Xsqlite3_stricmp(tls, (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FzTab, ts+11751) == 0)
pUp = Xsqlite3_malloc(tls, nByte)
if pUp == uintptr(0) {
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_NOMEM
} else {
var zSep uintptr = ts + 1547
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(SessionBuffer{})), libc.X__builtin_object_size(tls, bp, 0))
(*SessionUpdate)(unsafe.Pointer(pUp)).FaMask = pUp + 1*24
libc.X__builtin___memcpy_chk(tls, (*SessionUpdate)(unsafe.Pointer(pUp)).FaMask, (*SessionApplyCtx)(unsafe.Pointer(p)).FaUpdateMask, uint64(nU32)*uint64(unsafe.Sizeof(U32(0))), libc.X__builtin_object_size(tls, (*SessionUpdate)(unsafe.Pointer(pUp)).FaMask, 0))
sessionAppendStr(tls, bp, ts+33363, bp+16)
sessionAppendIdent(tls, bp, (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FzTab, bp+16)
sessionAppendStr(tls, bp, ts+33376, bp+16)
for ii = 0; ii < (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol; ii++ {
if int32(*(*U8)(unsafe.Pointer((*SessionApplyCtx)(unsafe.Pointer(p)).FabPK + uintptr(ii)))) == 0 && *(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FapValue + uintptr((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol+ii)*8)) != 0 {
sessionAppendStr(tls, bp, zSep, bp+16)
sessionAppendIdent(tls, bp, *(*uintptr)(unsafe.Pointer((*SessionApplyCtx)(unsafe.Pointer(p)).FazCol + uintptr(ii)*8)), bp+16)
sessionAppendStr(tls, bp, ts+33382, bp+16)
sessionAppendInteger(tls, bp, ii*2+1, bp+16)
zSep = ts + 15017
}
}
zSep = ts + 1547
sessionAppendStr(tls, bp, ts+33311, bp+16)
for ii = 0; ii < (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol; ii++ {
if *(*U8)(unsafe.Pointer((*SessionApplyCtx)(unsafe.Pointer(p)).FabPK + uintptr(ii))) != 0 || bPatchset == 0 && *(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FapValue + uintptr(ii)*8)) != 0 {
sessionAppendStr(tls, bp, zSep, bp+16)
if bStat1 != 0 && ii == 1 {
sessionAppendStr(tls, bp,
ts+33387, bp+16)
} else {
sessionAppendIdent(tls, bp, *(*uintptr)(unsafe.Pointer((*SessionApplyCtx)(unsafe.Pointer(p)).FazCol + uintptr(ii)*8)), bp+16)
sessionAppendStr(tls, bp, ts+33319, bp+16)
sessionAppendInteger(tls, bp, ii*2+2, bp+16)
}
zSep = ts + 21975
}
}
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
var zSql uintptr = (*SessionBuffer)(unsafe.Pointer(bp)).FaBuf
*(*int32)(unsafe.Pointer(bp + 16)) = Xsqlite3_prepare_v2(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).Fdb, zSql, (*SessionBuffer)(unsafe.Pointer(bp)).FnBuf, pUp, uintptr(0))
}
if *(*int32)(unsafe.Pointer(bp + 16)) != SQLITE_OK {
Xsqlite3_free(tls, pUp)
pUp = uintptr(0)
} else {
(*SessionUpdate)(unsafe.Pointer(pUp)).FpNext = (*SessionApplyCtx)(unsafe.Pointer(p)).FpUp
(*SessionApplyCtx)(unsafe.Pointer(p)).FpUp = pUp
}
Xsqlite3_free(tls, (*SessionBuffer)(unsafe.Pointer(bp)).FaBuf)
}
}
}
if pUp != 0 {
*(*uintptr)(unsafe.Pointer(ppStmt)) = (*SessionUpdate)(unsafe.Pointer(pUp)).FpStmt
} else {
*(*uintptr)(unsafe.Pointer(ppStmt)) = uintptr(0)
}
return *(*int32)(unsafe.Pointer(bp + 16))
}
func sessionUpdateFree(tls *libc.TLS, p uintptr) {
var pUp uintptr
var pNext uintptr
for pUp = (*SessionApplyCtx)(unsafe.Pointer(p)).FpUp; pUp != 0; pUp = pNext {
pNext = (*SessionUpdate)(unsafe.Pointer(pUp)).FpNext
Xsqlite3_finalize(tls, (*SessionUpdate)(unsafe.Pointer(pUp)).FpStmt)
Xsqlite3_free(tls, pUp)
}
(*SessionApplyCtx)(unsafe.Pointer(p)).FpUp = uintptr(0)
Xsqlite3_free(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).FaUpdateMask)
(*SessionApplyCtx)(unsafe.Pointer(p)).FaUpdateMask = uintptr(0)
}
func sessionDeleteRow(tls *libc.TLS, db uintptr, zTab uintptr, p uintptr) int32 {
bp := tls.Alloc(20)
defer tls.Free(20)
var i int32
var zSep uintptr = ts + 1547
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_OK
*(*SessionBuffer)(unsafe.Pointer(bp)) = SessionBuffer{}
var nPk int32 = 0
sessionAppendStr(tls, bp, ts+33462, bp+16)
sessionAppendIdent(tls, bp, zTab, bp+16)
sessionAppendStr(tls, bp, ts+33311, bp+16)
for i = 0; i < (*SessionApplyCtx)(unsafe.Pointer(p)).FnCol; i++ {
if *(*U8)(unsafe.Pointer((*SessionApplyCtx)(unsafe.Pointer(p)).FabPK + uintptr(i))) != 0 {
nPk++
sessionAppendStr(tls, bp, zSep, bp+16)
sessionAppendIdent(tls, bp, *(*uintptr)(unsafe.Pointer((*SessionApplyCtx)(unsafe.Pointer(p)).FazCol + uintptr(i)*8)), bp+16)
sessionAppendStr(tls, bp, ts+33382, bp+16)
sessionAppendInteger(tls, bp, i+1, bp+16)
zSep = ts + 21975
}
}
if nPk < (*SessionApplyCtx)(unsafe.Pointer(p)).FnCol {
sessionAppendStr(tls, bp, ts+33480, bp+16)
sessionAppendInteger(tls, bp, (*SessionApplyCtx)(unsafe.Pointer(p)).FnCol+1, bp+16)
sessionAppendStr(tls, bp, ts+33023, bp+16)
zSep = ts + 1547
for i = 0; i < (*SessionApplyCtx)(unsafe.Pointer(p)).FnCol; i++ {
if !(int32(*(*U8)(unsafe.Pointer((*SessionApplyCtx)(unsafe.Pointer(p)).FabPK + uintptr(i)))) != 0) {
sessionAppendStr(tls, bp, zSep, bp+16)
sessionAppendIdent(tls, bp, *(*uintptr)(unsafe.Pointer((*SessionApplyCtx)(unsafe.Pointer(p)).FazCol + uintptr(i)*8)), bp+16)
sessionAppendStr(tls, bp, ts+33319, bp+16)
sessionAppendInteger(tls, bp, i+1, bp+16)
zSep = ts + 33488
}
}
sessionAppendStr(tls, bp, ts+5360, bp+16)
}
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 16)) = Xsqlite3_prepare_v2(tls, db, (*SessionBuffer)(unsafe.Pointer(bp)).FaBuf, (*SessionBuffer)(unsafe.Pointer(bp)).FnBuf, p+8, uintptr(0))
}
Xsqlite3_free(tls, (*SessionBuffer)(unsafe.Pointer(bp)).FaBuf)
return *(*int32)(unsafe.Pointer(bp + 16))
}
func sessionSelectRow(tls *libc.TLS, db uintptr, zTab uintptr, p uintptr) int32 {
return sessionSelectStmt(tls,
db, ts+6844, zTab, (*SessionApplyCtx)(unsafe.Pointer(p)).FnCol, (*SessionApplyCtx)(unsafe.Pointer(p)).FazCol, (*SessionApplyCtx)(unsafe.Pointer(p)).FabPK, p+24)
}
func sessionInsertRow(tls *libc.TLS, db uintptr, zTab uintptr, p uintptr) int32 {
bp := tls.Alloc(20)
defer tls.Free(20)
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_OK
var i int32
*(*SessionBuffer)(unsafe.Pointer(bp)) = SessionBuffer{}
sessionAppendStr(tls, bp, ts+33493, bp+16)
sessionAppendIdent(tls, bp, zTab, bp+16)
sessionAppendStr(tls, bp, ts+21981, bp+16)
for i = 0; i < (*SessionApplyCtx)(unsafe.Pointer(p)).FnCol; i++ {
if i != 0 {
sessionAppendStr(tls, bp, ts+15017, bp+16)
}
sessionAppendIdent(tls, bp, *(*uintptr)(unsafe.Pointer((*SessionApplyCtx)(unsafe.Pointer(p)).FazCol + uintptr(i)*8)), bp+16)
}
sessionAppendStr(tls, bp, ts+33511, bp+16)
for i = 1; i < (*SessionApplyCtx)(unsafe.Pointer(p)).FnCol; i++ {
sessionAppendStr(tls, bp, ts+33522, bp+16)
}
sessionAppendStr(tls, bp, ts+5360, bp+16)
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 16)) = Xsqlite3_prepare_v2(tls, db, (*SessionBuffer)(unsafe.Pointer(bp)).FaBuf, (*SessionBuffer)(unsafe.Pointer(bp)).FnBuf, p+16, uintptr(0))
}
Xsqlite3_free(tls, (*SessionBuffer)(unsafe.Pointer(bp)).FaBuf)
return *(*int32)(unsafe.Pointer(bp + 16))
}
func sessionPrepare(tls *libc.TLS, db uintptr, pp uintptr, zSql uintptr) int32 {
return Xsqlite3_prepare_v2(tls, db, zSql, -1, pp, uintptr(0))
}
func sessionStat1Sql(tls *libc.TLS, db uintptr, p uintptr) int32 {
var rc int32 = sessionSelectRow(tls, db, ts+11751, p)
if rc == SQLITE_OK {
rc = sessionPrepare(tls, db, p+16,
ts+33526)
}
if rc == SQLITE_OK {
rc = sessionPrepare(tls, db, p+8,
ts+33639)
}
return rc
}
func sessionBindValue(tls *libc.TLS, pStmt uintptr, i int32, pVal uintptr) int32 {
var eType int32 = Xsqlite3_value_type(tls, pVal)
if (eType == SQLITE_TEXT || eType == SQLITE_BLOB) && (*Sqlite3_value)(unsafe.Pointer(pVal)).Fz == uintptr(0) {
return SQLITE_NOMEM
}
return Xsqlite3_bind_value(tls, pStmt, i, pVal)
}
func sessionBindRow(tls *libc.TLS, pIter uintptr, xValue uintptr, nCol int32, abPK uintptr, pStmt uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var i int32
var rc int32 = SQLITE_OK
for i = 0; rc == SQLITE_OK && i < nCol; i++ {
if !(abPK != 0) || *(*U8)(unsafe.Pointer(abPK + uintptr(i))) != 0 {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
(*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xValue})).f(tls, pIter, i, bp)
if *(*uintptr)(unsafe.Pointer(bp)) == uintptr(0) {
rc = Xsqlite3CorruptError(tls, 220219)
} else {
rc = sessionBindValue(tls, pStmt, i+1, *(*uintptr)(unsafe.Pointer(bp)))
}
}
}
return rc
}
func sessionSeekToRow(tls *libc.TLS, pIter uintptr, abPK uintptr, pSelect uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var rc int32
Xsqlite3changeset_op(tls, pIter, bp, bp+8, bp+12, uintptr(0))
rc = sessionBindRow(tls, pIter,
func() uintptr {
if *(*int32)(unsafe.Pointer(bp + 12)) == SQLITE_INSERT {
return *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
}{Xsqlite3changeset_new}))
}
return *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
}{Xsqlite3changeset_old}))
}(),
*(*int32)(unsafe.Pointer(bp + 8)), abPK, pSelect)
if rc == SQLITE_OK {
rc = Xsqlite3_step(tls, pSelect)
if rc != SQLITE_ROW {
rc = Xsqlite3_reset(tls, pSelect)
}
}
return rc
}
func sessionRebaseAdd(tls *libc.TLS, p uintptr, eType int32, pIter uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
if (*SessionApplyCtx)(unsafe.Pointer(p)).FbRebase != 0 {
var i int32
var eOp int32 = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).Fop
if int32((*SessionApplyCtx)(unsafe.Pointer(p)).FbRebaseStarted) == 0 {
var zTab uintptr = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FzTab
sessionAppendByte(tls, p+104, uint8('T'), bp)
sessionAppendVarint(tls, p+104, (*SessionApplyCtx)(unsafe.Pointer(p)).FnCol, bp)
sessionAppendBlob(tls, p+104, (*SessionApplyCtx)(unsafe.Pointer(p)).FabPK, (*SessionApplyCtx)(unsafe.Pointer(p)).FnCol, bp)
sessionAppendBlob(tls, p+104, zTab, int32(libc.Xstrlen(tls, zTab))+1, bp)
(*SessionApplyCtx)(unsafe.Pointer(p)).FbRebaseStarted = U8(1)
}
sessionAppendByte(tls, p+104,
func() uint8 {
if eOp == SQLITE_DELETE {
return uint8(SQLITE_DELETE)
}
return uint8(SQLITE_INSERT)
}(), bp)
sessionAppendByte(tls, p+104, uint8(libc.Bool32(eType == SQLITE_CHANGESET_REPLACE)), bp)
for i = 0; i < (*SessionApplyCtx)(unsafe.Pointer(p)).FnCol; i++ {
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
if eOp == SQLITE_DELETE || eOp == SQLITE_UPDATE && *(*U8)(unsafe.Pointer((*SessionApplyCtx)(unsafe.Pointer(p)).FabPK + uintptr(i))) != 0 {
Xsqlite3changeset_old(tls, pIter, i, bp+8)
} else {
Xsqlite3changeset_new(tls, pIter, i, bp+8)
}
sessionAppendValue(tls, p+104, *(*uintptr)(unsafe.Pointer(bp + 8)), bp)
}
}
return *(*int32)(unsafe.Pointer(bp))
}
func sessionConflictHandler(tls *libc.TLS, eType int32, p uintptr, pIter uintptr, xConflict uintptr, pCtx uintptr, pbReplace uintptr) int32 {
bp := tls.Alloc(20)
defer tls.Free(20)
var res int32 = 0
Xsqlite3changeset_op(tls, pIter, bp, bp+8, bp+12, uintptr(0))
if pbReplace != 0 {
*(*int32)(unsafe.Pointer(bp + 16)) = sessionSeekToRow(tls, pIter, (*SessionApplyCtx)(unsafe.Pointer(p)).FabPK, (*SessionApplyCtx)(unsafe.Pointer(p)).FpSelect)
} else {
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_OK
}
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_ROW {
(*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FpConflict = (*SessionApplyCtx)(unsafe.Pointer(p)).FpSelect
res = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xConflict})).f(tls, pCtx, eType, pIter)
(*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FpConflict = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 16)) = Xsqlite3_reset(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).FpSelect)
} else if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
if (*SessionApplyCtx)(unsafe.Pointer(p)).FbDeferConstraints != 0 && eType == SQLITE_CHANGESET_CONFLICT {
var aBlob uintptr = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).Fin.FaData + uintptr((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).Fin.FiCurrent)
var nBlob int32 = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).Fin.FiNext - (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).Fin.FiCurrent
sessionAppendBlob(tls, p+88, aBlob, nBlob, bp+16)
return SQLITE_OK
} else {
res = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xConflict})).f(tls, pCtx, eType+1, pIter)
if res == SQLITE_CHANGESET_REPLACE {
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_MISUSE
}
}
}
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
switch res {
case SQLITE_CHANGESET_REPLACE:
*(*int32)(unsafe.Pointer(pbReplace)) = 1
break
fallthrough
case SQLITE_CHANGESET_OMIT:
break
fallthrough
case SQLITE_CHANGESET_ABORT:
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_ABORT
break
fallthrough
default:
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_MISUSE
break
}
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 16)) = sessionRebaseAdd(tls, p, res, pIter)
}
}
return *(*int32)(unsafe.Pointer(bp + 16))
}
func sessionApplyOneOp(tls *libc.TLS, pIter uintptr, p uintptr, xConflict uintptr, pCtx uintptr, pbReplace uintptr, pbRetry uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var rc int32 = SQLITE_OK
Xsqlite3changeset_op(tls, pIter, bp, bp+8, bp+12, uintptr(0))
if *(*int32)(unsafe.Pointer(bp + 12)) == SQLITE_DELETE {
var abPK uintptr = func() uintptr {
if (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbPatchset != 0 {
return (*SessionApplyCtx)(unsafe.Pointer(p)).FabPK
}
return uintptr(0)
}()
rc = sessionBindRow(tls, pIter, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
}{Xsqlite3changeset_old})), *(*int32)(unsafe.Pointer(bp + 8)), abPK, (*SessionApplyCtx)(unsafe.Pointer(p)).FpDelete)
if rc == SQLITE_OK && Xsqlite3_bind_parameter_count(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).FpDelete) > *(*int32)(unsafe.Pointer(bp + 8)) {
rc = Xsqlite3_bind_int(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).FpDelete, *(*int32)(unsafe.Pointer(bp + 8))+1, libc.Bool32(pbRetry == uintptr(0) || abPK != 0))
}
if rc != SQLITE_OK {
return rc
}
Xsqlite3_step(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).FpDelete)
rc = Xsqlite3_reset(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).FpDelete)
if rc == SQLITE_OK && Xsqlite3_changes(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).Fdb) == 0 {
rc = sessionConflictHandler(tls,
SQLITE_CHANGESET_DATA, p, pIter, xConflict, pCtx, pbRetry)
} else if rc&0xff == SQLITE_CONSTRAINT {
rc = sessionConflictHandler(tls,
SQLITE_CHANGESET_CONFLICT, p, pIter, xConflict, pCtx, uintptr(0))
}
} else if *(*int32)(unsafe.Pointer(bp + 12)) == SQLITE_UPDATE {
var i int32
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
var bPatchset int32 = libc.Bool32(pbRetry == uintptr(0) || (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbPatchset != 0)
rc = sessionUpdateFind(tls, pIter, p, bPatchset, bp+16)
for i = 0; rc == SQLITE_OK && i < *(*int32)(unsafe.Pointer(bp + 8)); i++ {
var pOld uintptr = *(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FapValue + uintptr(i)*8))
var pNew uintptr = *(*uintptr)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FapValue + uintptr((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol+i)*8))
if *(*U8)(unsafe.Pointer((*SessionApplyCtx)(unsafe.Pointer(p)).FabPK + uintptr(i))) != 0 || bPatchset == 0 && pOld != 0 {
rc = sessionBindValue(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), i*2+2, pOld)
}
if rc == SQLITE_OK && pNew != 0 {
rc = sessionBindValue(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), i*2+1, pNew)
}
}
if rc != SQLITE_OK {
return rc
}
Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
rc = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
if rc == SQLITE_OK && Xsqlite3_changes(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).Fdb) == 0 {
rc = sessionConflictHandler(tls,
SQLITE_CHANGESET_DATA, p, pIter, xConflict, pCtx, pbRetry)
} else if rc&0xff == SQLITE_CONSTRAINT {
rc = sessionConflictHandler(tls,
SQLITE_CHANGESET_CONFLICT, p, pIter, xConflict, pCtx, uintptr(0))
}
} else {
if (*SessionApplyCtx)(unsafe.Pointer(p)).FbStat1 != 0 {
rc = sessionSeekToRow(tls, pIter, (*SessionApplyCtx)(unsafe.Pointer(p)).FabPK, (*SessionApplyCtx)(unsafe.Pointer(p)).FpSelect)
if rc == SQLITE_ROW {
rc = SQLITE_CONSTRAINT
Xsqlite3_reset(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).FpSelect)
}
}
if rc == SQLITE_OK {
rc = sessionBindRow(tls, pIter, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
}{Xsqlite3changeset_new})), *(*int32)(unsafe.Pointer(bp + 8)), uintptr(0), (*SessionApplyCtx)(unsafe.Pointer(p)).FpInsert)
if rc != SQLITE_OK {
return rc
}
Xsqlite3_step(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).FpInsert)
rc = Xsqlite3_reset(tls, (*SessionApplyCtx)(unsafe.Pointer(p)).FpInsert)
}
if rc&0xff == SQLITE_CONSTRAINT {
rc = sessionConflictHandler(tls,
SQLITE_CHANGESET_CONFLICT, p, pIter, xConflict, pCtx, pbReplace)
}
}
return rc
}
func sessionApplyOneWithRetry(tls *libc.TLS, db uintptr, pIter uintptr, pApply uintptr, xConflict uintptr, pCtx uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*int32)(unsafe.Pointer(bp)) = 0
*(*int32)(unsafe.Pointer(bp + 4)) = 0
var rc int32
rc = sessionApplyOneOp(tls, pIter, pApply, xConflict, pCtx, bp, bp+4)
if rc == SQLITE_OK {
if *(*int32)(unsafe.Pointer(bp + 4)) != 0 {
rc = sessionApplyOneOp(tls, pIter, pApply, xConflict, pCtx, uintptr(0), uintptr(0))
} else if *(*int32)(unsafe.Pointer(bp)) != 0 {
rc = Xsqlite3_exec(tls, db, ts+33783, uintptr(0), uintptr(0), uintptr(0))
if rc == SQLITE_OK {
rc = sessionBindRow(tls, pIter,
*(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
}{Xsqlite3changeset_new})), (*SessionApplyCtx)(unsafe.Pointer(pApply)).FnCol, (*SessionApplyCtx)(unsafe.Pointer(pApply)).FabPK, (*SessionApplyCtx)(unsafe.Pointer(pApply)).FpDelete)
Xsqlite3_bind_int(tls, (*SessionApplyCtx)(unsafe.Pointer(pApply)).FpDelete, (*SessionApplyCtx)(unsafe.Pointer(pApply)).FnCol+1, 1)
}
if rc == SQLITE_OK {
Xsqlite3_step(tls, (*SessionApplyCtx)(unsafe.Pointer(pApply)).FpDelete)
rc = Xsqlite3_reset(tls, (*SessionApplyCtx)(unsafe.Pointer(pApply)).FpDelete)
}
if rc == SQLITE_OK {
rc = sessionApplyOneOp(tls, pIter, pApply, xConflict, pCtx, uintptr(0), uintptr(0))
}
if rc == SQLITE_OK {
rc = Xsqlite3_exec(tls, db, ts+33804, uintptr(0), uintptr(0), uintptr(0))
}
}
}
return rc
}
func sessionRetryConstraints(tls *libc.TLS, db uintptr, bPatchset int32, zTab uintptr, pApply uintptr, xConflict uintptr, pCtx uintptr) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
*(*int32)(unsafe.Pointer(bp + 8)) = SQLITE_OK
for (*SessionApplyCtx)(unsafe.Pointer(pApply)).Fconstraints.FnBuf != 0 {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var cons = (*SessionApplyCtx)(unsafe.Pointer(pApply)).Fconstraints
libc.X__builtin___memset_chk(tls, pApply+88, 0, uint64(unsafe.Sizeof(SessionBuffer{})), libc.X__builtin_object_size(tls, pApply+88, 0))
*(*int32)(unsafe.Pointer(bp + 8)) = sessionChangesetStart(tls,
bp, uintptr(0), uintptr(0), cons.FnBuf, cons.FaBuf, (*SessionApplyCtx)(unsafe.Pointer(pApply)).FbInvertConstraints, 1)
if *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK {
var nByte Size_t = uint64(2*(*SessionApplyCtx)(unsafe.Pointer(pApply)).FnCol) * uint64(unsafe.Sizeof(uintptr(0)))
var rc2 int32
(*Sqlite3_changeset_iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FbPatchset = bPatchset
(*Sqlite3_changeset_iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FzTab = zTab
(*Sqlite3_changeset_iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FnCol = (*SessionApplyCtx)(unsafe.Pointer(pApply)).FnCol
(*Sqlite3_changeset_iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FabPK = (*SessionApplyCtx)(unsafe.Pointer(pApply)).FabPK
sessionBufferGrow(tls, *(*uintptr)(unsafe.Pointer(bp))+72, int64(nByte), bp+8)
(*Sqlite3_changeset_iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FapValue = (*Sqlite3_changeset_iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Ftblhdr.FaBuf
if *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK {
libc.X__builtin___memset_chk(tls, (*Sqlite3_changeset_iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FapValue, 0, nByte, libc.X__builtin_object_size(tls, (*Sqlite3_changeset_iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FapValue, 0))
}
for *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK && SQLITE_ROW == Xsqlite3changeset_next(tls, *(*uintptr)(unsafe.Pointer(bp))) {
*(*int32)(unsafe.Pointer(bp + 8)) = sessionApplyOneWithRetry(tls, db, *(*uintptr)(unsafe.Pointer(bp)), pApply, xConflict, pCtx)
}
rc2 = Xsqlite3changeset_finalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
if *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 8)) = rc2
}
}
Xsqlite3_free(tls, cons.FaBuf)
if *(*int32)(unsafe.Pointer(bp + 8)) != SQLITE_OK {
break
}
if (*SessionApplyCtx)(unsafe.Pointer(pApply)).Fconstraints.FnBuf >= cons.FnBuf {
(*SessionApplyCtx)(unsafe.Pointer(pApply)).FbDeferConstraints = 0
}
}
return *(*int32)(unsafe.Pointer(bp + 8))
}
func sessionChangesetApply(tls *libc.TLS, db uintptr, pIter uintptr, xFilter uintptr, xConflict uintptr, pCtx uintptr, ppRebase uintptr, pnRebase uintptr, flags int32) int32 {
bp := tls.Alloc(368)
defer tls.Free(368)
var schemaMismatch int32 = 0
var rc int32 = SQLITE_OK
*(*uintptr)(unsafe.Pointer(bp + 200)) = uintptr(0)
var nTab int32 = 0
var bPatchset int32
(*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).Fin.FbNoDiscard = 1
libc.X__builtin___memset_chk(tls, bp+48, 0, uint64(unsafe.Sizeof(SessionApplyCtx{})), libc.X__builtin_object_size(tls, bp+48, 0))
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FbRebase = U8(libc.Bool32(ppRebase != 0 && pnRebase != 0))
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FbInvertConstraints = libc.BoolInt32(!!(flags&SQLITE_CHANGESETAPPLY_INVERT != 0))
Xsqlite3_mutex_enter(tls, Xsqlite3_db_mutex(tls, db))
if flags&SQLITE_CHANGESETAPPLY_NOSAVEPOINT == 0 {
rc = Xsqlite3_exec(tls, db, ts+33823, uintptr(0), uintptr(0), uintptr(0))
}
if rc == SQLITE_OK {
rc = Xsqlite3_exec(tls, db, ts+33849, uintptr(0), uintptr(0), uintptr(0))
}
for rc == SQLITE_OK && SQLITE_ROW == Xsqlite3changeset_next(tls, pIter) {
Xsqlite3changeset_op(tls, pIter, bp+176, bp+184, bp+188, uintptr(0))
if *(*uintptr)(unsafe.Pointer(bp + 200)) == uintptr(0) || Xsqlite3_strnicmp(tls, *(*uintptr)(unsafe.Pointer(bp + 176)), *(*uintptr)(unsafe.Pointer(bp + 200)), nTab+1) != 0 {
rc = sessionRetryConstraints(tls,
db, (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbPatchset, *(*uintptr)(unsafe.Pointer(bp + 200)), bp+48, xConflict, pCtx)
if rc != SQLITE_OK {
break
}
sessionUpdateFree(tls, bp+48)
Xsqlite3_free(tls, (*SessionApplyCtx)(unsafe.Pointer(bp+48)).FazCol)
Xsqlite3_finalize(tls, (*SessionApplyCtx)(unsafe.Pointer(bp+48)).FpDelete)
Xsqlite3_finalize(tls, (*SessionApplyCtx)(unsafe.Pointer(bp+48)).FpInsert)
Xsqlite3_finalize(tls, (*SessionApplyCtx)(unsafe.Pointer(bp+48)).FpSelect)
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).Fdb = db
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FpDelete = uintptr(0)
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FpInsert = uintptr(0)
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FpSelect = uintptr(0)
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FnCol = 0
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FazCol = uintptr(0)
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FabPK = uintptr(0)
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FbStat1 = 0
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FbDeferConstraints = 1
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FbRebaseStarted = U8(0)
libc.X__builtin___memset_chk(tls, bp+48+88, 0, uint64(unsafe.Sizeof(SessionBuffer{})), libc.X__builtin_object_size(tls, bp+48+88, 0))
schemaMismatch = libc.Bool32(xFilter != 0 && 0 == (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xFilter})).f(tls, pCtx, *(*uintptr)(unsafe.Pointer(bp + 176))))
if schemaMismatch != 0 {
*(*uintptr)(unsafe.Pointer(bp + 200)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp, *(*uintptr)(unsafe.Pointer(bp + 176))))
if *(*uintptr)(unsafe.Pointer(bp + 200)) == uintptr(0) {
rc = SQLITE_NOMEM
break
}
nTab = int32(libc.Xstrlen(tls, *(*uintptr)(unsafe.Pointer(bp + 200))))
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FazCol = *(*uintptr)(unsafe.Pointer(bp + 200))
} else {
var nMinCol int32 = 0
var i int32
Xsqlite3changeset_pk(tls, pIter, bp+192, uintptr(0))
rc = sessionTableInfo(tls, uintptr(0),
db, ts+6844, *(*uintptr)(unsafe.Pointer(bp + 176)), bp+48+32, bp+200, bp+48+40, bp+48+48)
if rc != SQLITE_OK {
break
}
for i = 0; i < (*SessionApplyCtx)(unsafe.Pointer(bp+48)).FnCol; i++ {
if *(*U8)(unsafe.Pointer((*SessionApplyCtx)(unsafe.Pointer(bp+48)).FabPK + uintptr(i))) != 0 {
nMinCol = i + 1
}
}
if (*SessionApplyCtx)(unsafe.Pointer(bp+48)).FnCol == 0 {
schemaMismatch = 1
Xsqlite3_log(tls, SQLITE_SCHEMA,
ts+33879, libc.VaList(bp+8, *(*uintptr)(unsafe.Pointer(bp + 200))))
} else if (*SessionApplyCtx)(unsafe.Pointer(bp+48)).FnCol < *(*int32)(unsafe.Pointer(bp + 184)) {
schemaMismatch = 1
Xsqlite3_log(tls, SQLITE_SCHEMA,
ts+33923,
libc.VaList(bp+16, *(*uintptr)(unsafe.Pointer(bp + 200)), (*SessionApplyCtx)(unsafe.Pointer(bp+48)).FnCol, *(*int32)(unsafe.Pointer(bp + 184))))
} else if *(*int32)(unsafe.Pointer(bp + 184)) < nMinCol || libc.Xmemcmp(tls, (*SessionApplyCtx)(unsafe.Pointer(bp+48)).FabPK, *(*uintptr)(unsafe.Pointer(bp + 192)), uint64(*(*int32)(unsafe.Pointer(bp + 184)))) != 0 {
schemaMismatch = 1
Xsqlite3_log(tls, SQLITE_SCHEMA,
ts+33994, libc.VaList(bp+40, *(*uintptr)(unsafe.Pointer(bp + 200))))
} else {
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FnCol = *(*int32)(unsafe.Pointer(bp + 184))
if 0 == Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer(bp + 200)), ts+11751) {
if libc.AssignInt32(&rc, sessionStat1Sql(tls, db, bp+48)) != 0 {
break
}
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FbStat1 = 1
} else {
if libc.AssignInt32(&rc, sessionSelectRow(tls, db, *(*uintptr)(unsafe.Pointer(bp + 200)), bp+48)) != 0 ||
libc.AssignInt32(&rc, sessionDeleteRow(tls, db, *(*uintptr)(unsafe.Pointer(bp + 200)), bp+48)) != 0 ||
libc.AssignInt32(&rc, sessionInsertRow(tls, db, *(*uintptr)(unsafe.Pointer(bp + 200)), bp+48)) != 0 {
break
}
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).FbStat1 = 0
}
}
nTab = Xsqlite3Strlen30(tls, *(*uintptr)(unsafe.Pointer(bp + 200)))
}
}
if schemaMismatch != 0 {
continue
}
rc = sessionApplyOneWithRetry(tls, db, pIter, bp+48, xConflict, pCtx)
}
bPatchset = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbPatchset
if rc == SQLITE_OK {
rc = Xsqlite3changeset_finalize(tls, pIter)
} else {
Xsqlite3changeset_finalize(tls, pIter)
}
if rc == SQLITE_OK {
rc = sessionRetryConstraints(tls, db, bPatchset, *(*uintptr)(unsafe.Pointer(bp + 200)), bp+48, xConflict, pCtx)
}
if rc == SQLITE_OK {
Xsqlite3_db_status(tls, db, SQLITE_DBSTATUS_DEFERRED_FKS, bp+208, bp+212, 0)
if *(*int32)(unsafe.Pointer(bp + 208)) != 0 {
var res int32 = SQLITE_CHANGESET_ABORT
libc.X__builtin___memset_chk(tls, bp+216, 0, uint64(unsafe.Sizeof(Sqlite3_changeset_iter{})), libc.X__builtin_object_size(tls, bp+216, 0))
(*Sqlite3_changeset_iter)(unsafe.Pointer(bp + 216)).FnCol = *(*int32)(unsafe.Pointer(bp + 208))
res = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xConflict})).f(tls, pCtx, SQLITE_CHANGESET_FOREIGN_KEY, bp+216)
if res != SQLITE_CHANGESET_OMIT {
rc = SQLITE_CONSTRAINT
}
}
}
Xsqlite3_exec(tls, db, ts+34054, uintptr(0), uintptr(0), uintptr(0))
if flags&SQLITE_CHANGESETAPPLY_NOSAVEPOINT == 0 {
if rc == SQLITE_OK {
rc = Xsqlite3_exec(tls, db, ts+34084, uintptr(0), uintptr(0), uintptr(0))
} else {
Xsqlite3_exec(tls, db, ts+34108, uintptr(0), uintptr(0), uintptr(0))
Xsqlite3_exec(tls, db, ts+34084, uintptr(0), uintptr(0), uintptr(0))
}
}
if rc == SQLITE_OK && bPatchset == 0 && (*SessionApplyCtx)(unsafe.Pointer(bp+48)).FbRebase != 0 {
*(*uintptr)(unsafe.Pointer(ppRebase)) = (*SessionApplyCtx)(unsafe.Pointer(bp + 48)).Frebase.FaBuf
*(*int32)(unsafe.Pointer(pnRebase)) = (*SessionApplyCtx)(unsafe.Pointer(bp + 48)).Frebase.FnBuf
(*SessionApplyCtx)(unsafe.Pointer(bp + 48)).Frebase.FaBuf = uintptr(0)
}
sessionUpdateFree(tls, bp+48)
Xsqlite3_finalize(tls, (*SessionApplyCtx)(unsafe.Pointer(bp+48)).FpInsert)
Xsqlite3_finalize(tls, (*SessionApplyCtx)(unsafe.Pointer(bp+48)).FpDelete)
Xsqlite3_finalize(tls, (*SessionApplyCtx)(unsafe.Pointer(bp+48)).FpSelect)
Xsqlite3_free(tls, (*SessionApplyCtx)(unsafe.Pointer(bp+48)).FazCol)
Xsqlite3_free(tls, (*SessionApplyCtx)(unsafe.Pointer(bp+48)).Fconstraints.FaBuf)
Xsqlite3_free(tls, (*SessionApplyCtx)(unsafe.Pointer(bp+48)).Frebase.FaBuf)
Xsqlite3_mutex_leave(tls, Xsqlite3_db_mutex(tls, db))
return rc
}
// Apply the changeset passed via pChangeset/nChangeset to the main
// database attached to handle "db".
func Xsqlite3changeset_apply_v2(tls *libc.TLS, db uintptr, nChangeset int32, pChangeset uintptr, xFilter uintptr, xConflict uintptr, pCtx uintptr, ppRebase uintptr, pnRebase uintptr, flags int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var bInv int32 = libc.BoolInt32(!!(flags&SQLITE_CHANGESETAPPLY_INVERT != 0))
var rc int32 = sessionChangesetStart(tls, bp, uintptr(0), uintptr(0), nChangeset, pChangeset, bInv, 1)
if rc == SQLITE_OK {
rc = sessionChangesetApply(tls,
db, *(*uintptr)(unsafe.Pointer(bp)), xFilter, xConflict, pCtx, ppRebase, pnRebase, flags)
}
return rc
}
// Apply the changeset passed via pChangeset/nChangeset to the main database
// attached to handle "db". Invoke the supplied conflict handler callback
// to resolve any conflicts encountered while applying the change.
func Xsqlite3changeset_apply(tls *libc.TLS, db uintptr, nChangeset int32, pChangeset uintptr, xFilter uintptr, xConflict uintptr, pCtx uintptr) int32 {
return Xsqlite3changeset_apply_v2(tls,
db, nChangeset, pChangeset, xFilter, xConflict, pCtx, uintptr(0), uintptr(0), 0)
}
// Apply the changeset passed via xInput/pIn to the main database
// attached to handle "db". Invoke the supplied conflict handler callback
// to resolve any conflicts encountered while applying the change.
func Xsqlite3changeset_apply_v2_strm(tls *libc.TLS, db uintptr, xInput uintptr, pIn uintptr, xFilter uintptr, xConflict uintptr, pCtx uintptr, ppRebase uintptr, pnRebase uintptr, flags int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var bInverse int32 = libc.BoolInt32(!!(flags&SQLITE_CHANGESETAPPLY_INVERT != 0))
var rc int32 = sessionChangesetStart(tls, bp, xInput, pIn, 0, uintptr(0), bInverse, 1)
if rc == SQLITE_OK {
rc = sessionChangesetApply(tls,
db, *(*uintptr)(unsafe.Pointer(bp)), xFilter, xConflict, pCtx, ppRebase, pnRebase, flags)
}
return rc
}
func Xsqlite3changeset_apply_strm(tls *libc.TLS, db uintptr, xInput uintptr, pIn uintptr, xFilter uintptr, xConflict uintptr, pCtx uintptr) int32 {
return Xsqlite3changeset_apply_v2_strm(tls,
db, xInput, pIn, xFilter, xConflict, pCtx, uintptr(0), uintptr(0), 0)
}
func sessionChangeMerge(tls *libc.TLS, pTab uintptr, bRebase int32, bPatchset int32, pExist uintptr, op2 int32, bIndirect int32, aRec uintptr, nRec int32, ppNew uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var pNew uintptr = uintptr(0)
var rc int32 = SQLITE_OK
if !(pExist != 0) {
pNew = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(SessionChange{}))+uint64(nRec))
if !(pNew != 0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, pNew, 0, uint64(unsafe.Sizeof(SessionChange{})), libc.X__builtin_object_size(tls, pNew, 0))
(*SessionChange)(unsafe.Pointer(pNew)).Fop = U8(op2)
(*SessionChange)(unsafe.Pointer(pNew)).FbIndirect = U8(bIndirect)
(*SessionChange)(unsafe.Pointer(pNew)).FaRecord = pNew + 1*32
if bIndirect == 0 || bRebase == 0 {
(*SessionChange)(unsafe.Pointer(pNew)).FnRecord = nRec
libc.X__builtin___memcpy_chk(tls, (*SessionChange)(unsafe.Pointer(pNew)).FaRecord, aRec, uint64(nRec), libc.X__builtin_object_size(tls, (*SessionChange)(unsafe.Pointer(pNew)).FaRecord, 0))
} else {
var i int32
var pIn uintptr = aRec
var pOut uintptr = (*SessionChange)(unsafe.Pointer(pNew)).FaRecord
for i = 0; i < (*SessionTable)(unsafe.Pointer(pTab)).FnCol; i++ {
var nIn int32 = sessionSerialLen(tls, pIn)
if int32(*(*U8)(unsafe.Pointer(pIn))) == 0 {
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pOut, 1))) = U8(0)
} else if int32(*(*U8)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FabPK + uintptr(i)))) == 0 {
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pOut, 1))) = U8(0xFF)
} else {
libc.X__builtin___memcpy_chk(tls, pOut, pIn, uint64(nIn), libc.X__builtin_object_size(tls, pOut, 0))
pOut += uintptr(nIn)
}
pIn += uintptr(nIn)
}
(*SessionChange)(unsafe.Pointer(pNew)).FnRecord = int32((int64(pOut) - int64((*SessionChange)(unsafe.Pointer(pNew)).FaRecord)) / 1)
}
} else if bRebase != 0 {
if int32((*SessionChange)(unsafe.Pointer(pExist)).Fop) == SQLITE_DELETE && (*SessionChange)(unsafe.Pointer(pExist)).FbIndirect != 0 {
*(*uintptr)(unsafe.Pointer(ppNew)) = pExist
} else {
var nByte Sqlite3_int64 = Sqlite3_int64(uint64(nRec+(*SessionChange)(unsafe.Pointer(pExist)).FnRecord) + uint64(unsafe.Sizeof(SessionChange{})))
pNew = Xsqlite3_malloc64(tls, uint64(nByte))
if pNew == uintptr(0) {
rc = SQLITE_NOMEM
} else {
var i int32
var a1 uintptr = (*SessionChange)(unsafe.Pointer(pExist)).FaRecord
var a2 uintptr = aRec
var pOut uintptr
libc.X__builtin___memset_chk(tls, pNew, 0, uint64(nByte), libc.X__builtin_object_size(tls, pNew, 0))
(*SessionChange)(unsafe.Pointer(pNew)).FbIndirect = U8(libc.Bool32(bIndirect != 0 || (*SessionChange)(unsafe.Pointer(pExist)).FbIndirect != 0))
(*SessionChange)(unsafe.Pointer(pNew)).Fop = U8(op2)
pOut = libc.AssignPtrUintptr(pNew+16, pNew+1*32)
for i = 0; i < (*SessionTable)(unsafe.Pointer(pTab)).FnCol; i++ {
var n1 int32 = sessionSerialLen(tls, a1)
var n2 int32 = sessionSerialLen(tls, a2)
if int32(*(*U8)(unsafe.Pointer(a1))) == 0xFF || int32(*(*U8)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FabPK + uintptr(i)))) == 0 && bIndirect != 0 {
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pOut, 1))) = U8(0xFF)
} else if int32(*(*U8)(unsafe.Pointer(a2))) == 0 {
libc.X__builtin___memcpy_chk(tls, pOut, a1, uint64(n1), libc.X__builtin_object_size(tls, pOut, 0))
pOut += uintptr(n1)
} else {
libc.X__builtin___memcpy_chk(tls, pOut, a2, uint64(n2), libc.X__builtin_object_size(tls, pOut, 0))
pOut += uintptr(n2)
}
a1 += uintptr(n1)
a2 += uintptr(n2)
}
(*SessionChange)(unsafe.Pointer(pNew)).FnRecord = int32((int64(pOut) - int64((*SessionChange)(unsafe.Pointer(pNew)).FaRecord)) / 1)
}
Xsqlite3_free(tls, pExist)
}
} else {
var op1 int32 = int32((*SessionChange)(unsafe.Pointer(pExist)).Fop)
if op1 == SQLITE_INSERT && op2 == SQLITE_INSERT ||
op1 == SQLITE_UPDATE && op2 == SQLITE_INSERT ||
op1 == SQLITE_DELETE && op2 == SQLITE_UPDATE ||
op1 == SQLITE_DELETE && op2 == SQLITE_DELETE {
pNew = pExist
} else if op1 == SQLITE_INSERT && op2 == SQLITE_DELETE {
Xsqlite3_free(tls, pExist)
} else {
var aExist uintptr = (*SessionChange)(unsafe.Pointer(pExist)).FaRecord
var nByte Sqlite3_int64
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(SessionChange{})) + uint64((*SessionChange)(unsafe.Pointer(pExist)).FnRecord) + uint64(nRec))
pNew = Xsqlite3_malloc64(tls, uint64(nByte))
if !(pNew != 0) {
Xsqlite3_free(tls, pExist)
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, pNew, 0, uint64(unsafe.Sizeof(SessionChange{})), libc.X__builtin_object_size(tls, pNew, 0))
(*SessionChange)(unsafe.Pointer(pNew)).FbIndirect = U8(libc.Bool32(bIndirect != 0 && (*SessionChange)(unsafe.Pointer(pExist)).FbIndirect != 0))
*(*uintptr)(unsafe.Pointer(bp + 8)) = libc.AssignPtrUintptr(pNew+16, pNew+1*32)
if op1 == SQLITE_INSERT {
*(*uintptr)(unsafe.Pointer(bp)) = aRec
(*SessionChange)(unsafe.Pointer(pNew)).Fop = U8(SQLITE_INSERT)
if bPatchset == 0 {
sessionSkipRecord(tls, bp, (*SessionTable)(unsafe.Pointer(pTab)).FnCol)
}
sessionMergeRecord(tls, bp+8, (*SessionTable)(unsafe.Pointer(pTab)).FnCol, aExist, *(*uintptr)(unsafe.Pointer(bp)))
} else if op1 == SQLITE_DELETE {
(*SessionChange)(unsafe.Pointer(pNew)).Fop = U8(SQLITE_UPDATE)
if bPatchset != 0 {
libc.X__builtin___memcpy_chk(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), aRec, uint64(nRec), libc.X__builtin_object_size(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 0))
*(*uintptr)(unsafe.Pointer(bp + 8)) += uintptr(nRec)
} else {
if 0 == sessionMergeUpdate(tls, bp+8, pTab, bPatchset, aExist, uintptr(0), aRec, uintptr(0)) {
Xsqlite3_free(tls, pNew)
pNew = uintptr(0)
}
}
} else if op2 == SQLITE_UPDATE {
*(*uintptr)(unsafe.Pointer(bp + 16)) = aExist
*(*uintptr)(unsafe.Pointer(bp + 24)) = aRec
if bPatchset == 0 {
sessionSkipRecord(tls, bp+16, (*SessionTable)(unsafe.Pointer(pTab)).FnCol)
sessionSkipRecord(tls, bp+24, (*SessionTable)(unsafe.Pointer(pTab)).FnCol)
}
(*SessionChange)(unsafe.Pointer(pNew)).Fop = U8(SQLITE_UPDATE)
if 0 == sessionMergeUpdate(tls, bp+8, pTab, bPatchset, aRec, aExist, *(*uintptr)(unsafe.Pointer(bp + 16)), *(*uintptr)(unsafe.Pointer(bp + 24))) {
Xsqlite3_free(tls, pNew)
pNew = uintptr(0)
}
} else {
(*SessionChange)(unsafe.Pointer(pNew)).Fop = U8(SQLITE_DELETE)
if bPatchset != 0 {
libc.X__builtin___memcpy_chk(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), aRec, uint64(nRec), libc.X__builtin_object_size(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), 0))
*(*uintptr)(unsafe.Pointer(bp + 8)) += uintptr(nRec)
} else {
sessionMergeRecord(tls, bp+8, (*SessionTable)(unsafe.Pointer(pTab)).FnCol, aRec, aExist)
}
}
if pNew != 0 {
(*SessionChange)(unsafe.Pointer(pNew)).FnRecord = int32((int64(*(*uintptr)(unsafe.Pointer(bp + 8))) - int64((*SessionChange)(unsafe.Pointer(pNew)).FaRecord)) / 1)
}
Xsqlite3_free(tls, pExist)
}
}
*(*uintptr)(unsafe.Pointer(ppNew)) = pNew
return rc
}
func sessionChangesetToHash(tls *libc.TLS, pIter uintptr, pGrp uintptr, bRebase int32) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
var rc int32 = SQLITE_OK
var pTab uintptr = uintptr(0)
for SQLITE_ROW == sessionChangesetNext(tls, pIter, bp, bp+8, uintptr(0)) {
var iHash int32
var pExist uintptr = uintptr(0)
var pp uintptr
if (*Sqlite3_changegroup)(unsafe.Pointer(pGrp)).FpList == uintptr(0) {
(*Sqlite3_changegroup)(unsafe.Pointer(pGrp)).FbPatch = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbPatchset
} else if (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbPatchset != (*Sqlite3_changegroup)(unsafe.Pointer(pGrp)).FbPatch {
rc = SQLITE_ERROR
break
}
Xsqlite3changeset_op(tls, pIter, bp+16, bp+24, bp+28, bp+32)
if !(pTab != 0) || Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), (*SessionTable)(unsafe.Pointer(pTab)).FzName) != 0 {
var nNew int32 = int32(libc.Xstrlen(tls, *(*uintptr)(unsafe.Pointer(bp + 16))))
Xsqlite3changeset_pk(tls, pIter, bp+40, uintptr(0))
for pTab = (*Sqlite3_changegroup)(unsafe.Pointer(pGrp)).FpList; pTab != 0; pTab = (*SessionTable)(unsafe.Pointer(pTab)).FpNext {
if 0 == Xsqlite3_strnicmp(tls, (*SessionTable)(unsafe.Pointer(pTab)).FzName, *(*uintptr)(unsafe.Pointer(bp + 16)), nNew+1) {
break
}
}
if !(pTab != 0) {
var ppTab uintptr
pTab = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(SessionTable{}))+uint64(*(*int32)(unsafe.Pointer(bp + 24)))+uint64(nNew)+uint64(1))
if !(pTab != 0) {
rc = SQLITE_NOMEM
break
}
libc.X__builtin___memset_chk(tls, pTab, 0, uint64(unsafe.Sizeof(SessionTable{})), libc.X__builtin_object_size(tls, pTab, 0))
(*SessionTable)(unsafe.Pointer(pTab)).FnCol = *(*int32)(unsafe.Pointer(bp + 24))
(*SessionTable)(unsafe.Pointer(pTab)).FabPK = pTab + 1*56
libc.X__builtin___memcpy_chk(tls, (*SessionTable)(unsafe.Pointer(pTab)).FabPK, *(*uintptr)(unsafe.Pointer(bp + 40)), uint64(*(*int32)(unsafe.Pointer(bp + 24))), libc.X__builtin_object_size(tls, (*SessionTable)(unsafe.Pointer(pTab)).FabPK, 0))
(*SessionTable)(unsafe.Pointer(pTab)).FzName = (*SessionTable)(unsafe.Pointer(pTab)).FabPK + uintptr(*(*int32)(unsafe.Pointer(bp + 24)))
libc.X__builtin___memcpy_chk(tls, (*SessionTable)(unsafe.Pointer(pTab)).FzName, *(*uintptr)(unsafe.Pointer(bp + 16)), uint64(nNew+1), libc.X__builtin_object_size(tls, (*SessionTable)(unsafe.Pointer(pTab)).FzName, 0))
for ppTab = pGrp + 8; *(*uintptr)(unsafe.Pointer(ppTab)) != 0; ppTab = *(*uintptr)(unsafe.Pointer(ppTab)) {
}
*(*uintptr)(unsafe.Pointer(ppTab)) = pTab
} else if (*SessionTable)(unsafe.Pointer(pTab)).FnCol != *(*int32)(unsafe.Pointer(bp + 24)) || libc.Xmemcmp(tls, (*SessionTable)(unsafe.Pointer(pTab)).FabPK, *(*uintptr)(unsafe.Pointer(bp + 40)), uint64(*(*int32)(unsafe.Pointer(bp + 24)))) != 0 {
rc = SQLITE_SCHEMA
break
}
}
if sessionGrowHash(tls, uintptr(0), (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbPatchset, pTab) != 0 {
rc = SQLITE_NOMEM
break
}
iHash = int32(sessionChangeHash(tls,
pTab, libc.Bool32((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbPatchset != 0 && *(*int32)(unsafe.Pointer(bp + 28)) == SQLITE_DELETE), *(*uintptr)(unsafe.Pointer(bp)), (*SessionTable)(unsafe.Pointer(pTab)).FnChange))
for pp = (*SessionTable)(unsafe.Pointer(pTab)).FapChange + uintptr(iHash)*8; *(*uintptr)(unsafe.Pointer(pp)) != 0; pp = *(*uintptr)(unsafe.Pointer(pp)) + 24 {
var bPkOnly1 int32 = 0
var bPkOnly2 int32 = 0
if (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbPatchset != 0 {
bPkOnly1 = libc.Bool32(int32((*SessionChange)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).Fop) == SQLITE_DELETE)
bPkOnly2 = libc.Bool32(*(*int32)(unsafe.Pointer(bp + 28)) == SQLITE_DELETE)
}
if sessionChangeEqual(tls, pTab, bPkOnly1, (*SessionChange)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).FaRecord, bPkOnly2, *(*uintptr)(unsafe.Pointer(bp))) != 0 {
pExist = *(*uintptr)(unsafe.Pointer(pp))
*(*uintptr)(unsafe.Pointer(pp)) = (*SessionChange)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).FpNext
(*SessionTable)(unsafe.Pointer(pTab)).FnEntry--
break
}
}
rc = sessionChangeMerge(tls, pTab, bRebase,
(*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbPatchset, pExist, *(*int32)(unsafe.Pointer(bp + 28)), *(*int32)(unsafe.Pointer(bp + 32)), *(*uintptr)(unsafe.Pointer(bp)), *(*int32)(unsafe.Pointer(bp + 8)), bp+48)
if rc != 0 {
break
}
if *(*uintptr)(unsafe.Pointer(bp + 48)) != 0 {
(*SessionChange)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 48)))).FpNext = *(*uintptr)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FapChange + uintptr(iHash)*8))
*(*uintptr)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FapChange + uintptr(iHash)*8)) = *(*uintptr)(unsafe.Pointer(bp + 48))
(*SessionTable)(unsafe.Pointer(pTab)).FnEntry++
}
}
if rc == SQLITE_OK {
rc = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).Frc
}
return rc
}
func sessionChangegroupOutput(tls *libc.TLS, pGrp uintptr, xOutput uintptr, pOut uintptr, pnOut uintptr, ppOut uintptr) int32 {
bp := tls.Alloc(20)
defer tls.Free(20)
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_OK
*(*SessionBuffer)(unsafe.Pointer(bp)) = SessionBuffer{}
var pTab uintptr
for pTab = (*Sqlite3_changegroup)(unsafe.Pointer(pGrp)).FpList; *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK && pTab != 0; pTab = (*SessionTable)(unsafe.Pointer(pTab)).FpNext {
var i int32
if (*SessionTable)(unsafe.Pointer(pTab)).FnEntry == 0 {
continue
}
sessionAppendTableHdr(tls, bp, (*Sqlite3_changegroup)(unsafe.Pointer(pGrp)).FbPatch, pTab, bp+16)
for i = 0; i < (*SessionTable)(unsafe.Pointer(pTab)).FnChange; i++ {
var p uintptr
for p = *(*uintptr)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FapChange + uintptr(i)*8)); p != 0; p = (*SessionChange)(unsafe.Pointer(p)).FpNext {
sessionAppendByte(tls, bp, (*SessionChange)(unsafe.Pointer(p)).Fop, bp+16)
sessionAppendByte(tls, bp, (*SessionChange)(unsafe.Pointer(p)).FbIndirect, bp+16)
sessionAppendBlob(tls, bp, (*SessionChange)(unsafe.Pointer(p)).FaRecord, (*SessionChange)(unsafe.Pointer(p)).FnRecord, bp+16)
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK && xOutput != 0 && (*SessionBuffer)(unsafe.Pointer(bp)).FnBuf >= sessions_strm_chunk_size {
*(*int32)(unsafe.Pointer(bp + 16)) = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{xOutput})).f(tls, pOut, (*SessionBuffer)(unsafe.Pointer(bp)).FaBuf, (*SessionBuffer)(unsafe.Pointer(bp)).FnBuf)
(*SessionBuffer)(unsafe.Pointer(bp)).FnBuf = 0
}
}
}
}
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
if xOutput != 0 {
if (*SessionBuffer)(unsafe.Pointer(bp)).FnBuf > 0 {
*(*int32)(unsafe.Pointer(bp + 16)) = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{xOutput})).f(tls, pOut, (*SessionBuffer)(unsafe.Pointer(bp)).FaBuf, (*SessionBuffer)(unsafe.Pointer(bp)).FnBuf)
}
} else if ppOut != 0 {
*(*uintptr)(unsafe.Pointer(ppOut)) = (*SessionBuffer)(unsafe.Pointer(bp)).FaBuf
if pnOut != 0 {
*(*int32)(unsafe.Pointer(pnOut)) = (*SessionBuffer)(unsafe.Pointer(bp)).FnBuf
}
(*SessionBuffer)(unsafe.Pointer(bp)).FaBuf = uintptr(0)
}
}
Xsqlite3_free(tls, (*SessionBuffer)(unsafe.Pointer(bp)).FaBuf)
return *(*int32)(unsafe.Pointer(bp + 16))
}
// Allocate a new, empty, sqlite3_changegroup.
func Xsqlite3changegroup_new(tls *libc.TLS, pp uintptr) int32 {
var rc int32 = SQLITE_OK
var p uintptr
p = Xsqlite3_malloc(tls, int32(unsafe.Sizeof(Sqlite3_changegroup{})))
if p == uintptr(0) {
rc = SQLITE_NOMEM
} else {
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(Sqlite3_changegroup{})), libc.X__builtin_object_size(tls, p, 0))
}
*(*uintptr)(unsafe.Pointer(pp)) = p
return rc
}
// Add the changeset currently stored in buffer pData, size nData bytes,
// to changeset-group p.
func Xsqlite3changegroup_add(tls *libc.TLS, pGrp uintptr, nData int32, pData uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
rc = Xsqlite3changeset_start(tls, bp, nData, pData)
if rc == SQLITE_OK {
rc = sessionChangesetToHash(tls, *(*uintptr)(unsafe.Pointer(bp)), pGrp, 0)
}
Xsqlite3changeset_finalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
return rc
}
// Obtain a buffer containing a changeset representing the concatenation
// of all changesets added to the group so far.
func Xsqlite3changegroup_output(tls *libc.TLS, pGrp uintptr, pnData uintptr, ppData uintptr) int32 {
return sessionChangegroupOutput(tls, pGrp, uintptr(0), uintptr(0), pnData, ppData)
}
// Streaming versions of changegroup_add().
func Xsqlite3changegroup_add_strm(tls *libc.TLS, pGrp uintptr, xInput uintptr, pIn uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
rc = Xsqlite3changeset_start_strm(tls, bp, xInput, pIn)
if rc == SQLITE_OK {
rc = sessionChangesetToHash(tls, *(*uintptr)(unsafe.Pointer(bp)), pGrp, 0)
}
Xsqlite3changeset_finalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
return rc
}
// Streaming versions of changegroup_output().
func Xsqlite3changegroup_output_strm(tls *libc.TLS, pGrp uintptr, xOutput uintptr, pOut uintptr) int32 {
return sessionChangegroupOutput(tls, pGrp, xOutput, pOut, uintptr(0), uintptr(0))
}
// Delete a changegroup object.
func Xsqlite3changegroup_delete(tls *libc.TLS, pGrp uintptr) {
if pGrp != 0 {
sessionDeleteTable(tls, uintptr(0), (*Sqlite3_changegroup)(unsafe.Pointer(pGrp)).FpList)
Xsqlite3_free(tls, pGrp)
}
}
// Combine two changesets together.
func Xsqlite3changeset_concat(tls *libc.TLS, nLeft int32, pLeft uintptr, nRight int32, pRight uintptr, pnOut uintptr, ppOut uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
rc = Xsqlite3changegroup_new(tls, bp)
if rc == SQLITE_OK {
rc = Xsqlite3changegroup_add(tls, *(*uintptr)(unsafe.Pointer(bp)), nLeft, pLeft)
}
if rc == SQLITE_OK {
rc = Xsqlite3changegroup_add(tls, *(*uintptr)(unsafe.Pointer(bp)), nRight, pRight)
}
if rc == SQLITE_OK {
rc = Xsqlite3changegroup_output(tls, *(*uintptr)(unsafe.Pointer(bp)), pnOut, ppOut)
}
Xsqlite3changegroup_delete(tls, *(*uintptr)(unsafe.Pointer(bp)))
return rc
}
// Streaming version of sqlite3changeset_concat().
func Xsqlite3changeset_concat_strm(tls *libc.TLS, xInputA uintptr, pInA uintptr, xInputB uintptr, pInB uintptr, xOutput uintptr, pOut uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32
rc = Xsqlite3changegroup_new(tls, bp)
if rc == SQLITE_OK {
rc = Xsqlite3changegroup_add_strm(tls, *(*uintptr)(unsafe.Pointer(bp)), xInputA, pInA)
}
if rc == SQLITE_OK {
rc = Xsqlite3changegroup_add_strm(tls, *(*uintptr)(unsafe.Pointer(bp)), xInputB, pInB)
}
if rc == SQLITE_OK {
rc = Xsqlite3changegroup_output_strm(tls, *(*uintptr)(unsafe.Pointer(bp)), xOutput, pOut)
}
Xsqlite3changegroup_delete(tls, *(*uintptr)(unsafe.Pointer(bp)))
return rc
}
func sessionAppendRecordMerge(tls *libc.TLS, pBuf uintptr, nCol int32, a1 uintptr, n1 int32, a2 uintptr, n2 int32, pRc uintptr) {
sessionBufferGrow(tls, pBuf, int64(n1+n2), pRc)
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK {
var i int32
var pOut uintptr = (*SessionBuffer)(unsafe.Pointer(pBuf)).FaBuf + uintptr((*SessionBuffer)(unsafe.Pointer(pBuf)).FnBuf)
for i = 0; i < nCol; i++ {
var nn1 int32 = sessionSerialLen(tls, a1)
var nn2 int32 = sessionSerialLen(tls, a2)
if int32(*(*U8)(unsafe.Pointer(a1))) == 0 || int32(*(*U8)(unsafe.Pointer(a1))) == 0xFF {
libc.X__builtin___memcpy_chk(tls, pOut, a2, uint64(nn2), libc.X__builtin_object_size(tls, pOut, 0))
pOut += uintptr(nn2)
} else {
libc.X__builtin___memcpy_chk(tls, pOut, a1, uint64(nn1), libc.X__builtin_object_size(tls, pOut, 0))
pOut += uintptr(nn1)
}
a1 += uintptr(nn1)
a2 += uintptr(nn2)
}
(*SessionBuffer)(unsafe.Pointer(pBuf)).FnBuf = int32((int64(pOut) - int64((*SessionBuffer)(unsafe.Pointer(pBuf)).FaBuf)) / 1)
}
}
func sessionAppendPartialUpdate(tls *libc.TLS, pBuf uintptr, pIter uintptr, aRec uintptr, nRec int32, aChange uintptr, nChange int32, pRc uintptr) {
sessionBufferGrow(tls, pBuf, int64(2+nRec+nChange), pRc)
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK {
var bData int32 = 0
var pOut uintptr = (*SessionBuffer)(unsafe.Pointer(pBuf)).FaBuf + uintptr((*SessionBuffer)(unsafe.Pointer(pBuf)).FnBuf)
var i int32
var a1 uintptr = aRec
var a2 uintptr = aChange
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pOut, 1))) = U8(SQLITE_UPDATE)
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pOut, 1))) = U8((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbIndirect)
for i = 0; i < (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol; i++ {
var n1 int32 = sessionSerialLen(tls, a1)
var n2 int32 = sessionSerialLen(tls, a2)
if *(*U8)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FabPK + uintptr(i))) != 0 || int32(*(*U8)(unsafe.Pointer(a2))) == 0 {
if !(int32(*(*U8)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FabPK + uintptr(i)))) != 0) && *(*U8)(unsafe.Pointer(a1)) != 0 {
bData = 1
}
libc.X__builtin___memcpy_chk(tls, pOut, a1, uint64(n1), libc.X__builtin_object_size(tls, pOut, 0))
pOut += uintptr(n1)
} else if int32(*(*U8)(unsafe.Pointer(a2))) != 0xFF && *(*U8)(unsafe.Pointer(a1)) != 0 {
bData = 1
libc.X__builtin___memcpy_chk(tls, pOut, a2, uint64(n2), libc.X__builtin_object_size(tls, pOut, 0))
pOut += uintptr(n2)
} else {
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pOut, 1))) = U8(0)
}
a1 += uintptr(n1)
a2 += uintptr(n2)
}
if bData != 0 {
a2 = aChange
for i = 0; i < (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol; i++ {
var n1 int32 = sessionSerialLen(tls, a1)
var n2 int32 = sessionSerialLen(tls, a2)
if *(*U8)(unsafe.Pointer((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FabPK + uintptr(i))) != 0 || int32(*(*U8)(unsafe.Pointer(a2))) != 0xFF {
libc.X__builtin___memcpy_chk(tls, pOut, a1, uint64(n1), libc.X__builtin_object_size(tls, pOut, 0))
pOut += uintptr(n1)
} else {
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&pOut, 1))) = U8(0)
}
a1 += uintptr(n1)
a2 += uintptr(n2)
}
(*SessionBuffer)(unsafe.Pointer(pBuf)).FnBuf = int32((int64(pOut) - int64((*SessionBuffer)(unsafe.Pointer(pBuf)).FaBuf)) / 1)
}
}
}
func sessionRebase(tls *libc.TLS, p uintptr, pIter uintptr, xOutput uintptr, pOut uintptr, pnOut uintptr, ppOut uintptr) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
*(*int32)(unsafe.Pointer(bp + 32)) = SQLITE_OK
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 8)) = 0
*(*int32)(unsafe.Pointer(bp + 12)) = 0
var pTab uintptr = uintptr(0)
*(*SessionBuffer)(unsafe.Pointer(bp + 16)) = SessionBuffer{}
for SQLITE_ROW == sessionChangesetNext(tls, pIter, bp, bp+8, bp+12) {
var pChange uintptr = uintptr(0)
var bDone int32 = 0
if *(*int32)(unsafe.Pointer(bp + 12)) != 0 {
var zTab uintptr = (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FzTab
for pTab = (*Sqlite3_rebaser)(unsafe.Pointer(p)).Fgrp.FpList; pTab != 0; pTab = (*SessionTable)(unsafe.Pointer(pTab)).FpNext {
if 0 == Xsqlite3_stricmp(tls, (*SessionTable)(unsafe.Pointer(pTab)).FzName, zTab) {
break
}
}
*(*int32)(unsafe.Pointer(bp + 12)) = 0
if (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbPatchset != 0 {
*(*int32)(unsafe.Pointer(bp + 32)) = SQLITE_ERROR
}
sessionAppendByte(tls, bp+16, func() uint8 {
if (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbPatchset != 0 {
return uint8('P')
}
return uint8('T')
}(), bp+32)
sessionAppendVarint(tls, bp+16, (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol, bp+32)
sessionAppendBlob(tls, bp+16, (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FabPK, (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol, bp+32)
sessionAppendBlob(tls, bp+16, (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FzTab, int32(libc.Xstrlen(tls, (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FzTab))+1, bp+32)
}
if pTab != 0 && *(*int32)(unsafe.Pointer(bp + 32)) == SQLITE_OK {
var iHash int32 = int32(sessionChangeHash(tls, pTab, 0, *(*uintptr)(unsafe.Pointer(bp)), (*SessionTable)(unsafe.Pointer(pTab)).FnChange))
for pChange = *(*uintptr)(unsafe.Pointer((*SessionTable)(unsafe.Pointer(pTab)).FapChange + uintptr(iHash)*8)); pChange != 0; pChange = (*SessionChange)(unsafe.Pointer(pChange)).FpNext {
if sessionChangeEqual(tls, pTab, 0, *(*uintptr)(unsafe.Pointer(bp)), 0, (*SessionChange)(unsafe.Pointer(pChange)).FaRecord) != 0 {
break
}
}
}
if pChange != 0 {
switch (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).Fop {
case SQLITE_INSERT:
if int32((*SessionChange)(unsafe.Pointer(pChange)).Fop) == SQLITE_INSERT {
bDone = 1
if int32((*SessionChange)(unsafe.Pointer(pChange)).FbIndirect) == 0 {
sessionAppendByte(tls, bp+16, uint8(SQLITE_UPDATE), bp+32)
sessionAppendByte(tls, bp+16, uint8((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbIndirect), bp+32)
sessionAppendBlob(tls, bp+16, (*SessionChange)(unsafe.Pointer(pChange)).FaRecord, (*SessionChange)(unsafe.Pointer(pChange)).FnRecord, bp+32)
sessionAppendBlob(tls, bp+16, *(*uintptr)(unsafe.Pointer(bp)), *(*int32)(unsafe.Pointer(bp + 8)), bp+32)
}
}
break
fallthrough
case SQLITE_UPDATE:
bDone = 1
if int32((*SessionChange)(unsafe.Pointer(pChange)).Fop) == SQLITE_DELETE {
if int32((*SessionChange)(unsafe.Pointer(pChange)).FbIndirect) == 0 {
*(*uintptr)(unsafe.Pointer(bp + 40)) = *(*uintptr)(unsafe.Pointer(bp))
sessionSkipRecord(tls, bp+40, (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol)
sessionAppendByte(tls, bp+16, uint8(SQLITE_INSERT), bp+32)
sessionAppendByte(tls, bp+16, uint8((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbIndirect), bp+32)
sessionAppendRecordMerge(tls, bp+16, (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol,
*(*uintptr)(unsafe.Pointer(bp + 40)), int32(int64(*(*int32)(unsafe.Pointer(bp + 8)))-(int64(*(*uintptr)(unsafe.Pointer(bp + 40)))-int64(*(*uintptr)(unsafe.Pointer(bp))))/1),
(*SessionChange)(unsafe.Pointer(pChange)).FaRecord, (*SessionChange)(unsafe.Pointer(pChange)).FnRecord, bp+32)
}
} else {
sessionAppendPartialUpdate(tls, bp+16, pIter,
*(*uintptr)(unsafe.Pointer(bp)), *(*int32)(unsafe.Pointer(bp + 8)), (*SessionChange)(unsafe.Pointer(pChange)).FaRecord, (*SessionChange)(unsafe.Pointer(pChange)).FnRecord, bp+32)
}
break
fallthrough
default:
bDone = 1
if int32((*SessionChange)(unsafe.Pointer(pChange)).Fop) == SQLITE_INSERT {
sessionAppendByte(tls, bp+16, uint8(SQLITE_DELETE), bp+32)
sessionAppendByte(tls, bp+16, uint8((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbIndirect), bp+32)
sessionAppendRecordMerge(tls, bp+16, (*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FnCol,
(*SessionChange)(unsafe.Pointer(pChange)).FaRecord, (*SessionChange)(unsafe.Pointer(pChange)).FnRecord, *(*uintptr)(unsafe.Pointer(bp)), *(*int32)(unsafe.Pointer(bp + 8)), bp+32)
}
break
}
}
if bDone == 0 {
sessionAppendByte(tls, bp+16, uint8((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).Fop), bp+32)
sessionAppendByte(tls, bp+16, uint8((*Sqlite3_changeset_iter)(unsafe.Pointer(pIter)).FbIndirect), bp+32)
sessionAppendBlob(tls, bp+16, *(*uintptr)(unsafe.Pointer(bp)), *(*int32)(unsafe.Pointer(bp + 8)), bp+32)
}
if *(*int32)(unsafe.Pointer(bp + 32)) == SQLITE_OK && xOutput != 0 && (*SessionBuffer)(unsafe.Pointer(bp+16)).FnBuf > sessions_strm_chunk_size {
*(*int32)(unsafe.Pointer(bp + 32)) = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{xOutput})).f(tls, pOut, (*SessionBuffer)(unsafe.Pointer(bp+16)).FaBuf, (*SessionBuffer)(unsafe.Pointer(bp+16)).FnBuf)
(*SessionBuffer)(unsafe.Pointer(bp + 16)).FnBuf = 0
}
if *(*int32)(unsafe.Pointer(bp + 32)) != 0 {
break
}
}
if *(*int32)(unsafe.Pointer(bp + 32)) != SQLITE_OK {
Xsqlite3_free(tls, (*SessionBuffer)(unsafe.Pointer(bp+16)).FaBuf)
libc.X__builtin___memset_chk(tls, bp+16, 0, uint64(unsafe.Sizeof(SessionBuffer{})), libc.X__builtin_object_size(tls, bp+16, 0))
}
if *(*int32)(unsafe.Pointer(bp + 32)) == SQLITE_OK {
if xOutput != 0 {
if (*SessionBuffer)(unsafe.Pointer(bp+16)).FnBuf > 0 {
*(*int32)(unsafe.Pointer(bp + 32)) = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{xOutput})).f(tls, pOut, (*SessionBuffer)(unsafe.Pointer(bp+16)).FaBuf, (*SessionBuffer)(unsafe.Pointer(bp+16)).FnBuf)
}
} else if ppOut != 0 {
*(*uintptr)(unsafe.Pointer(ppOut)) = (*SessionBuffer)(unsafe.Pointer(bp + 16)).FaBuf
*(*int32)(unsafe.Pointer(pnOut)) = (*SessionBuffer)(unsafe.Pointer(bp + 16)).FnBuf
(*SessionBuffer)(unsafe.Pointer(bp + 16)).FaBuf = uintptr(0)
}
}
Xsqlite3_free(tls, (*SessionBuffer)(unsafe.Pointer(bp+16)).FaBuf)
return *(*int32)(unsafe.Pointer(bp + 32))
}
// Create a new rebaser object.
func Xsqlite3rebaser_create(tls *libc.TLS, ppNew uintptr) int32 {
var rc int32 = SQLITE_OK
var pNew uintptr
pNew = Xsqlite3_malloc(tls, int32(unsafe.Sizeof(Sqlite3_rebaser{})))
if pNew == uintptr(0) {
rc = SQLITE_NOMEM
} else {
libc.X__builtin___memset_chk(tls, pNew, 0, uint64(unsafe.Sizeof(Sqlite3_rebaser{})), libc.X__builtin_object_size(tls, pNew, 0))
}
*(*uintptr)(unsafe.Pointer(ppNew)) = pNew
return rc
}
// Call this one or more times to configure a rebaser.
func Xsqlite3rebaser_configure(tls *libc.TLS, p uintptr, nRebase int32, pRebase uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var rc int32
rc = Xsqlite3changeset_start(tls, bp, nRebase, pRebase)
if rc == SQLITE_OK {
rc = sessionChangesetToHash(tls, *(*uintptr)(unsafe.Pointer(bp)), p, 1)
}
Xsqlite3changeset_finalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
return rc
}
// Rebase a changeset according to current rebaser configuration
func Xsqlite3rebaser_rebase(tls *libc.TLS, p uintptr, nIn int32, pIn uintptr, pnOut uintptr, ppOut uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var rc int32 = Xsqlite3changeset_start(tls, bp, nIn, pIn)
if rc == SQLITE_OK {
rc = sessionRebase(tls, p, *(*uintptr)(unsafe.Pointer(bp)), uintptr(0), uintptr(0), pnOut, ppOut)
Xsqlite3changeset_finalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
return rc
}
// Rebase a changeset according to current rebaser configuration
func Xsqlite3rebaser_rebase_strm(tls *libc.TLS, p uintptr, xInput uintptr, pIn uintptr, xOutput uintptr, pOut uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var rc int32 = Xsqlite3changeset_start_strm(tls, bp, xInput, pIn)
if rc == SQLITE_OK {
rc = sessionRebase(tls, p, *(*uintptr)(unsafe.Pointer(bp)), xOutput, pOut, uintptr(0), uintptr(0))
Xsqlite3changeset_finalize(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
return rc
}
// Destroy a rebaser object
func Xsqlite3rebaser_delete(tls *libc.TLS, p uintptr) {
if p != 0 {
sessionDeleteTable(tls, uintptr(0), (*Sqlite3_rebaser)(unsafe.Pointer(p)).Fgrp.FpList)
Xsqlite3_free(tls, p)
}
}
// Global configuration
func Xsqlite3session_config(tls *libc.TLS, op int32, pArg uintptr) int32 {
var rc int32 = SQLITE_OK
switch op {
case SQLITE_SESSION_CONFIG_STRMSIZE:
{
var pInt uintptr = pArg
if *(*int32)(unsafe.Pointer(pInt)) > 0 {
sessions_strm_chunk_size = *(*int32)(unsafe.Pointer(pInt))
}
*(*int32)(unsafe.Pointer(pInt)) = sessions_strm_chunk_size
break
}
default:
rc = SQLITE_MISUSE
break
}
return rc
}
type Fts5Global1 = struct {
Fapi Fts5_api
Fdb uintptr
FiNextId I64
FpAux uintptr
FpTok uintptr
FpDfltTok uintptr
FpCsr uintptr
}
type Fts5Global = Fts5Global1
type Fts5Colset1 = struct {
FnCol int32
FaiCol [1]int32
}
type Fts5Colset = Fts5Colset1
type Fts5Config1 = struct {
Fdb uintptr
FzDb uintptr
FzName uintptr
FnCol int32
F__ccgo_pad1 [4]byte
FazCol uintptr
FabUnindexed uintptr
FnPrefix int32
F__ccgo_pad2 [4]byte
FaPrefix uintptr
FeContent int32
F__ccgo_pad3 [4]byte
FzContent uintptr
FzContentRowid uintptr
FbColumnsize int32
FeDetail int32
FzContentExprlist uintptr
FpTok uintptr
FpTokApi uintptr
FbLock int32
FePattern int32
FiCookie int32
Fpgsz int32
FnAutomerge int32
FnCrisisMerge int32
FnUsermerge int32
FnHashSize int32
FzRank uintptr
FzRankArgs uintptr
FpzErrmsg uintptr
}
type Fts5Config = Fts5Config1
// Buffer object for the incremental building of string data.
type Fts5Buffer1 = struct {
Fp uintptr
Fn int32
FnSpace int32
}
// Buffer object for the incremental building of string data.
type Fts5Buffer = Fts5Buffer1
type Fts5PoslistReader1 = struct {
Fa uintptr
Fn int32
Fi int32
FbFlag U8
FbEof U8
F__ccgo_pad1 [6]byte
FiPos I64
}
type Fts5PoslistReader = Fts5PoslistReader1
type Fts5PoslistWriter1 = struct{ FiPrev I64 }
type Fts5PoslistWriter = Fts5PoslistWriter1
// Bucket of terms object used by the integrity-check in offsets=0 mode.
type Fts5Termset1 = struct{ FapHash [512]uintptr }
// Bucket of terms object used by the integrity-check in offsets=0 mode.
type Fts5Termset = Fts5Termset1
type Fts5Index1 = struct {
FpConfig uintptr
FzDataTbl uintptr
FnWorkUnit int32
F__ccgo_pad1 [4]byte
FpHash uintptr
FnPendingData int32
F__ccgo_pad2 [4]byte
FiWriteRowid I64
FbDelete int32
Frc int32
FpReader uintptr
FpWriter uintptr
FpDeleter uintptr
FpIdxWriter uintptr
FpIdxDeleter uintptr
FpIdxSelect uintptr
FnRead int32
F__ccgo_pad3 [4]byte
FpDataVersion uintptr
FiStructVersion I64
FpStruct uintptr
}
type Fts5Index = Fts5Index1
type Fts5IndexIter1 = struct {
FiRowid I64
FpData uintptr
FnData int32
FbEof U8
F__ccgo_pad1 [3]byte
}
type Fts5IndexIter = Fts5IndexIter1
// Virtual-table object.
type Fts5Table1 = struct {
Fbase Sqlite3_vtab
FpConfig uintptr
FpIndex uintptr
}
// Virtual-table object.
type Fts5Table = Fts5Table1
// *************************************************************************
//
// Interface to code in fts5_hash.c.
type Fts5Hash1 = struct {
FeDetail int32
F__ccgo_pad1 [4]byte
FpnByte uintptr
FnEntry int32
FnSlot int32
FpScan uintptr
FaSlot uintptr
}
// *************************************************************************
//
// Interface to code in fts5_hash.c.
type Fts5Hash = Fts5Hash1
type Fts5Storage1 = struct {
FpConfig uintptr
FpIndex uintptr
FbTotalsValid int32
F__ccgo_pad1 [4]byte
FnTotalRow I64
FaTotalSize uintptr
FaStmt [11]uintptr
}
type Fts5Storage = Fts5Storage1
// *************************************************************************
//
// Interface to code in fts5_expr.c.
type Fts5Expr1 = struct {
FpIndex uintptr
FpConfig uintptr
FpRoot uintptr
FbDesc int32
FnPhrase int32
FapExprPhrase uintptr
}
// *************************************************************************
//
// Interface to code in fts5_expr.c.
type Fts5Expr = Fts5Expr1
type Fts5ExprNode1 = struct {
FeType int32
FbEof int32
FbNomatch int32
F__ccgo_pad1 [4]byte
FxNext uintptr
FiRowid I64
FpNear uintptr
FnChild int32
F__ccgo_pad2 [4]byte
FapChild [1]uintptr
}
type Fts5ExprNode = Fts5ExprNode1
type Fts5Parse1 = struct {
FpConfig uintptr
FzErr uintptr
Frc int32
FnPhrase int32
FapPhrase uintptr
FpExpr uintptr
FbPhraseToAnd int32
F__ccgo_pad1 [4]byte
}
type Fts5Parse = Fts5Parse1
type Fts5Token1 = struct {
Fp uintptr
Fn int32
F__ccgo_pad1 [4]byte
}
type Fts5Token = Fts5Token1
type Fts5ExprPhrase1 = struct {
FpNode uintptr
Fposlist Fts5Buffer
FnTerm int32
F__ccgo_pad1 [4]byte
FaTerm [1]Fts5ExprTerm
}
type Fts5ExprPhrase = Fts5ExprPhrase1
type Fts5ExprNearset1 = struct {
FnNear int32
F__ccgo_pad1 [4]byte
FpColset uintptr
FnPhrase int32
F__ccgo_pad2 [4]byte
FapPhrase [1]uintptr
}
type Fts5ExprNearset = Fts5ExprNearset1
type Fts5PoslistPopulator1 = struct {
Fwriter Fts5PoslistWriter
FbOk int32
FbMiss int32
}
type Fts5PoslistPopulator = Fts5PoslistPopulator1
// The next sections is a series of control #defines.
// various aspects of the generated parser.
//
// fts5YYCODETYPE is the data type used to store the integer codes
// that represent terminal and non-terminal symbols.
// "unsigned char" is used if there are fewer than
// 256 symbols. Larger types otherwise.
// fts5YYNOCODE is a number of type fts5YYCODETYPE that is not used for
// any terminal or nonterminal symbol.
// fts5YYFALLBACK If defined, this indicates that one or more tokens
// (also known as: "terminal symbols") have fall-back
// values which should be used if the original symbol
// would not parse. This permits keywords to sometimes
// be used as identifiers, for example.
// fts5YYACTIONTYPE is the data type used for "action codes" - numbers
// that indicate what to do in response to the next
// token.
// sqlite3Fts5ParserFTS5TOKENTYPE is the data type used for minor type for terminal
// symbols. Background: A "minor type" is a semantic
// value associated with a terminal or non-terminal
// symbols. For example, for an "ID" terminal symbol,
// the minor type might be the name of the identifier.
// Each non-terminal can have a different minor type.
// Terminal symbols all have the same minor type, though.
// This macros defines the minor type for terminal
// symbols.
// fts5YYMINORTYPE is the data type used for all minor types.
// This is typically a union of many types, one of
// which is sqlite3Fts5ParserFTS5TOKENTYPE. The entry in the union
// for terminal symbols is called "fts5yy0".
// fts5YYSTACKDEPTH is the maximum depth of the parser's stack. If
// zero the stack is dynamically sized using realloc()
// sqlite3Fts5ParserARG_SDECL A static variable declaration for the %extra_argument
// sqlite3Fts5ParserARG_PDECL A parameter declaration for the %extra_argument
// sqlite3Fts5ParserARG_PARAM Code to pass %extra_argument as a subroutine parameter
// sqlite3Fts5ParserARG_STORE Code to store %extra_argument into fts5yypParser
// sqlite3Fts5ParserARG_FETCH Code to extract %extra_argument from fts5yypParser
// sqlite3Fts5ParserCTX_* As sqlite3Fts5ParserARG_ except for %extra_context
// fts5YYERRORSYMBOL is the code number of the error symbol. If not
// defined, then do no error processing.
// fts5YYNSTATE the combined number of states.
// fts5YYNRULE the number of rules in the grammar
// fts5YYNFTS5TOKEN Number of terminal symbols
// fts5YY_MAX_SHIFT Maximum value for shift actions
// fts5YY_MIN_SHIFTREDUCE Minimum value for shift-reduce actions
// fts5YY_MAX_SHIFTREDUCE Maximum value for shift-reduce actions
// fts5YY_ERROR_ACTION The fts5yy_action[] code for syntax error
// fts5YY_ACCEPT_ACTION The fts5yy_action[] code for accept
// fts5YY_NO_ACTION The fts5yy_action[] code for no-op
// fts5YY_MIN_REDUCE Minimum value for reduce actions
// fts5YY_MAX_REDUCE Maximum value for reduce actions
//
// ************ Begin control #defines ****************************************
type Fts5YYMINORTYPE = struct {
F__ccgo_pad1 [0]uint64
Ffts5yyinit int32
F__ccgo_pad2 [12]byte
}
var fts5yy_action = [105]uint8{
uint8(81), uint8(20), uint8(96), uint8(6), uint8(28), uint8(99), uint8(98), uint8(26), uint8(26), uint8(18),
uint8(96), uint8(6), uint8(28), uint8(17), uint8(98), uint8(56), uint8(26), uint8(19), uint8(96), uint8(6),
uint8(28), uint8(14), uint8(98), uint8(14), uint8(26), uint8(31), uint8(92), uint8(96), uint8(6), uint8(28),
uint8(108), uint8(98), uint8(25), uint8(26), uint8(21), uint8(96), uint8(6), uint8(28), uint8(78), uint8(98),
uint8(58), uint8(26), uint8(29), uint8(96), uint8(6), uint8(28), uint8(107), uint8(98), uint8(22), uint8(26),
uint8(24), uint8(16), uint8(12), uint8(11), uint8(1), uint8(13), uint8(13), uint8(24), uint8(16), uint8(23),
uint8(11), uint8(33), uint8(34), uint8(13), uint8(97), uint8(8), uint8(27), uint8(32), uint8(98), uint8(7),
uint8(26), uint8(3), uint8(4), uint8(5), uint8(3), uint8(4), uint8(5), uint8(3), uint8(83), uint8(4),
uint8(5), uint8(3), uint8(63), uint8(5), uint8(3), uint8(62), uint8(12), uint8(2), uint8(86), uint8(13),
uint8(9), uint8(30), uint8(10), uint8(10), uint8(54), uint8(57), uint8(75), uint8(78), uint8(78), uint8(53),
uint8(57), uint8(15), uint8(82), uint8(82), uint8(71),
}
var fts5yy_lookahead = [121]uint8{
uint8(16), uint8(17), uint8(18), uint8(19), uint8(20), uint8(22), uint8(22), uint8(24), uint8(24), uint8(17),
uint8(18), uint8(19), uint8(20), uint8(7), uint8(22), uint8(9), uint8(24), uint8(17), uint8(18), uint8(19),
uint8(20), uint8(9), uint8(22), uint8(9), uint8(24), uint8(13), uint8(17), uint8(18), uint8(19), uint8(20),
uint8(26), uint8(22), uint8(24), uint8(24), uint8(17), uint8(18), uint8(19), uint8(20), uint8(15), uint8(22),
uint8(9), uint8(24), uint8(17), uint8(18), uint8(19), uint8(20), uint8(26), uint8(22), uint8(21), uint8(24),
uint8(6), uint8(7), uint8(9), uint8(9), uint8(10), uint8(12), uint8(12), uint8(6), uint8(7), uint8(21),
uint8(9), uint8(24), uint8(25), uint8(12), uint8(18), uint8(5), uint8(20), uint8(14), uint8(22), uint8(5),
uint8(24), uint8(3), uint8(1), uint8(2), uint8(3), uint8(1), uint8(2), uint8(3), uint8(0), uint8(1),
uint8(2), uint8(3), uint8(11), uint8(2), uint8(3), uint8(11), uint8(9), uint8(10), uint8(5), uint8(12),
uint8(23), uint8(24), uint8(10), uint8(10), uint8(8), uint8(9), uint8(9), uint8(15), uint8(15), uint8(8),
uint8(9), uint8(9), uint8(27), uint8(27), uint8(11), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27),
uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27), uint8(27),
uint8(27),
}
var fts5yy_shift_ofst = [35]uint8{
uint8(44), uint8(44), uint8(44), uint8(44), uint8(44), uint8(44), uint8(51), uint8(77), uint8(43), uint8(12),
uint8(14), uint8(83), uint8(82), uint8(14), uint8(23), uint8(23), uint8(31), uint8(31), uint8(71), uint8(74),
uint8(78), uint8(81), uint8(86), uint8(91), uint8(6), uint8(53), uint8(53), uint8(60), uint8(64), uint8(68),
uint8(53), uint8(87), uint8(92), uint8(53), uint8(93),
}
var fts5yy_reduce_ofst = [18]int8{
int8(-16), int8(-8), int8(0), int8(9), int8(17), int8(25), int8(46), int8(-17), int8(-17), int8(37),
int8(67), int8(4), int8(4), int8(8), int8(4), int8(20), int8(27), int8(38),
}
var fts5yy_default = [35]uint8{
uint8(80), uint8(80), uint8(80), uint8(80), uint8(80), uint8(80), uint8(95), uint8(80), uint8(80), uint8(105),
uint8(80), uint8(110), uint8(110), uint8(80), uint8(110), uint8(110), uint8(80), uint8(80), uint8(80), uint8(80),
uint8(80), uint8(91), uint8(80), uint8(80), uint8(80), uint8(101), uint8(100), uint8(80), uint8(80), uint8(90),
uint8(103), uint8(80), uint8(80), uint8(104), uint8(80),
}
type fts5yyStackEntry = struct {
Fstateno uint8
Fmajor uint8
F__ccgo_pad1 [6]byte
Fminor Fts5YYMINORTYPE
}
type Fts5yyStackEntry = fts5yyStackEntry
type fts5yyParser = struct {
Ffts5yytos uintptr
FpParse uintptr
Ffts5yystack [100]Fts5yyStackEntry
Ffts5yystackEnd uintptr
}
type Fts5yyParser = fts5yyParser
func sqlite3Fts5ParserInit(tls *libc.TLS, fts5yypRawParser uintptr) {
var fts5yypParser uintptr = fts5yypRawParser
(*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).Ffts5yytos = fts5yypParser + 16
(*Fts5yyStackEntry)(unsafe.Pointer(fts5yypParser + 16)).Fstateno = uint8(0)
(*Fts5yyStackEntry)(unsafe.Pointer(fts5yypParser + 16)).Fmajor = uint8(0)
(*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).Ffts5yystackEnd = fts5yypParser + 16 + 99*24
}
func sqlite3Fts5ParserAlloc(tls *libc.TLS, mallocProc uintptr) uintptr {
var fts5yypParser uintptr
fts5yypParser = (*struct{ f func(*libc.TLS, U64) uintptr })(unsafe.Pointer(&struct{ uintptr }{mallocProc})).f(tls, U64(unsafe.Sizeof(Fts5yyParser{})))
if fts5yypParser != 0 {
sqlite3Fts5ParserInit(tls, fts5yypParser)
}
return fts5yypParser
}
func fts5yy_destructor(tls *libc.TLS, fts5yypParser uintptr, fts5yymajor uint8, fts5yypminor uintptr) {
var pParse uintptr = (*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).FpParse
_ = pParse
switch int32(fts5yymajor) {
case 16:
{
_ = pParse
}
break
case 17:
fallthrough
case 18:
fallthrough
case 19:
{
sqlite3Fts5ParseNodeFree(tls, *(*uintptr)(unsafe.Pointer(fts5yypminor)))
}
break
case 20:
fallthrough
case 21:
{
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(fts5yypminor)))
}
break
case 22:
fallthrough
case 23:
{
sqlite3Fts5ParseNearsetFree(tls, *(*uintptr)(unsafe.Pointer(fts5yypminor)))
}
break
case 24:
{
sqlite3Fts5ParsePhraseFree(tls, *(*uintptr)(unsafe.Pointer(fts5yypminor)))
}
break
default:
break
}
}
func fts5yy_pop_parser_stack(tls *libc.TLS, pParser uintptr) {
var fts5yytos uintptr
fts5yytos = libc.PostDecUintptr(&(*Fts5yyParser)(unsafe.Pointer(pParser)).Ffts5yytos, 24)
fts5yy_destructor(tls, pParser, (*Fts5yyStackEntry)(unsafe.Pointer(fts5yytos)).Fmajor, fts5yytos+8)
}
func sqlite3Fts5ParserFinalize(tls *libc.TLS, p uintptr) {
var pParser uintptr = p
for (*Fts5yyParser)(unsafe.Pointer(pParser)).Ffts5yytos > pParser+16 {
fts5yy_pop_parser_stack(tls, pParser)
}
}
func sqlite3Fts5ParserFree(tls *libc.TLS, p uintptr, freeProc uintptr) {
if p == uintptr(0) {
return
}
sqlite3Fts5ParserFinalize(tls, p)
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{freeProc})).f(tls, p)
}
func fts5yy_find_shift_action(tls *libc.TLS, iLookAhead uint8, stateno uint8) uint8 {
var i int32
if int32(stateno) > Fts5YY_MAX_SHIFT {
return stateno
}
for __ccgo := true; __ccgo; __ccgo = 1 != 0 {
i = int32(fts5yy_shift_ofst[stateno])
i = i + int32(iLookAhead)
if int32(fts5yy_lookahead[i]) != int32(iLookAhead) {
return fts5yy_default[stateno]
} else {
return fts5yy_action[i]
}
}
return uint8(0)
}
func fts5yy_find_reduce_action(tls *libc.TLS, stateno uint8, iLookAhead uint8) uint8 {
var i int32
i = int32(fts5yy_reduce_ofst[stateno])
i = i + int32(iLookAhead)
return fts5yy_action[i]
}
func fts5yyStackOverflow(tls *libc.TLS, fts5yypParser uintptr) {
var pParse uintptr = (*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).FpParse
for (*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).Ffts5yytos > fts5yypParser+16 {
fts5yy_pop_parser_stack(tls, fts5yypParser)
}
sqlite3Fts5ParseError(tls, pParse, ts+34136, 0)
(*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).FpParse = pParse
}
func fts5yy_shift(tls *libc.TLS, fts5yypParser uintptr, fts5yyNewState uint8, fts5yyMajor uint8, fts5yyMinor Fts5Token) {
var fts5yytos uintptr
(*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).Ffts5yytos += 24
if (*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).Ffts5yytos > (*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).Ffts5yystackEnd {
(*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).Ffts5yytos -= 24
fts5yyStackOverflow(tls, fts5yypParser)
return
}
if int32(fts5yyNewState) > Fts5YY_MAX_SHIFT {
fts5yyNewState = uint8(int32(fts5yyNewState) + (Fts5YY_MIN_REDUCE - Fts5YY_MIN_SHIFTREDUCE))
}
fts5yytos = (*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).Ffts5yytos
(*Fts5yyStackEntry)(unsafe.Pointer(fts5yytos)).Fstateno = fts5yyNewState
(*Fts5yyStackEntry)(unsafe.Pointer(fts5yytos)).Fmajor = fts5yyMajor
*(*Fts5Token)(unsafe.Pointer(fts5yytos + 8)) = fts5yyMinor
}
var fts5yyRuleInfoLhs = [28]uint8{
uint8(16),
uint8(20),
uint8(20),
uint8(20),
uint8(20),
uint8(21),
uint8(21),
uint8(17),
uint8(17),
uint8(17),
uint8(17),
uint8(17),
uint8(17),
uint8(19),
uint8(19),
uint8(18),
uint8(18),
uint8(22),
uint8(22),
uint8(22),
uint8(23),
uint8(23),
uint8(25),
uint8(25),
uint8(24),
uint8(24),
uint8(26),
uint8(26),
}
var fts5yyRuleInfoNRhs = [28]int8{
int8(-1),
int8(-4),
int8(-3),
int8(-1),
int8(-2),
int8(-2),
int8(-1),
int8(-3),
int8(-3),
int8(-3),
int8(-5),
int8(-3),
int8(-1),
int8(-1),
int8(-2),
int8(-1),
int8(-3),
int8(-1),
int8(-2),
int8(-5),
int8(-1),
int8(-2),
int8(0),
int8(-2),
int8(-4),
int8(-2),
int8(-1),
int8(0),
}
func fts5yy_reduce(tls *libc.TLS, fts5yypParser uintptr, fts5yyruleno uint32, fts5yyLookahead int32, fts5yyLookaheadToken Fts5Token) uint8 {
bp := tls.Alloc(16)
defer tls.Free(16)
var fts5yygoto int32
var fts5yyact uint8
var fts5yymsp uintptr
var fts5yysize int32
var pParse uintptr = (*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).FpParse
_ = fts5yyLookahead
_ = fts5yyLookaheadToken
fts5yymsp = (*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).Ffts5yytos
{
switch fts5yyruleno {
case uint32(0):
{
sqlite3Fts5ParseFinished(tls, pParse, *(*uintptr)(unsafe.Pointer(fts5yymsp + 8)))
}
break
case uint32(1):
{
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = sqlite3Fts5ParseColsetInvert(tls, pParse, *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
break
case uint32(2):
{
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8))
}
break
case uint32(3):
{
*(*uintptr)(unsafe.Pointer(bp)) = sqlite3Fts5ParseColset(tls, pParse, uintptr(0), fts5yymsp+8)
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(4):
{
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = sqlite3Fts5ParseColset(tls, pParse, uintptr(0), fts5yymsp+8)
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = sqlite3Fts5ParseColsetInvert(tls, pParse, *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8)))
}
break
case uint32(5):
{
*(*uintptr)(unsafe.Pointer(bp)) = sqlite3Fts5ParseColset(tls, pParse, *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8)), fts5yymsp+8)
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(6):
{
*(*uintptr)(unsafe.Pointer(bp)) = sqlite3Fts5ParseColset(tls, pParse, uintptr(0), fts5yymsp+8)
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(7):
{
*(*uintptr)(unsafe.Pointer(bp)) = sqlite3Fts5ParseNode(tls, pParse, FTS5_AND, *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(fts5yymsp + 8)), uintptr(0))
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(8):
{
*(*uintptr)(unsafe.Pointer(bp)) = sqlite3Fts5ParseNode(tls, pParse, FTS5_OR, *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(fts5yymsp + 8)), uintptr(0))
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(9):
{
*(*uintptr)(unsafe.Pointer(bp)) = sqlite3Fts5ParseNode(tls, pParse, FTS5_NOT, *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-2)*24 + 8)), *(*uintptr)(unsafe.Pointer(fts5yymsp + 8)), uintptr(0))
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(10):
{
sqlite3Fts5ParseSetColset(tls, pParse, *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-4)*24 + 8)))
*(*uintptr)(unsafe.Pointer(bp)) = *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8))
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(11):
{
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8))
}
break
case uint32(12):
fallthrough
case uint32(13):
{
*(*uintptr)(unsafe.Pointer(bp)) = *(*uintptr)(unsafe.Pointer(fts5yymsp + 8))
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(14):
{
*(*uintptr)(unsafe.Pointer(bp)) = sqlite3Fts5ParseImplicitAnd(tls, pParse, *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*uintptr)(unsafe.Pointer(fts5yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(15):
{
*(*uintptr)(unsafe.Pointer(bp)) = sqlite3Fts5ParseNode(tls, pParse, FTS5_STRING, uintptr(0), uintptr(0), *(*uintptr)(unsafe.Pointer(fts5yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(16):
{
*(*uintptr)(unsafe.Pointer(bp)) = sqlite3Fts5ParseNode(tls, pParse, FTS5_STRING, uintptr(0), uintptr(0), *(*uintptr)(unsafe.Pointer(fts5yymsp + 8)))
sqlite3Fts5ParseSetColset(tls, pParse, *(*uintptr)(unsafe.Pointer(bp)), *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-2)*24 + 8)))
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-2)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(17):
{
*(*uintptr)(unsafe.Pointer(bp)) = sqlite3Fts5ParseNearset(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(fts5yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(18):
{
sqlite3Fts5ParseSetCaret(tls, *(*uintptr)(unsafe.Pointer(fts5yymsp + 8)))
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = sqlite3Fts5ParseNearset(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(fts5yymsp + 8)))
}
break
case uint32(19):
{
sqlite3Fts5ParseNear(tls, pParse, fts5yymsp+libc.UintptrFromInt32(-4)*24+8)
sqlite3Fts5ParseSetDistance(tls, pParse, *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-2)*24 + 8)), fts5yymsp+libc.UintptrFromInt32(-1)*24+8)
*(*uintptr)(unsafe.Pointer(bp)) = *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-2)*24 + 8))
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-4)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(20):
{
*(*uintptr)(unsafe.Pointer(bp)) = sqlite3Fts5ParseNearset(tls, pParse, uintptr(0), *(*uintptr)(unsafe.Pointer(fts5yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(21):
{
*(*uintptr)(unsafe.Pointer(bp)) = sqlite3Fts5ParseNearset(tls, pParse, *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8)), *(*uintptr)(unsafe.Pointer(fts5yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(22):
{
(*Fts5Token)(unsafe.Pointer(fts5yymsp + 1*24 + 8)).Fp = uintptr(0)
(*Fts5Token)(unsafe.Pointer(fts5yymsp + 1*24 + 8)).Fn = 0
}
break
case uint32(23):
{
*(*Fts5Token)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*Fts5Token)(unsafe.Pointer(fts5yymsp + 8))
}
break
case uint32(24):
{
*(*uintptr)(unsafe.Pointer(bp)) = sqlite3Fts5ParseTerm(tls, pParse, *(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-3)*24 + 8)), fts5yymsp+libc.UintptrFromInt32(-1)*24+8, *(*int32)(unsafe.Pointer(fts5yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-3)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(25):
{
*(*uintptr)(unsafe.Pointer(bp)) = sqlite3Fts5ParseTerm(tls, pParse, uintptr(0), fts5yymsp+libc.UintptrFromInt32(-1)*24+8, *(*int32)(unsafe.Pointer(fts5yymsp + 8)))
}
*(*uintptr)(unsafe.Pointer(fts5yymsp + libc.UintptrFromInt32(-1)*24 + 8)) = *(*uintptr)(unsafe.Pointer(bp))
break
case uint32(26):
{
*(*int32)(unsafe.Pointer(fts5yymsp + 8)) = 1
}
break
case uint32(27):
{
*(*int32)(unsafe.Pointer(fts5yymsp + 1*24 + 8)) = 0
}
break
default:
break
}
}
fts5yygoto = int32(fts5yyRuleInfoLhs[fts5yyruleno])
fts5yysize = int32(fts5yyRuleInfoNRhs[fts5yyruleno])
fts5yyact = fts5yy_find_reduce_action(tls, (*Fts5yyStackEntry)(unsafe.Pointer(fts5yymsp+uintptr(fts5yysize)*24)).Fstateno, uint8(fts5yygoto))
fts5yymsp += 24 * uintptr(fts5yysize+1)
(*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).Ffts5yytos = fts5yymsp
(*Fts5yyStackEntry)(unsafe.Pointer(fts5yymsp)).Fstateno = fts5yyact
(*Fts5yyStackEntry)(unsafe.Pointer(fts5yymsp)).Fmajor = uint8(fts5yygoto)
return fts5yyact
}
func fts5yy_syntax_error(tls *libc.TLS, fts5yypParser uintptr, fts5yymajor int32, fts5yyminor Fts5Token) {
bp := tls.Alloc(16)
defer tls.Free(16)
var pParse uintptr = (*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).FpParse
_ = fts5yymajor
sqlite3Fts5ParseError(tls,
pParse, ts+34164, libc.VaList(bp, fts5yyminor.Fn, fts5yyminor.Fp))
(*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).FpParse = pParse
}
func fts5yy_accept(tls *libc.TLS, fts5yypParser uintptr) {
var pParse uintptr = (*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).FpParse
(*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).FpParse = pParse
}
func sqlite3Fts5Parser(tls *libc.TLS, fts5yyp uintptr, fts5yymajor int32, fts5yyminor Fts5Token, pParse uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
var fts5yyact uint8
var fts5yypParser uintptr = fts5yyp
(*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).FpParse = pParse
fts5yyact = (*Fts5yyStackEntry)(unsafe.Pointer((*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).Ffts5yytos)).Fstateno
for 1 != 0 {
fts5yyact = fts5yy_find_shift_action(tls, uint8(fts5yymajor), fts5yyact)
if int32(fts5yyact) >= Fts5YY_MIN_REDUCE {
var fts5yyruleno uint32 = uint32(int32(fts5yyact) - Fts5YY_MIN_REDUCE)
if int32(fts5yyRuleInfoNRhs[fts5yyruleno]) == 0 {
if (*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).Ffts5yytos >= (*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).Ffts5yystackEnd {
fts5yyStackOverflow(tls, fts5yypParser)
break
}
}
fts5yyact = fts5yy_reduce(tls, fts5yypParser, fts5yyruleno, fts5yymajor, fts5yyminor)
} else if int32(fts5yyact) <= Fts5YY_MAX_SHIFTREDUCE {
fts5yy_shift(tls, fts5yypParser, fts5yyact, uint8(fts5yymajor), fts5yyminor)
break
} else if int32(fts5yyact) == Fts5YY_ACCEPT_ACTION {
(*Fts5yyParser)(unsafe.Pointer(fts5yypParser)).Ffts5yytos -= 24
fts5yy_accept(tls, fts5yypParser)
return
} else {
*(*Fts5Token)(unsafe.Pointer(bp)) = fts5yyminor
fts5yy_syntax_error(tls, fts5yypParser, fts5yymajor, fts5yyminor)
fts5yy_destructor(tls, fts5yypParser, uint8(fts5yymajor), bp)
break
}
}
return
}
func sqlite3Fts5ParserFallback(tls *libc.TLS, iToken int32) int32 {
_ = iToken
return 0
}
// Object used to iterate through all "coalesced phrase instances" in
// a single column of the current row. If the phrase instances in the
// column being considered do not overlap, this object simply iterates
// through them. Or, if they do overlap (share one or more tokens in
// common), each set of overlapping instances is treated as a single
// match. See documentation for the highlight() auxiliary function for
// details.
//
// Usage is:
//
// for(rc = fts5CInstIterNext(pApi, pFts, iCol, &iter);
// (rc==SQLITE_OK && 0==fts5CInstIterEof(&iter);
// rc = fts5CInstIterNext(&iter)
// ){
// printf("instance starts at %d, ends at %d\n", iter.iStart, iter.iEnd);
// }
type CInstIter1 = struct {
FpApi uintptr
FpFts uintptr
FiCol int32
FiInst int32
FnInst int32
FiStart int32
FiEnd int32
F__ccgo_pad1 [4]byte
}
// Object used to iterate through all "coalesced phrase instances" in
// a single column of the current row. If the phrase instances in the
// column being considered do not overlap, this object simply iterates
// through them. Or, if they do overlap (share one or more tokens in
// common), each set of overlapping instances is treated as a single
// match. See documentation for the highlight() auxiliary function for
// details.
//
// Usage is:
//
// for(rc = fts5CInstIterNext(pApi, pFts, iCol, &iter);
// (rc==SQLITE_OK && 0==fts5CInstIterEof(&iter);
// rc = fts5CInstIterNext(&iter)
// ){
// printf("instance starts at %d, ends at %d\n", iter.iStart, iter.iEnd);
// }
type CInstIter = CInstIter1
func fts5CInstIterNext(tls *libc.TLS, pIter uintptr) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
var rc int32 = SQLITE_OK
(*CInstIter)(unsafe.Pointer(pIter)).FiStart = -1
(*CInstIter)(unsafe.Pointer(pIter)).FiEnd = -1
for rc == SQLITE_OK && (*CInstIter)(unsafe.Pointer(pIter)).FiInst < (*CInstIter)(unsafe.Pointer(pIter)).FnInst {
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer((*CInstIter)(unsafe.Pointer(pIter)).FpApi)).FxInst})).f(tls, (*CInstIter)(unsafe.Pointer(pIter)).FpFts, (*CInstIter)(unsafe.Pointer(pIter)).FiInst, bp, bp+4, bp+8)
if rc == SQLITE_OK {
if *(*int32)(unsafe.Pointer(bp + 4)) == (*CInstIter)(unsafe.Pointer(pIter)).FiCol {
var iEnd int32 = *(*int32)(unsafe.Pointer(bp + 8)) - 1 + (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer((*CInstIter)(unsafe.Pointer(pIter)).FpApi)).FxPhraseSize})).f(tls, (*CInstIter)(unsafe.Pointer(pIter)).FpFts, *(*int32)(unsafe.Pointer(bp)))
if (*CInstIter)(unsafe.Pointer(pIter)).FiStart < 0 {
(*CInstIter)(unsafe.Pointer(pIter)).FiStart = *(*int32)(unsafe.Pointer(bp + 8))
(*CInstIter)(unsafe.Pointer(pIter)).FiEnd = iEnd
} else if *(*int32)(unsafe.Pointer(bp + 8)) <= (*CInstIter)(unsafe.Pointer(pIter)).FiEnd {
if iEnd > (*CInstIter)(unsafe.Pointer(pIter)).FiEnd {
(*CInstIter)(unsafe.Pointer(pIter)).FiEnd = iEnd
}
} else {
break
}
}
(*CInstIter)(unsafe.Pointer(pIter)).FiInst++
}
}
return rc
}
func fts5CInstIterInit(tls *libc.TLS, pApi uintptr, pFts uintptr, iCol int32, pIter uintptr) int32 {
var rc int32
libc.X__builtin___memset_chk(tls, pIter, 0, uint64(unsafe.Sizeof(CInstIter{})), libc.X__builtin_object_size(tls, pIter, 0))
(*CInstIter)(unsafe.Pointer(pIter)).FpApi = pApi
(*CInstIter)(unsafe.Pointer(pIter)).FpFts = pFts
(*CInstIter)(unsafe.Pointer(pIter)).FiCol = iCol
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxInstCount})).f(tls, pFts, pIter+24)
if rc == SQLITE_OK {
rc = fts5CInstIterNext(tls, pIter)
}
return rc
}
// ************************************************************************
//
// Start of highlight() implementation.
type HighlightContext1 = struct {
Fiter CInstIter
FiPos int32
FiRangeStart int32
FiRangeEnd int32
F__ccgo_pad1 [4]byte
FzOpen uintptr
FzClose uintptr
FzIn uintptr
FnIn int32
FiOff int32
FzOut uintptr
}
// ************************************************************************
//
// Start of highlight() implementation.
type HighlightContext = HighlightContext1
func fts5HighlightAppend(tls *libc.TLS, pRc uintptr, p uintptr, z uintptr, n int32) {
bp := tls.Alloc(24)
defer tls.Free(24)
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK && z != 0 {
if n < 0 {
n = int32(libc.Xstrlen(tls, z))
}
(*HighlightContext)(unsafe.Pointer(p)).FzOut = Xsqlite3_mprintf(tls, ts+34195, libc.VaList(bp, (*HighlightContext)(unsafe.Pointer(p)).FzOut, n, z))
if (*HighlightContext)(unsafe.Pointer(p)).FzOut == uintptr(0) {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
}
}
}
func fts5HighlightCb(tls *libc.TLS, pContext uintptr, tflags int32, pToken uintptr, nToken int32, iStartOff int32, iEndOff int32) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var p uintptr = pContext
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
var iPos int32
_ = pToken
_ = nToken
if tflags&FTS5_TOKEN_COLOCATED != 0 {
return SQLITE_OK
}
iPos = libc.PostIncInt32(&(*HighlightContext)(unsafe.Pointer(p)).FiPos, 1)
if (*HighlightContext)(unsafe.Pointer(p)).FiRangeEnd > 0 {
if iPos < (*HighlightContext)(unsafe.Pointer(p)).FiRangeStart || iPos > (*HighlightContext)(unsafe.Pointer(p)).FiRangeEnd {
return SQLITE_OK
}
if (*HighlightContext)(unsafe.Pointer(p)).FiRangeStart != 0 && iPos == (*HighlightContext)(unsafe.Pointer(p)).FiRangeStart {
(*HighlightContext)(unsafe.Pointer(p)).FiOff = iStartOff
}
}
if iPos == (*HighlightContext)(unsafe.Pointer(p)).Fiter.FiStart {
fts5HighlightAppend(tls, bp, p, (*HighlightContext)(unsafe.Pointer(p)).FzIn+uintptr((*HighlightContext)(unsafe.Pointer(p)).FiOff), iStartOff-(*HighlightContext)(unsafe.Pointer(p)).FiOff)
fts5HighlightAppend(tls, bp, p, (*HighlightContext)(unsafe.Pointer(p)).FzOpen, -1)
(*HighlightContext)(unsafe.Pointer(p)).FiOff = iStartOff
}
if iPos == (*HighlightContext)(unsafe.Pointer(p)).Fiter.FiEnd {
if (*HighlightContext)(unsafe.Pointer(p)).FiRangeEnd != 0 && (*HighlightContext)(unsafe.Pointer(p)).Fiter.FiStart < (*HighlightContext)(unsafe.Pointer(p)).FiRangeStart {
fts5HighlightAppend(tls, bp, p, (*HighlightContext)(unsafe.Pointer(p)).FzOpen, -1)
}
fts5HighlightAppend(tls, bp, p, (*HighlightContext)(unsafe.Pointer(p)).FzIn+uintptr((*HighlightContext)(unsafe.Pointer(p)).FiOff), iEndOff-(*HighlightContext)(unsafe.Pointer(p)).FiOff)
fts5HighlightAppend(tls, bp, p, (*HighlightContext)(unsafe.Pointer(p)).FzClose, -1)
(*HighlightContext)(unsafe.Pointer(p)).FiOff = iEndOff
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp)) = fts5CInstIterNext(tls, p)
}
}
if (*HighlightContext)(unsafe.Pointer(p)).FiRangeEnd > 0 && iPos == (*HighlightContext)(unsafe.Pointer(p)).FiRangeEnd {
fts5HighlightAppend(tls, bp, p, (*HighlightContext)(unsafe.Pointer(p)).FzIn+uintptr((*HighlightContext)(unsafe.Pointer(p)).FiOff), iEndOff-(*HighlightContext)(unsafe.Pointer(p)).FiOff)
(*HighlightContext)(unsafe.Pointer(p)).FiOff = iEndOff
if iPos >= (*HighlightContext)(unsafe.Pointer(p)).Fiter.FiStart && iPos < (*HighlightContext)(unsafe.Pointer(p)).Fiter.FiEnd {
fts5HighlightAppend(tls, bp, p, (*HighlightContext)(unsafe.Pointer(p)).FzClose, -1)
}
}
return *(*int32)(unsafe.Pointer(bp))
}
func fts5HighlightFunction(tls *libc.TLS, pApi uintptr, pFts uintptr, pCtx uintptr, nVal int32, apVal uintptr) {
bp := tls.Alloc(100)
defer tls.Free(100)
var iCol int32
if nVal != 3 {
var zErr uintptr = ts + 34202
Xsqlite3_result_error(tls, pCtx, zErr, -1)
return
}
iCol = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(apVal)))
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(HighlightContext{})), libc.X__builtin_object_size(tls, bp, 0))
(*HighlightContext)(unsafe.Pointer(bp)).FzOpen = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(apVal + 1*8)))
(*HighlightContext)(unsafe.Pointer(bp)).FzClose = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(apVal + 2*8)))
*(*int32)(unsafe.Pointer(bp + 96)) = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxColumnText})).f(tls, pFts, iCol, bp+72, bp+80)
if (*HighlightContext)(unsafe.Pointer(bp)).FzIn != 0 {
if *(*int32)(unsafe.Pointer(bp + 96)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 96)) = fts5CInstIterInit(tls, pApi, pFts, iCol, bp)
}
if *(*int32)(unsafe.Pointer(bp + 96)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 96)) = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxTokenize})).f(tls, pFts, (*HighlightContext)(unsafe.Pointer(bp)).FzIn, (*HighlightContext)(unsafe.Pointer(bp)).FnIn, bp, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
}{fts5HighlightCb})))
}
fts5HighlightAppend(tls, bp+96, bp, (*HighlightContext)(unsafe.Pointer(bp)).FzIn+uintptr((*HighlightContext)(unsafe.Pointer(bp)).FiOff), (*HighlightContext)(unsafe.Pointer(bp)).FnIn-(*HighlightContext)(unsafe.Pointer(bp)).FiOff)
if *(*int32)(unsafe.Pointer(bp + 96)) == SQLITE_OK {
Xsqlite3_result_text(tls, pCtx, (*HighlightContext)(unsafe.Pointer(bp)).FzOut, -1, libc.UintptrFromInt32(-1))
}
Xsqlite3_free(tls, (*HighlightContext)(unsafe.Pointer(bp)).FzOut)
}
if *(*int32)(unsafe.Pointer(bp + 96)) != SQLITE_OK {
Xsqlite3_result_error_code(tls, pCtx, *(*int32)(unsafe.Pointer(bp + 96)))
}
}
// Context object passed to the fts5SentenceFinderCb() function.
type Fts5SFinder1 = struct {
FiPos int32
FnFirstAlloc int32
FnFirst int32
F__ccgo_pad1 [4]byte
FaFirst uintptr
FzDoc uintptr
}
// Context object passed to the fts5SentenceFinderCb() function.
type Fts5SFinder = Fts5SFinder1
func fts5SentenceFinderAdd(tls *libc.TLS, p uintptr, iAdd int32) int32 {
if (*Fts5SFinder)(unsafe.Pointer(p)).FnFirstAlloc == (*Fts5SFinder)(unsafe.Pointer(p)).FnFirst {
var nNew int32
if (*Fts5SFinder)(unsafe.Pointer(p)).FnFirstAlloc != 0 {
nNew = (*Fts5SFinder)(unsafe.Pointer(p)).FnFirstAlloc * 2
} else {
nNew = 64
}
var aNew uintptr
aNew = Xsqlite3_realloc64(tls, (*Fts5SFinder)(unsafe.Pointer(p)).FaFirst, uint64(nNew)*uint64(unsafe.Sizeof(int32(0))))
if aNew == uintptr(0) {
return SQLITE_NOMEM
}
(*Fts5SFinder)(unsafe.Pointer(p)).FaFirst = aNew
(*Fts5SFinder)(unsafe.Pointer(p)).FnFirstAlloc = nNew
}
*(*int32)(unsafe.Pointer((*Fts5SFinder)(unsafe.Pointer(p)).FaFirst + uintptr(libc.PostIncInt32(&(*Fts5SFinder)(unsafe.Pointer(p)).FnFirst, 1))*4)) = iAdd
return SQLITE_OK
}
func fts5SentenceFinderCb(tls *libc.TLS, pContext uintptr, tflags int32, pToken uintptr, nToken int32, iStartOff int32, iEndOff int32) int32 {
var rc int32 = SQLITE_OK
_ = pToken
_ = nToken
_ = iEndOff
if tflags&FTS5_TOKEN_COLOCATED == 0 {
var p uintptr = pContext
if (*Fts5SFinder)(unsafe.Pointer(p)).FiPos > 0 {
var i int32
var c int8 = int8(0)
for i = iStartOff - 1; i >= 0; i-- {
c = *(*int8)(unsafe.Pointer((*Fts5SFinder)(unsafe.Pointer(p)).FzDoc + uintptr(i)))
if int32(c) != ' ' && int32(c) != '\t' && int32(c) != '\n' && int32(c) != '\r' {
break
}
}
if i != iStartOff-1 && (int32(c) == '.' || int32(c) == ':') {
rc = fts5SentenceFinderAdd(tls, p, (*Fts5SFinder)(unsafe.Pointer(p)).FiPos)
}
} else {
rc = fts5SentenceFinderAdd(tls, p, 0)
}
(*Fts5SFinder)(unsafe.Pointer(p)).FiPos++
}
return rc
}
func fts5SnippetScore(tls *libc.TLS, pApi uintptr, pFts uintptr, nDocsize int32, aSeen uintptr, iCol int32, iPos int32, nToken int32, pnScore uintptr, piPos uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var rc int32
var i int32
*(*int32)(unsafe.Pointer(bp + 4)) = 0
*(*int32)(unsafe.Pointer(bp + 8)) = 0
*(*int32)(unsafe.Pointer(bp + 12)) = 0
var iFirst int32 = -1
var nScore int32 = 0
var iLast int32 = 0
var iEnd Sqlite3_int64 = Sqlite3_int64(iPos) + Sqlite3_int64(nToken)
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxInstCount})).f(tls, pFts, bp)
for i = 0; i < *(*int32)(unsafe.Pointer(bp)) && rc == SQLITE_OK; i++ {
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxInst})).f(tls, pFts, i, bp+4, bp+8, bp+12)
if rc == SQLITE_OK && *(*int32)(unsafe.Pointer(bp + 8)) == iCol && *(*int32)(unsafe.Pointer(bp + 12)) >= iPos && Sqlite3_int64(*(*int32)(unsafe.Pointer(bp + 12))) < iEnd {
nScore = nScore + func() int32 {
if *(*uint8)(unsafe.Pointer(aSeen + uintptr(*(*int32)(unsafe.Pointer(bp + 4))))) != 0 {
return 1
}
return 1000
}()
*(*uint8)(unsafe.Pointer(aSeen + uintptr(*(*int32)(unsafe.Pointer(bp + 4))))) = uint8(1)
if iFirst < 0 {
iFirst = *(*int32)(unsafe.Pointer(bp + 12))
}
iLast = *(*int32)(unsafe.Pointer(bp + 12)) + (*struct {
f func(*libc.TLS, uintptr, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxPhraseSize})).f(tls, pFts, *(*int32)(unsafe.Pointer(bp + 4)))
}
}
*(*int32)(unsafe.Pointer(pnScore)) = nScore
if piPos != 0 {
var iAdj Sqlite3_int64 = Sqlite3_int64(iFirst - (nToken-(iLast-iFirst))/2)
if iAdj+Sqlite3_int64(nToken) > Sqlite3_int64(nDocsize) {
iAdj = Sqlite3_int64(nDocsize - nToken)
}
if iAdj < int64(0) {
iAdj = int64(0)
}
*(*int32)(unsafe.Pointer(piPos)) = int32(iAdj)
}
return rc
}
func fts5ValueToText(tls *libc.TLS, pVal uintptr) uintptr {
var zRet uintptr = Xsqlite3_value_text(tls, pVal)
if zRet != 0 {
return zRet
}
return ts + 1547
}
func fts5SnippetFunction(tls *libc.TLS, pApi uintptr, pFts uintptr, pCtx uintptr, nVal int32, apVal uintptr) {
bp := tls.Alloc(172)
defer tls.Free(172)
*(*int32)(unsafe.Pointer(bp + 168)) = SQLITE_OK
var iCol int32
var zEllips uintptr
var nToken int32
*(*int32)(unsafe.Pointer(bp + 96)) = 0
var i int32
var nPhrase int32
var aSeen uintptr
var iBestCol int32
var iBestStart int32 = 0
var nBestScore int32 = 0
*(*int32)(unsafe.Pointer(bp + 164)) = 0
var nCol int32
if nVal != 5 {
var zErr uintptr = ts + 34252
Xsqlite3_result_error(tls, pCtx, zErr, -1)
return
}
nCol = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxColumnCount})).f(tls, pFts)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(HighlightContext{})), libc.X__builtin_object_size(tls, bp, 0))
iCol = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(apVal)))
(*HighlightContext)(unsafe.Pointer(bp)).FzOpen = fts5ValueToText(tls, *(*uintptr)(unsafe.Pointer(apVal + 1*8)))
(*HighlightContext)(unsafe.Pointer(bp)).FzClose = fts5ValueToText(tls, *(*uintptr)(unsafe.Pointer(apVal + 2*8)))
zEllips = fts5ValueToText(tls, *(*uintptr)(unsafe.Pointer(apVal + 3*8)))
nToken = Xsqlite3_value_int(tls, *(*uintptr)(unsafe.Pointer(apVal + 4*8)))
iBestCol = func() int32 {
if iCol >= 0 {
return iCol
}
return 0
}()
nPhrase = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxPhraseCount})).f(tls, pFts)
aSeen = Xsqlite3_malloc(tls, nPhrase)
if aSeen == uintptr(0) {
*(*int32)(unsafe.Pointer(bp + 168)) = SQLITE_NOMEM
}
if *(*int32)(unsafe.Pointer(bp + 168)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 168)) = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxInstCount})).f(tls, pFts, bp+96)
}
libc.X__builtin___memset_chk(tls, bp+104, 0, uint64(unsafe.Sizeof(Fts5SFinder{})), libc.X__builtin_object_size(tls, bp+104, 0))
for i = 0; i < nCol; i++ {
if iCol < 0 || iCol == i {
var ii int32
(*Fts5SFinder)(unsafe.Pointer(bp + 104)).FiPos = 0
(*Fts5SFinder)(unsafe.Pointer(bp + 104)).FnFirst = 0
*(*int32)(unsafe.Pointer(bp + 168)) = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxColumnText})).f(tls, pFts, i, bp+104+24, bp+136)
if *(*int32)(unsafe.Pointer(bp + 168)) != SQLITE_OK {
break
}
*(*int32)(unsafe.Pointer(bp + 168)) = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxTokenize})).f(tls, pFts,
(*Fts5SFinder)(unsafe.Pointer(bp+104)).FzDoc, *(*int32)(unsafe.Pointer(bp + 136)), bp+104, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
}{fts5SentenceFinderCb})))
if *(*int32)(unsafe.Pointer(bp + 168)) != SQLITE_OK {
break
}
*(*int32)(unsafe.Pointer(bp + 168)) = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxColumnSize})).f(tls, pFts, i, bp+140)
if *(*int32)(unsafe.Pointer(bp + 168)) != SQLITE_OK {
break
}
for ii = 0; *(*int32)(unsafe.Pointer(bp + 168)) == SQLITE_OK && ii < *(*int32)(unsafe.Pointer(bp + 96)); ii++ {
var jj int32
*(*int32)(unsafe.Pointer(bp + 168)) = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxInst})).f(tls, pFts, ii, bp+144, bp+148, bp+152)
if *(*int32)(unsafe.Pointer(bp + 148)) != i {
continue
}
if *(*int32)(unsafe.Pointer(bp + 152)) > *(*int32)(unsafe.Pointer(bp + 140)) {
*(*int32)(unsafe.Pointer(bp + 168)) = SQLITE_CORRUPT | int32(1)<<8
}
if *(*int32)(unsafe.Pointer(bp + 168)) != SQLITE_OK {
continue
}
libc.X__builtin___memset_chk(tls, aSeen, 0, uint64(nPhrase), libc.X__builtin_object_size(tls, aSeen, 0))
*(*int32)(unsafe.Pointer(bp + 168)) = fts5SnippetScore(tls, pApi, pFts, *(*int32)(unsafe.Pointer(bp + 140)), aSeen, i,
*(*int32)(unsafe.Pointer(bp + 152)), nToken, bp+156, bp+160)
if *(*int32)(unsafe.Pointer(bp + 168)) == SQLITE_OK && *(*int32)(unsafe.Pointer(bp + 156)) > nBestScore {
nBestScore = *(*int32)(unsafe.Pointer(bp + 156))
iBestCol = i
iBestStart = *(*int32)(unsafe.Pointer(bp + 160))
*(*int32)(unsafe.Pointer(bp + 164)) = *(*int32)(unsafe.Pointer(bp + 140))
}
if *(*int32)(unsafe.Pointer(bp + 168)) == SQLITE_OK && (*Fts5SFinder)(unsafe.Pointer(bp+104)).FnFirst != 0 && *(*int32)(unsafe.Pointer(bp + 140)) > nToken {
for jj = 0; jj < (*Fts5SFinder)(unsafe.Pointer(bp+104)).FnFirst-1; jj++ {
if *(*int32)(unsafe.Pointer((*Fts5SFinder)(unsafe.Pointer(bp+104)).FaFirst + uintptr(jj+1)*4)) > *(*int32)(unsafe.Pointer(bp + 152)) {
break
}
}
if *(*int32)(unsafe.Pointer((*Fts5SFinder)(unsafe.Pointer(bp+104)).FaFirst + uintptr(jj)*4)) < *(*int32)(unsafe.Pointer(bp + 152)) {
libc.X__builtin___memset_chk(tls, aSeen, 0, uint64(nPhrase), libc.X__builtin_object_size(tls, aSeen, 0))
*(*int32)(unsafe.Pointer(bp + 168)) = fts5SnippetScore(tls, pApi, pFts, *(*int32)(unsafe.Pointer(bp + 140)), aSeen, i,
*(*int32)(unsafe.Pointer((*Fts5SFinder)(unsafe.Pointer(bp+104)).FaFirst + uintptr(jj)*4)), nToken, bp+156, uintptr(0))
*(*int32)(unsafe.Pointer(bp + 156)) += func() int32 {
if *(*int32)(unsafe.Pointer((*Fts5SFinder)(unsafe.Pointer(bp+104)).FaFirst + uintptr(jj)*4)) == 0 {
return 120
}
return 100
}()
if *(*int32)(unsafe.Pointer(bp + 168)) == SQLITE_OK && *(*int32)(unsafe.Pointer(bp + 156)) > nBestScore {
nBestScore = *(*int32)(unsafe.Pointer(bp + 156))
iBestCol = i
iBestStart = *(*int32)(unsafe.Pointer((*Fts5SFinder)(unsafe.Pointer(bp+104)).FaFirst + uintptr(jj)*4))
*(*int32)(unsafe.Pointer(bp + 164)) = *(*int32)(unsafe.Pointer(bp + 140))
}
}
}
}
}
}
if *(*int32)(unsafe.Pointer(bp + 168)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 168)) = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxColumnText})).f(tls, pFts, iBestCol, bp+72, bp+80)
}
if *(*int32)(unsafe.Pointer(bp + 168)) == SQLITE_OK && *(*int32)(unsafe.Pointer(bp + 164)) == 0 {
*(*int32)(unsafe.Pointer(bp + 168)) = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxColumnSize})).f(tls, pFts, iBestCol, bp+164)
}
if (*HighlightContext)(unsafe.Pointer(bp)).FzIn != 0 {
if *(*int32)(unsafe.Pointer(bp + 168)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 168)) = fts5CInstIterInit(tls, pApi, pFts, iBestCol, bp)
}
(*HighlightContext)(unsafe.Pointer(bp)).FiRangeStart = iBestStart
(*HighlightContext)(unsafe.Pointer(bp)).FiRangeEnd = iBestStart + nToken - 1
if iBestStart > 0 {
fts5HighlightAppend(tls, bp+168, bp, zEllips, -1)
}
for (*HighlightContext)(unsafe.Pointer(bp)).Fiter.FiStart >= 0 && (*HighlightContext)(unsafe.Pointer(bp)).Fiter.FiStart < iBestStart && *(*int32)(unsafe.Pointer(bp + 168)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 168)) = fts5CInstIterNext(tls, bp)
}
if *(*int32)(unsafe.Pointer(bp + 168)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 168)) = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxTokenize})).f(tls, pFts, (*HighlightContext)(unsafe.Pointer(bp)).FzIn, (*HighlightContext)(unsafe.Pointer(bp)).FnIn, bp, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
}{fts5HighlightCb})))
}
if (*HighlightContext)(unsafe.Pointer(bp)).FiRangeEnd >= *(*int32)(unsafe.Pointer(bp + 164))-1 {
fts5HighlightAppend(tls, bp+168, bp, (*HighlightContext)(unsafe.Pointer(bp)).FzIn+uintptr((*HighlightContext)(unsafe.Pointer(bp)).FiOff), (*HighlightContext)(unsafe.Pointer(bp)).FnIn-(*HighlightContext)(unsafe.Pointer(bp)).FiOff)
} else {
fts5HighlightAppend(tls, bp+168, bp, zEllips, -1)
}
}
if *(*int32)(unsafe.Pointer(bp + 168)) == SQLITE_OK {
Xsqlite3_result_text(tls, pCtx, (*HighlightContext)(unsafe.Pointer(bp)).FzOut, -1, libc.UintptrFromInt32(-1))
} else {
Xsqlite3_result_error_code(tls, pCtx, *(*int32)(unsafe.Pointer(bp + 168)))
}
Xsqlite3_free(tls, (*HighlightContext)(unsafe.Pointer(bp)).FzOut)
Xsqlite3_free(tls, aSeen)
Xsqlite3_free(tls, (*Fts5SFinder)(unsafe.Pointer(bp+104)).FaFirst)
}
// The first time the bm25() function is called for a query, an instance
// of the following structure is allocated and populated.
type Fts5Bm25Data1 = struct {
FnPhrase int32
F__ccgo_pad1 [4]byte
Favgdl float64
FaIDF uintptr
FaFreq uintptr
}
// The first time the bm25() function is called for a query, an instance
// of the following structure is allocated and populated.
type Fts5Bm25Data = Fts5Bm25Data1
func fts5CountCb(tls *libc.TLS, pApi uintptr, pFts uintptr, pUserData uintptr) int32 {
var pn uintptr = pUserData
_ = pApi
_ = pFts
*(*Sqlite3_int64)(unsafe.Pointer(pn))++
return SQLITE_OK
}
func fts5Bm25GetData(tls *libc.TLS, pApi uintptr, pFts uintptr, ppData uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var rc int32 = SQLITE_OK
var p uintptr
p = (*struct {
f func(*libc.TLS, uintptr, int32) uintptr
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxGetAuxdata})).f(tls, pFts, 0)
if p == uintptr(0) {
var nPhrase int32
*(*Sqlite3_int64)(unsafe.Pointer(bp)) = int64(0)
*(*Sqlite3_int64)(unsafe.Pointer(bp + 8)) = int64(0)
var nByte Sqlite3_int64
var i int32
nPhrase = (*struct {
f func(*libc.TLS, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxPhraseCount})).f(tls, pFts)
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5Bm25Data{})) + uint64(nPhrase*2)*uint64(unsafe.Sizeof(float64(0))))
p = Xsqlite3_malloc64(tls, uint64(nByte))
if p == uintptr(0) {
rc = SQLITE_NOMEM
} else {
libc.X__builtin___memset_chk(tls, p, 0, Size_t(nByte), libc.X__builtin_object_size(tls, p, 0))
(*Fts5Bm25Data)(unsafe.Pointer(p)).FnPhrase = nPhrase
(*Fts5Bm25Data)(unsafe.Pointer(p)).FaIDF = p + 1*32
(*Fts5Bm25Data)(unsafe.Pointer(p)).FaFreq = (*Fts5Bm25Data)(unsafe.Pointer(p)).FaIDF + uintptr(nPhrase)*8
}
if rc == SQLITE_OK {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxRowCount})).f(tls, pFts, bp)
}
if rc == SQLITE_OK {
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxColumnTotalSize})).f(tls, pFts, -1, bp+8)
}
if rc == SQLITE_OK {
(*Fts5Bm25Data)(unsafe.Pointer(p)).Favgdl = float64(*(*Sqlite3_int64)(unsafe.Pointer(bp + 8))) / float64(*(*Sqlite3_int64)(unsafe.Pointer(bp)))
}
for i = 0; rc == SQLITE_OK && i < nPhrase; i++ {
*(*Sqlite3_int64)(unsafe.Pointer(bp + 16)) = int64(0)
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxQueryPhrase})).f(tls, pFts, i, bp+16, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr) int32
}{fts5CountCb})))
if rc == SQLITE_OK {
var idf float64 = libc.Xlog(tls, (float64(*(*Sqlite3_int64)(unsafe.Pointer(bp))-*(*Sqlite3_int64)(unsafe.Pointer(bp + 16)))+0.5)/(float64(*(*Sqlite3_int64)(unsafe.Pointer(bp + 16)))+0.5))
if idf <= 0.0 {
idf = 1e-6
}
*(*float64)(unsafe.Pointer((*Fts5Bm25Data)(unsafe.Pointer(p)).FaIDF + uintptr(i)*8)) = idf
}
}
if rc != SQLITE_OK {
Xsqlite3_free(tls, p)
} else {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxSetAuxdata})).f(tls, pFts, p, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
}
if rc != SQLITE_OK {
p = uintptr(0)
}
}
*(*uintptr)(unsafe.Pointer(ppData)) = p
return rc
}
func fts5Bm25Function(tls *libc.TLS, pApi uintptr, pFts uintptr, pCtx uintptr, nVal int32, apVal uintptr) {
bp := tls.Alloc(28)
defer tls.Free(28)
var k1 float64 = 1.2
var b float64 = 0.75
var rc int32
var score float64 = 0.0
var i int32
*(*int32)(unsafe.Pointer(bp + 8)) = 0
var D float64 = 0.0
var aFreq uintptr = uintptr(0)
rc = fts5Bm25GetData(tls, pApi, pFts, bp)
if rc == SQLITE_OK {
aFreq = (*Fts5Bm25Data)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaFreq
libc.X__builtin___memset_chk(tls, aFreq, 0, uint64(unsafe.Sizeof(float64(0)))*uint64((*Fts5Bm25Data)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FnPhrase), libc.X__builtin_object_size(tls, aFreq, 0))
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxInstCount})).f(tls, pFts, bp+8)
}
for i = 0; rc == SQLITE_OK && i < *(*int32)(unsafe.Pointer(bp + 8)); i++ {
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxInst})).f(tls, pFts, i, bp+12, bp+16, bp+20)
if rc == SQLITE_OK {
var w float64
if nVal > *(*int32)(unsafe.Pointer(bp + 16)) {
w = Xsqlite3_value_double(tls, *(*uintptr)(unsafe.Pointer(apVal + uintptr(*(*int32)(unsafe.Pointer(bp + 16)))*8)))
} else {
w = 1.0
}
*(*float64)(unsafe.Pointer(aFreq + uintptr(*(*int32)(unsafe.Pointer(bp + 12)))*8)) += w
}
}
if rc == SQLITE_OK {
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExtensionApi)(unsafe.Pointer(pApi)).FxColumnSize})).f(tls, pFts, -1, bp+24)
D = float64(*(*int32)(unsafe.Pointer(bp + 24)))
}
if rc == SQLITE_OK {
for i = 0; i < (*Fts5Bm25Data)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FnPhrase; i++ {
score = score + *(*float64)(unsafe.Pointer((*Fts5Bm25Data)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaIDF + uintptr(i)*8))*(*(*float64)(unsafe.Pointer(aFreq + uintptr(i)*8))*(k1+1.0)/(*(*float64)(unsafe.Pointer(aFreq + uintptr(i)*8))+k1*(float64(1)-b+b*D/(*Fts5Bm25Data)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Favgdl)))
}
Xsqlite3_result_double(tls, pCtx, -1.0*score)
} else {
Xsqlite3_result_error_code(tls, pCtx, rc)
}
}
func sqlite3Fts5AuxInit(tls *libc.TLS, pApi uintptr) int32 {
bp := tls.Alloc(96)
defer tls.Free(96)
*(*[3]Builtin)(unsafe.Pointer(bp)) = [3]Builtin{
{FzFunc: ts + 34300, FxFunc: *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr)
}{fts5SnippetFunction}))},
{FzFunc: ts + 34308, FxFunc: *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr)
}{fts5HighlightFunction}))},
{FzFunc: ts + 34318, FxFunc: *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr)
}{fts5Bm25Function}))},
}
var rc int32 = SQLITE_OK
var i int32
for i = 0; rc == SQLITE_OK && i < int32(uint64(unsafe.Sizeof([3]Builtin{}))/uint64(unsafe.Sizeof(Builtin{}))); i++ {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, Fts5_extension_function, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5_api)(unsafe.Pointer(pApi)).FxCreateFunction})).f(tls, pApi,
(*Builtin)(unsafe.Pointer(bp+uintptr(i)*32)).FzFunc,
(*Builtin)(unsafe.Pointer(bp+uintptr(i)*32)).FpUserData,
(*Builtin)(unsafe.Pointer(bp+uintptr(i)*32)).FxFunc,
(*Builtin)(unsafe.Pointer(bp+uintptr(i)*32)).FxDestroy)
}
return rc
}
type Builtin = struct {
FzFunc uintptr
FpUserData uintptr
FxFunc Fts5_extension_function
FxDestroy uintptr
}
func sqlite3Fts5BufferSize(tls *libc.TLS, pRc uintptr, pBuf uintptr, nByte U32) int32 {
if U32((*Fts5Buffer)(unsafe.Pointer(pBuf)).FnSpace) < nByte {
var nNew U64
if (*Fts5Buffer)(unsafe.Pointer(pBuf)).FnSpace != 0 {
nNew = uint64((*Fts5Buffer)(unsafe.Pointer(pBuf)).FnSpace)
} else {
nNew = uint64(64)
}
var pNew uintptr
for nNew < U64(nByte) {
nNew = nNew * uint64(2)
}
pNew = Xsqlite3_realloc64(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp, nNew)
if pNew == uintptr(0) {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
return 1
} else {
(*Fts5Buffer)(unsafe.Pointer(pBuf)).FnSpace = int32(nNew)
(*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp = pNew
}
}
return 0
}
func sqlite3Fts5BufferAppendVarint(tls *libc.TLS, pRc uintptr, pBuf uintptr, iVal I64) {
if func() int32 {
if U32((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn)+U32(9) <= U32((*Fts5Buffer)(unsafe.Pointer(pBuf)).FnSpace) {
return 0
}
return sqlite3Fts5BufferSize(tls, pRc, pBuf, uint32(9+(*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn))
}() != 0 {
return
}
*(*int32)(unsafe.Pointer(pBuf + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), uint64(iVal))
}
func sqlite3Fts5Put32(tls *libc.TLS, aBuf uintptr, iVal int32) {
*(*U8)(unsafe.Pointer(aBuf)) = U8(iVal >> 24 & 0x00FF)
*(*U8)(unsafe.Pointer(aBuf + 1)) = U8(iVal >> 16 & 0x00FF)
*(*U8)(unsafe.Pointer(aBuf + 2)) = U8(iVal >> 8 & 0x00FF)
*(*U8)(unsafe.Pointer(aBuf + 3)) = U8(iVal >> 0 & 0x00FF)
}
func sqlite3Fts5Get32(tls *libc.TLS, aBuf uintptr) int32 {
return int32(U32(*(*U8)(unsafe.Pointer(aBuf)))<<24 + U32(int32(*(*U8)(unsafe.Pointer(aBuf + 1)))<<16) + U32(int32(*(*U8)(unsafe.Pointer(aBuf + 2)))<<8) + U32(*(*U8)(unsafe.Pointer(aBuf + 3))))
}
func sqlite3Fts5BufferAppendBlob(tls *libc.TLS, pRc uintptr, pBuf uintptr, nData U32, pData uintptr) {
if nData != 0 {
if func() int32 {
if U32((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn)+nData <= U32((*Fts5Buffer)(unsafe.Pointer(pBuf)).FnSpace) {
return 0
}
return sqlite3Fts5BufferSize(tls, pRc, pBuf, nData+U32((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn))
}() != 0 {
return
}
libc.X__builtin___memcpy_chk(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), pData, uint64(nData), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), 0))
*(*int32)(unsafe.Pointer(pBuf + 8)) += int32(nData)
}
}
func sqlite3Fts5BufferAppendString(tls *libc.TLS, pRc uintptr, pBuf uintptr, zStr uintptr) {
var nStr int32 = int32(libc.Xstrlen(tls, zStr))
sqlite3Fts5BufferAppendBlob(tls, pRc, pBuf, uint32(nStr+1), zStr)
(*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn--
}
func sqlite3Fts5BufferAppendPrintf(tls *libc.TLS, pRc uintptr, pBuf uintptr, zFmt uintptr, va uintptr) {
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK {
var zTmp uintptr
var ap Va_list
_ = ap
ap = va
zTmp = Xsqlite3_vmprintf(tls, zFmt, ap)
_ = ap
if zTmp == uintptr(0) {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
} else {
sqlite3Fts5BufferAppendString(tls, pRc, pBuf, zTmp)
Xsqlite3_free(tls, zTmp)
}
}
}
func sqlite3Fts5Mprintf(tls *libc.TLS, pRc uintptr, zFmt uintptr, va uintptr) uintptr {
var zRet uintptr = uintptr(0)
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK {
var ap Va_list
_ = ap
ap = va
zRet = Xsqlite3_vmprintf(tls, zFmt, ap)
_ = ap
if zRet == uintptr(0) {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
}
}
return zRet
}
func sqlite3Fts5BufferFree(tls *libc.TLS, pBuf uintptr) {
Xsqlite3_free(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp)
libc.X__builtin___memset_chk(tls, pBuf, 0, uint64(unsafe.Sizeof(Fts5Buffer{})), libc.X__builtin_object_size(tls, pBuf, 0))
}
func sqlite3Fts5BufferZero(tls *libc.TLS, pBuf uintptr) {
(*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn = 0
}
func sqlite3Fts5BufferSet(tls *libc.TLS, pRc uintptr, pBuf uintptr, nData int32, pData uintptr) {
(*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn = 0
sqlite3Fts5BufferAppendBlob(tls, pRc, pBuf, uint32(nData), pData)
}
func sqlite3Fts5PoslistNext64(tls *libc.TLS, a uintptr, n int32, pi uintptr, piOff uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var i int32 = *(*int32)(unsafe.Pointer(pi))
if i >= n {
*(*I64)(unsafe.Pointer(piOff)) = int64(-1)
return 1
} else {
var iOff I64 = *(*I64)(unsafe.Pointer(piOff))
{
*(*U32)(unsafe.Pointer(bp)) = U32(*(*U8)(unsafe.Pointer(a + uintptr(libc.PostIncInt32(&i, 1)))))
if *(*U32)(unsafe.Pointer(bp))&U32(0x80) != 0 {
i--
i = i + sqlite3Fts5GetVarint32(tls, a+uintptr(i), bp)
}
}
if *(*U32)(unsafe.Pointer(bp)) <= U32(1) {
if *(*U32)(unsafe.Pointer(bp)) == U32(0) {
*(*int32)(unsafe.Pointer(pi)) = i
return 0
}
{
*(*U32)(unsafe.Pointer(bp)) = U32(*(*U8)(unsafe.Pointer(a + uintptr(libc.PostIncInt32(&i, 1)))))
if *(*U32)(unsafe.Pointer(bp))&U32(0x80) != 0 {
i--
i = i + sqlite3Fts5GetVarint32(tls, a+uintptr(i), bp)
}
}
iOff = I64(*(*U32)(unsafe.Pointer(bp))) << 32
{
*(*U32)(unsafe.Pointer(bp)) = U32(*(*U8)(unsafe.Pointer(a + uintptr(libc.PostIncInt32(&i, 1)))))
if *(*U32)(unsafe.Pointer(bp))&U32(0x80) != 0 {
i--
i = i + sqlite3Fts5GetVarint32(tls, a+uintptr(i), bp)
}
}
if *(*U32)(unsafe.Pointer(bp)) < U32(2) {
*(*I64)(unsafe.Pointer(piOff)) = int64(-1)
return 1
}
*(*I64)(unsafe.Pointer(piOff)) = iOff + I64((*(*U32)(unsafe.Pointer(bp))-U32(2))&U32(0x7FFFFFFF))
} else {
*(*I64)(unsafe.Pointer(piOff)) = iOff&(int64(0x7FFFFFFF)<<32) + (iOff+I64(*(*U32)(unsafe.Pointer(bp))-U32(2)))&int64(0x7FFFFFFF)
}
*(*int32)(unsafe.Pointer(pi)) = i
return 0
}
return int32(0)
}
func sqlite3Fts5PoslistReaderNext(tls *libc.TLS, pIter uintptr) int32 {
if sqlite3Fts5PoslistNext64(tls, (*Fts5PoslistReader)(unsafe.Pointer(pIter)).Fa, (*Fts5PoslistReader)(unsafe.Pointer(pIter)).Fn, pIter+12, pIter+24) != 0 {
(*Fts5PoslistReader)(unsafe.Pointer(pIter)).FbEof = U8(1)
}
return int32((*Fts5PoslistReader)(unsafe.Pointer(pIter)).FbEof)
}
func sqlite3Fts5PoslistReaderInit(tls *libc.TLS, a uintptr, n int32, pIter uintptr) int32 {
libc.X__builtin___memset_chk(tls, pIter, 0, uint64(unsafe.Sizeof(Fts5PoslistReader{})), libc.X__builtin_object_size(tls, pIter, 0))
(*Fts5PoslistReader)(unsafe.Pointer(pIter)).Fa = a
(*Fts5PoslistReader)(unsafe.Pointer(pIter)).Fn = n
sqlite3Fts5PoslistReaderNext(tls, pIter)
return int32((*Fts5PoslistReader)(unsafe.Pointer(pIter)).FbEof)
}
func sqlite3Fts5PoslistSafeAppend(tls *libc.TLS, pBuf uintptr, piPrev uintptr, iPos I64) {
if iPos >= *(*I64)(unsafe.Pointer(piPrev)) {
if iPos&colmask != *(*I64)(unsafe.Pointer(piPrev))&colmask {
*(*U8)(unsafe.Pointer((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp + uintptr(libc.PostIncInt32(&(*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn, 1)))) = U8(1)
*(*int32)(unsafe.Pointer(pBuf + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), uint64(iPos>>32))
*(*I64)(unsafe.Pointer(piPrev)) = iPos & colmask
}
*(*int32)(unsafe.Pointer(pBuf + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), uint64(iPos-*(*I64)(unsafe.Pointer(piPrev))+int64(2)))
*(*I64)(unsafe.Pointer(piPrev)) = iPos
}
}
var colmask I64 = int64(0x7FFFFFFF) << 32
func sqlite3Fts5PoslistWriterAppend(tls *libc.TLS, pBuf uintptr, pWriter uintptr, iPos I64) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
*(*int32)(unsafe.Pointer(bp)) = 0
if func() int32 {
if U32((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn)+U32(5+5+5) <= U32((*Fts5Buffer)(unsafe.Pointer(pBuf)).FnSpace) {
return 0
}
return sqlite3Fts5BufferSize(tls, bp, pBuf, uint32(5+5+5+(*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn))
}() != 0 {
return *(*int32)(unsafe.Pointer(bp))
}
sqlite3Fts5PoslistSafeAppend(tls, pBuf, pWriter, iPos)
return SQLITE_OK
}
func sqlite3Fts5MallocZero(tls *libc.TLS, pRc uintptr, nByte Sqlite3_int64) uintptr {
var pRet uintptr = uintptr(0)
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK {
pRet = Xsqlite3_malloc64(tls, uint64(nByte))
if pRet == uintptr(0) {
if nByte > int64(0) {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
}
} else {
libc.X__builtin___memset_chk(tls, pRet, 0, Size_t(nByte), libc.X__builtin_object_size(tls, pRet, 0))
}
}
return pRet
}
func sqlite3Fts5Strndup(tls *libc.TLS, pRc uintptr, pIn uintptr, nIn int32) uintptr {
var zRet uintptr = uintptr(0)
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK {
if nIn < 0 {
nIn = int32(libc.Xstrlen(tls, pIn))
}
zRet = Xsqlite3_malloc(tls, nIn+1)
if zRet != 0 {
libc.X__builtin___memcpy_chk(tls, zRet, pIn, uint64(nIn), libc.X__builtin_object_size(tls, zRet, 0))
*(*int8)(unsafe.Pointer(zRet + uintptr(nIn))) = int8(0)
} else {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
}
}
return zRet
}
func sqlite3Fts5IsBareword(tls *libc.TLS, t int8) int32 {
bp := tls.Alloc(128)
defer tls.Free(128)
*(*[128]U8)(unsafe.Pointer(bp)) = [128]U8{
U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0),
U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(1), U8(0), U8(0), U8(0), U8(0), U8(0),
U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0),
U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(0), U8(0), U8(0), U8(0), U8(0), U8(0),
U8(0), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1),
U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(0), U8(0), U8(0), U8(0), U8(1),
U8(0), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1),
U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(1), U8(0), U8(0), U8(0), U8(0), U8(0),
}
return libc.Bool32(int32(t)&0x80 != 0 || *(*U8)(unsafe.Pointer(bp + uintptr(int32(t)))) != 0)
}
// ************************************************************************
type Fts5TermsetEntry1 = struct {
FpTerm uintptr
FnTerm int32
FiIdx int32
FpNext uintptr
}
// ************************************************************************
type Fts5TermsetEntry = Fts5TermsetEntry1
func sqlite3Fts5TermsetNew(tls *libc.TLS, pp uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
*(*uintptr)(unsafe.Pointer(pp)) = sqlite3Fts5MallocZero(tls, bp, int64(unsafe.Sizeof(Fts5Termset{})))
return *(*int32)(unsafe.Pointer(bp))
}
func sqlite3Fts5TermsetAdd(tls *libc.TLS, p uintptr, iIdx int32, pTerm uintptr, nTerm int32, pbPresent uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
*(*int32)(unsafe.Pointer(pbPresent)) = 0
if p != 0 {
var i int32
var hash U32 = U32(13)
var pEntry uintptr
for i = nTerm - 1; i >= 0; i-- {
hash = hash<<3 ^ hash ^ U32(*(*int8)(unsafe.Pointer(pTerm + uintptr(i))))
}
hash = hash<<3 ^ hash ^ U32(iIdx)
hash = hash % U32(int32(uint64(unsafe.Sizeof([512]uintptr{}))/uint64(unsafe.Sizeof(uintptr(0)))))
for pEntry = *(*uintptr)(unsafe.Pointer(p + uintptr(hash)*8)); pEntry != 0; pEntry = (*Fts5TermsetEntry)(unsafe.Pointer(pEntry)).FpNext {
if (*Fts5TermsetEntry)(unsafe.Pointer(pEntry)).FiIdx == iIdx &&
(*Fts5TermsetEntry)(unsafe.Pointer(pEntry)).FnTerm == nTerm &&
libc.Xmemcmp(tls, (*Fts5TermsetEntry)(unsafe.Pointer(pEntry)).FpTerm, pTerm, uint64(nTerm)) == 0 {
*(*int32)(unsafe.Pointer(pbPresent)) = 1
break
}
}
if pEntry == uintptr(0) {
pEntry = sqlite3Fts5MallocZero(tls, bp, int64(uint64(unsafe.Sizeof(Fts5TermsetEntry{}))+uint64(nTerm)))
if pEntry != 0 {
(*Fts5TermsetEntry)(unsafe.Pointer(pEntry)).FpTerm = pEntry + 1*24
(*Fts5TermsetEntry)(unsafe.Pointer(pEntry)).FnTerm = nTerm
(*Fts5TermsetEntry)(unsafe.Pointer(pEntry)).FiIdx = iIdx
libc.X__builtin___memcpy_chk(tls, (*Fts5TermsetEntry)(unsafe.Pointer(pEntry)).FpTerm, pTerm, uint64(nTerm), libc.X__builtin_object_size(tls, (*Fts5TermsetEntry)(unsafe.Pointer(pEntry)).FpTerm, 0))
(*Fts5TermsetEntry)(unsafe.Pointer(pEntry)).FpNext = *(*uintptr)(unsafe.Pointer(p + uintptr(hash)*8))
*(*uintptr)(unsafe.Pointer(p + uintptr(hash)*8)) = pEntry
}
}
}
return *(*int32)(unsafe.Pointer(bp))
}
func sqlite3Fts5TermsetFree(tls *libc.TLS, p uintptr) {
if p != 0 {
var i U32
for i = U32(0); i < U32(int32(uint64(unsafe.Sizeof([512]uintptr{}))/uint64(unsafe.Sizeof(uintptr(0))))); i++ {
var pEntry uintptr = *(*uintptr)(unsafe.Pointer(p + uintptr(i)*8))
for pEntry != 0 {
var pDel uintptr = pEntry
pEntry = (*Fts5TermsetEntry)(unsafe.Pointer(pEntry)).FpNext
Xsqlite3_free(tls, pDel)
}
}
Xsqlite3_free(tls, p)
}
}
func fts5_iswhitespace(tls *libc.TLS, x int8) int32 {
return libc.Bool32(int32(x) == ' ')
}
func fts5_isopenquote(tls *libc.TLS, x int8) int32 {
return libc.Bool32(int32(x) == '"' || int32(x) == '\'' || int32(x) == '[' || int32(x) == '`')
}
func fts5ConfigSkipWhitespace(tls *libc.TLS, pIn uintptr) uintptr {
var p uintptr = pIn
if p != 0 {
for fts5_iswhitespace(tls, *(*int8)(unsafe.Pointer(p))) != 0 {
p++
}
}
return p
}
func fts5ConfigSkipBareword(tls *libc.TLS, pIn uintptr) uintptr {
var p uintptr = pIn
for sqlite3Fts5IsBareword(tls, *(*int8)(unsafe.Pointer(p))) != 0 {
p++
}
if p == pIn {
p = uintptr(0)
}
return p
}
func fts5_isdigit(tls *libc.TLS, a int8) int32 {
return libc.Bool32(int32(a) >= '0' && int32(a) <= '9')
}
func fts5ConfigSkipLiteral(tls *libc.TLS, pIn uintptr) uintptr {
var p uintptr = pIn
switch int32(*(*int8)(unsafe.Pointer(p))) {
case 'n':
fallthrough
case 'N':
if Xsqlite3_strnicmp(tls, ts+6584, p, 4) == 0 {
p = p + 4
} else {
p = uintptr(0)
}
break
case 'x':
fallthrough
case 'X':
p++
if int32(*(*int8)(unsafe.Pointer(p))) == '\'' {
p++
for int32(*(*int8)(unsafe.Pointer(p))) >= 'a' && int32(*(*int8)(unsafe.Pointer(p))) <= 'f' ||
int32(*(*int8)(unsafe.Pointer(p))) >= 'A' && int32(*(*int8)(unsafe.Pointer(p))) <= 'F' ||
int32(*(*int8)(unsafe.Pointer(p))) >= '0' && int32(*(*int8)(unsafe.Pointer(p))) <= '9' {
p++
}
if int32(*(*int8)(unsafe.Pointer(p))) == '\'' && int64(0) == (int64(p)-int64(pIn))/1%int64(2) {
p++
} else {
p = uintptr(0)
}
} else {
p = uintptr(0)
}
break
case '\'':
p++
for p != 0 {
if int32(*(*int8)(unsafe.Pointer(p))) == '\'' {
p++
if int32(*(*int8)(unsafe.Pointer(p))) != '\'' {
break
}
}
p++
if int32(*(*int8)(unsafe.Pointer(p))) == 0 {
p = uintptr(0)
}
}
break
default:
if int32(*(*int8)(unsafe.Pointer(p))) == '+' || int32(*(*int8)(unsafe.Pointer(p))) == '-' {
p++
}
for fts5_isdigit(tls, *(*int8)(unsafe.Pointer(p))) != 0 {
p++
}
if int32(*(*int8)(unsafe.Pointer(p))) == '.' && fts5_isdigit(tls, *(*int8)(unsafe.Pointer(p + 1))) != 0 {
p += uintptr(2)
for fts5_isdigit(tls, *(*int8)(unsafe.Pointer(p))) != 0 {
p++
}
}
if p == pIn {
p = uintptr(0)
}
break
}
return p
}
func fts5Dequote(tls *libc.TLS, z uintptr) int32 {
var q int8
var iIn int32 = 1
var iOut int32 = 0
q = *(*int8)(unsafe.Pointer(z))
if int32(q) == '[' {
q = int8(']')
}
for *(*int8)(unsafe.Pointer(z + uintptr(iIn))) != 0 {
if int32(*(*int8)(unsafe.Pointer(z + uintptr(iIn)))) == int32(q) {
if int32(*(*int8)(unsafe.Pointer(z + uintptr(iIn+1)))) != int32(q) {
iIn++
break
} else {
iIn = iIn + 2
*(*int8)(unsafe.Pointer(z + uintptr(libc.PostIncInt32(&iOut, 1)))) = q
}
} else {
*(*int8)(unsafe.Pointer(z + uintptr(libc.PostIncInt32(&iOut, 1)))) = *(*int8)(unsafe.Pointer(z + uintptr(libc.PostIncInt32(&iIn, 1))))
}
}
*(*int8)(unsafe.Pointer(z + uintptr(iOut))) = int8(0)
return iIn
}
func sqlite3Fts5Dequote(tls *libc.TLS, z uintptr) {
var quote int8
quote = *(*int8)(unsafe.Pointer(z))
if int32(quote) == '[' || int32(quote) == '\'' || int32(quote) == '"' || int32(quote) == '`' {
fts5Dequote(tls, z)
}
}
type Fts5Enum1 = struct {
FzName uintptr
FeVal int32
F__ccgo_pad1 [4]byte
}
type Fts5Enum = Fts5Enum1
func fts5ConfigSetEnum(tls *libc.TLS, aEnum uintptr, zEnum uintptr, peVal uintptr) int32 {
var nEnum int32 = int32(libc.Xstrlen(tls, zEnum))
var i int32
var iVal int32 = -1
for i = 0; (*Fts5Enum)(unsafe.Pointer(aEnum+uintptr(i)*16)).FzName != 0; i++ {
if Xsqlite3_strnicmp(tls, (*Fts5Enum)(unsafe.Pointer(aEnum+uintptr(i)*16)).FzName, zEnum, nEnum) == 0 {
if iVal >= 0 {
return SQLITE_ERROR
}
iVal = (*Fts5Enum)(unsafe.Pointer(aEnum + uintptr(i)*16)).FeVal
}
}
*(*int32)(unsafe.Pointer(peVal)) = iVal
if iVal < 0 {
return SQLITE_ERROR
}
return SQLITE_OK
}
func fts5ConfigParseSpecial(tls *libc.TLS, pGlobal uintptr, pConfig uintptr, zCmd uintptr, zArg uintptr, pzErr uintptr) int32 {
bp := tls.Alloc(112)
defer tls.Free(112)
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_OK
var nCmd int32 = int32(libc.Xstrlen(tls, zCmd))
if Xsqlite3_strnicmp(tls, ts+34323, zCmd, nCmd) == 0 {
var nByte int32 = int32(uint64(unsafe.Sizeof(int32(0))) * uint64(FTS5_MAX_PREFIX_INDEXES))
var p uintptr
var bFirst int32 = 1
if (*Fts5Config)(unsafe.Pointer(pConfig)).FaPrefix == uintptr(0) {
(*Fts5Config)(unsafe.Pointer(pConfig)).FaPrefix = sqlite3Fts5MallocZero(tls, bp+40, int64(nByte))
if *(*int32)(unsafe.Pointer(bp + 40)) != 0 {
return *(*int32)(unsafe.Pointer(bp + 40))
}
}
p = zArg
for 1 != 0 {
var nPre int32 = 0
for int32(*(*int8)(unsafe.Pointer(p))) == ' ' {
p++
}
if bFirst == 0 && int32(*(*int8)(unsafe.Pointer(p))) == ',' {
p++
for int32(*(*int8)(unsafe.Pointer(p))) == ' ' {
p++
}
} else if int32(*(*int8)(unsafe.Pointer(p))) == 0 {
break
}
if int32(*(*int8)(unsafe.Pointer(p))) < '0' || int32(*(*int8)(unsafe.Pointer(p))) > '9' {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+34330, 0)
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_ERROR
break
}
if (*Fts5Config)(unsafe.Pointer(pConfig)).FnPrefix == FTS5_MAX_PREFIX_INDEXES {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls,
ts+34361, libc.VaList(bp, FTS5_MAX_PREFIX_INDEXES))
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_ERROR
break
}
for int32(*(*int8)(unsafe.Pointer(p))) >= '0' && int32(*(*int8)(unsafe.Pointer(p))) <= '9' && nPre < 1000 {
nPre = nPre*10 + (int32(*(*int8)(unsafe.Pointer(p))) - '0')
p++
}
if nPre <= 0 || nPre >= 1000 {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+34394, 0)
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_ERROR
break
}
*(*int32)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FaPrefix + uintptr((*Fts5Config)(unsafe.Pointer(pConfig)).FnPrefix)*4)) = nPre
(*Fts5Config)(unsafe.Pointer(pConfig)).FnPrefix++
bFirst = 0
}
return *(*int32)(unsafe.Pointer(bp + 40))
}
if Xsqlite3_strnicmp(tls, ts+34431, zCmd, nCmd) == 0 {
var p uintptr = zArg
var nArg Sqlite3_int64 = Sqlite3_int64(libc.Xstrlen(tls, zArg) + uint64(1))
var azArg uintptr = sqlite3Fts5MallocZero(tls, bp+40, int64(uint64(unsafe.Sizeof(uintptr(0)))*uint64(nArg)))
var pDel uintptr = sqlite3Fts5MallocZero(tls, bp+40, nArg*int64(2))
var pSpace uintptr = pDel
if azArg != 0 && pSpace != 0 {
if (*Fts5Config)(unsafe.Pointer(pConfig)).FpTok != 0 {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+34440, 0)
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_ERROR
} else {
for nArg = int64(0); p != 0 && *(*int8)(unsafe.Pointer(p)) != 0; nArg++ {
var p2 uintptr = fts5ConfigSkipWhitespace(tls, p)
if int32(*(*int8)(unsafe.Pointer(p2))) == '\'' {
p = fts5ConfigSkipLiteral(tls, p2)
} else {
p = fts5ConfigSkipBareword(tls, p2)
}
if p != 0 {
libc.X__builtin___memcpy_chk(tls, pSpace, p2, uint64((int64(p)-int64(p2))/1), libc.X__builtin_object_size(tls, pSpace, 0))
*(*uintptr)(unsafe.Pointer(azArg + uintptr(nArg)*8)) = pSpace
sqlite3Fts5Dequote(tls, pSpace)
pSpace += uintptr((int64(p)-int64(p2))/1 + int64(1))
p = fts5ConfigSkipWhitespace(tls, p)
}
}
if p == uintptr(0) {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+34473, 0)
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_ERROR
} else {
*(*int32)(unsafe.Pointer(bp + 40)) = sqlite3Fts5GetTokenizer(tls, pGlobal,
azArg, int32(nArg), pConfig,
pzErr)
}
}
}
Xsqlite3_free(tls, azArg)
Xsqlite3_free(tls, pDel)
return *(*int32)(unsafe.Pointer(bp + 40))
}
if Xsqlite3_strnicmp(tls, ts+34507, zCmd, nCmd) == 0 {
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeContent != FTS5_CONTENT_NORMAL {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+34515, 0)
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_ERROR
} else {
if *(*int8)(unsafe.Pointer(zArg)) != 0 {
(*Fts5Config)(unsafe.Pointer(pConfig)).FeContent = FTS5_CONTENT_EXTERNAL
(*Fts5Config)(unsafe.Pointer(pConfig)).FzContent = sqlite3Fts5Mprintf(tls, bp+40, ts+34547, libc.VaList(bp+8, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, zArg))
} else {
(*Fts5Config)(unsafe.Pointer(pConfig)).FeContent = FTS5_CONTENT_NONE
}
}
return *(*int32)(unsafe.Pointer(bp + 40))
}
if Xsqlite3_strnicmp(tls, ts+34553, zCmd, nCmd) == 0 {
if (*Fts5Config)(unsafe.Pointer(pConfig)).FzContentRowid != 0 {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+34567, 0)
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_ERROR
} else {
(*Fts5Config)(unsafe.Pointer(pConfig)).FzContentRowid = sqlite3Fts5Strndup(tls, bp+40, zArg, -1)
}
return *(*int32)(unsafe.Pointer(bp + 40))
}
if Xsqlite3_strnicmp(tls, ts+34605, zCmd, nCmd) == 0 {
if int32(*(*int8)(unsafe.Pointer(zArg))) != '0' && int32(*(*int8)(unsafe.Pointer(zArg))) != '1' || int32(*(*int8)(unsafe.Pointer(zArg + 1))) != 0 {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+34616, 0)
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_ERROR
} else {
(*Fts5Config)(unsafe.Pointer(pConfig)).FbColumnsize = libc.Bool32(int32(*(*int8)(unsafe.Pointer(zArg))) == '1')
}
return *(*int32)(unsafe.Pointer(bp + 40))
}
if Xsqlite3_strnicmp(tls, ts+5478, zCmd, nCmd) == 0 {
*(*[4]Fts5Enum)(unsafe.Pointer(bp + 48)) = [4]Fts5Enum{
{FzName: ts + 8429, FeVal: FTS5_DETAIL_NONE},
{FzName: ts + 17767},
{FzName: ts + 34651, FeVal: FTS5_DETAIL_COLUMNS},
{},
}
if libc.AssignPtrInt32(bp+40, fts5ConfigSetEnum(tls, bp+48, zArg, pConfig+92)) != 0 {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+34659, 0)
}
return *(*int32)(unsafe.Pointer(bp + 40))
}
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+34690, libc.VaList(bp+24, nCmd, zCmd))
return SQLITE_ERROR
}
func fts5ConfigDefaultTokenizer(tls *libc.TLS, pGlobal uintptr, pConfig uintptr) int32 {
return sqlite3Fts5GetTokenizer(tls, pGlobal, uintptr(0), 0, pConfig, uintptr(0))
}
func fts5ConfigGobbleWord(tls *libc.TLS, pRc uintptr, zIn uintptr, pzOut uintptr, pbQuoted uintptr) uintptr {
var zRet uintptr = uintptr(0)
var nIn Sqlite3_int64 = Sqlite3_int64(libc.Xstrlen(tls, zIn))
var zOut uintptr = Xsqlite3_malloc64(tls, uint64(nIn+int64(1)))
*(*int32)(unsafe.Pointer(pbQuoted)) = 0
*(*uintptr)(unsafe.Pointer(pzOut)) = uintptr(0)
if zOut == uintptr(0) {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
} else {
libc.X__builtin___memcpy_chk(tls, zOut, zIn, Size_t(nIn+int64(1)), libc.X__builtin_object_size(tls, zOut, 0))
if fts5_isopenquote(tls, *(*int8)(unsafe.Pointer(zOut))) != 0 {
var ii int32 = fts5Dequote(tls, zOut)
zRet = zIn + uintptr(ii)
*(*int32)(unsafe.Pointer(pbQuoted)) = 1
} else {
zRet = fts5ConfigSkipBareword(tls, zIn)
if zRet != 0 {
*(*int8)(unsafe.Pointer(zOut + uintptr((int64(zRet)-int64(zIn))/1))) = int8(0)
}
}
}
if zRet == uintptr(0) {
Xsqlite3_free(tls, zOut)
} else {
*(*uintptr)(unsafe.Pointer(pzOut)) = zOut
}
return zRet
}
func fts5ConfigParseColumn(tls *libc.TLS, p uintptr, zCol uintptr, zArg uintptr, pzErr uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var rc int32 = SQLITE_OK
if 0 == Xsqlite3_stricmp(tls, zCol, ts+22641) ||
0 == Xsqlite3_stricmp(tls, zCol, ts+16673) {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+34718, libc.VaList(bp, zCol))
rc = SQLITE_ERROR
} else if zArg != 0 {
if 0 == Xsqlite3_stricmp(tls, zArg, ts+34748) {
*(*U8)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(p)).FabUnindexed + uintptr((*Fts5Config)(unsafe.Pointer(p)).FnCol))) = U8(1)
} else {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+34758, libc.VaList(bp+8, zArg))
rc = SQLITE_ERROR
}
}
*(*uintptr)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(p)).FazCol + uintptr(libc.PostIncInt32(&(*Fts5Config)(unsafe.Pointer(p)).FnCol, 1))*8)) = zCol
return rc
}
func fts5ConfigMakeExprlist(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
var i int32
*(*int32)(unsafe.Pointer(bp + 24)) = SQLITE_OK
*(*Fts5Buffer)(unsafe.Pointer(bp + 32)) = Fts5Buffer{}
sqlite3Fts5BufferAppendPrintf(tls, bp+24, bp+32, ts+34789, libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(p)).FzContentRowid))
if (*Fts5Config)(unsafe.Pointer(p)).FeContent != FTS5_CONTENT_NONE {
for i = 0; i < (*Fts5Config)(unsafe.Pointer(p)).FnCol; i++ {
if (*Fts5Config)(unsafe.Pointer(p)).FeContent == FTS5_CONTENT_EXTERNAL {
sqlite3Fts5BufferAppendPrintf(tls, bp+24, bp+32, ts+34794, libc.VaList(bp+8, *(*uintptr)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(p)).FazCol + uintptr(i)*8))))
} else {
sqlite3Fts5BufferAppendPrintf(tls, bp+24, bp+32, ts+34801, libc.VaList(bp+16, i))
}
}
}
(*Fts5Config)(unsafe.Pointer(p)).FzContentExprlist = (*Fts5Buffer)(unsafe.Pointer(bp + 32)).Fp
return *(*int32)(unsafe.Pointer(bp + 24))
}
func sqlite3Fts5ConfigParse(tls *libc.TLS, pGlobal uintptr, db uintptr, nArg int32, azArg uintptr, ppOut uintptr, pzErr uintptr) int32 {
bp := tls.Alloc(76)
defer tls.Free(76)
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_OK
var pRet uintptr
var i int32
var nByte Sqlite3_int64
*(*uintptr)(unsafe.Pointer(ppOut)) = libc.AssignUintptr(&pRet, Xsqlite3_malloc(tls, int32(unsafe.Sizeof(Fts5Config{}))))
if pRet == uintptr(0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, pRet, 0, uint64(unsafe.Sizeof(Fts5Config{})), libc.X__builtin_object_size(tls, pRet, 0))
(*Fts5Config)(unsafe.Pointer(pRet)).Fdb = db
(*Fts5Config)(unsafe.Pointer(pRet)).FiCookie = -1
nByte = Sqlite3_int64(uint64(nArg) * (uint64(unsafe.Sizeof(uintptr(0))) + uint64(unsafe.Sizeof(U8(0)))))
(*Fts5Config)(unsafe.Pointer(pRet)).FazCol = sqlite3Fts5MallocZero(tls, bp+40, nByte)
(*Fts5Config)(unsafe.Pointer(pRet)).FabUnindexed = func() uintptr {
if (*Fts5Config)(unsafe.Pointer(pRet)).FazCol != 0 {
return (*Fts5Config)(unsafe.Pointer(pRet)).FazCol + uintptr(nArg)*8
}
return uintptr(0)
}()
(*Fts5Config)(unsafe.Pointer(pRet)).FzDb = sqlite3Fts5Strndup(tls, bp+40, *(*uintptr)(unsafe.Pointer(azArg + 1*8)), -1)
(*Fts5Config)(unsafe.Pointer(pRet)).FzName = sqlite3Fts5Strndup(tls, bp+40, *(*uintptr)(unsafe.Pointer(azArg + 2*8)), -1)
(*Fts5Config)(unsafe.Pointer(pRet)).FbColumnsize = 1
(*Fts5Config)(unsafe.Pointer(pRet)).FeDetail = FTS5_DETAIL_FULL
if *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK && Xsqlite3_stricmp(tls, (*Fts5Config)(unsafe.Pointer(pRet)).FzName, ts+22641) == 0 {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+34809, libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pRet)).FzName))
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_ERROR
}
for i = 3; *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK && i < nArg; i++ {
var zOrig uintptr = *(*uintptr)(unsafe.Pointer(azArg + uintptr(i)*8))
var z uintptr
*(*uintptr)(unsafe.Pointer(bp + 48)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 64)) = uintptr(0)
var bOption int32 = 0
*(*int32)(unsafe.Pointer(bp + 56)) = 0
z = fts5ConfigGobbleWord(tls, bp+40, zOrig, bp+48, bp+56)
z = fts5ConfigSkipWhitespace(tls, z)
if z != 0 && int32(*(*int8)(unsafe.Pointer(z))) == '=' {
bOption = 1
z++
if *(*int32)(unsafe.Pointer(bp + 56)) != 0 {
z = uintptr(0)
}
}
z = fts5ConfigSkipWhitespace(tls, z)
if z != 0 && *(*int8)(unsafe.Pointer(z)) != 0 {
z = fts5ConfigGobbleWord(tls, bp+40, z, bp+64, bp+72)
if z != 0 && *(*int8)(unsafe.Pointer(z)) != 0 {
z = uintptr(0)
}
}
if *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK {
if z == uintptr(0) {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+34838, libc.VaList(bp+8, zOrig))
*(*int32)(unsafe.Pointer(bp + 40)) = SQLITE_ERROR
} else {
if bOption != 0 {
*(*int32)(unsafe.Pointer(bp + 40)) = fts5ConfigParseSpecial(tls, pGlobal, pRet,
func() uintptr {
if *(*uintptr)(unsafe.Pointer(bp + 48)) != 0 {
return *(*uintptr)(unsafe.Pointer(bp + 48))
}
return ts + 1547
}(),
func() uintptr {
if *(*uintptr)(unsafe.Pointer(bp + 64)) != 0 {
return *(*uintptr)(unsafe.Pointer(bp + 64))
}
return ts + 1547
}(),
pzErr)
} else {
*(*int32)(unsafe.Pointer(bp + 40)) = fts5ConfigParseColumn(tls, pRet, *(*uintptr)(unsafe.Pointer(bp + 48)), *(*uintptr)(unsafe.Pointer(bp + 64)), pzErr)
*(*uintptr)(unsafe.Pointer(bp + 48)) = uintptr(0)
}
}
}
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 48)))
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 64)))
}
if *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK && (*Fts5Config)(unsafe.Pointer(pRet)).FpTok == uintptr(0) {
*(*int32)(unsafe.Pointer(bp + 40)) = fts5ConfigDefaultTokenizer(tls, pGlobal, pRet)
}
if *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK && (*Fts5Config)(unsafe.Pointer(pRet)).FzContent == uintptr(0) {
var zTail uintptr = uintptr(0)
if (*Fts5Config)(unsafe.Pointer(pRet)).FeContent == FTS5_CONTENT_NORMAL {
zTail = ts + 34507
} else if (*Fts5Config)(unsafe.Pointer(pRet)).FbColumnsize != 0 {
zTail = ts + 34858
}
if zTail != 0 {
(*Fts5Config)(unsafe.Pointer(pRet)).FzContent = sqlite3Fts5Mprintf(tls,
bp+40, ts+34866, libc.VaList(bp+16, (*Fts5Config)(unsafe.Pointer(pRet)).FzDb, (*Fts5Config)(unsafe.Pointer(pRet)).FzName, zTail))
}
}
if *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK && (*Fts5Config)(unsafe.Pointer(pRet)).FzContentRowid == uintptr(0) {
(*Fts5Config)(unsafe.Pointer(pRet)).FzContentRowid = sqlite3Fts5Strndup(tls, bp+40, ts+16673, -1)
}
if *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 40)) = fts5ConfigMakeExprlist(tls, pRet)
}
if *(*int32)(unsafe.Pointer(bp + 40)) != SQLITE_OK {
sqlite3Fts5ConfigFree(tls, pRet)
*(*uintptr)(unsafe.Pointer(ppOut)) = uintptr(0)
}
return *(*int32)(unsafe.Pointer(bp + 40))
}
func sqlite3Fts5ConfigFree(tls *libc.TLS, pConfig uintptr) {
if pConfig != 0 {
var i int32
if (*Fts5Config)(unsafe.Pointer(pConfig)).FpTok != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*Fts5_tokenizer)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FpTokApi)).FxDelete})).f(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).FpTok)
}
Xsqlite3_free(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb)
Xsqlite3_free(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName)
for i = 0; i < (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol; i++ {
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FazCol + uintptr(i)*8)))
}
Xsqlite3_free(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).FazCol)
Xsqlite3_free(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).FaPrefix)
Xsqlite3_free(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).FzRank)
Xsqlite3_free(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).FzRankArgs)
Xsqlite3_free(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).FzContent)
Xsqlite3_free(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).FzContentRowid)
Xsqlite3_free(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).FzContentExprlist)
Xsqlite3_free(tls, pConfig)
}
}
func sqlite3Fts5ConfigDeclareVtab(tls *libc.TLS, pConfig uintptr) int32 {
bp := tls.Alloc(52)
defer tls.Free(52)
var i int32
*(*int32)(unsafe.Pointer(bp + 48)) = SQLITE_OK
var zSql uintptr
zSql = sqlite3Fts5Mprintf(tls, bp+48, ts+34877, 0)
for i = 0; zSql != 0 && i < (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol; i++ {
var zSep uintptr = func() uintptr {
if i == 0 {
return ts + 1547
}
return ts + 15017
}()
zSql = sqlite3Fts5Mprintf(tls, bp+48, ts+34893, libc.VaList(bp, zSql, zSep, *(*uintptr)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FazCol + uintptr(i)*8))))
}
zSql = sqlite3Fts5Mprintf(tls, bp+48, ts+34900,
libc.VaList(bp+24, zSql, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName, ts+22641))
if zSql != 0 {
*(*int32)(unsafe.Pointer(bp + 48)) = Xsqlite3_declare_vtab(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb, zSql)
Xsqlite3_free(tls, zSql)
}
return *(*int32)(unsafe.Pointer(bp + 48))
}
func sqlite3Fts5Tokenize(tls *libc.TLS, pConfig uintptr, flags int32, pText uintptr, nText int32, pCtx uintptr, xToken uintptr) int32 {
if pText == uintptr(0) {
return SQLITE_OK
}
return (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5_tokenizer)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FpTokApi)).FxTokenize})).f(tls,
(*Fts5Config)(unsafe.Pointer(pConfig)).FpTok, pCtx, flags, pText, nText, xToken)
}
func fts5ConfigSkipArgs(tls *libc.TLS, pIn uintptr) uintptr {
var p uintptr = pIn
for 1 != 0 {
p = fts5ConfigSkipWhitespace(tls, p)
p = fts5ConfigSkipLiteral(tls, p)
p = fts5ConfigSkipWhitespace(tls, p)
if p == uintptr(0) || int32(*(*int8)(unsafe.Pointer(p))) == ')' {
break
}
if int32(*(*int8)(unsafe.Pointer(p))) != ',' {
p = uintptr(0)
break
}
p++
}
return p
}
func sqlite3Fts5ConfigParseRank(tls *libc.TLS, zIn uintptr, pzRank uintptr, pzRankArgs uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var p uintptr = zIn
var pRank uintptr
var zRank uintptr = uintptr(0)
var zRankArgs uintptr = uintptr(0)
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
*(*uintptr)(unsafe.Pointer(pzRank)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(pzRankArgs)) = uintptr(0)
if p == uintptr(0) {
*(*int32)(unsafe.Pointer(bp)) = SQLITE_ERROR
} else {
p = fts5ConfigSkipWhitespace(tls, p)
pRank = p
p = fts5ConfigSkipBareword(tls, p)
if p != 0 {
zRank = sqlite3Fts5MallocZero(tls, bp, (int64(uintptr(1)+p)-int64(pRank))/1)
if zRank != 0 {
libc.X__builtin___memcpy_chk(tls, zRank, pRank, uint64((int64(p)-int64(pRank))/1), libc.X__builtin_object_size(tls, zRank, 0))
}
} else {
*(*int32)(unsafe.Pointer(bp)) = SQLITE_ERROR
}
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
p = fts5ConfigSkipWhitespace(tls, p)
if int32(*(*int8)(unsafe.Pointer(p))) != '(' {
*(*int32)(unsafe.Pointer(bp)) = SQLITE_ERROR
}
p++
}
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
var pArgs uintptr
p = fts5ConfigSkipWhitespace(tls, p)
pArgs = p
if int32(*(*int8)(unsafe.Pointer(p))) != ')' {
p = fts5ConfigSkipArgs(tls, p)
if p == uintptr(0) {
*(*int32)(unsafe.Pointer(bp)) = SQLITE_ERROR
} else {
zRankArgs = sqlite3Fts5MallocZero(tls, bp, (int64(uintptr(1)+p)-int64(pArgs))/1)
if zRankArgs != 0 {
libc.X__builtin___memcpy_chk(tls, zRankArgs, pArgs, uint64((int64(p)-int64(pArgs))/1), libc.X__builtin_object_size(tls, zRankArgs, 0))
}
}
}
}
}
if *(*int32)(unsafe.Pointer(bp)) != SQLITE_OK {
Xsqlite3_free(tls, zRank)
} else {
*(*uintptr)(unsafe.Pointer(pzRank)) = zRank
*(*uintptr)(unsafe.Pointer(pzRankArgs)) = zRankArgs
}
return *(*int32)(unsafe.Pointer(bp))
}
func sqlite3Fts5ConfigSetValue(tls *libc.TLS, pConfig uintptr, zKey uintptr, pVal uintptr, pbBadkey uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var rc int32 = SQLITE_OK
if 0 == Xsqlite3_stricmp(tls, zKey, ts+34926) {
var pgsz int32 = 0
if SQLITE_INTEGER == Xsqlite3_value_numeric_type(tls, pVal) {
pgsz = Xsqlite3_value_int(tls, pVal)
}
if pgsz < 32 || pgsz > 64*1024 {
*(*int32)(unsafe.Pointer(pbBadkey)) = 1
} else {
(*Fts5Config)(unsafe.Pointer(pConfig)).Fpgsz = pgsz
}
} else if 0 == Xsqlite3_stricmp(tls, zKey, ts+34931) {
var nHashSize int32 = -1
if SQLITE_INTEGER == Xsqlite3_value_numeric_type(tls, pVal) {
nHashSize = Xsqlite3_value_int(tls, pVal)
}
if nHashSize <= 0 {
*(*int32)(unsafe.Pointer(pbBadkey)) = 1
} else {
(*Fts5Config)(unsafe.Pointer(pConfig)).FnHashSize = nHashSize
}
} else if 0 == Xsqlite3_stricmp(tls, zKey, ts+34940) {
var nAutomerge int32 = -1
if SQLITE_INTEGER == Xsqlite3_value_numeric_type(tls, pVal) {
nAutomerge = Xsqlite3_value_int(tls, pVal)
}
if nAutomerge < 0 || nAutomerge > 64 {
*(*int32)(unsafe.Pointer(pbBadkey)) = 1
} else {
if nAutomerge == 1 {
nAutomerge = FTS5_DEFAULT_AUTOMERGE
}
(*Fts5Config)(unsafe.Pointer(pConfig)).FnAutomerge = nAutomerge
}
} else if 0 == Xsqlite3_stricmp(tls, zKey, ts+34950) {
var nUsermerge int32 = -1
if SQLITE_INTEGER == Xsqlite3_value_numeric_type(tls, pVal) {
nUsermerge = Xsqlite3_value_int(tls, pVal)
}
if nUsermerge < 2 || nUsermerge > 16 {
*(*int32)(unsafe.Pointer(pbBadkey)) = 1
} else {
(*Fts5Config)(unsafe.Pointer(pConfig)).FnUsermerge = nUsermerge
}
} else if 0 == Xsqlite3_stricmp(tls, zKey, ts+34960) {
var nCrisisMerge int32 = -1
if SQLITE_INTEGER == Xsqlite3_value_numeric_type(tls, pVal) {
nCrisisMerge = Xsqlite3_value_int(tls, pVal)
}
if nCrisisMerge < 0 {
*(*int32)(unsafe.Pointer(pbBadkey)) = 1
} else {
if nCrisisMerge <= 1 {
nCrisisMerge = FTS5_DEFAULT_CRISISMERGE
}
if nCrisisMerge >= FTS5_MAX_SEGMENT {
nCrisisMerge = FTS5_MAX_SEGMENT - 1
}
(*Fts5Config)(unsafe.Pointer(pConfig)).FnCrisisMerge = nCrisisMerge
}
} else if 0 == Xsqlite3_stricmp(tls, zKey, ts+22641) {
var zIn uintptr = Xsqlite3_value_text(tls, pVal)
rc = sqlite3Fts5ConfigParseRank(tls, zIn, bp, bp+8)
if rc == SQLITE_OK {
Xsqlite3_free(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).FzRank)
Xsqlite3_free(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).FzRankArgs)
(*Fts5Config)(unsafe.Pointer(pConfig)).FzRank = *(*uintptr)(unsafe.Pointer(bp))
(*Fts5Config)(unsafe.Pointer(pConfig)).FzRankArgs = *(*uintptr)(unsafe.Pointer(bp + 8))
} else if rc == SQLITE_ERROR {
rc = SQLITE_OK
*(*int32)(unsafe.Pointer(pbBadkey)) = 1
}
} else {
*(*int32)(unsafe.Pointer(pbBadkey)) = 1
}
return rc
}
func sqlite3Fts5ConfigLoad(tls *libc.TLS, pConfig uintptr, iCookie int32) int32 {
bp := tls.Alloc(52)
defer tls.Free(52)
var zSelect uintptr = ts + 34972
var zSql uintptr
*(*uintptr)(unsafe.Pointer(bp + 40)) = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 32)) = SQLITE_OK
var iVersion int32 = 0
(*Fts5Config)(unsafe.Pointer(pConfig)).Fpgsz = FTS5_DEFAULT_PAGE_SIZE
(*Fts5Config)(unsafe.Pointer(pConfig)).FnAutomerge = FTS5_DEFAULT_AUTOMERGE
(*Fts5Config)(unsafe.Pointer(pConfig)).FnUsermerge = FTS5_DEFAULT_USERMERGE
(*Fts5Config)(unsafe.Pointer(pConfig)).FnCrisisMerge = FTS5_DEFAULT_CRISISMERGE
(*Fts5Config)(unsafe.Pointer(pConfig)).FnHashSize = 1024 * 1024
zSql = sqlite3Fts5Mprintf(tls, bp+32, zSelect, libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName))
if zSql != 0 {
*(*int32)(unsafe.Pointer(bp + 32)) = Xsqlite3_prepare_v2(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb, zSql, -1, bp+40, uintptr(0))
Xsqlite3_free(tls, zSql)
}
if *(*int32)(unsafe.Pointer(bp + 32)) == SQLITE_OK {
for SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 40))) {
var zK uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 40)), 0)
var pVal uintptr = Xsqlite3_column_value(tls, *(*uintptr)(unsafe.Pointer(bp + 40)), 1)
if 0 == Xsqlite3_stricmp(tls, zK, ts+35004) {
iVersion = Xsqlite3_value_int(tls, pVal)
} else {
*(*int32)(unsafe.Pointer(bp + 48)) = 0
sqlite3Fts5ConfigSetValue(tls, pConfig, zK, pVal, bp+48)
}
}
*(*int32)(unsafe.Pointer(bp + 32)) = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 40)))
}
if *(*int32)(unsafe.Pointer(bp + 32)) == SQLITE_OK && iVersion != FTS5_CURRENT_VERSION {
*(*int32)(unsafe.Pointer(bp + 32)) = SQLITE_ERROR
if (*Fts5Config)(unsafe.Pointer(pConfig)).FpzErrmsg != 0 {
*(*uintptr)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FpzErrmsg)) = Xsqlite3_mprintf(tls,
ts+35012,
libc.VaList(bp+16, iVersion, FTS5_CURRENT_VERSION))
}
}
if *(*int32)(unsafe.Pointer(bp + 32)) == SQLITE_OK {
(*Fts5Config)(unsafe.Pointer(pConfig)).FiCookie = iCookie
}
return *(*int32)(unsafe.Pointer(bp + 32))
}
type Fts5ExprTerm1 = struct {
FbPrefix U8
FbFirst U8
F__ccgo_pad1 [6]byte
FzTerm uintptr
FpIter uintptr
FpSynonym uintptr
}
type Fts5ExprTerm = Fts5ExprTerm1
func sqlite3Fts5ParseError(tls *libc.TLS, pParse uintptr, zFmt uintptr, va uintptr) {
var ap Va_list
_ = ap
ap = va
if (*Fts5Parse)(unsafe.Pointer(pParse)).Frc == SQLITE_OK {
(*Fts5Parse)(unsafe.Pointer(pParse)).FzErr = Xsqlite3_vmprintf(tls, zFmt, ap)
(*Fts5Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_ERROR
}
_ = ap
}
func fts5ExprIsspace(tls *libc.TLS, t int8) int32 {
return libc.Bool32(int32(t) == ' ' || int32(t) == '\t' || int32(t) == '\n' || int32(t) == '\r')
}
func fts5ExprGetToken(tls *libc.TLS, pParse uintptr, pz uintptr, pToken uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var z uintptr = *(*uintptr)(unsafe.Pointer(pz))
var tok int32
for fts5ExprIsspace(tls, *(*int8)(unsafe.Pointer(z))) != 0 {
z++
}
(*Fts5Token)(unsafe.Pointer(pToken)).Fp = z
(*Fts5Token)(unsafe.Pointer(pToken)).Fn = 1
switch int32(*(*int8)(unsafe.Pointer(z))) {
case '(':
tok = FTS5_LP
break
case ')':
tok = FTS5_RP
break
case '{':
tok = FTS5_LCP
break
case '}':
tok = FTS5_RCP
break
case ':':
tok = FTS5_COLON
break
case ',':
tok = FTS5_COMMA
break
case '+':
tok = FTS5_PLUS
break
case '*':
tok = FTS5_STAR
break
case '-':
tok = FTS5_MINUS
break
case '^':
tok = FTS5_CARET
break
case 0:
tok = FTS5_EOF
break
case '"':
{
var z2 uintptr
tok = FTS5_STRING
for z2 = z + 1; 1 != 0; z2++ {
if int32(*(*int8)(unsafe.Pointer(z2))) == '"' {
z2++
if int32(*(*int8)(unsafe.Pointer(z2))) != '"' {
break
}
}
if int32(*(*int8)(unsafe.Pointer(z2))) == 0 {
sqlite3Fts5ParseError(tls, pParse, ts+35077, 0)
return FTS5_EOF
}
}
(*Fts5Token)(unsafe.Pointer(pToken)).Fn = int32((int64(z2) - int64(z)) / 1)
break
}
default:
{
var z2 uintptr
if sqlite3Fts5IsBareword(tls, *(*int8)(unsafe.Pointer(z))) == 0 {
sqlite3Fts5ParseError(tls, pParse, ts+35097, libc.VaList(bp, z))
return FTS5_EOF
}
tok = FTS5_STRING
for z2 = z + 1; sqlite3Fts5IsBareword(tls, *(*int8)(unsafe.Pointer(z2))) != 0; z2++ {
}
(*Fts5Token)(unsafe.Pointer(pToken)).Fn = int32((int64(z2) - int64(z)) / 1)
if (*Fts5Token)(unsafe.Pointer(pToken)).Fn == 2 && libc.Xmemcmp(tls, (*Fts5Token)(unsafe.Pointer(pToken)).Fp, ts+35128, uint64(2)) == 0 {
tok = FTS5_OR
}
if (*Fts5Token)(unsafe.Pointer(pToken)).Fn == 3 && libc.Xmemcmp(tls, (*Fts5Token)(unsafe.Pointer(pToken)).Fp, ts+35131, uint64(3)) == 0 {
tok = FTS5_NOT
}
if (*Fts5Token)(unsafe.Pointer(pToken)).Fn == 3 && libc.Xmemcmp(tls, (*Fts5Token)(unsafe.Pointer(pToken)).Fp, ts+30513, uint64(3)) == 0 {
tok = FTS5_AND
}
break
}
}
*(*uintptr)(unsafe.Pointer(pz)) = (*Fts5Token)(unsafe.Pointer(pToken)).Fp + uintptr((*Fts5Token)(unsafe.Pointer(pToken)).Fn)
return tok
}
func fts5ParseAlloc(tls *libc.TLS, t U64) uintptr {
return Xsqlite3_malloc64(tls, uint64(Sqlite3_int64(t)))
}
func fts5ParseFree(tls *libc.TLS, p uintptr) {
Xsqlite3_free(tls, p)
}
func sqlite3Fts5ExprNew(tls *libc.TLS, pConfig uintptr, bPhraseToAnd int32, iCol int32, zExpr uintptr, ppNew uintptr, pzErr uintptr) int32 {
bp := tls.Alloc(72)
defer tls.Free(72)
*(*uintptr)(unsafe.Pointer(bp + 48)) = zExpr
var t int32
var pEngine uintptr
var pNew uintptr
*(*uintptr)(unsafe.Pointer(ppNew)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(pzErr)) = uintptr(0)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Fts5Parse{})), libc.X__builtin_object_size(tls, bp, 0))
(*Fts5Parse)(unsafe.Pointer(bp)).FbPhraseToAnd = bPhraseToAnd
pEngine = sqlite3Fts5ParserAlloc(tls, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, U64) uintptr }{fts5ParseAlloc})))
if pEngine == uintptr(0) {
return SQLITE_NOMEM
}
(*Fts5Parse)(unsafe.Pointer(bp)).FpConfig = pConfig
for __ccgo := true; __ccgo; __ccgo = (*Fts5Parse)(unsafe.Pointer(bp)).Frc == SQLITE_OK && t != FTS5_EOF {
t = fts5ExprGetToken(tls, bp, bp+48, bp+56)
sqlite3Fts5Parser(tls, pEngine, t, *(*Fts5Token)(unsafe.Pointer(bp + 56)), bp)
}
sqlite3Fts5ParserFree(tls, pEngine, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{fts5ParseFree})))
if iCol < (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol && (*Fts5Parse)(unsafe.Pointer(bp)).FpExpr != 0 && (*Fts5Parse)(unsafe.Pointer(bp)).Frc == SQLITE_OK {
var n int32 = int32(unsafe.Sizeof(Fts5Colset{}))
var pColset uintptr = sqlite3Fts5MallocZero(tls, bp+16, int64(n))
if pColset != 0 {
(*Fts5Colset)(unsafe.Pointer(pColset)).FnCol = 1
*(*int32)(unsafe.Pointer(pColset + 4)) = iCol
sqlite3Fts5ParseSetColset(tls, bp, (*Fts5Parse)(unsafe.Pointer(bp)).FpExpr, pColset)
}
}
if (*Fts5Parse)(unsafe.Pointer(bp)).Frc == SQLITE_OK {
*(*uintptr)(unsafe.Pointer(ppNew)) = libc.AssignUintptr(&pNew, Xsqlite3_malloc(tls, int32(unsafe.Sizeof(Fts5Expr{}))))
if pNew == uintptr(0) {
(*Fts5Parse)(unsafe.Pointer(bp)).Frc = SQLITE_NOMEM
sqlite3Fts5ParseNodeFree(tls, (*Fts5Parse)(unsafe.Pointer(bp)).FpExpr)
} else {
if !(int32((*Fts5Parse)(unsafe.Pointer(bp)).FpExpr) != 0) {
var nByte int32 = int32(unsafe.Sizeof(Fts5ExprNode{}))
(*Fts5Expr)(unsafe.Pointer(pNew)).FpRoot = sqlite3Fts5MallocZero(tls, bp+16, int64(nByte))
if (*Fts5Expr)(unsafe.Pointer(pNew)).FpRoot != 0 {
(*Fts5ExprNode)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pNew)).FpRoot)).FbEof = 1
}
} else {
(*Fts5Expr)(unsafe.Pointer(pNew)).FpRoot = (*Fts5Parse)(unsafe.Pointer(bp)).FpExpr
}
(*Fts5Expr)(unsafe.Pointer(pNew)).FpIndex = uintptr(0)
(*Fts5Expr)(unsafe.Pointer(pNew)).FpConfig = pConfig
(*Fts5Expr)(unsafe.Pointer(pNew)).FapExprPhrase = (*Fts5Parse)(unsafe.Pointer(bp)).FapPhrase
(*Fts5Expr)(unsafe.Pointer(pNew)).FnPhrase = (*Fts5Parse)(unsafe.Pointer(bp)).FnPhrase
(*Fts5Expr)(unsafe.Pointer(pNew)).FbDesc = 0
(*Fts5Parse)(unsafe.Pointer(bp)).FapPhrase = uintptr(0)
}
} else {
sqlite3Fts5ParseNodeFree(tls, (*Fts5Parse)(unsafe.Pointer(bp)).FpExpr)
}
Xsqlite3_free(tls, (*Fts5Parse)(unsafe.Pointer(bp)).FapPhrase)
*(*uintptr)(unsafe.Pointer(pzErr)) = (*Fts5Parse)(unsafe.Pointer(bp)).FzErr
return (*Fts5Parse)(unsafe.Pointer(bp)).Frc
}
func fts5ExprCountChar(tls *libc.TLS, z uintptr, nByte int32) int32 {
var nRet int32 = 0
var ii int32
for ii = 0; ii < nByte; ii++ {
if int32(*(*int8)(unsafe.Pointer(z + uintptr(ii))))&0xC0 != 0x80 {
nRet++
}
}
return nRet
}
func sqlite3Fts5ExprPattern(tls *libc.TLS, pConfig uintptr, bGlob int32, iCol int32, zText uintptr, pp uintptr) int32 {
bp := tls.Alloc(3)
defer tls.Free(3)
var nText I64 = I64(libc.Xstrlen(tls, zText))
var zExpr uintptr = Xsqlite3_malloc64(tls, uint64(nText*int64(4)+int64(1)))
var rc int32 = SQLITE_OK
if zExpr == uintptr(0) {
rc = SQLITE_NOMEM
} else {
var iOut int32 = 0
var i int32 = 0
var iFirst int32 = 0
if bGlob == 0 {
*(*int8)(unsafe.Pointer(bp)) = int8('_')
*(*int8)(unsafe.Pointer(bp + 1)) = int8('%')
*(*int8)(unsafe.Pointer(bp + 2)) = int8(0)
} else {
*(*int8)(unsafe.Pointer(bp)) = int8('*')
*(*int8)(unsafe.Pointer(bp + 1)) = int8('?')
*(*int8)(unsafe.Pointer(bp + 2)) = int8('[')
}
for I64(i) <= nText {
if I64(i) == nText ||
int32(*(*int8)(unsafe.Pointer(zText + uintptr(i)))) == int32(*(*int8)(unsafe.Pointer(bp))) || int32(*(*int8)(unsafe.Pointer(zText + uintptr(i)))) == int32(*(*int8)(unsafe.Pointer(bp + 1))) || int32(*(*int8)(unsafe.Pointer(zText + uintptr(i)))) == int32(*(*int8)(unsafe.Pointer(bp + 2))) {
if fts5ExprCountChar(tls, zText+uintptr(iFirst), i-iFirst) >= 3 {
var jj int32
*(*int8)(unsafe.Pointer(zExpr + uintptr(libc.PostIncInt32(&iOut, 1)))) = int8('"')
for jj = iFirst; jj < i; jj++ {
*(*int8)(unsafe.Pointer(zExpr + uintptr(libc.PostIncInt32(&iOut, 1)))) = *(*int8)(unsafe.Pointer(zText + uintptr(jj)))
if int32(*(*int8)(unsafe.Pointer(zText + uintptr(jj)))) == '"' {
*(*int8)(unsafe.Pointer(zExpr + uintptr(libc.PostIncInt32(&iOut, 1)))) = int8('"')
}
}
*(*int8)(unsafe.Pointer(zExpr + uintptr(libc.PostIncInt32(&iOut, 1)))) = int8('"')
*(*int8)(unsafe.Pointer(zExpr + uintptr(libc.PostIncInt32(&iOut, 1)))) = int8(' ')
}
if int32(*(*int8)(unsafe.Pointer(zText + uintptr(i)))) == int32(*(*int8)(unsafe.Pointer(bp + 2))) {
i = i + 2
if int32(*(*int8)(unsafe.Pointer(zText + uintptr(i-1)))) == '^' {
i++
}
for I64(i) < nText && int32(*(*int8)(unsafe.Pointer(zText + uintptr(i)))) != ']' {
i++
}
}
iFirst = i + 1
}
i++
}
if iOut > 0 {
var bAnd int32 = 0
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeDetail != FTS5_DETAIL_FULL {
bAnd = 1
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeDetail == FTS5_DETAIL_NONE {
iCol = (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol
}
}
*(*int8)(unsafe.Pointer(zExpr + uintptr(iOut))) = int8(0)
rc = sqlite3Fts5ExprNew(tls, pConfig, bAnd, iCol, zExpr, pp, (*Fts5Config)(unsafe.Pointer(pConfig)).FpzErrmsg)
} else {
*(*uintptr)(unsafe.Pointer(pp)) = uintptr(0)
}
Xsqlite3_free(tls, zExpr)
}
return rc
}
func sqlite3Fts5ParseNodeFree(tls *libc.TLS, p uintptr) {
if p != 0 {
var i int32
for i = 0; i < (*Fts5ExprNode)(unsafe.Pointer(p)).FnChild; i++ {
sqlite3Fts5ParseNodeFree(tls, *(*uintptr)(unsafe.Pointer(p + 48 + uintptr(i)*8)))
}
sqlite3Fts5ParseNearsetFree(tls, (*Fts5ExprNode)(unsafe.Pointer(p)).FpNear)
Xsqlite3_free(tls, p)
}
}
func sqlite3Fts5ExprFree(tls *libc.TLS, p uintptr) {
if p != 0 {
sqlite3Fts5ParseNodeFree(tls, (*Fts5Expr)(unsafe.Pointer(p)).FpRoot)
Xsqlite3_free(tls, (*Fts5Expr)(unsafe.Pointer(p)).FapExprPhrase)
Xsqlite3_free(tls, p)
}
}
func sqlite3Fts5ExprAnd(tls *libc.TLS, pp1 uintptr, p2 uintptr) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Fts5Parse{})), libc.X__builtin_object_size(tls, bp, 0))
if *(*uintptr)(unsafe.Pointer(pp1)) != 0 {
var p1 uintptr = *(*uintptr)(unsafe.Pointer(pp1))
var nPhrase int32 = (*Fts5Expr)(unsafe.Pointer(p1)).FnPhrase + (*Fts5Expr)(unsafe.Pointer(p2)).FnPhrase
(*Fts5Expr)(unsafe.Pointer(p1)).FpRoot = sqlite3Fts5ParseNode(tls, bp, FTS5_AND, (*Fts5Expr)(unsafe.Pointer(p1)).FpRoot, (*Fts5Expr)(unsafe.Pointer(p2)).FpRoot, uintptr(0))
(*Fts5Expr)(unsafe.Pointer(p2)).FpRoot = uintptr(0)
if (*Fts5Parse)(unsafe.Pointer(bp)).Frc == SQLITE_OK {
var ap uintptr = Xsqlite3_realloc(tls,
(*Fts5Expr)(unsafe.Pointer(p1)).FapExprPhrase, int32(uint64(nPhrase)*uint64(unsafe.Sizeof(uintptr(0)))))
if ap == uintptr(0) {
(*Fts5Parse)(unsafe.Pointer(bp)).Frc = SQLITE_NOMEM
} else {
var i int32
libc.X__builtin___memmove_chk(tls, ap+uintptr((*Fts5Expr)(unsafe.Pointer(p2)).FnPhrase)*8, ap, uint64((*Fts5Expr)(unsafe.Pointer(p1)).FnPhrase)*uint64(unsafe.Sizeof(uintptr(0))), libc.X__builtin_object_size(tls, ap+uintptr((*Fts5Expr)(unsafe.Pointer(p2)).FnPhrase)*8, 0))
for i = 0; i < (*Fts5Expr)(unsafe.Pointer(p2)).FnPhrase; i++ {
*(*uintptr)(unsafe.Pointer(ap + uintptr(i)*8)) = *(*uintptr)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(p2)).FapExprPhrase + uintptr(i)*8))
}
(*Fts5Expr)(unsafe.Pointer(p1)).FnPhrase = nPhrase
(*Fts5Expr)(unsafe.Pointer(p1)).FapExprPhrase = ap
}
}
Xsqlite3_free(tls, (*Fts5Expr)(unsafe.Pointer(p2)).FapExprPhrase)
Xsqlite3_free(tls, p2)
} else {
*(*uintptr)(unsafe.Pointer(pp1)) = p2
}
return (*Fts5Parse)(unsafe.Pointer(bp)).Frc
}
func fts5ExprSynonymRowid(tls *libc.TLS, pTerm uintptr, bDesc int32, pbEof uintptr) I64 {
var iRet I64 = int64(0)
var bRetValid int32 = 0
var p uintptr
for p = pTerm; p != 0; p = (*Fts5ExprTerm)(unsafe.Pointer(p)).FpSynonym {
if 0 == int32((*Fts5IndexIter)(unsafe.Pointer((*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter)).FbEof) {
var iRowid I64 = (*Fts5IndexIter)(unsafe.Pointer((*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter)).FiRowid
if bRetValid == 0 || bDesc != libc.Bool32(iRowid < iRet) {
iRet = iRowid
bRetValid = 1
}
}
}
if pbEof != 0 && bRetValid == 0 {
*(*int32)(unsafe.Pointer(pbEof)) = 1
}
return iRet
}
func fts5ExprSynonymList(tls *libc.TLS, pTerm uintptr, iRowid I64, pBuf uintptr, pa uintptr, pn uintptr) int32 {
bp := tls.Alloc(136)
defer tls.Free(136)
var aIter uintptr
var nIter int32
var nAlloc int32
var rc int32
var p uintptr
var nByte Sqlite3_int64
var aNew uintptr
var pIter uintptr
var i int32
var iMin I64
var iPrev I64
aIter = bp
nIter = 0
nAlloc = 4
rc = SQLITE_OK
p = pTerm
__1:
if !(p != 0) {
goto __3
}
pIter = (*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter
if !(int32((*Fts5IndexIter)(unsafe.Pointer(pIter)).FbEof) == 0 && (*Fts5IndexIter)(unsafe.Pointer(pIter)).FiRowid == iRowid) {
goto __4
}
if !((*Fts5IndexIter)(unsafe.Pointer(pIter)).FnData == 0) {
goto __5
}
goto __2
__5:
;
if !(nIter == nAlloc) {
goto __6
}
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5PoslistReader{})) * uint64(nAlloc) * uint64(2))
aNew = Xsqlite3_malloc64(tls, uint64(nByte))
if !(aNew == uintptr(0)) {
goto __7
}
rc = SQLITE_NOMEM
goto synonym_poslist_out
__7:
;
libc.X__builtin___memcpy_chk(tls, aNew, aIter, uint64(unsafe.Sizeof(Fts5PoslistReader{}))*uint64(nIter), libc.X__builtin_object_size(tls, aNew, 0))
nAlloc = nAlloc * 2
if !(aIter != bp) {
goto __8
}
Xsqlite3_free(tls, aIter)
__8:
;
aIter = aNew
__6:
;
sqlite3Fts5PoslistReaderInit(tls, (*Fts5IndexIter)(unsafe.Pointer(pIter)).FpData, (*Fts5IndexIter)(unsafe.Pointer(pIter)).FnData, aIter+uintptr(nIter)*32)
nIter++
__4:
;
goto __2
__2:
p = (*Fts5ExprTerm)(unsafe.Pointer(p)).FpSynonym
goto __1
goto __3
__3:
;
if !(nIter == 1) {
goto __9
}
*(*uintptr)(unsafe.Pointer(pa)) = (*Fts5PoslistReader)(unsafe.Pointer(aIter)).Fa
*(*int32)(unsafe.Pointer(pn)) = (*Fts5PoslistReader)(unsafe.Pointer(aIter)).Fn
goto __10
__9:
*(*Fts5PoslistWriter)(unsafe.Pointer(bp + 128)) = Fts5PoslistWriter{}
iPrev = int64(-1)
sqlite3Fts5BufferZero(tls, pBuf)
__11:
if !(1 != 0) {
goto __12
}
iMin = int64(0xffffffff) | int64(0x7fffffff)<<32
i = 0
__13:
if !(i < nIter) {
goto __15
}
if !(int32((*Fts5PoslistReader)(unsafe.Pointer(aIter+uintptr(i)*32)).FbEof) == 0) {
goto __16
}
if !((*Fts5PoslistReader)(unsafe.Pointer(aIter+uintptr(i)*32)).FiPos == iPrev) {
goto __17
}
if !(sqlite3Fts5PoslistReaderNext(tls, aIter+uintptr(i)*32) != 0) {
goto __18
}
goto __14
__18:
;
__17:
;
if !((*Fts5PoslistReader)(unsafe.Pointer(aIter+uintptr(i)*32)).FiPos < iMin) {
goto __19
}
iMin = (*Fts5PoslistReader)(unsafe.Pointer(aIter + uintptr(i)*32)).FiPos
__19:
;
__16:
;
goto __14
__14:
i++
goto __13
goto __15
__15:
;
if !(iMin == int64(0xffffffff)|int64(0x7fffffff)<<32 || rc != SQLITE_OK) {
goto __20
}
goto __12
__20:
;
rc = sqlite3Fts5PoslistWriterAppend(tls, pBuf, bp+128, iMin)
iPrev = iMin
goto __11
__12:
;
if !(rc == SQLITE_OK) {
goto __21
}
*(*uintptr)(unsafe.Pointer(pa)) = (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp
*(*int32)(unsafe.Pointer(pn)) = (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn
__21:
;
__10:
;
synonym_poslist_out:
if !(aIter != bp) {
goto __22
}
Xsqlite3_free(tls, aIter)
__22:
;
return rc
}
func fts5ExprPhraseIsMatch(tls *libc.TLS, pNode uintptr, pPhrase uintptr, pbMatch uintptr) int32 {
bp := tls.Alloc(168)
defer tls.Free(168)
var aIter uintptr
var i int32
var rc int32
var bFirst int32
var nByte Sqlite3_int64
var pTerm uintptr
var bFlag int32
var pPos uintptr
var iAdj I64
var bMatch int32
var iPos I64
*(*Fts5PoslistWriter)(unsafe.Pointer(bp + 160)) = Fts5PoslistWriter{}
aIter = bp
rc = SQLITE_OK
bFirst = int32((*Fts5ExprTerm)(unsafe.Pointer(pPhrase + 32)).FbFirst)
sqlite3Fts5BufferZero(tls, pPhrase+8)
if !((*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm > int32(uint64(unsafe.Sizeof([4]Fts5PoslistReader{}))/uint64(unsafe.Sizeof(Fts5PoslistReader{})))) {
goto __1
}
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5PoslistReader{})) * uint64((*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm))
aIter = Xsqlite3_malloc64(tls, uint64(nByte))
if !!(aIter != 0) {
goto __2
}
return SQLITE_NOMEM
__2:
;
__1:
;
libc.X__builtin___memset_chk(tls, aIter, 0, uint64(unsafe.Sizeof(Fts5PoslistReader{}))*uint64((*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm), libc.X__builtin_object_size(tls, aIter, 0))
i = 0
__3:
if !(i < (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm) {
goto __5
}
pTerm = pPhrase + 32 + uintptr(i)*32
*(*int32)(unsafe.Pointer(bp + 152)) = 0
bFlag = 0
*(*uintptr)(unsafe.Pointer(bp + 144)) = uintptr(0)
if !((*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FpSynonym != 0) {
goto __6
}
*(*Fts5Buffer)(unsafe.Pointer(bp + 128)) = Fts5Buffer{}
rc = fts5ExprSynonymList(tls, pTerm, (*Fts5ExprNode)(unsafe.Pointer(pNode)).FiRowid, bp+128, bp+144, bp+152)
if !(rc != 0) {
goto __8
}
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 144)))
goto ismatch_out
__8:
;
if !(*(*uintptr)(unsafe.Pointer(bp + 144)) == (*Fts5Buffer)(unsafe.Pointer(bp+128)).Fp) {
goto __9
}
bFlag = 1
__9:
;
goto __7
__6:
*(*uintptr)(unsafe.Pointer(bp + 144)) = (*Fts5IndexIter)(unsafe.Pointer((*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FpIter)).FpData
*(*int32)(unsafe.Pointer(bp + 152)) = (*Fts5IndexIter)(unsafe.Pointer((*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FpIter)).FnData
__7:
;
sqlite3Fts5PoslistReaderInit(tls, *(*uintptr)(unsafe.Pointer(bp + 144)), *(*int32)(unsafe.Pointer(bp + 152)), aIter+uintptr(i)*32)
(*Fts5PoslistReader)(unsafe.Pointer(aIter + uintptr(i)*32)).FbFlag = U8(bFlag)
if !((*Fts5PoslistReader)(unsafe.Pointer(aIter+uintptr(i)*32)).FbEof != 0) {
goto __10
}
goto ismatch_out
__10:
;
goto __4
__4:
i++
goto __3
goto __5
__5:
;
__11:
if !(1 != 0) {
goto __12
}
iPos = (*Fts5PoslistReader)(unsafe.Pointer(aIter)).FiPos
__13:
bMatch = 1
i = 0
__16:
if !(i < (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm) {
goto __18
}
pPos = aIter + uintptr(i)*32
iAdj = iPos + I64(i)
if !((*Fts5PoslistReader)(unsafe.Pointer(pPos)).FiPos != iAdj) {
goto __19
}
bMatch = 0
__20:
if !((*Fts5PoslistReader)(unsafe.Pointer(pPos)).FiPos < iAdj) {
goto __21
}
if !(sqlite3Fts5PoslistReaderNext(tls, pPos) != 0) {
goto __22
}
goto ismatch_out
__22:
;
goto __20
__21:
;
if !((*Fts5PoslistReader)(unsafe.Pointer(pPos)).FiPos > iAdj) {
goto __23
}
iPos = (*Fts5PoslistReader)(unsafe.Pointer(pPos)).FiPos - I64(i)
__23:
;
__19:
;
goto __17
__17:
i++
goto __16
goto __18
__18:
;
goto __14
__14:
if bMatch == 0 {
goto __13
}
goto __15
__15:
;
if !(bFirst == 0 || int32(iPos&int64(0x7FFFFFFF)) == 0) {
goto __24
}
rc = sqlite3Fts5PoslistWriterAppend(tls, pPhrase+8, bp+160, iPos)
if !(rc != SQLITE_OK) {
goto __25
}
goto ismatch_out
__25:
;
__24:
;
i = 0
__26:
if !(i < (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm) {
goto __28
}
if !(sqlite3Fts5PoslistReaderNext(tls, aIter+uintptr(i)*32) != 0) {
goto __29
}
goto ismatch_out
__29:
;
goto __27
__27:
i++
goto __26
goto __28
__28:
;
goto __11
__12:
;
ismatch_out:
*(*int32)(unsafe.Pointer(pbMatch)) = libc.Bool32((*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).Fposlist.Fn > 0)
i = 0
__30:
if !(i < (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm) {
goto __32
}
if !((*Fts5PoslistReader)(unsafe.Pointer(aIter+uintptr(i)*32)).FbFlag != 0) {
goto __33
}
Xsqlite3_free(tls, (*Fts5PoslistReader)(unsafe.Pointer(aIter+uintptr(i)*32)).Fa)
__33:
;
goto __31
__31:
i++
goto __30
goto __32
__32:
;
if !(aIter != bp) {
goto __34
}
Xsqlite3_free(tls, aIter)
__34:
;
return rc
}
type Fts5LookaheadReader1 = struct {
Fa uintptr
Fn int32
Fi int32
FiPos I64
FiLookahead I64
}
type Fts5LookaheadReader = Fts5LookaheadReader1
func fts5LookaheadReaderNext(tls *libc.TLS, p uintptr) int32 {
(*Fts5LookaheadReader)(unsafe.Pointer(p)).FiPos = (*Fts5LookaheadReader)(unsafe.Pointer(p)).FiLookahead
if sqlite3Fts5PoslistNext64(tls, (*Fts5LookaheadReader)(unsafe.Pointer(p)).Fa, (*Fts5LookaheadReader)(unsafe.Pointer(p)).Fn, p+12, p+24) != 0 {
(*Fts5LookaheadReader)(unsafe.Pointer(p)).FiLookahead = int64(1) << 62
}
return libc.Bool32((*Fts5LookaheadReader)(unsafe.Pointer(p)).FiPos == int64(1)<<62)
}
func fts5LookaheadReaderInit(tls *libc.TLS, a uintptr, n int32, p uintptr) int32 {
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(Fts5LookaheadReader{})), libc.X__builtin_object_size(tls, p, 0))
(*Fts5LookaheadReader)(unsafe.Pointer(p)).Fa = a
(*Fts5LookaheadReader)(unsafe.Pointer(p)).Fn = n
fts5LookaheadReaderNext(tls, p)
return fts5LookaheadReaderNext(tls, p)
}
type Fts5NearTrimmer1 = struct {
Freader Fts5LookaheadReader
Fwriter Fts5PoslistWriter
FpOut uintptr
}
type Fts5NearTrimmer = Fts5NearTrimmer1
func fts5ExprNearIsMatch(tls *libc.TLS, pRc uintptr, pNear uintptr) int32 {
bp := tls.Alloc(196)
defer tls.Free(196)
var a uintptr
var apPhrase uintptr
var i int32
var bMatch int32
var nByte Sqlite3_int64
var pPoslist uintptr
var pPos uintptr
var iPos I64
var pWriter uintptr
var iAdv int32
var iMin I64
var iMax I64
var bRet int32
a = bp
apPhrase = pNear + 24
*(*int32)(unsafe.Pointer(bp + 192)) = *(*int32)(unsafe.Pointer(pRc))
if !((*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase > int32(uint64(unsafe.Sizeof([4]Fts5NearTrimmer{}))/uint64(unsafe.Sizeof(Fts5NearTrimmer{})))) {
goto __1
}
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5NearTrimmer{})) * uint64((*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase))
a = sqlite3Fts5MallocZero(tls, bp+192, nByte)
goto __2
__1:
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof([4]Fts5NearTrimmer{})), libc.X__builtin_object_size(tls, bp, 0))
__2:
;
if !(*(*int32)(unsafe.Pointer(bp + 192)) != SQLITE_OK) {
goto __3
}
*(*int32)(unsafe.Pointer(pRc)) = *(*int32)(unsafe.Pointer(bp + 192))
return 0
__3:
;
i = 0
__4:
if !(i < (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase) {
goto __6
}
pPoslist = *(*uintptr)(unsafe.Pointer(apPhrase + uintptr(i)*8)) + 8
fts5LookaheadReaderInit(tls, (*Fts5Buffer)(unsafe.Pointer(pPoslist)).Fp, (*Fts5Buffer)(unsafe.Pointer(pPoslist)).Fn, a+uintptr(i)*48)
(*Fts5Buffer)(unsafe.Pointer(pPoslist)).Fn = 0
(*Fts5NearTrimmer)(unsafe.Pointer(a + uintptr(i)*48)).FpOut = pPoslist
goto __5
__5:
i++
goto __4
goto __6
__6:
;
__7:
if !(1 != 0) {
goto __8
}
iMax = (*Fts5NearTrimmer)(unsafe.Pointer(a)).Freader.FiPos
__9:
bMatch = 1
i = 0
__12:
if !(i < (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase) {
goto __14
}
pPos = a + uintptr(i)*48
iMin = iMax - I64((*Fts5ExprPhrase)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNear + 24 + uintptr(i)*8)))).FnTerm) - I64((*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnNear)
if !((*Fts5LookaheadReader)(unsafe.Pointer(pPos)).FiPos < iMin || (*Fts5LookaheadReader)(unsafe.Pointer(pPos)).FiPos > iMax) {
goto __15
}
bMatch = 0
__16:
if !((*Fts5LookaheadReader)(unsafe.Pointer(pPos)).FiPos < iMin) {
goto __17
}
if !(fts5LookaheadReaderNext(tls, pPos) != 0) {
goto __18
}
goto ismatch_out
__18:
;
goto __16
__17:
;
if !((*Fts5LookaheadReader)(unsafe.Pointer(pPos)).FiPos > iMax) {
goto __19
}
iMax = (*Fts5LookaheadReader)(unsafe.Pointer(pPos)).FiPos
__19:
;
__15:
;
goto __13
__13:
i++
goto __12
goto __14
__14:
;
goto __10
__10:
if bMatch == 0 {
goto __9
}
goto __11
__11:
;
i = 0
__20:
if !(i < (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase) {
goto __22
}
iPos = (*Fts5NearTrimmer)(unsafe.Pointer(a + uintptr(i)*48)).Freader.FiPos
pWriter = a + uintptr(i)*48 + 32
if !((*Fts5Buffer)(unsafe.Pointer((*Fts5NearTrimmer)(unsafe.Pointer(a+uintptr(i)*48)).FpOut)).Fn == 0 || iPos != (*Fts5PoslistWriter)(unsafe.Pointer(pWriter)).FiPrev) {
goto __23
}
sqlite3Fts5PoslistWriterAppend(tls, (*Fts5NearTrimmer)(unsafe.Pointer(a+uintptr(i)*48)).FpOut, pWriter, iPos)
__23:
;
goto __21
__21:
i++
goto __20
goto __22
__22:
;
iAdv = 0
iMin = (*Fts5NearTrimmer)(unsafe.Pointer(a)).Freader.FiLookahead
i = 0
__24:
if !(i < (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase) {
goto __26
}
if !((*Fts5NearTrimmer)(unsafe.Pointer(a+uintptr(i)*48)).Freader.FiLookahead < iMin) {
goto __27
}
iMin = (*Fts5NearTrimmer)(unsafe.Pointer(a + uintptr(i)*48)).Freader.FiLookahead
iAdv = i
__27:
;
goto __25
__25:
i++
goto __24
goto __26
__26:
;
if !(fts5LookaheadReaderNext(tls, a+uintptr(iAdv)*48) != 0) {
goto __28
}
goto ismatch_out
__28:
;
goto __7
__8:
;
ismatch_out:
bRet = libc.Bool32((*Fts5Buffer)(unsafe.Pointer((*Fts5NearTrimmer)(unsafe.Pointer(a)).FpOut)).Fn > 0)
*(*int32)(unsafe.Pointer(pRc)) = *(*int32)(unsafe.Pointer(bp + 192))
if !(a != bp) {
goto __29
}
Xsqlite3_free(tls, a)
__29:
;
return bRet
return int32(0)
}
func fts5ExprAdvanceto(tls *libc.TLS, pIter uintptr, bDesc int32, piLast uintptr, pRc uintptr, pbEof uintptr) int32 {
var iLast I64 = *(*I64)(unsafe.Pointer(piLast))
var iRowid I64
iRowid = (*Fts5IndexIter)(unsafe.Pointer(pIter)).FiRowid
if bDesc == 0 && iLast > iRowid || bDesc != 0 && iLast < iRowid {
var rc int32 = sqlite3Fts5IterNextFrom(tls, pIter, iLast)
if rc != 0 || (*Fts5IndexIter)(unsafe.Pointer(pIter)).FbEof != 0 {
*(*int32)(unsafe.Pointer(pRc)) = rc
*(*int32)(unsafe.Pointer(pbEof)) = 1
return 1
}
iRowid = (*Fts5IndexIter)(unsafe.Pointer(pIter)).FiRowid
}
*(*I64)(unsafe.Pointer(piLast)) = iRowid
return 0
}
func fts5ExprSynonymAdvanceto(tls *libc.TLS, pTerm uintptr, bDesc int32, piLast uintptr, pRc uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var rc int32 = SQLITE_OK
var iLast I64 = *(*I64)(unsafe.Pointer(piLast))
var p uintptr
*(*int32)(unsafe.Pointer(bp)) = 0
for p = pTerm; rc == SQLITE_OK && p != 0; p = (*Fts5ExprTerm)(unsafe.Pointer(p)).FpSynonym {
if int32((*Fts5IndexIter)(unsafe.Pointer((*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter)).FbEof) == 0 {
var iRowid I64 = (*Fts5IndexIter)(unsafe.Pointer((*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter)).FiRowid
if bDesc == 0 && iLast > iRowid || bDesc != 0 && iLast < iRowid {
rc = sqlite3Fts5IterNextFrom(tls, (*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter, iLast)
}
}
}
if rc != SQLITE_OK {
*(*int32)(unsafe.Pointer(pRc)) = rc
*(*int32)(unsafe.Pointer(bp)) = 1
} else {
*(*I64)(unsafe.Pointer(piLast)) = fts5ExprSynonymRowid(tls, pTerm, bDesc, bp)
}
return *(*int32)(unsafe.Pointer(bp))
}
func fts5ExprNearTest(tls *libc.TLS, pRc uintptr, pExpr uintptr, pNode uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pNear uintptr = (*Fts5ExprNode)(unsafe.Pointer(pNode)).FpNear
*(*int32)(unsafe.Pointer(bp + 4)) = *(*int32)(unsafe.Pointer(pRc))
if (*Fts5Config)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pExpr)).FpConfig)).FeDetail != FTS5_DETAIL_FULL {
var pTerm uintptr
var pPhrase uintptr = *(*uintptr)(unsafe.Pointer(pNear + 24))
(*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).Fposlist.Fn = 0
for pTerm = pPhrase + 32; pTerm != 0; pTerm = (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FpSynonym {
var pIter uintptr = (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FpIter
if int32((*Fts5IndexIter)(unsafe.Pointer(pIter)).FbEof) == 0 {
if (*Fts5IndexIter)(unsafe.Pointer(pIter)).FiRowid == (*Fts5ExprNode)(unsafe.Pointer(pNode)).FiRowid && (*Fts5IndexIter)(unsafe.Pointer(pIter)).FnData > 0 {
(*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).Fposlist.Fn = 1
}
}
}
return (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).Fposlist.Fn
} else {
var i int32
for i = 0; *(*int32)(unsafe.Pointer(bp + 4)) == SQLITE_OK && i < (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase; i++ {
var pPhrase uintptr = *(*uintptr)(unsafe.Pointer(pNear + 24 + uintptr(i)*8))
if (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm > 1 || (*Fts5ExprTerm)(unsafe.Pointer(pPhrase+32)).FpSynonym != 0 ||
(*Fts5ExprNearset)(unsafe.Pointer(pNear)).FpColset != 0 || (*Fts5ExprTerm)(unsafe.Pointer(pPhrase+32)).FbFirst != 0 {
*(*int32)(unsafe.Pointer(bp)) = 0
*(*int32)(unsafe.Pointer(bp + 4)) = fts5ExprPhraseIsMatch(tls, pNode, pPhrase, bp)
if *(*int32)(unsafe.Pointer(bp)) == 0 {
break
}
} else {
var pIter uintptr = (*Fts5ExprTerm)(unsafe.Pointer(pPhrase + 32)).FpIter
sqlite3Fts5BufferSet(tls, bp+4, pPhrase+8, (*Fts5IndexIter)(unsafe.Pointer(pIter)).FnData, (*Fts5IndexIter)(unsafe.Pointer(pIter)).FpData)
}
}
*(*int32)(unsafe.Pointer(pRc)) = *(*int32)(unsafe.Pointer(bp + 4))
if i == (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase && (i == 1 || fts5ExprNearIsMatch(tls, pRc, pNear) != 0) {
return 1
}
return 0
}
return int32(0)
}
func fts5ExprNearInitAll(tls *libc.TLS, pExpr uintptr, pNode uintptr) int32 {
var pNear uintptr = (*Fts5ExprNode)(unsafe.Pointer(pNode)).FpNear
var i int32
for i = 0; i < (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase; i++ {
var pPhrase uintptr = *(*uintptr)(unsafe.Pointer(pNear + 24 + uintptr(i)*8))
if (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm == 0 {
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof = 1
return SQLITE_OK
} else {
var j int32
for j = 0; j < (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm; j++ {
var pTerm uintptr = pPhrase + 32 + uintptr(j)*32
var p uintptr
var bHit int32 = 0
for p = pTerm; p != 0; p = (*Fts5ExprTerm)(unsafe.Pointer(p)).FpSynonym {
var rc int32
if (*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter != 0 {
sqlite3Fts5IterClose(tls, (*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter)
(*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter = uintptr(0)
}
rc = sqlite3Fts5IndexQuery(tls,
(*Fts5Expr)(unsafe.Pointer(pExpr)).FpIndex, (*Fts5ExprTerm)(unsafe.Pointer(p)).FzTerm, int32(libc.Xstrlen(tls, (*Fts5ExprTerm)(unsafe.Pointer(p)).FzTerm)),
func() int32 {
if (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FbPrefix != 0 {
return FTS5INDEX_QUERY_PREFIX
}
return 0
}()|func() int32 {
if (*Fts5Expr)(unsafe.Pointer(pExpr)).FbDesc != 0 {
return FTS5INDEX_QUERY_DESC
}
return 0
}(),
(*Fts5ExprNearset)(unsafe.Pointer(pNear)).FpColset,
p+16)
if rc != SQLITE_OK {
return rc
}
if 0 == int32((*Fts5IndexIter)(unsafe.Pointer((*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter)).FbEof) {
bHit = 1
}
}
if bHit == 0 {
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof = 1
return SQLITE_OK
}
}
}
}
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof = 0
return SQLITE_OK
}
func fts5RowidCmp(tls *libc.TLS, pExpr uintptr, iLhs I64, iRhs I64) int32 {
if (*Fts5Expr)(unsafe.Pointer(pExpr)).FbDesc == 0 {
if iLhs < iRhs {
return -1
}
return libc.Bool32(iLhs > iRhs)
} else {
if iLhs > iRhs {
return -1
}
return libc.Bool32(iLhs < iRhs)
}
return int32(0)
}
func fts5ExprSetEof(tls *libc.TLS, pNode uintptr) {
var i int32
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof = 1
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbNomatch = 0
for i = 0; i < (*Fts5ExprNode)(unsafe.Pointer(pNode)).FnChild; i++ {
fts5ExprSetEof(tls, *(*uintptr)(unsafe.Pointer(pNode + 48 + uintptr(i)*8)))
}
}
func fts5ExprNodeZeroPoslist(tls *libc.TLS, pNode uintptr) {
if (*Fts5ExprNode)(unsafe.Pointer(pNode)).FeType == FTS5_STRING || (*Fts5ExprNode)(unsafe.Pointer(pNode)).FeType == FTS5_TERM {
var pNear uintptr = (*Fts5ExprNode)(unsafe.Pointer(pNode)).FpNear
var i int32
for i = 0; i < (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase; i++ {
var pPhrase uintptr = *(*uintptr)(unsafe.Pointer(pNear + 24 + uintptr(i)*8))
(*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).Fposlist.Fn = 0
}
} else {
var i int32
for i = 0; i < (*Fts5ExprNode)(unsafe.Pointer(pNode)).FnChild; i++ {
fts5ExprNodeZeroPoslist(tls, *(*uintptr)(unsafe.Pointer(pNode + 48 + uintptr(i)*8)))
}
}
}
func fts5NodeCompare(tls *libc.TLS, pExpr uintptr, p1 uintptr, p2 uintptr) int32 {
if (*Fts5ExprNode)(unsafe.Pointer(p2)).FbEof != 0 {
return -1
}
if (*Fts5ExprNode)(unsafe.Pointer(p1)).FbEof != 0 {
return +1
}
return fts5RowidCmp(tls, pExpr, (*Fts5ExprNode)(unsafe.Pointer(p1)).FiRowid, (*Fts5ExprNode)(unsafe.Pointer(p2)).FiRowid)
}
func fts5ExprNodeTest_STRING(tls *libc.TLS, pExpr uintptr, pNode uintptr) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
var pNear uintptr = (*Fts5ExprNode)(unsafe.Pointer(pNode)).FpNear
var pLeft uintptr = *(*uintptr)(unsafe.Pointer(pNear + 24))
*(*int32)(unsafe.Pointer(bp + 8)) = SQLITE_OK
var i int32
var j int32
var bMatch int32
var bDesc int32 = (*Fts5Expr)(unsafe.Pointer(pExpr)).FbDesc
if (*Fts5ExprTerm)(unsafe.Pointer(pLeft+32)).FpSynonym != 0 {
*(*I64)(unsafe.Pointer(bp)) = fts5ExprSynonymRowid(tls, pLeft+32, bDesc, uintptr(0))
} else {
*(*I64)(unsafe.Pointer(bp)) = (*Fts5IndexIter)(unsafe.Pointer((*Fts5ExprTerm)(unsafe.Pointer(pLeft + 32)).FpIter)).FiRowid
}
for __ccgo := true; __ccgo; __ccgo = bMatch == 0 {
bMatch = 1
for i = 0; i < (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase; i++ {
var pPhrase uintptr = *(*uintptr)(unsafe.Pointer(pNear + 24 + uintptr(i)*8))
for j = 0; j < (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm; j++ {
var pTerm uintptr = pPhrase + 32 + uintptr(j)*32
if (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FpSynonym != 0 {
var iRowid I64 = fts5ExprSynonymRowid(tls, pTerm, bDesc, uintptr(0))
if iRowid == *(*I64)(unsafe.Pointer(bp)) {
continue
}
bMatch = 0
if fts5ExprSynonymAdvanceto(tls, pTerm, bDesc, bp, bp+8) != 0 {
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbNomatch = 0
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof = 1
return *(*int32)(unsafe.Pointer(bp + 8))
}
} else {
var pIter uintptr = (*Fts5ExprTerm)(unsafe.Pointer(pPhrase + 32 + uintptr(j)*32)).FpIter
if (*Fts5IndexIter)(unsafe.Pointer(pIter)).FiRowid == *(*I64)(unsafe.Pointer(bp)) || (*Fts5IndexIter)(unsafe.Pointer(pIter)).FbEof != 0 {
continue
}
bMatch = 0
if fts5ExprAdvanceto(tls, pIter, bDesc, bp, bp+8, pNode+4) != 0 {
return *(*int32)(unsafe.Pointer(bp + 8))
}
}
}
}
}
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FiRowid = *(*I64)(unsafe.Pointer(bp))
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbNomatch = libc.Bool32(0 == fts5ExprNearTest(tls, bp+8, pExpr, pNode) && *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK)
return *(*int32)(unsafe.Pointer(bp + 8))
}
func fts5ExprNodeNext_STRING(tls *libc.TLS, pExpr uintptr, pNode uintptr, bFromValid int32, iFrom I64) int32 {
var pTerm uintptr = *(*uintptr)(unsafe.Pointer((*Fts5ExprNode)(unsafe.Pointer(pNode)).FpNear + 24)) + 32
var rc int32 = SQLITE_OK
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbNomatch = 0
if (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FpSynonym != 0 {
var bEof int32 = 1
var p uintptr
var iRowid I64 = fts5ExprSynonymRowid(tls, pTerm, (*Fts5Expr)(unsafe.Pointer(pExpr)).FbDesc, uintptr(0))
for p = pTerm; p != 0; p = (*Fts5ExprTerm)(unsafe.Pointer(p)).FpSynonym {
if int32((*Fts5IndexIter)(unsafe.Pointer((*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter)).FbEof) == 0 {
var ii I64 = (*Fts5IndexIter)(unsafe.Pointer((*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter)).FiRowid
if ii == iRowid ||
bFromValid != 0 && ii != iFrom && libc.Bool32(ii > iFrom) == (*Fts5Expr)(unsafe.Pointer(pExpr)).FbDesc {
if bFromValid != 0 {
rc = sqlite3Fts5IterNextFrom(tls, (*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter, iFrom)
} else {
rc = sqlite3Fts5IterNext(tls, (*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter)
}
if rc != SQLITE_OK {
break
}
if int32((*Fts5IndexIter)(unsafe.Pointer((*Fts5ExprTerm)(unsafe.Pointer(p)).FpIter)).FbEof) == 0 {
bEof = 0
}
} else {
bEof = 0
}
}
}
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof = libc.Bool32(rc != 0 || bEof != 0)
} else {
var pIter uintptr = (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FpIter
if bFromValid != 0 {
rc = sqlite3Fts5IterNextFrom(tls, pIter, iFrom)
} else {
rc = sqlite3Fts5IterNext(tls, pIter)
}
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof = libc.Bool32(rc != 0 || (*Fts5IndexIter)(unsafe.Pointer(pIter)).FbEof != 0)
}
if (*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof == 0 {
rc = fts5ExprNodeTest_STRING(tls, pExpr, pNode)
}
return rc
}
func fts5ExprNodeTest_TERM(tls *libc.TLS, pExpr uintptr, pNode uintptr) int32 {
var pPhrase uintptr = *(*uintptr)(unsafe.Pointer((*Fts5ExprNode)(unsafe.Pointer(pNode)).FpNear + 24))
var pIter uintptr = (*Fts5ExprTerm)(unsafe.Pointer(pPhrase + 32)).FpIter
(*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).Fposlist.Fn = (*Fts5IndexIter)(unsafe.Pointer(pIter)).FnData
if (*Fts5Config)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pExpr)).FpConfig)).FeDetail == FTS5_DETAIL_FULL {
(*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).Fposlist.Fp = (*Fts5IndexIter)(unsafe.Pointer(pIter)).FpData
}
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FiRowid = (*Fts5IndexIter)(unsafe.Pointer(pIter)).FiRowid
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbNomatch = libc.Bool32((*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).Fposlist.Fn == 0)
return SQLITE_OK
}
func fts5ExprNodeNext_TERM(tls *libc.TLS, pExpr uintptr, pNode uintptr, bFromValid int32, iFrom I64) int32 {
var rc int32
var pIter uintptr = (*Fts5ExprTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Fts5ExprNode)(unsafe.Pointer(pNode)).FpNear + 24)) + 32)).FpIter
if bFromValid != 0 {
rc = sqlite3Fts5IterNextFrom(tls, pIter, iFrom)
} else {
rc = sqlite3Fts5IterNext(tls, pIter)
}
if rc == SQLITE_OK && int32((*Fts5IndexIter)(unsafe.Pointer(pIter)).FbEof) == 0 {
rc = fts5ExprNodeTest_TERM(tls, pExpr, pNode)
} else {
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof = 1
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbNomatch = 0
}
return rc
}
func fts5ExprNodeTest_OR(tls *libc.TLS, pExpr uintptr, pNode uintptr) {
var pNext uintptr = *(*uintptr)(unsafe.Pointer(pNode + 48))
var i int32
for i = 1; i < (*Fts5ExprNode)(unsafe.Pointer(pNode)).FnChild; i++ {
var pChild uintptr = *(*uintptr)(unsafe.Pointer(pNode + 48 + uintptr(i)*8))
var cmp int32 = fts5NodeCompare(tls, pExpr, pNext, pChild)
if cmp > 0 || cmp == 0 && (*Fts5ExprNode)(unsafe.Pointer(pChild)).FbNomatch == 0 {
pNext = pChild
}
}
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FiRowid = (*Fts5ExprNode)(unsafe.Pointer(pNext)).FiRowid
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof = (*Fts5ExprNode)(unsafe.Pointer(pNext)).FbEof
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbNomatch = (*Fts5ExprNode)(unsafe.Pointer(pNext)).FbNomatch
}
func fts5ExprNodeNext_OR(tls *libc.TLS, pExpr uintptr, pNode uintptr, bFromValid int32, iFrom I64) int32 {
var i int32
var iLast I64 = (*Fts5ExprNode)(unsafe.Pointer(pNode)).FiRowid
for i = 0; i < (*Fts5ExprNode)(unsafe.Pointer(pNode)).FnChild; i++ {
var p1 uintptr = *(*uintptr)(unsafe.Pointer(pNode + 48 + uintptr(i)*8))
if (*Fts5ExprNode)(unsafe.Pointer(p1)).FbEof == 0 {
if (*Fts5ExprNode)(unsafe.Pointer(p1)).FiRowid == iLast ||
bFromValid != 0 && fts5RowidCmp(tls, pExpr, (*Fts5ExprNode)(unsafe.Pointer(p1)).FiRowid, iFrom) < 0 {
var rc int32 = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExprNode)(unsafe.Pointer(p1)).FxNext})).f(tls, pExpr, p1, bFromValid, iFrom)
if rc != SQLITE_OK {
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbNomatch = 0
return rc
}
}
}
}
fts5ExprNodeTest_OR(tls, pExpr, pNode)
return SQLITE_OK
}
func fts5ExprNodeTest_AND(tls *libc.TLS, pExpr uintptr, pAnd uintptr) int32 {
var iChild int32
var iLast I64 = (*Fts5ExprNode)(unsafe.Pointer(pAnd)).FiRowid
var rc int32 = SQLITE_OK
var bMatch int32
for __ccgo := true; __ccgo; __ccgo = bMatch == 0 {
(*Fts5ExprNode)(unsafe.Pointer(pAnd)).FbNomatch = 0
bMatch = 1
for iChild = 0; iChild < (*Fts5ExprNode)(unsafe.Pointer(pAnd)).FnChild; iChild++ {
var pChild uintptr = *(*uintptr)(unsafe.Pointer(pAnd + 48 + uintptr(iChild)*8))
var cmp int32 = fts5RowidCmp(tls, pExpr, iLast, (*Fts5ExprNode)(unsafe.Pointer(pChild)).FiRowid)
if cmp > 0 {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExprNode)(unsafe.Pointer(pChild)).FxNext})).f(tls, pExpr, pChild, 1, iLast)
if rc != SQLITE_OK {
(*Fts5ExprNode)(unsafe.Pointer(pAnd)).FbNomatch = 0
return rc
}
}
if (*Fts5ExprNode)(unsafe.Pointer(pChild)).FbEof != 0 {
fts5ExprSetEof(tls, pAnd)
bMatch = 1
break
} else if iLast != (*Fts5ExprNode)(unsafe.Pointer(pChild)).FiRowid {
bMatch = 0
iLast = (*Fts5ExprNode)(unsafe.Pointer(pChild)).FiRowid
}
if (*Fts5ExprNode)(unsafe.Pointer(pChild)).FbNomatch != 0 {
(*Fts5ExprNode)(unsafe.Pointer(pAnd)).FbNomatch = 1
}
}
}
if (*Fts5ExprNode)(unsafe.Pointer(pAnd)).FbNomatch != 0 && pAnd != (*Fts5Expr)(unsafe.Pointer(pExpr)).FpRoot {
fts5ExprNodeZeroPoslist(tls, pAnd)
}
(*Fts5ExprNode)(unsafe.Pointer(pAnd)).FiRowid = iLast
return SQLITE_OK
}
func fts5ExprNodeNext_AND(tls *libc.TLS, pExpr uintptr, pNode uintptr, bFromValid int32, iFrom I64) int32 {
var rc int32 = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExprNode)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNode + 48)))).FxNext})).f(tls, pExpr, *(*uintptr)(unsafe.Pointer(pNode + 48)), bFromValid, iFrom)
if rc == SQLITE_OK {
rc = fts5ExprNodeTest_AND(tls, pExpr, pNode)
} else {
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbNomatch = 0
}
return rc
}
func fts5ExprNodeTest_NOT(tls *libc.TLS, pExpr uintptr, pNode uintptr) int32 {
var rc int32 = SQLITE_OK
var p1 uintptr = *(*uintptr)(unsafe.Pointer(pNode + 48))
var p2 uintptr = *(*uintptr)(unsafe.Pointer(pNode + 48 + 1*8))
for rc == SQLITE_OK && (*Fts5ExprNode)(unsafe.Pointer(p1)).FbEof == 0 {
var cmp int32 = fts5NodeCompare(tls, pExpr, p1, p2)
if cmp > 0 {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExprNode)(unsafe.Pointer(p2)).FxNext})).f(tls, pExpr, p2, 1, (*Fts5ExprNode)(unsafe.Pointer(p1)).FiRowid)
cmp = fts5NodeCompare(tls, pExpr, p1, p2)
}
if cmp != 0 || (*Fts5ExprNode)(unsafe.Pointer(p2)).FbNomatch != 0 {
break
}
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExprNode)(unsafe.Pointer(p1)).FxNext})).f(tls, pExpr, p1, 0, int64(0))
}
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof = (*Fts5ExprNode)(unsafe.Pointer(p1)).FbEof
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbNomatch = (*Fts5ExprNode)(unsafe.Pointer(p1)).FbNomatch
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FiRowid = (*Fts5ExprNode)(unsafe.Pointer(p1)).FiRowid
if (*Fts5ExprNode)(unsafe.Pointer(p1)).FbEof != 0 {
fts5ExprNodeZeroPoslist(tls, p2)
}
return rc
}
func fts5ExprNodeNext_NOT(tls *libc.TLS, pExpr uintptr, pNode uintptr, bFromValid int32, iFrom I64) int32 {
var rc int32 = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExprNode)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNode + 48)))).FxNext})).f(tls, pExpr, *(*uintptr)(unsafe.Pointer(pNode + 48)), bFromValid, iFrom)
if rc == SQLITE_OK {
rc = fts5ExprNodeTest_NOT(tls, pExpr, pNode)
}
if rc != SQLITE_OK {
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbNomatch = 0
}
return rc
}
func fts5ExprNodeTest(tls *libc.TLS, pExpr uintptr, pNode uintptr) int32 {
var rc int32 = SQLITE_OK
if (*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof == 0 {
switch (*Fts5ExprNode)(unsafe.Pointer(pNode)).FeType {
case FTS5_STRING:
{
rc = fts5ExprNodeTest_STRING(tls, pExpr, pNode)
break
}
fallthrough
case FTS5_TERM:
{
rc = fts5ExprNodeTest_TERM(tls, pExpr, pNode)
break
}
fallthrough
case FTS5_AND:
{
rc = fts5ExprNodeTest_AND(tls, pExpr, pNode)
break
}
fallthrough
case FTS5_OR:
{
fts5ExprNodeTest_OR(tls, pExpr, pNode)
break
}
fallthrough
default:
{
rc = fts5ExprNodeTest_NOT(tls, pExpr, pNode)
break
}
}
}
return rc
}
func fts5ExprNodeFirst(tls *libc.TLS, pExpr uintptr, pNode uintptr) int32 {
var rc int32 = SQLITE_OK
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof = 0
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbNomatch = 0
if (*Fts5ExprNode)(unsafe.Pointer(pNode)).FeType == FTS5_TERM || (*Fts5ExprNode)(unsafe.Pointer(pNode)).FeType == FTS5_STRING {
rc = fts5ExprNearInitAll(tls, pExpr, pNode)
} else if (*Fts5ExprNode)(unsafe.Pointer(pNode)).FxNext == uintptr(0) {
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof = 1
} else {
var i int32
var nEof int32 = 0
for i = 0; i < (*Fts5ExprNode)(unsafe.Pointer(pNode)).FnChild && rc == SQLITE_OK; i++ {
var pChild uintptr = *(*uintptr)(unsafe.Pointer(pNode + 48 + uintptr(i)*8))
rc = fts5ExprNodeFirst(tls, pExpr, *(*uintptr)(unsafe.Pointer(pNode + 48 + uintptr(i)*8)))
nEof = nEof + (*Fts5ExprNode)(unsafe.Pointer(pChild)).FbEof
}
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FiRowid = (*Fts5ExprNode)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNode + 48)))).FiRowid
switch (*Fts5ExprNode)(unsafe.Pointer(pNode)).FeType {
case FTS5_AND:
if nEof > 0 {
fts5ExprSetEof(tls, pNode)
}
break
fallthrough
case FTS5_OR:
if (*Fts5ExprNode)(unsafe.Pointer(pNode)).FnChild == nEof {
fts5ExprSetEof(tls, pNode)
}
break
fallthrough
default:
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof = (*Fts5ExprNode)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNode + 48)))).FbEof
break
}
}
if rc == SQLITE_OK {
rc = fts5ExprNodeTest(tls, pExpr, pNode)
}
return rc
}
func sqlite3Fts5ExprFirst(tls *libc.TLS, p uintptr, pIdx uintptr, iFirst I64, bDesc int32) int32 {
var pRoot uintptr = (*Fts5Expr)(unsafe.Pointer(p)).FpRoot
var rc int32
(*Fts5Expr)(unsafe.Pointer(p)).FpIndex = pIdx
(*Fts5Expr)(unsafe.Pointer(p)).FbDesc = bDesc
rc = fts5ExprNodeFirst(tls, p, pRoot)
if rc == SQLITE_OK &&
0 == (*Fts5ExprNode)(unsafe.Pointer(pRoot)).FbEof &&
fts5RowidCmp(tls, p, (*Fts5ExprNode)(unsafe.Pointer(pRoot)).FiRowid, iFirst) < 0 {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExprNode)(unsafe.Pointer(pRoot)).FxNext})).f(tls, p, pRoot, 1, iFirst)
}
for (*Fts5ExprNode)(unsafe.Pointer(pRoot)).FbNomatch != 0 && rc == SQLITE_OK {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExprNode)(unsafe.Pointer(pRoot)).FxNext})).f(tls, p, pRoot, 0, int64(0))
}
return rc
}
func sqlite3Fts5ExprNext(tls *libc.TLS, p uintptr, iLast I64) int32 {
var rc int32
var pRoot uintptr = (*Fts5Expr)(unsafe.Pointer(p)).FpRoot
for __ccgo := true; __ccgo; __ccgo = (*Fts5ExprNode)(unsafe.Pointer(pRoot)).FbNomatch != 0 {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5ExprNode)(unsafe.Pointer(pRoot)).FxNext})).f(tls, p, pRoot, 0, int64(0))
}
if fts5RowidCmp(tls, p, (*Fts5ExprNode)(unsafe.Pointer(pRoot)).FiRowid, iLast) > 0 {
(*Fts5ExprNode)(unsafe.Pointer(pRoot)).FbEof = 1
}
return rc
}
func sqlite3Fts5ExprEof(tls *libc.TLS, p uintptr) int32 {
return (*Fts5ExprNode)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(p)).FpRoot)).FbEof
}
func sqlite3Fts5ExprRowid(tls *libc.TLS, p uintptr) I64 {
return (*Fts5ExprNode)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(p)).FpRoot)).FiRowid
}
func fts5ParseStringFromToken(tls *libc.TLS, pToken uintptr, pz uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
*(*uintptr)(unsafe.Pointer(pz)) = sqlite3Fts5Strndup(tls, bp, (*Fts5Token)(unsafe.Pointer(pToken)).Fp, (*Fts5Token)(unsafe.Pointer(pToken)).Fn)
return *(*int32)(unsafe.Pointer(bp))
}
func fts5ExprPhraseFree(tls *libc.TLS, pPhrase uintptr) {
if pPhrase != 0 {
var i int32
for i = 0; i < (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm; i++ {
var pSyn uintptr
var pNext uintptr
var pTerm uintptr = pPhrase + 32 + uintptr(i)*32
Xsqlite3_free(tls, (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FzTerm)
sqlite3Fts5IterClose(tls, (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FpIter)
for pSyn = (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FpSynonym; pSyn != 0; pSyn = pNext {
pNext = (*Fts5ExprTerm)(unsafe.Pointer(pSyn)).FpSynonym
sqlite3Fts5IterClose(tls, (*Fts5ExprTerm)(unsafe.Pointer(pSyn)).FpIter)
sqlite3Fts5BufferFree(tls, pSyn+1*32)
Xsqlite3_free(tls, pSyn)
}
}
if (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).Fposlist.FnSpace > 0 {
sqlite3Fts5BufferFree(tls, pPhrase+8)
}
Xsqlite3_free(tls, pPhrase)
}
}
func sqlite3Fts5ParseSetCaret(tls *libc.TLS, pPhrase uintptr) {
if pPhrase != 0 && (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm != 0 {
(*Fts5ExprTerm)(unsafe.Pointer(pPhrase + 32)).FbFirst = U8(1)
}
}
func sqlite3Fts5ParseNearset(tls *libc.TLS, pParse uintptr, pNear uintptr, pPhrase uintptr) uintptr {
var SZALLOC int32 = 8
var pRet uintptr = uintptr(0)
if (*Fts5Parse)(unsafe.Pointer(pParse)).Frc == SQLITE_OK {
if pPhrase == uintptr(0) {
return pNear
}
if pNear == uintptr(0) {
var nByte Sqlite3_int64
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5ExprNearset{})) + uint64(SZALLOC)*uint64(unsafe.Sizeof(uintptr(0))))
pRet = Xsqlite3_malloc64(tls, uint64(nByte))
if pRet == uintptr(0) {
(*Fts5Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_NOMEM
} else {
libc.X__builtin___memset_chk(tls, pRet, 0, Size_t(nByte), libc.X__builtin_object_size(tls, pRet, 0))
}
} else if (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase%SZALLOC == 0 {
var nNew int32 = (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase + SZALLOC
var nByte Sqlite3_int64
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5ExprNearset{})) + uint64(nNew)*uint64(unsafe.Sizeof(uintptr(0))))
pRet = Xsqlite3_realloc64(tls, pNear, uint64(nByte))
if pRet == uintptr(0) {
(*Fts5Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_NOMEM
}
} else {
pRet = pNear
}
}
if pRet == uintptr(0) {
sqlite3Fts5ParseNearsetFree(tls, pNear)
sqlite3Fts5ParsePhraseFree(tls, pPhrase)
} else {
if (*Fts5ExprNearset)(unsafe.Pointer(pRet)).FnPhrase > 0 {
var pLast uintptr = *(*uintptr)(unsafe.Pointer(pRet + 24 + uintptr((*Fts5ExprNearset)(unsafe.Pointer(pRet)).FnPhrase-1)*8))
if (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm == 0 {
fts5ExprPhraseFree(tls, pPhrase)
(*Fts5ExprNearset)(unsafe.Pointer(pRet)).FnPhrase--
(*Fts5Parse)(unsafe.Pointer(pParse)).FnPhrase--
pPhrase = pLast
} else if (*Fts5ExprPhrase)(unsafe.Pointer(pLast)).FnTerm == 0 {
fts5ExprPhraseFree(tls, pLast)
*(*uintptr)(unsafe.Pointer((*Fts5Parse)(unsafe.Pointer(pParse)).FapPhrase + uintptr((*Fts5Parse)(unsafe.Pointer(pParse)).FnPhrase-2)*8)) = pPhrase
(*Fts5Parse)(unsafe.Pointer(pParse)).FnPhrase--
(*Fts5ExprNearset)(unsafe.Pointer(pRet)).FnPhrase--
}
}
*(*uintptr)(unsafe.Pointer(pRet + 24 + uintptr(libc.PostIncInt32(&(*Fts5ExprNearset)(unsafe.Pointer(pRet)).FnPhrase, 1))*8)) = pPhrase
}
return pRet
}
type TokenCtx1 = struct {
FpPhrase uintptr
Frc int32
F__ccgo_pad1 [4]byte
}
type TokenCtx = TokenCtx1
func fts5ParseTokenize(tls *libc.TLS, pContext uintptr, tflags int32, pToken uintptr, nToken int32, iUnused1 int32, iUnused2 int32) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
var SZALLOC int32 = 8
var pCtx uintptr = pContext
var pPhrase uintptr = (*TokenCtx)(unsafe.Pointer(pCtx)).FpPhrase
_ = iUnused1
_ = iUnused2
if (*TokenCtx)(unsafe.Pointer(pCtx)).Frc != SQLITE_OK {
return (*TokenCtx)(unsafe.Pointer(pCtx)).Frc
}
if nToken > FTS5_MAX_TOKEN_SIZE {
nToken = FTS5_MAX_TOKEN_SIZE
}
if pPhrase != 0 && (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm > 0 && tflags&FTS5_TOKEN_COLOCATED != 0 {
var pSyn uintptr
var nByte Sqlite3_int64 = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5ExprTerm{})) + uint64(unsafe.Sizeof(Fts5Buffer{})) + uint64(nToken) + uint64(1))
pSyn = Xsqlite3_malloc64(tls, uint64(nByte))
if pSyn == uintptr(0) {
*(*int32)(unsafe.Pointer(bp)) = SQLITE_NOMEM
} else {
libc.X__builtin___memset_chk(tls, pSyn, 0, Size_t(nByte), libc.X__builtin_object_size(tls, pSyn, 0))
(*Fts5ExprTerm)(unsafe.Pointer(pSyn)).FzTerm = pSyn + uintptr(uint64(unsafe.Sizeof(Fts5ExprTerm{}))) + uintptr(uint64(unsafe.Sizeof(Fts5Buffer{})))
libc.X__builtin___memcpy_chk(tls, (*Fts5ExprTerm)(unsafe.Pointer(pSyn)).FzTerm, pToken, uint64(nToken), libc.X__builtin_object_size(tls, (*Fts5ExprTerm)(unsafe.Pointer(pSyn)).FzTerm, 0))
(*Fts5ExprTerm)(unsafe.Pointer(pSyn)).FpSynonym = (*Fts5ExprTerm)(unsafe.Pointer(pPhrase + 32 + uintptr((*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm-1)*32)).FpSynonym
(*Fts5ExprTerm)(unsafe.Pointer(pPhrase + 32 + uintptr((*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm-1)*32)).FpSynonym = pSyn
}
} else {
var pTerm uintptr
if pPhrase == uintptr(0) || (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm%SZALLOC == 0 {
var pNew uintptr
var nNew int32 = SZALLOC + func() int32 {
if pPhrase != 0 {
return (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm
}
return 0
}()
pNew = Xsqlite3_realloc64(tls, pPhrase,
uint64(unsafe.Sizeof(Fts5ExprPhrase{}))+uint64(unsafe.Sizeof(Fts5ExprTerm{}))*uint64(nNew))
if pNew == uintptr(0) {
*(*int32)(unsafe.Pointer(bp)) = SQLITE_NOMEM
} else {
if pPhrase == uintptr(0) {
libc.X__builtin___memset_chk(tls, pNew, 0, uint64(unsafe.Sizeof(Fts5ExprPhrase{})), libc.X__builtin_object_size(tls, pNew, 0))
}
(*TokenCtx)(unsafe.Pointer(pCtx)).FpPhrase = libc.AssignUintptr(&pPhrase, pNew)
(*Fts5ExprPhrase)(unsafe.Pointer(pNew)).FnTerm = nNew - SZALLOC
}
}
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
pTerm = pPhrase + 32 + uintptr(libc.PostIncInt32(&(*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm, 1))*32
libc.X__builtin___memset_chk(tls, pTerm, 0, uint64(unsafe.Sizeof(Fts5ExprTerm{})), libc.X__builtin_object_size(tls, pTerm, 0))
(*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FzTerm = sqlite3Fts5Strndup(tls, bp, pToken, nToken)
}
}
(*TokenCtx)(unsafe.Pointer(pCtx)).Frc = *(*int32)(unsafe.Pointer(bp))
return *(*int32)(unsafe.Pointer(bp))
}
func sqlite3Fts5ParsePhraseFree(tls *libc.TLS, pPhrase uintptr) {
fts5ExprPhraseFree(tls, pPhrase)
}
func sqlite3Fts5ParseNearsetFree(tls *libc.TLS, pNear uintptr) {
if pNear != 0 {
var i int32
for i = 0; i < (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase; i++ {
fts5ExprPhraseFree(tls, *(*uintptr)(unsafe.Pointer(pNear + 24 + uintptr(i)*8)))
}
Xsqlite3_free(tls, (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FpColset)
Xsqlite3_free(tls, pNear)
}
}
func sqlite3Fts5ParseFinished(tls *libc.TLS, pParse uintptr, p uintptr) {
(*Fts5Parse)(unsafe.Pointer(pParse)).FpExpr = p
}
func parseGrowPhraseArray(tls *libc.TLS, pParse uintptr) int32 {
if (*Fts5Parse)(unsafe.Pointer(pParse)).FnPhrase%8 == 0 {
var nByte Sqlite3_int64 = Sqlite3_int64(uint64(unsafe.Sizeof(uintptr(0))) * uint64((*Fts5Parse)(unsafe.Pointer(pParse)).FnPhrase+8))
var apNew uintptr
apNew = Xsqlite3_realloc64(tls, (*Fts5Parse)(unsafe.Pointer(pParse)).FapPhrase, uint64(nByte))
if apNew == uintptr(0) {
(*Fts5Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_NOMEM
return SQLITE_NOMEM
}
(*Fts5Parse)(unsafe.Pointer(pParse)).FapPhrase = apNew
}
return SQLITE_OK
}
func sqlite3Fts5ParseTerm(tls *libc.TLS, pParse uintptr, pAppend uintptr, pToken uintptr, bPrefix int32) uintptr {
bp := tls.Alloc(24)
defer tls.Free(24)
var pConfig uintptr = (*Fts5Parse)(unsafe.Pointer(pParse)).FpConfig
var rc int32
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(TokenCtx{})), libc.X__builtin_object_size(tls, bp, 0))
(*TokenCtx)(unsafe.Pointer(bp)).FpPhrase = pAppend
rc = fts5ParseStringFromToken(tls, pToken, bp+16)
if rc == SQLITE_OK {
var flags int32 = FTS5_TOKENIZE_QUERY | func() int32 {
if bPrefix != 0 {
return FTS5_TOKENIZE_PREFIX
}
return 0
}()
var n int32
sqlite3Fts5Dequote(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
n = int32(libc.Xstrlen(tls, *(*uintptr)(unsafe.Pointer(bp + 16))))
rc = sqlite3Fts5Tokenize(tls, pConfig, flags, *(*uintptr)(unsafe.Pointer(bp + 16)), n, bp, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
}{fts5ParseTokenize})))
}
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
if rc != 0 || libc.AssignInt32(&rc, (*TokenCtx)(unsafe.Pointer(bp)).Frc) != 0 {
(*Fts5Parse)(unsafe.Pointer(pParse)).Frc = rc
fts5ExprPhraseFree(tls, (*TokenCtx)(unsafe.Pointer(bp)).FpPhrase)
(*TokenCtx)(unsafe.Pointer(bp)).FpPhrase = uintptr(0)
} else {
if pAppend == uintptr(0) {
if parseGrowPhraseArray(tls, pParse) != 0 {
fts5ExprPhraseFree(tls, (*TokenCtx)(unsafe.Pointer(bp)).FpPhrase)
return uintptr(0)
}
(*Fts5Parse)(unsafe.Pointer(pParse)).FnPhrase++
}
if (*TokenCtx)(unsafe.Pointer(bp)).FpPhrase == uintptr(0) {
(*TokenCtx)(unsafe.Pointer(bp)).FpPhrase = sqlite3Fts5MallocZero(tls, pParse+16, int64(unsafe.Sizeof(Fts5ExprPhrase{})))
} else if (*Fts5ExprPhrase)(unsafe.Pointer((*TokenCtx)(unsafe.Pointer(bp)).FpPhrase)).FnTerm != 0 {
(*Fts5ExprTerm)(unsafe.Pointer((*TokenCtx)(unsafe.Pointer(bp)).FpPhrase + 32 + uintptr((*Fts5ExprPhrase)(unsafe.Pointer((*TokenCtx)(unsafe.Pointer(bp)).FpPhrase)).FnTerm-1)*32)).FbPrefix = U8(bPrefix)
}
*(*uintptr)(unsafe.Pointer((*Fts5Parse)(unsafe.Pointer(pParse)).FapPhrase + uintptr((*Fts5Parse)(unsafe.Pointer(pParse)).FnPhrase-1)*8)) = (*TokenCtx)(unsafe.Pointer(bp)).FpPhrase
}
return (*TokenCtx)(unsafe.Pointer(bp)).FpPhrase
}
func sqlite3Fts5ExprClonePhrase(tls *libc.TLS, pExpr uintptr, iPhrase int32, ppNew uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
var pOrig uintptr
var pNew uintptr = uintptr(0)
*(*TokenCtx)(unsafe.Pointer(bp + 8)) = TokenCtx{}
pOrig = *(*uintptr)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pExpr)).FapExprPhrase + uintptr(iPhrase)*8))
pNew = sqlite3Fts5MallocZero(tls, bp, int64(unsafe.Sizeof(Fts5Expr{})))
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
(*Fts5Expr)(unsafe.Pointer(pNew)).FapExprPhrase = sqlite3Fts5MallocZero(tls, bp,
int64(unsafe.Sizeof(uintptr(0))))
}
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
(*Fts5Expr)(unsafe.Pointer(pNew)).FpRoot = sqlite3Fts5MallocZero(tls, bp,
int64(unsafe.Sizeof(Fts5ExprNode{})))
}
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
(*Fts5ExprNode)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pNew)).FpRoot)).FpNear = sqlite3Fts5MallocZero(tls, bp,
int64(uint64(unsafe.Sizeof(Fts5ExprNearset{}))+uint64(unsafe.Sizeof(uintptr(0)))))
}
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
var pColsetOrig uintptr = (*Fts5ExprNearset)(unsafe.Pointer((*Fts5ExprNode)(unsafe.Pointer((*Fts5ExprPhrase)(unsafe.Pointer(pOrig)).FpNode)).FpNear)).FpColset
if pColsetOrig != 0 {
var nByte Sqlite3_int64
var pColset uintptr
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5Colset{})) + uint64((*Fts5Colset)(unsafe.Pointer(pColsetOrig)).FnCol-1)*uint64(unsafe.Sizeof(int32(0))))
pColset = sqlite3Fts5MallocZero(tls, bp, nByte)
if pColset != 0 {
libc.X__builtin___memcpy_chk(tls, pColset, pColsetOrig, Size_t(nByte), libc.X__builtin_object_size(tls, pColset, 0))
}
(*Fts5ExprNearset)(unsafe.Pointer((*Fts5ExprNode)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pNew)).FpRoot)).FpNear)).FpColset = pColset
}
}
if (*Fts5ExprPhrase)(unsafe.Pointer(pOrig)).FnTerm != 0 {
var i int32
for i = 0; *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK && i < (*Fts5ExprPhrase)(unsafe.Pointer(pOrig)).FnTerm; i++ {
var tflags int32 = 0
var p uintptr
for p = pOrig + 32 + uintptr(i)*32; p != 0 && *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK; p = (*Fts5ExprTerm)(unsafe.Pointer(p)).FpSynonym {
var zTerm uintptr = (*Fts5ExprTerm)(unsafe.Pointer(p)).FzTerm
*(*int32)(unsafe.Pointer(bp)) = fts5ParseTokenize(tls, bp+8, tflags, zTerm, int32(libc.Xstrlen(tls, zTerm)),
0, 0)
tflags = FTS5_TOKEN_COLOCATED
}
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
(*Fts5ExprTerm)(unsafe.Pointer((*TokenCtx)(unsafe.Pointer(bp+8)).FpPhrase + 32 + uintptr(i)*32)).FbPrefix = (*Fts5ExprTerm)(unsafe.Pointer(pOrig + 32 + uintptr(i)*32)).FbPrefix
(*Fts5ExprTerm)(unsafe.Pointer((*TokenCtx)(unsafe.Pointer(bp+8)).FpPhrase + 32 + uintptr(i)*32)).FbFirst = (*Fts5ExprTerm)(unsafe.Pointer(pOrig + 32 + uintptr(i)*32)).FbFirst
}
}
} else {
(*TokenCtx)(unsafe.Pointer(bp + 8)).FpPhrase = sqlite3Fts5MallocZero(tls, bp, int64(unsafe.Sizeof(Fts5ExprPhrase{})))
}
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK && (*TokenCtx)(unsafe.Pointer(bp+8)).FpPhrase != 0 {
(*Fts5Expr)(unsafe.Pointer(pNew)).FpIndex = (*Fts5Expr)(unsafe.Pointer(pExpr)).FpIndex
(*Fts5Expr)(unsafe.Pointer(pNew)).FpConfig = (*Fts5Expr)(unsafe.Pointer(pExpr)).FpConfig
(*Fts5Expr)(unsafe.Pointer(pNew)).FnPhrase = 1
*(*uintptr)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pNew)).FapExprPhrase)) = (*TokenCtx)(unsafe.Pointer(bp + 8)).FpPhrase
*(*uintptr)(unsafe.Pointer((*Fts5ExprNode)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pNew)).FpRoot)).FpNear + 24)) = (*TokenCtx)(unsafe.Pointer(bp + 8)).FpPhrase
(*Fts5ExprNearset)(unsafe.Pointer((*Fts5ExprNode)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pNew)).FpRoot)).FpNear)).FnPhrase = 1
(*Fts5ExprPhrase)(unsafe.Pointer((*TokenCtx)(unsafe.Pointer(bp + 8)).FpPhrase)).FpNode = (*Fts5Expr)(unsafe.Pointer(pNew)).FpRoot
if (*Fts5ExprPhrase)(unsafe.Pointer(pOrig)).FnTerm == 1 &&
(*Fts5ExprTerm)(unsafe.Pointer(pOrig+32)).FpSynonym == uintptr(0) &&
int32((*Fts5ExprTerm)(unsafe.Pointer(pOrig+32)).FbFirst) == 0 {
(*Fts5ExprNode)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pNew)).FpRoot)).FeType = FTS5_TERM
(*Fts5ExprNode)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pNew)).FpRoot)).FxNext = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
}{fts5ExprNodeNext_TERM}))
} else {
(*Fts5ExprNode)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pNew)).FpRoot)).FeType = FTS5_STRING
(*Fts5ExprNode)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pNew)).FpRoot)).FxNext = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
}{fts5ExprNodeNext_STRING}))
}
} else {
sqlite3Fts5ExprFree(tls, pNew)
fts5ExprPhraseFree(tls, (*TokenCtx)(unsafe.Pointer(bp+8)).FpPhrase)
pNew = uintptr(0)
}
*(*uintptr)(unsafe.Pointer(ppNew)) = pNew
return *(*int32)(unsafe.Pointer(bp))
}
func sqlite3Fts5ParseNear(tls *libc.TLS, pParse uintptr, pTok uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
if (*Fts5Token)(unsafe.Pointer(pTok)).Fn != 4 || libc.Xmemcmp(tls, ts+35135, (*Fts5Token)(unsafe.Pointer(pTok)).Fp, uint64(4)) != 0 {
sqlite3Fts5ParseError(tls,
pParse, ts+34164, libc.VaList(bp, (*Fts5Token)(unsafe.Pointer(pTok)).Fn, (*Fts5Token)(unsafe.Pointer(pTok)).Fp))
}
}
func sqlite3Fts5ParseSetDistance(tls *libc.TLS, pParse uintptr, pNear uintptr, p uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
if pNear != 0 {
var nNear int32 = 0
var i int32
if (*Fts5Token)(unsafe.Pointer(p)).Fn != 0 {
for i = 0; i < (*Fts5Token)(unsafe.Pointer(p)).Fn; i++ {
var c int8 = *(*int8)(unsafe.Pointer((*Fts5Token)(unsafe.Pointer(p)).Fp + uintptr(i)))
if int32(c) < '0' || int32(c) > '9' {
sqlite3Fts5ParseError(tls,
pParse, ts+35140, libc.VaList(bp, (*Fts5Token)(unsafe.Pointer(p)).Fn, (*Fts5Token)(unsafe.Pointer(p)).Fp))
return
}
nNear = nNear*10 + (int32(*(*int8)(unsafe.Pointer((*Fts5Token)(unsafe.Pointer(p)).Fp + uintptr(i)))) - '0')
}
} else {
nNear = FTS5_DEFAULT_NEARDIST
}
(*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnNear = nNear
}
}
func fts5ParseColset(tls *libc.TLS, pParse uintptr, p uintptr, iCol int32) uintptr {
var nCol int32
if p != 0 {
nCol = (*Fts5Colset)(unsafe.Pointer(p)).FnCol
} else {
nCol = 0
}
var pNew uintptr
pNew = Xsqlite3_realloc64(tls, p, uint64(unsafe.Sizeof(Fts5Colset{}))+uint64(unsafe.Sizeof(int32(0)))*uint64(nCol))
if pNew == uintptr(0) {
(*Fts5Parse)(unsafe.Pointer(pParse)).Frc = SQLITE_NOMEM
} else {
var aiCol uintptr = pNew + 4
var i int32
var j int32
for i = 0; i < nCol; i++ {
if *(*int32)(unsafe.Pointer(aiCol + uintptr(i)*4)) == iCol {
return pNew
}
if *(*int32)(unsafe.Pointer(aiCol + uintptr(i)*4)) > iCol {
break
}
}
for j = nCol; j > i; j-- {
*(*int32)(unsafe.Pointer(aiCol + uintptr(j)*4)) = *(*int32)(unsafe.Pointer(aiCol + uintptr(j-1)*4))
}
*(*int32)(unsafe.Pointer(aiCol + uintptr(i)*4)) = iCol
(*Fts5Colset)(unsafe.Pointer(pNew)).FnCol = nCol + 1
}
return pNew
}
func sqlite3Fts5ParseColsetInvert(tls *libc.TLS, pParse uintptr, p uintptr) uintptr {
var pRet uintptr
var nCol int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Parse)(unsafe.Pointer(pParse)).FpConfig)).FnCol
pRet = sqlite3Fts5MallocZero(tls, pParse+16,
int64(uint64(unsafe.Sizeof(Fts5Colset{}))+uint64(unsafe.Sizeof(int32(0)))*uint64(nCol)))
if pRet != 0 {
var i int32
var iOld int32 = 0
for i = 0; i < nCol; i++ {
if iOld >= (*Fts5Colset)(unsafe.Pointer(p)).FnCol || *(*int32)(unsafe.Pointer(p + 4 + uintptr(iOld)*4)) != i {
*(*int32)(unsafe.Pointer(pRet + 4 + uintptr(libc.PostIncInt32(&(*Fts5Colset)(unsafe.Pointer(pRet)).FnCol, 1))*4)) = i
} else {
iOld++
}
}
}
Xsqlite3_free(tls, p)
return pRet
}
func sqlite3Fts5ParseColset(tls *libc.TLS, pParse uintptr, pColset uintptr, p uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var pRet uintptr = uintptr(0)
var iCol int32
var z uintptr
z = sqlite3Fts5Strndup(tls, pParse+16, (*Fts5Token)(unsafe.Pointer(p)).Fp, (*Fts5Token)(unsafe.Pointer(p)).Fn)
if (*Fts5Parse)(unsafe.Pointer(pParse)).Frc == SQLITE_OK {
var pConfig uintptr = (*Fts5Parse)(unsafe.Pointer(pParse)).FpConfig
sqlite3Fts5Dequote(tls, z)
for iCol = 0; iCol < (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol; iCol++ {
if 0 == Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FazCol + uintptr(iCol)*8)), z) {
break
}
}
if iCol == (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol {
sqlite3Fts5ParseError(tls, pParse, ts+20978, libc.VaList(bp, z))
} else {
pRet = fts5ParseColset(tls, pParse, pColset, iCol)
}
Xsqlite3_free(tls, z)
}
if pRet == uintptr(0) {
Xsqlite3_free(tls, pColset)
}
return pRet
}
func fts5CloneColset(tls *libc.TLS, pRc uintptr, pOrig uintptr) uintptr {
var pRet uintptr
if pOrig != 0 {
var nByte Sqlite3_int64 = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5Colset{})) + uint64((*Fts5Colset)(unsafe.Pointer(pOrig)).FnCol-1)*uint64(unsafe.Sizeof(int32(0))))
pRet = sqlite3Fts5MallocZero(tls, pRc, nByte)
if pRet != 0 {
libc.X__builtin___memcpy_chk(tls, pRet, pOrig, Size_t(nByte), libc.X__builtin_object_size(tls, pRet, 0))
}
} else {
pRet = uintptr(0)
}
return pRet
}
func fts5MergeColset(tls *libc.TLS, pColset uintptr, pMerge uintptr) {
var iIn int32 = 0
var iMerge int32 = 0
var iOut int32 = 0
for iIn < (*Fts5Colset)(unsafe.Pointer(pColset)).FnCol && iMerge < (*Fts5Colset)(unsafe.Pointer(pMerge)).FnCol {
var iDiff int32 = *(*int32)(unsafe.Pointer(pColset + 4 + uintptr(iIn)*4)) - *(*int32)(unsafe.Pointer(pMerge + 4 + uintptr(iMerge)*4))
if iDiff == 0 {
*(*int32)(unsafe.Pointer(pColset + 4 + uintptr(libc.PostIncInt32(&iOut, 1))*4)) = *(*int32)(unsafe.Pointer(pMerge + 4 + uintptr(iMerge)*4))
iMerge++
iIn++
} else if iDiff > 0 {
iMerge++
} else {
iIn++
}
}
(*Fts5Colset)(unsafe.Pointer(pColset)).FnCol = iOut
}
func fts5ParseSetColset(tls *libc.TLS, pParse uintptr, pNode uintptr, pColset uintptr, ppFree uintptr) {
if (*Fts5Parse)(unsafe.Pointer(pParse)).Frc == SQLITE_OK {
if (*Fts5ExprNode)(unsafe.Pointer(pNode)).FeType == FTS5_STRING || (*Fts5ExprNode)(unsafe.Pointer(pNode)).FeType == FTS5_TERM {
var pNear uintptr = (*Fts5ExprNode)(unsafe.Pointer(pNode)).FpNear
if (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FpColset != 0 {
fts5MergeColset(tls, (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FpColset, pColset)
if (*Fts5Colset)(unsafe.Pointer((*Fts5ExprNearset)(unsafe.Pointer(pNear)).FpColset)).FnCol == 0 {
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FeType = FTS5_EOF
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FxNext = uintptr(0)
}
} else if *(*uintptr)(unsafe.Pointer(ppFree)) != 0 {
(*Fts5ExprNearset)(unsafe.Pointer(pNear)).FpColset = pColset
*(*uintptr)(unsafe.Pointer(ppFree)) = uintptr(0)
} else {
(*Fts5ExprNearset)(unsafe.Pointer(pNear)).FpColset = fts5CloneColset(tls, pParse+16, pColset)
}
} else {
var i int32
for i = 0; i < (*Fts5ExprNode)(unsafe.Pointer(pNode)).FnChild; i++ {
fts5ParseSetColset(tls, pParse, *(*uintptr)(unsafe.Pointer(pNode + 48 + uintptr(i)*8)), pColset, ppFree)
}
}
}
}
func sqlite3Fts5ParseSetColset(tls *libc.TLS, pParse uintptr, pExpr uintptr, pColset uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = pColset
if (*Fts5Config)(unsafe.Pointer((*Fts5Parse)(unsafe.Pointer(pParse)).FpConfig)).FeDetail == FTS5_DETAIL_NONE {
sqlite3Fts5ParseError(tls, pParse,
ts+35169, 0)
} else {
fts5ParseSetColset(tls, pParse, pExpr, pColset, bp)
}
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
func fts5ExprAssignXNext(tls *libc.TLS, pNode uintptr) {
switch (*Fts5ExprNode)(unsafe.Pointer(pNode)).FeType {
case FTS5_STRING:
{
var pNear uintptr = (*Fts5ExprNode)(unsafe.Pointer(pNode)).FpNear
if (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase == 1 && (*Fts5ExprPhrase)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNear + 24)))).FnTerm == 1 &&
(*Fts5ExprTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNear + 24))+32)).FpSynonym == uintptr(0) &&
int32((*Fts5ExprTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNear + 24))+32)).FbFirst) == 0 {
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FeType = FTS5_TERM
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FxNext = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
}{fts5ExprNodeNext_TERM}))
} else {
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FxNext = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
}{fts5ExprNodeNext_STRING}))
}
break
}
case FTS5_OR:
{
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FxNext = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
}{fts5ExprNodeNext_OR}))
break
}
case FTS5_AND:
{
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FxNext = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
}{fts5ExprNodeNext_AND}))
break
}
default:
{
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FxNext = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, I64) int32
}{fts5ExprNodeNext_NOT}))
break
}
}
}
func fts5ExprAddChildren(tls *libc.TLS, p uintptr, pSub uintptr) {
if (*Fts5ExprNode)(unsafe.Pointer(p)).FeType != FTS5_NOT && (*Fts5ExprNode)(unsafe.Pointer(pSub)).FeType == (*Fts5ExprNode)(unsafe.Pointer(p)).FeType {
var nByte int32 = int32(uint64(unsafe.Sizeof(uintptr(0))) * uint64((*Fts5ExprNode)(unsafe.Pointer(pSub)).FnChild))
libc.X__builtin___memcpy_chk(tls, p+48+uintptr((*Fts5ExprNode)(unsafe.Pointer(p)).FnChild)*8, pSub+48, uint64(nByte), libc.X__builtin_object_size(tls, p+48+uintptr((*Fts5ExprNode)(unsafe.Pointer(p)).FnChild)*8, 0))
*(*int32)(unsafe.Pointer(p + 40)) += (*Fts5ExprNode)(unsafe.Pointer(pSub)).FnChild
Xsqlite3_free(tls, pSub)
} else {
*(*uintptr)(unsafe.Pointer(p + 48 + uintptr(libc.PostIncInt32(&(*Fts5ExprNode)(unsafe.Pointer(p)).FnChild, 1))*8)) = pSub
}
}
func fts5ParsePhraseToAnd(tls *libc.TLS, pParse uintptr, pNear uintptr) uintptr {
var nTerm int32 = (*Fts5ExprPhrase)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNear + 24)))).FnTerm
var ii int32
var nByte int32
var pRet uintptr
nByte = int32(uint64(unsafe.Sizeof(Fts5ExprNode{})) + uint64(nTerm)*uint64(unsafe.Sizeof(uintptr(0))))
pRet = sqlite3Fts5MallocZero(tls, pParse+16, int64(nByte))
if pRet != 0 {
(*Fts5ExprNode)(unsafe.Pointer(pRet)).FeType = FTS5_AND
(*Fts5ExprNode)(unsafe.Pointer(pRet)).FnChild = nTerm
fts5ExprAssignXNext(tls, pRet)
(*Fts5Parse)(unsafe.Pointer(pParse)).FnPhrase--
for ii = 0; ii < nTerm; ii++ {
var pPhrase uintptr = sqlite3Fts5MallocZero(tls,
pParse+16, int64(unsafe.Sizeof(Fts5ExprPhrase{})))
if pPhrase != 0 {
if parseGrowPhraseArray(tls, pParse) != 0 {
fts5ExprPhraseFree(tls, pPhrase)
} else {
*(*uintptr)(unsafe.Pointer((*Fts5Parse)(unsafe.Pointer(pParse)).FapPhrase + uintptr(libc.PostIncInt32(&(*Fts5Parse)(unsafe.Pointer(pParse)).FnPhrase, 1))*8)) = pPhrase
(*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm = 1
(*Fts5ExprTerm)(unsafe.Pointer(pPhrase + 32)).FzTerm = sqlite3Fts5Strndup(tls,
pParse+16, (*Fts5ExprTerm)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNear + 24))+32+uintptr(ii)*32)).FzTerm, -1)
*(*uintptr)(unsafe.Pointer(pRet + 48 + uintptr(ii)*8)) = sqlite3Fts5ParseNode(tls, pParse, FTS5_STRING,
uintptr(0), uintptr(0), sqlite3Fts5ParseNearset(tls, pParse, uintptr(0), pPhrase))
}
}
}
if (*Fts5Parse)(unsafe.Pointer(pParse)).Frc != 0 {
sqlite3Fts5ParseNodeFree(tls, pRet)
pRet = uintptr(0)
} else {
sqlite3Fts5ParseNearsetFree(tls, pNear)
}
}
return pRet
}
func sqlite3Fts5ParseNode(tls *libc.TLS, pParse uintptr, eType int32, pLeft uintptr, pRight uintptr, pNear uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var pRet uintptr = uintptr(0)
if (*Fts5Parse)(unsafe.Pointer(pParse)).Frc == SQLITE_OK {
var nChild int32 = 0
var nByte Sqlite3_int64
if eType == FTS5_STRING && pNear == uintptr(0) {
return uintptr(0)
}
if eType != FTS5_STRING && pLeft == uintptr(0) {
return pRight
}
if eType != FTS5_STRING && pRight == uintptr(0) {
return pLeft
}
if eType == FTS5_STRING &&
(*Fts5Parse)(unsafe.Pointer(pParse)).FbPhraseToAnd != 0 &&
(*Fts5ExprPhrase)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNear + 24)))).FnTerm > 1 {
pRet = fts5ParsePhraseToAnd(tls, pParse, pNear)
} else {
if eType == FTS5_NOT {
nChild = 2
} else if eType == FTS5_AND || eType == FTS5_OR {
nChild = 2
if (*Fts5ExprNode)(unsafe.Pointer(pLeft)).FeType == eType {
nChild = nChild + ((*Fts5ExprNode)(unsafe.Pointer(pLeft)).FnChild - 1)
}
if (*Fts5ExprNode)(unsafe.Pointer(pRight)).FeType == eType {
nChild = nChild + ((*Fts5ExprNode)(unsafe.Pointer(pRight)).FnChild - 1)
}
}
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5ExprNode{})) + uint64(unsafe.Sizeof(uintptr(0)))*uint64(nChild-1))
pRet = sqlite3Fts5MallocZero(tls, pParse+16, nByte)
if pRet != 0 {
(*Fts5ExprNode)(unsafe.Pointer(pRet)).FeType = eType
(*Fts5ExprNode)(unsafe.Pointer(pRet)).FpNear = pNear
fts5ExprAssignXNext(tls, pRet)
if eType == FTS5_STRING {
var iPhrase int32
for iPhrase = 0; iPhrase < (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase; iPhrase++ {
(*Fts5ExprPhrase)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNear + 24 + uintptr(iPhrase)*8)))).FpNode = pRet
if (*Fts5ExprPhrase)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pNear + 24 + uintptr(iPhrase)*8)))).FnTerm == 0 {
(*Fts5ExprNode)(unsafe.Pointer(pRet)).FxNext = uintptr(0)
(*Fts5ExprNode)(unsafe.Pointer(pRet)).FeType = FTS5_EOF
}
}
if (*Fts5Config)(unsafe.Pointer((*Fts5Parse)(unsafe.Pointer(pParse)).FpConfig)).FeDetail != FTS5_DETAIL_FULL {
var pPhrase uintptr = *(*uintptr)(unsafe.Pointer(pNear + 24))
if (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase != 1 ||
(*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm > 1 ||
(*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FnTerm > 0 && (*Fts5ExprTerm)(unsafe.Pointer(pPhrase+32)).FbFirst != 0 {
sqlite3Fts5ParseError(tls, pParse,
ts+35222,
libc.VaList(bp, func() uintptr {
if (*Fts5ExprNearset)(unsafe.Pointer(pNear)).FnPhrase == 1 {
return ts + 35272
}
return ts + 35135
}()))
Xsqlite3_free(tls, pRet)
pRet = uintptr(0)
}
}
} else {
fts5ExprAddChildren(tls, pRet, pLeft)
fts5ExprAddChildren(tls, pRet, pRight)
}
}
}
}
if pRet == uintptr(0) {
sqlite3Fts5ParseNodeFree(tls, pLeft)
sqlite3Fts5ParseNodeFree(tls, pRight)
sqlite3Fts5ParseNearsetFree(tls, pNear)
}
return pRet
}
func sqlite3Fts5ParseImplicitAnd(tls *libc.TLS, pParse uintptr, pLeft uintptr, pRight uintptr) uintptr {
var pRet uintptr = uintptr(0)
var pPrev uintptr
if (*Fts5Parse)(unsafe.Pointer(pParse)).Frc != 0 {
sqlite3Fts5ParseNodeFree(tls, pLeft)
sqlite3Fts5ParseNodeFree(tls, pRight)
} else {
if (*Fts5ExprNode)(unsafe.Pointer(pLeft)).FeType == FTS5_AND {
pPrev = *(*uintptr)(unsafe.Pointer(pLeft + 48 + uintptr((*Fts5ExprNode)(unsafe.Pointer(pLeft)).FnChild-1)*8))
} else {
pPrev = pLeft
}
if (*Fts5ExprNode)(unsafe.Pointer(pRight)).FeType == FTS5_EOF {
sqlite3Fts5ParseNodeFree(tls, pRight)
pRet = pLeft
(*Fts5Parse)(unsafe.Pointer(pParse)).FnPhrase--
} else if (*Fts5ExprNode)(unsafe.Pointer(pPrev)).FeType == FTS5_EOF {
var ap uintptr
if pPrev == pLeft {
pRet = pRight
} else {
*(*uintptr)(unsafe.Pointer(pLeft + 48 + uintptr((*Fts5ExprNode)(unsafe.Pointer(pLeft)).FnChild-1)*8)) = pRight
pRet = pLeft
}
ap = (*Fts5Parse)(unsafe.Pointer(pParse)).FapPhrase + uintptr((*Fts5Parse)(unsafe.Pointer(pParse)).FnPhrase-1-(*Fts5ExprNearset)(unsafe.Pointer((*Fts5ExprNode)(unsafe.Pointer(pRight)).FpNear)).FnPhrase)*8
libc.X__builtin___memmove_chk(tls, ap, ap+1*8, uint64(unsafe.Sizeof(uintptr(0)))*uint64((*Fts5ExprNearset)(unsafe.Pointer((*Fts5ExprNode)(unsafe.Pointer(pRight)).FpNear)).FnPhrase), libc.X__builtin_object_size(tls, ap, 0))
(*Fts5Parse)(unsafe.Pointer(pParse)).FnPhrase--
sqlite3Fts5ParseNodeFree(tls, pPrev)
} else {
pRet = sqlite3Fts5ParseNode(tls, pParse, FTS5_AND, pLeft, pRight, uintptr(0))
}
}
return pRet
}
func sqlite3Fts5ExprInit(tls *libc.TLS, pGlobal uintptr, db uintptr) int32 {
var rc int32 = SQLITE_OK
_ = pGlobal
_ = db
_ = *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, int32) int32 }{sqlite3Fts5ParserFallback}))
return rc
}
func sqlite3Fts5ExprPhraseCount(tls *libc.TLS, pExpr uintptr) int32 {
return func() int32 {
if pExpr != 0 {
return (*Fts5Expr)(unsafe.Pointer(pExpr)).FnPhrase
}
return 0
}()
}
func sqlite3Fts5ExprPhraseSize(tls *libc.TLS, pExpr uintptr, iPhrase int32) int32 {
if iPhrase < 0 || iPhrase >= (*Fts5Expr)(unsafe.Pointer(pExpr)).FnPhrase {
return 0
}
return (*Fts5ExprPhrase)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pExpr)).FapExprPhrase + uintptr(iPhrase)*8)))).FnTerm
}
func sqlite3Fts5ExprPoslist(tls *libc.TLS, pExpr uintptr, iPhrase int32, pa uintptr) int32 {
var nRet int32
var pPhrase uintptr = *(*uintptr)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pExpr)).FapExprPhrase + uintptr(iPhrase)*8))
var pNode uintptr = (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FpNode
if (*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof == 0 && (*Fts5ExprNode)(unsafe.Pointer(pNode)).FiRowid == (*Fts5ExprNode)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pExpr)).FpRoot)).FiRowid {
*(*uintptr)(unsafe.Pointer(pa)) = (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).Fposlist.Fp
nRet = (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).Fposlist.Fn
} else {
*(*uintptr)(unsafe.Pointer(pa)) = uintptr(0)
nRet = 0
}
return nRet
}
func sqlite3Fts5ExprClearPoslists(tls *libc.TLS, pExpr uintptr, bLive int32) uintptr {
var pRet uintptr
pRet = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(Fts5PoslistPopulator{}))*uint64((*Fts5Expr)(unsafe.Pointer(pExpr)).FnPhrase))
if pRet != 0 {
var i int32
libc.X__builtin___memset_chk(tls, pRet, 0, uint64(unsafe.Sizeof(Fts5PoslistPopulator{}))*uint64((*Fts5Expr)(unsafe.Pointer(pExpr)).FnPhrase), libc.X__builtin_object_size(tls, pRet, 0))
for i = 0; i < (*Fts5Expr)(unsafe.Pointer(pExpr)).FnPhrase; i++ {
var pBuf uintptr = *(*uintptr)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pExpr)).FapExprPhrase + uintptr(i)*8)) + 8
var pNode uintptr = (*Fts5ExprPhrase)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pExpr)).FapExprPhrase + uintptr(i)*8)))).FpNode
if bLive != 0 && ((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn == 0 || (*Fts5ExprNode)(unsafe.Pointer(pNode)).FiRowid != (*Fts5ExprNode)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pExpr)).FpRoot)).FiRowid || (*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof != 0) {
(*Fts5PoslistPopulator)(unsafe.Pointer(pRet + uintptr(i)*16)).FbMiss = 1
} else {
(*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn = 0
}
}
}
return pRet
}
type Fts5ExprCtx1 = struct {
FpExpr uintptr
FaPopulator uintptr
FiOff I64
}
type Fts5ExprCtx = Fts5ExprCtx1
func fts5ExprColsetTest(tls *libc.TLS, pColset uintptr, iCol int32) int32 {
var i int32
for i = 0; i < (*Fts5Colset)(unsafe.Pointer(pColset)).FnCol; i++ {
if *(*int32)(unsafe.Pointer(pColset + 4 + uintptr(i)*4)) == iCol {
return 1
}
}
return 0
}
func fts5ExprPopulatePoslistsCb(tls *libc.TLS, pCtx uintptr, tflags int32, pToken uintptr, nToken int32, iUnused1 int32, iUnused2 int32) int32 {
var p uintptr = pCtx
var pExpr uintptr = (*Fts5ExprCtx)(unsafe.Pointer(p)).FpExpr
var i int32
_ = iUnused1
_ = iUnused2
if nToken > FTS5_MAX_TOKEN_SIZE {
nToken = FTS5_MAX_TOKEN_SIZE
}
if tflags&FTS5_TOKEN_COLOCATED == 0 {
(*Fts5ExprCtx)(unsafe.Pointer(p)).FiOff++
}
for i = 0; i < (*Fts5Expr)(unsafe.Pointer(pExpr)).FnPhrase; i++ {
var pTerm uintptr
if (*Fts5PoslistPopulator)(unsafe.Pointer((*Fts5ExprCtx)(unsafe.Pointer(p)).FaPopulator+uintptr(i)*16)).FbOk == 0 {
continue
}
for pTerm = *(*uintptr)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pExpr)).FapExprPhrase + uintptr(i)*8)) + 32; pTerm != 0; pTerm = (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FpSynonym {
var nTerm int32 = int32(libc.Xstrlen(tls, (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FzTerm))
if (nTerm == nToken || nTerm < nToken && (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FbPrefix != 0) &&
libc.Xmemcmp(tls, (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FzTerm, pToken, uint64(nTerm)) == 0 {
var rc int32 = sqlite3Fts5PoslistWriterAppend(tls,
*(*uintptr)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pExpr)).FapExprPhrase + uintptr(i)*8))+8, (*Fts5ExprCtx)(unsafe.Pointer(p)).FaPopulator+uintptr(i)*16, (*Fts5ExprCtx)(unsafe.Pointer(p)).FiOff)
if rc != 0 {
return rc
}
break
}
}
}
return SQLITE_OK
}
func sqlite3Fts5ExprPopulatePoslists(tls *libc.TLS, pConfig uintptr, pExpr uintptr, aPopulator uintptr, iCol int32, z uintptr, n int32) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var i int32
(*Fts5ExprCtx)(unsafe.Pointer(bp)).FpExpr = pExpr
(*Fts5ExprCtx)(unsafe.Pointer(bp)).FaPopulator = aPopulator
(*Fts5ExprCtx)(unsafe.Pointer(bp)).FiOff = I64(iCol)<<32 - int64(1)
for i = 0; i < (*Fts5Expr)(unsafe.Pointer(pExpr)).FnPhrase; i++ {
var pNode uintptr = (*Fts5ExprPhrase)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pExpr)).FapExprPhrase + uintptr(i)*8)))).FpNode
var pColset uintptr = (*Fts5ExprNearset)(unsafe.Pointer((*Fts5ExprNode)(unsafe.Pointer(pNode)).FpNear)).FpColset
if pColset != 0 && 0 == fts5ExprColsetTest(tls, pColset, iCol) ||
(*Fts5PoslistPopulator)(unsafe.Pointer(aPopulator+uintptr(i)*16)).FbMiss != 0 {
(*Fts5PoslistPopulator)(unsafe.Pointer(aPopulator + uintptr(i)*16)).FbOk = 0
} else {
(*Fts5PoslistPopulator)(unsafe.Pointer(aPopulator + uintptr(i)*16)).FbOk = 1
}
}
return sqlite3Fts5Tokenize(tls, pConfig,
FTS5_TOKENIZE_DOCUMENT, z, n, bp, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
}{fts5ExprPopulatePoslistsCb})))
}
func fts5ExprClearPoslists(tls *libc.TLS, pNode uintptr) {
if (*Fts5ExprNode)(unsafe.Pointer(pNode)).FeType == FTS5_TERM || (*Fts5ExprNode)(unsafe.Pointer(pNode)).FeType == FTS5_STRING {
(*Fts5ExprPhrase)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Fts5ExprNode)(unsafe.Pointer(pNode)).FpNear + 24)))).Fposlist.Fn = 0
} else {
var i int32
for i = 0; i < (*Fts5ExprNode)(unsafe.Pointer(pNode)).FnChild; i++ {
fts5ExprClearPoslists(tls, *(*uintptr)(unsafe.Pointer(pNode + 48 + uintptr(i)*8)))
}
}
}
func fts5ExprCheckPoslists(tls *libc.TLS, pNode uintptr, iRowid I64) int32 {
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FiRowid = iRowid
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof = 0
switch (*Fts5ExprNode)(unsafe.Pointer(pNode)).FeType {
case FTS5_TERM:
fallthrough
case FTS5_STRING:
return libc.Bool32((*Fts5ExprPhrase)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer((*Fts5ExprNode)(unsafe.Pointer(pNode)).FpNear + 24)))).Fposlist.Fn > 0)
case FTS5_AND:
{
var i int32
for i = 0; i < (*Fts5ExprNode)(unsafe.Pointer(pNode)).FnChild; i++ {
if fts5ExprCheckPoslists(tls, *(*uintptr)(unsafe.Pointer(pNode + 48 + uintptr(i)*8)), iRowid) == 0 {
fts5ExprClearPoslists(tls, pNode)
return 0
}
}
break
}
case FTS5_OR:
{
var i int32
var bRet int32 = 0
for i = 0; i < (*Fts5ExprNode)(unsafe.Pointer(pNode)).FnChild; i++ {
if fts5ExprCheckPoslists(tls, *(*uintptr)(unsafe.Pointer(pNode + 48 + uintptr(i)*8)), iRowid) != 0 {
bRet = 1
}
}
return bRet
}
default:
{
if 0 == fts5ExprCheckPoslists(tls, *(*uintptr)(unsafe.Pointer(pNode + 48)), iRowid) ||
0 != fts5ExprCheckPoslists(tls, *(*uintptr)(unsafe.Pointer(pNode + 48 + 1*8)), iRowid) {
fts5ExprClearPoslists(tls, pNode)
return 0
}
break
}
}
return 1
}
func sqlite3Fts5ExprCheckPoslists(tls *libc.TLS, pExpr uintptr, iRowid I64) {
fts5ExprCheckPoslists(tls, (*Fts5Expr)(unsafe.Pointer(pExpr)).FpRoot, iRowid)
}
func sqlite3Fts5ExprPhraseCollist(tls *libc.TLS, pExpr uintptr, iPhrase int32, ppCollist uintptr, pnCollist uintptr) int32 {
var pPhrase uintptr = *(*uintptr)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pExpr)).FapExprPhrase + uintptr(iPhrase)*8))
var pNode uintptr = (*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).FpNode
var rc int32 = SQLITE_OK
if (*Fts5ExprNode)(unsafe.Pointer(pNode)).FbEof == 0 &&
(*Fts5ExprNode)(unsafe.Pointer(pNode)).FiRowid == (*Fts5ExprNode)(unsafe.Pointer((*Fts5Expr)(unsafe.Pointer(pExpr)).FpRoot)).FiRowid &&
(*Fts5ExprPhrase)(unsafe.Pointer(pPhrase)).Fposlist.Fn > 0 {
var pTerm uintptr = pPhrase + 32
if (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FpSynonym != 0 {
var pBuf uintptr = (*Fts5ExprTerm)(unsafe.Pointer(pTerm)).FpSynonym + 1*32
rc = fts5ExprSynonymList(tls,
pTerm, (*Fts5ExprNode)(unsafe.Pointer(pNode)).FiRowid, pBuf, ppCollist, pnCollist)
} else {
*(*uintptr)(unsafe.Pointer(ppCollist)) = (*Fts5IndexIter)(unsafe.Pointer((*Fts5ExprTerm)(unsafe.Pointer(pPhrase + 32)).FpIter)).FpData
*(*int32)(unsafe.Pointer(pnCollist)) = (*Fts5IndexIter)(unsafe.Pointer((*Fts5ExprTerm)(unsafe.Pointer(pPhrase + 32)).FpIter)).FnData
}
} else {
*(*uintptr)(unsafe.Pointer(ppCollist)) = uintptr(0)
*(*int32)(unsafe.Pointer(pnCollist)) = 0
}
return rc
}
type Fts5HashEntry1 = struct {
FpHashNext uintptr
FpScanNext uintptr
FnAlloc int32
FiSzPoslist int32
FnData int32
FnKey int32
FbDel U8
FbContent U8
FiCol I16
FiPos int32
FiRowid I64
}
type Fts5HashEntry = Fts5HashEntry1
func sqlite3Fts5HashNew(tls *libc.TLS, pConfig uintptr, ppNew uintptr, pnByte uintptr) int32 {
var rc int32 = SQLITE_OK
var pNew uintptr
*(*uintptr)(unsafe.Pointer(ppNew)) = libc.AssignUintptr(&pNew, Xsqlite3_malloc(tls, int32(unsafe.Sizeof(Fts5Hash{}))))
if pNew == uintptr(0) {
rc = SQLITE_NOMEM
} else {
var nByte Sqlite3_int64
libc.X__builtin___memset_chk(tls, pNew, 0, uint64(unsafe.Sizeof(Fts5Hash{})), libc.X__builtin_object_size(tls, pNew, 0))
(*Fts5Hash)(unsafe.Pointer(pNew)).FpnByte = pnByte
(*Fts5Hash)(unsafe.Pointer(pNew)).FeDetail = (*Fts5Config)(unsafe.Pointer(pConfig)).FeDetail
(*Fts5Hash)(unsafe.Pointer(pNew)).FnSlot = 1024
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(uintptr(0))) * uint64((*Fts5Hash)(unsafe.Pointer(pNew)).FnSlot))
(*Fts5Hash)(unsafe.Pointer(pNew)).FaSlot = Xsqlite3_malloc64(tls, uint64(nByte))
if (*Fts5Hash)(unsafe.Pointer(pNew)).FaSlot == uintptr(0) {
Xsqlite3_free(tls, pNew)
*(*uintptr)(unsafe.Pointer(ppNew)) = uintptr(0)
rc = SQLITE_NOMEM
} else {
libc.X__builtin___memset_chk(tls, (*Fts5Hash)(unsafe.Pointer(pNew)).FaSlot, 0, Size_t(nByte), libc.X__builtin_object_size(tls, (*Fts5Hash)(unsafe.Pointer(pNew)).FaSlot, 0))
}
}
return rc
}
func sqlite3Fts5HashFree(tls *libc.TLS, pHash uintptr) {
if pHash != 0 {
sqlite3Fts5HashClear(tls, pHash)
Xsqlite3_free(tls, (*Fts5Hash)(unsafe.Pointer(pHash)).FaSlot)
Xsqlite3_free(tls, pHash)
}
}
func sqlite3Fts5HashClear(tls *libc.TLS, pHash uintptr) {
var i int32
for i = 0; i < (*Fts5Hash)(unsafe.Pointer(pHash)).FnSlot; i++ {
var pNext uintptr
var pSlot uintptr
for pSlot = *(*uintptr)(unsafe.Pointer((*Fts5Hash)(unsafe.Pointer(pHash)).FaSlot + uintptr(i)*8)); pSlot != 0; pSlot = pNext {
pNext = (*Fts5HashEntry)(unsafe.Pointer(pSlot)).FpHashNext
Xsqlite3_free(tls, pSlot)
}
}
libc.X__builtin___memset_chk(tls, (*Fts5Hash)(unsafe.Pointer(pHash)).FaSlot, 0, uint64((*Fts5Hash)(unsafe.Pointer(pHash)).FnSlot)*uint64(unsafe.Sizeof(uintptr(0))), libc.X__builtin_object_size(tls, (*Fts5Hash)(unsafe.Pointer(pHash)).FaSlot, 0))
(*Fts5Hash)(unsafe.Pointer(pHash)).FnEntry = 0
}
func fts5HashKey(tls *libc.TLS, nSlot int32, p uintptr, n int32) uint32 {
var i int32
var h uint32 = uint32(13)
for i = n - 1; i >= 0; i-- {
h = h<<3 ^ h ^ uint32(*(*U8)(unsafe.Pointer(p + uintptr(i))))
}
return h % uint32(nSlot)
}
func fts5HashKey2(tls *libc.TLS, nSlot int32, b U8, p uintptr, n int32) uint32 {
var i int32
var h uint32 = uint32(13)
for i = n - 1; i >= 0; i-- {
h = h<<3 ^ h ^ uint32(*(*U8)(unsafe.Pointer(p + uintptr(i))))
}
h = h<<3 ^ h ^ uint32(b)
return h % uint32(nSlot)
}
func fts5HashResize(tls *libc.TLS, pHash uintptr) int32 {
var nNew int32 = (*Fts5Hash)(unsafe.Pointer(pHash)).FnSlot * 2
var i int32
var apNew uintptr
var apOld uintptr = (*Fts5Hash)(unsafe.Pointer(pHash)).FaSlot
apNew = Xsqlite3_malloc64(tls, uint64(nNew)*uint64(unsafe.Sizeof(uintptr(0))))
if !(apNew != 0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, apNew, 0, uint64(nNew)*uint64(unsafe.Sizeof(uintptr(0))), libc.X__builtin_object_size(tls, apNew, 0))
for i = 0; i < (*Fts5Hash)(unsafe.Pointer(pHash)).FnSlot; i++ {
for *(*uintptr)(unsafe.Pointer(apOld + uintptr(i)*8)) != 0 {
var iHash uint32
var p uintptr = *(*uintptr)(unsafe.Pointer(apOld + uintptr(i)*8))
*(*uintptr)(unsafe.Pointer(apOld + uintptr(i)*8)) = (*Fts5HashEntry)(unsafe.Pointer(p)).FpHashNext
iHash = fts5HashKey(tls, nNew, p+1*48,
int32(libc.Xstrlen(tls, p+1*48)))
(*Fts5HashEntry)(unsafe.Pointer(p)).FpHashNext = *(*uintptr)(unsafe.Pointer(apNew + uintptr(iHash)*8))
*(*uintptr)(unsafe.Pointer(apNew + uintptr(iHash)*8)) = p
}
}
Xsqlite3_free(tls, apOld)
(*Fts5Hash)(unsafe.Pointer(pHash)).FnSlot = nNew
(*Fts5Hash)(unsafe.Pointer(pHash)).FaSlot = apNew
return SQLITE_OK
}
func fts5HashAddPoslistSize(tls *libc.TLS, pHash uintptr, p uintptr, p2 uintptr) int32 {
var nRet int32 = 0
if (*Fts5HashEntry)(unsafe.Pointer(p)).FiSzPoslist != 0 {
var pPtr uintptr
if p2 != 0 {
pPtr = p2
} else {
pPtr = p
}
var nData int32 = (*Fts5HashEntry)(unsafe.Pointer(p)).FnData
if (*Fts5Hash)(unsafe.Pointer(pHash)).FeDetail == FTS5_DETAIL_NONE {
if (*Fts5HashEntry)(unsafe.Pointer(p)).FbDel != 0 {
*(*U8)(unsafe.Pointer(pPtr + uintptr(libc.PostIncInt32(&nData, 1)))) = U8(0x00)
if (*Fts5HashEntry)(unsafe.Pointer(p)).FbContent != 0 {
*(*U8)(unsafe.Pointer(pPtr + uintptr(libc.PostIncInt32(&nData, 1)))) = U8(0x00)
}
}
} else {
var nSz int32 = nData - (*Fts5HashEntry)(unsafe.Pointer(p)).FiSzPoslist - 1
var nPos int32 = nSz*2 + int32((*Fts5HashEntry)(unsafe.Pointer(p)).FbDel)
if nPos <= 127 {
*(*U8)(unsafe.Pointer(pPtr + uintptr((*Fts5HashEntry)(unsafe.Pointer(p)).FiSzPoslist))) = U8(nPos)
} else {
var nByte int32 = sqlite3Fts5GetVarintLen(tls, U32(nPos))
libc.X__builtin___memmove_chk(tls, pPtr+uintptr((*Fts5HashEntry)(unsafe.Pointer(p)).FiSzPoslist+nByte), pPtr+uintptr((*Fts5HashEntry)(unsafe.Pointer(p)).FiSzPoslist+1), uint64(nSz), libc.X__builtin_object_size(tls, pPtr+uintptr((*Fts5HashEntry)(unsafe.Pointer(p)).FiSzPoslist+nByte), 0))
sqlite3Fts5PutVarint(tls, pPtr+uintptr((*Fts5HashEntry)(unsafe.Pointer(p)).FiSzPoslist), uint64(nPos))
nData = nData + (nByte - 1)
}
}
nRet = nData - (*Fts5HashEntry)(unsafe.Pointer(p)).FnData
if p2 == uintptr(0) {
(*Fts5HashEntry)(unsafe.Pointer(p)).FiSzPoslist = 0
(*Fts5HashEntry)(unsafe.Pointer(p)).FbDel = U8(0)
(*Fts5HashEntry)(unsafe.Pointer(p)).FbContent = U8(0)
(*Fts5HashEntry)(unsafe.Pointer(p)).FnData = nData
}
}
return nRet
}
func sqlite3Fts5HashWrite(tls *libc.TLS, pHash uintptr, iRowid I64, iCol int32, iPos int32, bByte int8, pToken uintptr, nToken int32) int32 {
var iHash uint32
var p uintptr
var pPtr uintptr
var nIncr int32 = 0
var bNew int32
bNew = libc.Bool32((*Fts5Hash)(unsafe.Pointer(pHash)).FeDetail == FTS5_DETAIL_FULL)
iHash = fts5HashKey2(tls, (*Fts5Hash)(unsafe.Pointer(pHash)).FnSlot, U8(bByte), pToken, nToken)
for p = *(*uintptr)(unsafe.Pointer((*Fts5Hash)(unsafe.Pointer(pHash)).FaSlot + uintptr(iHash)*8)); p != 0; p = (*Fts5HashEntry)(unsafe.Pointer(p)).FpHashNext {
var zKey uintptr = p + 1*48
if int32(*(*int8)(unsafe.Pointer(zKey))) == int32(bByte) &&
(*Fts5HashEntry)(unsafe.Pointer(p)).FnKey == nToken &&
libc.Xmemcmp(tls, zKey+1, pToken, uint64(nToken)) == 0 {
break
}
}
if p == uintptr(0) {
var zKey uintptr
var nByte Sqlite3_int64 = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5HashEntry{})) + uint64(nToken+1) + uint64(1) + uint64(64))
if nByte < int64(128) {
nByte = int64(128)
}
if (*Fts5Hash)(unsafe.Pointer(pHash)).FnEntry*2 >= (*Fts5Hash)(unsafe.Pointer(pHash)).FnSlot {
var rc int32 = fts5HashResize(tls, pHash)
if rc != SQLITE_OK {
return rc
}
iHash = fts5HashKey2(tls, (*Fts5Hash)(unsafe.Pointer(pHash)).FnSlot, U8(bByte), pToken, nToken)
}
p = Xsqlite3_malloc64(tls, uint64(nByte))
if !(p != 0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(Fts5HashEntry{})), libc.X__builtin_object_size(tls, p, 0))
(*Fts5HashEntry)(unsafe.Pointer(p)).FnAlloc = int32(nByte)
zKey = p + 1*48
*(*int8)(unsafe.Pointer(zKey)) = bByte
libc.X__builtin___memcpy_chk(tls, zKey+1, pToken, uint64(nToken), libc.X__builtin_object_size(tls, zKey+1, 0))
(*Fts5HashEntry)(unsafe.Pointer(p)).FnKey = nToken
*(*int8)(unsafe.Pointer(zKey + uintptr(nToken+1))) = int8(0)
(*Fts5HashEntry)(unsafe.Pointer(p)).FnData = int32(uint64(nToken+1+1) + uint64(unsafe.Sizeof(Fts5HashEntry{})))
(*Fts5HashEntry)(unsafe.Pointer(p)).FpHashNext = *(*uintptr)(unsafe.Pointer((*Fts5Hash)(unsafe.Pointer(pHash)).FaSlot + uintptr(iHash)*8))
*(*uintptr)(unsafe.Pointer((*Fts5Hash)(unsafe.Pointer(pHash)).FaSlot + uintptr(iHash)*8)) = p
(*Fts5Hash)(unsafe.Pointer(pHash)).FnEntry++
*(*int32)(unsafe.Pointer(p + 24)) += sqlite3Fts5PutVarint(tls, p+uintptr((*Fts5HashEntry)(unsafe.Pointer(p)).FnData), uint64(iRowid))
(*Fts5HashEntry)(unsafe.Pointer(p)).FiRowid = iRowid
(*Fts5HashEntry)(unsafe.Pointer(p)).FiSzPoslist = (*Fts5HashEntry)(unsafe.Pointer(p)).FnData
if (*Fts5Hash)(unsafe.Pointer(pHash)).FeDetail != FTS5_DETAIL_NONE {
*(*int32)(unsafe.Pointer(p + 24)) += 1
(*Fts5HashEntry)(unsafe.Pointer(p)).FiCol = func() int16 {
if (*Fts5Hash)(unsafe.Pointer(pHash)).FeDetail == FTS5_DETAIL_FULL {
return int16(0)
}
return int16(-1)
}()
}
} else {
if (*Fts5HashEntry)(unsafe.Pointer(p)).FnAlloc-(*Fts5HashEntry)(unsafe.Pointer(p)).FnData < 9+4+1+3+5 {
var nNew Sqlite3_int64 = Sqlite3_int64((*Fts5HashEntry)(unsafe.Pointer(p)).FnAlloc * 2)
var pNew uintptr
var pp uintptr
pNew = Xsqlite3_realloc64(tls, p, uint64(nNew))
if pNew == uintptr(0) {
return SQLITE_NOMEM
}
(*Fts5HashEntry)(unsafe.Pointer(pNew)).FnAlloc = int32(nNew)
for pp = (*Fts5Hash)(unsafe.Pointer(pHash)).FaSlot + uintptr(iHash)*8; *(*uintptr)(unsafe.Pointer(pp)) != p; pp = *(*uintptr)(unsafe.Pointer(pp)) {
}
*(*uintptr)(unsafe.Pointer(pp)) = pNew
p = pNew
}
nIncr = nIncr - (*Fts5HashEntry)(unsafe.Pointer(p)).FnData
}
pPtr = p
if iRowid != (*Fts5HashEntry)(unsafe.Pointer(p)).FiRowid {
var iDiff U64 = U64(iRowid) - U64((*Fts5HashEntry)(unsafe.Pointer(p)).FiRowid)
fts5HashAddPoslistSize(tls, pHash, p, uintptr(0))
*(*int32)(unsafe.Pointer(p + 24)) += sqlite3Fts5PutVarint(tls, pPtr+uintptr((*Fts5HashEntry)(unsafe.Pointer(p)).FnData), iDiff)
(*Fts5HashEntry)(unsafe.Pointer(p)).FiRowid = iRowid
bNew = 1
(*Fts5HashEntry)(unsafe.Pointer(p)).FiSzPoslist = (*Fts5HashEntry)(unsafe.Pointer(p)).FnData
if (*Fts5Hash)(unsafe.Pointer(pHash)).FeDetail != FTS5_DETAIL_NONE {
*(*int32)(unsafe.Pointer(p + 24)) += 1
(*Fts5HashEntry)(unsafe.Pointer(p)).FiCol = func() int16 {
if (*Fts5Hash)(unsafe.Pointer(pHash)).FeDetail == FTS5_DETAIL_FULL {
return int16(0)
}
return int16(-1)
}()
(*Fts5HashEntry)(unsafe.Pointer(p)).FiPos = 0
}
}
if iCol >= 0 {
if (*Fts5Hash)(unsafe.Pointer(pHash)).FeDetail == FTS5_DETAIL_NONE {
(*Fts5HashEntry)(unsafe.Pointer(p)).FbContent = U8(1)
} else {
if iCol != int32((*Fts5HashEntry)(unsafe.Pointer(p)).FiCol) {
if (*Fts5Hash)(unsafe.Pointer(pHash)).FeDetail == FTS5_DETAIL_FULL {
*(*U8)(unsafe.Pointer(pPtr + uintptr(libc.PostIncInt32(&(*Fts5HashEntry)(unsafe.Pointer(p)).FnData, 1)))) = U8(0x01)
*(*int32)(unsafe.Pointer(p + 24)) += sqlite3Fts5PutVarint(tls, pPtr+uintptr((*Fts5HashEntry)(unsafe.Pointer(p)).FnData), uint64(iCol))
(*Fts5HashEntry)(unsafe.Pointer(p)).FiCol = I16(iCol)
(*Fts5HashEntry)(unsafe.Pointer(p)).FiPos = 0
} else {
bNew = 1
(*Fts5HashEntry)(unsafe.Pointer(p)).FiCol = I16(libc.AssignInt32(&iPos, iCol))
}
}
if bNew != 0 {
*(*int32)(unsafe.Pointer(p + 24)) += sqlite3Fts5PutVarint(tls, pPtr+uintptr((*Fts5HashEntry)(unsafe.Pointer(p)).FnData), uint64(iPos-(*Fts5HashEntry)(unsafe.Pointer(p)).FiPos+2))
(*Fts5HashEntry)(unsafe.Pointer(p)).FiPos = iPos
}
}
} else {
(*Fts5HashEntry)(unsafe.Pointer(p)).FbDel = U8(1)
}
nIncr = nIncr + (*Fts5HashEntry)(unsafe.Pointer(p)).FnData
*(*int32)(unsafe.Pointer((*Fts5Hash)(unsafe.Pointer(pHash)).FpnByte)) += nIncr
return SQLITE_OK
}
func fts5HashEntryMerge(tls *libc.TLS, pLeft uintptr, pRight uintptr) uintptr {
bp := tls.Alloc(8)
defer tls.Free(8)
var p1 uintptr = pLeft
var p2 uintptr = pRight
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var ppOut uintptr = bp
for p1 != 0 || p2 != 0 {
if p1 == uintptr(0) {
*(*uintptr)(unsafe.Pointer(ppOut)) = p2
p2 = uintptr(0)
} else if p2 == uintptr(0) {
*(*uintptr)(unsafe.Pointer(ppOut)) = p1
p1 = uintptr(0)
} else {
var i int32 = 0
var zKey1 uintptr = p1 + 1*48
var zKey2 uintptr = p2 + 1*48
for int32(*(*int8)(unsafe.Pointer(zKey1 + uintptr(i)))) == int32(*(*int8)(unsafe.Pointer(zKey2 + uintptr(i)))) {
i++
}
if int32(U8(*(*int8)(unsafe.Pointer(zKey1 + uintptr(i))))) > int32(U8(*(*int8)(unsafe.Pointer(zKey2 + uintptr(i))))) {
*(*uintptr)(unsafe.Pointer(ppOut)) = p2
ppOut = p2 + 8
p2 = (*Fts5HashEntry)(unsafe.Pointer(p2)).FpScanNext
} else {
*(*uintptr)(unsafe.Pointer(ppOut)) = p1
ppOut = p1 + 8
p1 = (*Fts5HashEntry)(unsafe.Pointer(p1)).FpScanNext
}
*(*uintptr)(unsafe.Pointer(ppOut)) = uintptr(0)
}
}
return *(*uintptr)(unsafe.Pointer(bp))
}
func fts5HashEntrySort(tls *libc.TLS, pHash uintptr, pTerm uintptr, nTerm int32, ppSorted uintptr) int32 {
var nMergeSlot int32 = 32
var ap uintptr
var pList uintptr
var iSlot int32
var i int32
*(*uintptr)(unsafe.Pointer(ppSorted)) = uintptr(0)
ap = Xsqlite3_malloc64(tls, uint64(unsafe.Sizeof(uintptr(0)))*uint64(nMergeSlot))
if !(ap != 0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, ap, 0, uint64(unsafe.Sizeof(uintptr(0)))*uint64(nMergeSlot), libc.X__builtin_object_size(tls, ap, 0))
for iSlot = 0; iSlot < (*Fts5Hash)(unsafe.Pointer(pHash)).FnSlot; iSlot++ {
var pIter uintptr
for pIter = *(*uintptr)(unsafe.Pointer((*Fts5Hash)(unsafe.Pointer(pHash)).FaSlot + uintptr(iSlot)*8)); pIter != 0; pIter = (*Fts5HashEntry)(unsafe.Pointer(pIter)).FpHashNext {
if pTerm == uintptr(0) ||
(*Fts5HashEntry)(unsafe.Pointer(pIter)).FnKey+1 >= nTerm && 0 == libc.Xmemcmp(tls, pIter+1*48, pTerm, uint64(nTerm)) {
var pEntry uintptr = pIter
(*Fts5HashEntry)(unsafe.Pointer(pEntry)).FpScanNext = uintptr(0)
for i = 0; *(*uintptr)(unsafe.Pointer(ap + uintptr(i)*8)) != 0; i++ {
pEntry = fts5HashEntryMerge(tls, pEntry, *(*uintptr)(unsafe.Pointer(ap + uintptr(i)*8)))
*(*uintptr)(unsafe.Pointer(ap + uintptr(i)*8)) = uintptr(0)
}
*(*uintptr)(unsafe.Pointer(ap + uintptr(i)*8)) = pEntry
}
}
}
pList = uintptr(0)
for i = 0; i < nMergeSlot; i++ {
pList = fts5HashEntryMerge(tls, pList, *(*uintptr)(unsafe.Pointer(ap + uintptr(i)*8)))
}
(*Fts5Hash)(unsafe.Pointer(pHash)).FnEntry = 0
Xsqlite3_free(tls, ap)
*(*uintptr)(unsafe.Pointer(ppSorted)) = pList
return SQLITE_OK
}
func sqlite3Fts5HashQuery(tls *libc.TLS, pHash uintptr, nPre int32, pTerm uintptr, nTerm int32, ppOut uintptr, pnDoclist uintptr) int32 {
var iHash uint32 = fts5HashKey(tls, (*Fts5Hash)(unsafe.Pointer(pHash)).FnSlot, pTerm, nTerm)
var zKey uintptr = uintptr(0)
var p uintptr
for p = *(*uintptr)(unsafe.Pointer((*Fts5Hash)(unsafe.Pointer(pHash)).FaSlot + uintptr(iHash)*8)); p != 0; p = (*Fts5HashEntry)(unsafe.Pointer(p)).FpHashNext {
zKey = p + 1*48
if nTerm == (*Fts5HashEntry)(unsafe.Pointer(p)).FnKey+1 && libc.Xmemcmp(tls, zKey, pTerm, uint64(nTerm)) == 0 {
break
}
}
if p != 0 {
var nHashPre int32 = int32(uint64(unsafe.Sizeof(Fts5HashEntry{})) + uint64(nTerm) + uint64(1))
var nList int32 = (*Fts5HashEntry)(unsafe.Pointer(p)).FnData - nHashPre
var pRet uintptr = libc.AssignPtrUintptr(ppOut, Xsqlite3_malloc64(tls, uint64(nPre+nList+10)))
if pRet != 0 {
var pFaux uintptr = pRet + uintptr(nPre-nHashPre)
libc.X__builtin___memcpy_chk(tls, pRet+uintptr(nPre), p+uintptr(nHashPre), uint64(nList), libc.X__builtin_object_size(tls, pRet+uintptr(nPre), 0))
nList = nList + fts5HashAddPoslistSize(tls, pHash, p, pFaux)
*(*int32)(unsafe.Pointer(pnDoclist)) = nList
} else {
*(*int32)(unsafe.Pointer(pnDoclist)) = 0
return SQLITE_NOMEM
}
} else {
*(*uintptr)(unsafe.Pointer(ppOut)) = uintptr(0)
*(*int32)(unsafe.Pointer(pnDoclist)) = 0
}
return SQLITE_OK
}
func sqlite3Fts5HashScanInit(tls *libc.TLS, p uintptr, pTerm uintptr, nTerm int32) int32 {
return fts5HashEntrySort(tls, p, pTerm, nTerm, p+24)
}
func sqlite3Fts5HashScanNext(tls *libc.TLS, p uintptr) {
(*Fts5Hash)(unsafe.Pointer(p)).FpScan = (*Fts5HashEntry)(unsafe.Pointer((*Fts5Hash)(unsafe.Pointer(p)).FpScan)).FpScanNext
}
func sqlite3Fts5HashScanEof(tls *libc.TLS, p uintptr) int32 {
return libc.Bool32((*Fts5Hash)(unsafe.Pointer(p)).FpScan == uintptr(0))
}
func sqlite3Fts5HashScanEntry(tls *libc.TLS, pHash uintptr, pzTerm uintptr, ppDoclist uintptr, pnDoclist uintptr) {
var p uintptr
if libc.AssignUintptr(&p, (*Fts5Hash)(unsafe.Pointer(pHash)).FpScan) != 0 {
var zKey uintptr = p + 1*48
var nTerm int32 = int32(libc.Xstrlen(tls, zKey))
fts5HashAddPoslistSize(tls, pHash, p, uintptr(0))
*(*uintptr)(unsafe.Pointer(pzTerm)) = zKey
*(*uintptr)(unsafe.Pointer(ppDoclist)) = zKey + uintptr(nTerm+1)
*(*int32)(unsafe.Pointer(pnDoclist)) = int32(uint64((*Fts5HashEntry)(unsafe.Pointer(p)).FnData) - (uint64(unsafe.Sizeof(Fts5HashEntry{})) + uint64(nTerm) + uint64(1)))
} else {
*(*uintptr)(unsafe.Pointer(pzTerm)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(ppDoclist)) = uintptr(0)
*(*int32)(unsafe.Pointer(pnDoclist)) = 0
}
}
type Fts5Data1 = struct {
Fp uintptr
Fnn int32
FszLeaf int32
}
type Fts5Data = Fts5Data1
type Fts5DlidxIter1 = struct {
FnLvl int32
FiSegid int32
FaLvl [1]Fts5DlidxLvl
}
type Fts5DlidxIter = Fts5DlidxIter1
type Fts5DlidxLvl1 = struct {
FpData uintptr
FiOff int32
FbEof int32
FiFirstOff int32
FiLeafPgno int32
FiRowid I64
}
type Fts5DlidxLvl = Fts5DlidxLvl1
type Fts5DlidxWriter1 = struct {
Fpgno int32
FbPrevValid int32
FiPrev I64
Fbuf Fts5Buffer
}
type Fts5DlidxWriter = Fts5DlidxWriter1
type Fts5Iter1 = struct {
Fbase Fts5IndexIter
FpIndex uintptr
Fposlist Fts5Buffer
FpColset uintptr
FxSetOutputs uintptr
FnSeg int32
FbRev int32
FbSkipEmpty U8
F__ccgo_pad1 [7]byte
FiSwitchRowid I64
FaFirst uintptr
FaSeg [1]Fts5SegIter
}
type Fts5Iter = Fts5Iter1
type Fts5PageWriter1 = struct {
Fpgno int32
FiPrevPgidx int32
Fbuf Fts5Buffer
Fpgidx Fts5Buffer
Fterm Fts5Buffer
}
type Fts5PageWriter = Fts5PageWriter1
type Fts5SegIter1 = struct {
FpSeg uintptr
Fflags int32
FiLeafPgno int32
FpLeaf uintptr
FpNextLeaf uintptr
FiLeafOffset I64
FxNext uintptr
FiTermLeafPgno int32
FiTermLeafOffset int32
FiPgidxOff int32
FiEndofDoclist int32
FiRowidOffset int32
FnRowidOffset int32
FaRowidOffset uintptr
FpDlidx uintptr
Fterm Fts5Buffer
FiRowid I64
FnPos int32
FbDel U8
F__ccgo_pad1 [3]byte
}
type Fts5SegIter = Fts5SegIter1
type Fts5DoclistIter1 = struct {
FaEof uintptr
FiRowid I64
FaPoslist uintptr
FnPoslist int32
FnSize int32
}
type Fts5DoclistIter = Fts5DoclistIter1
type Fts5SegWriter1 = struct {
FiSegid int32
F__ccgo_pad1 [4]byte
Fwriter Fts5PageWriter
FiPrevRowid I64
FbFirstRowidInDoclist U8
FbFirstRowidInPage U8
FbFirstTermInPage U8
F__ccgo_pad2 [1]byte
FnLeafWritten int32
FnEmpty int32
FnDlidx int32
FaDlidx uintptr
Fbtterm Fts5Buffer
FiBtPage int32
F__ccgo_pad3 [4]byte
}
type Fts5SegWriter = Fts5SegWriter1
type Fts5Structure1 = struct {
FnRef int32
F__ccgo_pad1 [4]byte
FnWriteCounter U64
FnSegment int32
FnLevel int32
FaLevel [1]Fts5StructureLevel
}
type Fts5Structure = Fts5Structure1
type Fts5StructureLevel1 = struct {
FnMerge int32
FnSeg int32
FaSeg uintptr
}
type Fts5StructureLevel = Fts5StructureLevel1
type Fts5StructureSegment1 = struct {
FiSegid int32
FpgnoFirst int32
FpgnoLast int32
}
type Fts5StructureSegment = Fts5StructureSegment1
type Fts5CResult1 = struct {
FiFirst U16
FbTermEq U8
F__ccgo_pad1 [1]byte
}
type Fts5CResult = Fts5CResult1
func fts5PutU16(tls *libc.TLS, aOut uintptr, iVal U16) {
*(*U8)(unsafe.Pointer(aOut)) = U8(int32(iVal) >> 8)
*(*U8)(unsafe.Pointer(aOut + 1)) = U8(int32(iVal) & 0xFF)
}
func fts5GetU16(tls *libc.TLS, aIn uintptr) U16 {
return U16(int32(U16(*(*U8)(unsafe.Pointer(aIn))))<<8 + int32(*(*U8)(unsafe.Pointer(aIn + 1))))
}
func fts5IdxMalloc(tls *libc.TLS, p uintptr, nByte Sqlite3_int64) uintptr {
return sqlite3Fts5MallocZero(tls, p+52, nByte)
}
func fts5BufferCompare(tls *libc.TLS, pLeft uintptr, pRight uintptr) int32 {
var nCmp int32
var res int32
nCmp = func() int32 {
if (*Fts5Buffer)(unsafe.Pointer(pLeft)).Fn < (*Fts5Buffer)(unsafe.Pointer(pRight)).Fn {
return (*Fts5Buffer)(unsafe.Pointer(pLeft)).Fn
}
return (*Fts5Buffer)(unsafe.Pointer(pRight)).Fn
}()
res = func() int32 {
if nCmp <= 0 {
return 0
}
return libc.Xmemcmp(tls, (*Fts5Buffer)(unsafe.Pointer(pLeft)).Fp, (*Fts5Buffer)(unsafe.Pointer(pRight)).Fp, uint64(nCmp))
}()
return func() int32 {
if res == 0 {
return (*Fts5Buffer)(unsafe.Pointer(pLeft)).Fn - (*Fts5Buffer)(unsafe.Pointer(pRight)).Fn
}
return res
}()
}
func fts5LeafFirstTermOff(tls *libc.TLS, pLeaf uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
sqlite3Fts5GetVarint32(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp+uintptr((*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf), bp)
return *(*int32)(unsafe.Pointer(bp))
}
func sqlite3Fts5IndexCloseReader(tls *libc.TLS, p uintptr) {
if (*Fts5Index)(unsafe.Pointer(p)).FpReader != 0 {
var pReader uintptr = (*Fts5Index)(unsafe.Pointer(p)).FpReader
(*Fts5Index)(unsafe.Pointer(p)).FpReader = uintptr(0)
Xsqlite3_blob_close(tls, pReader)
}
}
func fts5DataRead(tls *libc.TLS, p uintptr, iRowid I64) uintptr {
var pRet uintptr = uintptr(0)
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var rc int32 = SQLITE_OK
if (*Fts5Index)(unsafe.Pointer(p)).FpReader != 0 {
var pBlob uintptr = (*Fts5Index)(unsafe.Pointer(p)).FpReader
(*Fts5Index)(unsafe.Pointer(p)).FpReader = uintptr(0)
rc = Xsqlite3_blob_reopen(tls, pBlob, iRowid)
(*Fts5Index)(unsafe.Pointer(p)).FpReader = pBlob
if rc != SQLITE_OK {
sqlite3Fts5IndexCloseReader(tls, p)
}
if rc == SQLITE_ABORT {
rc = SQLITE_OK
}
}
if (*Fts5Index)(unsafe.Pointer(p)).FpReader == uintptr(0) && rc == SQLITE_OK {
var pConfig uintptr = (*Fts5Index)(unsafe.Pointer(p)).FpConfig
rc = Xsqlite3_blob_open(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb,
(*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Index)(unsafe.Pointer(p)).FzDataTbl, ts+35279, iRowid, 0, p+56)
}
if rc == SQLITE_ERROR {
rc = SQLITE_CORRUPT | int32(1)<<8
}
if rc == SQLITE_OK {
var aOut uintptr = uintptr(0)
var nByte int32 = Xsqlite3_blob_bytes(tls, (*Fts5Index)(unsafe.Pointer(p)).FpReader)
var nAlloc Sqlite3_int64 = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5Data{})) + uint64(nByte) + uint64(FTS5_DATA_PADDING))
pRet = Xsqlite3_malloc64(tls, uint64(nAlloc))
if pRet != 0 {
(*Fts5Data)(unsafe.Pointer(pRet)).Fnn = nByte
aOut = libc.AssignPtrUintptr(pRet, pRet+1*16)
} else {
rc = SQLITE_NOMEM
}
if rc == SQLITE_OK {
rc = Xsqlite3_blob_read(tls, (*Fts5Index)(unsafe.Pointer(p)).FpReader, aOut, nByte, 0)
}
if rc != SQLITE_OK {
Xsqlite3_free(tls, pRet)
pRet = uintptr(0)
} else {
*(*U8)(unsafe.Pointer((*Fts5Data)(unsafe.Pointer(pRet)).Fp + uintptr(nByte))) = U8(0x00)
*(*U8)(unsafe.Pointer((*Fts5Data)(unsafe.Pointer(pRet)).Fp + uintptr(nByte+1))) = U8(0x00)
(*Fts5Data)(unsafe.Pointer(pRet)).FszLeaf = int32(fts5GetU16(tls, (*Fts5Data)(unsafe.Pointer(pRet)).Fp+2))
}
}
(*Fts5Index)(unsafe.Pointer(p)).Frc = rc
(*Fts5Index)(unsafe.Pointer(p)).FnRead++
}
return pRet
}
func fts5DataRelease(tls *libc.TLS, pData uintptr) {
Xsqlite3_free(tls, pData)
}
func fts5LeafRead(tls *libc.TLS, p uintptr, iRowid I64) uintptr {
var pRet uintptr = fts5DataRead(tls, p, iRowid)
if pRet != 0 {
if (*Fts5Data)(unsafe.Pointer(pRet)).Fnn < 4 || (*Fts5Data)(unsafe.Pointer(pRet)).FszLeaf > (*Fts5Data)(unsafe.Pointer(pRet)).Fnn {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
fts5DataRelease(tls, pRet)
pRet = uintptr(0)
}
}
return pRet
}
func fts5IndexPrepareStmt(tls *libc.TLS, p uintptr, ppStmt uintptr, zSql uintptr) int32 {
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
if zSql != 0 {
(*Fts5Index)(unsafe.Pointer(p)).Frc = Xsqlite3_prepare_v3(tls, (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).Fdb, zSql, -1,
uint32(SQLITE_PREPARE_PERSISTENT|SQLITE_PREPARE_NO_VTAB),
ppStmt, uintptr(0))
} else {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
}
}
Xsqlite3_free(tls, zSql)
return (*Fts5Index)(unsafe.Pointer(p)).Frc
}
func fts5DataWrite(tls *libc.TLS, p uintptr, iRowid I64, pData uintptr, nData int32) {
bp := tls.Alloc(16)
defer tls.Free(16)
if (*Fts5Index)(unsafe.Pointer(p)).Frc != SQLITE_OK {
return
}
if (*Fts5Index)(unsafe.Pointer(p)).FpWriter == uintptr(0) {
var pConfig uintptr = (*Fts5Index)(unsafe.Pointer(p)).FpConfig
fts5IndexPrepareStmt(tls, p, p+64, Xsqlite3_mprintf(tls,
ts+35285,
libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName)))
if (*Fts5Index)(unsafe.Pointer(p)).Frc != 0 {
return
}
}
Xsqlite3_bind_int64(tls, (*Fts5Index)(unsafe.Pointer(p)).FpWriter, 1, iRowid)
Xsqlite3_bind_blob(tls, (*Fts5Index)(unsafe.Pointer(p)).FpWriter, 2, pData, nData, uintptr(0))
Xsqlite3_step(tls, (*Fts5Index)(unsafe.Pointer(p)).FpWriter)
(*Fts5Index)(unsafe.Pointer(p)).Frc = Xsqlite3_reset(tls, (*Fts5Index)(unsafe.Pointer(p)).FpWriter)
Xsqlite3_bind_null(tls, (*Fts5Index)(unsafe.Pointer(p)).FpWriter, 2)
}
func fts5DataDelete(tls *libc.TLS, p uintptr, iFirst I64, iLast I64) {
bp := tls.Alloc(16)
defer tls.Free(16)
if (*Fts5Index)(unsafe.Pointer(p)).Frc != SQLITE_OK {
return
}
if (*Fts5Index)(unsafe.Pointer(p)).FpDeleter == uintptr(0) {
var pConfig uintptr = (*Fts5Index)(unsafe.Pointer(p)).FpConfig
var zSql uintptr = Xsqlite3_mprintf(tls,
ts+35336,
libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName))
if fts5IndexPrepareStmt(tls, p, p+72, zSql) != 0 {
return
}
}
Xsqlite3_bind_int64(tls, (*Fts5Index)(unsafe.Pointer(p)).FpDeleter, 1, iFirst)
Xsqlite3_bind_int64(tls, (*Fts5Index)(unsafe.Pointer(p)).FpDeleter, 2, iLast)
Xsqlite3_step(tls, (*Fts5Index)(unsafe.Pointer(p)).FpDeleter)
(*Fts5Index)(unsafe.Pointer(p)).Frc = Xsqlite3_reset(tls, (*Fts5Index)(unsafe.Pointer(p)).FpDeleter)
}
func fts5DataRemoveSegment(tls *libc.TLS, p uintptr, iSegid int32) {
bp := tls.Alloc(16)
defer tls.Free(16)
var iFirst I64 = I64(iSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B) + int64(0)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B) + int64(0)<<FTS5_DATA_PAGE_B + int64(0)
var iLast I64 = I64(iSegid+1)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B) + int64(0)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B) + int64(0)<<FTS5_DATA_PAGE_B + int64(0) - int64(1)
fts5DataDelete(tls, p, iFirst, iLast)
if (*Fts5Index)(unsafe.Pointer(p)).FpIdxDeleter == uintptr(0) {
var pConfig uintptr = (*Fts5Index)(unsafe.Pointer(p)).FpConfig
fts5IndexPrepareStmt(tls, p, p+88, Xsqlite3_mprintf(tls,
ts+35385,
libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName)))
}
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
Xsqlite3_bind_int(tls, (*Fts5Index)(unsafe.Pointer(p)).FpIdxDeleter, 1, iSegid)
Xsqlite3_step(tls, (*Fts5Index)(unsafe.Pointer(p)).FpIdxDeleter)
(*Fts5Index)(unsafe.Pointer(p)).Frc = Xsqlite3_reset(tls, (*Fts5Index)(unsafe.Pointer(p)).FpIdxDeleter)
}
}
func fts5StructureRelease(tls *libc.TLS, pStruct uintptr) {
if pStruct != 0 && 0 >= libc.PreDecInt32(&(*Fts5Structure)(unsafe.Pointer(pStruct)).FnRef, 1) {
var i int32
for i = 0; i < (*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel; i++ {
Xsqlite3_free(tls, (*Fts5StructureLevel)(unsafe.Pointer(pStruct+24+uintptr(i)*16)).FaSeg)
}
Xsqlite3_free(tls, pStruct)
}
}
func fts5StructureRef(tls *libc.TLS, pStruct uintptr) {
(*Fts5Structure)(unsafe.Pointer(pStruct)).FnRef++
}
func sqlite3Fts5StructureRef(tls *libc.TLS, p uintptr) uintptr {
fts5StructureRef(tls, (*Fts5Index)(unsafe.Pointer(p)).FpStruct)
return (*Fts5Index)(unsafe.Pointer(p)).FpStruct
}
func sqlite3Fts5StructureRelease(tls *libc.TLS, p uintptr) {
if p != 0 {
fts5StructureRelease(tls, p)
}
}
func sqlite3Fts5StructureTest(tls *libc.TLS, p uintptr, pStruct uintptr) int32 {
if (*Fts5Index)(unsafe.Pointer(p)).FpStruct != pStruct {
return SQLITE_ABORT
}
return SQLITE_OK
}
func fts5StructureMakeWritable(tls *libc.TLS, pRc uintptr, pp uintptr) {
var p uintptr = *(*uintptr)(unsafe.Pointer(pp))
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK && (*Fts5Structure)(unsafe.Pointer(p)).FnRef > 1 {
var nByte I64 = I64(uint64(unsafe.Sizeof(Fts5Structure{})) + uint64((*Fts5Structure)(unsafe.Pointer(p)).FnLevel-1)*uint64(unsafe.Sizeof(Fts5StructureLevel{})))
var pNew uintptr
pNew = sqlite3Fts5MallocZero(tls, pRc, nByte)
if pNew != 0 {
var i int32
libc.X__builtin___memcpy_chk(tls, pNew, p, uint64(nByte), libc.X__builtin_object_size(tls, pNew, 0))
for i = 0; i < (*Fts5Structure)(unsafe.Pointer(p)).FnLevel; i++ {
(*Fts5StructureLevel)(unsafe.Pointer(pNew + 24 + uintptr(i)*16)).FaSeg = uintptr(0)
}
for i = 0; i < (*Fts5Structure)(unsafe.Pointer(p)).FnLevel; i++ {
var pLvl uintptr = pNew + 24 + uintptr(i)*16
nByte = I64(uint64(unsafe.Sizeof(Fts5StructureSegment{})) * uint64((*Fts5StructureLevel)(unsafe.Pointer(pNew+24+uintptr(i)*16)).FnSeg))
(*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg = sqlite3Fts5MallocZero(tls, pRc, nByte)
if (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg == uintptr(0) {
for i = 0; i < (*Fts5Structure)(unsafe.Pointer(p)).FnLevel; i++ {
Xsqlite3_free(tls, (*Fts5StructureLevel)(unsafe.Pointer(pNew+24+uintptr(i)*16)).FaSeg)
}
Xsqlite3_free(tls, pNew)
return
}
libc.X__builtin___memcpy_chk(tls, (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg, (*Fts5StructureLevel)(unsafe.Pointer(p+24+uintptr(i)*16)).FaSeg, uint64(nByte), libc.X__builtin_object_size(tls, (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg, 0))
}
(*Fts5Structure)(unsafe.Pointer(p)).FnRef--
(*Fts5Structure)(unsafe.Pointer(pNew)).FnRef = 1
}
*(*uintptr)(unsafe.Pointer(pp)) = pNew
}
}
func fts5StructureDecode(tls *libc.TLS, pData uintptr, nData int32, piCookie uintptr, ppOut uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
*(*int32)(unsafe.Pointer(bp + 8)) = SQLITE_OK
var i int32 = 0
var iLvl int32
*(*int32)(unsafe.Pointer(bp)) = 0
*(*int32)(unsafe.Pointer(bp + 4)) = 0
var nByte Sqlite3_int64
var pRet uintptr = uintptr(0)
if piCookie != 0 {
*(*int32)(unsafe.Pointer(piCookie)) = sqlite3Fts5Get32(tls, pData)
}
i = 4
i = i + sqlite3Fts5GetVarint32(tls, pData+uintptr(i), bp)
i = i + sqlite3Fts5GetVarint32(tls, pData+uintptr(i), bp+4)
if *(*int32)(unsafe.Pointer(bp)) > FTS5_MAX_SEGMENT || *(*int32)(unsafe.Pointer(bp)) < 0 ||
*(*int32)(unsafe.Pointer(bp + 4)) > FTS5_MAX_SEGMENT || *(*int32)(unsafe.Pointer(bp + 4)) < 0 {
return SQLITE_CORRUPT | int32(1)<<8
}
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5Structure{})) + uint64(unsafe.Sizeof(Fts5StructureLevel{}))*uint64(*(*int32)(unsafe.Pointer(bp))-1))
pRet = sqlite3Fts5MallocZero(tls, bp+8, nByte)
if pRet != 0 {
(*Fts5Structure)(unsafe.Pointer(pRet)).FnRef = 1
(*Fts5Structure)(unsafe.Pointer(pRet)).FnLevel = *(*int32)(unsafe.Pointer(bp))
(*Fts5Structure)(unsafe.Pointer(pRet)).FnSegment = *(*int32)(unsafe.Pointer(bp + 4))
i = i + int32(sqlite3Fts5GetVarint(tls, pData+uintptr(i), pRet+8))
for iLvl = 0; *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK && iLvl < *(*int32)(unsafe.Pointer(bp)); iLvl++ {
var pLvl uintptr = pRet + 24 + uintptr(iLvl)*16
*(*int32)(unsafe.Pointer(bp + 12)) = 0
var iSeg int32
if i >= nData {
*(*int32)(unsafe.Pointer(bp + 8)) = SQLITE_CORRUPT | int32(1)<<8
} else {
i = i + sqlite3Fts5GetVarint32(tls, pData+uintptr(i), pLvl)
i = i + sqlite3Fts5GetVarint32(tls, pData+uintptr(i), bp+12)
if *(*int32)(unsafe.Pointer(bp + 12)) < (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnMerge {
*(*int32)(unsafe.Pointer(bp + 8)) = SQLITE_CORRUPT | int32(1)<<8
}
(*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg = sqlite3Fts5MallocZero(tls, bp+8,
int64(uint64(*(*int32)(unsafe.Pointer(bp + 12)))*uint64(unsafe.Sizeof(Fts5StructureSegment{}))))
*(*int32)(unsafe.Pointer(bp + 4)) -= *(*int32)(unsafe.Pointer(bp + 12))
}
if *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK {
(*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg = *(*int32)(unsafe.Pointer(bp + 12))
for iSeg = 0; iSeg < *(*int32)(unsafe.Pointer(bp + 12)); iSeg++ {
var pSeg uintptr = (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg + uintptr(iSeg)*12
if i >= nData {
*(*int32)(unsafe.Pointer(bp + 8)) = SQLITE_CORRUPT | int32(1)<<8
break
}
i = i + sqlite3Fts5GetVarint32(tls, pData+uintptr(i), pSeg)
i = i + sqlite3Fts5GetVarint32(tls, pData+uintptr(i), pSeg+4)
i = i + sqlite3Fts5GetVarint32(tls, pData+uintptr(i), pSeg+8)
if (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoLast < (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoFirst {
*(*int32)(unsafe.Pointer(bp + 8)) = SQLITE_CORRUPT | int32(1)<<8
break
}
}
if iLvl > 0 && (*Fts5StructureLevel)(unsafe.Pointer(pLvl+libc.UintptrFromInt32(-1)*16)).FnMerge != 0 && *(*int32)(unsafe.Pointer(bp + 12)) == 0 {
*(*int32)(unsafe.Pointer(bp + 8)) = SQLITE_CORRUPT | int32(1)<<8
}
if iLvl == *(*int32)(unsafe.Pointer(bp))-1 && (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnMerge != 0 {
*(*int32)(unsafe.Pointer(bp + 8)) = SQLITE_CORRUPT | int32(1)<<8
}
}
}
if *(*int32)(unsafe.Pointer(bp + 4)) != 0 && *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 8)) = SQLITE_CORRUPT | int32(1)<<8
}
if *(*int32)(unsafe.Pointer(bp + 8)) != SQLITE_OK {
fts5StructureRelease(tls, pRet)
pRet = uintptr(0)
}
}
*(*uintptr)(unsafe.Pointer(ppOut)) = pRet
return *(*int32)(unsafe.Pointer(bp + 8))
}
func fts5StructureAddLevel(tls *libc.TLS, pRc uintptr, ppStruct uintptr) {
fts5StructureMakeWritable(tls, pRc, ppStruct)
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK {
var pStruct uintptr = *(*uintptr)(unsafe.Pointer(ppStruct))
var nLevel int32 = (*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel
var nByte Sqlite3_int64 = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5Structure{})) + uint64(unsafe.Sizeof(Fts5StructureLevel{}))*uint64(nLevel+1))
pStruct = Xsqlite3_realloc64(tls, pStruct, uint64(nByte))
if pStruct != 0 {
libc.X__builtin___memset_chk(tls, pStruct+24+uintptr(nLevel)*16, 0, uint64(unsafe.Sizeof(Fts5StructureLevel{})), libc.X__builtin_object_size(tls, pStruct+24+uintptr(nLevel)*16, 0))
(*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel++
*(*uintptr)(unsafe.Pointer(ppStruct)) = pStruct
} else {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
}
}
}
func fts5StructureExtendLevel(tls *libc.TLS, pRc uintptr, pStruct uintptr, iLvl int32, nExtra int32, bInsert int32) {
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK {
var pLvl uintptr = pStruct + 24 + uintptr(iLvl)*16
var aNew uintptr
var nByte Sqlite3_int64
nByte = Sqlite3_int64(uint64((*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg+nExtra) * uint64(unsafe.Sizeof(Fts5StructureSegment{})))
aNew = Xsqlite3_realloc64(tls, (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg, uint64(nByte))
if aNew != 0 {
if bInsert == 0 {
libc.X__builtin___memset_chk(tls, aNew+uintptr((*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg)*12, 0, uint64(unsafe.Sizeof(Fts5StructureSegment{}))*uint64(nExtra), libc.X__builtin_object_size(tls, aNew+uintptr((*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg)*12, 0))
} else {
var nMove int32 = int32(uint64((*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg) * uint64(unsafe.Sizeof(Fts5StructureSegment{})))
libc.X__builtin___memmove_chk(tls, aNew+uintptr(nExtra)*12, aNew, uint64(nMove), libc.X__builtin_object_size(tls, aNew+uintptr(nExtra)*12, 0))
libc.X__builtin___memset_chk(tls, aNew, 0, uint64(unsafe.Sizeof(Fts5StructureSegment{}))*uint64(nExtra), libc.X__builtin_object_size(tls, aNew, 0))
}
(*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg = aNew
} else {
*(*int32)(unsafe.Pointer(pRc)) = SQLITE_NOMEM
}
}
}
func fts5StructureReadUncached(tls *libc.TLS, p uintptr) uintptr {
bp := tls.Alloc(16)
defer tls.Free(16)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
var pConfig uintptr = (*Fts5Index)(unsafe.Pointer(p)).FpConfig
var pData uintptr
pData = fts5DataRead(tls, p, int64(FTS5_STRUCTURE_ROWID))
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
libc.X__builtin___memset_chk(tls, (*Fts5Data)(unsafe.Pointer(pData)).Fp+uintptr((*Fts5Data)(unsafe.Pointer(pData)).Fnn), 0, uint64(FTS5_DATA_PADDING), libc.X__builtin_object_size(tls, (*Fts5Data)(unsafe.Pointer(pData)).Fp+uintptr((*Fts5Data)(unsafe.Pointer(pData)).Fnn), 0))
(*Fts5Index)(unsafe.Pointer(p)).Frc = fts5StructureDecode(tls, (*Fts5Data)(unsafe.Pointer(pData)).Fp, (*Fts5Data)(unsafe.Pointer(pData)).Fnn, bp, bp+8)
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && ((*Fts5Config)(unsafe.Pointer(pConfig)).Fpgsz == 0 || (*Fts5Config)(unsafe.Pointer(pConfig)).FiCookie != *(*int32)(unsafe.Pointer(bp))) {
(*Fts5Index)(unsafe.Pointer(p)).Frc = sqlite3Fts5ConfigLoad(tls, pConfig, *(*int32)(unsafe.Pointer(bp)))
}
fts5DataRelease(tls, pData)
if (*Fts5Index)(unsafe.Pointer(p)).Frc != SQLITE_OK {
fts5StructureRelease(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
}
}
return *(*uintptr)(unsafe.Pointer(bp + 8))
}
func fts5IndexDataVersion(tls *libc.TLS, p uintptr) I64 {
bp := tls.Alloc(8)
defer tls.Free(8)
var iVersion I64 = int64(0)
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
if (*Fts5Index)(unsafe.Pointer(p)).FpDataVersion == uintptr(0) {
(*Fts5Index)(unsafe.Pointer(p)).Frc = fts5IndexPrepareStmt(tls, p, p+112,
Xsqlite3_mprintf(tls, ts+35425, libc.VaList(bp, (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FzDb)))
if (*Fts5Index)(unsafe.Pointer(p)).Frc != 0 {
return int64(0)
}
}
if SQLITE_ROW == Xsqlite3_step(tls, (*Fts5Index)(unsafe.Pointer(p)).FpDataVersion) {
iVersion = Xsqlite3_column_int64(tls, (*Fts5Index)(unsafe.Pointer(p)).FpDataVersion, 0)
}
(*Fts5Index)(unsafe.Pointer(p)).Frc = Xsqlite3_reset(tls, (*Fts5Index)(unsafe.Pointer(p)).FpDataVersion)
}
return iVersion
}
func fts5StructureRead(tls *libc.TLS, p uintptr) uintptr {
if (*Fts5Index)(unsafe.Pointer(p)).FpStruct == uintptr(0) {
(*Fts5Index)(unsafe.Pointer(p)).FiStructVersion = fts5IndexDataVersion(tls, p)
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Fts5Index)(unsafe.Pointer(p)).FpStruct = fts5StructureReadUncached(tls, p)
}
}
if (*Fts5Index)(unsafe.Pointer(p)).Frc != SQLITE_OK {
return uintptr(0)
}
fts5StructureRef(tls, (*Fts5Index)(unsafe.Pointer(p)).FpStruct)
return (*Fts5Index)(unsafe.Pointer(p)).FpStruct
}
func fts5StructureInvalidate(tls *libc.TLS, p uintptr) {
if (*Fts5Index)(unsafe.Pointer(p)).FpStruct != 0 {
fts5StructureRelease(tls, (*Fts5Index)(unsafe.Pointer(p)).FpStruct)
(*Fts5Index)(unsafe.Pointer(p)).FpStruct = uintptr(0)
}
}
func fts5StructureWrite(tls *libc.TLS, p uintptr, pStruct uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var iLvl int32
var iCookie int32
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Fts5Buffer{})), libc.X__builtin_object_size(tls, bp, 0))
iCookie = (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FiCookie
if iCookie < 0 {
iCookie = 0
}
if 0 == sqlite3Fts5BufferSize(tls, p+52, bp, uint32(4+9+9+9)) {
sqlite3Fts5Put32(tls, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp, iCookie)
(*Fts5Buffer)(unsafe.Pointer(bp)).Fn = 4
{
*(*int32)(unsafe.Pointer(bp + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp)).Fn), uint64((*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel))
}
{
*(*int32)(unsafe.Pointer(bp + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp)).Fn), uint64((*Fts5Structure)(unsafe.Pointer(pStruct)).FnSegment))
}
{
*(*int32)(unsafe.Pointer(bp + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp)).Fn), uint64(I64((*Fts5Structure)(unsafe.Pointer(pStruct)).FnWriteCounter)))
}
}
for iLvl = 0; iLvl < (*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel; iLvl++ {
var iSeg int32
var pLvl uintptr = pStruct + 24 + uintptr(iLvl)*16
sqlite3Fts5BufferAppendVarint(tls, p+52, bp, I64((*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnMerge))
sqlite3Fts5BufferAppendVarint(tls, p+52, bp, I64((*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg))
for iSeg = 0; iSeg < (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg; iSeg++ {
sqlite3Fts5BufferAppendVarint(tls, p+52, bp, I64((*Fts5StructureSegment)(unsafe.Pointer((*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg+uintptr(iSeg)*12)).FiSegid))
sqlite3Fts5BufferAppendVarint(tls, p+52, bp, I64((*Fts5StructureSegment)(unsafe.Pointer((*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg+uintptr(iSeg)*12)).FpgnoFirst))
sqlite3Fts5BufferAppendVarint(tls, p+52, bp, I64((*Fts5StructureSegment)(unsafe.Pointer((*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg+uintptr(iSeg)*12)).FpgnoLast))
}
}
fts5DataWrite(tls, p, int64(FTS5_STRUCTURE_ROWID), (*Fts5Buffer)(unsafe.Pointer(bp)).Fp, (*Fts5Buffer)(unsafe.Pointer(bp)).Fn)
sqlite3Fts5BufferFree(tls, bp)
}
}
func fts5SegmentSize(tls *libc.TLS, pSeg uintptr) int32 {
return 1 + (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoLast - (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoFirst
}
func fts5StructurePromoteTo(tls *libc.TLS, p uintptr, iPromote int32, szPromote int32, pStruct uintptr) {
var il int32
var is int32
var pOut uintptr = pStruct + 24 + uintptr(iPromote)*16
if (*Fts5StructureLevel)(unsafe.Pointer(pOut)).FnMerge == 0 {
for il = iPromote + 1; il < (*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel; il++ {
var pLvl uintptr = pStruct + 24 + uintptr(il)*16
if (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnMerge != 0 {
return
}
for is = (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg - 1; is >= 0; is-- {
var sz int32 = fts5SegmentSize(tls, (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg+uintptr(is)*12)
if sz > szPromote {
return
}
fts5StructureExtendLevel(tls, p+52, pStruct, iPromote, 1, 1)
if (*Fts5Index)(unsafe.Pointer(p)).Frc != 0 {
return
}
libc.X__builtin___memcpy_chk(tls, (*Fts5StructureLevel)(unsafe.Pointer(pOut)).FaSeg, (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg+uintptr(is)*12, uint64(unsafe.Sizeof(Fts5StructureSegment{})), libc.X__builtin_object_size(tls, (*Fts5StructureLevel)(unsafe.Pointer(pOut)).FaSeg, 0))
(*Fts5StructureLevel)(unsafe.Pointer(pOut)).FnSeg++
(*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg--
}
}
}
}
func fts5StructurePromote(tls *libc.TLS, p uintptr, iLvl int32, pStruct uintptr) {
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var iTst int32
var iPromote int32 = -1
var szPromote int32 = 0
var pSeg uintptr
var szSeg int32
var nSeg int32 = (*Fts5StructureLevel)(unsafe.Pointer(pStruct + 24 + uintptr(iLvl)*16)).FnSeg
if nSeg == 0 {
return
}
pSeg = (*Fts5StructureLevel)(unsafe.Pointer(pStruct+24+uintptr(iLvl)*16)).FaSeg + uintptr((*Fts5StructureLevel)(unsafe.Pointer(pStruct+24+uintptr(iLvl)*16)).FnSeg-1)*12
szSeg = 1 + (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoLast - (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoFirst
for iTst = iLvl - 1; iTst >= 0 && (*Fts5StructureLevel)(unsafe.Pointer(pStruct+24+uintptr(iTst)*16)).FnSeg == 0; iTst-- {
}
if iTst >= 0 {
var i int32
var szMax int32 = 0
var pTst uintptr = pStruct + 24 + uintptr(iTst)*16
for i = 0; i < (*Fts5StructureLevel)(unsafe.Pointer(pTst)).FnSeg; i++ {
var sz int32 = (*Fts5StructureSegment)(unsafe.Pointer((*Fts5StructureLevel)(unsafe.Pointer(pTst)).FaSeg+uintptr(i)*12)).FpgnoLast - (*Fts5StructureSegment)(unsafe.Pointer((*Fts5StructureLevel)(unsafe.Pointer(pTst)).FaSeg+uintptr(i)*12)).FpgnoFirst + 1
if sz > szMax {
szMax = sz
}
}
if szMax >= szSeg {
iPromote = iTst
szPromote = szMax
}
}
if iPromote < 0 {
iPromote = iLvl
szPromote = szSeg
}
fts5StructurePromoteTo(tls, p, iPromote, szPromote, pStruct)
}
}
func fts5DlidxLvlNext(tls *libc.TLS, pLvl uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pData uintptr = (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FpData
if (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiOff == 0 {
(*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiOff = 1
*(*int32)(unsafe.Pointer(pLvl + 8)) += sqlite3Fts5GetVarint32(tls, (*Fts5Data)(unsafe.Pointer(pData)).Fp+1, pLvl+20)
*(*int32)(unsafe.Pointer(pLvl + 8)) += int32(sqlite3Fts5GetVarint(tls, (*Fts5Data)(unsafe.Pointer(pData)).Fp+uintptr((*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiOff), pLvl+24))
(*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiFirstOff = (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiOff
} else {
var iOff int32
for iOff = (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiOff; iOff < (*Fts5Data)(unsafe.Pointer(pData)).Fnn; iOff++ {
if *(*U8)(unsafe.Pointer((*Fts5Data)(unsafe.Pointer(pData)).Fp + uintptr(iOff))) != 0 {
break
}
}
if iOff < (*Fts5Data)(unsafe.Pointer(pData)).Fnn {
*(*int32)(unsafe.Pointer(pLvl + 20)) += iOff - (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiOff + 1
iOff = iOff + int32(sqlite3Fts5GetVarint(tls, (*Fts5Data)(unsafe.Pointer(pData)).Fp+uintptr(iOff), bp))
*(*I64)(unsafe.Pointer(pLvl + 24)) += *(*I64)(unsafe.Pointer(bp))
(*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiOff = iOff
} else {
(*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FbEof = 1
}
}
return (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FbEof
}
func fts5DlidxIterNextR(tls *libc.TLS, p uintptr, pIter uintptr, iLvl int32) int32 {
var pLvl uintptr = pIter + 8 + uintptr(iLvl)*32
if fts5DlidxLvlNext(tls, pLvl) != 0 {
if iLvl+1 < (*Fts5DlidxIter)(unsafe.Pointer(pIter)).FnLvl {
fts5DlidxIterNextR(tls, p, pIter, iLvl+1)
if (*Fts5DlidxLvl)(unsafe.Pointer(pLvl+1*32)).FbEof == 0 {
fts5DataRelease(tls, (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FpData)
libc.X__builtin___memset_chk(tls, pLvl, 0, uint64(unsafe.Sizeof(Fts5DlidxLvl{})), libc.X__builtin_object_size(tls, pLvl, 0))
(*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FpData = fts5DataRead(tls, p,
I64((*Fts5DlidxIter)(unsafe.Pointer(pIter)).FiSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B)+int64(1)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B)+I64(iLvl)<<FTS5_DATA_PAGE_B+I64((*Fts5DlidxLvl)(unsafe.Pointer(pLvl+1*32)).FiLeafPgno))
if (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FpData != 0 {
fts5DlidxLvlNext(tls, pLvl)
}
}
}
}
return (*Fts5DlidxLvl)(unsafe.Pointer(pIter + 8)).FbEof
}
func fts5DlidxIterNext(tls *libc.TLS, p uintptr, pIter uintptr) int32 {
return fts5DlidxIterNextR(tls, p, pIter, 0)
}
func fts5DlidxIterFirst(tls *libc.TLS, pIter uintptr) int32 {
var i int32
for i = 0; i < (*Fts5DlidxIter)(unsafe.Pointer(pIter)).FnLvl; i++ {
fts5DlidxLvlNext(tls, pIter+8+uintptr(i)*32)
}
return (*Fts5DlidxLvl)(unsafe.Pointer(pIter + 8)).FbEof
}
func fts5DlidxIterEof(tls *libc.TLS, p uintptr, pIter uintptr) int32 {
return libc.Bool32((*Fts5Index)(unsafe.Pointer(p)).Frc != SQLITE_OK || (*Fts5DlidxLvl)(unsafe.Pointer(pIter+8)).FbEof != 0)
}
func fts5DlidxIterLast(tls *libc.TLS, p uintptr, pIter uintptr) {
var i int32
for i = (*Fts5DlidxIter)(unsafe.Pointer(pIter)).FnLvl - 1; (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && i >= 0; i-- {
var pLvl uintptr = pIter + 8 + uintptr(i)*32
for fts5DlidxLvlNext(tls, pLvl) == 0 {
}
(*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FbEof = 0
if i > 0 {
var pChild uintptr = pLvl + libc.UintptrFromInt32(-1)*32
fts5DataRelease(tls, (*Fts5DlidxLvl)(unsafe.Pointer(pChild)).FpData)
libc.X__builtin___memset_chk(tls, pChild, 0, uint64(unsafe.Sizeof(Fts5DlidxLvl{})), libc.X__builtin_object_size(tls, pChild, 0))
(*Fts5DlidxLvl)(unsafe.Pointer(pChild)).FpData = fts5DataRead(tls, p,
I64((*Fts5DlidxIter)(unsafe.Pointer(pIter)).FiSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B)+int64(1)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B)+I64(i-1)<<FTS5_DATA_PAGE_B+I64((*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiLeafPgno))
}
}
}
func fts5DlidxLvlPrev(tls *libc.TLS, pLvl uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var iOff int32 = (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiOff
if iOff <= (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiFirstOff {
(*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FbEof = 1
} else {
var a uintptr = (*Fts5Data)(unsafe.Pointer((*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FpData)).Fp
var iLimit int32
var ii int32
var nZero int32 = 0
iLimit = func() int32 {
if iOff > 9 {
return iOff - 9
}
return 0
}()
for iOff--; iOff > iLimit; iOff-- {
if int32(*(*U8)(unsafe.Pointer(a + uintptr(iOff-1))))&0x80 == 0 {
break
}
}
sqlite3Fts5GetVarint(tls, a+uintptr(iOff), bp)
*(*I64)(unsafe.Pointer(pLvl + 24)) -= *(*I64)(unsafe.Pointer(bp))
(*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiLeafPgno--
for ii = iOff - 1; ii >= (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiFirstOff && int32(*(*U8)(unsafe.Pointer(a + uintptr(ii)))) == 0x00; ii-- {
nZero++
}
if ii >= (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiFirstOff && int32(*(*U8)(unsafe.Pointer(a + uintptr(ii))))&0x80 != 0 {
var bZero int32 = 0
if ii-8 >= (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiFirstOff {
var j int32
for j = 1; j <= 8 && int32(*(*U8)(unsafe.Pointer(a + uintptr(ii-j))))&0x80 != 0; j++ {
}
bZero = libc.Bool32(j > 8)
}
if bZero == 0 {
nZero--
}
}
*(*int32)(unsafe.Pointer(pLvl + 20)) -= nZero
(*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FiOff = iOff - nZero
}
return (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FbEof
}
func fts5DlidxIterPrevR(tls *libc.TLS, p uintptr, pIter uintptr, iLvl int32) int32 {
var pLvl uintptr = pIter + 8 + uintptr(iLvl)*32
if fts5DlidxLvlPrev(tls, pLvl) != 0 {
if iLvl+1 < (*Fts5DlidxIter)(unsafe.Pointer(pIter)).FnLvl {
fts5DlidxIterPrevR(tls, p, pIter, iLvl+1)
if (*Fts5DlidxLvl)(unsafe.Pointer(pLvl+1*32)).FbEof == 0 {
fts5DataRelease(tls, (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FpData)
libc.X__builtin___memset_chk(tls, pLvl, 0, uint64(unsafe.Sizeof(Fts5DlidxLvl{})), libc.X__builtin_object_size(tls, pLvl, 0))
(*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FpData = fts5DataRead(tls, p,
I64((*Fts5DlidxIter)(unsafe.Pointer(pIter)).FiSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B)+int64(1)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B)+I64(iLvl)<<FTS5_DATA_PAGE_B+I64((*Fts5DlidxLvl)(unsafe.Pointer(pLvl+1*32)).FiLeafPgno))
if (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FpData != 0 {
for fts5DlidxLvlNext(tls, pLvl) == 0 {
}
(*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FbEof = 0
}
}
}
}
return (*Fts5DlidxLvl)(unsafe.Pointer(pIter + 8)).FbEof
}
func fts5DlidxIterPrev(tls *libc.TLS, p uintptr, pIter uintptr) int32 {
return fts5DlidxIterPrevR(tls, p, pIter, 0)
}
func fts5DlidxIterFree(tls *libc.TLS, pIter uintptr) {
if pIter != 0 {
var i int32
for i = 0; i < (*Fts5DlidxIter)(unsafe.Pointer(pIter)).FnLvl; i++ {
fts5DataRelease(tls, (*Fts5DlidxLvl)(unsafe.Pointer(pIter+8+uintptr(i)*32)).FpData)
}
Xsqlite3_free(tls, pIter)
}
}
func fts5DlidxIterInit(tls *libc.TLS, p uintptr, bRev int32, iSegid int32, iLeafPg int32) uintptr {
var pIter uintptr = uintptr(0)
var i int32
var bDone int32 = 0
for i = 0; (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && bDone == 0; i++ {
var nByte Sqlite3_int64 = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5DlidxIter{})) + uint64(i)*uint64(unsafe.Sizeof(Fts5DlidxLvl{})))
var pNew uintptr
pNew = Xsqlite3_realloc64(tls, pIter, uint64(nByte))
if pNew == uintptr(0) {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
} else {
var iRowid I64 = I64(iSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B) + int64(1)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B) + I64(i)<<FTS5_DATA_PAGE_B + I64(iLeafPg)
var pLvl uintptr = pNew + 8 + uintptr(i)*32
pIter = pNew
libc.X__builtin___memset_chk(tls, pLvl, 0, uint64(unsafe.Sizeof(Fts5DlidxLvl{})), libc.X__builtin_object_size(tls, pLvl, 0))
(*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FpData = fts5DataRead(tls, p, iRowid)
if (*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FpData != 0 && int32(*(*U8)(unsafe.Pointer((*Fts5Data)(unsafe.Pointer((*Fts5DlidxLvl)(unsafe.Pointer(pLvl)).FpData)).Fp)))&0x0001 == 0 {
bDone = 1
}
(*Fts5DlidxIter)(unsafe.Pointer(pIter)).FnLvl = i + 1
}
}
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Fts5DlidxIter)(unsafe.Pointer(pIter)).FiSegid = iSegid
if bRev == 0 {
fts5DlidxIterFirst(tls, pIter)
} else {
fts5DlidxIterLast(tls, p, pIter)
}
}
if (*Fts5Index)(unsafe.Pointer(p)).Frc != SQLITE_OK {
fts5DlidxIterFree(tls, pIter)
pIter = uintptr(0)
}
return pIter
}
func fts5DlidxIterRowid(tls *libc.TLS, pIter uintptr) I64 {
return (*Fts5DlidxLvl)(unsafe.Pointer(pIter + 8)).FiRowid
}
func fts5DlidxIterPgno(tls *libc.TLS, pIter uintptr) int32 {
return (*Fts5DlidxLvl)(unsafe.Pointer(pIter + 8)).FiLeafPgno
}
func fts5SegIterNextPage(tls *libc.TLS, p uintptr, pIter uintptr) {
var pLeaf uintptr
var pSeg uintptr = (*Fts5SegIter)(unsafe.Pointer(pIter)).FpSeg
fts5DataRelease(tls, (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno++
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FpNextLeaf != 0 {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf = (*Fts5SegIter)(unsafe.Pointer(pIter)).FpNextLeaf
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpNextLeaf = uintptr(0)
} else if (*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno <= (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoLast {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf = fts5LeafRead(tls, p,
I64((*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FiSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B)+int64(0)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B)+int64(0)<<FTS5_DATA_PAGE_B+I64((*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno))
} else {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf = uintptr(0)
}
pLeaf = (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf
if pLeaf != 0 {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiPgidxOff = (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf
if (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf >= (*Fts5Data)(unsafe.Pointer(pLeaf)).Fnn {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist = (*Fts5Data)(unsafe.Pointer(pLeaf)).Fnn + 1
} else {
*(*int32)(unsafe.Pointer(pIter + 56)) += sqlite3Fts5GetVarint32(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp+uintptr((*Fts5SegIter)(unsafe.Pointer(pIter)).FiPgidxOff), pIter+60)
}
}
}
func fts5GetPoslistSize(tls *libc.TLS, p uintptr, pnSz uintptr, pbDel uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var n int32 = 0
{
*(*int32)(unsafe.Pointer(bp)) = int32(*(*U8)(unsafe.Pointer(p + uintptr(libc.PostIncInt32(&n, 1)))))
if *(*int32)(unsafe.Pointer(bp))&0x80 != 0 {
n--
n = n + sqlite3Fts5GetVarint32(tls, p+uintptr(n), bp)
}
}
*(*int32)(unsafe.Pointer(pnSz)) = *(*int32)(unsafe.Pointer(bp)) / 2
*(*int32)(unsafe.Pointer(pbDel)) = *(*int32)(unsafe.Pointer(bp)) & 0x0001
return n
}
func fts5SegIterLoadNPos(tls *libc.TLS, p uintptr, pIter uintptr) {
bp := tls.Alloc(4)
defer tls.Free(4)
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var iOff int32 = int32((*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset)
if (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FeDetail == FTS5_DETAIL_NONE {
var iEod int32 = func() int32 {
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist < (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).FszLeaf {
return (*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist
}
return (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).FszLeaf
}()
(*Fts5SegIter)(unsafe.Pointer(pIter)).FbDel = U8(0)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FnPos = 1
if iOff < iEod && int32(*(*U8)(unsafe.Pointer((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp + uintptr(iOff)))) == 0 {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FbDel = U8(1)
iOff++
if iOff < iEod && int32(*(*U8)(unsafe.Pointer((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp + uintptr(iOff)))) == 0 {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FnPos = 1
iOff++
} else {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FnPos = 0
}
}
} else {
{
*(*int32)(unsafe.Pointer(bp)) = int32(*(*U8)(unsafe.Pointer((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp + uintptr(libc.PostIncInt32(&iOff, 1)))))
if *(*int32)(unsafe.Pointer(bp))&0x80 != 0 {
iOff--
iOff = iOff + sqlite3Fts5GetVarint32(tls, (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp+uintptr(iOff), bp)
}
}
(*Fts5SegIter)(unsafe.Pointer(pIter)).FbDel = U8(*(*int32)(unsafe.Pointer(bp)) & 0x0001)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FnPos = *(*int32)(unsafe.Pointer(bp)) >> 1
}
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(iOff)
}
}
func fts5SegIterLoadRowid(tls *libc.TLS, p uintptr, pIter uintptr) {
var a uintptr = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp
var iOff I64 = (*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset
if iOff >= I64((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).FszLeaf) {
fts5SegIterNextPage(tls, p, pIter)
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf == uintptr(0) {
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
}
return
}
iOff = int64(4)
a = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp
}
iOff = iOff + I64(sqlite3Fts5GetVarint(tls, a+uintptr(iOff), pIter+104))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = iOff
}
func fts5SegIterLoadTerm(tls *libc.TLS, p uintptr, pIter uintptr, nKeep int32) {
bp := tls.Alloc(8)
defer tls.Free(8)
var a uintptr = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp
var iOff I64 = (*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset
iOff = iOff + I64(sqlite3Fts5GetVarint32(tls, a+uintptr(iOff), bp))
if iOff+I64(*(*int32)(unsafe.Pointer(bp))) > I64((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).FszLeaf) || nKeep > (*Fts5SegIter)(unsafe.Pointer(pIter)).Fterm.Fn || *(*int32)(unsafe.Pointer(bp)) == 0 {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
return
}
(*Fts5SegIter)(unsafe.Pointer(pIter)).Fterm.Fn = nKeep
sqlite3Fts5BufferAppendBlob(tls, p+52, pIter+88, uint32(*(*int32)(unsafe.Pointer(bp))), a+uintptr(iOff))
iOff = iOff + I64(*(*int32)(unsafe.Pointer(bp)))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiTermLeafOffset = int32(iOff)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiTermLeafPgno = (*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = iOff
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FiPgidxOff >= (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fnn {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fnn + 1
} else {
*(*int32)(unsafe.Pointer(pIter + 56)) += sqlite3Fts5GetVarint32(tls, a+uintptr((*Fts5SegIter)(unsafe.Pointer(pIter)).FiPgidxOff), bp+4)
*(*int32)(unsafe.Pointer(pIter + 60)) += *(*int32)(unsafe.Pointer(bp + 4))
}
fts5SegIterLoadRowid(tls, p, pIter)
}
func fts5SegIterSetNext(tls *libc.TLS, p uintptr, pIter uintptr) {
if (*Fts5SegIter)(unsafe.Pointer(pIter)).Fflags&FTS5_SEGITER_REVERSE != 0 {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FxNext = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
}{fts5SegIterNext_Reverse}))
} else if (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FeDetail == FTS5_DETAIL_NONE {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FxNext = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
}{fts5SegIterNext_None}))
} else {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FxNext = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
}{fts5SegIterNext}))
}
}
func fts5SegIterInit(tls *libc.TLS, p uintptr, pSeg uintptr, pIter uintptr) {
if (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoFirst == 0 {
return
}
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
libc.X__builtin___memset_chk(tls, pIter, 0, uint64(unsafe.Sizeof(Fts5SegIter{})), libc.X__builtin_object_size(tls, pIter, 0))
fts5SegIterSetNext(tls, p, pIter)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpSeg = pSeg
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno = (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoFirst - 1
fts5SegIterNextPage(tls, p, pIter)
}
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = int64(4)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiPgidxOff = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).FszLeaf + 1
fts5SegIterLoadTerm(tls, p, pIter, 0)
fts5SegIterLoadNPos(tls, p, pIter)
}
}
func fts5SegIterReverseInitPage(tls *libc.TLS, p uintptr, pIter uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
var eDetail int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FeDetail
var n int32 = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).FszLeaf
var i int32 = int32((*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset)
var a uintptr = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp
var iRowidOffset int32 = 0
if n > (*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist {
n = (*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist
}
for 1 != 0 {
*(*U64)(unsafe.Pointer(bp + 8)) = uint64(0)
if eDetail == FTS5_DETAIL_NONE {
if i < n && int32(*(*U8)(unsafe.Pointer(a + uintptr(i)))) == 0 {
i++
if i < n && int32(*(*U8)(unsafe.Pointer(a + uintptr(i)))) == 0 {
i++
}
}
} else {
i = i + fts5GetPoslistSize(tls, a+uintptr(i), bp, bp+4)
i = i + *(*int32)(unsafe.Pointer(bp))
}
if i >= n {
break
}
i = i + int32(sqlite3Fts5GetVarint(tls, a+uintptr(i), bp+8))
*(*I64)(unsafe.Pointer(pIter + 104)) += I64(*(*U64)(unsafe.Pointer(bp + 8)))
if iRowidOffset >= (*Fts5SegIter)(unsafe.Pointer(pIter)).FnRowidOffset {
var nNew int32 = (*Fts5SegIter)(unsafe.Pointer(pIter)).FnRowidOffset + 8
var aNew uintptr = Xsqlite3_realloc64(tls, (*Fts5SegIter)(unsafe.Pointer(pIter)).FaRowidOffset, uint64(nNew)*uint64(unsafe.Sizeof(int32(0))))
if aNew == uintptr(0) {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
break
}
(*Fts5SegIter)(unsafe.Pointer(pIter)).FaRowidOffset = aNew
(*Fts5SegIter)(unsafe.Pointer(pIter)).FnRowidOffset = nNew
}
*(*int32)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FaRowidOffset + uintptr(libc.PostIncInt32(&iRowidOffset, 1))*4)) = int32((*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(i)
}
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiRowidOffset = iRowidOffset
fts5SegIterLoadNPos(tls, p, pIter)
}
func fts5SegIterReverseNewPage(tls *libc.TLS, p uintptr, pIter uintptr) {
fts5DataRelease(tls, (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf = uintptr(0)
for (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno > (*Fts5SegIter)(unsafe.Pointer(pIter)).FiTermLeafPgno {
var pNew uintptr
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno--
pNew = fts5DataRead(tls, p, I64((*Fts5StructureSegment)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpSeg)).FiSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B)+int64(0)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B)+int64(0)<<FTS5_DATA_PAGE_B+I64((*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno))
if pNew != 0 {
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno == (*Fts5SegIter)(unsafe.Pointer(pIter)).FiTermLeafPgno {
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FiTermLeafOffset < (*Fts5Data)(unsafe.Pointer(pNew)).FszLeaf {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf = pNew
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64((*Fts5SegIter)(unsafe.Pointer(pIter)).FiTermLeafOffset)
}
} else {
var iRowidOff int32
iRowidOff = int32(fts5GetU16(tls, (*Fts5Data)(unsafe.Pointer(pNew)).Fp))
if iRowidOff != 0 {
if iRowidOff >= (*Fts5Data)(unsafe.Pointer(pNew)).FszLeaf {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
} else {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf = pNew
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(iRowidOff)
}
}
}
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf != 0 {
var a uintptr = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp + uintptr((*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset)
*(*I64)(unsafe.Pointer(pIter + 32)) += I64(sqlite3Fts5GetVarint(tls, a, pIter+104))
break
} else {
fts5DataRelease(tls, pNew)
}
}
}
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf != 0 {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fnn + 1
fts5SegIterReverseInitPage(tls, p, pIter)
}
}
func fts5MultiIterIsEmpty(tls *libc.TLS, p uintptr, pIter uintptr) int32 {
var pSeg uintptr = pIter + 96 + uintptr((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pIter)).FaFirst+1*4)).FiFirst)*120
return libc.Bool32((*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf != 0 && (*Fts5SegIter)(unsafe.Pointer(pSeg)).FnPos == 0)
}
func fts5SegIterNext_Reverse(tls *libc.TLS, p uintptr, pIter uintptr, pbUnused uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
_ = pbUnused
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FiRowidOffset > 0 {
var a uintptr = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp
var iOff int32
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiRowidOffset--
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(*(*int32)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FaRowidOffset + uintptr((*Fts5SegIter)(unsafe.Pointer(pIter)).FiRowidOffset)*4)))
fts5SegIterLoadNPos(tls, p, pIter)
iOff = int32((*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset)
if (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FeDetail != FTS5_DETAIL_NONE {
iOff = iOff + (*Fts5SegIter)(unsafe.Pointer(pIter)).FnPos
}
sqlite3Fts5GetVarint(tls, a+uintptr(iOff), bp)
*(*I64)(unsafe.Pointer(pIter + 104)) -= I64(*(*U64)(unsafe.Pointer(bp)))
} else {
fts5SegIterReverseNewPage(tls, p, pIter)
}
}
func fts5SegIterNext_None(tls *libc.TLS, p uintptr, pIter uintptr, pbNewTerm uintptr) {
bp := tls.Alloc(36)
defer tls.Free(36)
var iOff int32
iOff = int32((*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset)
if !((*Fts5SegIter)(unsafe.Pointer(pIter)).FpSeg != 0 && iOff >= (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).FszLeaf) {
goto __1
}
fts5SegIterNextPage(tls, p, pIter)
if !((*Fts5Index)(unsafe.Pointer(p)).Frc != 0 || (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf == uintptr(0)) {
goto __2
}
return
__2:
;
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiRowid = int64(0)
iOff = 4
__1:
;
if !(iOff < (*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist) {
goto __3
}
iOff = iOff + int32(sqlite3Fts5GetVarint(tls, (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp+uintptr(iOff), bp))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(iOff)
*(*I64)(unsafe.Pointer(pIter + 104)) += *(*I64)(unsafe.Pointer(bp))
goto __4
__3:
if !((*Fts5SegIter)(unsafe.Pointer(pIter)).Fflags&FTS5_SEGITER_ONETERM == 0) {
goto __5
}
if !((*Fts5SegIter)(unsafe.Pointer(pIter)).FpSeg != 0) {
goto __7
}
*(*int32)(unsafe.Pointer(bp + 8)) = 0
if !(iOff != fts5LeafFirstTermOff(tls, (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)) {
goto __9
}
iOff = iOff + sqlite3Fts5GetVarint32(tls, (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp+uintptr(iOff), bp+8)
__9:
;
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(iOff)
fts5SegIterLoadTerm(tls, p, pIter, *(*int32)(unsafe.Pointer(bp + 8)))
goto __8
__7:
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
sqlite3Fts5HashScanNext(tls, (*Fts5Index)(unsafe.Pointer(p)).FpHash)
sqlite3Fts5HashScanEntry(tls, (*Fts5Index)(unsafe.Pointer(p)).FpHash, bp+16, bp+24, bp+32)
if !(*(*uintptr)(unsafe.Pointer(bp + 24)) == uintptr(0)) {
goto __10
}
goto next_none_eof
__10:
;
(*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp = *(*uintptr)(unsafe.Pointer(bp + 24))
(*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fnn = *(*int32)(unsafe.Pointer(bp + 32))
(*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).FszLeaf = *(*int32)(unsafe.Pointer(bp + 32))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist = *(*int32)(unsafe.Pointer(bp + 32))
sqlite3Fts5BufferSet(tls, p+52, pIter+88, int32(libc.Xstrlen(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))), *(*uintptr)(unsafe.Pointer(bp + 16)))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(sqlite3Fts5GetVarint(tls, *(*uintptr)(unsafe.Pointer(bp + 24)), pIter+104))
__8:
;
if !(pbNewTerm != 0) {
goto __11
}
*(*int32)(unsafe.Pointer(pbNewTerm)) = 1
__11:
;
goto __6
__5:
goto next_none_eof
__6:
;
__4:
;
fts5SegIterLoadNPos(tls, p, pIter)
return
next_none_eof:
fts5DataRelease(tls, (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf = uintptr(0)
}
func fts5SegIterNext(tls *libc.TLS, p uintptr, pIter uintptr, pbNewTerm uintptr) {
bp := tls.Alloc(44)
defer tls.Free(44)
var pLeaf uintptr = (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf
var bNewTerm int32 = 0
*(*int32)(unsafe.Pointer(bp)) = 0
var a uintptr
var n int32
a = (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp
n = (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf
*(*int32)(unsafe.Pointer(bp + 36)) = int32((*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset + I64((*Fts5SegIter)(unsafe.Pointer(pIter)).FnPos))
if *(*int32)(unsafe.Pointer(bp + 36)) < n {
if *(*int32)(unsafe.Pointer(bp + 36)) >= (*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist {
bNewTerm = 1
if *(*int32)(unsafe.Pointer(bp + 36)) != fts5LeafFirstTermOff(tls, pLeaf) {
*(*int32)(unsafe.Pointer(bp + 36)) += sqlite3Fts5GetVarint32(tls, a+uintptr(*(*int32)(unsafe.Pointer(bp + 36))), bp)
}
} else {
*(*int32)(unsafe.Pointer(bp + 36)) += int32(sqlite3Fts5GetVarint(tls, a+uintptr(*(*int32)(unsafe.Pointer(bp + 36))), bp+8))
*(*I64)(unsafe.Pointer(pIter + 104)) += I64(*(*U64)(unsafe.Pointer(bp + 8)))
}
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(*(*int32)(unsafe.Pointer(bp + 36)))
} else if (*Fts5SegIter)(unsafe.Pointer(pIter)).FpSeg == uintptr(0) {
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 32)) = 0
if 0 == (*Fts5SegIter)(unsafe.Pointer(pIter)).Fflags&FTS5_SEGITER_ONETERM {
sqlite3Fts5HashScanNext(tls, (*Fts5Index)(unsafe.Pointer(p)).FpHash)
sqlite3Fts5HashScanEntry(tls, (*Fts5Index)(unsafe.Pointer(p)).FpHash, bp+16, bp+24, bp+32)
}
if *(*uintptr)(unsafe.Pointer(bp + 24)) == uintptr(0) {
fts5DataRelease(tls, (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf = uintptr(0)
} else {
(*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp = *(*uintptr)(unsafe.Pointer(bp + 24))
(*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fnn = *(*int32)(unsafe.Pointer(bp + 32))
(*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).FszLeaf = *(*int32)(unsafe.Pointer(bp + 32))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist = *(*int32)(unsafe.Pointer(bp + 32)) + 1
sqlite3Fts5BufferSet(tls, p+52, pIter+88, int32(libc.Xstrlen(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))),
*(*uintptr)(unsafe.Pointer(bp + 16)))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(sqlite3Fts5GetVarint(tls, *(*uintptr)(unsafe.Pointer(bp + 24)), pIter+104))
*(*int32)(unsafe.Pointer(pbNewTerm)) = 1
}
} else {
*(*int32)(unsafe.Pointer(bp + 36)) = 0
for *(*int32)(unsafe.Pointer(bp + 36)) == 0 {
fts5SegIterNextPage(tls, p, pIter)
pLeaf = (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf
if pLeaf == uintptr(0) {
break
}
if libc.AssignPtrInt32(bp+36, int32(fts5GetU16(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp))) != 0 && *(*int32)(unsafe.Pointer(bp + 36)) < (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf {
*(*int32)(unsafe.Pointer(bp + 36)) += int32(sqlite3Fts5GetVarint(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp+uintptr(*(*int32)(unsafe.Pointer(bp + 36))), pIter+104))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(*(*int32)(unsafe.Pointer(bp + 36)))
if (*Fts5Data)(unsafe.Pointer(pLeaf)).Fnn > (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiPgidxOff = (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf + sqlite3Fts5GetVarint32(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp+uintptr((*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf), pIter+60)
}
} else if (*Fts5Data)(unsafe.Pointer(pLeaf)).Fnn > (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiPgidxOff = (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf + sqlite3Fts5GetVarint32(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp+uintptr((*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf), bp+36)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(*(*int32)(unsafe.Pointer(bp + 36)))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist = *(*int32)(unsafe.Pointer(bp + 36))
bNewTerm = 1
}
if *(*int32)(unsafe.Pointer(bp + 36)) > (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
return
}
}
}
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf != 0 {
if bNewTerm != 0 {
if (*Fts5SegIter)(unsafe.Pointer(pIter)).Fflags&FTS5_SEGITER_ONETERM != 0 {
fts5DataRelease(tls, (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf = uintptr(0)
} else {
fts5SegIterLoadTerm(tls, p, pIter, *(*int32)(unsafe.Pointer(bp)))
fts5SegIterLoadNPos(tls, p, pIter)
if pbNewTerm != 0 {
*(*int32)(unsafe.Pointer(pbNewTerm)) = 1
}
}
} else {
{
*(*int32)(unsafe.Pointer(bp + 40)) = int32(*(*U8)(unsafe.Pointer((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp + uintptr(libc.PostIncInt64(&(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset, 1)))))
if *(*int32)(unsafe.Pointer(bp + 40))&0x80 != 0 {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset--
*(*I64)(unsafe.Pointer(pIter + 32)) += I64(sqlite3Fts5GetVarint32(tls, (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp+uintptr((*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset), bp+40))
}
}
(*Fts5SegIter)(unsafe.Pointer(pIter)).FbDel = U8(*(*int32)(unsafe.Pointer(bp + 40)) & 0x0001)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FnPos = *(*int32)(unsafe.Pointer(bp + 40)) >> 1
}
}
}
func fts5SegIterReverse(tls *libc.TLS, p uintptr, pIter uintptr) {
var pDlidx uintptr = (*Fts5SegIter)(unsafe.Pointer(pIter)).FpDlidx
var pLast uintptr = uintptr(0)
var pgnoLast int32 = 0
if pDlidx != 0 {
var iSegid int32 = (*Fts5StructureSegment)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpSeg)).FiSegid
pgnoLast = fts5DlidxIterPgno(tls, pDlidx)
pLast = fts5LeafRead(tls, p, I64(iSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B)+int64(0)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B)+int64(0)<<FTS5_DATA_PAGE_B+I64(pgnoLast))
} else {
var pLeaf uintptr = (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf
var iPoslist int32
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FiTermLeafPgno == (*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno {
iPoslist = (*Fts5SegIter)(unsafe.Pointer(pIter)).FiTermLeafOffset
} else {
iPoslist = 4
}
{
var iEnd int32 = iPoslist + 9
for int32(*(*U8)(unsafe.Pointer((*Fts5Data)(unsafe.Pointer(pLeaf)).Fp + uintptr(libc.PostIncInt32(&iPoslist, 1)))))&0x80 != 0 && iPoslist < iEnd {
}
}
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(iPoslist)
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist >= (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf {
var pgno int32
var pSeg uintptr = (*Fts5SegIter)(unsafe.Pointer(pIter)).FpSeg
for pgno = (*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno + 1; !((*Fts5Index)(unsafe.Pointer(p)).Frc != 0) && pgno <= (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoLast; pgno++ {
var iAbs I64 = I64((*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FiSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B) + int64(0)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B) + int64(0)<<FTS5_DATA_PAGE_B + I64(pgno)
var pNew uintptr = fts5LeafRead(tls, p, iAbs)
if pNew != 0 {
var iRowid int32
var bTermless int32
iRowid = int32(fts5GetU16(tls, (*Fts5Data)(unsafe.Pointer(pNew)).Fp))
bTermless = libc.Bool32((*Fts5Data)(unsafe.Pointer(pNew)).FszLeaf >= (*Fts5Data)(unsafe.Pointer(pNew)).Fnn)
if iRowid != 0 {
{
var tmp uintptr
tmp = pNew
pNew = pLast
pLast = tmp
}
pgnoLast = pgno
}
fts5DataRelease(tls, pNew)
if bTermless == 0 {
break
}
}
}
}
}
if pLast != 0 {
var iOff int32
fts5DataRelease(tls, (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf = pLast
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno = pgnoLast
iOff = int32(fts5GetU16(tls, (*Fts5Data)(unsafe.Pointer(pLast)).Fp))
if iOff > (*Fts5Data)(unsafe.Pointer(pLast)).FszLeaf {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
return
}
iOff = iOff + int32(sqlite3Fts5GetVarint(tls, (*Fts5Data)(unsafe.Pointer(pLast)).Fp+uintptr(iOff), pIter+104))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(iOff)
if (*Fts5Data)(unsafe.Pointer(pLast)).FszLeaf >= (*Fts5Data)(unsafe.Pointer(pLast)).Fnn {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist = (*Fts5Data)(unsafe.Pointer(pLast)).Fnn + 1
} else {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist = fts5LeafFirstTermOff(tls, pLast)
}
}
fts5SegIterReverseInitPage(tls, p, pIter)
}
func fts5SegIterLoadDlidx(tls *libc.TLS, p uintptr, pIter uintptr) {
var iSeg int32 = (*Fts5StructureSegment)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpSeg)).FiSegid
var bRev int32 = (*Fts5SegIter)(unsafe.Pointer(pIter)).Fflags & FTS5_SEGITER_REVERSE
var pLeaf uintptr = (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FiTermLeafPgno == (*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno &&
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist < (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf {
return
}
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpDlidx = fts5DlidxIterInit(tls, p, bRev, iSeg, (*Fts5SegIter)(unsafe.Pointer(pIter)).FiTermLeafPgno)
}
func fts5LeafSeek(tls *libc.TLS, p uintptr, bGe int32, pIter uintptr, pTerm uintptr, nTerm int32) {
bp := tls.Alloc(20)
defer tls.Free(20)
var a uintptr
var n U32
var nMatch U32
var iPgidx U32
var bEndOfPage int32
var nCmp U32
var i U32
a = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp
n = U32((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fnn)
nMatch = U32(0)
*(*U32)(unsafe.Pointer(bp + 8)) = U32(0)
*(*U32)(unsafe.Pointer(bp + 4)) = U32(0)
bEndOfPage = 0
iPgidx = U32((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).FszLeaf)
iPgidx = iPgidx + U32(sqlite3Fts5GetVarint32(tls, a+uintptr(iPgidx), bp))
*(*U32)(unsafe.Pointer(bp + 12)) = *(*U32)(unsafe.Pointer(bp))
if !(*(*U32)(unsafe.Pointer(bp + 12)) > n) {
goto __1
}
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
return
__1:
;
__2:
if !(1 != 0) {
goto __3
}
*(*U32)(unsafe.Pointer(bp + 4)) = U32(*(*U8)(unsafe.Pointer(a + uintptr(libc.PostIncUint32(&*(*U32)(unsafe.Pointer(bp + 12)), 1)))))
if !(*(*U32)(unsafe.Pointer(bp + 4))&U32(0x80) != 0) {
goto __4
}
*(*U32)(unsafe.Pointer(bp + 12))--
*(*U32)(unsafe.Pointer(bp + 12)) += U32(sqlite3Fts5GetVarint32(tls, a+uintptr(*(*U32)(unsafe.Pointer(bp + 12))), bp+4))
__4:
;
if !(*(*U32)(unsafe.Pointer(bp + 8)) < nMatch) {
goto __5
}
goto search_failed
__5:
;
if !(*(*U32)(unsafe.Pointer(bp + 8)) == nMatch) {
goto __6
}
nCmp = func() uint32 {
if *(*U32)(unsafe.Pointer(bp + 4)) < U32(nTerm)-nMatch {
return *(*U32)(unsafe.Pointer(bp + 4))
}
return U32(nTerm) - nMatch
}()
i = U32(0)
__7:
if !(i < nCmp) {
goto __9
}
if !(int32(*(*U8)(unsafe.Pointer(a + uintptr(*(*U32)(unsafe.Pointer(bp + 12))+i)))) != int32(*(*U8)(unsafe.Pointer(pTerm + uintptr(nMatch+i))))) {
goto __10
}
goto __9
__10:
;
goto __8
__8:
i++
goto __7
goto __9
__9:
;
nMatch = nMatch + i
if !(U32(nTerm) == nMatch) {
goto __11
}
if !(i == *(*U32)(unsafe.Pointer(bp + 4))) {
goto __13
}
goto search_success
goto __14
__13:
goto search_failed
__14:
;
goto __12
__11:
if !(i < *(*U32)(unsafe.Pointer(bp + 4)) && int32(*(*U8)(unsafe.Pointer(a + uintptr(*(*U32)(unsafe.Pointer(bp + 12))+i)))) > int32(*(*U8)(unsafe.Pointer(pTerm + uintptr(nMatch))))) {
goto __15
}
goto search_failed
__15:
;
__12:
;
__6:
;
if !(iPgidx >= n) {
goto __16
}
bEndOfPage = 1
goto __3
__16:
;
iPgidx = iPgidx + U32(sqlite3Fts5GetVarint32(tls, a+uintptr(iPgidx), bp+8))
*(*U32)(unsafe.Pointer(bp)) += *(*U32)(unsafe.Pointer(bp + 8))
*(*U32)(unsafe.Pointer(bp + 12)) = *(*U32)(unsafe.Pointer(bp))
if !(*(*U32)(unsafe.Pointer(bp + 12)) >= n) {
goto __17
}
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
return
__17:
;
*(*U32)(unsafe.Pointer(bp + 8)) = U32(*(*U8)(unsafe.Pointer(a + uintptr(libc.PostIncUint32(&*(*U32)(unsafe.Pointer(bp + 12)), 1)))))
if !(*(*U32)(unsafe.Pointer(bp + 8))&U32(0x80) != 0) {
goto __18
}
*(*U32)(unsafe.Pointer(bp + 12))--
*(*U32)(unsafe.Pointer(bp + 12)) += U32(sqlite3Fts5GetVarint32(tls, a+uintptr(*(*U32)(unsafe.Pointer(bp + 12))), bp+8))
__18:
;
goto __2
__3:
;
search_failed:
if !(bGe == 0) {
goto __19
}
fts5DataRelease(tls, (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf = uintptr(0)
return
goto __20
__19:
if !(bEndOfPage != 0) {
goto __21
}
__22:
fts5SegIterNextPage(tls, p, pIter)
if !((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf == uintptr(0)) {
goto __25
}
return
__25:
;
a = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp
if !(libc.Bool32((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).FszLeaf >= (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fnn) == 0) {
goto __26
}
iPgidx = U32((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).FszLeaf)
iPgidx = iPgidx + U32(sqlite3Fts5GetVarint32(tls, (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp+uintptr(iPgidx), bp+12))
if !(*(*U32)(unsafe.Pointer(bp + 12)) < U32(4) || I64(*(*U32)(unsafe.Pointer(bp + 12))) >= I64((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).FszLeaf)) {
goto __27
}
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
return
goto __28
__27:
*(*U32)(unsafe.Pointer(bp + 8)) = U32(0)
*(*U32)(unsafe.Pointer(bp)) = *(*U32)(unsafe.Pointer(bp + 12))
n = U32((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fnn)
*(*U32)(unsafe.Pointer(bp + 12)) += U32(sqlite3Fts5GetVarint32(tls, a+uintptr(*(*U32)(unsafe.Pointer(bp + 12))), bp+4))
goto __24
__28:
;
__26:
;
goto __23
__23:
if 1 != 0 {
goto __22
}
goto __24
__24:
;
__21:
;
__20:
;
search_success:
if !(I64(*(*U32)(unsafe.Pointer(bp + 12)))+I64(*(*U32)(unsafe.Pointer(bp + 4))) > I64(n) || *(*U32)(unsafe.Pointer(bp + 4)) < U32(1)) {
goto __29
}
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
return
__29:
;
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(*(*U32)(unsafe.Pointer(bp + 12)) + *(*U32)(unsafe.Pointer(bp + 4)))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiTermLeafOffset = int32((*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiTermLeafPgno = (*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno
sqlite3Fts5BufferSet(tls, p+52, pIter+88, int32(*(*U32)(unsafe.Pointer(bp + 8))), pTerm)
sqlite3Fts5BufferAppendBlob(tls, p+52, pIter+88, *(*U32)(unsafe.Pointer(bp + 4)), a+uintptr(*(*U32)(unsafe.Pointer(bp + 12))))
if !(iPgidx >= n) {
goto __30
}
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fnn + 1
goto __31
__30:
iPgidx = iPgidx + U32(sqlite3Fts5GetVarint32(tls, a+uintptr(iPgidx), bp+16))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist = int32(*(*U32)(unsafe.Pointer(bp)) + U32(*(*int32)(unsafe.Pointer(bp + 16))))
__31:
;
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiPgidxOff = int32(iPgidx)
fts5SegIterLoadRowid(tls, p, pIter)
fts5SegIterLoadNPos(tls, p, pIter)
}
func fts5IdxSelectStmt(tls *libc.TLS, p uintptr) uintptr {
bp := tls.Alloc(16)
defer tls.Free(16)
if (*Fts5Index)(unsafe.Pointer(p)).FpIdxSelect == uintptr(0) {
var pConfig uintptr = (*Fts5Index)(unsafe.Pointer(p)).FpConfig
fts5IndexPrepareStmt(tls, p, p+96, Xsqlite3_mprintf(tls,
ts+35448,
libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName)))
}
return (*Fts5Index)(unsafe.Pointer(p)).FpIdxSelect
}
func fts5SegIterSeekInit(tls *libc.TLS, p uintptr, pTerm uintptr, nTerm int32, flags int32, pSeg uintptr, pIter uintptr) {
var iPg int32 = 1
var bGe int32 = flags & FTS5INDEX_QUERY_SCAN
var bDlidx int32 = 0
var pIdxSelect uintptr = uintptr(0)
libc.X__builtin___memset_chk(tls, pIter, 0, uint64(unsafe.Sizeof(Fts5SegIter{})), libc.X__builtin_object_size(tls, pIter, 0))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpSeg = pSeg
pIdxSelect = fts5IdxSelectStmt(tls, p)
if (*Fts5Index)(unsafe.Pointer(p)).Frc != 0 {
return
}
Xsqlite3_bind_int(tls, pIdxSelect, 1, (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FiSegid)
Xsqlite3_bind_blob(tls, pIdxSelect, 2, pTerm, nTerm, uintptr(0))
if SQLITE_ROW == Xsqlite3_step(tls, pIdxSelect) {
var val I64 = I64(Xsqlite3_column_int(tls, pIdxSelect, 0))
iPg = int32(val >> 1)
bDlidx = int32(val & int64(0x0001))
}
(*Fts5Index)(unsafe.Pointer(p)).Frc = Xsqlite3_reset(tls, pIdxSelect)
Xsqlite3_bind_null(tls, pIdxSelect, 2)
if iPg < (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoFirst {
iPg = (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoFirst
bDlidx = 0
}
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno = iPg - 1
fts5SegIterNextPage(tls, p, pIter)
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf != 0 {
fts5LeafSeek(tls, p, bGe, pIter, pTerm, nTerm)
}
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && bGe == 0 {
*(*int32)(unsafe.Pointer(pIter + 8)) |= FTS5_SEGITER_ONETERM
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf != 0 {
if flags&FTS5INDEX_QUERY_DESC != 0 {
*(*int32)(unsafe.Pointer(pIter + 8)) |= FTS5_SEGITER_REVERSE
}
if bDlidx != 0 {
fts5SegIterLoadDlidx(tls, p, pIter)
}
if flags&FTS5INDEX_QUERY_DESC != 0 {
fts5SegIterReverse(tls, p, pIter)
}
}
}
fts5SegIterSetNext(tls, p, pIter)
}
func fts5SegIterHashInit(tls *libc.TLS, p uintptr, pTerm uintptr, nTerm int32, flags int32, pIter uintptr) {
bp := tls.Alloc(32)
defer tls.Free(32)
*(*int32)(unsafe.Pointer(bp + 16)) = 0
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var n int32 = 0
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
if pTerm == uintptr(0) || flags&FTS5INDEX_QUERY_SCAN != 0 {
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
(*Fts5Index)(unsafe.Pointer(p)).Frc = sqlite3Fts5HashScanInit(tls, (*Fts5Index)(unsafe.Pointer(p)).FpHash, pTerm, nTerm)
sqlite3Fts5HashScanEntry(tls, (*Fts5Index)(unsafe.Pointer(p)).FpHash, bp, bp+8, bp+16)
n = func() int32 {
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
return int32(libc.Xstrlen(tls, *(*uintptr)(unsafe.Pointer(bp))))
}
return 0
}()
if *(*uintptr)(unsafe.Pointer(bp + 8)) != 0 {
*(*uintptr)(unsafe.Pointer(bp + 24)) = fts5IdxMalloc(tls, p, int64(unsafe.Sizeof(Fts5Data{})))
if *(*uintptr)(unsafe.Pointer(bp + 24)) != 0 {
(*Fts5Data)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 24)))).Fp = *(*uintptr)(unsafe.Pointer(bp + 8))
}
}
} else {
(*Fts5Index)(unsafe.Pointer(p)).Frc = sqlite3Fts5HashQuery(tls, (*Fts5Index)(unsafe.Pointer(p)).FpHash, int32(unsafe.Sizeof(Fts5Data{})),
pTerm, nTerm, bp+24, bp+16)
if *(*uintptr)(unsafe.Pointer(bp + 24)) != 0 {
(*Fts5Data)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 24)))).Fp = *(*uintptr)(unsafe.Pointer(bp + 24)) + 1*16
}
*(*uintptr)(unsafe.Pointer(bp)) = pTerm
n = nTerm
*(*int32)(unsafe.Pointer(pIter + 8)) |= FTS5_SEGITER_ONETERM
}
if *(*uintptr)(unsafe.Pointer(bp + 24)) != 0 {
sqlite3Fts5BufferSet(tls, p+52, pIter+88, n, *(*uintptr)(unsafe.Pointer(bp)))
(*Fts5Data)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 24)))).Fnn = libc.AssignPtrInt32(*(*uintptr)(unsafe.Pointer(bp + 24))+12, *(*int32)(unsafe.Pointer(bp + 16)))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf = *(*uintptr)(unsafe.Pointer(bp + 24))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(sqlite3Fts5GetVarint(tls, (*Fts5Data)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 24)))).Fp, pIter+104))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist = (*Fts5Data)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 24)))).Fnn
if flags&FTS5INDEX_QUERY_DESC != 0 {
*(*int32)(unsafe.Pointer(pIter + 8)) |= FTS5_SEGITER_REVERSE
fts5SegIterReverseInitPage(tls, p, pIter)
} else {
fts5SegIterLoadNPos(tls, p, pIter)
}
}
fts5SegIterSetNext(tls, p, pIter)
}
func fts5SegIterClear(tls *libc.TLS, pIter uintptr) {
sqlite3Fts5BufferFree(tls, pIter+88)
fts5DataRelease(tls, (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)
fts5DataRelease(tls, (*Fts5SegIter)(unsafe.Pointer(pIter)).FpNextLeaf)
fts5DlidxIterFree(tls, (*Fts5SegIter)(unsafe.Pointer(pIter)).FpDlidx)
Xsqlite3_free(tls, (*Fts5SegIter)(unsafe.Pointer(pIter)).FaRowidOffset)
libc.X__builtin___memset_chk(tls, pIter, 0, uint64(unsafe.Sizeof(Fts5SegIter{})), libc.X__builtin_object_size(tls, pIter, 0))
}
func fts5MultiIterDoCompare(tls *libc.TLS, pIter uintptr, iOut int32) int32 {
var i1 int32
var i2 int32
var iRes int32
var p1 uintptr
var p2 uintptr
var pRes uintptr = (*Fts5Iter)(unsafe.Pointer(pIter)).FaFirst + uintptr(iOut)*4
if iOut >= (*Fts5Iter)(unsafe.Pointer(pIter)).FnSeg/2 {
i1 = (iOut - (*Fts5Iter)(unsafe.Pointer(pIter)).FnSeg/2) * 2
i2 = i1 + 1
} else {
i1 = int32((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pIter)).FaFirst + uintptr(iOut*2)*4)).FiFirst)
i2 = int32((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pIter)).FaFirst + uintptr(iOut*2+1)*4)).FiFirst)
}
p1 = pIter + 96 + uintptr(i1)*120
p2 = pIter + 96 + uintptr(i2)*120
(*Fts5CResult)(unsafe.Pointer(pRes)).FbTermEq = U8(0)
if (*Fts5SegIter)(unsafe.Pointer(p1)).FpLeaf == uintptr(0) {
iRes = i2
} else if (*Fts5SegIter)(unsafe.Pointer(p2)).FpLeaf == uintptr(0) {
iRes = i1
} else {
var res int32 = fts5BufferCompare(tls, p1+88, p2+88)
if res == 0 {
(*Fts5CResult)(unsafe.Pointer(pRes)).FbTermEq = U8(1)
if (*Fts5SegIter)(unsafe.Pointer(p1)).FiRowid == (*Fts5SegIter)(unsafe.Pointer(p2)).FiRowid {
(*Fts5SegIter)(unsafe.Pointer(p1)).FbDel = (*Fts5SegIter)(unsafe.Pointer(p2)).FbDel
return i2
}
if libc.Bool32((*Fts5SegIter)(unsafe.Pointer(p1)).FiRowid > (*Fts5SegIter)(unsafe.Pointer(p2)).FiRowid) == (*Fts5Iter)(unsafe.Pointer(pIter)).FbRev {
res = -1
} else {
res = +1
}
}
if res < 0 {
iRes = i1
} else {
iRes = i2
}
}
(*Fts5CResult)(unsafe.Pointer(pRes)).FiFirst = U16(iRes)
return 0
}
func fts5SegIterGotoPage(tls *libc.TLS, p uintptr, pIter uintptr, iLeafPgno int32) {
if iLeafPgno > (*Fts5StructureSegment)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpSeg)).FpgnoLast {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
} else {
fts5DataRelease(tls, (*Fts5SegIter)(unsafe.Pointer(pIter)).FpNextLeaf)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpNextLeaf = uintptr(0)
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno = iLeafPgno - 1
fts5SegIterNextPage(tls, p, pIter)
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf != uintptr(0) {
var iOff int32
var a uintptr = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp
var n int32 = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).FszLeaf
iOff = int32(fts5GetU16(tls, (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf)).Fp))
if iOff < 4 || iOff >= n {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
} else {
iOff = iOff + int32(sqlite3Fts5GetVarint(tls, a+uintptr(iOff), pIter+104))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(iOff)
fts5SegIterLoadNPos(tls, p, pIter)
}
}
}
}
func fts5SegIterNextFrom(tls *libc.TLS, p uintptr, pIter uintptr, iMatch I64) {
var bRev int32 = (*Fts5SegIter)(unsafe.Pointer(pIter)).Fflags & FTS5_SEGITER_REVERSE
var pDlidx uintptr = (*Fts5SegIter)(unsafe.Pointer(pIter)).FpDlidx
var iLeafPgno int32 = (*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno
var bMove int32 = 1
if bRev == 0 {
for !(fts5DlidxIterEof(tls, p, pDlidx) != 0) && iMatch > fts5DlidxIterRowid(tls, pDlidx) {
iLeafPgno = fts5DlidxIterPgno(tls, pDlidx)
fts5DlidxIterNext(tls, p, pDlidx)
}
if iLeafPgno > (*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno {
fts5SegIterGotoPage(tls, p, pIter, iLeafPgno)
bMove = 0
}
} else {
for !(fts5DlidxIterEof(tls, p, pDlidx) != 0) && iMatch < fts5DlidxIterRowid(tls, pDlidx) {
fts5DlidxIterPrev(tls, p, pDlidx)
}
iLeafPgno = fts5DlidxIterPgno(tls, pDlidx)
if iLeafPgno < (*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafPgno = iLeafPgno + 1
fts5SegIterReverseNewPage(tls, p, pIter)
bMove = 0
}
}
for __ccgo := true; __ccgo; __ccgo = (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
if bMove != 0 && (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5SegIter)(unsafe.Pointer(pIter)).FxNext})).f(tls, p, pIter, uintptr(0))
}
if (*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf == uintptr(0) {
break
}
if bRev == 0 && (*Fts5SegIter)(unsafe.Pointer(pIter)).FiRowid >= iMatch {
break
}
if bRev != 0 && (*Fts5SegIter)(unsafe.Pointer(pIter)).FiRowid <= iMatch {
break
}
bMove = 1
}
}
func fts5MultiIterFree(tls *libc.TLS, pIter uintptr) {
if pIter != 0 {
var i int32
for i = 0; i < (*Fts5Iter)(unsafe.Pointer(pIter)).FnSeg; i++ {
fts5SegIterClear(tls, pIter+96+uintptr(i)*120)
}
sqlite3Fts5BufferFree(tls, pIter+32)
Xsqlite3_free(tls, pIter)
}
}
func fts5MultiIterAdvanced(tls *libc.TLS, p uintptr, pIter uintptr, iChanged int32, iMinset int32) {
var i int32
for i = ((*Fts5Iter)(unsafe.Pointer(pIter)).FnSeg + iChanged) / 2; i >= iMinset && (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK; i = i / 2 {
var iEq int32
if libc.AssignInt32(&iEq, fts5MultiIterDoCompare(tls, pIter, i)) != 0 {
var pSeg uintptr = pIter + 96 + uintptr(iEq)*120
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5SegIter)(unsafe.Pointer(pSeg)).FxNext})).f(tls, p, pSeg, uintptr(0))
i = (*Fts5Iter)(unsafe.Pointer(pIter)).FnSeg + iEq
}
}
}
func fts5MultiIterAdvanceRowid(tls *libc.TLS, pIter uintptr, iChanged int32, ppFirst uintptr) int32 {
var pNew uintptr = pIter + 96 + uintptr(iChanged)*120
if (*Fts5SegIter)(unsafe.Pointer(pNew)).FiRowid == (*Fts5Iter)(unsafe.Pointer(pIter)).FiSwitchRowid ||
libc.Bool32((*Fts5SegIter)(unsafe.Pointer(pNew)).FiRowid < (*Fts5Iter)(unsafe.Pointer(pIter)).FiSwitchRowid) == (*Fts5Iter)(unsafe.Pointer(pIter)).FbRev {
var i int32
var pOther uintptr = pIter + 96 + uintptr(iChanged^0x0001)*120
(*Fts5Iter)(unsafe.Pointer(pIter)).FiSwitchRowid = func() int64 {
if (*Fts5Iter)(unsafe.Pointer(pIter)).FbRev != 0 {
return int64(-1) - (int64(0xffffffff) | int64(0x7fffffff)<<32)
}
return int64(0xffffffff) | int64(0x7fffffff)<<32
}()
for i = ((*Fts5Iter)(unsafe.Pointer(pIter)).FnSeg + iChanged) / 2; 1 != 0; i = i / 2 {
var pRes uintptr = (*Fts5Iter)(unsafe.Pointer(pIter)).FaFirst + uintptr(i)*4
if (*Fts5CResult)(unsafe.Pointer(pRes)).FbTermEq != 0 {
if (*Fts5SegIter)(unsafe.Pointer(pNew)).FiRowid == (*Fts5SegIter)(unsafe.Pointer(pOther)).FiRowid {
return 1
} else if libc.Bool32((*Fts5SegIter)(unsafe.Pointer(pOther)).FiRowid > (*Fts5SegIter)(unsafe.Pointer(pNew)).FiRowid) == (*Fts5Iter)(unsafe.Pointer(pIter)).FbRev {
(*Fts5Iter)(unsafe.Pointer(pIter)).FiSwitchRowid = (*Fts5SegIter)(unsafe.Pointer(pOther)).FiRowid
pNew = pOther
} else if libc.Bool32((*Fts5SegIter)(unsafe.Pointer(pOther)).FiRowid > (*Fts5Iter)(unsafe.Pointer(pIter)).FiSwitchRowid) == (*Fts5Iter)(unsafe.Pointer(pIter)).FbRev {
(*Fts5Iter)(unsafe.Pointer(pIter)).FiSwitchRowid = (*Fts5SegIter)(unsafe.Pointer(pOther)).FiRowid
}
}
(*Fts5CResult)(unsafe.Pointer(pRes)).FiFirst = U16(int64((pNew - (pIter + 96)) / 120))
if i == 1 {
break
}
pOther = pIter + 96 + uintptr((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pIter)).FaFirst+uintptr(i^0x0001)*4)).FiFirst)*120
}
}
*(*uintptr)(unsafe.Pointer(ppFirst)) = pNew
return 0
}
func fts5MultiIterSetEof(tls *libc.TLS, pIter uintptr) {
var pSeg uintptr = pIter + 96 + uintptr((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pIter)).FaFirst+1*4)).FiFirst)*120
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FbEof = U8(libc.Bool32((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf == uintptr(0)))
(*Fts5Iter)(unsafe.Pointer(pIter)).FiSwitchRowid = (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiRowid
}
func fts5MultiIterNext(tls *libc.TLS, p uintptr, pIter uintptr, bFrom int32, iFrom I64) {
bp := tls.Alloc(16)
defer tls.Free(16)
var bUseFrom int32 = bFrom
for (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var iFirst int32 = int32((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pIter)).FaFirst + 1*4)).FiFirst)
*(*int32)(unsafe.Pointer(bp)) = 0
*(*uintptr)(unsafe.Pointer(bp + 8)) = pIter + 96 + uintptr(iFirst)*120
if bUseFrom != 0 && (*Fts5SegIter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FpDlidx != 0 {
fts5SegIterNextFrom(tls, p, *(*uintptr)(unsafe.Pointer(bp + 8)), iFrom)
} else {
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5SegIter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FxNext})).f(tls, p, *(*uintptr)(unsafe.Pointer(bp + 8)), bp)
}
if (*Fts5SegIter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FpLeaf == uintptr(0) || *(*int32)(unsafe.Pointer(bp)) != 0 ||
fts5MultiIterAdvanceRowid(tls, pIter, iFirst, bp+8) != 0 {
fts5MultiIterAdvanced(tls, p, pIter, iFirst, 1)
fts5MultiIterSetEof(tls, pIter)
*(*uintptr)(unsafe.Pointer(bp + 8)) = pIter + 96 + uintptr((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pIter)).FaFirst+1*4)).FiFirst)*120
if (*Fts5SegIter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FpLeaf == uintptr(0) {
return
}
}
if int32((*Fts5Iter)(unsafe.Pointer(pIter)).FbSkipEmpty) == 0 || (*Fts5SegIter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FnPos != 0 {
(*struct {
f func(*libc.TLS, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5Iter)(unsafe.Pointer(pIter)).FxSetOutputs})).f(tls, pIter, *(*uintptr)(unsafe.Pointer(bp + 8)))
return
}
bUseFrom = 0
}
}
func fts5MultiIterNext2(tls *libc.TLS, p uintptr, pIter uintptr, pbNewTerm uintptr) {
bp := tls.Alloc(16)
defer tls.Free(16)
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
*(*int32)(unsafe.Pointer(pbNewTerm)) = 0
for __ccgo := true; __ccgo; __ccgo = fts5MultiIterIsEmpty(tls, p, pIter) != 0 {
var iFirst int32 = int32((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pIter)).FaFirst + 1*4)).FiFirst)
*(*uintptr)(unsafe.Pointer(bp + 8)) = pIter + 96 + uintptr(iFirst)*120
*(*int32)(unsafe.Pointer(bp)) = 0
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5SegIter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FxNext})).f(tls, p, *(*uintptr)(unsafe.Pointer(bp + 8)), bp)
if (*Fts5SegIter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FpLeaf == uintptr(0) || *(*int32)(unsafe.Pointer(bp)) != 0 ||
fts5MultiIterAdvanceRowid(tls, pIter, iFirst, bp+8) != 0 {
fts5MultiIterAdvanced(tls, p, pIter, iFirst, 1)
fts5MultiIterSetEof(tls, pIter)
*(*int32)(unsafe.Pointer(pbNewTerm)) = 1
}
}
}
}
func fts5IterSetOutputs_Noop(tls *libc.TLS, pUnused1 uintptr, pUnused2 uintptr) {
_ = pUnused1
_ = pUnused2
}
func fts5MultiIterAlloc(tls *libc.TLS, p uintptr, nSeg int32) uintptr {
var pNew uintptr
var nSlot int32
for nSlot = 2; nSlot < nSeg; nSlot = nSlot * 2 {
}
pNew = fts5IdxMalloc(tls, p,
int64(uint64(unsafe.Sizeof(Fts5Iter{}))+uint64(unsafe.Sizeof(Fts5SegIter{}))*uint64(nSlot-1)+uint64(unsafe.Sizeof(Fts5CResult{}))*uint64(nSlot)))
if pNew != 0 {
(*Fts5Iter)(unsafe.Pointer(pNew)).FnSeg = nSlot
(*Fts5Iter)(unsafe.Pointer(pNew)).FaFirst = pNew + 96 + uintptr(nSlot)*120
(*Fts5Iter)(unsafe.Pointer(pNew)).FpIndex = p
(*Fts5Iter)(unsafe.Pointer(pNew)).FxSetOutputs = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{fts5IterSetOutputs_Noop}))
}
return pNew
}
func fts5PoslistCallback(tls *libc.TLS, pUnused uintptr, pContext uintptr, pChunk uintptr, nChunk int32) {
_ = pUnused
if nChunk > 0 {
{
libc.X__builtin___memcpy_chk(tls, (*Fts5Buffer)(unsafe.Pointer(pContext)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pContext)).Fn), pChunk, uint64(nChunk), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer(pContext)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pContext)).Fn), 0))
*(*int32)(unsafe.Pointer(pContext + 8)) += nChunk
}
}
}
type PoslistCallbackCtx1 = struct {
FpBuf uintptr
FpColset uintptr
FeState int32
F__ccgo_pad1 [4]byte
}
type PoslistCallbackCtx = PoslistCallbackCtx1
type PoslistOffsetsCtx1 = struct {
FpBuf uintptr
FpColset uintptr
FiRead int32
FiWrite int32
}
type PoslistOffsetsCtx = PoslistOffsetsCtx1
func fts5IndexColsetTest(tls *libc.TLS, pColset uintptr, iCol int32) int32 {
var i int32
for i = 0; i < (*Fts5Colset)(unsafe.Pointer(pColset)).FnCol; i++ {
if *(*int32)(unsafe.Pointer(pColset + 4 + uintptr(i)*4)) == iCol {
return 1
}
}
return 0
}
func fts5PoslistOffsetsCallback(tls *libc.TLS, pUnused uintptr, pContext uintptr, pChunk uintptr, nChunk int32) {
bp := tls.Alloc(4)
defer tls.Free(4)
var pCtx uintptr = pContext
_ = pUnused
if nChunk > 0 {
var i int32 = 0
for i < nChunk {
i = i + sqlite3Fts5GetVarint32(tls, pChunk+uintptr(i), bp)
*(*int32)(unsafe.Pointer(bp)) += (*PoslistOffsetsCtx)(unsafe.Pointer(pCtx)).FiRead - 2
(*PoslistOffsetsCtx)(unsafe.Pointer(pCtx)).FiRead = *(*int32)(unsafe.Pointer(bp))
if fts5IndexColsetTest(tls, (*PoslistOffsetsCtx)(unsafe.Pointer(pCtx)).FpColset, *(*int32)(unsafe.Pointer(bp))) != 0 {
{
*(*int32)(unsafe.Pointer((*PoslistOffsetsCtx)(unsafe.Pointer(pCtx)).FpBuf + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer((*PoslistOffsetsCtx)(unsafe.Pointer(pCtx)).FpBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer((*PoslistOffsetsCtx)(unsafe.Pointer(pCtx)).FpBuf)).Fn), uint64(*(*int32)(unsafe.Pointer(bp))+2-(*PoslistOffsetsCtx)(unsafe.Pointer(pCtx)).FiWrite))
}
(*PoslistOffsetsCtx)(unsafe.Pointer(pCtx)).FiWrite = *(*int32)(unsafe.Pointer(bp))
}
}
}
}
func fts5PoslistFilterCallback(tls *libc.TLS, pUnused uintptr, pContext uintptr, pChunk uintptr, nChunk int32) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pCtx uintptr = pContext
_ = pUnused
if nChunk > 0 {
var i int32 = 0
var iStart int32 = 0
if (*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FeState == 2 {
{
*(*int32)(unsafe.Pointer(bp)) = int32(*(*U8)(unsafe.Pointer(pChunk + uintptr(libc.PostIncInt32(&i, 1)))))
if *(*int32)(unsafe.Pointer(bp))&0x80 != 0 {
i--
i = i + sqlite3Fts5GetVarint32(tls, pChunk+uintptr(i), bp)
}
}
if fts5IndexColsetTest(tls, (*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpColset, *(*int32)(unsafe.Pointer(bp))) != 0 {
(*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FeState = 1
{
*(*int32)(unsafe.Pointer((*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpBuf + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer((*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer((*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpBuf)).Fn), uint64(1))
}
} else {
(*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FeState = 0
}
}
for __ccgo := true; __ccgo; __ccgo = i < nChunk {
for i < nChunk && int32(*(*U8)(unsafe.Pointer(pChunk + uintptr(i)))) != 0x01 {
for int32(*(*U8)(unsafe.Pointer(pChunk + uintptr(i))))&0x80 != 0 {
i++
}
i++
}
if (*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FeState != 0 {
{
libc.X__builtin___memcpy_chk(tls, (*Fts5Buffer)(unsafe.Pointer((*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer((*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpBuf)).Fn), pChunk+uintptr(iStart), uint64(i-iStart), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer((*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer((*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpBuf)).Fn), 0))
*(*int32)(unsafe.Pointer((*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpBuf + 8)) += i - iStart
}
}
if i < nChunk {
iStart = i
i++
if i >= nChunk {
(*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FeState = 2
} else {
{
*(*int32)(unsafe.Pointer(bp + 4)) = int32(*(*U8)(unsafe.Pointer(pChunk + uintptr(libc.PostIncInt32(&i, 1)))))
if *(*int32)(unsafe.Pointer(bp + 4))&0x80 != 0 {
i--
i = i + sqlite3Fts5GetVarint32(tls, pChunk+uintptr(i), bp+4)
}
}
(*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FeState = fts5IndexColsetTest(tls, (*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpColset, *(*int32)(unsafe.Pointer(bp + 4)))
if (*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FeState != 0 {
{
libc.X__builtin___memcpy_chk(tls, (*Fts5Buffer)(unsafe.Pointer((*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer((*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpBuf)).Fn), pChunk+uintptr(iStart), uint64(i-iStart), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer((*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer((*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpBuf)).Fn), 0))
*(*int32)(unsafe.Pointer((*PoslistCallbackCtx)(unsafe.Pointer(pCtx)).FpBuf + 8)) += i - iStart
}
iStart = i
}
}
}
}
}
}
func fts5ChunkIterate(tls *libc.TLS, p uintptr, pSeg uintptr, pCtx uintptr, xChunk uintptr) {
var nRem int32 = (*Fts5SegIter)(unsafe.Pointer(pSeg)).FnPos
var pData uintptr = uintptr(0)
var pChunk uintptr = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf)).Fp + uintptr((*Fts5SegIter)(unsafe.Pointer(pSeg)).FiLeafOffset)
var nChunk int32 = func() int32 {
if I64(nRem) < I64((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf)).FszLeaf)-(*Fts5SegIter)(unsafe.Pointer(pSeg)).FiLeafOffset {
return nRem
}
return int32(I64((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf)).FszLeaf) - (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiLeafOffset)
}()
var pgno int32 = (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiLeafPgno
var pgnoSave int32 = 0
if (*Fts5SegIter)(unsafe.Pointer(pSeg)).Fflags&FTS5_SEGITER_REVERSE == 0 {
pgnoSave = pgno + 1
}
for 1 != 0 {
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32)
})(unsafe.Pointer(&struct{ uintptr }{xChunk})).f(tls, p, pCtx, pChunk, nChunk)
nRem = nRem - nChunk
fts5DataRelease(tls, pData)
if nRem <= 0 {
break
} else if (*Fts5SegIter)(unsafe.Pointer(pSeg)).FpSeg == uintptr(0) {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
return
} else {
pgno++
pData = fts5LeafRead(tls, p, I64((*Fts5StructureSegment)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpSeg)).FiSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B)+int64(0)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B)+int64(0)<<FTS5_DATA_PAGE_B+I64(pgno))
if pData == uintptr(0) {
break
}
pChunk = (*Fts5Data)(unsafe.Pointer(pData)).Fp + 4
nChunk = func() int32 {
if nRem < (*Fts5Data)(unsafe.Pointer(pData)).FszLeaf-4 {
return nRem
}
return (*Fts5Data)(unsafe.Pointer(pData)).FszLeaf - 4
}()
if pgno == pgnoSave {
(*Fts5SegIter)(unsafe.Pointer(pSeg)).FpNextLeaf = pData
pData = uintptr(0)
}
}
}
}
func fts5SegiterPoslist(tls *libc.TLS, p uintptr, pSeg uintptr, pColset uintptr, pBuf uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
if 0 == func() int32 {
if U32((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn)+U32((*Fts5SegIter)(unsafe.Pointer(pSeg)).FnPos+FTS5_DATA_ZERO_PADDING) <= U32((*Fts5Buffer)(unsafe.Pointer(pBuf)).FnSpace) {
return 0
}
return sqlite3Fts5BufferSize(tls, p+52, pBuf, uint32((*Fts5SegIter)(unsafe.Pointer(pSeg)).FnPos+FTS5_DATA_ZERO_PADDING+(*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn))
}() {
libc.X__builtin___memset_chk(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn+(*Fts5SegIter)(unsafe.Pointer(pSeg)).FnPos), 0, uint64(FTS5_DATA_ZERO_PADDING), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn+(*Fts5SegIter)(unsafe.Pointer(pSeg)).FnPos), 0))
if pColset == uintptr(0) {
fts5ChunkIterate(tls, p, pSeg, pBuf, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32)
}{fts5PoslistCallback})))
} else {
if (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FeDetail == FTS5_DETAIL_FULL {
(*PoslistCallbackCtx)(unsafe.Pointer(bp)).FpBuf = pBuf
(*PoslistCallbackCtx)(unsafe.Pointer(bp)).FpColset = pColset
(*PoslistCallbackCtx)(unsafe.Pointer(bp)).FeState = fts5IndexColsetTest(tls, pColset, 0)
fts5ChunkIterate(tls, p, pSeg, bp, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32)
}{fts5PoslistFilterCallback})))
} else {
libc.X__builtin___memset_chk(tls, bp+24, 0, uint64(unsafe.Sizeof(PoslistOffsetsCtx{})), libc.X__builtin_object_size(tls, bp+24, 0))
(*PoslistOffsetsCtx)(unsafe.Pointer(bp + 24)).FpBuf = pBuf
(*PoslistOffsetsCtx)(unsafe.Pointer(bp + 24)).FpColset = pColset
fts5ChunkIterate(tls, p, pSeg, bp+24, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32)
}{fts5PoslistOffsetsCallback})))
}
}
}
}
func fts5IndexExtractColset(tls *libc.TLS, pRc uintptr, pColset uintptr, pPos uintptr, nPos int32, pIter uintptr) {
bp := tls.Alloc(4)
defer tls.Free(4)
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK {
var p uintptr = pPos
var aCopy uintptr = p
var pEnd uintptr = p + uintptr(nPos)
var i int32 = 0
*(*int32)(unsafe.Pointer(bp)) = 0
if (*Fts5Colset)(unsafe.Pointer(pColset)).FnCol > 1 && sqlite3Fts5BufferSize(tls, pRc, pIter+32, uint32(nPos)) != 0 {
return
}
for 1 != 0 {
for *(*int32)(unsafe.Pointer(pColset + 4 + uintptr(i)*4)) < *(*int32)(unsafe.Pointer(bp)) {
i++
if i == (*Fts5Colset)(unsafe.Pointer(pColset)).FnCol {
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FpData = (*Fts5Iter)(unsafe.Pointer(pIter)).Fposlist.Fp
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FnData = (*Fts5Iter)(unsafe.Pointer(pIter)).Fposlist.Fn
return
}
}
for p < pEnd && int32(*(*U8)(unsafe.Pointer(p))) != 0x01 {
for int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&p, 1))))&0x80 != 0 {
}
}
if *(*int32)(unsafe.Pointer(pColset + 4 + uintptr(i)*4)) == *(*int32)(unsafe.Pointer(bp)) {
if (*Fts5Colset)(unsafe.Pointer(pColset)).FnCol == 1 {
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FpData = aCopy
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FnData = int32((int64(p) - int64(aCopy)) / 1)
return
}
{
libc.X__builtin___memcpy_chk(tls, (*Fts5Buffer)(unsafe.Pointer(pIter+32)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pIter+32)).Fn), aCopy, uint64((int64(p)-int64(aCopy))/1), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer(pIter+32)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pIter+32)).Fn), 0))
*(*int32)(unsafe.Pointer(pIter + 32 + 8)) += int32((int64(p) - int64(aCopy)) / 1)
}
}
if p >= pEnd {
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FpData = (*Fts5Iter)(unsafe.Pointer(pIter)).Fposlist.Fp
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FnData = (*Fts5Iter)(unsafe.Pointer(pIter)).Fposlist.Fn
return
}
aCopy = libc.PostIncUintptr(&p, 1)
*(*int32)(unsafe.Pointer(bp)) = int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&p, 1))))
if *(*int32)(unsafe.Pointer(bp))&0x80 != 0 {
p--
p += uintptr(sqlite3Fts5GetVarint32(tls, p, bp))
}
}
}
}
func fts5IterSetOutputs_None(tls *libc.TLS, pIter uintptr, pSeg uintptr) {
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FiRowid = (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiRowid
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FnData = (*Fts5SegIter)(unsafe.Pointer(pSeg)).FnPos
}
func fts5IterSetOutputs_Nocolset(tls *libc.TLS, pIter uintptr, pSeg uintptr) {
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FiRowid = (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiRowid
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FnData = (*Fts5SegIter)(unsafe.Pointer(pSeg)).FnPos
if (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiLeafOffset+I64((*Fts5SegIter)(unsafe.Pointer(pSeg)).FnPos) <= I64((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf)).FszLeaf) {
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FpData = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf)).Fp + uintptr((*Fts5SegIter)(unsafe.Pointer(pSeg)).FiLeafOffset)
} else {
sqlite3Fts5BufferZero(tls, pIter+32)
fts5SegiterPoslist(tls, (*Fts5Iter)(unsafe.Pointer(pIter)).FpIndex, pSeg, uintptr(0), pIter+32)
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FpData = (*Fts5Iter)(unsafe.Pointer(pIter)).Fposlist.Fp
}
}
func fts5IterSetOutputs_ZeroColset(tls *libc.TLS, pIter uintptr, pSeg uintptr) {
_ = pSeg
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FnData = 0
}
func fts5IterSetOutputs_Col(tls *libc.TLS, pIter uintptr, pSeg uintptr) {
sqlite3Fts5BufferZero(tls, pIter+32)
fts5SegiterPoslist(tls, (*Fts5Iter)(unsafe.Pointer(pIter)).FpIndex, pSeg, (*Fts5Iter)(unsafe.Pointer(pIter)).FpColset, pIter+32)
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FiRowid = (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiRowid
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FpData = (*Fts5Iter)(unsafe.Pointer(pIter)).Fposlist.Fp
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FnData = (*Fts5Iter)(unsafe.Pointer(pIter)).Fposlist.Fn
}
func fts5IterSetOutputs_Col100(tls *libc.TLS, pIter uintptr, pSeg uintptr) {
var a uintptr
var pEnd uintptr
var iPrev int32
var aiCol uintptr
var aiColEnd uintptr
var aOut uintptr
var iPrevOut int32
if !((*Fts5SegIter)(unsafe.Pointer(pSeg)).FiLeafOffset+I64((*Fts5SegIter)(unsafe.Pointer(pSeg)).FnPos) > I64((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf)).FszLeaf)) {
goto __1
}
fts5IterSetOutputs_Col(tls, pIter, pSeg)
goto __2
__1:
a = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf)).Fp + uintptr((*Fts5SegIter)(unsafe.Pointer(pSeg)).FiLeafOffset)
pEnd = a + uintptr((*Fts5SegIter)(unsafe.Pointer(pSeg)).FnPos)
iPrev = 0
aiCol = (*Fts5Iter)(unsafe.Pointer(pIter)).FpColset + 4
aiColEnd = aiCol + uintptr((*Fts5Colset)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pIter)).FpColset)).FnCol)*4
aOut = (*Fts5Iter)(unsafe.Pointer(pIter)).Fposlist.Fp
iPrevOut = 0
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FiRowid = (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiRowid
__3:
if !(a < pEnd) {
goto __4
}
iPrev = iPrev + (int32(*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&a, 1)))) - 2)
__5:
if !(*(*int32)(unsafe.Pointer(aiCol)) < iPrev) {
goto __6
}
aiCol += 4
if !(aiCol == aiColEnd) {
goto __7
}
goto setoutputs_col_out
__7:
;
goto __5
__6:
;
if !(*(*int32)(unsafe.Pointer(aiCol)) == iPrev) {
goto __8
}
*(*U8)(unsafe.Pointer(libc.PostIncUintptr(&aOut, 1))) = U8(iPrev - iPrevOut + 2)
iPrevOut = iPrev
__8:
;
goto __3
__4:
;
setoutputs_col_out:
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FpData = (*Fts5Iter)(unsafe.Pointer(pIter)).Fposlist.Fp
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FnData = int32((int64(aOut) - int64((*Fts5Iter)(unsafe.Pointer(pIter)).Fposlist.Fp)) / 1)
__2:
}
func fts5IterSetOutputs_Full(tls *libc.TLS, pIter uintptr, pSeg uintptr) {
var pColset uintptr = (*Fts5Iter)(unsafe.Pointer(pIter)).FpColset
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FiRowid = (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiRowid
if (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiLeafOffset+I64((*Fts5SegIter)(unsafe.Pointer(pSeg)).FnPos) <= I64((*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf)).FszLeaf) {
var a uintptr = (*Fts5Data)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf)).Fp + uintptr((*Fts5SegIter)(unsafe.Pointer(pSeg)).FiLeafOffset)
var pRc uintptr = (*Fts5Iter)(unsafe.Pointer(pIter)).FpIndex + 52
sqlite3Fts5BufferZero(tls, pIter+32)
fts5IndexExtractColset(tls, pRc, pColset, a, (*Fts5SegIter)(unsafe.Pointer(pSeg)).FnPos, pIter)
} else {
sqlite3Fts5BufferZero(tls, pIter+32)
fts5SegiterPoslist(tls, (*Fts5Iter)(unsafe.Pointer(pIter)).FpIndex, pSeg, pColset, pIter+32)
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FpData = (*Fts5Iter)(unsafe.Pointer(pIter)).Fposlist.Fp
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FnData = (*Fts5Iter)(unsafe.Pointer(pIter)).Fposlist.Fn
}
}
func fts5IterSetOutputCb(tls *libc.TLS, pRc uintptr, pIter uintptr) {
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK {
var pConfig uintptr = (*Fts5Index)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pIter)).FpIndex)).FpConfig
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeDetail == FTS5_DETAIL_NONE {
(*Fts5Iter)(unsafe.Pointer(pIter)).FxSetOutputs = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{fts5IterSetOutputs_None}))
} else if (*Fts5Iter)(unsafe.Pointer(pIter)).FpColset == uintptr(0) {
(*Fts5Iter)(unsafe.Pointer(pIter)).FxSetOutputs = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{fts5IterSetOutputs_Nocolset}))
} else if (*Fts5Colset)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pIter)).FpColset)).FnCol == 0 {
(*Fts5Iter)(unsafe.Pointer(pIter)).FxSetOutputs = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{fts5IterSetOutputs_ZeroColset}))
} else if (*Fts5Config)(unsafe.Pointer(pConfig)).FeDetail == FTS5_DETAIL_FULL {
(*Fts5Iter)(unsafe.Pointer(pIter)).FxSetOutputs = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{fts5IterSetOutputs_Full}))
} else {
if (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol <= 100 {
(*Fts5Iter)(unsafe.Pointer(pIter)).FxSetOutputs = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{fts5IterSetOutputs_Col100}))
sqlite3Fts5BufferSize(tls, pRc, pIter+32, uint32((*Fts5Config)(unsafe.Pointer(pConfig)).FnCol))
} else {
(*Fts5Iter)(unsafe.Pointer(pIter)).FxSetOutputs = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr)
}{fts5IterSetOutputs_Col}))
}
}
}
}
func fts5MultiIterNew(tls *libc.TLS, p uintptr, pStruct uintptr, flags int32, pColset uintptr, pTerm uintptr, nTerm int32, iLevel int32, nSegment int32, ppOut uintptr) {
var nSeg int32
var iIter int32
var iSeg int32
var pLvl uintptr
var pNew uintptr
var pIter uintptr
var pSeg uintptr
var pIter1 uintptr
var pEnd uintptr
var pSeg1 uintptr
var iEq int32
var pSeg2 uintptr
nSeg = 0
iIter = 0
if !((*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK) {
goto __1
}
if !(iLevel < 0) {
goto __2
}
nSeg = (*Fts5Structure)(unsafe.Pointer(pStruct)).FnSegment
nSeg = nSeg + func() int32 {
if (*Fts5Index)(unsafe.Pointer(p)).FpHash != 0 {
return 1
}
return 0
}()
goto __3
__2:
nSeg = func() int32 {
if (*Fts5StructureLevel)(unsafe.Pointer(pStruct+24+uintptr(iLevel)*16)).FnSeg < nSegment {
return (*Fts5StructureLevel)(unsafe.Pointer(pStruct + 24 + uintptr(iLevel)*16)).FnSeg
}
return nSegment
}()
__3:
;
__1:
;
*(*uintptr)(unsafe.Pointer(ppOut)) = libc.AssignUintptr(&pNew, fts5MultiIterAlloc(tls, p, nSeg))
if !(pNew == uintptr(0)) {
goto __4
}
goto fts5MultiIterNew_post_check
__4:
;
(*Fts5Iter)(unsafe.Pointer(pNew)).FbRev = libc.Bool32(0 != flags&FTS5INDEX_QUERY_DESC)
(*Fts5Iter)(unsafe.Pointer(pNew)).FbSkipEmpty = U8(libc.Bool32(0 != flags&FTS5INDEX_QUERY_SKIPEMPTY))
(*Fts5Iter)(unsafe.Pointer(pNew)).FpColset = pColset
if !(flags&FTS5INDEX_QUERY_NOOUTPUT == 0) {
goto __5
}
fts5IterSetOutputCb(tls, p+52, pNew)
__5:
;
if !((*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK) {
goto __6
}
if !(iLevel < 0) {
goto __7
}
pEnd = pStruct + 24 + uintptr((*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel)*16
if !((*Fts5Index)(unsafe.Pointer(p)).FpHash != 0) {
goto __9
}
pIter = pNew + 96 + uintptr(libc.PostIncInt32(&iIter, 1))*120
fts5SegIterHashInit(tls, p, pTerm, nTerm, flags, pIter)
__9:
;
pLvl = pStruct + 24
__10:
if !(pLvl < pEnd) {
goto __12
}
iSeg = (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg - 1
__13:
if !(iSeg >= 0) {
goto __15
}
pSeg = (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg + uintptr(iSeg)*12
pIter1 = pNew + 96 + uintptr(libc.PostIncInt32(&iIter, 1))*120
if !(pTerm == uintptr(0)) {
goto __16
}
fts5SegIterInit(tls, p, pSeg, pIter1)
goto __17
__16:
fts5SegIterSeekInit(tls, p, pTerm, nTerm, flags, pSeg, pIter1)
__17:
;
goto __14
__14:
iSeg--
goto __13
goto __15
__15:
;
goto __11
__11:
pLvl += 16
goto __10
goto __12
__12:
;
goto __8
__7:
pLvl = pStruct + 24 + uintptr(iLevel)*16
iSeg = nSeg - 1
__18:
if !(iSeg >= 0) {
goto __20
}
fts5SegIterInit(tls, p, (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg+uintptr(iSeg)*12, pNew+96+uintptr(libc.PostIncInt32(&iIter, 1))*120)
goto __19
__19:
iSeg--
goto __18
goto __20
__20:
;
__8:
;
__6:
;
if !((*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK) {
goto __21
}
iIter = (*Fts5Iter)(unsafe.Pointer(pNew)).FnSeg - 1
__23:
if !(iIter > 0) {
goto __25
}
if !(libc.AssignInt32(&iEq, fts5MultiIterDoCompare(tls, pNew, iIter)) != 0) {
goto __26
}
pSeg1 = pNew + 96 + uintptr(iEq)*120
if !((*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK) {
goto __27
}
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5SegIter)(unsafe.Pointer(pSeg1)).FxNext})).f(tls, p, pSeg1, uintptr(0))
__27:
;
fts5MultiIterAdvanced(tls, p, pNew, iEq, iIter)
__26:
;
goto __24
__24:
iIter--
goto __23
goto __25
__25:
;
fts5MultiIterSetEof(tls, pNew)
if !((*Fts5Iter)(unsafe.Pointer(pNew)).FbSkipEmpty != 0 && fts5MultiIterIsEmpty(tls, p, pNew) != 0) {
goto __28
}
fts5MultiIterNext(tls, p, pNew, 0, int64(0))
goto __29
__28:
if !(int32((*Fts5Iter)(unsafe.Pointer(pNew)).Fbase.FbEof) == 0) {
goto __30
}
pSeg2 = pNew + 96 + uintptr((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pNew)).FaFirst+1*4)).FiFirst)*120
(*struct {
f func(*libc.TLS, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5Iter)(unsafe.Pointer(pNew)).FxSetOutputs})).f(tls, pNew, pSeg2)
__30:
;
__29:
;
goto __22
__21:
fts5MultiIterFree(tls, pNew)
*(*uintptr)(unsafe.Pointer(ppOut)) = uintptr(0)
__22:
;
fts5MultiIterNew_post_check:
;
return
}
func fts5MultiIterNew2(tls *libc.TLS, p uintptr, pData uintptr, bDesc int32, ppOut uintptr) {
var pNew uintptr
pNew = fts5MultiIterAlloc(tls, p, 2)
if pNew != 0 {
var pIter uintptr = pNew + 96 + 1*120
(*Fts5SegIter)(unsafe.Pointer(pIter)).Fflags = FTS5_SEGITER_ONETERM
if (*Fts5Data)(unsafe.Pointer(pData)).FszLeaf > 0 {
(*Fts5SegIter)(unsafe.Pointer(pIter)).FpLeaf = pData
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiLeafOffset = I64(sqlite3Fts5GetVarint(tls, (*Fts5Data)(unsafe.Pointer(pData)).Fp, pIter+104))
(*Fts5SegIter)(unsafe.Pointer(pIter)).FiEndofDoclist = (*Fts5Data)(unsafe.Pointer(pData)).Fnn
(*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pNew)).FaFirst + 1*4)).FiFirst = U16(1)
if bDesc != 0 {
(*Fts5Iter)(unsafe.Pointer(pNew)).FbRev = 1
*(*int32)(unsafe.Pointer(pIter + 8)) |= FTS5_SEGITER_REVERSE
fts5SegIterReverseInitPage(tls, p, pIter)
} else {
fts5SegIterLoadNPos(tls, p, pIter)
}
pData = uintptr(0)
} else {
(*Fts5Iter)(unsafe.Pointer(pNew)).Fbase.FbEof = U8(1)
}
fts5SegIterSetNext(tls, p, pIter)
*(*uintptr)(unsafe.Pointer(ppOut)) = pNew
}
fts5DataRelease(tls, pData)
}
func fts5MultiIterEof(tls *libc.TLS, p uintptr, pIter uintptr) int32 {
return libc.Bool32((*Fts5Index)(unsafe.Pointer(p)).Frc != 0 || (*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FbEof != 0)
}
func fts5MultiIterRowid(tls *libc.TLS, pIter uintptr) I64 {
return (*Fts5SegIter)(unsafe.Pointer(pIter + 96 + uintptr((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pIter)).FaFirst+1*4)).FiFirst)*120)).FiRowid
}
func fts5MultiIterNextFrom(tls *libc.TLS, p uintptr, pIter uintptr, iMatch I64) {
for 1 != 0 {
var iRowid I64
fts5MultiIterNext(tls, p, pIter, 1, iMatch)
if fts5MultiIterEof(tls, p, pIter) != 0 {
break
}
iRowid = fts5MultiIterRowid(tls, pIter)
if (*Fts5Iter)(unsafe.Pointer(pIter)).FbRev == 0 && iRowid >= iMatch {
break
}
if (*Fts5Iter)(unsafe.Pointer(pIter)).FbRev != 0 && iRowid <= iMatch {
break
}
}
}
func fts5MultiIterTerm(tls *libc.TLS, pIter uintptr, pn uintptr) uintptr {
var p uintptr = pIter + 96 + uintptr((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pIter)).FaFirst+1*4)).FiFirst)*120
*(*int32)(unsafe.Pointer(pn)) = (*Fts5SegIter)(unsafe.Pointer(p)).Fterm.Fn
return (*Fts5SegIter)(unsafe.Pointer(p)).Fterm.Fp
}
func fts5AllocateSegid(tls *libc.TLS, p uintptr, pStruct uintptr) int32 {
bp := tls.Alloc(252)
defer tls.Free(252)
var iSegid int32 = 0
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
if (*Fts5Structure)(unsafe.Pointer(pStruct)).FnSegment >= FTS5_MAX_SEGMENT {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_FULL
} else {
var iLvl int32
var iSeg int32
var i int32
var mask U32
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof([63]U32{})), libc.X__builtin_object_size(tls, bp, 0))
for iLvl = 0; iLvl < (*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel; iLvl++ {
for iSeg = 0; iSeg < (*Fts5StructureLevel)(unsafe.Pointer(pStruct+24+uintptr(iLvl)*16)).FnSeg; iSeg++ {
var iId int32 = (*Fts5StructureSegment)(unsafe.Pointer((*Fts5StructureLevel)(unsafe.Pointer(pStruct+24+uintptr(iLvl)*16)).FaSeg + uintptr(iSeg)*12)).FiSegid
if iId <= FTS5_MAX_SEGMENT && iId > 0 {
*(*U32)(unsafe.Pointer(bp + uintptr((iId-1)/32)*4)) |= U32(1) << ((iId - 1) % 32)
}
}
}
for i = 0; *(*U32)(unsafe.Pointer(bp + uintptr(i)*4)) == 0xFFFFFFFF; i++ {
}
mask = *(*U32)(unsafe.Pointer(bp + uintptr(i)*4))
for iSegid = 0; mask&(U32(1)<<iSegid) != 0; iSegid++ {
}
iSegid = iSegid + (1 + i*32)
}
}
return iSegid
}
func fts5IndexDiscardData(tls *libc.TLS, p uintptr) {
if (*Fts5Index)(unsafe.Pointer(p)).FpHash != 0 {
sqlite3Fts5HashClear(tls, (*Fts5Index)(unsafe.Pointer(p)).FpHash)
(*Fts5Index)(unsafe.Pointer(p)).FnPendingData = 0
}
}
func fts5PrefixCompress(tls *libc.TLS, nOld int32, pOld uintptr, pNew uintptr) int32 {
var i int32
for i = 0; i < nOld; i++ {
if int32(*(*U8)(unsafe.Pointer(pOld + uintptr(i)))) != int32(*(*U8)(unsafe.Pointer(pNew + uintptr(i)))) {
break
}
}
return i
}
func fts5WriteDlidxClear(tls *libc.TLS, p uintptr, pWriter uintptr, bFlush int32) {
var i int32
for i = 0; i < (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FnDlidx; i++ {
var pDlidx uintptr = (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FaDlidx + uintptr(i)*32
if (*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).Fbuf.Fn == 0 {
break
}
if bFlush != 0 {
fts5DataWrite(tls, p,
I64((*Fts5SegWriter)(unsafe.Pointer(pWriter)).FiSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B)+int64(1)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B)+I64(i)<<FTS5_DATA_PAGE_B+I64((*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).Fpgno),
(*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).Fbuf.Fp, (*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).Fbuf.Fn)
}
sqlite3Fts5BufferZero(tls, pDlidx+16)
(*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).FbPrevValid = 0
}
}
func fts5WriteDlidxGrow(tls *libc.TLS, p uintptr, pWriter uintptr, nLvl int32) int32 {
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && nLvl >= (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FnDlidx {
var aDlidx uintptr = Xsqlite3_realloc64(tls,
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FaDlidx, uint64(unsafe.Sizeof(Fts5DlidxWriter{}))*uint64(nLvl))
if aDlidx == uintptr(0) {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_NOMEM
} else {
var nByte Size_t = uint64(unsafe.Sizeof(Fts5DlidxWriter{})) * uint64(nLvl-(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FnDlidx)
libc.X__builtin___memset_chk(tls, aDlidx+uintptr((*Fts5SegWriter)(unsafe.Pointer(pWriter)).FnDlidx)*32, 0, nByte, libc.X__builtin_object_size(tls, aDlidx+uintptr((*Fts5SegWriter)(unsafe.Pointer(pWriter)).FnDlidx)*32, 0))
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FaDlidx = aDlidx
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FnDlidx = nLvl
}
}
return (*Fts5Index)(unsafe.Pointer(p)).Frc
}
func fts5WriteFlushDlidx(tls *libc.TLS, p uintptr, pWriter uintptr) int32 {
var bFlag int32 = 0
if (*Fts5DlidxWriter)(unsafe.Pointer((*Fts5SegWriter)(unsafe.Pointer(pWriter)).FaDlidx)).Fbuf.Fn > 0 && (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FnEmpty >= FTS5_MIN_DLIDX_SIZE {
bFlag = 1
}
fts5WriteDlidxClear(tls, p, pWriter, bFlag)
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FnEmpty = 0
return bFlag
}
func fts5WriteFlushBtree(tls *libc.TLS, p uintptr, pWriter uintptr) {
var bFlag int32
if (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FiBtPage == 0 {
return
}
bFlag = fts5WriteFlushDlidx(tls, p, pWriter)
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var z uintptr = func() uintptr {
if (*Fts5SegWriter)(unsafe.Pointer(pWriter)).Fbtterm.Fn > 0 {
return (*Fts5SegWriter)(unsafe.Pointer(pWriter)).Fbtterm.Fp
}
return ts + 1547
}()
Xsqlite3_bind_blob(tls, (*Fts5Index)(unsafe.Pointer(p)).FpIdxWriter, 2, z, (*Fts5SegWriter)(unsafe.Pointer(pWriter)).Fbtterm.Fn, uintptr(0))
Xsqlite3_bind_int64(tls, (*Fts5Index)(unsafe.Pointer(p)).FpIdxWriter, 3, I64(bFlag)+I64((*Fts5SegWriter)(unsafe.Pointer(pWriter)).FiBtPage)<<1)
Xsqlite3_step(tls, (*Fts5Index)(unsafe.Pointer(p)).FpIdxWriter)
(*Fts5Index)(unsafe.Pointer(p)).Frc = Xsqlite3_reset(tls, (*Fts5Index)(unsafe.Pointer(p)).FpIdxWriter)
Xsqlite3_bind_null(tls, (*Fts5Index)(unsafe.Pointer(p)).FpIdxWriter, 2)
}
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FiBtPage = 0
}
func fts5WriteBtreeTerm(tls *libc.TLS, p uintptr, pWriter uintptr, nTerm int32, pTerm uintptr) {
fts5WriteFlushBtree(tls, p, pWriter)
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
sqlite3Fts5BufferSet(tls, p+52, pWriter+96, nTerm, pTerm)
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FiBtPage = (*Fts5SegWriter)(unsafe.Pointer(pWriter)).Fwriter.Fpgno
}
}
func fts5WriteBtreeNoTerm(tls *libc.TLS, p uintptr, pWriter uintptr) {
if (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FbFirstRowidInPage != 0 && (*Fts5DlidxWriter)(unsafe.Pointer((*Fts5SegWriter)(unsafe.Pointer(pWriter)).FaDlidx)).Fbuf.Fn > 0 {
var pDlidx uintptr = (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FaDlidx
sqlite3Fts5BufferAppendVarint(tls, p+52, pDlidx+16, int64(0))
}
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FnEmpty++
}
func fts5DlidxExtractFirstRowid(tls *libc.TLS, pBuf uintptr) I64 {
bp := tls.Alloc(8)
defer tls.Free(8)
var iOff int32
iOff = 1 + int32(sqlite3Fts5GetVarint(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+1, bp))
sqlite3Fts5GetVarint(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr(iOff), bp)
return *(*I64)(unsafe.Pointer(bp))
}
func fts5WriteDlidxAppend(tls *libc.TLS, p uintptr, pWriter uintptr, iRowid I64) {
var i int32
var bDone int32 = 0
for i = 0; (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && bDone == 0; i++ {
var iVal I64
var pDlidx uintptr = (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FaDlidx + uintptr(i)*32
if (*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).Fbuf.Fn >= (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).Fpgsz {
*(*U8)(unsafe.Pointer((*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).Fbuf.Fp)) = U8(0x01)
fts5DataWrite(tls, p,
I64((*Fts5SegWriter)(unsafe.Pointer(pWriter)).FiSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B)+int64(1)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B)+I64(i)<<FTS5_DATA_PAGE_B+I64((*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).Fpgno),
(*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).Fbuf.Fp, (*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).Fbuf.Fn)
fts5WriteDlidxGrow(tls, p, pWriter, i+2)
pDlidx = (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FaDlidx + uintptr(i)*32
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Fts5DlidxWriter)(unsafe.Pointer(pDlidx+1*32)).Fbuf.Fn == 0 {
var iFirst I64 = fts5DlidxExtractFirstRowid(tls, pDlidx+16)
(*Fts5DlidxWriter)(unsafe.Pointer(pDlidx + 1*32)).Fpgno = (*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).Fpgno
sqlite3Fts5BufferAppendVarint(tls, p+52, pDlidx+1*32+16, int64(0))
sqlite3Fts5BufferAppendVarint(tls, p+52, pDlidx+1*32+16, int64((*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).Fpgno))
sqlite3Fts5BufferAppendVarint(tls, p+52, pDlidx+1*32+16, iFirst)
(*Fts5DlidxWriter)(unsafe.Pointer(pDlidx + 1*32)).FbPrevValid = 1
(*Fts5DlidxWriter)(unsafe.Pointer(pDlidx + 1*32)).FiPrev = iFirst
}
sqlite3Fts5BufferZero(tls, pDlidx+16)
(*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).FbPrevValid = 0
(*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).Fpgno++
} else {
bDone = 1
}
if (*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).FbPrevValid != 0 {
iVal = iRowid - (*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).FiPrev
} else {
var iPgno I64 = func() int64 {
if i == 0 {
return int64((*Fts5SegWriter)(unsafe.Pointer(pWriter)).Fwriter.Fpgno)
}
return int64((*Fts5DlidxWriter)(unsafe.Pointer(pDlidx + libc.UintptrFromInt32(-1)*32)).Fpgno)
}()
sqlite3Fts5BufferAppendVarint(tls, p+52, pDlidx+16, libc.BoolInt64(!(bDone != 0)))
sqlite3Fts5BufferAppendVarint(tls, p+52, pDlidx+16, iPgno)
iVal = iRowid
}
sqlite3Fts5BufferAppendVarint(tls, p+52, pDlidx+16, iVal)
(*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).FbPrevValid = 1
(*Fts5DlidxWriter)(unsafe.Pointer(pDlidx)).FiPrev = iRowid
}
}
func fts5WriteFlushLeaf(tls *libc.TLS, p uintptr, pWriter uintptr) {
var pPage uintptr = pWriter + 8
var iRowid I64
fts5PutU16(tls, (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fbuf.Fp+2, U16((*Fts5PageWriter)(unsafe.Pointer(pPage)).Fbuf.Fn))
if (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FbFirstTermInPage != 0 {
fts5WriteBtreeNoTerm(tls, p, pWriter)
} else {
sqlite3Fts5BufferAppendBlob(tls, p+52, pPage+8, uint32((*Fts5PageWriter)(unsafe.Pointer(pPage)).Fpgidx.Fn), (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fpgidx.Fp)
}
iRowid = I64((*Fts5SegWriter)(unsafe.Pointer(pWriter)).FiSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B) + int64(0)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B) + int64(0)<<FTS5_DATA_PAGE_B + I64((*Fts5PageWriter)(unsafe.Pointer(pPage)).Fpgno)
fts5DataWrite(tls, p, iRowid, (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fbuf.Fp, (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fbuf.Fn)
sqlite3Fts5BufferZero(tls, pPage+8)
sqlite3Fts5BufferZero(tls, pPage+24)
sqlite3Fts5BufferAppendBlob(tls, p+52, pPage+8, uint32(4), uintptr(unsafe.Pointer(&zero)))
(*Fts5PageWriter)(unsafe.Pointer(pPage)).FiPrevPgidx = 0
(*Fts5PageWriter)(unsafe.Pointer(pPage)).Fpgno++
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FnLeafWritten++
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FbFirstTermInPage = U8(1)
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FbFirstRowidInPage = U8(1)
}
var zero = [4]U8{U8(0x00), U8(0x00), U8(0x00), U8(0x00)}
func fts5WriteAppendTerm(tls *libc.TLS, p uintptr, pWriter uintptr, nTerm int32, pTerm uintptr) {
var nPrefix int32
var pPage uintptr = pWriter + 8
var pPgidx uintptr = pWriter + 8 + 24
var nMin int32 = func() int32 {
if (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fterm.Fn < nTerm {
return (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fterm.Fn
}
return nTerm
}()
if (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fbuf.Fn+(*Fts5Buffer)(unsafe.Pointer(pPgidx)).Fn+nTerm+2 >= (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).Fpgsz {
if (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fbuf.Fn > 4 {
fts5WriteFlushLeaf(tls, p, pWriter)
if (*Fts5Index)(unsafe.Pointer(p)).Frc != SQLITE_OK {
return
}
}
if !(U32((*Fts5Buffer)(unsafe.Pointer(pPage+8)).Fn)+U32(nTerm+FTS5_DATA_PADDING) <= U32((*Fts5Buffer)(unsafe.Pointer(pPage+8)).FnSpace)) {
sqlite3Fts5BufferSize(tls, p+52, pPage+8, uint32(nTerm+FTS5_DATA_PADDING+(*Fts5Buffer)(unsafe.Pointer(pPage+8)).Fn))
}
}
*(*int32)(unsafe.Pointer(pPgidx + 8)) += sqlite3Fts5PutVarint(tls,
(*Fts5Buffer)(unsafe.Pointer(pPgidx)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pPgidx)).Fn), uint64((*Fts5PageWriter)(unsafe.Pointer(pPage)).Fbuf.Fn-(*Fts5PageWriter)(unsafe.Pointer(pPage)).FiPrevPgidx))
(*Fts5PageWriter)(unsafe.Pointer(pPage)).FiPrevPgidx = (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fbuf.Fn
if (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FbFirstTermInPage != 0 {
nPrefix = 0
if (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fpgno != 1 {
var n int32 = nTerm
if (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fterm.Fn != 0 {
n = 1 + fts5PrefixCompress(tls, nMin, (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fterm.Fp, pTerm)
}
fts5WriteBtreeTerm(tls, p, pWriter, n, pTerm)
if (*Fts5Index)(unsafe.Pointer(p)).Frc != SQLITE_OK {
return
}
pPage = pWriter + 8
}
} else {
nPrefix = fts5PrefixCompress(tls, nMin, (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fterm.Fp, pTerm)
sqlite3Fts5BufferAppendVarint(tls, p+52, pPage+8, I64(nPrefix))
}
sqlite3Fts5BufferAppendVarint(tls, p+52, pPage+8, I64(nTerm)-I64(nPrefix))
sqlite3Fts5BufferAppendBlob(tls, p+52, pPage+8, uint32(nTerm-nPrefix), pTerm+uintptr(nPrefix))
sqlite3Fts5BufferSet(tls, p+52, pPage+40, nTerm, pTerm)
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FbFirstTermInPage = U8(0)
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FbFirstRowidInPage = U8(0)
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FbFirstRowidInDoclist = U8(1)
(*Fts5DlidxWriter)(unsafe.Pointer((*Fts5SegWriter)(unsafe.Pointer(pWriter)).FaDlidx)).Fpgno = (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fpgno
}
func fts5WriteAppendRowid(tls *libc.TLS, p uintptr, pWriter uintptr, iRowid I64) {
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var pPage uintptr = pWriter + 8
if (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fbuf.Fn+(*Fts5PageWriter)(unsafe.Pointer(pPage)).Fpgidx.Fn >= (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).Fpgsz {
fts5WriteFlushLeaf(tls, p, pWriter)
}
if (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FbFirstRowidInPage != 0 {
fts5PutU16(tls, (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fbuf.Fp, U16((*Fts5PageWriter)(unsafe.Pointer(pPage)).Fbuf.Fn))
fts5WriteDlidxAppend(tls, p, pWriter, iRowid)
}
if (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FbFirstRowidInDoclist != 0 || (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FbFirstRowidInPage != 0 {
sqlite3Fts5BufferAppendVarint(tls, p+52, pPage+8, iRowid)
} else {
sqlite3Fts5BufferAppendVarint(tls, p+52, pPage+8, int64(U64(I64(U64(iRowid)))-U64((*Fts5SegWriter)(unsafe.Pointer(pWriter)).FiPrevRowid)))
}
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FiPrevRowid = iRowid
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FbFirstRowidInDoclist = U8(0)
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FbFirstRowidInPage = U8(0)
}
}
func fts5WriteAppendPoslistData(tls *libc.TLS, p uintptr, pWriter uintptr, aData uintptr, nData int32) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pPage uintptr = pWriter + 8
var a uintptr = aData
var n int32 = nData
for (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK &&
(*Fts5PageWriter)(unsafe.Pointer(pPage)).Fbuf.Fn+(*Fts5PageWriter)(unsafe.Pointer(pPage)).Fpgidx.Fn+n >= (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).Fpgsz {
var nReq int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).Fpgsz - (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fbuf.Fn - (*Fts5PageWriter)(unsafe.Pointer(pPage)).Fpgidx.Fn
var nCopy int32 = 0
for nCopy < nReq {
nCopy = nCopy + int32(sqlite3Fts5GetVarint(tls, a+uintptr(nCopy), bp))
}
sqlite3Fts5BufferAppendBlob(tls, p+52, pPage+8, uint32(nCopy), a)
a += uintptr(nCopy)
n = n - nCopy
fts5WriteFlushLeaf(tls, p, pWriter)
}
if n > 0 {
sqlite3Fts5BufferAppendBlob(tls, p+52, pPage+8, uint32(n), a)
}
}
func fts5WriteFinish(tls *libc.TLS, p uintptr, pWriter uintptr, pnLeaf uintptr) {
var i int32
var pLeaf uintptr = pWriter + 8
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
if (*Fts5PageWriter)(unsafe.Pointer(pLeaf)).Fbuf.Fn > 4 {
fts5WriteFlushLeaf(tls, p, pWriter)
}
*(*int32)(unsafe.Pointer(pnLeaf)) = (*Fts5PageWriter)(unsafe.Pointer(pLeaf)).Fpgno - 1
if (*Fts5PageWriter)(unsafe.Pointer(pLeaf)).Fpgno > 1 {
fts5WriteFlushBtree(tls, p, pWriter)
}
}
sqlite3Fts5BufferFree(tls, pLeaf+40)
sqlite3Fts5BufferFree(tls, pLeaf+8)
sqlite3Fts5BufferFree(tls, pLeaf+24)
sqlite3Fts5BufferFree(tls, pWriter+96)
for i = 0; i < (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FnDlidx; i++ {
sqlite3Fts5BufferFree(tls, (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FaDlidx+uintptr(i)*32+16)
}
Xsqlite3_free(tls, (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FaDlidx)
}
func fts5WriteInit(tls *libc.TLS, p uintptr, pWriter uintptr, iSegid int32) {
bp := tls.Alloc(16)
defer tls.Free(16)
var nBuffer int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).Fpgsz + FTS5_DATA_PADDING
libc.X__builtin___memset_chk(tls, pWriter, 0, uint64(unsafe.Sizeof(Fts5SegWriter{})), libc.X__builtin_object_size(tls, pWriter, 0))
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FiSegid = iSegid
fts5WriteDlidxGrow(tls, p, pWriter, 1)
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).Fwriter.Fpgno = 1
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FbFirstTermInPage = U8(1)
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).FiBtPage = 1
sqlite3Fts5BufferSize(tls, p+52, pWriter+8+24, uint32(nBuffer))
sqlite3Fts5BufferSize(tls, p+52, pWriter+8+8, uint32(nBuffer))
if (*Fts5Index)(unsafe.Pointer(p)).FpIdxWriter == uintptr(0) {
var pConfig uintptr = (*Fts5Index)(unsafe.Pointer(p)).FpConfig
fts5IndexPrepareStmt(tls, p, p+80, Xsqlite3_mprintf(tls,
ts+35532,
libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName)))
}
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
libc.X__builtin___memset_chk(tls, (*Fts5SegWriter)(unsafe.Pointer(pWriter)).Fwriter.Fbuf.Fp, 0, uint64(4), libc.X__builtin_object_size(tls, (*Fts5SegWriter)(unsafe.Pointer(pWriter)).Fwriter.Fbuf.Fp, 0))
(*Fts5SegWriter)(unsafe.Pointer(pWriter)).Fwriter.Fbuf.Fn = 4
Xsqlite3_bind_int(tls, (*Fts5Index)(unsafe.Pointer(p)).FpIdxWriter, 1, (*Fts5SegWriter)(unsafe.Pointer(pWriter)).FiSegid)
}
}
func fts5TrimSegments(tls *libc.TLS, p uintptr, pIter uintptr) {
bp := tls.Alloc(20)
defer tls.Free(20)
var i int32
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Fts5Buffer{})), libc.X__builtin_object_size(tls, bp, 0))
for i = 0; i < (*Fts5Iter)(unsafe.Pointer(pIter)).FnSeg && (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK; i++ {
var pSeg uintptr = pIter + 96 + uintptr(i)*120
if (*Fts5SegIter)(unsafe.Pointer(pSeg)).FpSeg == uintptr(0) {
} else if (*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf == uintptr(0) {
(*Fts5StructureSegment)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpSeg)).FpgnoLast = 0
(*Fts5StructureSegment)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpSeg)).FpgnoFirst = 0
} else {
var iOff int32 = (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiTermLeafOffset
var iLeafRowid I64
var pData uintptr
var iId int32 = (*Fts5StructureSegment)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpSeg)).FiSegid
*(*[4]U8)(unsafe.Pointer(bp + 16)) = [4]U8{U8(0x00), U8(0x00), U8(0x00), U8(0x00)}
iLeafRowid = I64(iId)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B) + int64(0)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B) + int64(0)<<FTS5_DATA_PAGE_B + I64((*Fts5SegIter)(unsafe.Pointer(pSeg)).FiTermLeafPgno)
pData = fts5LeafRead(tls, p, iLeafRowid)
if pData != 0 {
if iOff > (*Fts5Data)(unsafe.Pointer(pData)).FszLeaf {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
} else {
sqlite3Fts5BufferZero(tls, bp)
if !(U32((*Fts5Buffer)(unsafe.Pointer(bp)).Fn)+U32((*Fts5Data)(unsafe.Pointer(pData)).Fnn) <= U32((*Fts5Buffer)(unsafe.Pointer(bp)).FnSpace)) {
sqlite3Fts5BufferSize(tls, p+52, bp, uint32((*Fts5Data)(unsafe.Pointer(pData)).Fnn+(*Fts5Buffer)(unsafe.Pointer(bp)).Fn))
}
sqlite3Fts5BufferAppendBlob(tls, p+52, bp, uint32(unsafe.Sizeof([4]U8{})), bp+16)
sqlite3Fts5BufferAppendVarint(tls, p+52, bp, I64((*Fts5SegIter)(unsafe.Pointer(pSeg)).Fterm.Fn))
sqlite3Fts5BufferAppendBlob(tls, p+52, bp, uint32((*Fts5SegIter)(unsafe.Pointer(pSeg)).Fterm.Fn), (*Fts5SegIter)(unsafe.Pointer(pSeg)).Fterm.Fp)
sqlite3Fts5BufferAppendBlob(tls, p+52, bp, uint32((*Fts5Data)(unsafe.Pointer(pData)).FszLeaf-iOff), (*Fts5Data)(unsafe.Pointer(pData)).Fp+uintptr(iOff))
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
fts5PutU16(tls, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp+2, U16((*Fts5Buffer)(unsafe.Pointer(bp)).Fn))
}
sqlite3Fts5BufferAppendVarint(tls, p+52, bp, int64(4))
if (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiLeafPgno == (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiTermLeafPgno &&
(*Fts5SegIter)(unsafe.Pointer(pSeg)).FiEndofDoclist < (*Fts5Data)(unsafe.Pointer(pData)).FszLeaf &&
(*Fts5SegIter)(unsafe.Pointer(pSeg)).FiPgidxOff <= (*Fts5Data)(unsafe.Pointer(pData)).Fnn {
var nDiff int32 = (*Fts5Data)(unsafe.Pointer(pData)).FszLeaf - (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiEndofDoclist
sqlite3Fts5BufferAppendVarint(tls, p+52, bp, I64((*Fts5Buffer)(unsafe.Pointer(bp)).Fn)-int64(1)-I64(nDiff)-int64(4))
sqlite3Fts5BufferAppendBlob(tls, p+52, bp, uint32((*Fts5Data)(unsafe.Pointer(pData)).Fnn-(*Fts5SegIter)(unsafe.Pointer(pSeg)).FiPgidxOff), (*Fts5Data)(unsafe.Pointer(pData)).Fp+uintptr((*Fts5SegIter)(unsafe.Pointer(pSeg)).FiPgidxOff))
}
(*Fts5StructureSegment)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).FpSeg)).FpgnoFirst = (*Fts5SegIter)(unsafe.Pointer(pSeg)).FiTermLeafPgno
fts5DataDelete(tls, p, I64(iId)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B)+int64(0)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B)+int64(0)<<FTS5_DATA_PAGE_B+int64(1), iLeafRowid)
fts5DataWrite(tls, p, iLeafRowid, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp, (*Fts5Buffer)(unsafe.Pointer(bp)).Fn)
}
fts5DataRelease(tls, pData)
}
}
}
sqlite3Fts5BufferFree(tls, bp)
}
func fts5MergeChunkCallback(tls *libc.TLS, p uintptr, pCtx uintptr, pChunk uintptr, nChunk int32) {
var pWriter uintptr = pCtx
fts5WriteAppendPoslistData(tls, p, pWriter, pChunk, nChunk)
}
func fts5IndexMergeLevel(tls *libc.TLS, p uintptr, ppStruct uintptr, iLvl int32, pnRem uintptr) {
bp := tls.Alloc(148)
defer tls.Free(148)
var pStruct uintptr = *(*uintptr)(unsafe.Pointer(ppStruct))
var pLvl uintptr = pStruct + 24 + uintptr(iLvl)*16
var pLvlOut uintptr
*(*uintptr)(unsafe.Pointer(bp + 136)) = uintptr(0)
var nRem int32
if pnRem != 0 {
nRem = *(*int32)(unsafe.Pointer(pnRem))
} else {
nRem = 0
}
var nInput int32
var pSeg uintptr
var bOldest int32
var eDetail int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FeDetail
var flags int32 = FTS5INDEX_QUERY_NOOUTPUT
var bTermWritten int32 = 0
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Fts5SegWriter{})), libc.X__builtin_object_size(tls, bp, 0))
libc.X__builtin___memset_chk(tls, bp+120, 0, uint64(unsafe.Sizeof(Fts5Buffer{})), libc.X__builtin_object_size(tls, bp+120, 0))
if (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnMerge != 0 {
pLvlOut = pStruct + 24 + uintptr(iLvl+1)*16
nInput = (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnMerge
pSeg = (*Fts5StructureLevel)(unsafe.Pointer(pLvlOut)).FaSeg + uintptr((*Fts5StructureLevel)(unsafe.Pointer(pLvlOut)).FnSeg-1)*12
fts5WriteInit(tls, p, bp, (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FiSegid)
(*Fts5SegWriter)(unsafe.Pointer(bp)).Fwriter.Fpgno = (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoLast + 1
(*Fts5SegWriter)(unsafe.Pointer(bp)).FiBtPage = 0
} else {
var iSegid int32 = fts5AllocateSegid(tls, p, pStruct)
if iLvl == (*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel-1 {
fts5StructureAddLevel(tls, p+52, ppStruct)
pStruct = *(*uintptr)(unsafe.Pointer(ppStruct))
}
fts5StructureExtendLevel(tls, p+52, pStruct, iLvl+1, 1, 0)
if (*Fts5Index)(unsafe.Pointer(p)).Frc != 0 {
return
}
pLvl = pStruct + 24 + uintptr(iLvl)*16
pLvlOut = pStruct + 24 + uintptr(iLvl+1)*16
fts5WriteInit(tls, p, bp, iSegid)
pSeg = (*Fts5StructureLevel)(unsafe.Pointer(pLvlOut)).FaSeg + uintptr((*Fts5StructureLevel)(unsafe.Pointer(pLvlOut)).FnSeg)*12
(*Fts5StructureLevel)(unsafe.Pointer(pLvlOut)).FnSeg++
(*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoFirst = 1
(*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FiSegid = iSegid
(*Fts5Structure)(unsafe.Pointer(pStruct)).FnSegment++
nInput = (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg
}
bOldest = libc.Bool32((*Fts5StructureLevel)(unsafe.Pointer(pLvlOut)).FnSeg == 1 && (*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel == iLvl+2)
for fts5MultiIterNew(tls, p, pStruct, flags, uintptr(0), uintptr(0), 0, iLvl, nInput, bp+136); fts5MultiIterEof(tls, p, *(*uintptr)(unsafe.Pointer(bp + 136))) == 0; fts5MultiIterNext(tls, p, *(*uintptr)(unsafe.Pointer(bp + 136)), 0, int64(0)) {
var pSegIter uintptr = *(*uintptr)(unsafe.Pointer(bp + 136)) + 96 + uintptr((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 136)))).FaFirst+1*4)).FiFirst)*120
var nPos int32
var pTerm uintptr
pTerm = fts5MultiIterTerm(tls, *(*uintptr)(unsafe.Pointer(bp + 136)), bp+144)
if *(*int32)(unsafe.Pointer(bp + 144)) != (*Fts5Buffer)(unsafe.Pointer(bp+120)).Fn || func() int32 {
if *(*int32)(unsafe.Pointer(bp + 144)) <= 0 {
return 0
}
return libc.Xmemcmp(tls, pTerm, (*Fts5Buffer)(unsafe.Pointer(bp+120)).Fp, uint64(*(*int32)(unsafe.Pointer(bp + 144))))
}() != 0 {
if pnRem != 0 && (*Fts5SegWriter)(unsafe.Pointer(bp)).FnLeafWritten > nRem {
break
}
sqlite3Fts5BufferSet(tls, p+52, bp+120, *(*int32)(unsafe.Pointer(bp + 144)), pTerm)
bTermWritten = 0
}
if (*Fts5SegIter)(unsafe.Pointer(pSegIter)).FnPos == 0 && (bOldest != 0 || int32((*Fts5SegIter)(unsafe.Pointer(pSegIter)).FbDel) == 0) {
continue
}
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && bTermWritten == 0 {
fts5WriteAppendTerm(tls, p, bp, *(*int32)(unsafe.Pointer(bp + 144)), pTerm)
bTermWritten = 1
}
fts5WriteAppendRowid(tls, p, bp, fts5MultiIterRowid(tls, *(*uintptr)(unsafe.Pointer(bp + 136))))
if eDetail == FTS5_DETAIL_NONE {
if (*Fts5SegIter)(unsafe.Pointer(pSegIter)).FbDel != 0 {
sqlite3Fts5BufferAppendVarint(tls, p+52, bp+8+8, int64(0))
if (*Fts5SegIter)(unsafe.Pointer(pSegIter)).FnPos > 0 {
sqlite3Fts5BufferAppendVarint(tls, p+52, bp+8+8, int64(0))
}
}
} else {
nPos = (*Fts5SegIter)(unsafe.Pointer(pSegIter)).FnPos*2 + int32((*Fts5SegIter)(unsafe.Pointer(pSegIter)).FbDel)
sqlite3Fts5BufferAppendVarint(tls, p+52, bp+8+8, I64(nPos))
fts5ChunkIterate(tls, p, pSegIter, bp, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32)
}{fts5MergeChunkCallback})))
}
}
fts5WriteFinish(tls, p, bp, pSeg+8)
if fts5MultiIterEof(tls, p, *(*uintptr)(unsafe.Pointer(bp + 136))) != 0 {
var i int32
for i = 0; i < nInput; i++ {
fts5DataRemoveSegment(tls, p, (*Fts5StructureSegment)(unsafe.Pointer((*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg+uintptr(i)*12)).FiSegid)
}
if (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg != nInput {
var nMove int32 = int32(uint64((*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg-nInput) * uint64(unsafe.Sizeof(Fts5StructureSegment{})))
libc.X__builtin___memmove_chk(tls, (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg, (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg+uintptr(nInput)*12, uint64(nMove), libc.X__builtin_object_size(tls, (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg, 0))
}
*(*int32)(unsafe.Pointer(pStruct + 16)) -= nInput
*(*int32)(unsafe.Pointer(pLvl + 4)) -= nInput
(*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnMerge = 0
if (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoLast == 0 {
(*Fts5StructureLevel)(unsafe.Pointer(pLvlOut)).FnSeg--
(*Fts5Structure)(unsafe.Pointer(pStruct)).FnSegment--
}
} else {
fts5TrimSegments(tls, p, *(*uintptr)(unsafe.Pointer(bp + 136)))
(*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnMerge = nInput
}
fts5MultiIterFree(tls, *(*uintptr)(unsafe.Pointer(bp + 136)))
sqlite3Fts5BufferFree(tls, bp+120)
if pnRem != 0 {
*(*int32)(unsafe.Pointer(pnRem)) -= (*Fts5SegWriter)(unsafe.Pointer(bp)).FnLeafWritten
}
}
func fts5IndexMerge(tls *libc.TLS, p uintptr, ppStruct uintptr, nPg int32, nMin int32) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
*(*int32)(unsafe.Pointer(bp + 8)) = nPg
var bRet int32 = 0
*(*uintptr)(unsafe.Pointer(bp)) = *(*uintptr)(unsafe.Pointer(ppStruct))
for *(*int32)(unsafe.Pointer(bp + 8)) > 0 && (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var iLvl int32
var iBestLvl int32 = 0
var nBest int32 = 0
for iLvl = 0; iLvl < (*Fts5Structure)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FnLevel; iLvl++ {
var pLvl uintptr = *(*uintptr)(unsafe.Pointer(bp)) + 24 + uintptr(iLvl)*16
if (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnMerge != 0 {
if (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnMerge > nBest {
iBestLvl = iLvl
nBest = (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnMerge
}
break
}
if (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg > nBest {
nBest = (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FnSeg
iBestLvl = iLvl
}
}
if nBest < nMin && (*Fts5StructureLevel)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))+24+uintptr(iBestLvl)*16)).FnMerge == 0 {
break
}
bRet = 1
fts5IndexMergeLevel(tls, p, bp, iBestLvl, bp+8)
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Fts5StructureLevel)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))+24+uintptr(iBestLvl)*16)).FnMerge == 0 {
fts5StructurePromote(tls, p, iBestLvl+1, *(*uintptr)(unsafe.Pointer(bp)))
}
}
*(*uintptr)(unsafe.Pointer(ppStruct)) = *(*uintptr)(unsafe.Pointer(bp))
return bRet
}
func fts5IndexAutomerge(tls *libc.TLS, p uintptr, ppStruct uintptr, nLeaf int32) {
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FnAutomerge > 0 && *(*uintptr)(unsafe.Pointer(ppStruct)) != uintptr(0) {
var pStruct uintptr = *(*uintptr)(unsafe.Pointer(ppStruct))
var nWrite U64
var nWork int32
var nRem int32
nWrite = (*Fts5Structure)(unsafe.Pointer(pStruct)).FnWriteCounter
nWork = int32((nWrite+U64(nLeaf))/U64((*Fts5Index)(unsafe.Pointer(p)).FnWorkUnit) - nWrite/U64((*Fts5Index)(unsafe.Pointer(p)).FnWorkUnit))
*(*U64)(unsafe.Pointer(pStruct + 8)) += U64(nLeaf)
nRem = (*Fts5Index)(unsafe.Pointer(p)).FnWorkUnit * nWork * (*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel
fts5IndexMerge(tls, p, ppStruct, nRem, (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FnAutomerge)
}
}
func fts5IndexCrisismerge(tls *libc.TLS, p uintptr, ppStruct uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var nCrisis int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FnCrisisMerge
*(*uintptr)(unsafe.Pointer(bp)) = *(*uintptr)(unsafe.Pointer(ppStruct))
var iLvl int32 = 0
for (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Fts5StructureLevel)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))+24+uintptr(iLvl)*16)).FnSeg >= nCrisis {
fts5IndexMergeLevel(tls, p, bp, iLvl, uintptr(0))
fts5StructurePromote(tls, p, iLvl+1, *(*uintptr)(unsafe.Pointer(bp)))
iLvl++
}
*(*uintptr)(unsafe.Pointer(ppStruct)) = *(*uintptr)(unsafe.Pointer(bp))
}
func fts5IndexReturn(tls *libc.TLS, p uintptr) int32 {
var rc int32 = (*Fts5Index)(unsafe.Pointer(p)).Frc
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_OK
return rc
}
type Fts5FlushCtx1 = struct {
FpIdx uintptr
Fwriter Fts5SegWriter
}
type Fts5FlushCtx = Fts5FlushCtx1
func fts5PoslistPrefix(tls *libc.TLS, aBuf uintptr, nMax int32) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var ret int32
ret = sqlite3Fts5GetVarint32(tls, aBuf, bp)
if ret < nMax {
for 1 != 0 {
var i int32 = sqlite3Fts5GetVarint32(tls, aBuf+uintptr(ret), bp)
if ret+i > nMax {
break
}
ret = ret + i
}
}
return ret
}
func fts5FlushOneHash(tls *libc.TLS, p uintptr) {
bp := tls.Alloc(176)
defer tls.Free(176)
var pHash uintptr = (*Fts5Index)(unsafe.Pointer(p)).FpHash
var iSegid int32
*(*int32)(unsafe.Pointer(bp + 160)) = 0
*(*uintptr)(unsafe.Pointer(bp + 168)) = fts5StructureRead(tls, p)
iSegid = fts5AllocateSegid(tls, p, *(*uintptr)(unsafe.Pointer(bp + 168)))
fts5StructureInvalidate(tls, p)
if iSegid != 0 {
var pgsz int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).Fpgsz
var eDetail int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FeDetail
var pSeg uintptr
var pBuf uintptr
var pPgidx uintptr
fts5WriteInit(tls, p, bp, iSegid)
pBuf = bp + 8 + 8
pPgidx = bp + 8 + 24
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Fts5Index)(unsafe.Pointer(p)).Frc = sqlite3Fts5HashScanInit(tls, pHash, uintptr(0), 0)
}
for (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && 0 == sqlite3Fts5HashScanEof(tls, pHash) {
sqlite3Fts5HashScanEntry(tls, pHash, bp+120, bp+128, bp+136)
fts5WriteAppendTerm(tls, p, bp, int32(libc.Xstrlen(tls, *(*uintptr)(unsafe.Pointer(bp + 120)))), *(*uintptr)(unsafe.Pointer(bp + 120)))
if (*Fts5Index)(unsafe.Pointer(p)).Frc != SQLITE_OK {
break
}
if pgsz >= (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn+(*Fts5Buffer)(unsafe.Pointer(pPgidx)).Fn+*(*int32)(unsafe.Pointer(bp + 136))+1 {
{
libc.X__builtin___memcpy_chk(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), *(*uintptr)(unsafe.Pointer(bp + 128)), uint64(*(*int32)(unsafe.Pointer(bp + 136))), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), 0))
*(*int32)(unsafe.Pointer(pBuf + 8)) += *(*int32)(unsafe.Pointer(bp + 136))
}
} else {
var iRowid I64 = int64(0)
*(*U64)(unsafe.Pointer(bp + 144)) = uint64(0)
var iOff int32 = 0
for (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && iOff < *(*int32)(unsafe.Pointer(bp + 136)) {
iOff = iOff + int32(sqlite3Fts5GetVarint(tls, *(*uintptr)(unsafe.Pointer(bp + 128))+uintptr(iOff), bp+144))
iRowid = I64(U64(iRowid) + *(*U64)(unsafe.Pointer(bp + 144)))
if (*Fts5SegWriter)(unsafe.Pointer(bp)).FbFirstRowidInPage != 0 {
fts5PutU16(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp, U16((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn))
*(*int32)(unsafe.Pointer(pBuf + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), uint64(iRowid))
(*Fts5SegWriter)(unsafe.Pointer(bp)).FbFirstRowidInPage = U8(0)
fts5WriteDlidxAppend(tls, p, bp, iRowid)
if (*Fts5Index)(unsafe.Pointer(p)).Frc != SQLITE_OK {
break
}
} else {
*(*int32)(unsafe.Pointer(pBuf + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), *(*U64)(unsafe.Pointer(bp + 144)))
}
if eDetail == FTS5_DETAIL_NONE {
if iOff < *(*int32)(unsafe.Pointer(bp + 136)) && int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 128)) + uintptr(iOff)))) == 0 {
*(*U8)(unsafe.Pointer((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp + uintptr(libc.PostIncInt32(&(*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn, 1)))) = U8(0)
iOff++
if iOff < *(*int32)(unsafe.Pointer(bp + 136)) && int32(*(*U8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 128)) + uintptr(iOff)))) == 0 {
*(*U8)(unsafe.Pointer((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp + uintptr(libc.PostIncInt32(&(*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn, 1)))) = U8(0)
iOff++
}
}
if (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn+(*Fts5Buffer)(unsafe.Pointer(pPgidx)).Fn >= pgsz {
fts5WriteFlushLeaf(tls, p, bp)
}
} else {
var nCopy int32 = fts5GetPoslistSize(tls, *(*uintptr)(unsafe.Pointer(bp + 128))+uintptr(iOff), bp+152, bp+156)
nCopy = nCopy + *(*int32)(unsafe.Pointer(bp + 152))
if (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn+(*Fts5Buffer)(unsafe.Pointer(pPgidx)).Fn+nCopy <= pgsz {
{
libc.X__builtin___memcpy_chk(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), *(*uintptr)(unsafe.Pointer(bp + 128))+uintptr(iOff), uint64(nCopy), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), 0))
*(*int32)(unsafe.Pointer(pBuf + 8)) += nCopy
}
} else {
var pPoslist uintptr = *(*uintptr)(unsafe.Pointer(bp + 128)) + uintptr(iOff)
var iPos int32 = 0
for (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var nSpace int32 = pgsz - (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn - (*Fts5Buffer)(unsafe.Pointer(pPgidx)).Fn
var n int32 = 0
if nCopy-iPos <= nSpace {
n = nCopy - iPos
} else {
n = fts5PoslistPrefix(tls, pPoslist+uintptr(iPos), nSpace)
}
{
libc.X__builtin___memcpy_chk(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), pPoslist+uintptr(iPos), uint64(n), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), 0))
*(*int32)(unsafe.Pointer(pBuf + 8)) += n
}
iPos = iPos + n
if (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn+(*Fts5Buffer)(unsafe.Pointer(pPgidx)).Fn >= pgsz {
fts5WriteFlushLeaf(tls, p, bp)
}
if iPos >= nCopy {
break
}
}
}
iOff = iOff + nCopy
}
}
}
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
sqlite3Fts5HashScanNext(tls, pHash)
}
}
sqlite3Fts5HashClear(tls, pHash)
fts5WriteFinish(tls, p, bp, bp+160)
if (*Fts5Structure)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 168)))).FnLevel == 0 {
fts5StructureAddLevel(tls, p+52, bp+168)
}
fts5StructureExtendLevel(tls, p+52, *(*uintptr)(unsafe.Pointer(bp + 168)), 0, 1, 0)
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
pSeg = (*Fts5StructureLevel)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 168))+24)).FaSeg + uintptr(libc.PostIncInt32(&(*Fts5StructureLevel)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 168))+24)).FnSeg, 1))*12
(*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FiSegid = iSegid
(*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoFirst = 1
(*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoLast = *(*int32)(unsafe.Pointer(bp + 160))
(*Fts5Structure)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 168)))).FnSegment++
}
fts5StructurePromote(tls, p, 0, *(*uintptr)(unsafe.Pointer(bp + 168)))
}
fts5IndexAutomerge(tls, p, bp+168, *(*int32)(unsafe.Pointer(bp + 160)))
fts5IndexCrisismerge(tls, p, bp+168)
fts5StructureWrite(tls, p, *(*uintptr)(unsafe.Pointer(bp + 168)))
fts5StructureRelease(tls, *(*uintptr)(unsafe.Pointer(bp + 168)))
}
func fts5IndexFlush(tls *libc.TLS, p uintptr) {
if (*Fts5Index)(unsafe.Pointer(p)).FnPendingData != 0 {
(*Fts5Index)(unsafe.Pointer(p)).FnPendingData = 0
fts5FlushOneHash(tls, p)
}
}
func fts5IndexOptimizeStruct(tls *libc.TLS, p uintptr, pStruct uintptr) uintptr {
var pNew uintptr = uintptr(0)
var nByte Sqlite3_int64 = Sqlite3_int64(unsafe.Sizeof(Fts5Structure{}))
var nSeg int32 = (*Fts5Structure)(unsafe.Pointer(pStruct)).FnSegment
var i int32
if nSeg < 2 {
return uintptr(0)
}
for i = 0; i < (*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel; i++ {
var nThis int32 = (*Fts5StructureLevel)(unsafe.Pointer(pStruct + 24 + uintptr(i)*16)).FnSeg
if nThis == nSeg || nThis == nSeg-1 && (*Fts5StructureLevel)(unsafe.Pointer(pStruct+24+uintptr(i)*16)).FnMerge == nThis {
fts5StructureRef(tls, pStruct)
return pStruct
}
}
nByte = Sqlite3_int64(uint64(nByte) + uint64((*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel+1)*uint64(unsafe.Sizeof(Fts5StructureLevel{})))
pNew = sqlite3Fts5MallocZero(tls, p+52, nByte)
if pNew != 0 {
var pLvl uintptr
nByte = Sqlite3_int64(uint64(nSeg) * uint64(unsafe.Sizeof(Fts5StructureSegment{})))
(*Fts5Structure)(unsafe.Pointer(pNew)).FnLevel = func() int32 {
if (*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel+1 < FTS5_MAX_LEVEL {
return (*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel + 1
}
return FTS5_MAX_LEVEL
}()
(*Fts5Structure)(unsafe.Pointer(pNew)).FnRef = 1
(*Fts5Structure)(unsafe.Pointer(pNew)).FnWriteCounter = (*Fts5Structure)(unsafe.Pointer(pStruct)).FnWriteCounter
pLvl = pNew + 24 + uintptr((*Fts5Structure)(unsafe.Pointer(pNew)).FnLevel-1)*16
(*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg = sqlite3Fts5MallocZero(tls, p+52, nByte)
if (*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg != 0 {
var iLvl int32
var iSeg int32
var iSegOut int32 = 0
for iLvl = (*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel - 1; iLvl >= 0; iLvl-- {
for iSeg = 0; iSeg < (*Fts5StructureLevel)(unsafe.Pointer(pStruct+24+uintptr(iLvl)*16)).FnSeg; iSeg++ {
*(*Fts5StructureSegment)(unsafe.Pointer((*Fts5StructureLevel)(unsafe.Pointer(pLvl)).FaSeg + uintptr(iSegOut)*12)) = *(*Fts5StructureSegment)(unsafe.Pointer((*Fts5StructureLevel)(unsafe.Pointer(pStruct+24+uintptr(iLvl)*16)).FaSeg + uintptr(iSeg)*12))
iSegOut++
}
}
(*Fts5Structure)(unsafe.Pointer(pNew)).FnSegment = libc.AssignPtrInt32(pLvl+4, nSeg)
} else {
Xsqlite3_free(tls, pNew)
pNew = uintptr(0)
}
}
return pNew
}
func sqlite3Fts5IndexOptimize(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
var pStruct uintptr
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
fts5IndexFlush(tls, p)
pStruct = fts5StructureRead(tls, p)
fts5StructureInvalidate(tls, p)
if pStruct != 0 {
*(*uintptr)(unsafe.Pointer(bp)) = fts5IndexOptimizeStruct(tls, p, pStruct)
}
fts5StructureRelease(tls, pStruct)
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
var iLvl int32
for iLvl = 0; (*Fts5StructureLevel)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))+24+uintptr(iLvl)*16)).FnSeg == 0; iLvl++ {
}
for (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Fts5StructureLevel)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp))+24+uintptr(iLvl)*16)).FnSeg > 0 {
*(*int32)(unsafe.Pointer(bp + 8)) = FTS5_OPT_WORK_UNIT
fts5IndexMergeLevel(tls, p, bp, iLvl, bp+8)
}
fts5StructureWrite(tls, p, *(*uintptr)(unsafe.Pointer(bp)))
fts5StructureRelease(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
return fts5IndexReturn(tls, p)
}
func sqlite3Fts5IndexMerge(tls *libc.TLS, p uintptr, nMerge int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = fts5StructureRead(tls, p)
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
var nMin int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FnUsermerge
fts5StructureInvalidate(tls, p)
if nMerge < 0 {
var pNew uintptr = fts5IndexOptimizeStruct(tls, p, *(*uintptr)(unsafe.Pointer(bp)))
fts5StructureRelease(tls, *(*uintptr)(unsafe.Pointer(bp)))
*(*uintptr)(unsafe.Pointer(bp)) = pNew
nMin = 2
nMerge = nMerge * -1
}
if *(*uintptr)(unsafe.Pointer(bp)) != 0 && (*Fts5Structure)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FnLevel != 0 {
if fts5IndexMerge(tls, p, bp, nMerge, nMin) != 0 {
fts5StructureWrite(tls, p, *(*uintptr)(unsafe.Pointer(bp)))
}
}
fts5StructureRelease(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
return fts5IndexReturn(tls, p)
}
func fts5AppendRowid(tls *libc.TLS, p uintptr, iDelta U64, pUnused uintptr, pBuf uintptr) {
_ = pUnused
sqlite3Fts5BufferAppendVarint(tls, p+52, pBuf, I64(iDelta))
}
func fts5AppendPoslist(tls *libc.TLS, p uintptr, iDelta U64, pMulti uintptr, pBuf uintptr) {
var nData int32 = (*Fts5Iter)(unsafe.Pointer(pMulti)).Fbase.FnData
var nByte int32 = nData + 9 + 9 + FTS5_DATA_ZERO_PADDING
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && 0 == func() int32 {
if U32((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn)+U32(nByte) <= U32((*Fts5Buffer)(unsafe.Pointer(pBuf)).FnSpace) {
return 0
}
return sqlite3Fts5BufferSize(tls, p+52, pBuf, uint32(nByte+(*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn))
}() {
{
*(*int32)(unsafe.Pointer(pBuf + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), iDelta)
}
{
*(*int32)(unsafe.Pointer(pBuf + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), uint64(nData*2))
}
{
libc.X__builtin___memcpy_chk(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), (*Fts5Iter)(unsafe.Pointer(pMulti)).Fbase.FpData, uint64(nData), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), 0))
*(*int32)(unsafe.Pointer(pBuf + 8)) += nData
}
libc.X__builtin___memset_chk(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), 0, uint64(FTS5_DATA_ZERO_PADDING), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn), 0))
}
}
func fts5DoclistIterNext(tls *libc.TLS, pIter uintptr) {
bp := tls.Alloc(12)
defer tls.Free(12)
var p uintptr = (*Fts5DoclistIter)(unsafe.Pointer(pIter)).FaPoslist + uintptr((*Fts5DoclistIter)(unsafe.Pointer(pIter)).FnSize) + uintptr((*Fts5DoclistIter)(unsafe.Pointer(pIter)).FnPoslist)
if p >= (*Fts5DoclistIter)(unsafe.Pointer(pIter)).FaEof {
(*Fts5DoclistIter)(unsafe.Pointer(pIter)).FaPoslist = uintptr(0)
} else {
p += uintptr(sqlite3Fts5GetVarint(tls, p, bp))
*(*I64)(unsafe.Pointer(pIter + 8)) += *(*I64)(unsafe.Pointer(bp))
if int32(*(*U8)(unsafe.Pointer(p)))&0x80 != 0 {
(*Fts5DoclistIter)(unsafe.Pointer(pIter)).FnSize = sqlite3Fts5GetVarint32(tls, p, bp+8)
(*Fts5DoclistIter)(unsafe.Pointer(pIter)).FnPoslist = *(*int32)(unsafe.Pointer(bp + 8)) >> 1
} else {
(*Fts5DoclistIter)(unsafe.Pointer(pIter)).FnPoslist = int32(*(*U8)(unsafe.Pointer(p))) >> 1
(*Fts5DoclistIter)(unsafe.Pointer(pIter)).FnSize = 1
}
(*Fts5DoclistIter)(unsafe.Pointer(pIter)).FaPoslist = p
if (*Fts5DoclistIter)(unsafe.Pointer(pIter)).FaPoslist+uintptr((*Fts5DoclistIter)(unsafe.Pointer(pIter)).FnPoslist) > (*Fts5DoclistIter)(unsafe.Pointer(pIter)).FaEof {
(*Fts5DoclistIter)(unsafe.Pointer(pIter)).FaPoslist = uintptr(0)
}
}
}
func fts5DoclistIterInit(tls *libc.TLS, pBuf uintptr, pIter uintptr) {
libc.X__builtin___memset_chk(tls, pIter, 0, uint64(unsafe.Sizeof(Fts5DoclistIter{})), libc.X__builtin_object_size(tls, pIter, 0))
if (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn > 0 {
(*Fts5DoclistIter)(unsafe.Pointer(pIter)).FaPoslist = (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp
(*Fts5DoclistIter)(unsafe.Pointer(pIter)).FaEof = (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp + uintptr((*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn)
fts5DoclistIterNext(tls, pIter)
}
}
func fts5BufferSwap(tls *libc.TLS, p1 uintptr, p2 uintptr) {
var tmp = *(*Fts5Buffer)(unsafe.Pointer(p1))
*(*Fts5Buffer)(unsafe.Pointer(p1)) = *(*Fts5Buffer)(unsafe.Pointer(p2))
*(*Fts5Buffer)(unsafe.Pointer(p2)) = tmp
}
func fts5NextRowid(tls *libc.TLS, pBuf uintptr, piOff uintptr, piRowid uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var i int32 = *(*int32)(unsafe.Pointer(piOff))
if i >= (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn {
*(*int32)(unsafe.Pointer(piOff)) = -1
} else {
*(*int32)(unsafe.Pointer(piOff)) = i + int32(sqlite3Fts5GetVarint(tls, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp+uintptr(i), bp))
*(*I64)(unsafe.Pointer(piRowid)) += I64(*(*U64)(unsafe.Pointer(bp)))
}
}
func fts5MergeRowidLists(tls *libc.TLS, p uintptr, p1 uintptr, nBuf int32, aBuf uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
*(*int32)(unsafe.Pointer(bp + 16)) = 0
*(*int32)(unsafe.Pointer(bp + 32)) = 0
*(*I64)(unsafe.Pointer(bp + 24)) = int64(0)
*(*I64)(unsafe.Pointer(bp + 40)) = int64(0)
var iOut I64 = int64(0)
var p2 uintptr = aBuf
_ = nBuf
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Fts5Buffer{})), libc.X__builtin_object_size(tls, bp, 0))
sqlite3Fts5BufferSize(tls, p+52, bp, uint32((*Fts5Buffer)(unsafe.Pointer(p1)).Fn+(*Fts5Buffer)(unsafe.Pointer(p2)).Fn))
if (*Fts5Index)(unsafe.Pointer(p)).Frc != 0 {
return
}
fts5NextRowid(tls, p1, bp+16, bp+24)
fts5NextRowid(tls, p2, bp+32, bp+40)
for *(*int32)(unsafe.Pointer(bp + 16)) >= 0 || *(*int32)(unsafe.Pointer(bp + 32)) >= 0 {
if *(*int32)(unsafe.Pointer(bp + 16)) >= 0 && (*(*int32)(unsafe.Pointer(bp + 32)) < 0 || *(*I64)(unsafe.Pointer(bp + 24)) < *(*I64)(unsafe.Pointer(bp + 40))) {
{
*(*int32)(unsafe.Pointer(bp + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp)).Fn), uint64(*(*I64)(unsafe.Pointer(bp + 24))-iOut))
}
iOut = *(*I64)(unsafe.Pointer(bp + 24))
fts5NextRowid(tls, p1, bp+16, bp+24)
} else {
{
*(*int32)(unsafe.Pointer(bp + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp)).Fn), uint64(*(*I64)(unsafe.Pointer(bp + 40))-iOut))
}
iOut = *(*I64)(unsafe.Pointer(bp + 40))
if *(*int32)(unsafe.Pointer(bp + 16)) >= 0 && *(*I64)(unsafe.Pointer(bp + 24)) == *(*I64)(unsafe.Pointer(bp + 40)) {
fts5NextRowid(tls, p1, bp+16, bp+24)
}
fts5NextRowid(tls, p2, bp+32, bp+40)
}
}
fts5BufferSwap(tls, bp, p1)
sqlite3Fts5BufferFree(tls, bp)
}
type PrefixMerger1 = struct {
Fiter Fts5DoclistIter
FiPos I64
FiOff int32
F__ccgo_pad1 [4]byte
FaPos uintptr
FpNext uintptr
}
type PrefixMerger = PrefixMerger1
func fts5PrefixMergerInsertByRowid(tls *libc.TLS, ppHead uintptr, p uintptr) {
if (*PrefixMerger)(unsafe.Pointer(p)).Fiter.FaPoslist != 0 {
var pp uintptr = ppHead
for *(*uintptr)(unsafe.Pointer(pp)) != 0 && (*PrefixMerger)(unsafe.Pointer(p)).Fiter.FiRowid > (*PrefixMerger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).Fiter.FiRowid {
pp = *(*uintptr)(unsafe.Pointer(pp)) + 56
}
(*PrefixMerger)(unsafe.Pointer(p)).FpNext = *(*uintptr)(unsafe.Pointer(pp))
*(*uintptr)(unsafe.Pointer(pp)) = p
}
}
func fts5PrefixMergerInsertByPosition(tls *libc.TLS, ppHead uintptr, p uintptr) {
if (*PrefixMerger)(unsafe.Pointer(p)).FiPos >= int64(0) {
var pp uintptr = ppHead
for *(*uintptr)(unsafe.Pointer(pp)) != 0 && (*PrefixMerger)(unsafe.Pointer(p)).FiPos > (*PrefixMerger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(pp)))).FiPos {
pp = *(*uintptr)(unsafe.Pointer(pp)) + 56
}
(*PrefixMerger)(unsafe.Pointer(p)).FpNext = *(*uintptr)(unsafe.Pointer(pp))
*(*uintptr)(unsafe.Pointer(pp)) = p
}
}
func fts5MergePrefixLists(tls *libc.TLS, p uintptr, p1 uintptr, nBuf int32, aBuf uintptr) {
bp := tls.Alloc(1072)
defer tls.Free(1072)
*(*uintptr)(unsafe.Pointer(bp + 1024)) = uintptr(0)
var i int32
var nOut int32 = 0
*(*Fts5Buffer)(unsafe.Pointer(bp + 1032)) = Fts5Buffer{}
*(*Fts5Buffer)(unsafe.Pointer(bp + 1048)) = Fts5Buffer{}
var iLastRowid I64 = int64(0)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(PrefixMerger{}))*uint64(nBuf+1), libc.X__builtin_object_size(tls, bp, 0))
*(*uintptr)(unsafe.Pointer(bp + 1024)) = bp + uintptr(nBuf)*64
fts5DoclistIterInit(tls, p1, *(*uintptr)(unsafe.Pointer(bp + 1024)))
for i = 0; i < nBuf; i++ {
fts5DoclistIterInit(tls, aBuf+uintptr(i)*16, bp+uintptr(i)*64)
fts5PrefixMergerInsertByRowid(tls, bp+1024, bp+uintptr(i)*64)
nOut = nOut + (*Fts5Buffer)(unsafe.Pointer(aBuf+uintptr(i)*16)).Fn
}
if nOut == 0 {
return
}
nOut = nOut + ((*Fts5Buffer)(unsafe.Pointer(p1)).Fn + 9 + 10*nBuf)
if sqlite3Fts5BufferSize(tls, p+52, bp+1032, uint32(nOut)) != 0 {
return
}
for *(*uintptr)(unsafe.Pointer(bp + 1024)) != 0 {
{
{
*(*int32)(unsafe.Pointer(bp + 1032 + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fn), U64((*PrefixMerger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 1024)))).Fiter.FiRowid)-U64(iLastRowid))
}
iLastRowid = (*PrefixMerger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 1024)))).Fiter.FiRowid
}
if (*PrefixMerger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 1024)))).FpNext != 0 && iLastRowid == (*PrefixMerger)(unsafe.Pointer((*PrefixMerger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 1024)))).FpNext)).Fiter.FiRowid {
*(*I64)(unsafe.Pointer(bp + 1064)) = int64(0)
var nTmp int32 = FTS5_DATA_ZERO_PADDING
var nMerge int32 = 0
var pSave uintptr = *(*uintptr)(unsafe.Pointer(bp + 1024))
var pThis uintptr = uintptr(0)
var nTail int32 = 0
*(*uintptr)(unsafe.Pointer(bp + 1024)) = uintptr(0)
for pSave != 0 && (*PrefixMerger)(unsafe.Pointer(pSave)).Fiter.FiRowid == iLastRowid {
var pNext uintptr = (*PrefixMerger)(unsafe.Pointer(pSave)).FpNext
(*PrefixMerger)(unsafe.Pointer(pSave)).FiOff = 0
(*PrefixMerger)(unsafe.Pointer(pSave)).FiPos = int64(0)
(*PrefixMerger)(unsafe.Pointer(pSave)).FaPos = (*PrefixMerger)(unsafe.Pointer(pSave)).Fiter.FaPoslist + uintptr((*PrefixMerger)(unsafe.Pointer(pSave)).Fiter.FnSize)
sqlite3Fts5PoslistNext64(tls, (*PrefixMerger)(unsafe.Pointer(pSave)).FaPos, (*PrefixMerger)(unsafe.Pointer(pSave)).Fiter.FnPoslist, pSave+40, pSave+32)
nTmp = nTmp + ((*PrefixMerger)(unsafe.Pointer(pSave)).Fiter.FnPoslist + 10)
nMerge++
fts5PrefixMergerInsertByPosition(tls, bp+1024, pSave)
pSave = pNext
}
if *(*uintptr)(unsafe.Pointer(bp + 1024)) == uintptr(0) || (*PrefixMerger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 1024)))).FpNext == uintptr(0) {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
break
}
if sqlite3Fts5BufferSize(tls, p+52, bp+1048, uint32(nTmp+nMerge*10)) != 0 {
break
}
sqlite3Fts5BufferZero(tls, bp+1048)
pThis = *(*uintptr)(unsafe.Pointer(bp + 1024))
*(*uintptr)(unsafe.Pointer(bp + 1024)) = (*PrefixMerger)(unsafe.Pointer(pThis)).FpNext
sqlite3Fts5PoslistSafeAppend(tls, bp+1048, bp+1064, (*PrefixMerger)(unsafe.Pointer(pThis)).FiPos)
sqlite3Fts5PoslistNext64(tls, (*PrefixMerger)(unsafe.Pointer(pThis)).FaPos, (*PrefixMerger)(unsafe.Pointer(pThis)).Fiter.FnPoslist, pThis+40, pThis+32)
fts5PrefixMergerInsertByPosition(tls, bp+1024, pThis)
for (*PrefixMerger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 1024)))).FpNext != 0 {
pThis = *(*uintptr)(unsafe.Pointer(bp + 1024))
if (*PrefixMerger)(unsafe.Pointer(pThis)).FiPos != *(*I64)(unsafe.Pointer(bp + 1064)) {
sqlite3Fts5PoslistSafeAppend(tls, bp+1048, bp+1064, (*PrefixMerger)(unsafe.Pointer(pThis)).FiPos)
}
sqlite3Fts5PoslistNext64(tls, (*PrefixMerger)(unsafe.Pointer(pThis)).FaPos, (*PrefixMerger)(unsafe.Pointer(pThis)).Fiter.FnPoslist, pThis+40, pThis+32)
*(*uintptr)(unsafe.Pointer(bp + 1024)) = (*PrefixMerger)(unsafe.Pointer(pThis)).FpNext
fts5PrefixMergerInsertByPosition(tls, bp+1024, pThis)
}
if (*PrefixMerger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 1024)))).FiPos != *(*I64)(unsafe.Pointer(bp + 1064)) {
sqlite3Fts5PoslistSafeAppend(tls, bp+1048, bp+1064, (*PrefixMerger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 1024)))).FiPos)
}
nTail = (*PrefixMerger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 1024)))).Fiter.FnPoslist - (*PrefixMerger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 1024)))).FiOff
if (*Fts5Buffer)(unsafe.Pointer(bp+1048)).Fn+nTail > nTmp-FTS5_DATA_ZERO_PADDING {
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
}
break
}
{
*(*int32)(unsafe.Pointer(bp + 1032 + 8)) += sqlite3Fts5PutVarint(tls, (*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fn), uint64(((*Fts5Buffer)(unsafe.Pointer(bp+1048)).Fn+nTail)*2))
}
{
libc.X__builtin___memcpy_chk(tls, (*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fn), (*Fts5Buffer)(unsafe.Pointer(bp+1048)).Fp, uint64((*Fts5Buffer)(unsafe.Pointer(bp+1048)).Fn), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fn), 0))
*(*int32)(unsafe.Pointer(bp + 1032 + 8)) += (*Fts5Buffer)(unsafe.Pointer(bp + 1048)).Fn
}
if nTail > 0 {
{
libc.X__builtin___memcpy_chk(tls, (*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fn), (*PrefixMerger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 1024)))).FaPos+uintptr((*PrefixMerger)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 1024)))).FiOff), uint64(nTail), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fn), 0))
*(*int32)(unsafe.Pointer(bp + 1032 + 8)) += nTail
}
}
*(*uintptr)(unsafe.Pointer(bp + 1024)) = pSave
for i = 0; i < nBuf+1; i++ {
var pX uintptr = bp + uintptr(i)*64
if (*PrefixMerger)(unsafe.Pointer(pX)).Fiter.FaPoslist != 0 && (*PrefixMerger)(unsafe.Pointer(pX)).Fiter.FiRowid == iLastRowid {
fts5DoclistIterNext(tls, pX)
fts5PrefixMergerInsertByRowid(tls, bp+1024, pX)
}
}
} else {
var pThis uintptr = *(*uintptr)(unsafe.Pointer(bp + 1024))
var pI uintptr = pThis
{
libc.X__builtin___memcpy_chk(tls, (*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fn), (*Fts5DoclistIter)(unsafe.Pointer(pI)).FaPoslist, uint64((*Fts5DoclistIter)(unsafe.Pointer(pI)).FnPoslist+(*Fts5DoclistIter)(unsafe.Pointer(pI)).FnSize), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fn), 0))
*(*int32)(unsafe.Pointer(bp + 1032 + 8)) += (*Fts5DoclistIter)(unsafe.Pointer(pI)).FnPoslist + (*Fts5DoclistIter)(unsafe.Pointer(pI)).FnSize
}
fts5DoclistIterNext(tls, pI)
*(*uintptr)(unsafe.Pointer(bp + 1024)) = (*PrefixMerger)(unsafe.Pointer(pThis)).FpNext
fts5PrefixMergerInsertByRowid(tls, bp+1024, pThis)
}
}
sqlite3Fts5BufferFree(tls, p1)
sqlite3Fts5BufferFree(tls, bp+1048)
libc.X__builtin___memset_chk(tls, (*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fn), 0, uint64(FTS5_DATA_ZERO_PADDING), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fp+uintptr((*Fts5Buffer)(unsafe.Pointer(bp+1032)).Fn), 0))
*(*Fts5Buffer)(unsafe.Pointer(p1)) = *(*Fts5Buffer)(unsafe.Pointer(bp + 1032))
}
func fts5SetupPrefixIter(tls *libc.TLS, p uintptr, bDesc int32, iIdx int32, pToken uintptr, nToken int32, pColset uintptr, ppIter uintptr) {
bp := tls.Alloc(32)
defer tls.Free(32)
var pStruct uintptr
var aBuf uintptr
var nBuf int32 = 32
var nMerge int32 = 1
var xMerge uintptr
var xAppend uintptr
if (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FeDetail == FTS5_DETAIL_NONE {
xMerge = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr)
}{fts5MergeRowidLists}))
xAppend = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, U64, uintptr, uintptr)
}{fts5AppendRowid}))
} else {
nMerge = FTS5_MERGE_NLIST - 1
nBuf = nMerge * 8
xMerge = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr)
}{fts5MergePrefixLists}))
xAppend = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, U64, uintptr, uintptr)
}{fts5AppendPoslist}))
}
aBuf = fts5IdxMalloc(tls, p, int64(uint64(unsafe.Sizeof(Fts5Buffer{}))*uint64(nBuf)))
pStruct = fts5StructureRead(tls, p)
if aBuf != 0 && pStruct != 0 {
var flags int32 = FTS5INDEX_QUERY_SCAN |
FTS5INDEX_QUERY_SKIPEMPTY |
FTS5INDEX_QUERY_NOOUTPUT
var i int32
var iLastRowid I64 = int64(0)
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
var pData uintptr
*(*int32)(unsafe.Pointer(bp + 28)) = 1
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Fts5Buffer{})), libc.X__builtin_object_size(tls, bp, 0))
if iIdx != 0 {
*(*int32)(unsafe.Pointer(bp + 24)) = 0
var f2 int32 = FTS5INDEX_QUERY_SKIPEMPTY | FTS5INDEX_QUERY_NOOUTPUT
*(*U8)(unsafe.Pointer(pToken)) = U8('0')
fts5MultiIterNew(tls, p, pStruct, f2, pColset, pToken, nToken, -1, 0, bp+16)
fts5IterSetOutputCb(tls, p+52, *(*uintptr)(unsafe.Pointer(bp + 16)))
for ; fts5MultiIterEof(tls, p, *(*uintptr)(unsafe.Pointer(bp + 16))) == 0; fts5MultiIterNext2(tls, p, *(*uintptr)(unsafe.Pointer(bp + 16)), bp+24) {
var pSeg uintptr = *(*uintptr)(unsafe.Pointer(bp + 16)) + 96 + uintptr((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FaFirst+1*4)).FiFirst)*120
(*struct {
f func(*libc.TLS, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FxSetOutputs})).f(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), pSeg)
if (*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).Fbase.FnData != 0 {
(*struct {
f func(*libc.TLS, uintptr, U64, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{xAppend})).f(tls, p, U64((*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).Fbase.FiRowid)-U64(iLastRowid), *(*uintptr)(unsafe.Pointer(bp + 16)), bp)
iLastRowid = (*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).Fbase.FiRowid
}
}
fts5MultiIterFree(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
}
*(*U8)(unsafe.Pointer(pToken)) = U8('0' + iIdx)
fts5MultiIterNew(tls, p, pStruct, flags, pColset, pToken, nToken, -1, 0, bp+16)
fts5IterSetOutputCb(tls, p+52, *(*uintptr)(unsafe.Pointer(bp + 16)))
for ; fts5MultiIterEof(tls, p, *(*uintptr)(unsafe.Pointer(bp + 16))) == 0; fts5MultiIterNext2(tls, p, *(*uintptr)(unsafe.Pointer(bp + 16)), bp+28) {
var pSeg uintptr = *(*uintptr)(unsafe.Pointer(bp + 16)) + 96 + uintptr((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FaFirst+1*4)).FiFirst)*120
var nTerm int32 = (*Fts5SegIter)(unsafe.Pointer(pSeg)).Fterm.Fn
var pTerm uintptr = (*Fts5SegIter)(unsafe.Pointer(pSeg)).Fterm.Fp
(*struct {
f func(*libc.TLS, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FxSetOutputs})).f(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), pSeg)
if *(*int32)(unsafe.Pointer(bp + 28)) != 0 {
if nTerm < nToken || libc.Xmemcmp(tls, pToken, pTerm, uint64(nToken)) != 0 {
break
}
}
if (*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).Fbase.FnData == 0 {
continue
}
if (*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).Fbase.FiRowid <= iLastRowid && (*Fts5Buffer)(unsafe.Pointer(bp)).Fn > 0 {
for i = 0; (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Fts5Buffer)(unsafe.Pointer(bp)).Fn != 0; i++ {
var i1 int32 = i * nMerge
var iStore int32
for iStore = i1; iStore < i1+nMerge; iStore++ {
if (*Fts5Buffer)(unsafe.Pointer(aBuf+uintptr(iStore)*16)).Fn == 0 {
fts5BufferSwap(tls, bp, aBuf+uintptr(iStore)*16)
sqlite3Fts5BufferZero(tls, bp)
break
}
}
if iStore == i1+nMerge {
(*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{xMerge})).f(tls, p, bp, nMerge, aBuf+uintptr(i1)*16)
for iStore = i1; iStore < i1+nMerge; iStore++ {
sqlite3Fts5BufferZero(tls, aBuf+uintptr(iStore)*16)
}
}
}
iLastRowid = int64(0)
}
(*struct {
f func(*libc.TLS, uintptr, U64, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{xAppend})).f(tls, p, U64((*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).Fbase.FiRowid)-U64(iLastRowid), *(*uintptr)(unsafe.Pointer(bp + 16)), bp)
iLastRowid = (*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).Fbase.FiRowid
}
for i = 0; i < nBuf; i = i + nMerge {
var iFree int32
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{xMerge})).f(tls, p, bp, nMerge, aBuf+uintptr(i)*16)
}
for iFree = i; iFree < i+nMerge; iFree++ {
sqlite3Fts5BufferFree(tls, aBuf+uintptr(iFree)*16)
}
}
fts5MultiIterFree(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
pData = fts5IdxMalloc(tls, p, int64(uint64(unsafe.Sizeof(Fts5Data{}))+uint64((*Fts5Buffer)(unsafe.Pointer(bp)).Fn)+uint64(FTS5_DATA_ZERO_PADDING)))
if pData != 0 {
(*Fts5Data)(unsafe.Pointer(pData)).Fp = pData + 1*16
(*Fts5Data)(unsafe.Pointer(pData)).Fnn = libc.AssignPtrInt32(pData+12, (*Fts5Buffer)(unsafe.Pointer(bp)).Fn)
if (*Fts5Buffer)(unsafe.Pointer(bp)).Fn != 0 {
libc.X__builtin___memcpy_chk(tls, (*Fts5Data)(unsafe.Pointer(pData)).Fp, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp, uint64((*Fts5Buffer)(unsafe.Pointer(bp)).Fn), libc.X__builtin_object_size(tls, (*Fts5Data)(unsafe.Pointer(pData)).Fp, 0))
}
fts5MultiIterNew2(tls, p, pData, bDesc, ppIter)
}
sqlite3Fts5BufferFree(tls, bp)
}
fts5StructureRelease(tls, pStruct)
Xsqlite3_free(tls, aBuf)
}
func sqlite3Fts5IndexBeginWrite(tls *libc.TLS, p uintptr, bDelete int32, iRowid I64) int32 {
if (*Fts5Index)(unsafe.Pointer(p)).FpHash == uintptr(0) {
(*Fts5Index)(unsafe.Pointer(p)).Frc = sqlite3Fts5HashNew(tls, (*Fts5Index)(unsafe.Pointer(p)).FpConfig, p+24, p+32)
}
if iRowid < (*Fts5Index)(unsafe.Pointer(p)).FiWriteRowid ||
iRowid == (*Fts5Index)(unsafe.Pointer(p)).FiWriteRowid && (*Fts5Index)(unsafe.Pointer(p)).FbDelete == 0 ||
(*Fts5Index)(unsafe.Pointer(p)).FnPendingData > (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FnHashSize {
fts5IndexFlush(tls, p)
}
(*Fts5Index)(unsafe.Pointer(p)).FiWriteRowid = iRowid
(*Fts5Index)(unsafe.Pointer(p)).FbDelete = bDelete
return fts5IndexReturn(tls, p)
}
func sqlite3Fts5IndexSync(tls *libc.TLS, p uintptr) int32 {
fts5IndexFlush(tls, p)
sqlite3Fts5IndexCloseReader(tls, p)
return fts5IndexReturn(tls, p)
}
func sqlite3Fts5IndexRollback(tls *libc.TLS, p uintptr) int32 {
sqlite3Fts5IndexCloseReader(tls, p)
fts5IndexDiscardData(tls, p)
fts5StructureInvalidate(tls, p)
return SQLITE_OK
}
func sqlite3Fts5IndexReinit(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(40)
defer tls.Free(40)
fts5StructureInvalidate(tls, p)
fts5IndexDiscardData(tls, p)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Fts5Structure{})), libc.X__builtin_object_size(tls, bp, 0))
fts5DataWrite(tls, p, int64(FTS5_AVERAGES_ROWID), ts+1547, 0)
fts5StructureWrite(tls, p, bp)
return fts5IndexReturn(tls, p)
}
func sqlite3Fts5IndexOpen(tls *libc.TLS, pConfig uintptr, bCreate int32, pp uintptr, pzErr uintptr) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
*(*int32)(unsafe.Pointer(bp + 8)) = SQLITE_OK
var p uintptr
*(*uintptr)(unsafe.Pointer(pp)) = libc.AssignUintptr(&p, sqlite3Fts5MallocZero(tls, bp+8, int64(unsafe.Sizeof(Fts5Index{}))))
if *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK {
(*Fts5Index)(unsafe.Pointer(p)).FpConfig = pConfig
(*Fts5Index)(unsafe.Pointer(p)).FnWorkUnit = FTS5_WORK_UNIT
(*Fts5Index)(unsafe.Pointer(p)).FzDataTbl = sqlite3Fts5Mprintf(tls, bp+8, ts+35589, libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName))
if (*Fts5Index)(unsafe.Pointer(p)).FzDataTbl != 0 && bCreate != 0 {
*(*int32)(unsafe.Pointer(bp + 8)) = sqlite3Fts5CreateTable(tls,
pConfig, ts+25506, ts+35597, 0, pzErr)
if *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 8)) = sqlite3Fts5CreateTable(tls, pConfig, ts+11891,
ts+35632,
1, pzErr)
}
if *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 8)) = sqlite3Fts5IndexReinit(tls, p)
}
}
}
if *(*int32)(unsafe.Pointer(bp + 8)) != 0 {
sqlite3Fts5IndexClose(tls, p)
*(*uintptr)(unsafe.Pointer(pp)) = uintptr(0)
}
return *(*int32)(unsafe.Pointer(bp + 8))
}
func sqlite3Fts5IndexClose(tls *libc.TLS, p uintptr) int32 {
var rc int32 = SQLITE_OK
if p != 0 {
fts5StructureInvalidate(tls, p)
Xsqlite3_finalize(tls, (*Fts5Index)(unsafe.Pointer(p)).FpWriter)
Xsqlite3_finalize(tls, (*Fts5Index)(unsafe.Pointer(p)).FpDeleter)
Xsqlite3_finalize(tls, (*Fts5Index)(unsafe.Pointer(p)).FpIdxWriter)
Xsqlite3_finalize(tls, (*Fts5Index)(unsafe.Pointer(p)).FpIdxDeleter)
Xsqlite3_finalize(tls, (*Fts5Index)(unsafe.Pointer(p)).FpIdxSelect)
Xsqlite3_finalize(tls, (*Fts5Index)(unsafe.Pointer(p)).FpDataVersion)
sqlite3Fts5HashFree(tls, (*Fts5Index)(unsafe.Pointer(p)).FpHash)
Xsqlite3_free(tls, (*Fts5Index)(unsafe.Pointer(p)).FzDataTbl)
Xsqlite3_free(tls, p)
}
return rc
}
func sqlite3Fts5IndexCharlenToBytelen(tls *libc.TLS, p uintptr, nByte int32, nChar int32) int32 {
var n int32 = 0
var i int32
for i = 0; i < nChar; i++ {
if n >= nByte {
return 0
}
if int32(uint8(*(*int8)(unsafe.Pointer(p + uintptr(libc.PostIncInt32(&n, 1)))))) >= 0xc0 {
if n >= nByte {
return 0
}
for int32(*(*int8)(unsafe.Pointer(p + uintptr(n))))&0xc0 == 0x80 {
n++
if n >= nByte {
if i+1 == nChar {
break
}
return 0
}
}
}
}
return n
}
func fts5IndexCharlen(tls *libc.TLS, pIn uintptr, nIn int32) int32 {
var nChar int32 = 0
var i int32 = 0
for i < nIn {
if int32(uint8(*(*int8)(unsafe.Pointer(pIn + uintptr(libc.PostIncInt32(&i, 1)))))) >= 0xc0 {
for i < nIn && int32(*(*int8)(unsafe.Pointer(pIn + uintptr(i))))&0xc0 == 0x80 {
i++
}
}
nChar++
}
return nChar
}
func sqlite3Fts5IndexWrite(tls *libc.TLS, p uintptr, iCol int32, iPos int32, pToken uintptr, nToken int32) int32 {
var i int32
var rc int32 = SQLITE_OK
var pConfig uintptr = (*Fts5Index)(unsafe.Pointer(p)).FpConfig
rc = sqlite3Fts5HashWrite(tls,
(*Fts5Index)(unsafe.Pointer(p)).FpHash, (*Fts5Index)(unsafe.Pointer(p)).FiWriteRowid, iCol, iPos, int8('0'), pToken, nToken)
for i = 0; i < (*Fts5Config)(unsafe.Pointer(pConfig)).FnPrefix && rc == SQLITE_OK; i++ {
var nChar int32 = *(*int32)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FaPrefix + uintptr(i)*4))
var nByte int32 = sqlite3Fts5IndexCharlenToBytelen(tls, pToken, nToken, nChar)
if nByte != 0 {
rc = sqlite3Fts5HashWrite(tls, (*Fts5Index)(unsafe.Pointer(p)).FpHash,
(*Fts5Index)(unsafe.Pointer(p)).FiWriteRowid, iCol, iPos, int8('0'+i+1), pToken,
nByte)
}
}
return rc
}
func sqlite3Fts5IndexQuery(tls *libc.TLS, p uintptr, pToken uintptr, nToken int32, flags int32, pColset uintptr, ppIter uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var pConfig uintptr = (*Fts5Index)(unsafe.Pointer(p)).FpConfig
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
*(*Fts5Buffer)(unsafe.Pointer(bp)) = Fts5Buffer{}
if sqlite3Fts5BufferSize(tls, p+52, bp, uint32(nToken+1)) == 0 {
var iIdx int32 = 0
var iPrefixIdx int32 = 0
if nToken > 0 {
libc.X__builtin___memcpy_chk(tls, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp+1, pToken, uint64(nToken), libc.X__builtin_object_size(tls, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp+1, 0))
}
if flags&FTS5INDEX_QUERY_PREFIX != 0 {
var nChar int32 = fts5IndexCharlen(tls, pToken, nToken)
for iIdx = 1; iIdx <= (*Fts5Config)(unsafe.Pointer(pConfig)).FnPrefix; iIdx++ {
var nIdxChar int32 = *(*int32)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FaPrefix + uintptr(iIdx-1)*4))
if nIdxChar == nChar {
break
}
if nIdxChar == nChar+1 {
iPrefixIdx = iIdx
}
}
}
if iIdx <= (*Fts5Config)(unsafe.Pointer(pConfig)).FnPrefix {
var pStruct uintptr = fts5StructureRead(tls, p)
*(*U8)(unsafe.Pointer((*Fts5Buffer)(unsafe.Pointer(bp)).Fp)) = U8('0' + iIdx)
if pStruct != 0 {
fts5MultiIterNew(tls, p, pStruct, flags|FTS5INDEX_QUERY_SKIPEMPTY,
pColset, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp, nToken+1, -1, 0, bp+16)
fts5StructureRelease(tls, pStruct)
}
} else {
var bDesc int32 = libc.Bool32(flags&FTS5INDEX_QUERY_DESC != 0)
fts5SetupPrefixIter(tls, p, bDesc, iPrefixIdx, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp, nToken+1, pColset, bp+16)
if *(*uintptr)(unsafe.Pointer(bp + 16)) == uintptr(0) {
} else {
fts5IterSetOutputCb(tls, p+52, *(*uintptr)(unsafe.Pointer(bp + 16)))
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var pSeg uintptr = *(*uintptr)(unsafe.Pointer(bp + 16)) + 96 + uintptr((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FaFirst+1*4)).FiFirst)*120
if (*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf != 0 {
(*struct {
f func(*libc.TLS, uintptr, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 16)))).FxSetOutputs})).f(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), pSeg)
}
}
}
}
if (*Fts5Index)(unsafe.Pointer(p)).Frc != 0 {
sqlite3Fts5IterClose(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
sqlite3Fts5IndexCloseReader(tls, p)
}
*(*uintptr)(unsafe.Pointer(ppIter)) = *(*uintptr)(unsafe.Pointer(bp + 16))
sqlite3Fts5BufferFree(tls, bp)
}
return fts5IndexReturn(tls, p)
}
func sqlite3Fts5IterNext(tls *libc.TLS, pIndexIter uintptr) int32 {
var pIter uintptr = pIndexIter
fts5MultiIterNext(tls, (*Fts5Iter)(unsafe.Pointer(pIter)).FpIndex, pIter, 0, int64(0))
return fts5IndexReturn(tls, (*Fts5Iter)(unsafe.Pointer(pIter)).FpIndex)
}
func sqlite3Fts5IterNextScan(tls *libc.TLS, pIndexIter uintptr) int32 {
var pIter uintptr = pIndexIter
var p uintptr = (*Fts5Iter)(unsafe.Pointer(pIter)).FpIndex
fts5MultiIterNext(tls, p, pIter, 0, int64(0))
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var pSeg uintptr = pIter + 96 + uintptr((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(pIter)).FaFirst+1*4)).FiFirst)*120
if (*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf != 0 && int32(*(*U8)(unsafe.Pointer((*Fts5SegIter)(unsafe.Pointer(pSeg)).Fterm.Fp))) != '0' {
fts5DataRelease(tls, (*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf)
(*Fts5SegIter)(unsafe.Pointer(pSeg)).FpLeaf = uintptr(0)
(*Fts5Iter)(unsafe.Pointer(pIter)).Fbase.FbEof = U8(1)
}
}
return fts5IndexReturn(tls, (*Fts5Iter)(unsafe.Pointer(pIter)).FpIndex)
}
func sqlite3Fts5IterNextFrom(tls *libc.TLS, pIndexIter uintptr, iMatch I64) int32 {
var pIter uintptr = pIndexIter
fts5MultiIterNextFrom(tls, (*Fts5Iter)(unsafe.Pointer(pIter)).FpIndex, pIter, iMatch)
return fts5IndexReturn(tls, (*Fts5Iter)(unsafe.Pointer(pIter)).FpIndex)
}
func sqlite3Fts5IterTerm(tls *libc.TLS, pIndexIter uintptr, pn uintptr) uintptr {
bp := tls.Alloc(4)
defer tls.Free(4)
var z uintptr = fts5MultiIterTerm(tls, pIndexIter, bp)
*(*int32)(unsafe.Pointer(pn)) = *(*int32)(unsafe.Pointer(bp)) - 1
return func() uintptr {
if z != 0 {
return z + 1
}
return uintptr(0)
}()
}
func sqlite3Fts5IterClose(tls *libc.TLS, pIndexIter uintptr) {
if pIndexIter != 0 {
var pIter uintptr = pIndexIter
var pIndex uintptr = (*Fts5Iter)(unsafe.Pointer(pIter)).FpIndex
fts5MultiIterFree(tls, pIter)
sqlite3Fts5IndexCloseReader(tls, pIndex)
}
}
func sqlite3Fts5IndexGetAverages(tls *libc.TLS, p uintptr, pnRow uintptr, anSize uintptr) int32 {
var nCol int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FnCol
var pData uintptr
*(*I64)(unsafe.Pointer(pnRow)) = int64(0)
libc.X__builtin___memset_chk(tls, anSize, 0, uint64(unsafe.Sizeof(I64(0)))*uint64(nCol), libc.X__builtin_object_size(tls, anSize, 0))
pData = fts5DataRead(tls, p, int64(FTS5_AVERAGES_ROWID))
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && (*Fts5Data)(unsafe.Pointer(pData)).Fnn != 0 {
var i int32 = 0
var iCol int32
i = i + int32(sqlite3Fts5GetVarint(tls, (*Fts5Data)(unsafe.Pointer(pData)).Fp+uintptr(i), pnRow))
for iCol = 0; i < (*Fts5Data)(unsafe.Pointer(pData)).Fnn && iCol < nCol; iCol++ {
i = i + int32(sqlite3Fts5GetVarint(tls, (*Fts5Data)(unsafe.Pointer(pData)).Fp+uintptr(i), anSize+uintptr(iCol)*8))
}
}
fts5DataRelease(tls, pData)
return fts5IndexReturn(tls, p)
}
func sqlite3Fts5IndexSetAverages(tls *libc.TLS, p uintptr, pData uintptr, nData int32) int32 {
fts5DataWrite(tls, p, int64(FTS5_AVERAGES_ROWID), pData, nData)
return fts5IndexReturn(tls, p)
}
func sqlite3Fts5IndexReads(tls *libc.TLS, p uintptr) int32 {
return (*Fts5Index)(unsafe.Pointer(p)).FnRead
}
func sqlite3Fts5IndexSetCookie(tls *libc.TLS, p uintptr, iNew int32) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var rc int32
var pConfig uintptr = (*Fts5Index)(unsafe.Pointer(p)).FpConfig
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
sqlite3Fts5Put32(tls, bp, iNew)
rc = Xsqlite3_blob_open(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Index)(unsafe.Pointer(p)).FzDataTbl,
ts+35279, int64(FTS5_STRUCTURE_ROWID), 1, bp+8)
if rc == SQLITE_OK {
Xsqlite3_blob_write(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), bp, 4, 0)
rc = Xsqlite3_blob_close(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
return rc
}
func sqlite3Fts5IndexLoadConfig(tls *libc.TLS, p uintptr) int32 {
var pStruct uintptr
pStruct = fts5StructureRead(tls, p)
fts5StructureRelease(tls, pStruct)
return fts5IndexReturn(tls, p)
}
func sqlite3Fts5IndexEntryCksum(tls *libc.TLS, iRowid I64, iCol int32, iPos int32, iIdx int32, pTerm uintptr, nTerm int32) U64 {
var i int32
var ret U64 = U64(iRowid)
ret = ret + (ret<<3 + U64(iCol))
ret = ret + (ret<<3 + U64(iPos))
if iIdx >= 0 {
ret = ret + (ret<<3 + U64('0'+iIdx))
}
for i = 0; i < nTerm; i++ {
ret = ret + (ret<<3 + U64(*(*int8)(unsafe.Pointer(pTerm + uintptr(i)))))
}
return ret
}
func fts5IndexIntegrityCheckEmpty(tls *libc.TLS, p uintptr, pSeg uintptr, iFirst int32, iNoRowid int32, iLast int32) {
var i int32
for i = iFirst; (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && i <= iLast; i++ {
var pLeaf uintptr = fts5DataRead(tls, p, I64((*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FiSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B)+int64(0)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B)+int64(0)<<FTS5_DATA_PAGE_B+I64(i))
if pLeaf != 0 {
if !((*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf >= (*Fts5Data)(unsafe.Pointer(pLeaf)).Fnn) {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
}
if i >= iNoRowid && 0 != int32(fts5GetU16(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp)) {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
}
}
fts5DataRelease(tls, pLeaf)
}
}
func fts5IntegrityCheckPgidx(tls *libc.TLS, p uintptr, pLeaf uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
var iTermOff int32 = 0
var ii int32
*(*Fts5Buffer)(unsafe.Pointer(bp + 8)) = Fts5Buffer{}
*(*Fts5Buffer)(unsafe.Pointer(bp + 32)) = Fts5Buffer{}
ii = (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf
for ii < (*Fts5Data)(unsafe.Pointer(pLeaf)).Fnn && (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
var res int32
var iOff int32
ii = ii + sqlite3Fts5GetVarint32(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp+uintptr(ii), bp)
iTermOff = iTermOff + *(*int32)(unsafe.Pointer(bp))
iOff = iTermOff
if iOff >= (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
} else if iTermOff == *(*int32)(unsafe.Pointer(bp)) {
iOff = iOff + sqlite3Fts5GetVarint32(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp+uintptr(iOff), bp+4)
if iOff+*(*int32)(unsafe.Pointer(bp + 4)) > (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
} else {
sqlite3Fts5BufferSet(tls, p+52, bp+8, *(*int32)(unsafe.Pointer(bp + 4)), (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp+uintptr(iOff))
}
} else {
iOff = iOff + sqlite3Fts5GetVarint32(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp+uintptr(iOff), bp+24)
iOff = iOff + sqlite3Fts5GetVarint32(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp+uintptr(iOff), bp+28)
if *(*int32)(unsafe.Pointer(bp + 24)) > (*Fts5Buffer)(unsafe.Pointer(bp+8)).Fn || iOff+*(*int32)(unsafe.Pointer(bp + 28)) > (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
} else {
(*Fts5Buffer)(unsafe.Pointer(bp + 8)).Fn = *(*int32)(unsafe.Pointer(bp + 24))
sqlite3Fts5BufferAppendBlob(tls, p+52, bp+8, uint32(*(*int32)(unsafe.Pointer(bp + 28))), (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp+uintptr(iOff))
}
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
res = fts5BufferCompare(tls, bp+8, bp+32)
if res <= 0 {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
}
}
}
sqlite3Fts5BufferSet(tls, p+52, bp+32, (*Fts5Buffer)(unsafe.Pointer(bp+8)).Fn, (*Fts5Buffer)(unsafe.Pointer(bp+8)).Fp)
}
sqlite3Fts5BufferFree(tls, bp+8)
sqlite3Fts5BufferFree(tls, bp+32)
}
func fts5IndexIntegrityCheckSegment(tls *libc.TLS, p uintptr, pSeg uintptr) {
bp := tls.Alloc(48)
defer tls.Free(48)
var pConfig uintptr = (*Fts5Index)(unsafe.Pointer(p)).FpConfig
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
var rc2 int32
var iIdxPrevLeaf int32 = (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoFirst - 1
var iDlidxPrevLeaf int32 = (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoLast
if (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoFirst == 0 {
return
}
fts5IndexPrepareStmt(tls, p, bp+24, Xsqlite3_mprintf(tls,
ts+35676,
libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName, (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FiSegid)))
for (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 24))) {
var iRow I64
var pLeaf uintptr
var zIdxTerm uintptr = Xsqlite3_column_blob(tls, *(*uintptr)(unsafe.Pointer(bp + 24)), 1)
var nIdxTerm int32 = Xsqlite3_column_bytes(tls, *(*uintptr)(unsafe.Pointer(bp + 24)), 1)
var iIdxLeaf int32 = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 24)), 2)
var bIdxDlidx int32 = Xsqlite3_column_int(tls, *(*uintptr)(unsafe.Pointer(bp + 24)), 3)
if iIdxLeaf < (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoFirst {
continue
}
iRow = I64((*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FiSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B) + int64(0)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B) + int64(0)<<FTS5_DATA_PAGE_B + I64(iIdxLeaf)
pLeaf = fts5LeafRead(tls, p, iRow)
if pLeaf == uintptr(0) {
break
}
if (*Fts5Data)(unsafe.Pointer(pLeaf)).Fnn <= (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
} else {
var iOff int32
var iRowidOff int32
var res int32
iOff = fts5LeafFirstTermOff(tls, pLeaf)
iRowidOff = int32(fts5GetU16(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp))
if iRowidOff >= iOff || iOff >= (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
} else {
iOff = iOff + sqlite3Fts5GetVarint32(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp+uintptr(iOff), bp+32)
res = func() int32 {
if func() int32 {
if *(*int32)(unsafe.Pointer(bp + 32)) < nIdxTerm {
return *(*int32)(unsafe.Pointer(bp + 32))
}
return nIdxTerm
}() <= 0 {
return 0
}
return libc.Xmemcmp(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp+uintptr(iOff), zIdxTerm, func() uint64 {
if *(*int32)(unsafe.Pointer(bp + 32)) < nIdxTerm {
return uint64(*(*int32)(unsafe.Pointer(bp + 32)))
}
return uint64(nIdxTerm)
}())
}()
if res == 0 {
res = *(*int32)(unsafe.Pointer(bp + 32)) - nIdxTerm
}
if res < 0 {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
}
}
fts5IntegrityCheckPgidx(tls, p, pLeaf)
}
fts5DataRelease(tls, pLeaf)
if (*Fts5Index)(unsafe.Pointer(p)).Frc != 0 {
break
}
fts5IndexIntegrityCheckEmpty(tls,
p, pSeg, iIdxPrevLeaf+1, iDlidxPrevLeaf+1, iIdxLeaf-1)
if (*Fts5Index)(unsafe.Pointer(p)).Frc != 0 {
break
}
if bIdxDlidx != 0 {
var pDlidx uintptr = uintptr(0)
var iPrevLeaf int32 = iIdxLeaf
var iSegid int32 = (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FiSegid
var iPg int32 = 0
var iKey I64
for pDlidx = fts5DlidxIterInit(tls, p, 0, iSegid, iIdxLeaf); fts5DlidxIterEof(tls, p, pDlidx) == 0; fts5DlidxIterNext(tls, p, pDlidx) {
for iPg = iPrevLeaf + 1; iPg < fts5DlidxIterPgno(tls, pDlidx); iPg++ {
iKey = I64(iSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B) + int64(0)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B) + int64(0)<<FTS5_DATA_PAGE_B + I64(iPg)
pLeaf = fts5DataRead(tls, p, iKey)
if pLeaf != 0 {
if int32(fts5GetU16(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp)) != 0 {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
}
fts5DataRelease(tls, pLeaf)
}
}
iPrevLeaf = fts5DlidxIterPgno(tls, pDlidx)
iKey = I64(iSegid)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B+FTS5_DATA_DLI_B) + int64(0)<<(FTS5_DATA_PAGE_B+FTS5_DATA_HEIGHT_B) + int64(0)<<FTS5_DATA_PAGE_B + I64(iPrevLeaf)
pLeaf = fts5DataRead(tls, p, iKey)
if pLeaf != 0 {
var iRowidOff int32 = int32(fts5GetU16(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp))
if iRowidOff >= (*Fts5Data)(unsafe.Pointer(pLeaf)).FszLeaf {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
} else {
sqlite3Fts5GetVarint(tls, (*Fts5Data)(unsafe.Pointer(pLeaf)).Fp+uintptr(iRowidOff), bp+40)
if *(*I64)(unsafe.Pointer(bp + 40)) != fts5DlidxIterRowid(tls, pDlidx) {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
}
}
fts5DataRelease(tls, pLeaf)
}
}
iDlidxPrevLeaf = iPg
fts5DlidxIterFree(tls, pDlidx)
} else {
iDlidxPrevLeaf = (*Fts5StructureSegment)(unsafe.Pointer(pSeg)).FpgnoLast
}
iIdxPrevLeaf = iIdxLeaf
}
rc2 = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK {
(*Fts5Index)(unsafe.Pointer(p)).Frc = rc2
}
}
func sqlite3Fts5IndexIntegrityCheck(tls *libc.TLS, p uintptr, cksum U64, bUseCksum int32) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
var eDetail int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Index)(unsafe.Pointer(p)).FpConfig)).FeDetail
var cksum2 U64 = uint64(0)
*(*Fts5Buffer)(unsafe.Pointer(bp + 16)) = Fts5Buffer{}
var pStruct uintptr
var iLvl int32
var iSeg int32
var flags int32 = FTS5INDEX_QUERY_NOOUTPUT
pStruct = fts5StructureRead(tls, p)
if pStruct == uintptr(0) {
return fts5IndexReturn(tls, p)
}
for iLvl = 0; iLvl < (*Fts5Structure)(unsafe.Pointer(pStruct)).FnLevel; iLvl++ {
for iSeg = 0; iSeg < (*Fts5StructureLevel)(unsafe.Pointer(pStruct+24+uintptr(iLvl)*16)).FnSeg; iSeg++ {
var pSeg uintptr = (*Fts5StructureLevel)(unsafe.Pointer(pStruct+24+uintptr(iLvl)*16)).FaSeg + uintptr(iSeg)*12
fts5IndexIntegrityCheckSegment(tls, p, pSeg)
}
}
for fts5MultiIterNew(tls, p, pStruct, flags, uintptr(0), uintptr(0), 0, -1, 0, bp); fts5MultiIterEof(tls, p, *(*uintptr)(unsafe.Pointer(bp))) == 0; fts5MultiIterNext(tls, p, *(*uintptr)(unsafe.Pointer(bp)), 0, int64(0)) {
*(*I64)(unsafe.Pointer(bp + 40)) = int64(0)
*(*int32)(unsafe.Pointer(bp + 32)) = 0
var iRowid I64 = fts5MultiIterRowid(tls, *(*uintptr)(unsafe.Pointer(bp)))
var z uintptr = fts5MultiIterTerm(tls, *(*uintptr)(unsafe.Pointer(bp)), bp+8)
if (*Fts5Index)(unsafe.Pointer(p)).Frc != 0 {
break
}
if eDetail == FTS5_DETAIL_NONE {
if 0 == fts5MultiIterIsEmpty(tls, p, *(*uintptr)(unsafe.Pointer(bp))) {
cksum2 = cksum2 ^ sqlite3Fts5IndexEntryCksum(tls, iRowid, 0, 0, -1, z, *(*int32)(unsafe.Pointer(bp + 8)))
}
} else {
(*Fts5Buffer)(unsafe.Pointer(bp + 16)).Fn = 0
fts5SegiterPoslist(tls, p, *(*uintptr)(unsafe.Pointer(bp))+96+uintptr((*Fts5CResult)(unsafe.Pointer((*Fts5Iter)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FaFirst+1*4)).FiFirst)*120, uintptr(0), bp+16)
sqlite3Fts5BufferAppendBlob(tls, p+52, bp+16, uint32(4), ts+35762)
for 0 == sqlite3Fts5PoslistNext64(tls, (*Fts5Buffer)(unsafe.Pointer(bp+16)).Fp, (*Fts5Buffer)(unsafe.Pointer(bp+16)).Fn, bp+32, bp+40) {
var iCol int32 = int32(*(*I64)(unsafe.Pointer(bp + 40)) >> 32)
var iTokOff int32 = int32(*(*I64)(unsafe.Pointer(bp + 40)) & int64(0x7FFFFFFF))
cksum2 = cksum2 ^ sqlite3Fts5IndexEntryCksum(tls, iRowid, iCol, iTokOff, -1, z, *(*int32)(unsafe.Pointer(bp + 8)))
}
}
}
fts5MultiIterFree(tls, *(*uintptr)(unsafe.Pointer(bp)))
if (*Fts5Index)(unsafe.Pointer(p)).Frc == SQLITE_OK && bUseCksum != 0 && cksum != cksum2 {
(*Fts5Index)(unsafe.Pointer(p)).Frc = SQLITE_CORRUPT | int32(1)<<8
}
fts5StructureRelease(tls, pStruct)
sqlite3Fts5BufferFree(tls, bp+16)
return fts5IndexReturn(tls, p)
}
func sqlite3Fts5IndexInit(tls *libc.TLS, db uintptr) int32 {
return SQLITE_OK
_ = db
return int32(0)
}
func sqlite3Fts5IndexReset(tls *libc.TLS, p uintptr) int32 {
if fts5IndexDataVersion(tls, p) != (*Fts5Index)(unsafe.Pointer(p)).FiStructVersion {
fts5StructureInvalidate(tls, p)
}
return fts5IndexReturn(tls, p)
}
type Fts5Auxdata1 = struct {
FpAux uintptr
FpPtr uintptr
FxDelete uintptr
FpNext uintptr
}
type Fts5Auxdata = Fts5Auxdata1
type Fts5Auxiliary1 = struct {
FpGlobal uintptr
FzFunc uintptr
FpUserData uintptr
FxFunc Fts5_extension_function
FxDestroy uintptr
FpNext uintptr
}
type Fts5Auxiliary = Fts5Auxiliary1
type Fts5Cursor1 = struct {
Fbase Sqlite3_vtab_cursor
FpNext uintptr
FaColumnSize uintptr
FiCsrId I64
FePlan int32
FbDesc int32
FiFirstRowid I64
FiLastRowid I64
FpStmt uintptr
FpExpr uintptr
FpSorter uintptr
Fcsrflags int32
F__ccgo_pad1 [4]byte
FiSpecial I64
FzRank uintptr
FzRankArgs uintptr
FpRank uintptr
FnRankArg int32
F__ccgo_pad2 [4]byte
FapRankArg uintptr
FpRankArgStmt uintptr
FpAux uintptr
FpAuxdata uintptr
FaInstIter uintptr
FnInstAlloc int32
FnInstCount int32
FaInst uintptr
}
type Fts5Cursor = Fts5Cursor1
type Fts5FullTable1 = struct {
Fp Fts5Table
FpStorage uintptr
FpGlobal uintptr
FpSortCsr uintptr
}
type Fts5FullTable = Fts5FullTable1
type Fts5Sorter1 = struct {
FpStmt uintptr
FiRowid I64
FaPoslist uintptr
FnIdx int32
FaIdx [1]int32
}
type Fts5Sorter = Fts5Sorter1
type Fts5TokenizerModule1 = struct {
FzName uintptr
FpUserData uintptr
Fx Fts5_tokenizer
FxDestroy uintptr
FpNext uintptr
}
type Fts5TokenizerModule = Fts5TokenizerModule1
// NOTES ON TRANSACTIONS:
//
// SQLite invokes the following virtual table methods as transactions are
// opened and closed by the user:
//
// xBegin(): Start of a new transaction.
// xSync(): Initial part of two-phase commit.
// xCommit(): Final part of two-phase commit.
// xRollback(): Rollback the transaction.
//
// Anything that is required as part of a commit that may fail is performed
// in the xSync() callback. Current versions of SQLite ignore any errors
// returned by xCommit().
//
// And as sub-transactions are opened/closed:
//
// xSavepoint(int S): Open savepoint S.
// xRelease(int S): Commit and close savepoint S.
// xRollbackTo(int S): Rollback to start of savepoint S.
//
// During a write-transaction the fts5_index.c module may cache some data
// in-memory. It is flushed to disk whenever xSync(), xRelease() or
// xSavepoint() is called. And discarded whenever xRollback() or xRollbackTo()
// is called.
//
// Additionally, if SQLITE_DEBUG is defined, an instance of the following
// structure is used to record the current transaction state. This information
// is not required, but it is used in the assert() statements executed by
// function fts5CheckTransactionState() (see below).
type Fts5TransactionState = struct {
FeState int32
FiSavepoint int32
}
type Fts5MatchPhrase = struct {
FpPoslist uintptr
FnTerm int32
F__ccgo_pad1 [4]byte
}
func fts5IsContentless(tls *libc.TLS, pTab uintptr) int32 {
return libc.Bool32((*Fts5Config)(unsafe.Pointer((*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig)).FeContent == FTS5_CONTENT_NONE)
}
func fts5FreeVtab(tls *libc.TLS, pTab uintptr) {
if pTab != 0 {
sqlite3Fts5IndexClose(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpIndex)
sqlite3Fts5StorageClose(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage)
sqlite3Fts5ConfigFree(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig)
Xsqlite3_free(tls, pTab)
}
}
func fts5DisconnectMethod(tls *libc.TLS, pVtab uintptr) int32 {
fts5FreeVtab(tls, pVtab)
return SQLITE_OK
}
func fts5DestroyMethod(tls *libc.TLS, pVtab uintptr) int32 {
var pTab uintptr = pVtab
var rc int32 = sqlite3Fts5DropAll(tls, (*Fts5Table)(unsafe.Pointer(pTab)).FpConfig)
if rc == SQLITE_OK {
fts5FreeVtab(tls, pVtab)
}
return rc
}
func fts5InitVtab(tls *libc.TLS, bCreate int32, db uintptr, pAux uintptr, argc int32, argv uintptr, ppVTab uintptr, pzErr uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var pGlobal uintptr = pAux
var azConfig uintptr = argv
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
var pTab uintptr = uintptr(0)
pTab = sqlite3Fts5MallocZero(tls, bp, int64(unsafe.Sizeof(Fts5FullTable{})))
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp)) = sqlite3Fts5ConfigParse(tls, pGlobal, db, argc, azConfig, bp+8, pzErr)
}
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
(*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig = *(*uintptr)(unsafe.Pointer(bp + 8))
(*Fts5FullTable)(unsafe.Pointer(pTab)).FpGlobal = pGlobal
}
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp)) = sqlite3Fts5IndexOpen(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), bCreate, pTab+32, pzErr)
}
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp)) = sqlite3Fts5StorageOpen(tls,
*(*uintptr)(unsafe.Pointer(bp + 8)), (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpIndex, bCreate, pTab+40, pzErr)
}
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp)) = sqlite3Fts5ConfigDeclareVtab(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
}
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
(*Fts5Config)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FpzErrmsg = pzErr
*(*int32)(unsafe.Pointer(bp)) = sqlite3Fts5IndexLoadConfig(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpIndex)
sqlite3Fts5IndexRollback(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpIndex)
(*Fts5Config)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp + 8)))).FpzErrmsg = uintptr(0)
}
if *(*int32)(unsafe.Pointer(bp)) != SQLITE_OK {
fts5FreeVtab(tls, pTab)
pTab = uintptr(0)
} else if bCreate != 0 {
}
*(*uintptr)(unsafe.Pointer(ppVTab)) = pTab
return *(*int32)(unsafe.Pointer(bp))
}
func fts5ConnectMethod(tls *libc.TLS, db uintptr, pAux uintptr, argc int32, argv uintptr, ppVtab uintptr, pzErr uintptr) int32 {
return fts5InitVtab(tls, 0, db, pAux, argc, argv, ppVtab, pzErr)
}
func fts5CreateMethod(tls *libc.TLS, db uintptr, pAux uintptr, argc int32, argv uintptr, ppVtab uintptr, pzErr uintptr) int32 {
return fts5InitVtab(tls, 1, db, pAux, argc, argv, ppVtab, pzErr)
}
func fts5SetUniqueFlag(tls *libc.TLS, pIdxInfo uintptr) {
{
*(*int32)(unsafe.Pointer(pIdxInfo + 80)) |= SQLITE_INDEX_SCAN_UNIQUE
}
}
func fts5UsePatternMatch(tls *libc.TLS, pConfig uintptr, p uintptr) int32 {
if (*Fts5Config)(unsafe.Pointer(pConfig)).FePattern == FTS5_PATTERN_GLOB && int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == FTS5_PATTERN_GLOB {
return 1
}
if (*Fts5Config)(unsafe.Pointer(pConfig)).FePattern == FTS5_PATTERN_LIKE &&
(int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == FTS5_PATTERN_LIKE || int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == FTS5_PATTERN_GLOB) {
return 1
}
return 0
}
func fts5BestIndexMethod(tls *libc.TLS, pVTab uintptr, pInfo uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var pTab uintptr = pVTab
var pConfig uintptr = (*Fts5Table)(unsafe.Pointer(pTab)).FpConfig
var nCol int32 = (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol
var idxFlags int32 = 0
var i int32
var idxStr uintptr
var iIdxStr int32 = 0
var iCons int32 = 0
var bSeenEq int32 = 0
var bSeenGt int32 = 0
var bSeenLt int32 = 0
var bSeenMatch int32 = 0
var bSeenRank int32 = 0
if (*Fts5Config)(unsafe.Pointer(pConfig)).FbLock != 0 {
(*Fts5Table)(unsafe.Pointer(pTab)).Fbase.FzErrMsg = Xsqlite3_mprintf(tls,
ts+35767, 0)
return SQLITE_ERROR
}
idxStr = Xsqlite3_malloc(tls, (*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FnConstraint*8+1)
if idxStr == uintptr(0) {
return SQLITE_NOMEM
}
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FidxStr = idxStr
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FneedToFreeIdxStr = 1
for i = 0; i < (*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FnConstraint; i++ {
var p uintptr = (*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaConstraint + uintptr(i)*12
var iCol int32 = (*sqlite3_index_constraint)(unsafe.Pointer(p)).FiColumn
if int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == SQLITE_INDEX_CONSTRAINT_MATCH ||
int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == SQLITE_INDEX_CONSTRAINT_EQ && iCol >= nCol {
if int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fusable) == 0 || iCol < 0 {
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FestimatedCost = 1e50
*(*int8)(unsafe.Pointer(idxStr + uintptr(iIdxStr))) = int8(0)
return SQLITE_OK
} else {
if iCol == nCol+1 {
if bSeenRank != 0 {
continue
}
*(*int8)(unsafe.Pointer(idxStr + uintptr(libc.PostIncInt32(&iIdxStr, 1)))) = int8('r')
bSeenRank = 1
} else if iCol >= 0 {
bSeenMatch = 1
*(*int8)(unsafe.Pointer(idxStr + uintptr(libc.PostIncInt32(&iIdxStr, 1)))) = int8('M')
Xsqlite3_snprintf(tls, 6, idxStr+uintptr(iIdxStr), ts+5378, libc.VaList(bp, iCol))
idxStr += uintptr(libc.Xstrlen(tls, idxStr+uintptr(iIdxStr)))
}
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaConstraintUsage + uintptr(i)*8)).FargvIndex = libc.PreIncInt32(&iCons, 1)
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaConstraintUsage + uintptr(i)*8)).Fomit = uint8(1)
}
} else if (*sqlite3_index_constraint)(unsafe.Pointer(p)).Fusable != 0 {
if iCol >= 0 && iCol < nCol && fts5UsePatternMatch(tls, pConfig, p) != 0 {
*(*int8)(unsafe.Pointer(idxStr + uintptr(libc.PostIncInt32(&iIdxStr, 1)))) = func() int8 {
if int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == FTS5_PATTERN_LIKE {
return int8('L')
}
return int8('G')
}()
Xsqlite3_snprintf(tls, 6, idxStr+uintptr(iIdxStr), ts+5378, libc.VaList(bp+8, iCol))
idxStr += uintptr(libc.Xstrlen(tls, idxStr+uintptr(iIdxStr)))
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaConstraintUsage + uintptr(i)*8)).FargvIndex = libc.PreIncInt32(&iCons, 1)
} else if bSeenEq == 0 && int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == SQLITE_INDEX_CONSTRAINT_EQ && iCol < 0 {
*(*int8)(unsafe.Pointer(idxStr + uintptr(libc.PostIncInt32(&iIdxStr, 1)))) = int8('=')
bSeenEq = 1
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaConstraintUsage + uintptr(i)*8)).FargvIndex = libc.PreIncInt32(&iCons, 1)
}
}
}
if bSeenEq == 0 {
for i = 0; i < (*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FnConstraint; i++ {
var p uintptr = (*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaConstraint + uintptr(i)*12
if (*sqlite3_index_constraint)(unsafe.Pointer(p)).FiColumn < 0 && (*sqlite3_index_constraint)(unsafe.Pointer(p)).Fusable != 0 {
var op int32 = int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop)
if op == SQLITE_INDEX_CONSTRAINT_LT || op == SQLITE_INDEX_CONSTRAINT_LE {
if bSeenLt != 0 {
continue
}
*(*int8)(unsafe.Pointer(idxStr + uintptr(libc.PostIncInt32(&iIdxStr, 1)))) = int8('<')
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaConstraintUsage + uintptr(i)*8)).FargvIndex = libc.PreIncInt32(&iCons, 1)
bSeenLt = 1
} else if op == SQLITE_INDEX_CONSTRAINT_GT || op == SQLITE_INDEX_CONSTRAINT_GE {
if bSeenGt != 0 {
continue
}
*(*int8)(unsafe.Pointer(idxStr + uintptr(libc.PostIncInt32(&iIdxStr, 1)))) = int8('>')
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaConstraintUsage + uintptr(i)*8)).FargvIndex = libc.PreIncInt32(&iCons, 1)
bSeenGt = 1
}
}
}
}
*(*int8)(unsafe.Pointer(idxStr + uintptr(iIdxStr))) = int8(0)
if (*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FnOrderBy == 1 {
var iSort int32 = (*sqlite3_index_orderby)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaOrderBy)).FiColumn
if iSort == (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol+1 && bSeenMatch != 0 {
idxFlags = idxFlags | FTS5_BI_ORDER_RANK
} else if iSort == -1 {
idxFlags = idxFlags | FTS5_BI_ORDER_ROWID
}
if idxFlags&(FTS5_BI_ORDER_RANK|FTS5_BI_ORDER_ROWID) != 0 {
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).ForderByConsumed = 1
if (*sqlite3_index_orderby)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaOrderBy)).Fdesc != 0 {
idxFlags = idxFlags | FTS5_BI_ORDER_DESC
}
}
}
if bSeenEq != 0 {
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FestimatedCost = func() float64 {
if bSeenMatch != 0 {
return 100.0
}
return 10.0
}()
if bSeenMatch == 0 {
fts5SetUniqueFlag(tls, pInfo)
}
} else if bSeenLt != 0 && bSeenGt != 0 {
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FestimatedCost = func() float64 {
if bSeenMatch != 0 {
return 500.0
}
return 250000.0
}()
} else if bSeenLt != 0 || bSeenGt != 0 {
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FestimatedCost = func() float64 {
if bSeenMatch != 0 {
return 750.0
}
return 750000.0
}()
} else {
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FestimatedCost = func() float64 {
if bSeenMatch != 0 {
return 1000.0
}
return 1000000.0
}()
}
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FidxNum = idxFlags
return SQLITE_OK
}
func fts5NewTransaction(tls *libc.TLS, pTab uintptr) int32 {
var pCsr uintptr
for pCsr = (*Fts5Global)(unsafe.Pointer((*Fts5FullTable)(unsafe.Pointer(pTab)).FpGlobal)).FpCsr; pCsr != 0; pCsr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpNext {
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab == pTab {
return SQLITE_OK
}
}
return sqlite3Fts5StorageReset(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage)
}
func fts5OpenMethod(tls *libc.TLS, pVTab uintptr, ppCsr uintptr) int32 {
var pTab uintptr = pVTab
var pConfig uintptr = (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig
var pCsr uintptr = uintptr(0)
var nByte Sqlite3_int64
var rc int32
rc = fts5NewTransaction(tls, pTab)
if rc == SQLITE_OK {
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5Cursor{})) + uint64((*Fts5Config)(unsafe.Pointer(pConfig)).FnCol)*uint64(unsafe.Sizeof(int32(0))))
pCsr = Xsqlite3_malloc64(tls, uint64(nByte))
if pCsr != 0 {
var pGlobal uintptr = (*Fts5FullTable)(unsafe.Pointer(pTab)).FpGlobal
libc.X__builtin___memset_chk(tls, pCsr, 0, Size_t(nByte), libc.X__builtin_object_size(tls, pCsr, 0))
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FaColumnSize = pCsr + 1*184
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FpNext = (*Fts5Global)(unsafe.Pointer(pGlobal)).FpCsr
(*Fts5Global)(unsafe.Pointer(pGlobal)).FpCsr = pCsr
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FiCsrId = libc.PreIncInt64(&(*Fts5Global)(unsafe.Pointer(pGlobal)).FiNextId, 1)
} else {
rc = SQLITE_NOMEM
}
}
*(*uintptr)(unsafe.Pointer(ppCsr)) = pCsr
return rc
}
func fts5StmtType(tls *libc.TLS, pCsr uintptr) int32 {
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan == FTS5_PLAN_SCAN {
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FbDesc != 0 {
return FTS5_STMT_SCAN_DESC
}
return FTS5_STMT_SCAN_ASC
}
return FTS5_STMT_LOOKUP
}
func fts5CsrNewrow(tls *libc.TLS, pCsr uintptr) {
*(*int32)(unsafe.Pointer(pCsr + 80)) |= FTS5CSR_REQUIRE_CONTENT | FTS5CSR_REQUIRE_DOCSIZE | FTS5CSR_REQUIRE_INST | FTS5CSR_REQUIRE_POSLIST
}
func fts5FreeCursorComponents(tls *libc.TLS, pCsr uintptr) {
var pTab uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab
var pData uintptr
var pNext uintptr
Xsqlite3_free(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FaInstIter)
Xsqlite3_free(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FaInst)
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt != 0 {
var eStmt int32 = fts5StmtType(tls, pCsr)
sqlite3Fts5StorageStmtRelease(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, eStmt, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt)
}
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpSorter != 0 {
var pSorter uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpSorter
Xsqlite3_finalize(tls, (*Fts5Sorter)(unsafe.Pointer(pSorter)).FpStmt)
Xsqlite3_free(tls, pSorter)
}
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan != FTS5_PLAN_SOURCE {
sqlite3Fts5ExprFree(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr)
}
for pData = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpAuxdata; pData != 0; pData = pNext {
pNext = (*Fts5Auxdata)(unsafe.Pointer(pData)).FpNext
if (*Fts5Auxdata)(unsafe.Pointer(pData)).FxDelete != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*Fts5Auxdata)(unsafe.Pointer(pData)).FxDelete})).f(tls, (*Fts5Auxdata)(unsafe.Pointer(pData)).FpPtr)
}
Xsqlite3_free(tls, pData)
}
Xsqlite3_finalize(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpRankArgStmt)
Xsqlite3_free(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FapRankArg)
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fcsrflags&FTS5CSR_FREE_ZRANK != 0 {
Xsqlite3_free(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FzRank)
Xsqlite3_free(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FzRankArgs)
}
sqlite3Fts5IndexCloseReader(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpIndex)
libc.X__builtin___memset_chk(tls, pCsr+32, 0, uint64(unsafe.Sizeof(Fts5Cursor{}))-uint64((int64(pCsr+32)-int64(pCsr))/1), libc.X__builtin_object_size(tls, pCsr+32, 0))
}
func fts5CloseMethod(tls *libc.TLS, pCursor uintptr) int32 {
if pCursor != 0 {
var pTab uintptr = (*Sqlite3_vtab_cursor)(unsafe.Pointer(pCursor)).FpVtab
var pCsr uintptr = pCursor
var pp uintptr
fts5FreeCursorComponents(tls, pCsr)
for pp = (*Fts5FullTable)(unsafe.Pointer(pTab)).FpGlobal + 72; *(*uintptr)(unsafe.Pointer(pp)) != pCsr; pp = *(*uintptr)(unsafe.Pointer(pp)) + 8 {
}
*(*uintptr)(unsafe.Pointer(pp)) = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpNext
Xsqlite3_free(tls, pCsr)
}
return SQLITE_OK
}
func fts5SorterNext(tls *libc.TLS, pCsr uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pSorter uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpSorter
var rc int32
rc = Xsqlite3_step(tls, (*Fts5Sorter)(unsafe.Pointer(pSorter)).FpStmt)
if rc == SQLITE_DONE {
rc = SQLITE_OK
*(*int32)(unsafe.Pointer(pCsr + 80)) |= FTS5CSR_EOF | FTS5CSR_REQUIRE_CONTENT
} else if rc == SQLITE_ROW {
var a uintptr
var aBlob uintptr
var nBlob int32
var i int32
var iOff int32 = 0
rc = SQLITE_OK
(*Fts5Sorter)(unsafe.Pointer(pSorter)).FiRowid = Xsqlite3_column_int64(tls, (*Fts5Sorter)(unsafe.Pointer(pSorter)).FpStmt, 0)
nBlob = Xsqlite3_column_bytes(tls, (*Fts5Sorter)(unsafe.Pointer(pSorter)).FpStmt, 1)
aBlob = libc.AssignUintptr(&a, Xsqlite3_column_blob(tls, (*Fts5Sorter)(unsafe.Pointer(pSorter)).FpStmt, 1))
if nBlob > 0 {
for i = 0; i < (*Fts5Sorter)(unsafe.Pointer(pSorter)).FnIdx-1; i++ {
a += uintptr(sqlite3Fts5GetVarint32(tls, a, bp))
iOff = iOff + *(*int32)(unsafe.Pointer(bp))
*(*int32)(unsafe.Pointer(pSorter + 28 + uintptr(i)*4)) = iOff
}
*(*int32)(unsafe.Pointer(pSorter + 28 + uintptr(i)*4)) = int32((int64(aBlob+uintptr(nBlob)) - int64(a)) / 1)
(*Fts5Sorter)(unsafe.Pointer(pSorter)).FaPoslist = a
}
fts5CsrNewrow(tls, pCsr)
}
return rc
}
func fts5TripCursors(tls *libc.TLS, pTab uintptr) {
var pCsr uintptr
for pCsr = (*Fts5Global)(unsafe.Pointer((*Fts5FullTable)(unsafe.Pointer(pTab)).FpGlobal)).FpCsr; pCsr != 0; pCsr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpNext {
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan == FTS5_PLAN_MATCH &&
(*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab == pTab {
*(*int32)(unsafe.Pointer(pCsr + 80)) |= FTS5CSR_REQUIRE_RESEEK
}
}
}
func fts5CursorReseek(tls *libc.TLS, pCsr uintptr, pbSkip uintptr) int32 {
var rc int32 = SQLITE_OK
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fcsrflags&FTS5CSR_REQUIRE_RESEEK != 0 {
var pTab uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab
var bDesc int32 = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FbDesc
var iRowid I64 = sqlite3Fts5ExprRowid(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr)
rc = sqlite3Fts5ExprFirst(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr, (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpIndex, iRowid, bDesc)
if rc == SQLITE_OK && iRowid != sqlite3Fts5ExprRowid(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr) {
*(*int32)(unsafe.Pointer(pbSkip)) = 1
}
*(*int32)(unsafe.Pointer(pCsr + 80)) &= libc.CplInt32(FTS5CSR_REQUIRE_RESEEK)
fts5CsrNewrow(tls, pCsr)
if sqlite3Fts5ExprEof(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr) != 0 {
*(*int32)(unsafe.Pointer(pCsr + 80)) |= FTS5CSR_EOF
*(*int32)(unsafe.Pointer(pbSkip)) = 1
}
}
return rc
}
func fts5NextMethod(tls *libc.TLS, pCursor uintptr) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
var pCsr uintptr = pCursor
var rc int32
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan < 3 {
*(*int32)(unsafe.Pointer(bp + 8)) = 0
if libc.AssignInt32(&rc, fts5CursorReseek(tls, pCsr, bp+8)) != 0 || *(*int32)(unsafe.Pointer(bp + 8)) != 0 {
return rc
}
rc = sqlite3Fts5ExprNext(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FiLastRowid)
*(*int32)(unsafe.Pointer(pCsr + 80)) |= sqlite3Fts5ExprEof(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr)
fts5CsrNewrow(tls, pCsr)
} else {
switch (*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan {
case FTS5_PLAN_SPECIAL:
{
*(*int32)(unsafe.Pointer(pCsr + 80)) |= FTS5CSR_EOF
rc = SQLITE_OK
break
}
fallthrough
case FTS5_PLAN_SORTED_MATCH:
{
rc = fts5SorterNext(tls, pCsr)
break
}
fallthrough
default:
{
var pConfig uintptr = (*Fts5Table)(unsafe.Pointer((*Sqlite3_vtab_cursor)(unsafe.Pointer(pCursor)).FpVtab)).FpConfig
(*Fts5Config)(unsafe.Pointer(pConfig)).FbLock++
rc = Xsqlite3_step(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt)
(*Fts5Config)(unsafe.Pointer(pConfig)).FbLock--
if rc != SQLITE_ROW {
*(*int32)(unsafe.Pointer(pCsr + 80)) |= FTS5CSR_EOF
rc = Xsqlite3_reset(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt)
if rc != SQLITE_OK {
(*Sqlite3_vtab)(unsafe.Pointer((*Sqlite3_vtab_cursor)(unsafe.Pointer(pCursor)).FpVtab)).FzErrMsg = Xsqlite3_mprintf(tls,
ts+3658, libc.VaList(bp, Xsqlite3_errmsg(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb)))
}
} else {
rc = SQLITE_OK
}
break
}
}
}
return rc
}
func fts5PrepareStatement(tls *libc.TLS, ppStmt uintptr, pConfig uintptr, zFmt uintptr, va uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
var rc int32
var zSql uintptr
var ap Va_list
_ = ap
ap = va
zSql = Xsqlite3_vmprintf(tls, zFmt, ap)
if zSql == uintptr(0) {
rc = SQLITE_NOMEM
} else {
rc = Xsqlite3_prepare_v3(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb, zSql, -1,
uint32(SQLITE_PREPARE_PERSISTENT), bp+8, uintptr(0))
if rc != SQLITE_OK {
*(*uintptr)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FpzErrmsg)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp, Xsqlite3_errmsg(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb)))
}
Xsqlite3_free(tls, zSql)
}
_ = ap
*(*uintptr)(unsafe.Pointer(ppStmt)) = *(*uintptr)(unsafe.Pointer(bp + 8))
return rc
}
func fts5CursorFirstSorted(tls *libc.TLS, pTab uintptr, pCsr uintptr, bDesc int32) int32 {
bp := tls.Alloc(56)
defer tls.Free(56)
var pConfig uintptr = (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig
var pSorter uintptr
var nPhrase int32
var nByte Sqlite3_int64
var rc int32
var zRank uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FzRank
var zRankArgs uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FzRankArgs
nPhrase = sqlite3Fts5ExprPhraseCount(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr)
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5Sorter{})) + uint64(unsafe.Sizeof(int32(0)))*uint64(nPhrase-1))
pSorter = Xsqlite3_malloc64(tls, uint64(nByte))
if pSorter == uintptr(0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, pSorter, 0, Size_t(nByte), libc.X__builtin_object_size(tls, pSorter, 0))
(*Fts5Sorter)(unsafe.Pointer(pSorter)).FnIdx = nPhrase
rc = fts5PrepareStatement(tls, pSorter, pConfig,
ts+35806,
libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName, zRank, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName,
func() uintptr {
if zRankArgs != 0 {
return ts + 15017
}
return ts + 1547
}(),
func() uintptr {
if zRankArgs != 0 {
return zRankArgs
}
return ts + 1547
}(),
func() uintptr {
if bDesc != 0 {
return ts + 35861
}
return ts + 35866
}()))
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FpSorter = pSorter
if rc == SQLITE_OK {
(*Fts5FullTable)(unsafe.Pointer(pTab)).FpSortCsr = pCsr
rc = fts5SorterNext(tls, pCsr)
(*Fts5FullTable)(unsafe.Pointer(pTab)).FpSortCsr = uintptr(0)
}
if rc != SQLITE_OK {
Xsqlite3_finalize(tls, (*Fts5Sorter)(unsafe.Pointer(pSorter)).FpStmt)
Xsqlite3_free(tls, pSorter)
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FpSorter = uintptr(0)
}
return rc
}
func fts5CursorFirst(tls *libc.TLS, pTab uintptr, pCsr uintptr, bDesc int32) int32 {
var rc int32
var pExpr uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr
rc = sqlite3Fts5ExprFirst(tls, pExpr, (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpIndex, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FiFirstRowid, bDesc)
if sqlite3Fts5ExprEof(tls, pExpr) != 0 {
*(*int32)(unsafe.Pointer(pCsr + 80)) |= FTS5CSR_EOF
}
fts5CsrNewrow(tls, pCsr)
return rc
}
func fts5SpecialMatch(tls *libc.TLS, pTab uintptr, pCsr uintptr, zQuery uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var rc int32 = SQLITE_OK
var z uintptr = zQuery
var n int32
for int32(*(*int8)(unsafe.Pointer(z))) == ' ' {
z++
}
for n = 0; *(*int8)(unsafe.Pointer(z + uintptr(n))) != 0 && int32(*(*int8)(unsafe.Pointer(z + uintptr(n)))) != ' '; n++ {
}
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan = FTS5_PLAN_SPECIAL
if n == 5 && 0 == Xsqlite3_strnicmp(tls, ts+35870, z, n) {
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FiSpecial = I64(sqlite3Fts5IndexReads(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpIndex))
} else if n == 2 && 0 == Xsqlite3_strnicmp(tls, ts+5460, z, n) {
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FiSpecial = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FiCsrId
} else {
(*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.Fbase.FzErrMsg = Xsqlite3_mprintf(tls, ts+35876, libc.VaList(bp, n, z))
rc = SQLITE_ERROR
}
return rc
}
func fts5FindAuxiliary(tls *libc.TLS, pTab uintptr, zName uintptr) uintptr {
var pAux uintptr
for pAux = (*Fts5Global)(unsafe.Pointer((*Fts5FullTable)(unsafe.Pointer(pTab)).FpGlobal)).FpAux; pAux != 0; pAux = (*Fts5Auxiliary)(unsafe.Pointer(pAux)).FpNext {
if Xsqlite3_stricmp(tls, zName, (*Fts5Auxiliary)(unsafe.Pointer(pAux)).FzFunc) == 0 {
return pAux
}
}
return uintptr(0)
}
func fts5FindRankFunction(tls *libc.TLS, pCsr uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var pTab uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab
var pConfig uintptr = (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_OK
var pAux uintptr = uintptr(0)
var zRank uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FzRank
var zRankArgs uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FzRankArgs
if zRankArgs != 0 {
var zSql uintptr = sqlite3Fts5Mprintf(tls, bp+16, ts+35904, libc.VaList(bp, zRankArgs))
if zSql != 0 {
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 16)) = Xsqlite3_prepare_v3(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb, zSql, -1,
uint32(SQLITE_PREPARE_PERSISTENT), bp+24, uintptr(0))
Xsqlite3_free(tls, zSql)
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
if SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 24))) {
var nByte Sqlite3_int64
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FnRankArg = Xsqlite3_column_count(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(uintptr(0))) * uint64((*Fts5Cursor)(unsafe.Pointer(pCsr)).FnRankArg))
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FapRankArg = sqlite3Fts5MallocZero(tls, bp+16, nByte)
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
var i int32
for i = 0; i < (*Fts5Cursor)(unsafe.Pointer(pCsr)).FnRankArg; i++ {
*(*uintptr)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).FapRankArg + uintptr(i)*8)) = Xsqlite3_column_value(tls, *(*uintptr)(unsafe.Pointer(bp + 24)), i)
}
}
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FpRankArgStmt = *(*uintptr)(unsafe.Pointer(bp + 24))
} else {
*(*int32)(unsafe.Pointer(bp + 16)) = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
}
}
}
}
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
pAux = fts5FindAuxiliary(tls, pTab, zRank)
if pAux == uintptr(0) {
(*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.Fbase.FzErrMsg = Xsqlite3_mprintf(tls, ts+35914, libc.VaList(bp+8, zRank))
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_ERROR
}
}
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FpRank = pAux
return *(*int32)(unsafe.Pointer(bp + 16))
}
func fts5CursorParseRank(tls *libc.TLS, pConfig uintptr, pCsr uintptr, pRank uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var rc int32 = SQLITE_OK
if pRank != 0 {
var z uintptr = Xsqlite3_value_text(tls, pRank)
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
if z == uintptr(0) {
if Xsqlite3_value_type(tls, pRank) == SQLITE_NULL {
rc = SQLITE_ERROR
}
} else {
rc = sqlite3Fts5ConfigParseRank(tls, z, bp+8, bp+16)
}
if rc == SQLITE_OK {
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FzRank = *(*uintptr)(unsafe.Pointer(bp + 8))
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FzRankArgs = *(*uintptr)(unsafe.Pointer(bp + 16))
*(*int32)(unsafe.Pointer(pCsr + 80)) |= FTS5CSR_FREE_ZRANK
} else if rc == SQLITE_ERROR {
(*Sqlite3_vtab)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab)).FzErrMsg = Xsqlite3_mprintf(tls,
ts+35935, libc.VaList(bp, z))
}
} else {
if (*Fts5Config)(unsafe.Pointer(pConfig)).FzRank != 0 {
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FzRank = (*Fts5Config)(unsafe.Pointer(pConfig)).FzRank
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FzRankArgs = (*Fts5Config)(unsafe.Pointer(pConfig)).FzRankArgs
} else {
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FzRank = ts + 34318
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FzRankArgs = uintptr(0)
}
}
return rc
}
func fts5GetRowidLimit(tls *libc.TLS, pVal uintptr, iDefault I64) I64 {
if pVal != 0 {
var eType int32 = Xsqlite3_value_numeric_type(tls, pVal)
if eType == SQLITE_INTEGER {
return Xsqlite3_value_int64(tls, pVal)
}
}
return iDefault
}
func fts5FilterMethod(tls *libc.TLS, pCursor uintptr, idxNum int32, idxStr uintptr, nVal int32, apVal uintptr) int32 {
bp := tls.Alloc(16)
defer tls.Free(16)
var pTab uintptr
var pConfig uintptr
var pCsr uintptr
var rc int32
var bDesc int32
var bOrderByRank int32
var pRank uintptr
var pRowidEq uintptr
var pRowidLe uintptr
var pRowidGe uintptr
var iCol int32
var pzErrmsg uintptr
var i int32
var iIdxStr int32
var pzErr uintptr
var zText uintptr
var bGlob int32
var zText1 uintptr
pTab = (*Sqlite3_vtab_cursor)(unsafe.Pointer(pCursor)).FpVtab
pConfig = (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig
pCsr = pCursor
rc = SQLITE_OK
pRank = uintptr(0)
pRowidEq = uintptr(0)
pRowidLe = uintptr(0)
pRowidGe = uintptr(0)
pzErrmsg = (*Fts5Config)(unsafe.Pointer(pConfig)).FpzErrmsg
iIdxStr = 0
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
if !((*Fts5Config)(unsafe.Pointer(pConfig)).FbLock != 0) {
goto __1
}
(*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.Fbase.FzErrMsg = Xsqlite3_mprintf(tls,
ts+35767, 0)
return SQLITE_ERROR
__1:
;
if !((*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan != 0) {
goto __2
}
fts5FreeCursorComponents(tls, pCsr)
libc.X__builtin___memset_chk(tls, pCsr+32, 0, uint64(unsafe.Sizeof(Fts5Cursor{}))-uint64((int64(pCsr+32)-int64(pCsr))/1), libc.X__builtin_object_size(tls, pCsr+32, 0))
__2:
;
(*Fts5Config)(unsafe.Pointer(pConfig)).FpzErrmsg = pTab + 16
i = 0
__3:
if !(i < nVal) {
goto __5
}
switch int32(*(*int8)(unsafe.Pointer(idxStr + uintptr(libc.PostIncInt32(&iIdxStr, 1))))) {
case 'r':
goto __7
case 'M':
goto __8
case 'L':
goto __9
case 'G':
goto __10
case '=':
goto __11
case '<':
goto __12
default:
goto __13
}
goto __6
__7:
pRank = *(*uintptr)(unsafe.Pointer(apVal + uintptr(i)*8))
goto __6
__8:
zText = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(apVal + uintptr(i)*8)))
if !(zText == uintptr(0)) {
goto __14
}
zText = ts + 1547
__14:
;
iCol = 0
__15:
iCol = iCol*10 + (int32(*(*int8)(unsafe.Pointer(idxStr + uintptr(iIdxStr)))) - '0')
iIdxStr++
goto __16
__16:
if int32(*(*int8)(unsafe.Pointer(idxStr + uintptr(iIdxStr)))) >= '0' && int32(*(*int8)(unsafe.Pointer(idxStr + uintptr(iIdxStr)))) <= '9' {
goto __15
}
goto __17
__17:
;
if !(int32(*(*int8)(unsafe.Pointer(zText))) == '*') {
goto __18
}
rc = fts5SpecialMatch(tls, pTab, pCsr, zText+1)
goto filter_out
goto __19
__18:
pzErr = pTab + 16
rc = sqlite3Fts5ExprNew(tls, pConfig, 0, iCol, zText, bp+8, pzErr)
if !(rc == SQLITE_OK) {
goto __20
}
rc = sqlite3Fts5ExprAnd(tls, pCsr+64, *(*uintptr)(unsafe.Pointer(bp + 8)))
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
__20:
;
if !(rc != SQLITE_OK) {
goto __21
}
goto filter_out
__21:
;
__19:
;
goto __6
__9:
__10:
bGlob = libc.Bool32(int32(*(*int8)(unsafe.Pointer(idxStr + uintptr(iIdxStr-1)))) == 'G')
zText1 = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(apVal + uintptr(i)*8)))
iCol = 0
__22:
iCol = iCol*10 + (int32(*(*int8)(unsafe.Pointer(idxStr + uintptr(iIdxStr)))) - '0')
iIdxStr++
goto __23
__23:
if int32(*(*int8)(unsafe.Pointer(idxStr + uintptr(iIdxStr)))) >= '0' && int32(*(*int8)(unsafe.Pointer(idxStr + uintptr(iIdxStr)))) <= '9' {
goto __22
}
goto __24
__24:
;
if !(zText1 != 0) {
goto __25
}
rc = sqlite3Fts5ExprPattern(tls, pConfig, bGlob, iCol, zText1, bp+8)
__25:
;
if !(rc == SQLITE_OK) {
goto __26
}
rc = sqlite3Fts5ExprAnd(tls, pCsr+64, *(*uintptr)(unsafe.Pointer(bp + 8)))
*(*uintptr)(unsafe.Pointer(bp + 8)) = uintptr(0)
__26:
;
if !(rc != SQLITE_OK) {
goto __27
}
goto filter_out
__27:
;
goto __6
__11:
pRowidEq = *(*uintptr)(unsafe.Pointer(apVal + uintptr(i)*8))
goto __6
__12:
pRowidLe = *(*uintptr)(unsafe.Pointer(apVal + uintptr(i)*8))
goto __6
__13:
;
pRowidGe = *(*uintptr)(unsafe.Pointer(apVal + uintptr(i)*8))
goto __6
__6:
;
goto __4
__4:
i++
goto __3
goto __5
__5:
;
bOrderByRank = func() int32 {
if idxNum&FTS5_BI_ORDER_RANK != 0 {
return 1
}
return 0
}()
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FbDesc = libc.AssignInt32(&bDesc, func() int32 {
if idxNum&FTS5_BI_ORDER_DESC != 0 {
return 1
}
return 0
}())
if !(pRowidEq != 0) {
goto __28
}
pRowidLe = libc.AssignUintptr(&pRowidGe, pRowidEq)
__28:
;
if !(bDesc != 0) {
goto __29
}
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FiFirstRowid = fts5GetRowidLimit(tls, pRowidLe, int64(0xffffffff)|int64(0x7fffffff)<<32)
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FiLastRowid = fts5GetRowidLimit(tls, pRowidGe, int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32))
goto __30
__29:
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FiLastRowid = fts5GetRowidLimit(tls, pRowidLe, int64(0xffffffff)|int64(0x7fffffff)<<32)
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FiFirstRowid = fts5GetRowidLimit(tls, pRowidGe, int64(-1)-(int64(0xffffffff)|int64(0x7fffffff)<<32))
__30:
;
if !((*Fts5FullTable)(unsafe.Pointer(pTab)).FpSortCsr != 0) {
goto __31
}
if !((*Fts5Cursor)(unsafe.Pointer((*Fts5FullTable)(unsafe.Pointer(pTab)).FpSortCsr)).FbDesc != 0) {
goto __33
}
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FiLastRowid = (*Fts5Cursor)(unsafe.Pointer((*Fts5FullTable)(unsafe.Pointer(pTab)).FpSortCsr)).FiFirstRowid
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FiFirstRowid = (*Fts5Cursor)(unsafe.Pointer((*Fts5FullTable)(unsafe.Pointer(pTab)).FpSortCsr)).FiLastRowid
goto __34
__33:
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FiLastRowid = (*Fts5Cursor)(unsafe.Pointer((*Fts5FullTable)(unsafe.Pointer(pTab)).FpSortCsr)).FiLastRowid
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FiFirstRowid = (*Fts5Cursor)(unsafe.Pointer((*Fts5FullTable)(unsafe.Pointer(pTab)).FpSortCsr)).FiFirstRowid
__34:
;
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan = FTS5_PLAN_SOURCE
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr = (*Fts5Cursor)(unsafe.Pointer((*Fts5FullTable)(unsafe.Pointer(pTab)).FpSortCsr)).FpExpr
rc = fts5CursorFirst(tls, pTab, pCsr, bDesc)
goto __32
__31:
if !((*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr != 0) {
goto __35
}
rc = fts5CursorParseRank(tls, pConfig, pCsr, pRank)
if !(rc == SQLITE_OK) {
goto __37
}
if !(bOrderByRank != 0) {
goto __38
}
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan = FTS5_PLAN_SORTED_MATCH
rc = fts5CursorFirstSorted(tls, pTab, pCsr, bDesc)
goto __39
__38:
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan = FTS5_PLAN_MATCH
rc = fts5CursorFirst(tls, pTab, pCsr, bDesc)
__39:
;
__37:
;
goto __36
__35:
if !((*Fts5Config)(unsafe.Pointer(pConfig)).FzContent == uintptr(0)) {
goto __40
}
*(*uintptr)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FpzErrmsg)) = Xsqlite3_mprintf(tls,
ts+35968, libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName))
rc = SQLITE_ERROR
goto __41
__40:
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan = func() int32 {
if pRowidEq != 0 {
return FTS5_PLAN_ROWID
}
return FTS5_PLAN_SCAN
}()
rc = sqlite3Fts5StorageStmt(tls,
(*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, fts5StmtType(tls, pCsr), pCsr+56, pTab+16)
if !(rc == SQLITE_OK) {
goto __42
}
if !(pRowidEq != uintptr(0)) {
goto __43
}
Xsqlite3_bind_value(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt, 1, pRowidEq)
goto __44
__43:
Xsqlite3_bind_int64(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt, 1, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FiFirstRowid)
Xsqlite3_bind_int64(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt, 2, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FiLastRowid)
__44:
;
rc = fts5NextMethod(tls, pCursor)
__42:
;
__41:
;
__36:
;
__32:
;
filter_out:
sqlite3Fts5ExprFree(tls, *(*uintptr)(unsafe.Pointer(bp + 8)))
(*Fts5Config)(unsafe.Pointer(pConfig)).FpzErrmsg = pzErrmsg
return rc
}
func fts5EofMethod(tls *libc.TLS, pCursor uintptr) int32 {
var pCsr uintptr = pCursor
return func() int32 {
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fcsrflags&FTS5CSR_EOF != 0 {
return 1
}
return 0
}()
}
func fts5CursorRowid(tls *libc.TLS, pCsr uintptr) I64 {
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpSorter != 0 {
return (*Fts5Sorter)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).FpSorter)).FiRowid
} else {
return sqlite3Fts5ExprRowid(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr)
}
return I64(0)
}
func fts5RowidMethod(tls *libc.TLS, pCursor uintptr, pRowid uintptr) int32 {
var pCsr uintptr = pCursor
var ePlan int32 = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan
switch ePlan {
case FTS5_PLAN_SPECIAL:
*(*Sqlite_int64)(unsafe.Pointer(pRowid)) = int64(0)
break
case FTS5_PLAN_SOURCE:
fallthrough
case FTS5_PLAN_MATCH:
fallthrough
case FTS5_PLAN_SORTED_MATCH:
*(*Sqlite_int64)(unsafe.Pointer(pRowid)) = fts5CursorRowid(tls, pCsr)
break
default:
*(*Sqlite_int64)(unsafe.Pointer(pRowid)) = Xsqlite3_column_int64(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt, 0)
break
}
return SQLITE_OK
}
func fts5SeekCursor(tls *libc.TLS, pCsr uintptr, bErrormsg int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt == uintptr(0) {
var pTab uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab
var eStmt int32 = fts5StmtType(tls, pCsr)
rc = sqlite3Fts5StorageStmt(tls,
(*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, eStmt, pCsr+56, func() uintptr {
if bErrormsg != 0 {
return pTab + 16
}
return uintptr(0)
}())
}
if rc == SQLITE_OK && (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fcsrflags&FTS5CSR_REQUIRE_CONTENT != 0 {
var pTab uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab
Xsqlite3_reset(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt)
Xsqlite3_bind_int64(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt, 1, fts5CursorRowid(tls, pCsr))
(*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer(pTab)).FpConfig)).FbLock++
rc = Xsqlite3_step(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt)
(*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer(pTab)).FpConfig)).FbLock--
if rc == SQLITE_ROW {
rc = SQLITE_OK
*(*int32)(unsafe.Pointer(pCsr + 80)) &= libc.CplInt32(FTS5CSR_REQUIRE_CONTENT)
} else {
rc = Xsqlite3_reset(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt)
if rc == SQLITE_OK {
rc = SQLITE_CORRUPT | int32(1)<<8
} else if (*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer(pTab)).FpConfig)).FpzErrmsg != 0 {
*(*uintptr)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer(pTab)).FpConfig)).FpzErrmsg)) = Xsqlite3_mprintf(tls,
ts+3658, libc.VaList(bp, Xsqlite3_errmsg(tls, (*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer(pTab)).FpConfig)).Fdb)))
}
}
}
return rc
}
func fts5SetVtabError(tls *libc.TLS, p uintptr, zFormat uintptr, va uintptr) {
var ap Va_list
_ = ap
ap = va
(*Fts5FullTable)(unsafe.Pointer(p)).Fp.Fbase.FzErrMsg = Xsqlite3_vmprintf(tls, zFormat, ap)
_ = ap
}
func fts5SpecialInsert(tls *libc.TLS, pTab uintptr, zCmd uintptr, pVal uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pConfig uintptr = (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig
var rc int32 = SQLITE_OK
*(*int32)(unsafe.Pointer(bp)) = 0
if 0 == Xsqlite3_stricmp(tls, ts+36004, zCmd) {
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeContent == FTS5_CONTENT_NORMAL {
fts5SetVtabError(tls, pTab,
ts+36015, 0)
rc = SQLITE_ERROR
} else {
rc = sqlite3Fts5StorageDeleteAll(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage)
}
} else if 0 == Xsqlite3_stricmp(tls, ts+36095, zCmd) {
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeContent == FTS5_CONTENT_NONE {
fts5SetVtabError(tls, pTab,
ts+36103, 0)
rc = SQLITE_ERROR
} else {
rc = sqlite3Fts5StorageRebuild(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage)
}
} else if 0 == Xsqlite3_stricmp(tls, ts+17356, zCmd) {
rc = sqlite3Fts5StorageOptimize(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage)
} else if 0 == Xsqlite3_stricmp(tls, ts+36159, zCmd) {
var nMerge int32 = Xsqlite3_value_int(tls, pVal)
rc = sqlite3Fts5StorageMerge(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, nMerge)
} else if 0 == Xsqlite3_stricmp(tls, ts+36165, zCmd) {
var iArg int32 = Xsqlite3_value_int(tls, pVal)
rc = sqlite3Fts5StorageIntegrity(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, iArg)
} else {
rc = sqlite3Fts5IndexLoadConfig(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpIndex)
if rc == SQLITE_OK {
rc = sqlite3Fts5ConfigSetValue(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig, zCmd, pVal, bp)
}
if rc == SQLITE_OK {
if *(*int32)(unsafe.Pointer(bp)) != 0 {
rc = SQLITE_ERROR
} else {
rc = sqlite3Fts5StorageConfigValue(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, zCmd, pVal, 0)
}
}
}
return rc
}
func fts5SpecialDelete(tls *libc.TLS, pTab uintptr, apVal uintptr) int32 {
var rc int32 = SQLITE_OK
var eType1 int32 = Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(apVal + 1*8)))
if eType1 == SQLITE_INTEGER {
var iDel Sqlite3_int64 = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(apVal + 1*8)))
rc = sqlite3Fts5StorageDelete(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, iDel, apVal+2*8)
}
return rc
}
func fts5StorageInsert(tls *libc.TLS, pRc uintptr, pTab uintptr, apVal uintptr, piRowid uintptr) {
var rc int32 = *(*int32)(unsafe.Pointer(pRc))
if rc == SQLITE_OK {
rc = sqlite3Fts5StorageContentInsert(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, apVal, piRowid)
}
if rc == SQLITE_OK {
rc = sqlite3Fts5StorageIndexInsert(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, apVal, *(*I64)(unsafe.Pointer(piRowid)))
}
*(*int32)(unsafe.Pointer(pRc)) = rc
}
func fts5UpdateMethod(tls *libc.TLS, pVtab uintptr, nArg int32, apVal uintptr, pRowid uintptr) int32 {
bp := tls.Alloc(20)
defer tls.Free(20)
var pTab uintptr = pVtab
var pConfig uintptr = (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig
var eType0 int32
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_OK
(*Fts5Config)(unsafe.Pointer((*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig)).FpzErrmsg = pTab + 16
fts5TripCursors(tls, pTab)
eType0 = Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(apVal)))
if eType0 == SQLITE_NULL &&
Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(apVal + uintptr(2+(*Fts5Config)(unsafe.Pointer(pConfig)).FnCol)*8))) != SQLITE_NULL {
var z uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(apVal + uintptr(2+(*Fts5Config)(unsafe.Pointer(pConfig)).FnCol)*8)))
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeContent != FTS5_CONTENT_NORMAL &&
0 == Xsqlite3_stricmp(tls, ts+17901, z) {
*(*int32)(unsafe.Pointer(bp + 16)) = fts5SpecialDelete(tls, pTab, apVal)
} else {
*(*int32)(unsafe.Pointer(bp + 16)) = fts5SpecialInsert(tls, pTab, z, *(*uintptr)(unsafe.Pointer(apVal + uintptr(2+(*Fts5Config)(unsafe.Pointer(pConfig)).FnCol+1)*8)))
}
} else {
var eConflict int32 = SQLITE_ABORT
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeContent == FTS5_CONTENT_NORMAL {
eConflict = Xsqlite3_vtab_on_conflict(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb)
}
if eType0 == SQLITE_INTEGER && fts5IsContentless(tls, pTab) != 0 {
(*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.Fbase.FzErrMsg = Xsqlite3_mprintf(tls,
ts+36181,
libc.VaList(bp, func() uintptr {
if nArg > 1 {
return ts + 20879
}
return ts + 36218
}(), (*Fts5Config)(unsafe.Pointer(pConfig)).FzName))
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_ERROR
} else if nArg == 1 {
var iDel I64 = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(apVal)))
*(*int32)(unsafe.Pointer(bp + 16)) = sqlite3Fts5StorageDelete(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, iDel, uintptr(0))
} else {
var eType1 int32 = Xsqlite3_value_numeric_type(tls, *(*uintptr)(unsafe.Pointer(apVal + 1*8)))
if eType1 != SQLITE_INTEGER && eType1 != SQLITE_NULL {
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_MISMATCH
} else if eType0 != SQLITE_INTEGER {
if eConflict == SQLITE_REPLACE && eType1 == SQLITE_INTEGER {
var iNew I64 = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(apVal + 1*8)))
*(*int32)(unsafe.Pointer(bp + 16)) = sqlite3Fts5StorageDelete(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, iNew, uintptr(0))
}
fts5StorageInsert(tls, bp+16, pTab, apVal, pRowid)
} else {
var iOld I64 = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(apVal)))
var iNew I64 = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(apVal + 1*8)))
if eType1 == SQLITE_INTEGER && iOld != iNew {
if eConflict == SQLITE_REPLACE {
*(*int32)(unsafe.Pointer(bp + 16)) = sqlite3Fts5StorageDelete(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, iOld, uintptr(0))
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 16)) = sqlite3Fts5StorageDelete(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, iNew, uintptr(0))
}
fts5StorageInsert(tls, bp+16, pTab, apVal, pRowid)
} else {
*(*int32)(unsafe.Pointer(bp + 16)) = sqlite3Fts5StorageContentInsert(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, apVal, pRowid)
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 16)) = sqlite3Fts5StorageDelete(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, iOld, uintptr(0))
}
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 16)) = sqlite3Fts5StorageIndexInsert(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, apVal, *(*Sqlite_int64)(unsafe.Pointer(pRowid)))
}
}
} else {
*(*int32)(unsafe.Pointer(bp + 16)) = sqlite3Fts5StorageDelete(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, iOld, uintptr(0))
fts5StorageInsert(tls, bp+16, pTab, apVal, pRowid)
}
}
}
}
(*Fts5Config)(unsafe.Pointer((*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig)).FpzErrmsg = uintptr(0)
return *(*int32)(unsafe.Pointer(bp + 16))
}
func fts5SyncMethod(tls *libc.TLS, pVtab uintptr) int32 {
var rc int32
var pTab uintptr = pVtab
(*Fts5Config)(unsafe.Pointer((*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig)).FpzErrmsg = pTab + 16
fts5TripCursors(tls, pTab)
rc = sqlite3Fts5StorageSync(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage)
(*Fts5Config)(unsafe.Pointer((*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig)).FpzErrmsg = uintptr(0)
return rc
}
func fts5BeginMethod(tls *libc.TLS, pVtab uintptr) int32 {
fts5NewTransaction(tls, pVtab)
return SQLITE_OK
}
func fts5CommitMethod(tls *libc.TLS, pVtab uintptr) int32 {
_ = pVtab
return SQLITE_OK
}
func fts5RollbackMethod(tls *libc.TLS, pVtab uintptr) int32 {
var rc int32
var pTab uintptr = pVtab
rc = sqlite3Fts5StorageRollback(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage)
return rc
}
func fts5ApiUserData(tls *libc.TLS, pCtx uintptr) uintptr {
var pCsr uintptr = pCtx
return (*Fts5Auxiliary)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).FpAux)).FpUserData
}
func fts5ApiColumnCount(tls *libc.TLS, pCtx uintptr) int32 {
var pCsr uintptr = pCtx
return (*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab)).FpConfig)).FnCol
}
func fts5ApiColumnTotalSize(tls *libc.TLS, pCtx uintptr, iCol int32, pnToken uintptr) int32 {
var pCsr uintptr = pCtx
var pTab uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab
return sqlite3Fts5StorageSize(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, iCol, pnToken)
}
func fts5ApiRowCount(tls *libc.TLS, pCtx uintptr, pnRow uintptr) int32 {
var pCsr uintptr = pCtx
var pTab uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab
return sqlite3Fts5StorageRowCount(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, pnRow)
}
func fts5ApiTokenize(tls *libc.TLS, pCtx uintptr, pText uintptr, nText int32, pUserData uintptr, xToken uintptr) int32 {
var pCsr uintptr = pCtx
var pTab uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab
return sqlite3Fts5Tokenize(tls,
(*Fts5Table)(unsafe.Pointer(pTab)).FpConfig, FTS5_TOKENIZE_AUX, pText, nText, pUserData, xToken)
}
func fts5ApiPhraseCount(tls *libc.TLS, pCtx uintptr) int32 {
var pCsr uintptr = pCtx
return sqlite3Fts5ExprPhraseCount(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr)
}
func fts5ApiPhraseSize(tls *libc.TLS, pCtx uintptr, iPhrase int32) int32 {
var pCsr uintptr = pCtx
return sqlite3Fts5ExprPhraseSize(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr, iPhrase)
}
func fts5ApiColumnText(tls *libc.TLS, pCtx uintptr, iCol int32, pz uintptr, pn uintptr) int32 {
var rc int32 = SQLITE_OK
var pCsr uintptr = pCtx
if fts5IsContentless(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab) != 0 ||
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan == FTS5_PLAN_SPECIAL {
*(*uintptr)(unsafe.Pointer(pz)) = uintptr(0)
*(*int32)(unsafe.Pointer(pn)) = 0
} else {
rc = fts5SeekCursor(tls, pCsr, 0)
if rc == SQLITE_OK {
*(*uintptr)(unsafe.Pointer(pz)) = Xsqlite3_column_text(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt, iCol+1)
*(*int32)(unsafe.Pointer(pn)) = Xsqlite3_column_bytes(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt, iCol+1)
}
}
return rc
}
func fts5CsrPoslist(tls *libc.TLS, pCsr uintptr, iPhrase int32, pa uintptr, pn uintptr) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
var pConfig uintptr = (*Fts5Table)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab)).FpConfig
var rc int32 = SQLITE_OK
var bLive int32 = libc.Bool32((*Fts5Cursor)(unsafe.Pointer(pCsr)).FpSorter == uintptr(0))
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fcsrflags&FTS5CSR_REQUIRE_POSLIST != 0 {
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeDetail != FTS5_DETAIL_FULL {
var aPopulator uintptr
var i int32
aPopulator = sqlite3Fts5ExprClearPoslists(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr, bLive)
if aPopulator == uintptr(0) {
rc = SQLITE_NOMEM
}
for i = 0; i < (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol && rc == SQLITE_OK; i++ {
rc = fts5ApiColumnText(tls, pCsr, i, bp, bp+8)
if rc == SQLITE_OK {
rc = sqlite3Fts5ExprPopulatePoslists(tls,
pConfig, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr, aPopulator, i, *(*uintptr)(unsafe.Pointer(bp)), *(*int32)(unsafe.Pointer(bp + 8)))
}
}
Xsqlite3_free(tls, aPopulator)
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpSorter != 0 {
sqlite3Fts5ExprCheckPoslists(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr, (*Fts5Sorter)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).FpSorter)).FiRowid)
}
}
*(*int32)(unsafe.Pointer(pCsr + 80)) &= libc.CplInt32(FTS5CSR_REQUIRE_POSLIST)
}
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpSorter != 0 && (*Fts5Config)(unsafe.Pointer(pConfig)).FeDetail == FTS5_DETAIL_FULL {
var pSorter uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpSorter
var i1 int32 = func() int32 {
if iPhrase == 0 {
return 0
}
return *(*int32)(unsafe.Pointer(pSorter + 28 + uintptr(iPhrase-1)*4))
}()
*(*int32)(unsafe.Pointer(pn)) = *(*int32)(unsafe.Pointer(pSorter + 28 + uintptr(iPhrase)*4)) - i1
*(*uintptr)(unsafe.Pointer(pa)) = (*Fts5Sorter)(unsafe.Pointer(pSorter)).FaPoslist + uintptr(i1)
} else {
*(*int32)(unsafe.Pointer(pn)) = sqlite3Fts5ExprPoslist(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr, iPhrase, pa)
}
return rc
}
func fts5CacheInstArray(tls *libc.TLS, pCsr uintptr) int32 {
bp := tls.Alloc(20)
defer tls.Free(20)
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
var aIter uintptr
var nIter int32
var nCol int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab)).FpConfig)).FnCol
nIter = sqlite3Fts5ExprPhraseCount(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr)
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FaInstIter == uintptr(0) {
var nByte Sqlite3_int64 = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5PoslistReader{})) * uint64(nIter))
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FaInstIter = sqlite3Fts5MallocZero(tls, bp, nByte)
}
aIter = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FaInstIter
if aIter != 0 {
var nInst int32 = 0
var i int32
for i = 0; i < nIter && *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK; i++ {
*(*int32)(unsafe.Pointer(bp)) = fts5CsrPoslist(tls, pCsr, i, bp+8, bp+16)
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
sqlite3Fts5PoslistReaderInit(tls, *(*uintptr)(unsafe.Pointer(bp + 8)), *(*int32)(unsafe.Pointer(bp + 16)), aIter+uintptr(i)*32)
}
}
if *(*int32)(unsafe.Pointer(bp)) == SQLITE_OK {
for 1 != 0 {
var aInst uintptr
var iBest int32 = -1
for i = 0; i < nIter; i++ {
if int32((*Fts5PoslistReader)(unsafe.Pointer(aIter+uintptr(i)*32)).FbEof) == 0 &&
(iBest < 0 || (*Fts5PoslistReader)(unsafe.Pointer(aIter+uintptr(i)*32)).FiPos < (*Fts5PoslistReader)(unsafe.Pointer(aIter+uintptr(iBest)*32)).FiPos) {
iBest = i
}
}
if iBest < 0 {
break
}
nInst++
if nInst >= (*Fts5Cursor)(unsafe.Pointer(pCsr)).FnInstAlloc {
var nNewSize int32
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FnInstAlloc != 0 {
nNewSize = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FnInstAlloc * 2
} else {
nNewSize = 32
}
aInst = Xsqlite3_realloc64(tls,
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FaInst, uint64(nNewSize)*uint64(unsafe.Sizeof(int32(0)))*uint64(3))
if aInst != 0 {
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FaInst = aInst
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FnInstAlloc = nNewSize
} else {
nInst--
*(*int32)(unsafe.Pointer(bp)) = SQLITE_NOMEM
break
}
}
aInst = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FaInst + uintptr(3*(nInst-1))*4
*(*int32)(unsafe.Pointer(aInst)) = iBest
*(*int32)(unsafe.Pointer(aInst + 1*4)) = int32((*Fts5PoslistReader)(unsafe.Pointer(aIter+uintptr(iBest)*32)).FiPos >> 32)
*(*int32)(unsafe.Pointer(aInst + 2*4)) = int32((*Fts5PoslistReader)(unsafe.Pointer(aIter+uintptr(iBest)*32)).FiPos & int64(0x7FFFFFFF))
if *(*int32)(unsafe.Pointer(aInst + 1*4)) < 0 || *(*int32)(unsafe.Pointer(aInst + 1*4)) >= nCol {
*(*int32)(unsafe.Pointer(bp)) = SQLITE_CORRUPT | int32(1)<<8
break
}
sqlite3Fts5PoslistReaderNext(tls, aIter+uintptr(iBest)*32)
}
}
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FnInstCount = nInst
*(*int32)(unsafe.Pointer(pCsr + 80)) &= libc.CplInt32(FTS5CSR_REQUIRE_INST)
}
return *(*int32)(unsafe.Pointer(bp))
}
func fts5ApiInstCount(tls *libc.TLS, pCtx uintptr, pnInst uintptr) int32 {
var pCsr uintptr = pCtx
var rc int32 = SQLITE_OK
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fcsrflags&FTS5CSR_REQUIRE_INST == 0 ||
SQLITE_OK == libc.AssignInt32(&rc, fts5CacheInstArray(tls, pCsr)) {
*(*int32)(unsafe.Pointer(pnInst)) = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FnInstCount
}
return rc
}
func fts5ApiInst(tls *libc.TLS, pCtx uintptr, iIdx int32, piPhrase uintptr, piCol uintptr, piOff uintptr) int32 {
var pCsr uintptr = pCtx
var rc int32 = SQLITE_OK
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fcsrflags&FTS5CSR_REQUIRE_INST == 0 ||
SQLITE_OK == libc.AssignInt32(&rc, fts5CacheInstArray(tls, pCsr)) {
if iIdx < 0 || iIdx >= (*Fts5Cursor)(unsafe.Pointer(pCsr)).FnInstCount {
rc = SQLITE_RANGE
} else {
*(*int32)(unsafe.Pointer(piPhrase)) = *(*int32)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).FaInst + uintptr(iIdx*3)*4))
*(*int32)(unsafe.Pointer(piCol)) = *(*int32)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).FaInst + uintptr(iIdx*3+1)*4))
*(*int32)(unsafe.Pointer(piOff)) = *(*int32)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).FaInst + uintptr(iIdx*3+2)*4))
}
}
return rc
}
func fts5ApiRowid(tls *libc.TLS, pCtx uintptr) Sqlite3_int64 {
return fts5CursorRowid(tls, pCtx)
}
func fts5ColumnSizeCb(tls *libc.TLS, pContext uintptr, tflags int32, pUnused uintptr, nUnused int32, iUnused1 int32, iUnused2 int32) int32 {
var pCnt uintptr = pContext
_ = pUnused
_ = nUnused
_ = iUnused1
_ = iUnused2
if tflags&FTS5_TOKEN_COLOCATED == 0 {
*(*int32)(unsafe.Pointer(pCnt))++
}
return SQLITE_OK
}
func fts5ApiColumnSize(tls *libc.TLS, pCtx uintptr, iCol int32, pnToken uintptr) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
var pCsr uintptr = pCtx
var pTab uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab
var pConfig uintptr = (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig
var rc int32 = SQLITE_OK
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fcsrflags&FTS5CSR_REQUIRE_DOCSIZE != 0 {
if (*Fts5Config)(unsafe.Pointer(pConfig)).FbColumnsize != 0 {
var iRowid I64 = fts5CursorRowid(tls, pCsr)
rc = sqlite3Fts5StorageDocsize(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, iRowid, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FaColumnSize)
} else if (*Fts5Config)(unsafe.Pointer(pConfig)).FzContent == uintptr(0) {
var i int32
for i = 0; i < (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol; i++ {
if int32(*(*U8)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FabUnindexed + uintptr(i)))) == 0 {
*(*int32)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).FaColumnSize + uintptr(i)*4)) = -1
}
}
} else {
var i int32
for i = 0; rc == SQLITE_OK && i < (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol; i++ {
if int32(*(*U8)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FabUnindexed + uintptr(i)))) == 0 {
var p uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FaColumnSize + uintptr(i)*4
*(*int32)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).FaColumnSize + uintptr(i)*4)) = 0
rc = fts5ApiColumnText(tls, pCtx, i, bp, bp+8)
if rc == SQLITE_OK {
rc = sqlite3Fts5Tokenize(tls,
pConfig, FTS5_TOKENIZE_AUX, *(*uintptr)(unsafe.Pointer(bp)), *(*int32)(unsafe.Pointer(bp + 8)), p, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
}{fts5ColumnSizeCb})))
}
}
}
}
*(*int32)(unsafe.Pointer(pCsr + 80)) &= libc.CplInt32(FTS5CSR_REQUIRE_DOCSIZE)
}
if iCol < 0 {
var i int32
*(*int32)(unsafe.Pointer(pnToken)) = 0
for i = 0; i < (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol; i++ {
*(*int32)(unsafe.Pointer(pnToken)) += *(*int32)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).FaColumnSize + uintptr(i)*4))
}
} else if iCol < (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol {
*(*int32)(unsafe.Pointer(pnToken)) = *(*int32)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).FaColumnSize + uintptr(iCol)*4))
} else {
*(*int32)(unsafe.Pointer(pnToken)) = 0
rc = SQLITE_RANGE
}
return rc
}
func fts5ApiSetAuxdata(tls *libc.TLS, pCtx uintptr, pPtr uintptr, xDelete uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pCsr uintptr = pCtx
var pData uintptr
for pData = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpAuxdata; pData != 0; pData = (*Fts5Auxdata)(unsafe.Pointer(pData)).FpNext {
if (*Fts5Auxdata)(unsafe.Pointer(pData)).FpAux == (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpAux {
break
}
}
if pData != 0 {
if (*Fts5Auxdata)(unsafe.Pointer(pData)).FxDelete != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*Fts5Auxdata)(unsafe.Pointer(pData)).FxDelete})).f(tls, (*Fts5Auxdata)(unsafe.Pointer(pData)).FpPtr)
}
} else {
*(*int32)(unsafe.Pointer(bp)) = SQLITE_OK
pData = sqlite3Fts5MallocZero(tls, bp, int64(unsafe.Sizeof(Fts5Auxdata{})))
if pData == uintptr(0) {
if xDelete != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{xDelete})).f(tls, pPtr)
}
return *(*int32)(unsafe.Pointer(bp))
}
(*Fts5Auxdata)(unsafe.Pointer(pData)).FpAux = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpAux
(*Fts5Auxdata)(unsafe.Pointer(pData)).FpNext = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpAuxdata
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FpAuxdata = pData
}
(*Fts5Auxdata)(unsafe.Pointer(pData)).FxDelete = xDelete
(*Fts5Auxdata)(unsafe.Pointer(pData)).FpPtr = pPtr
return SQLITE_OK
}
func fts5ApiGetAuxdata(tls *libc.TLS, pCtx uintptr, bClear int32) uintptr {
var pCsr uintptr = pCtx
var pData uintptr
var pRet uintptr = uintptr(0)
for pData = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpAuxdata; pData != 0; pData = (*Fts5Auxdata)(unsafe.Pointer(pData)).FpNext {
if (*Fts5Auxdata)(unsafe.Pointer(pData)).FpAux == (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpAux {
break
}
}
if pData != 0 {
pRet = (*Fts5Auxdata)(unsafe.Pointer(pData)).FpPtr
if bClear != 0 {
(*Fts5Auxdata)(unsafe.Pointer(pData)).FpPtr = uintptr(0)
(*Fts5Auxdata)(unsafe.Pointer(pData)).FxDelete = uintptr(0)
}
}
return pRet
}
func fts5ApiPhraseNext(tls *libc.TLS, pUnused uintptr, pIter uintptr, piCol uintptr, piOff uintptr) {
bp := tls.Alloc(4)
defer tls.Free(4)
_ = pUnused
if (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa >= (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fb {
*(*int32)(unsafe.Pointer(piCol)) = -1
*(*int32)(unsafe.Pointer(piOff)) = -1
} else {
*(*uintptr)(unsafe.Pointer(pIter)) += uintptr(sqlite3Fts5GetVarint32(tls, (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa, bp))
if *(*int32)(unsafe.Pointer(bp)) == 1 {
*(*uintptr)(unsafe.Pointer(pIter)) += uintptr(sqlite3Fts5GetVarint32(tls, (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa, bp))
*(*int32)(unsafe.Pointer(piCol)) = *(*int32)(unsafe.Pointer(bp))
*(*int32)(unsafe.Pointer(piOff)) = 0
*(*uintptr)(unsafe.Pointer(pIter)) += uintptr(sqlite3Fts5GetVarint32(tls, (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa, bp))
}
*(*int32)(unsafe.Pointer(piOff)) += *(*int32)(unsafe.Pointer(bp)) - 2
}
}
func fts5ApiPhraseFirst(tls *libc.TLS, pCtx uintptr, iPhrase int32, pIter uintptr, piCol uintptr, piOff uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pCsr uintptr = pCtx
var rc int32 = fts5CsrPoslist(tls, pCsr, iPhrase, pIter, bp)
if rc == SQLITE_OK {
(*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fb = func() uintptr {
if (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa != 0 {
return (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa + uintptr(*(*int32)(unsafe.Pointer(bp)))
}
return uintptr(0)
}()
*(*int32)(unsafe.Pointer(piCol)) = 0
*(*int32)(unsafe.Pointer(piOff)) = 0
fts5ApiPhraseNext(tls, pCtx, pIter, piCol, piOff)
}
return rc
}
func fts5ApiPhraseNextColumn(tls *libc.TLS, pCtx uintptr, pIter uintptr, piCol uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pCsr uintptr = pCtx
var pConfig uintptr = (*Fts5Table)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab)).FpConfig
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeDetail == FTS5_DETAIL_COLUMNS {
if (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa >= (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fb {
*(*int32)(unsafe.Pointer(piCol)) = -1
} else {
*(*uintptr)(unsafe.Pointer(pIter)) += uintptr(sqlite3Fts5GetVarint32(tls, (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa, bp))
*(*int32)(unsafe.Pointer(piCol)) += *(*int32)(unsafe.Pointer(bp)) - 2
}
} else {
for 1 != 0 {
if (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa >= (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fb {
*(*int32)(unsafe.Pointer(piCol)) = -1
return
}
if int32(*(*uint8)(unsafe.Pointer((*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa))) == 0x01 {
break
}
*(*uintptr)(unsafe.Pointer(pIter)) += uintptr(sqlite3Fts5GetVarint32(tls, (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa, bp+4))
}
*(*uintptr)(unsafe.Pointer(pIter)) += uintptr(1 + sqlite3Fts5GetVarint32(tls, (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa+1, piCol))
}
}
func fts5ApiPhraseFirstColumn(tls *libc.TLS, pCtx uintptr, iPhrase int32, pIter uintptr, piCol uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
var pCsr uintptr = pCtx
var pConfig uintptr = (*Fts5Table)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab)).FpConfig
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeDetail == FTS5_DETAIL_COLUMNS {
var pSorter uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpSorter
if pSorter != 0 {
var i1 int32 = func() int32 {
if iPhrase == 0 {
return 0
}
return *(*int32)(unsafe.Pointer(pSorter + 28 + uintptr(iPhrase-1)*4))
}()
*(*int32)(unsafe.Pointer(bp)) = *(*int32)(unsafe.Pointer(pSorter + 28 + uintptr(iPhrase)*4)) - i1
(*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa = (*Fts5Sorter)(unsafe.Pointer(pSorter)).FaPoslist + uintptr(i1)
} else {
rc = sqlite3Fts5ExprPhraseCollist(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr, iPhrase, pIter, bp)
}
if rc == SQLITE_OK {
(*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fb = func() uintptr {
if (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa != 0 {
return (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa + uintptr(*(*int32)(unsafe.Pointer(bp)))
}
return uintptr(0)
}()
*(*int32)(unsafe.Pointer(piCol)) = 0
fts5ApiPhraseNextColumn(tls, pCtx, pIter, piCol)
}
} else {
rc = fts5CsrPoslist(tls, pCsr, iPhrase, pIter, bp+4)
if rc == SQLITE_OK {
(*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fb = func() uintptr {
if (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa != 0 {
return (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa + uintptr(*(*int32)(unsafe.Pointer(bp + 4)))
}
return uintptr(0)
}()
if *(*int32)(unsafe.Pointer(bp + 4)) <= 0 {
*(*int32)(unsafe.Pointer(piCol)) = -1
} else if int32(*(*uint8)(unsafe.Pointer((*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa))) == 0x01 {
*(*uintptr)(unsafe.Pointer(pIter)) += uintptr(1 + sqlite3Fts5GetVarint32(tls, (*Fts5PhraseIter)(unsafe.Pointer(pIter)).Fa+1, piCol))
} else {
*(*int32)(unsafe.Pointer(piCol)) = 0
}
}
}
return rc
}
var sFts5Api = Fts5ExtensionApi{
FiVersion: 2,
FxUserData: 0,
FxColumnCount: 0,
FxRowCount: 0,
FxColumnTotalSize: 0,
FxTokenize: 0,
FxPhraseCount: 0,
FxPhraseSize: 0,
FxInstCount: 0,
FxInst: 0,
FxRowid: 0,
FxColumnText: 0,
FxColumnSize: 0,
FxQueryPhrase: 0,
FxSetAuxdata: 0,
FxGetAuxdata: 0,
FxPhraseFirst: 0,
FxPhraseNext: 0,
FxPhraseFirstColumn: 0,
FxPhraseNextColumn: 0,
}
func fts5ApiQueryPhrase(tls *libc.TLS, pCtx uintptr, iPhrase int32, pUserData uintptr, xCallback uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pCsr uintptr = pCtx
var pTab uintptr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab
var rc int32
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
rc = fts5OpenMethod(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab, bp)
if rc == SQLITE_OK {
(*Fts5Cursor)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FePlan = FTS5_PLAN_MATCH
(*Fts5Cursor)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FiFirstRowid = int64(-1) - (int64(0xffffffff) | int64(0x7fffffff)<<32)
(*Fts5Cursor)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).FiLastRowid = int64(0xffffffff) | int64(0x7fffffff)<<32
(*Fts5Cursor)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Fbase.FpVtab = pTab
rc = sqlite3Fts5ExprClonePhrase(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr, iPhrase, *(*uintptr)(unsafe.Pointer(bp))+64)
}
if rc == SQLITE_OK {
for rc = fts5CursorFirst(tls, pTab, *(*uintptr)(unsafe.Pointer(bp)), 0); rc == SQLITE_OK && (*Fts5Cursor)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(bp)))).Fcsrflags&FTS5CSR_EOF == 0; rc = fts5NextMethod(tls, *(*uintptr)(unsafe.Pointer(bp))) {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{xCallback})).f(tls, uintptr(unsafe.Pointer(&sFts5Api)), *(*uintptr)(unsafe.Pointer(bp)), pUserData)
if rc != SQLITE_OK {
if rc == SQLITE_DONE {
rc = SQLITE_OK
}
break
}
}
}
fts5CloseMethod(tls, *(*uintptr)(unsafe.Pointer(bp)))
return rc
}
func fts5ApiInvoke(tls *libc.TLS, pAux uintptr, pCsr uintptr, context uintptr, argc int32, argv uintptr) {
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FpAux = pAux
(*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr)
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5Auxiliary)(unsafe.Pointer(pAux)).FxFunc})).f(tls, uintptr(unsafe.Pointer(&sFts5Api)), pCsr, context, argc, argv)
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FpAux = uintptr(0)
}
func fts5CursorFromCsrid(tls *libc.TLS, pGlobal uintptr, iCsrId I64) uintptr {
var pCsr uintptr
for pCsr = (*Fts5Global)(unsafe.Pointer(pGlobal)).FpCsr; pCsr != 0; pCsr = (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpNext {
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FiCsrId == iCsrId {
break
}
}
return pCsr
}
func fts5ApiCallback(tls *libc.TLS, context uintptr, argc int32, argv uintptr) {
bp := tls.Alloc(8)
defer tls.Free(8)
var pAux uintptr
var pCsr uintptr
var iCsrId I64
pAux = Xsqlite3_user_data(tls, context)
iCsrId = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(argv)))
pCsr = fts5CursorFromCsrid(tls, (*Fts5Auxiliary)(unsafe.Pointer(pAux)).FpGlobal, iCsrId)
if pCsr == uintptr(0) || (*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan == 0 {
var zErr uintptr = Xsqlite3_mprintf(tls, ts+36230, libc.VaList(bp, iCsrId))
Xsqlite3_result_error(tls, context, zErr, -1)
Xsqlite3_free(tls, zErr)
} else {
fts5ApiInvoke(tls, pAux, pCsr, context, argc-1, argv+1*8)
}
}
func sqlite3Fts5TableFromCsrid(tls *libc.TLS, pGlobal uintptr, iCsrId I64) uintptr {
var pCsr uintptr
pCsr = fts5CursorFromCsrid(tls, pGlobal, iCsrId)
if pCsr != 0 {
return (*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab
}
return uintptr(0)
}
func fts5PoslistBlob(tls *libc.TLS, pCtx uintptr, pCsr uintptr) int32 {
bp := tls.Alloc(68)
defer tls.Free(68)
var i int32
*(*int32)(unsafe.Pointer(bp + 24)) = SQLITE_OK
var nPhrase int32 = sqlite3Fts5ExprPhraseCount(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr)
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Fts5Buffer{})), libc.X__builtin_object_size(tls, bp, 0))
switch (*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer((*Fts5Cursor)(unsafe.Pointer(pCsr)).Fbase.FpVtab)).FpConfig)).FeDetail {
case FTS5_DETAIL_FULL:
for i = 0; i < nPhrase-1; i++ {
var nByte int32 = sqlite3Fts5ExprPoslist(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr, i, bp+16)
sqlite3Fts5BufferAppendVarint(tls, bp+24, bp, int64(nByte))
}
for i = 0; i < nPhrase; i++ {
var nPoslist int32
nPoslist = sqlite3Fts5ExprPoslist(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr, i, bp+32)
sqlite3Fts5BufferAppendBlob(tls, bp+24, bp, uint32(nPoslist), *(*uintptr)(unsafe.Pointer(bp + 32)))
}
break
case FTS5_DETAIL_COLUMNS:
for i = 0; *(*int32)(unsafe.Pointer(bp + 24)) == SQLITE_OK && i < nPhrase-1; i++ {
*(*int32)(unsafe.Pointer(bp + 24)) = sqlite3Fts5ExprPhraseCollist(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr, i, bp+40, bp+48)
sqlite3Fts5BufferAppendVarint(tls, bp+24, bp, int64(*(*int32)(unsafe.Pointer(bp + 48))))
}
for i = 0; *(*int32)(unsafe.Pointer(bp + 24)) == SQLITE_OK && i < nPhrase; i++ {
*(*int32)(unsafe.Pointer(bp + 24)) = sqlite3Fts5ExprPhraseCollist(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpExpr, i, bp+56, bp+64)
sqlite3Fts5BufferAppendBlob(tls, bp+24, bp, uint32(*(*int32)(unsafe.Pointer(bp + 64))), *(*uintptr)(unsafe.Pointer(bp + 56)))
}
break
default:
break
}
Xsqlite3_result_blob(tls, pCtx, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp, (*Fts5Buffer)(unsafe.Pointer(bp)).Fn, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{Xsqlite3_free})))
return *(*int32)(unsafe.Pointer(bp + 24))
}
func fts5ColumnMethod(tls *libc.TLS, pCursor uintptr, pCtx uintptr, iCol int32) int32 {
var pTab uintptr = (*Sqlite3_vtab_cursor)(unsafe.Pointer(pCursor)).FpVtab
var pConfig uintptr = (*Fts5FullTable)(unsafe.Pointer(pTab)).Fp.FpConfig
var pCsr uintptr = pCursor
var rc int32 = SQLITE_OK
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan == FTS5_PLAN_SPECIAL {
if iCol == (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol {
Xsqlite3_result_int64(tls, pCtx, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FiSpecial)
}
} else if iCol == (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol {
Xsqlite3_result_int64(tls, pCtx, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FiCsrId)
} else if iCol == (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol+1 {
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan == FTS5_PLAN_SOURCE {
fts5PoslistBlob(tls, pCtx, pCsr)
} else if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan == FTS5_PLAN_MATCH ||
(*Fts5Cursor)(unsafe.Pointer(pCsr)).FePlan == FTS5_PLAN_SORTED_MATCH {
if (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpRank != 0 || SQLITE_OK == libc.AssignInt32(&rc, fts5FindRankFunction(tls, pCsr)) {
fts5ApiInvoke(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpRank, pCsr, pCtx, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FnRankArg, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FapRankArg)
}
}
} else if !(fts5IsContentless(tls, pTab) != 0) {
(*Fts5Config)(unsafe.Pointer(pConfig)).FpzErrmsg = pTab + 16
rc = fts5SeekCursor(tls, pCsr, 1)
if rc == SQLITE_OK {
Xsqlite3_result_value(tls, pCtx, Xsqlite3_column_value(tls, (*Fts5Cursor)(unsafe.Pointer(pCsr)).FpStmt, iCol+1))
}
(*Fts5Config)(unsafe.Pointer(pConfig)).FpzErrmsg = uintptr(0)
}
return rc
}
func fts5FindFunctionMethod(tls *libc.TLS, pVtab uintptr, nUnused int32, zName uintptr, pxFunc uintptr, ppArg uintptr) int32 {
var pTab uintptr = pVtab
var pAux uintptr
_ = nUnused
pAux = fts5FindAuxiliary(tls, pTab, zName)
if pAux != 0 {
*(*uintptr)(unsafe.Pointer(pxFunc)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{fts5ApiCallback}))
*(*uintptr)(unsafe.Pointer(ppArg)) = pAux
return 1
}
return 0
}
func fts5RenameMethod(tls *libc.TLS, pVtab uintptr, zName uintptr) int32 {
var pTab uintptr = pVtab
return sqlite3Fts5StorageRename(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage, zName)
}
func sqlite3Fts5FlushToDisk(tls *libc.TLS, pTab uintptr) int32 {
fts5TripCursors(tls, pTab)
return sqlite3Fts5StorageSync(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage)
}
func fts5SavepointMethod(tls *libc.TLS, pVtab uintptr, iSavepoint int32) int32 {
_ = iSavepoint
return sqlite3Fts5FlushToDisk(tls, pVtab)
}
func fts5ReleaseMethod(tls *libc.TLS, pVtab uintptr, iSavepoint int32) int32 {
_ = iSavepoint
return sqlite3Fts5FlushToDisk(tls, pVtab)
}
func fts5RollbackToMethod(tls *libc.TLS, pVtab uintptr, iSavepoint int32) int32 {
var pTab uintptr = pVtab
_ = iSavepoint
fts5TripCursors(tls, pTab)
return sqlite3Fts5StorageRollback(tls, (*Fts5FullTable)(unsafe.Pointer(pTab)).FpStorage)
}
func fts5CreateAux(tls *libc.TLS, pApi uintptr, zName uintptr, pUserData uintptr, xFunc Fts5_extension_function, xDestroy uintptr) int32 {
var pGlobal uintptr = pApi
var rc int32 = Xsqlite3_overload_function(tls, (*Fts5Global)(unsafe.Pointer(pGlobal)).Fdb, zName, -1)
if rc == SQLITE_OK {
var pAux uintptr
var nName Sqlite3_int64
var nByte Sqlite3_int64
nName = Sqlite3_int64(libc.Xstrlen(tls, zName) + uint64(1))
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5Auxiliary{})) + uint64(nName))
pAux = Xsqlite3_malloc64(tls, uint64(nByte))
if pAux != 0 {
libc.X__builtin___memset_chk(tls, pAux, 0, Size_t(nByte), libc.X__builtin_object_size(tls, pAux, 0))
(*Fts5Auxiliary)(unsafe.Pointer(pAux)).FzFunc = pAux + 1*48
libc.X__builtin___memcpy_chk(tls, (*Fts5Auxiliary)(unsafe.Pointer(pAux)).FzFunc, zName, uint64(nName), libc.X__builtin_object_size(tls, (*Fts5Auxiliary)(unsafe.Pointer(pAux)).FzFunc, 0))
(*Fts5Auxiliary)(unsafe.Pointer(pAux)).FpGlobal = pGlobal
(*Fts5Auxiliary)(unsafe.Pointer(pAux)).FpUserData = pUserData
(*Fts5Auxiliary)(unsafe.Pointer(pAux)).FxFunc = xFunc
(*Fts5Auxiliary)(unsafe.Pointer(pAux)).FxDestroy = xDestroy
(*Fts5Auxiliary)(unsafe.Pointer(pAux)).FpNext = (*Fts5Global)(unsafe.Pointer(pGlobal)).FpAux
(*Fts5Global)(unsafe.Pointer(pGlobal)).FpAux = pAux
} else {
rc = SQLITE_NOMEM
}
}
return rc
}
func fts5CreateTokenizer(tls *libc.TLS, pApi uintptr, zName uintptr, pUserData uintptr, pTokenizer uintptr, xDestroy uintptr) int32 {
var pGlobal uintptr = pApi
var pNew uintptr
var nName Sqlite3_int64
var nByte Sqlite3_int64
var rc int32 = SQLITE_OK
nName = Sqlite3_int64(libc.Xstrlen(tls, zName) + uint64(1))
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5TokenizerModule{})) + uint64(nName))
pNew = Xsqlite3_malloc64(tls, uint64(nByte))
if pNew != 0 {
libc.X__builtin___memset_chk(tls, pNew, 0, Size_t(nByte), libc.X__builtin_object_size(tls, pNew, 0))
(*Fts5TokenizerModule)(unsafe.Pointer(pNew)).FzName = pNew + 1*56
libc.X__builtin___memcpy_chk(tls, (*Fts5TokenizerModule)(unsafe.Pointer(pNew)).FzName, zName, uint64(nName), libc.X__builtin_object_size(tls, (*Fts5TokenizerModule)(unsafe.Pointer(pNew)).FzName, 0))
(*Fts5TokenizerModule)(unsafe.Pointer(pNew)).FpUserData = pUserData
(*Fts5TokenizerModule)(unsafe.Pointer(pNew)).Fx = *(*Fts5_tokenizer)(unsafe.Pointer(pTokenizer))
(*Fts5TokenizerModule)(unsafe.Pointer(pNew)).FxDestroy = xDestroy
(*Fts5TokenizerModule)(unsafe.Pointer(pNew)).FpNext = (*Fts5Global)(unsafe.Pointer(pGlobal)).FpTok
(*Fts5Global)(unsafe.Pointer(pGlobal)).FpTok = pNew
if (*Fts5TokenizerModule)(unsafe.Pointer(pNew)).FpNext == uintptr(0) {
(*Fts5Global)(unsafe.Pointer(pGlobal)).FpDfltTok = pNew
}
} else {
rc = SQLITE_NOMEM
}
return rc
}
func fts5LocateTokenizer(tls *libc.TLS, pGlobal uintptr, zName uintptr) uintptr {
var pMod uintptr = uintptr(0)
if zName == uintptr(0) {
pMod = (*Fts5Global)(unsafe.Pointer(pGlobal)).FpDfltTok
} else {
for pMod = (*Fts5Global)(unsafe.Pointer(pGlobal)).FpTok; pMod != 0; pMod = (*Fts5TokenizerModule)(unsafe.Pointer(pMod)).FpNext {
if Xsqlite3_stricmp(tls, zName, (*Fts5TokenizerModule)(unsafe.Pointer(pMod)).FzName) == 0 {
break
}
}
}
return pMod
}
func fts5FindTokenizer(tls *libc.TLS, pApi uintptr, zName uintptr, ppUserData uintptr, pTokenizer uintptr) int32 {
var rc int32 = SQLITE_OK
var pMod uintptr
pMod = fts5LocateTokenizer(tls, pApi, zName)
if pMod != 0 {
*(*Fts5_tokenizer)(unsafe.Pointer(pTokenizer)) = (*Fts5TokenizerModule)(unsafe.Pointer(pMod)).Fx
*(*uintptr)(unsafe.Pointer(ppUserData)) = (*Fts5TokenizerModule)(unsafe.Pointer(pMod)).FpUserData
} else {
libc.X__builtin___memset_chk(tls, pTokenizer, 0, uint64(unsafe.Sizeof(Fts5_tokenizer{})), libc.X__builtin_object_size(tls, pTokenizer, 0))
rc = SQLITE_ERROR
}
return rc
}
func sqlite3Fts5GetTokenizer(tls *libc.TLS, pGlobal uintptr, azArg uintptr, nArg int32, pConfig uintptr, pzErr uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pMod uintptr
var rc int32 = SQLITE_OK
pMod = fts5LocateTokenizer(tls, pGlobal, func() uintptr {
if nArg == 0 {
return uintptr(0)
}
return *(*uintptr)(unsafe.Pointer(azArg))
}())
if pMod == uintptr(0) {
rc = SQLITE_ERROR
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+36251, libc.VaList(bp, *(*uintptr)(unsafe.Pointer(azArg))))
} else {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5TokenizerModule)(unsafe.Pointer(pMod)).Fx.FxCreate})).f(tls,
(*Fts5TokenizerModule)(unsafe.Pointer(pMod)).FpUserData, func() uintptr {
if azArg != 0 {
return azArg + 1*8
}
return uintptr(0)
}(), func() int32 {
if nArg != 0 {
return nArg - 1
}
return 0
}(), pConfig+104)
(*Fts5Config)(unsafe.Pointer(pConfig)).FpTokApi = pMod + 16
if rc != SQLITE_OK {
if pzErr != 0 {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+36273, 0)
}
} else {
(*Fts5Config)(unsafe.Pointer(pConfig)).FePattern = sqlite3Fts5TokenizerPattern(tls,
(*Fts5TokenizerModule)(unsafe.Pointer(pMod)).Fx.FxCreate, (*Fts5Config)(unsafe.Pointer(pConfig)).FpTok)
}
}
if rc != SQLITE_OK {
(*Fts5Config)(unsafe.Pointer(pConfig)).FpTokApi = uintptr(0)
(*Fts5Config)(unsafe.Pointer(pConfig)).FpTok = uintptr(0)
}
return rc
}
func fts5ModuleDestroy(tls *libc.TLS, pCtx uintptr) {
var pTok uintptr
var pNextTok uintptr
var pAux uintptr
var pNextAux uintptr
var pGlobal uintptr = pCtx
for pAux = (*Fts5Global)(unsafe.Pointer(pGlobal)).FpAux; pAux != 0; pAux = pNextAux {
pNextAux = (*Fts5Auxiliary)(unsafe.Pointer(pAux)).FpNext
if (*Fts5Auxiliary)(unsafe.Pointer(pAux)).FxDestroy != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*Fts5Auxiliary)(unsafe.Pointer(pAux)).FxDestroy})).f(tls, (*Fts5Auxiliary)(unsafe.Pointer(pAux)).FpUserData)
}
Xsqlite3_free(tls, pAux)
}
for pTok = (*Fts5Global)(unsafe.Pointer(pGlobal)).FpTok; pTok != 0; pTok = pNextTok {
pNextTok = (*Fts5TokenizerModule)(unsafe.Pointer(pTok)).FpNext
if (*Fts5TokenizerModule)(unsafe.Pointer(pTok)).FxDestroy != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*Fts5TokenizerModule)(unsafe.Pointer(pTok)).FxDestroy})).f(tls, (*Fts5TokenizerModule)(unsafe.Pointer(pTok)).FpUserData)
}
Xsqlite3_free(tls, pTok)
}
Xsqlite3_free(tls, pGlobal)
}
func fts5Fts5Func(tls *libc.TLS, pCtx uintptr, nArg int32, apArg uintptr) {
var pGlobal uintptr = Xsqlite3_user_data(tls, pCtx)
var ppApi uintptr
_ = nArg
ppApi = Xsqlite3_value_pointer(tls, *(*uintptr)(unsafe.Pointer(apArg)), ts+36304)
if ppApi != 0 {
*(*uintptr)(unsafe.Pointer(ppApi)) = pGlobal
}
}
func fts5SourceIdFunc(tls *libc.TLS, pCtx uintptr, nArg int32, apUnused uintptr) {
_ = nArg
_ = apUnused
Xsqlite3_result_text(tls, pCtx, ts+36317, -1, libc.UintptrFromInt32(-1))
}
func fts5ShadowName(tls *libc.TLS, zName uintptr) int32 {
var i uint32
for i = uint32(0); uint64(i) < uint64(unsafe.Sizeof(azName2))/uint64(unsafe.Sizeof(uintptr(0))); i++ {
if Xsqlite3_stricmp(tls, zName, azName2[i]) == 0 {
return 1
}
}
return 0
}
var azName2 = [5]uintptr{
ts + 36408, ts + 34507, ts + 25506, ts + 34858, ts + 11891,
}
func fts5Init(tls *libc.TLS, db uintptr) int32 {
var rc int32
var pGlobal uintptr = uintptr(0)
pGlobal = Xsqlite3_malloc(tls, int32(unsafe.Sizeof(Fts5Global{})))
if pGlobal == uintptr(0) {
rc = SQLITE_NOMEM
} else {
var p uintptr = pGlobal
libc.X__builtin___memset_chk(tls, pGlobal, 0, uint64(unsafe.Sizeof(Fts5Global{})), libc.X__builtin_object_size(tls, pGlobal, 0))
(*Fts5Global)(unsafe.Pointer(pGlobal)).Fdb = db
(*Fts5Global)(unsafe.Pointer(pGlobal)).Fapi.FiVersion = 2
(*Fts5Global)(unsafe.Pointer(pGlobal)).Fapi.FxCreateFunction = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, Fts5_extension_function, uintptr) int32
}{fts5CreateAux}))
(*Fts5Global)(unsafe.Pointer(pGlobal)).Fapi.FxCreateTokenizer = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, uintptr, uintptr) int32
}{fts5CreateTokenizer}))
(*Fts5Global)(unsafe.Pointer(pGlobal)).Fapi.FxFindTokenizer = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, uintptr) int32
}{fts5FindTokenizer}))
rc = Xsqlite3_create_module_v2(tls, db, ts+36415, uintptr(unsafe.Pointer(&fts5Mod)), p, *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{fts5ModuleDestroy})))
if rc == SQLITE_OK {
rc = sqlite3Fts5IndexInit(tls, db)
}
if rc == SQLITE_OK {
rc = sqlite3Fts5ExprInit(tls, pGlobal, db)
}
if rc == SQLITE_OK {
rc = sqlite3Fts5AuxInit(tls, pGlobal)
}
if rc == SQLITE_OK {
rc = sqlite3Fts5TokenizerInit(tls, pGlobal)
}
if rc == SQLITE_OK {
rc = sqlite3Fts5VocabInit(tls, pGlobal, db)
}
if rc == SQLITE_OK {
rc = Xsqlite3_create_function(tls,
db, ts+36415, 1, SQLITE_UTF8, p, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{fts5Fts5Func})), uintptr(0), uintptr(0))
}
if rc == SQLITE_OK {
rc = Xsqlite3_create_function(tls,
db, ts+36420, 0,
SQLITE_UTF8|SQLITE_DETERMINISTIC|SQLITE_INNOCUOUS,
p, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr)
}{fts5SourceIdFunc})), uintptr(0), uintptr(0))
}
}
return rc
}
var fts5Mod = Sqlite3_module{
FiVersion: 3,
FxCreate: 0,
FxConnect: 0,
FxBestIndex: 0,
FxDisconnect: 0,
FxDestroy: 0,
FxOpen: 0,
FxClose: 0,
FxFilter: 0,
FxNext: 0,
FxEof: 0,
FxColumn: 0,
FxRowid: 0,
FxUpdate: 0,
FxBegin: 0,
FxSync: 0,
FxCommit: 0,
FxRollback: 0,
FxFindFunction: 0,
FxRename: 0,
FxSavepoint: 0,
FxRelease: 0,
FxRollbackTo: 0,
FxShadowName: 0,
}
// The following functions are used to register the module with SQLite. If
// this module is being built as part of the SQLite core (SQLITE_CORE is
// defined), then sqlite3_open() will call sqlite3Fts5Init() directly.
//
// Or, if this module is being built as a loadable extension,
// sqlite3Fts5Init() is omitted and the two standard entry points
// sqlite3_fts_init() and sqlite3_fts5_init() defined instead.
func Xsqlite3Fts5Init(tls *libc.TLS, db uintptr) int32 {
return fts5Init(tls, db)
}
func fts5StorageGetStmt(tls *libc.TLS, p uintptr, eStmt int32, ppStmt uintptr, pzErrMsg uintptr) int32 {
bp := tls.Alloc(216)
defer tls.Free(216)
var rc int32 = SQLITE_OK
if *(*uintptr)(unsafe.Pointer(p + 40 + uintptr(eStmt)*8)) == uintptr(0) {
*(*[11]uintptr)(unsafe.Pointer(bp + 128)) = [11]uintptr{
ts + 36435,
ts + 36503,
ts + 36572,
ts + 36605,
ts + 36644,
ts + 36684,
ts + 36723,
ts + 36764,
ts + 36803,
ts + 36845,
ts + 36885,
}
var pC uintptr = (*Fts5Storage)(unsafe.Pointer(p)).FpConfig
var zSql uintptr = uintptr(0)
switch eStmt {
case FTS5_STMT_SCAN:
zSql = Xsqlite3_mprintf(tls, *(*uintptr)(unsafe.Pointer(bp + 128 + uintptr(eStmt)*8)),
libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pC)).FzContentExprlist, (*Fts5Config)(unsafe.Pointer(pC)).FzContent))
break
fallthrough
case FTS5_STMT_SCAN_ASC:
fallthrough
case FTS5_STMT_SCAN_DESC:
zSql = Xsqlite3_mprintf(tls, *(*uintptr)(unsafe.Pointer(bp + 128 + uintptr(eStmt)*8)), libc.VaList(bp+16, (*Fts5Config)(unsafe.Pointer(pC)).FzContentExprlist,
(*Fts5Config)(unsafe.Pointer(pC)).FzContent, (*Fts5Config)(unsafe.Pointer(pC)).FzContentRowid, (*Fts5Config)(unsafe.Pointer(pC)).FzContentRowid,
(*Fts5Config)(unsafe.Pointer(pC)).FzContentRowid))
break
fallthrough
case FTS5_STMT_LOOKUP:
zSql = Xsqlite3_mprintf(tls, *(*uintptr)(unsafe.Pointer(bp + 128 + uintptr(eStmt)*8)),
libc.VaList(bp+56, (*Fts5Config)(unsafe.Pointer(pC)).FzContentExprlist, (*Fts5Config)(unsafe.Pointer(pC)).FzContent, (*Fts5Config)(unsafe.Pointer(pC)).FzContentRowid))
break
fallthrough
case FTS5_STMT_INSERT_CONTENT:
fallthrough
case FTS5_STMT_REPLACE_CONTENT:
{
var nCol int32 = (*Fts5Config)(unsafe.Pointer(pC)).FnCol + 1
var zBind uintptr
var i int32
zBind = Xsqlite3_malloc64(tls, uint64(1+nCol*2))
if zBind != 0 {
for i = 0; i < nCol; i++ {
*(*int8)(unsafe.Pointer(zBind + uintptr(i*2))) = int8('?')
*(*int8)(unsafe.Pointer(zBind + uintptr(i*2+1))) = int8(',')
}
*(*int8)(unsafe.Pointer(zBind + uintptr(i*2-1))) = int8(0)
zSql = Xsqlite3_mprintf(tls, *(*uintptr)(unsafe.Pointer(bp + 128 + uintptr(eStmt)*8)), libc.VaList(bp+80, (*Fts5Config)(unsafe.Pointer(pC)).FzDb, (*Fts5Config)(unsafe.Pointer(pC)).FzName, zBind))
Xsqlite3_free(tls, zBind)
}
break
}
fallthrough
default:
zSql = Xsqlite3_mprintf(tls, *(*uintptr)(unsafe.Pointer(bp + 128 + uintptr(eStmt)*8)), libc.VaList(bp+104, (*Fts5Config)(unsafe.Pointer(pC)).FzDb, (*Fts5Config)(unsafe.Pointer(pC)).FzName))
break
}
if zSql == uintptr(0) {
rc = SQLITE_NOMEM
} else {
var f int32 = SQLITE_PREPARE_PERSISTENT
if eStmt > FTS5_STMT_LOOKUP {
f = f | SQLITE_PREPARE_NO_VTAB
}
(*Fts5Config)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FpConfig)).FbLock++
rc = Xsqlite3_prepare_v3(tls, (*Fts5Config)(unsafe.Pointer(pC)).Fdb, zSql, -1, uint32(f), p+40+uintptr(eStmt)*8, uintptr(0))
(*Fts5Config)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FpConfig)).FbLock--
Xsqlite3_free(tls, zSql)
if rc != SQLITE_OK && pzErrMsg != 0 {
*(*uintptr)(unsafe.Pointer(pzErrMsg)) = Xsqlite3_mprintf(tls, ts+3658, libc.VaList(bp+120, Xsqlite3_errmsg(tls, (*Fts5Config)(unsafe.Pointer(pC)).Fdb)))
}
}
}
*(*uintptr)(unsafe.Pointer(ppStmt)) = *(*uintptr)(unsafe.Pointer(p + 40 + uintptr(eStmt)*8))
Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(ppStmt)))
return rc
}
func fts5ExecPrintf(tls *libc.TLS, db uintptr, pzErr uintptr, zFormat uintptr, va uintptr) int32 {
var rc int32
var ap Va_list
_ = ap
var zSql uintptr
ap = va
zSql = Xsqlite3_vmprintf(tls, zFormat, ap)
if zSql == uintptr(0) {
rc = SQLITE_NOMEM
} else {
rc = Xsqlite3_exec(tls, db, zSql, uintptr(0), uintptr(0), pzErr)
Xsqlite3_free(tls, zSql)
}
_ = ap
return rc
}
func sqlite3Fts5DropAll(tls *libc.TLS, pConfig uintptr) int32 {
bp := tls.Alloc(80)
defer tls.Free(80)
var rc int32 = fts5ExecPrintf(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb, uintptr(0),
ts+36908,
libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName,
(*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName,
(*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName))
if rc == SQLITE_OK && (*Fts5Config)(unsafe.Pointer(pConfig)).FbColumnsize != 0 {
rc = fts5ExecPrintf(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb, uintptr(0),
ts+37012,
libc.VaList(bp+48, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName))
}
if rc == SQLITE_OK && (*Fts5Config)(unsafe.Pointer(pConfig)).FeContent == FTS5_CONTENT_NORMAL {
rc = fts5ExecPrintf(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb, uintptr(0),
ts+37050,
libc.VaList(bp+64, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName))
}
return rc
}
func fts5StorageRenameOne(tls *libc.TLS, pConfig uintptr, pRc uintptr, zTail uintptr, zName uintptr) {
bp := tls.Alloc(40)
defer tls.Free(40)
if *(*int32)(unsafe.Pointer(pRc)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(pRc)) = fts5ExecPrintf(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb, uintptr(0),
ts+37088,
libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName, zTail, zName, zTail))
}
}
func sqlite3Fts5StorageRename(tls *libc.TLS, pStorage uintptr, zName uintptr) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pConfig uintptr = (*Fts5Storage)(unsafe.Pointer(pStorage)).FpConfig
*(*int32)(unsafe.Pointer(bp)) = sqlite3Fts5StorageSync(tls, pStorage)
fts5StorageRenameOne(tls, pConfig, bp, ts+25506, zName)
fts5StorageRenameOne(tls, pConfig, bp, ts+11891, zName)
fts5StorageRenameOne(tls, pConfig, bp, ts+36408, zName)
if (*Fts5Config)(unsafe.Pointer(pConfig)).FbColumnsize != 0 {
fts5StorageRenameOne(tls, pConfig, bp, ts+34858, zName)
}
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeContent == FTS5_CONTENT_NORMAL {
fts5StorageRenameOne(tls, pConfig, bp, ts+34507, zName)
}
return *(*int32)(unsafe.Pointer(bp))
}
func sqlite3Fts5CreateTable(tls *libc.TLS, pConfig uintptr, zPost uintptr, zDefn uintptr, bWithout int32, pzErr uintptr) int32 {
bp := tls.Alloc(72)
defer tls.Free(72)
var rc int32
*(*uintptr)(unsafe.Pointer(bp + 64)) = uintptr(0)
rc = fts5ExecPrintf(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb, bp+64, ts+37130,
libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName, zPost, zDefn,
func() uintptr {
if bWithout != 0 {
return ts + 30159
}
return ts + 1547
}()))
if *(*uintptr)(unsafe.Pointer(bp + 64)) != 0 {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls,
ts+37160,
libc.VaList(bp+40, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName, zPost, *(*uintptr)(unsafe.Pointer(bp + 64))))
Xsqlite3_free(tls, *(*uintptr)(unsafe.Pointer(bp + 64)))
}
return rc
}
func sqlite3Fts5StorageOpen(tls *libc.TLS, pConfig uintptr, pIndex uintptr, bCreate int32, pp uintptr, pzErr uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
var p uintptr
var nByte Sqlite3_int64
nByte = Sqlite3_int64(uint64(unsafe.Sizeof(Fts5Storage{})) +
uint64((*Fts5Config)(unsafe.Pointer(pConfig)).FnCol)*uint64(unsafe.Sizeof(I64(0))))
*(*uintptr)(unsafe.Pointer(pp)) = libc.AssignUintptr(&p, Xsqlite3_malloc64(tls, uint64(nByte)))
if !(p != 0) {
return SQLITE_NOMEM
}
libc.X__builtin___memset_chk(tls, p, 0, Size_t(nByte), libc.X__builtin_object_size(tls, p, 0))
(*Fts5Storage)(unsafe.Pointer(p)).FaTotalSize = p + 1*128
(*Fts5Storage)(unsafe.Pointer(p)).FpConfig = pConfig
(*Fts5Storage)(unsafe.Pointer(p)).FpIndex = pIndex
if bCreate != 0 {
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeContent == FTS5_CONTENT_NORMAL {
var nDefn int32 = 32 + (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol*10
var zDefn uintptr = Xsqlite3_malloc64(tls, uint64(int64(32)+Sqlite3_int64((*Fts5Config)(unsafe.Pointer(pConfig)).FnCol)*int64(10)))
if zDefn == uintptr(0) {
rc = SQLITE_NOMEM
} else {
var i int32
var iOff int32
Xsqlite3_snprintf(tls, nDefn, zDefn, ts+37204, 0)
iOff = int32(libc.Xstrlen(tls, zDefn))
for i = 0; i < (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol; i++ {
Xsqlite3_snprintf(tls, nDefn-iOff, zDefn+uintptr(iOff), ts+37227, libc.VaList(bp, i))
iOff = iOff + int32(libc.Xstrlen(tls, zDefn+uintptr(iOff)))
}
rc = sqlite3Fts5CreateTable(tls, pConfig, ts+34507, zDefn, 0, pzErr)
}
Xsqlite3_free(tls, zDefn)
}
if rc == SQLITE_OK && (*Fts5Config)(unsafe.Pointer(pConfig)).FbColumnsize != 0 {
rc = sqlite3Fts5CreateTable(tls,
pConfig, ts+34858, ts+37233, 0, pzErr)
}
if rc == SQLITE_OK {
rc = sqlite3Fts5CreateTable(tls,
pConfig, ts+36408, ts+37265, 1, pzErr)
}
if rc == SQLITE_OK {
rc = sqlite3Fts5StorageConfigValue(tls, p, ts+35004, uintptr(0), FTS5_CURRENT_VERSION)
}
}
if rc != 0 {
sqlite3Fts5StorageClose(tls, p)
*(*uintptr)(unsafe.Pointer(pp)) = uintptr(0)
}
return rc
}
func sqlite3Fts5StorageClose(tls *libc.TLS, p uintptr) int32 {
var rc int32 = SQLITE_OK
if p != 0 {
var i int32
for i = 0; i < int32(uint64(unsafe.Sizeof([11]uintptr{}))/uint64(unsafe.Sizeof(uintptr(0)))); i++ {
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(p + 40 + uintptr(i)*8)))
}
Xsqlite3_free(tls, p)
}
return rc
}
type Fts5InsertCtx1 = struct {
FpStorage uintptr
FiCol int32
FszCol int32
}
type Fts5InsertCtx = Fts5InsertCtx1
func fts5StorageInsertCallback(tls *libc.TLS, pContext uintptr, tflags int32, pToken uintptr, nToken int32, iUnused1 int32, iUnused2 int32) int32 {
var pCtx uintptr = pContext
var pIdx uintptr = (*Fts5Storage)(unsafe.Pointer((*Fts5InsertCtx)(unsafe.Pointer(pCtx)).FpStorage)).FpIndex
_ = iUnused1
_ = iUnused2
if nToken > FTS5_MAX_TOKEN_SIZE {
nToken = FTS5_MAX_TOKEN_SIZE
}
if tflags&FTS5_TOKEN_COLOCATED == 0 || (*Fts5InsertCtx)(unsafe.Pointer(pCtx)).FszCol == 0 {
(*Fts5InsertCtx)(unsafe.Pointer(pCtx)).FszCol++
}
return sqlite3Fts5IndexWrite(tls, pIdx, (*Fts5InsertCtx)(unsafe.Pointer(pCtx)).FiCol, (*Fts5InsertCtx)(unsafe.Pointer(pCtx)).FszCol-1, pToken, nToken)
}
func fts5StorageDeleteFromIndex(tls *libc.TLS, p uintptr, iDel I64, apVal uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var pConfig uintptr = (*Fts5Storage)(unsafe.Pointer(p)).FpConfig
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var rc int32
var rc2 int32
var iCol int32
if apVal == uintptr(0) {
rc = fts5StorageGetStmt(tls, p, FTS5_STMT_LOOKUP, bp, uintptr(0))
if rc != SQLITE_OK {
return rc
}
Xsqlite3_bind_int64(tls, *(*uintptr)(unsafe.Pointer(bp)), 1, iDel)
if Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp))) != SQLITE_ROW {
return Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
}
(*Fts5InsertCtx)(unsafe.Pointer(bp + 8)).FpStorage = p
(*Fts5InsertCtx)(unsafe.Pointer(bp + 8)).FiCol = -1
rc = sqlite3Fts5IndexBeginWrite(tls, (*Fts5Storage)(unsafe.Pointer(p)).FpIndex, 1, iDel)
for iCol = 1; rc == SQLITE_OK && iCol <= (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol; iCol++ {
if int32(*(*U8)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FabUnindexed + uintptr(iCol-1)))) == 0 {
var zText uintptr
var nText int32
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
zText = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp)), iCol)
nText = Xsqlite3_column_bytes(tls, *(*uintptr)(unsafe.Pointer(bp)), iCol)
} else if apVal != 0 {
zText = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(apVal + uintptr(iCol-1)*8)))
nText = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(apVal + uintptr(iCol-1)*8)))
} else {
continue
}
(*Fts5InsertCtx)(unsafe.Pointer(bp + 8)).FszCol = 0
rc = sqlite3Fts5Tokenize(tls, pConfig, FTS5_TOKENIZE_DOCUMENT,
zText, nText, bp+8, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
}{fts5StorageInsertCallback})))
*(*I64)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FaTotalSize + uintptr(iCol-1)*8)) -= I64((*Fts5InsertCtx)(unsafe.Pointer(bp + 8)).FszCol)
if *(*I64)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FaTotalSize + uintptr(iCol-1)*8)) < int64(0) {
rc = SQLITE_CORRUPT | int32(1)<<8
}
}
}
if rc == SQLITE_OK && (*Fts5Storage)(unsafe.Pointer(p)).FnTotalRow < int64(1) {
rc = SQLITE_CORRUPT | int32(1)<<8
} else {
(*Fts5Storage)(unsafe.Pointer(p)).FnTotalRow--
}
rc2 = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp)))
if rc == SQLITE_OK {
rc = rc2
}
return rc
}
func fts5StorageInsertDocsize(tls *libc.TLS, p uintptr, iRowid I64, pBuf uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_OK
if (*Fts5Config)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FpConfig)).FbColumnsize != 0 {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
rc = fts5StorageGetStmt(tls, p, FTS5_STMT_REPLACE_DOCSIZE, bp, uintptr(0))
if rc == SQLITE_OK {
Xsqlite3_bind_int64(tls, *(*uintptr)(unsafe.Pointer(bp)), 1, iRowid)
Xsqlite3_bind_blob(tls, *(*uintptr)(unsafe.Pointer(bp)), 2, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fp, (*Fts5Buffer)(unsafe.Pointer(pBuf)).Fn, uintptr(0))
Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp)))
rc = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp)))
Xsqlite3_bind_null(tls, *(*uintptr)(unsafe.Pointer(bp)), 2)
}
}
return rc
}
func fts5StorageLoadTotals(tls *libc.TLS, p uintptr, bCache int32) int32 {
var rc int32 = SQLITE_OK
if (*Fts5Storage)(unsafe.Pointer(p)).FbTotalsValid == 0 {
rc = sqlite3Fts5IndexGetAverages(tls, (*Fts5Storage)(unsafe.Pointer(p)).FpIndex, p+24, (*Fts5Storage)(unsafe.Pointer(p)).FaTotalSize)
(*Fts5Storage)(unsafe.Pointer(p)).FbTotalsValid = bCache
}
return rc
}
func fts5StorageSaveTotals(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(20)
defer tls.Free(20)
var nCol int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FpConfig)).FnCol
var i int32
*(*int32)(unsafe.Pointer(bp + 16)) = SQLITE_OK
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Fts5Buffer{})), libc.X__builtin_object_size(tls, bp, 0))
sqlite3Fts5BufferAppendVarint(tls, bp+16, bp, (*Fts5Storage)(unsafe.Pointer(p)).FnTotalRow)
for i = 0; i < nCol; i++ {
sqlite3Fts5BufferAppendVarint(tls, bp+16, bp, *(*I64)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FaTotalSize + uintptr(i)*8)))
}
if *(*int32)(unsafe.Pointer(bp + 16)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 16)) = sqlite3Fts5IndexSetAverages(tls, (*Fts5Storage)(unsafe.Pointer(p)).FpIndex, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp, (*Fts5Buffer)(unsafe.Pointer(bp)).Fn)
}
Xsqlite3_free(tls, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp)
return *(*int32)(unsafe.Pointer(bp + 16))
}
func sqlite3Fts5StorageDelete(tls *libc.TLS, p uintptr, iDel I64, apVal uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pConfig uintptr = (*Fts5Storage)(unsafe.Pointer(p)).FpConfig
var rc int32
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
rc = fts5StorageLoadTotals(tls, p, 1)
if rc == SQLITE_OK {
rc = fts5StorageDeleteFromIndex(tls, p, iDel, apVal)
}
if rc == SQLITE_OK && (*Fts5Config)(unsafe.Pointer(pConfig)).FbColumnsize != 0 {
rc = fts5StorageGetStmt(tls, p, FTS5_STMT_DELETE_DOCSIZE, bp, uintptr(0))
if rc == SQLITE_OK {
Xsqlite3_bind_int64(tls, *(*uintptr)(unsafe.Pointer(bp)), 1, iDel)
Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp)))
rc = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
}
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeContent == FTS5_CONTENT_NORMAL {
if rc == SQLITE_OK {
rc = fts5StorageGetStmt(tls, p, FTS5_STMT_DELETE_CONTENT, bp, uintptr(0))
}
if rc == SQLITE_OK {
Xsqlite3_bind_int64(tls, *(*uintptr)(unsafe.Pointer(bp)), 1, iDel)
Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp)))
rc = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
}
return rc
}
func sqlite3Fts5StorageDeleteAll(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(48)
defer tls.Free(48)
var pConfig uintptr = (*Fts5Storage)(unsafe.Pointer(p)).FpConfig
var rc int32
(*Fts5Storage)(unsafe.Pointer(p)).FbTotalsValid = 0
rc = fts5ExecPrintf(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb, uintptr(0),
ts+37282,
libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName,
(*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName))
if rc == SQLITE_OK && (*Fts5Config)(unsafe.Pointer(pConfig)).FbColumnsize != 0 {
rc = fts5ExecPrintf(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb, uintptr(0),
ts+37332,
libc.VaList(bp+32, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName))
}
if rc == SQLITE_OK {
rc = sqlite3Fts5IndexReinit(tls, (*Fts5Storage)(unsafe.Pointer(p)).FpIndex)
}
if rc == SQLITE_OK {
rc = sqlite3Fts5StorageConfigValue(tls, p, ts+35004, uintptr(0), FTS5_CURRENT_VERSION)
}
return rc
}
func sqlite3Fts5StorageRebuild(tls *libc.TLS, p uintptr) int32 {
bp := tls.Alloc(44)
defer tls.Free(44)
*(*Fts5Buffer)(unsafe.Pointer(bp + 24)) = Fts5Buffer{}
var pConfig uintptr = (*Fts5Storage)(unsafe.Pointer(p)).FpConfig
*(*uintptr)(unsafe.Pointer(bp + 16)) = uintptr(0)
var rc2 int32
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Fts5InsertCtx{})), libc.X__builtin_object_size(tls, bp, 0))
(*Fts5InsertCtx)(unsafe.Pointer(bp)).FpStorage = p
*(*int32)(unsafe.Pointer(bp + 40)) = sqlite3Fts5StorageDeleteAll(tls, p)
if *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 40)) = fts5StorageLoadTotals(tls, p, 1)
}
if *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 40)) = fts5StorageGetStmt(tls, p, FTS5_STMT_SCAN, bp+16, uintptr(0))
}
for *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK && SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 16))) {
var iRowid I64 = Xsqlite3_column_int64(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), 0)
sqlite3Fts5BufferZero(tls, bp+24)
*(*int32)(unsafe.Pointer(bp + 40)) = sqlite3Fts5IndexBeginWrite(tls, (*Fts5Storage)(unsafe.Pointer(p)).FpIndex, 0, iRowid)
for (*Fts5InsertCtx)(unsafe.Pointer(bp)).FiCol = 0; *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK && (*Fts5InsertCtx)(unsafe.Pointer(bp)).FiCol < (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol; (*Fts5InsertCtx)(unsafe.Pointer(bp)).FiCol++ {
(*Fts5InsertCtx)(unsafe.Pointer(bp)).FszCol = 0
if int32(*(*U8)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FabUnindexed + uintptr((*Fts5InsertCtx)(unsafe.Pointer(bp)).FiCol)))) == 0 {
var zText uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), (*Fts5InsertCtx)(unsafe.Pointer(bp)).FiCol+1)
var nText int32 = Xsqlite3_column_bytes(tls, *(*uintptr)(unsafe.Pointer(bp + 16)), (*Fts5InsertCtx)(unsafe.Pointer(bp)).FiCol+1)
*(*int32)(unsafe.Pointer(bp + 40)) = sqlite3Fts5Tokenize(tls, pConfig,
FTS5_TOKENIZE_DOCUMENT,
zText, nText,
bp,
*(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
}{fts5StorageInsertCallback})))
}
sqlite3Fts5BufferAppendVarint(tls, bp+40, bp+24, int64((*Fts5InsertCtx)(unsafe.Pointer(bp)).FszCol))
*(*I64)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FaTotalSize + uintptr((*Fts5InsertCtx)(unsafe.Pointer(bp)).FiCol)*8)) += I64((*Fts5InsertCtx)(unsafe.Pointer(bp)).FszCol)
}
(*Fts5Storage)(unsafe.Pointer(p)).FnTotalRow++
if *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 40)) = fts5StorageInsertDocsize(tls, p, iRowid, bp+24)
}
}
Xsqlite3_free(tls, (*Fts5Buffer)(unsafe.Pointer(bp+24)).Fp)
rc2 = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp + 16)))
if *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 40)) = rc2
}
if *(*int32)(unsafe.Pointer(bp + 40)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 40)) = fts5StorageSaveTotals(tls, p)
}
return *(*int32)(unsafe.Pointer(bp + 40))
}
func sqlite3Fts5StorageOptimize(tls *libc.TLS, p uintptr) int32 {
return sqlite3Fts5IndexOptimize(tls, (*Fts5Storage)(unsafe.Pointer(p)).FpIndex)
}
func sqlite3Fts5StorageMerge(tls *libc.TLS, p uintptr, nMerge int32) int32 {
return sqlite3Fts5IndexMerge(tls, (*Fts5Storage)(unsafe.Pointer(p)).FpIndex, nMerge)
}
func sqlite3Fts5StorageReset(tls *libc.TLS, p uintptr) int32 {
return sqlite3Fts5IndexReset(tls, (*Fts5Storage)(unsafe.Pointer(p)).FpIndex)
}
func fts5StorageNewRowid(tls *libc.TLS, p uintptr, piRowid uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var rc int32 = SQLITE_MISMATCH
if (*Fts5Config)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FpConfig)).FbColumnsize != 0 {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
rc = fts5StorageGetStmt(tls, p, FTS5_STMT_REPLACE_DOCSIZE, bp, uintptr(0))
if rc == SQLITE_OK {
Xsqlite3_bind_null(tls, *(*uintptr)(unsafe.Pointer(bp)), 1)
Xsqlite3_bind_null(tls, *(*uintptr)(unsafe.Pointer(bp)), 2)
Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp)))
rc = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
if rc == SQLITE_OK {
*(*I64)(unsafe.Pointer(piRowid)) = Xsqlite3_last_insert_rowid(tls, (*Fts5Config)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FpConfig)).Fdb)
}
}
return rc
}
func sqlite3Fts5StorageContentInsert(tls *libc.TLS, p uintptr, apVal uintptr, piRowid uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pConfig uintptr = (*Fts5Storage)(unsafe.Pointer(p)).FpConfig
var rc int32 = SQLITE_OK
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeContent != FTS5_CONTENT_NORMAL {
if Xsqlite3_value_type(tls, *(*uintptr)(unsafe.Pointer(apVal + 1*8))) == SQLITE_INTEGER {
*(*I64)(unsafe.Pointer(piRowid)) = Xsqlite3_value_int64(tls, *(*uintptr)(unsafe.Pointer(apVal + 1*8)))
} else {
rc = fts5StorageNewRowid(tls, p, piRowid)
}
} else {
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var i int32
rc = fts5StorageGetStmt(tls, p, FTS5_STMT_INSERT_CONTENT, bp, uintptr(0))
for i = 1; rc == SQLITE_OK && i <= (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol+1; i++ {
rc = Xsqlite3_bind_value(tls, *(*uintptr)(unsafe.Pointer(bp)), i, *(*uintptr)(unsafe.Pointer(apVal + uintptr(i)*8)))
}
if rc == SQLITE_OK {
Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp)))
rc = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp)))
}
*(*I64)(unsafe.Pointer(piRowid)) = Xsqlite3_last_insert_rowid(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb)
}
return rc
}
func sqlite3Fts5StorageIndexInsert(tls *libc.TLS, p uintptr, apVal uintptr, iRowid I64) int32 {
bp := tls.Alloc(36)
defer tls.Free(36)
var pConfig uintptr = (*Fts5Storage)(unsafe.Pointer(p)).FpConfig
*(*int32)(unsafe.Pointer(bp + 32)) = SQLITE_OK
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Fts5Buffer{})), libc.X__builtin_object_size(tls, bp, 0))
(*Fts5InsertCtx)(unsafe.Pointer(bp + 16)).FpStorage = p
*(*int32)(unsafe.Pointer(bp + 32)) = fts5StorageLoadTotals(tls, p, 1)
if *(*int32)(unsafe.Pointer(bp + 32)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 32)) = sqlite3Fts5IndexBeginWrite(tls, (*Fts5Storage)(unsafe.Pointer(p)).FpIndex, 0, iRowid)
}
for (*Fts5InsertCtx)(unsafe.Pointer(bp + 16)).FiCol = 0; *(*int32)(unsafe.Pointer(bp + 32)) == SQLITE_OK && (*Fts5InsertCtx)(unsafe.Pointer(bp+16)).FiCol < (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol; (*Fts5InsertCtx)(unsafe.Pointer(bp+16)).FiCol++ {
(*Fts5InsertCtx)(unsafe.Pointer(bp + 16)).FszCol = 0
if int32(*(*U8)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FabUnindexed + uintptr((*Fts5InsertCtx)(unsafe.Pointer(bp+16)).FiCol)))) == 0 {
var zText uintptr = Xsqlite3_value_text(tls, *(*uintptr)(unsafe.Pointer(apVal + uintptr((*Fts5InsertCtx)(unsafe.Pointer(bp+16)).FiCol+2)*8)))
var nText int32 = Xsqlite3_value_bytes(tls, *(*uintptr)(unsafe.Pointer(apVal + uintptr((*Fts5InsertCtx)(unsafe.Pointer(bp+16)).FiCol+2)*8)))
*(*int32)(unsafe.Pointer(bp + 32)) = sqlite3Fts5Tokenize(tls, pConfig,
FTS5_TOKENIZE_DOCUMENT,
zText, nText,
bp+16,
*(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
}{fts5StorageInsertCallback})))
}
sqlite3Fts5BufferAppendVarint(tls, bp+32, bp, int64((*Fts5InsertCtx)(unsafe.Pointer(bp+16)).FszCol))
*(*I64)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FaTotalSize + uintptr((*Fts5InsertCtx)(unsafe.Pointer(bp+16)).FiCol)*8)) += I64((*Fts5InsertCtx)(unsafe.Pointer(bp + 16)).FszCol)
}
(*Fts5Storage)(unsafe.Pointer(p)).FnTotalRow++
if *(*int32)(unsafe.Pointer(bp + 32)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 32)) = fts5StorageInsertDocsize(tls, p, iRowid, bp)
}
Xsqlite3_free(tls, (*Fts5Buffer)(unsafe.Pointer(bp)).Fp)
return *(*int32)(unsafe.Pointer(bp + 32))
}
func fts5StorageCount(tls *libc.TLS, p uintptr, zSuffix uintptr, pnRow uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var pConfig uintptr = (*Fts5Storage)(unsafe.Pointer(p)).FpConfig
var zSql uintptr
var rc int32
zSql = Xsqlite3_mprintf(tls, ts+37361,
libc.VaList(bp, (*Fts5Config)(unsafe.Pointer(pConfig)).FzDb, (*Fts5Config)(unsafe.Pointer(pConfig)).FzName, zSuffix))
if zSql == uintptr(0) {
rc = SQLITE_NOMEM
} else {
*(*uintptr)(unsafe.Pointer(bp + 24)) = uintptr(0)
rc = Xsqlite3_prepare_v2(tls, (*Fts5Config)(unsafe.Pointer(pConfig)).Fdb, zSql, -1, bp+24, uintptr(0))
if rc == SQLITE_OK {
if SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 24))) {
*(*I64)(unsafe.Pointer(pnRow)) = Xsqlite3_column_int64(tls, *(*uintptr)(unsafe.Pointer(bp + 24)), 0)
}
rc = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 24)))
}
}
Xsqlite3_free(tls, zSql)
return rc
}
// Context object used by sqlite3Fts5StorageIntegrity().
type Fts5IntegrityCtx1 = struct {
FiRowid I64
FiCol int32
FszCol int32
Fcksum U64
FpTermset uintptr
FpConfig uintptr
}
// Context object used by sqlite3Fts5StorageIntegrity().
type Fts5IntegrityCtx = Fts5IntegrityCtx1
func fts5StorageIntegrityCallback(tls *libc.TLS, pContext uintptr, tflags int32, pToken uintptr, nToken int32, iUnused1 int32, iUnused2 int32) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var pCtx uintptr = pContext
var pTermset uintptr = (*Fts5IntegrityCtx)(unsafe.Pointer(pCtx)).FpTermset
var ii int32
var rc int32 = SQLITE_OK
var iPos int32
var iCol int32
_ = iUnused1
_ = iUnused2
if nToken > FTS5_MAX_TOKEN_SIZE {
nToken = FTS5_MAX_TOKEN_SIZE
}
if tflags&FTS5_TOKEN_COLOCATED == 0 || (*Fts5IntegrityCtx)(unsafe.Pointer(pCtx)).FszCol == 0 {
(*Fts5IntegrityCtx)(unsafe.Pointer(pCtx)).FszCol++
}
switch (*Fts5Config)(unsafe.Pointer((*Fts5IntegrityCtx)(unsafe.Pointer(pCtx)).FpConfig)).FeDetail {
case FTS5_DETAIL_FULL:
iPos = (*Fts5IntegrityCtx)(unsafe.Pointer(pCtx)).FszCol - 1
iCol = (*Fts5IntegrityCtx)(unsafe.Pointer(pCtx)).FiCol
break
case FTS5_DETAIL_COLUMNS:
iPos = (*Fts5IntegrityCtx)(unsafe.Pointer(pCtx)).FiCol
iCol = 0
break
default:
iPos = 0
iCol = 0
break
}
rc = sqlite3Fts5TermsetAdd(tls, pTermset, 0, pToken, nToken, bp)
if rc == SQLITE_OK && *(*int32)(unsafe.Pointer(bp)) == 0 {
*(*U64)(unsafe.Pointer(pCtx + 16)) ^= sqlite3Fts5IndexEntryCksum(tls,
(*Fts5IntegrityCtx)(unsafe.Pointer(pCtx)).FiRowid, iCol, iPos, 0, pToken, nToken)
}
for ii = 0; rc == SQLITE_OK && ii < (*Fts5Config)(unsafe.Pointer((*Fts5IntegrityCtx)(unsafe.Pointer(pCtx)).FpConfig)).FnPrefix; ii++ {
var nChar int32 = *(*int32)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer((*Fts5IntegrityCtx)(unsafe.Pointer(pCtx)).FpConfig)).FaPrefix + uintptr(ii)*4))
var nByte int32 = sqlite3Fts5IndexCharlenToBytelen(tls, pToken, nToken, nChar)
if nByte != 0 {
rc = sqlite3Fts5TermsetAdd(tls, pTermset, ii+1, pToken, nByte, bp)
if *(*int32)(unsafe.Pointer(bp)) == 0 {
*(*U64)(unsafe.Pointer(pCtx + 16)) ^= sqlite3Fts5IndexEntryCksum(tls,
(*Fts5IntegrityCtx)(unsafe.Pointer(pCtx)).FiRowid, iCol, iPos, ii+1, pToken, nByte)
}
}
}
return rc
}
func sqlite3Fts5StorageIntegrity(tls *libc.TLS, p uintptr, iArg int32) int32 {
bp := tls.Alloc(64)
defer tls.Free(64)
var pConfig uintptr = (*Fts5Storage)(unsafe.Pointer(p)).FpConfig
var rc int32 = SQLITE_OK
var aColSize uintptr
var aTotalSize uintptr
var bUseCksum int32
libc.X__builtin___memset_chk(tls, bp, 0, uint64(unsafe.Sizeof(Fts5IntegrityCtx{})), libc.X__builtin_object_size(tls, bp, 0))
(*Fts5IntegrityCtx)(unsafe.Pointer(bp)).FpConfig = (*Fts5Storage)(unsafe.Pointer(p)).FpConfig
aTotalSize = Xsqlite3_malloc64(tls, uint64((*Fts5Config)(unsafe.Pointer(pConfig)).FnCol)*(uint64(unsafe.Sizeof(int32(0)))+uint64(unsafe.Sizeof(I64(0)))))
if !(aTotalSize != 0) {
return SQLITE_NOMEM
}
aColSize = aTotalSize + uintptr((*Fts5Config)(unsafe.Pointer(pConfig)).FnCol)*8
libc.X__builtin___memset_chk(tls, aTotalSize, 0, uint64(unsafe.Sizeof(I64(0)))*uint64((*Fts5Config)(unsafe.Pointer(pConfig)).FnCol), libc.X__builtin_object_size(tls, aTotalSize, 0))
bUseCksum = libc.Bool32((*Fts5Config)(unsafe.Pointer(pConfig)).FeContent == FTS5_CONTENT_NORMAL ||
(*Fts5Config)(unsafe.Pointer(pConfig)).FeContent == FTS5_CONTENT_EXTERNAL && iArg != 0)
if bUseCksum != 0 {
rc = fts5StorageGetStmt(tls, p, FTS5_STMT_SCAN, bp+40, uintptr(0))
if rc == SQLITE_OK {
var rc2 int32
for SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 40))) {
var i int32
(*Fts5IntegrityCtx)(unsafe.Pointer(bp)).FiRowid = Xsqlite3_column_int64(tls, *(*uintptr)(unsafe.Pointer(bp + 40)), 0)
(*Fts5IntegrityCtx)(unsafe.Pointer(bp)).FszCol = 0
if (*Fts5Config)(unsafe.Pointer(pConfig)).FbColumnsize != 0 {
rc = sqlite3Fts5StorageDocsize(tls, p, (*Fts5IntegrityCtx)(unsafe.Pointer(bp)).FiRowid, aColSize)
}
if rc == SQLITE_OK && (*Fts5Config)(unsafe.Pointer(pConfig)).FeDetail == FTS5_DETAIL_NONE {
rc = sqlite3Fts5TermsetNew(tls, bp+24)
}
for i = 0; rc == SQLITE_OK && i < (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol; i++ {
if *(*U8)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer(pConfig)).FabUnindexed + uintptr(i))) != 0 {
continue
}
(*Fts5IntegrityCtx)(unsafe.Pointer(bp)).FiCol = i
(*Fts5IntegrityCtx)(unsafe.Pointer(bp)).FszCol = 0
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeDetail == FTS5_DETAIL_COLUMNS {
rc = sqlite3Fts5TermsetNew(tls, bp+24)
}
if rc == SQLITE_OK {
var zText uintptr = Xsqlite3_column_text(tls, *(*uintptr)(unsafe.Pointer(bp + 40)), i+1)
var nText int32 = Xsqlite3_column_bytes(tls, *(*uintptr)(unsafe.Pointer(bp + 40)), i+1)
rc = sqlite3Fts5Tokenize(tls, pConfig,
FTS5_TOKENIZE_DOCUMENT,
zText, nText,
bp,
*(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
}{fts5StorageIntegrityCallback})))
}
if rc == SQLITE_OK && (*Fts5Config)(unsafe.Pointer(pConfig)).FbColumnsize != 0 && (*Fts5IntegrityCtx)(unsafe.Pointer(bp)).FszCol != *(*int32)(unsafe.Pointer(aColSize + uintptr(i)*4)) {
rc = SQLITE_CORRUPT | int32(1)<<8
}
*(*I64)(unsafe.Pointer(aTotalSize + uintptr(i)*8)) += I64((*Fts5IntegrityCtx)(unsafe.Pointer(bp)).FszCol)
if (*Fts5Config)(unsafe.Pointer(pConfig)).FeDetail == FTS5_DETAIL_COLUMNS {
sqlite3Fts5TermsetFree(tls, (*Fts5IntegrityCtx)(unsafe.Pointer(bp)).FpTermset)
(*Fts5IntegrityCtx)(unsafe.Pointer(bp)).FpTermset = uintptr(0)
}
}
sqlite3Fts5TermsetFree(tls, (*Fts5IntegrityCtx)(unsafe.Pointer(bp)).FpTermset)
(*Fts5IntegrityCtx)(unsafe.Pointer(bp)).FpTermset = uintptr(0)
if rc != SQLITE_OK {
break
}
}
rc2 = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp + 40)))
if rc == SQLITE_OK {
rc = rc2
}
}
if rc == SQLITE_OK {
var i int32
rc = fts5StorageLoadTotals(tls, p, 0)
for i = 0; rc == SQLITE_OK && i < (*Fts5Config)(unsafe.Pointer(pConfig)).FnCol; i++ {
if *(*I64)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FaTotalSize + uintptr(i)*8)) != *(*I64)(unsafe.Pointer(aTotalSize + uintptr(i)*8)) {
rc = SQLITE_CORRUPT | int32(1)<<8
}
}
}
if rc == SQLITE_OK && (*Fts5Config)(unsafe.Pointer(pConfig)).FeContent == FTS5_CONTENT_NORMAL {
*(*I64)(unsafe.Pointer(bp + 48)) = int64(0)
rc = fts5StorageCount(tls, p, ts+34507, bp+48)
if rc == SQLITE_OK && *(*I64)(unsafe.Pointer(bp + 48)) != (*Fts5Storage)(unsafe.Pointer(p)).FnTotalRow {
rc = SQLITE_CORRUPT | int32(1)<<8
}
}
if rc == SQLITE_OK && (*Fts5Config)(unsafe.Pointer(pConfig)).FbColumnsize != 0 {
*(*I64)(unsafe.Pointer(bp + 56)) = int64(0)
rc = fts5StorageCount(tls, p, ts+34858, bp+56)
if rc == SQLITE_OK && *(*I64)(unsafe.Pointer(bp + 56)) != (*Fts5Storage)(unsafe.Pointer(p)).FnTotalRow {
rc = SQLITE_CORRUPT | int32(1)<<8
}
}
}
if rc == SQLITE_OK {
rc = sqlite3Fts5IndexIntegrityCheck(tls, (*Fts5Storage)(unsafe.Pointer(p)).FpIndex, (*Fts5IntegrityCtx)(unsafe.Pointer(bp)).Fcksum, bUseCksum)
}
Xsqlite3_free(tls, aTotalSize)
return rc
}
func sqlite3Fts5StorageStmt(tls *libc.TLS, p uintptr, eStmt int32, pp uintptr, pzErrMsg uintptr) int32 {
var rc int32
rc = fts5StorageGetStmt(tls, p, eStmt, pp, pzErrMsg)
if rc == SQLITE_OK {
*(*uintptr)(unsafe.Pointer(p + 40 + uintptr(eStmt)*8)) = uintptr(0)
}
return rc
}
func sqlite3Fts5StorageStmtRelease(tls *libc.TLS, p uintptr, eStmt int32, pStmt uintptr) {
if *(*uintptr)(unsafe.Pointer(p + 40 + uintptr(eStmt)*8)) == uintptr(0) {
Xsqlite3_reset(tls, pStmt)
*(*uintptr)(unsafe.Pointer(p + 40 + uintptr(eStmt)*8)) = pStmt
} else {
Xsqlite3_finalize(tls, pStmt)
}
}
func fts5StorageDecodeSizeArray(tls *libc.TLS, aCol uintptr, nCol int32, aBlob uintptr, nBlob int32) int32 {
var i int32
var iOff int32 = 0
for i = 0; i < nCol; i++ {
if iOff >= nBlob {
return 1
}
iOff = iOff + sqlite3Fts5GetVarint32(tls, aBlob+uintptr(iOff), aCol+uintptr(i)*4)
}
return libc.Bool32(iOff != nBlob)
}
func sqlite3Fts5StorageDocsize(tls *libc.TLS, p uintptr, iRowid I64, aCol uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var nCol int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FpConfig)).FnCol
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var rc int32
rc = fts5StorageGetStmt(tls, p, FTS5_STMT_LOOKUP_DOCSIZE, bp, uintptr(0))
if *(*uintptr)(unsafe.Pointer(bp)) != 0 {
var bCorrupt int32 = 1
Xsqlite3_bind_int64(tls, *(*uintptr)(unsafe.Pointer(bp)), 1, iRowid)
if SQLITE_ROW == Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp))) {
var aBlob uintptr = Xsqlite3_column_blob(tls, *(*uintptr)(unsafe.Pointer(bp)), 0)
var nBlob int32 = Xsqlite3_column_bytes(tls, *(*uintptr)(unsafe.Pointer(bp)), 0)
if 0 == fts5StorageDecodeSizeArray(tls, aCol, nCol, aBlob, nBlob) {
bCorrupt = 0
}
}
rc = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp)))
if bCorrupt != 0 && rc == SQLITE_OK {
rc = SQLITE_CORRUPT | int32(1)<<8
}
} else {
}
return rc
}
func sqlite3Fts5StorageSize(tls *libc.TLS, p uintptr, iCol int32, pnToken uintptr) int32 {
var rc int32 = fts5StorageLoadTotals(tls, p, 0)
if rc == SQLITE_OK {
*(*I64)(unsafe.Pointer(pnToken)) = int64(0)
if iCol < 0 {
var i int32
for i = 0; i < (*Fts5Config)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FpConfig)).FnCol; i++ {
*(*I64)(unsafe.Pointer(pnToken)) += *(*I64)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FaTotalSize + uintptr(i)*8))
}
} else if iCol < (*Fts5Config)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FpConfig)).FnCol {
*(*I64)(unsafe.Pointer(pnToken)) = *(*I64)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FaTotalSize + uintptr(iCol)*8))
} else {
rc = SQLITE_RANGE
}
}
return rc
}
func sqlite3Fts5StorageRowCount(tls *libc.TLS, p uintptr, pnRow uintptr) int32 {
var rc int32 = fts5StorageLoadTotals(tls, p, 0)
if rc == SQLITE_OK {
*(*I64)(unsafe.Pointer(pnRow)) = (*Fts5Storage)(unsafe.Pointer(p)).FnTotalRow
if (*Fts5Storage)(unsafe.Pointer(p)).FnTotalRow <= int64(0) {
rc = SQLITE_CORRUPT | int32(1)<<8
}
}
return rc
}
func sqlite3Fts5StorageSync(tls *libc.TLS, p uintptr) int32 {
var rc int32 = SQLITE_OK
var iLastRowid I64 = Xsqlite3_last_insert_rowid(tls, (*Fts5Config)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FpConfig)).Fdb)
if (*Fts5Storage)(unsafe.Pointer(p)).FbTotalsValid != 0 {
rc = fts5StorageSaveTotals(tls, p)
(*Fts5Storage)(unsafe.Pointer(p)).FbTotalsValid = 0
}
if rc == SQLITE_OK {
rc = sqlite3Fts5IndexSync(tls, (*Fts5Storage)(unsafe.Pointer(p)).FpIndex)
}
Xsqlite3_set_last_insert_rowid(tls, (*Fts5Config)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FpConfig)).Fdb, iLastRowid)
return rc
}
func sqlite3Fts5StorageRollback(tls *libc.TLS, p uintptr) int32 {
(*Fts5Storage)(unsafe.Pointer(p)).FbTotalsValid = 0
return sqlite3Fts5IndexRollback(tls, (*Fts5Storage)(unsafe.Pointer(p)).FpIndex)
}
func sqlite3Fts5StorageConfigValue(tls *libc.TLS, p uintptr, z uintptr, pVal uintptr, iVal int32) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var rc int32 = fts5StorageGetStmt(tls, p, FTS5_STMT_REPLACE_CONFIG, bp, uintptr(0))
if rc == SQLITE_OK {
Xsqlite3_bind_text(tls, *(*uintptr)(unsafe.Pointer(bp)), 1, z, -1, uintptr(0))
if pVal != 0 {
Xsqlite3_bind_value(tls, *(*uintptr)(unsafe.Pointer(bp)), 2, pVal)
} else {
Xsqlite3_bind_int(tls, *(*uintptr)(unsafe.Pointer(bp)), 2, iVal)
}
Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp)))
rc = Xsqlite3_reset(tls, *(*uintptr)(unsafe.Pointer(bp)))
Xsqlite3_bind_null(tls, *(*uintptr)(unsafe.Pointer(bp)), 1)
}
if rc == SQLITE_OK && pVal != 0 {
var iNew int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FpConfig)).FiCookie + 1
rc = sqlite3Fts5IndexSetCookie(tls, (*Fts5Storage)(unsafe.Pointer(p)).FpIndex, iNew)
if rc == SQLITE_OK {
(*Fts5Config)(unsafe.Pointer((*Fts5Storage)(unsafe.Pointer(p)).FpConfig)).FiCookie = iNew
}
}
return rc
}
var aAsciiTokenChar = [128]uint8{
uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0),
uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0),
uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0),
uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0),
uint8(0), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1),
uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0),
uint8(0), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1),
uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(1), uint8(0), uint8(0), uint8(0), uint8(0), uint8(0),
}
type AsciiTokenizer1 = struct{ FaTokenChar [128]uint8 }
type AsciiTokenizer = AsciiTokenizer1
func fts5AsciiAddExceptions(tls *libc.TLS, p uintptr, zArg uintptr, bTokenChars int32) {
var i int32
for i = 0; *(*int8)(unsafe.Pointer(zArg + uintptr(i))) != 0; i++ {
if int32(*(*int8)(unsafe.Pointer(zArg + uintptr(i))))&0x80 == 0 {
*(*uint8)(unsafe.Pointer(p + uintptr(int32(*(*int8)(unsafe.Pointer(zArg + uintptr(i))))))) = uint8(bTokenChars)
}
}
}
func fts5AsciiDelete(tls *libc.TLS, p uintptr) {
Xsqlite3_free(tls, p)
}
func fts5AsciiCreate(tls *libc.TLS, pUnused uintptr, azArg uintptr, nArg int32, ppOut uintptr) int32 {
var rc int32 = SQLITE_OK
var p uintptr = uintptr(0)
_ = pUnused
if nArg%2 != 0 {
rc = SQLITE_ERROR
} else {
p = Xsqlite3_malloc(tls, int32(unsafe.Sizeof(AsciiTokenizer{})))
if p == uintptr(0) {
rc = SQLITE_NOMEM
} else {
var i int32
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(AsciiTokenizer{})), libc.X__builtin_object_size(tls, p, 0))
libc.X__builtin___memcpy_chk(tls, p, uintptr(unsafe.Pointer(&aAsciiTokenChar)), uint64(unsafe.Sizeof(aAsciiTokenChar)), libc.X__builtin_object_size(tls, p, 0))
for i = 0; rc == SQLITE_OK && i < nArg; i = i + 2 {
var zArg uintptr = *(*uintptr)(unsafe.Pointer(azArg + uintptr(i+1)*8))
if 0 == Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer(azArg + uintptr(i)*8)), ts+37393) {
fts5AsciiAddExceptions(tls, p, zArg, 1)
} else if 0 == Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer(azArg + uintptr(i)*8)), ts+37404) {
fts5AsciiAddExceptions(tls, p, zArg, 0)
} else {
rc = SQLITE_ERROR
}
}
if rc != SQLITE_OK {
fts5AsciiDelete(tls, p)
p = uintptr(0)
}
}
}
*(*uintptr)(unsafe.Pointer(ppOut)) = p
return rc
}
func asciiFold(tls *libc.TLS, aOut uintptr, aIn uintptr, nByte int32) {
var i int32
for i = 0; i < nByte; i++ {
var c int8 = *(*int8)(unsafe.Pointer(aIn + uintptr(i)))
if int32(c) >= 'A' && int32(c) <= 'Z' {
c = int8(int32(c) + 32)
}
*(*int8)(unsafe.Pointer(aOut + uintptr(i))) = c
}
}
func fts5AsciiTokenize(tls *libc.TLS, pTokenizer uintptr, pCtx uintptr, iUnused int32, pText uintptr, nText int32, xToken uintptr) int32 {
bp := tls.Alloc(64)
defer tls.Free(64)
var p uintptr = pTokenizer
var rc int32 = SQLITE_OK
var ie int32
var is int32 = 0
var nFold int32 = int32(unsafe.Sizeof([64]int8{}))
var pFold uintptr = bp
var a uintptr = p
_ = iUnused
for is < nText && rc == SQLITE_OK {
var nByte int32
for is < nText && (int32(*(*int8)(unsafe.Pointer(pText + uintptr(is))))&0x80 == 0 && int32(*(*uint8)(unsafe.Pointer(a + uintptr(int32(*(*int8)(unsafe.Pointer(pText + uintptr(is)))))))) == 0) {
is++
}
if is == nText {
break
}
ie = is + 1
for ie < nText && (int32(*(*int8)(unsafe.Pointer(pText + uintptr(ie))))&0x80 != 0 || *(*uint8)(unsafe.Pointer(a + uintptr(int32(*(*int8)(unsafe.Pointer(pText + uintptr(ie))))))) != 0) {
ie++
}
nByte = ie - is
if nByte > nFold {
if pFold != bp {
Xsqlite3_free(tls, pFold)
}
pFold = Xsqlite3_malloc64(tls, uint64(Sqlite3_int64(nByte)*int64(2)))
if pFold == uintptr(0) {
rc = SQLITE_NOMEM
break
}
nFold = nByte * 2
}
asciiFold(tls, pFold, pText+uintptr(is), nByte)
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{xToken})).f(tls, pCtx, 0, pFold, nByte, is, ie)
is = ie + 1
}
if pFold != bp {
Xsqlite3_free(tls, pFold)
}
if rc == SQLITE_DONE {
rc = SQLITE_OK
}
return rc
}
type Unicode61Tokenizer1 = struct {
FaTokenChar [128]uint8
FaFold uintptr
FnFold int32
FeRemoveDiacritic int32
FnException int32
F__ccgo_pad1 [4]byte
FaiException uintptr
FaCategory [32]uint8
}
type Unicode61Tokenizer = Unicode61Tokenizer1
func fts5UnicodeAddExceptions(tls *libc.TLS, p uintptr, z uintptr, bTokenChars int32) int32 {
var rc int32 = SQLITE_OK
var n int32 = int32(libc.Xstrlen(tls, z))
var aNew uintptr
if n > 0 {
aNew = Xsqlite3_realloc64(tls, (*Unicode61Tokenizer)(unsafe.Pointer(p)).FaiException,
uint64(n+(*Unicode61Tokenizer)(unsafe.Pointer(p)).FnException)*uint64(unsafe.Sizeof(int32(0))))
if aNew != 0 {
var nNew int32 = (*Unicode61Tokenizer)(unsafe.Pointer(p)).FnException
var zCsr uintptr = z
var zTerm uintptr = z + uintptr(n)
for zCsr < zTerm {
var iCode U32
var bToken int32
iCode = U32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zCsr, 1))))
if iCode >= U32(0xc0) {
iCode = U32(sqlite3Utf8Trans1[iCode-U32(0xc0)])
for zCsr != zTerm && int32(*(*uint8)(unsafe.Pointer(zCsr)))&0xc0 == 0x80 {
iCode = iCode<<6 + U32(0x3f&int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zCsr, 1)))))
}
if iCode < U32(0x80) || iCode&0xFFFFF800 == U32(0xD800) || iCode&0xFFFFFFFE == U32(0xFFFE) {
iCode = U32(0xFFFD)
}
}
if iCode < U32(128) {
*(*uint8)(unsafe.Pointer(p + uintptr(iCode))) = uint8(bTokenChars)
} else {
bToken = int32(*(*uint8)(unsafe.Pointer(p + 160 + uintptr(sqlite3Fts5UnicodeCategory(tls, iCode)))))
if bToken != bTokenChars && sqlite3Fts5UnicodeIsdiacritic(tls, int32(iCode)) == 0 {
var i int32
for i = 0; i < nNew; i++ {
if U32(*(*int32)(unsafe.Pointer(aNew + uintptr(i)*4))) > iCode {
break
}
}
libc.X__builtin___memmove_chk(tls, aNew+uintptr(i+1)*4, aNew+uintptr(i)*4, uint64(nNew-i)*uint64(unsafe.Sizeof(int32(0))), libc.X__builtin_object_size(tls, aNew+uintptr(i+1)*4, 0))
*(*int32)(unsafe.Pointer(aNew + uintptr(i)*4)) = int32(iCode)
nNew++
}
}
}
(*Unicode61Tokenizer)(unsafe.Pointer(p)).FaiException = aNew
(*Unicode61Tokenizer)(unsafe.Pointer(p)).FnException = nNew
} else {
rc = SQLITE_NOMEM
}
}
return rc
}
func fts5UnicodeIsException(tls *libc.TLS, p uintptr, iCode int32) int32 {
if (*Unicode61Tokenizer)(unsafe.Pointer(p)).FnException > 0 {
var a uintptr = (*Unicode61Tokenizer)(unsafe.Pointer(p)).FaiException
var iLo int32 = 0
var iHi int32 = (*Unicode61Tokenizer)(unsafe.Pointer(p)).FnException - 1
for iHi >= iLo {
var iTest int32 = (iHi + iLo) / 2
if iCode == *(*int32)(unsafe.Pointer(a + uintptr(iTest)*4)) {
return 1
} else if iCode > *(*int32)(unsafe.Pointer(a + uintptr(iTest)*4)) {
iLo = iTest + 1
} else {
iHi = iTest - 1
}
}
}
return 0
}
func fts5UnicodeDelete(tls *libc.TLS, pTok uintptr) {
if pTok != 0 {
var p uintptr = pTok
Xsqlite3_free(tls, (*Unicode61Tokenizer)(unsafe.Pointer(p)).FaiException)
Xsqlite3_free(tls, (*Unicode61Tokenizer)(unsafe.Pointer(p)).FaFold)
Xsqlite3_free(tls, p)
}
return
}
func unicodeSetCategories(tls *libc.TLS, p uintptr, zCat uintptr) int32 {
var z uintptr = zCat
for *(*int8)(unsafe.Pointer(z)) != 0 {
for int32(*(*int8)(unsafe.Pointer(z))) == ' ' || int32(*(*int8)(unsafe.Pointer(z))) == '\t' {
z++
}
if *(*int8)(unsafe.Pointer(z)) != 0 && sqlite3Fts5UnicodeCatParse(tls, z, p+160) != 0 {
return SQLITE_ERROR
}
for int32(*(*int8)(unsafe.Pointer(z))) != ' ' && int32(*(*int8)(unsafe.Pointer(z))) != '\t' && int32(*(*int8)(unsafe.Pointer(z))) != 0 {
z++
}
}
sqlite3Fts5UnicodeAscii(tls, p+160, p)
return SQLITE_OK
}
func fts5UnicodeCreate(tls *libc.TLS, pUnused uintptr, azArg uintptr, nArg int32, ppOut uintptr) int32 {
var rc int32 = SQLITE_OK
var p uintptr = uintptr(0)
_ = pUnused
if nArg%2 != 0 {
rc = SQLITE_ERROR
} else {
p = Xsqlite3_malloc(tls, int32(unsafe.Sizeof(Unicode61Tokenizer{})))
if p != 0 {
var zCat uintptr = ts + 37415
var i int32
libc.X__builtin___memset_chk(tls, p, 0, uint64(unsafe.Sizeof(Unicode61Tokenizer{})), libc.X__builtin_object_size(tls, p, 0))
(*Unicode61Tokenizer)(unsafe.Pointer(p)).FeRemoveDiacritic = FTS5_REMOVE_DIACRITICS_SIMPLE
(*Unicode61Tokenizer)(unsafe.Pointer(p)).FnFold = 64
(*Unicode61Tokenizer)(unsafe.Pointer(p)).FaFold = Xsqlite3_malloc64(tls, uint64((*Unicode61Tokenizer)(unsafe.Pointer(p)).FnFold)*uint64(unsafe.Sizeof(int8(0))))
if (*Unicode61Tokenizer)(unsafe.Pointer(p)).FaFold == uintptr(0) {
rc = SQLITE_NOMEM
}
for i = 0; rc == SQLITE_OK && i < nArg; i = i + 2 {
if 0 == Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer(azArg + uintptr(i)*8)), ts+37424) {
zCat = *(*uintptr)(unsafe.Pointer(azArg + uintptr(i+1)*8))
}
}
if rc == SQLITE_OK {
rc = unicodeSetCategories(tls, p, zCat)
}
for i = 0; rc == SQLITE_OK && i < nArg; i = i + 2 {
var zArg uintptr = *(*uintptr)(unsafe.Pointer(azArg + uintptr(i+1)*8))
if 0 == Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer(azArg + uintptr(i)*8)), ts+37435) {
if int32(*(*int8)(unsafe.Pointer(zArg))) != '0' && int32(*(*int8)(unsafe.Pointer(zArg))) != '1' && int32(*(*int8)(unsafe.Pointer(zArg))) != '2' || *(*int8)(unsafe.Pointer(zArg + 1)) != 0 {
rc = SQLITE_ERROR
} else {
(*Unicode61Tokenizer)(unsafe.Pointer(p)).FeRemoveDiacritic = int32(*(*int8)(unsafe.Pointer(zArg))) - '0'
}
} else if 0 == Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer(azArg + uintptr(i)*8)), ts+37393) {
rc = fts5UnicodeAddExceptions(tls, p, zArg, 1)
} else if 0 == Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer(azArg + uintptr(i)*8)), ts+37404) {
rc = fts5UnicodeAddExceptions(tls, p, zArg, 0)
} else if 0 == Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer(azArg + uintptr(i)*8)), ts+37424) {
} else {
rc = SQLITE_ERROR
}
}
} else {
rc = SQLITE_NOMEM
}
if rc != SQLITE_OK {
fts5UnicodeDelete(tls, p)
p = uintptr(0)
}
*(*uintptr)(unsafe.Pointer(ppOut)) = p
}
return rc
}
func fts5UnicodeIsAlnum(tls *libc.TLS, p uintptr, iCode int32) int32 {
return int32(*(*uint8)(unsafe.Pointer(p + 160 + uintptr(sqlite3Fts5UnicodeCategory(tls, U32(iCode)))))) ^
fts5UnicodeIsException(tls, p, iCode)
}
func fts5UnicodeTokenize(tls *libc.TLS, pTokenizer uintptr, pCtx uintptr, iUnused int32, pText uintptr, nText int32, xToken uintptr) int32 {
var p uintptr
var rc int32
var a uintptr
var zTerm uintptr
var zCsr uintptr
var aFold uintptr
var nFold int32
var pEnd uintptr
var iCode U32
var zOut uintptr
var is int32
var ie int32
p = pTokenizer
rc = SQLITE_OK
a = p
zTerm = pText + uintptr(nText)
zCsr = pText
aFold = (*Unicode61Tokenizer)(unsafe.Pointer(p)).FaFold
nFold = (*Unicode61Tokenizer)(unsafe.Pointer(p)).FnFold
pEnd = aFold + uintptr(nFold-6)
_ = iUnused
__1:
if !(rc == SQLITE_OK) {
goto __2
}
zOut = aFold
__3:
if !(1 != 0) {
goto __4
}
if !(zCsr >= zTerm) {
goto __5
}
goto tokenize_done
__5:
;
if !(int32(*(*uint8)(unsafe.Pointer(zCsr)))&0x80 != 0) {
goto __6
}
is = int32((int64(zCsr) - int64(pText)) / 1)
iCode = U32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zCsr, 1))))
if !(iCode >= U32(0xc0)) {
goto __8
}
iCode = U32(sqlite3Utf8Trans1[iCode-U32(0xc0)])
__9:
if !(zCsr != zTerm && int32(*(*uint8)(unsafe.Pointer(zCsr)))&0xc0 == 0x80) {
goto __10
}
iCode = iCode<<6 + U32(0x3f&int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zCsr, 1)))))
goto __9
__10:
;
if !(iCode < U32(0x80) || iCode&0xFFFFF800 == U32(0xD800) || iCode&0xFFFFFFFE == U32(0xFFFE)) {
goto __11
}
iCode = U32(0xFFFD)
__11:
;
__8:
;
if !(fts5UnicodeIsAlnum(tls, p, int32(iCode)) != 0) {
goto __12
}
goto non_ascii_tokenchar
__12:
;
goto __7
__6:
if !(*(*uint8)(unsafe.Pointer(a + uintptr(*(*uint8)(unsafe.Pointer(zCsr))))) != 0) {
goto __13
}
is = int32((int64(zCsr) - int64(pText)) / 1)
goto ascii_tokenchar
__13:
;
zCsr++
__7:
;
goto __3
__4:
;
__14:
if !(zCsr < zTerm) {
goto __15
}
if !(zOut > pEnd) {
goto __16
}
aFold = Xsqlite3_malloc64(tls, uint64(Sqlite3_int64(nFold)*int64(2)))
if !(aFold == uintptr(0)) {
goto __17
}
rc = SQLITE_NOMEM
goto tokenize_done
__17:
;
zOut = aFold + uintptr((int64(zOut)-int64((*Unicode61Tokenizer)(unsafe.Pointer(p)).FaFold))/1)
libc.X__builtin___memcpy_chk(tls, aFold, (*Unicode61Tokenizer)(unsafe.Pointer(p)).FaFold, uint64(nFold), libc.X__builtin_object_size(tls, aFold, 0))
Xsqlite3_free(tls, (*Unicode61Tokenizer)(unsafe.Pointer(p)).FaFold)
(*Unicode61Tokenizer)(unsafe.Pointer(p)).FaFold = aFold
(*Unicode61Tokenizer)(unsafe.Pointer(p)).FnFold = libc.AssignInt32(&nFold, nFold*2)
pEnd = aFold + uintptr(nFold-6)
__16:
;
if !(int32(*(*uint8)(unsafe.Pointer(zCsr)))&0x80 != 0) {
goto __18
}
iCode = U32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zCsr, 1))))
if !(iCode >= U32(0xc0)) {
goto __20
}
iCode = U32(sqlite3Utf8Trans1[iCode-U32(0xc0)])
__21:
if !(zCsr != zTerm && int32(*(*uint8)(unsafe.Pointer(zCsr)))&0xc0 == 0x80) {
goto __22
}
iCode = iCode<<6 + U32(0x3f&int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zCsr, 1)))))
goto __21
__22:
;
if !(iCode < U32(0x80) || iCode&0xFFFFF800 == U32(0xD800) || iCode&0xFFFFFFFE == U32(0xFFFE)) {
goto __23
}
iCode = U32(0xFFFD)
__23:
;
__20:
;
if !(fts5UnicodeIsAlnum(tls, p, int32(iCode)) != 0 || sqlite3Fts5UnicodeIsdiacritic(tls, int32(iCode)) != 0) {
goto __24
}
non_ascii_tokenchar:
iCode = U32(sqlite3Fts5UnicodeFold(tls, int32(iCode), (*Unicode61Tokenizer)(unsafe.Pointer(p)).FeRemoveDiacritic))
if !(iCode != 0) {
goto __26
}
if !(iCode < U32(0x00080)) {
goto __27
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(U8(iCode & U32(0xFF)))
goto __28
__27:
if !(iCode < U32(0x00800)) {
goto __29
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0xC0 + int32(U8(iCode>>6&U32(0x1F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode&U32(0x3F))))
goto __30
__29:
if !(iCode < U32(0x10000)) {
goto __31
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0xE0 + int32(U8(iCode>>12&U32(0x0F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode>>6&U32(0x3F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode&U32(0x3F))))
goto __32
__31:
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0xF0 + int32(U8(iCode>>18&U32(0x07))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode>>12&U32(0x3F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode>>6&U32(0x3F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode&U32(0x3F))))
__32:
;
__30:
;
__28:
;
__26:
;
goto __25
__24:
goto __15
__25:
;
goto __19
__18:
if !(int32(*(*uint8)(unsafe.Pointer(a + uintptr(*(*uint8)(unsafe.Pointer(zCsr)))))) == 0) {
goto __33
}
goto __15
goto __34
__33:
ascii_tokenchar:
if !(int32(*(*uint8)(unsafe.Pointer(zCsr))) >= 'A' && int32(*(*uint8)(unsafe.Pointer(zCsr))) <= 'Z') {
goto __35
}
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(int32(*(*uint8)(unsafe.Pointer(zCsr))) + 32)
goto __36
__35:
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(*(*uint8)(unsafe.Pointer(zCsr)))
__36:
;
zCsr++
__34:
;
__19:
;
ie = int32((int64(zCsr) - int64(pText)) / 1)
goto __14
__15:
;
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{xToken})).f(tls, pCtx, 0, aFold, int32((int64(zOut)-int64(aFold))/1), is, ie)
goto __1
__2:
;
tokenize_done:
if !(rc == SQLITE_DONE) {
goto __37
}
rc = SQLITE_OK
__37:
;
return rc
}
type PorterTokenizer1 = struct {
Ftokenizer Fts5_tokenizer
FpTokenizer uintptr
FaBuf [128]int8
}
type PorterTokenizer = PorterTokenizer1
func fts5PorterDelete(tls *libc.TLS, pTok uintptr) {
if pTok != 0 {
var p uintptr = pTok
if (*PorterTokenizer)(unsafe.Pointer(p)).FpTokenizer != 0 {
(*struct{ f func(*libc.TLS, uintptr) })(unsafe.Pointer(&struct{ uintptr }{(*PorterTokenizer)(unsafe.Pointer(p)).Ftokenizer.FxDelete})).f(tls, (*PorterTokenizer)(unsafe.Pointer(p)).FpTokenizer)
}
Xsqlite3_free(tls, p)
}
}
func fts5PorterCreate(tls *libc.TLS, pCtx uintptr, azArg uintptr, nArg int32, ppOut uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var pApi uintptr = pCtx
var rc int32 = SQLITE_OK
var pRet uintptr
*(*uintptr)(unsafe.Pointer(bp)) = uintptr(0)
var zBase uintptr = ts + 37453
if nArg > 0 {
zBase = *(*uintptr)(unsafe.Pointer(azArg))
}
pRet = Xsqlite3_malloc(tls, int32(unsafe.Sizeof(PorterTokenizer{})))
if pRet != 0 {
libc.X__builtin___memset_chk(tls, pRet, 0, uint64(unsafe.Sizeof(PorterTokenizer{})), libc.X__builtin_object_size(tls, pRet, 0))
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5_api)(unsafe.Pointer(pApi)).FxFindTokenizer})).f(tls, pApi, zBase, bp, pRet)
} else {
rc = SQLITE_NOMEM
}
if rc == SQLITE_OK {
var nArg2 int32 = func() int32 {
if nArg > 0 {
return nArg - 1
}
return 0
}()
var azArg2 uintptr = func() uintptr {
if nArg2 != 0 {
return azArg + 1*8
}
return uintptr(0)
}()
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*PorterTokenizer)(unsafe.Pointer(pRet)).Ftokenizer.FxCreate})).f(tls, *(*uintptr)(unsafe.Pointer(bp)), azArg2, nArg2, pRet+24)
}
if rc != SQLITE_OK {
fts5PorterDelete(tls, pRet)
pRet = uintptr(0)
}
*(*uintptr)(unsafe.Pointer(ppOut)) = pRet
return rc
}
type PorterContext1 = struct {
FpCtx uintptr
FxToken uintptr
FaBuf uintptr
}
type PorterContext = PorterContext1
type PorterRule1 = struct {
FzSuffix uintptr
FnSuffix int32
F__ccgo_pad1 [4]byte
FxCond uintptr
FzOutput uintptr
FnOutput int32
F__ccgo_pad2 [4]byte
}
type PorterRule = PorterRule1
func fts5PorterIsVowel(tls *libc.TLS, c int8, bYIsVowel int32) int32 {
return libc.Bool32(int32(c) == 'a' || int32(c) == 'e' || int32(c) == 'i' || int32(c) == 'o' || int32(c) == 'u' || bYIsVowel != 0 && int32(c) == 'y')
}
func fts5PorterGobbleVC(tls *libc.TLS, zStem uintptr, nStem int32, bPrevCons int32) int32 {
var i int32
var bCons int32 = bPrevCons
for i = 0; i < nStem; i++ {
if 0 == libc.AssignInt32(&bCons, libc.BoolInt32(!(fts5PorterIsVowel(tls, *(*int8)(unsafe.Pointer(zStem + uintptr(i))), bCons) != 0))) {
break
}
}
for i++; i < nStem; i++ {
if libc.AssignInt32(&bCons, libc.BoolInt32(!(fts5PorterIsVowel(tls, *(*int8)(unsafe.Pointer(zStem + uintptr(i))), bCons) != 0))) != 0 {
return i + 1
}
}
return 0
}
func fts5Porter_MGt0(tls *libc.TLS, zStem uintptr, nStem int32) int32 {
return libc.BoolInt32(!!(fts5PorterGobbleVC(tls, zStem, nStem, 0) != 0))
}
func fts5Porter_MGt1(tls *libc.TLS, zStem uintptr, nStem int32) int32 {
var n int32
n = fts5PorterGobbleVC(tls, zStem, nStem, 0)
if n != 0 && fts5PorterGobbleVC(tls, zStem+uintptr(n), nStem-n, 1) != 0 {
return 1
}
return 0
}
func fts5Porter_MEq1(tls *libc.TLS, zStem uintptr, nStem int32) int32 {
var n int32
n = fts5PorterGobbleVC(tls, zStem, nStem, 0)
if n != 0 && 0 == fts5PorterGobbleVC(tls, zStem+uintptr(n), nStem-n, 1) {
return 1
}
return 0
}
func fts5Porter_Ostar(tls *libc.TLS, zStem uintptr, nStem int32) int32 {
if int32(*(*int8)(unsafe.Pointer(zStem + uintptr(nStem-1)))) == 'w' || int32(*(*int8)(unsafe.Pointer(zStem + uintptr(nStem-1)))) == 'x' || int32(*(*int8)(unsafe.Pointer(zStem + uintptr(nStem-1)))) == 'y' {
return 0
} else {
var i int32
var mask int32 = 0
var bCons int32 = 0
for i = 0; i < nStem; i++ {
bCons = libc.BoolInt32(!(fts5PorterIsVowel(tls, *(*int8)(unsafe.Pointer(zStem + uintptr(i))), bCons) != 0))
mask = mask<<1 + bCons
}
return libc.Bool32(mask&0x0007 == 0x0005)
}
return int32(0)
}
func fts5Porter_MGt1_and_S_or_T(tls *libc.TLS, zStem uintptr, nStem int32) int32 {
return libc.Bool32((int32(*(*int8)(unsafe.Pointer(zStem + uintptr(nStem-1)))) == 's' || int32(*(*int8)(unsafe.Pointer(zStem + uintptr(nStem-1)))) == 't') &&
fts5Porter_MGt1(tls, zStem, nStem) != 0)
}
func fts5Porter_Vowel(tls *libc.TLS, zStem uintptr, nStem int32) int32 {
var i int32
for i = 0; i < nStem; i++ {
if fts5PorterIsVowel(tls, *(*int8)(unsafe.Pointer(zStem + uintptr(i))), libc.Bool32(i > 0)) != 0 {
return 1
}
}
return 0
}
func fts5PorterStep4(tls *libc.TLS, aBuf uintptr, pnBuf uintptr) int32 {
var ret int32 = 0
var nBuf int32 = *(*int32)(unsafe.Pointer(pnBuf))
switch int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(nBuf-2)))) {
case 'a':
if nBuf > 2 && 0 == libc.Xmemcmp(tls, ts+37463, aBuf+uintptr(nBuf-2), uint64(2)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-2) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 2
}
}
break
case 'c':
if nBuf > 4 && 0 == libc.Xmemcmp(tls, ts+37466, aBuf+uintptr(nBuf-4), uint64(4)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-4) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 4
}
} else if nBuf > 4 && 0 == libc.Xmemcmp(tls, ts+37471, aBuf+uintptr(nBuf-4), uint64(4)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-4) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 4
}
}
break
case 'e':
if nBuf > 2 && 0 == libc.Xmemcmp(tls, ts+37476, aBuf+uintptr(nBuf-2), uint64(2)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-2) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 2
}
}
break
case 'i':
if nBuf > 2 && 0 == libc.Xmemcmp(tls, ts+37479, aBuf+uintptr(nBuf-2), uint64(2)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-2) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 2
}
}
break
case 'l':
if nBuf > 4 && 0 == libc.Xmemcmp(tls, ts+37482, aBuf+uintptr(nBuf-4), uint64(4)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-4) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 4
}
} else if nBuf > 4 && 0 == libc.Xmemcmp(tls, ts+37487, aBuf+uintptr(nBuf-4), uint64(4)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-4) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 4
}
}
break
case 'n':
if nBuf > 3 && 0 == libc.Xmemcmp(tls, ts+37492, aBuf+uintptr(nBuf-3), uint64(3)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-3) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 3
}
} else if nBuf > 5 && 0 == libc.Xmemcmp(tls, ts+37496, aBuf+uintptr(nBuf-5), uint64(5)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-5) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 5
}
} else if nBuf > 4 && 0 == libc.Xmemcmp(tls, ts+37502, aBuf+uintptr(nBuf-4), uint64(4)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-4) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 4
}
} else if nBuf > 3 && 0 == libc.Xmemcmp(tls, ts+37507, aBuf+uintptr(nBuf-3), uint64(3)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-3) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 3
}
}
break
case 'o':
if nBuf > 3 && 0 == libc.Xmemcmp(tls, ts+37511, aBuf+uintptr(nBuf-3), uint64(3)) {
if fts5Porter_MGt1_and_S_or_T(tls, aBuf, nBuf-3) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 3
}
} else if nBuf > 2 && 0 == libc.Xmemcmp(tls, ts+37515, aBuf+uintptr(nBuf-2), uint64(2)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-2) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 2
}
}
break
case 's':
if nBuf > 3 && 0 == libc.Xmemcmp(tls, ts+37518, aBuf+uintptr(nBuf-3), uint64(3)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-3) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 3
}
}
break
case 't':
if nBuf > 3 && 0 == libc.Xmemcmp(tls, ts+37522, aBuf+uintptr(nBuf-3), uint64(3)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-3) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 3
}
} else if nBuf > 3 && 0 == libc.Xmemcmp(tls, ts+37526, aBuf+uintptr(nBuf-3), uint64(3)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-3) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 3
}
}
break
case 'u':
if nBuf > 3 && 0 == libc.Xmemcmp(tls, ts+37530, aBuf+uintptr(nBuf-3), uint64(3)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-3) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 3
}
}
break
case 'v':
if nBuf > 3 && 0 == libc.Xmemcmp(tls, ts+37534, aBuf+uintptr(nBuf-3), uint64(3)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-3) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 3
}
}
break
case 'z':
if nBuf > 3 && 0 == libc.Xmemcmp(tls, ts+37538, aBuf+uintptr(nBuf-3), uint64(3)) {
if fts5Porter_MGt1(tls, aBuf, nBuf-3) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 3
}
}
break
}
return ret
}
func fts5PorterStep1B2(tls *libc.TLS, aBuf uintptr, pnBuf uintptr) int32 {
var ret int32 = 0
var nBuf int32 = *(*int32)(unsafe.Pointer(pnBuf))
switch int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(nBuf-2)))) {
case 'a':
if nBuf > 2 && 0 == libc.Xmemcmp(tls, ts+37542, aBuf+uintptr(nBuf-2), uint64(2)) {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-2), ts+37522, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-2), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 2 + 3
ret = 1
}
break
case 'b':
if nBuf > 2 && 0 == libc.Xmemcmp(tls, ts+37545, aBuf+uintptr(nBuf-2), uint64(2)) {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-2), ts+37548, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-2), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 2 + 3
ret = 1
}
break
case 'i':
if nBuf > 2 && 0 == libc.Xmemcmp(tls, ts+37552, aBuf+uintptr(nBuf-2), uint64(2)) {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-2), ts+37538, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-2), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 2 + 3
ret = 1
}
break
}
return ret
}
func fts5PorterStep2(tls *libc.TLS, aBuf uintptr, pnBuf uintptr) int32 {
var ret int32 = 0
var nBuf int32 = *(*int32)(unsafe.Pointer(pnBuf))
switch int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(nBuf-2)))) {
case 'a':
if nBuf > 7 && 0 == libc.Xmemcmp(tls, ts+37555, aBuf+uintptr(nBuf-7), uint64(7)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-7) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-7), ts+37522, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-7), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 7 + 3
}
} else if nBuf > 6 && 0 == libc.Xmemcmp(tls, ts+37563, aBuf+uintptr(nBuf-6), uint64(6)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-6) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-6), ts+37570, uint64(4), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-6), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 6 + 4
}
}
break
case 'c':
if nBuf > 4 && 0 == libc.Xmemcmp(tls, ts+37575, aBuf+uintptr(nBuf-4), uint64(4)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-4) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-4), ts+37471, uint64(4), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-4), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 4 + 4
}
} else if nBuf > 4 && 0 == libc.Xmemcmp(tls, ts+37580, aBuf+uintptr(nBuf-4), uint64(4)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-4) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-4), ts+37466, uint64(4), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-4), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 4 + 4
}
}
break
case 'e':
if nBuf > 4 && 0 == libc.Xmemcmp(tls, ts+37585, aBuf+uintptr(nBuf-4), uint64(4)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-4) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-4), ts+37538, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-4), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 4 + 3
}
}
break
case 'g':
if nBuf > 4 && 0 == libc.Xmemcmp(tls, ts+37590, aBuf+uintptr(nBuf-4), uint64(4)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-4) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-4), ts+15883, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-4), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 4 + 3
}
}
break
case 'l':
if nBuf > 3 && 0 == libc.Xmemcmp(tls, ts+37595, aBuf+uintptr(nBuf-3), uint64(3)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-3) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-3), ts+37548, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-3), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 3 + 3
}
} else if nBuf > 4 && 0 == libc.Xmemcmp(tls, ts+37599, aBuf+uintptr(nBuf-4), uint64(4)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-4) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-4), ts+37463, uint64(2), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-4), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 4 + 2
}
} else if nBuf > 5 && 0 == libc.Xmemcmp(tls, ts+37604, aBuf+uintptr(nBuf-5), uint64(5)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-5) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-5), ts+37507, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-5), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 5 + 3
}
} else if nBuf > 3 && 0 == libc.Xmemcmp(tls, ts+37610, aBuf+uintptr(nBuf-3), uint64(3)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-3) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-3), ts+37614, uint64(1), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-3), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 3 + 1
}
} else if nBuf > 5 && 0 == libc.Xmemcmp(tls, ts+37616, aBuf+uintptr(nBuf-5), uint64(5)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-5) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-5), ts+37530, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-5), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 5 + 3
}
}
break
case 'o':
if nBuf > 7 && 0 == libc.Xmemcmp(tls, ts+37622, aBuf+uintptr(nBuf-7), uint64(7)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-7) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-7), ts+37538, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-7), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 7 + 3
}
} else if nBuf > 5 && 0 == libc.Xmemcmp(tls, ts+37630, aBuf+uintptr(nBuf-5), uint64(5)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-5) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-5), ts+37522, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-5), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 5 + 3
}
} else if nBuf > 4 && 0 == libc.Xmemcmp(tls, ts+37636, aBuf+uintptr(nBuf-4), uint64(4)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-4) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-4), ts+37522, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-4), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 4 + 3
}
}
break
case 's':
if nBuf > 5 && 0 == libc.Xmemcmp(tls, ts+37641, aBuf+uintptr(nBuf-5), uint64(5)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-5) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-5), ts+37463, uint64(2), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-5), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 5 + 2
}
} else if nBuf > 7 && 0 == libc.Xmemcmp(tls, ts+37647, aBuf+uintptr(nBuf-7), uint64(7)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-7) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-7), ts+37534, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-7), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 7 + 3
}
} else if nBuf > 7 && 0 == libc.Xmemcmp(tls, ts+37655, aBuf+uintptr(nBuf-7), uint64(7)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-7) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-7), ts+37663, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-7), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 7 + 3
}
} else if nBuf > 7 && 0 == libc.Xmemcmp(tls, ts+37667, aBuf+uintptr(nBuf-7), uint64(7)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-7) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-7), ts+37530, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-7), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 7 + 3
}
}
break
case 't':
if nBuf > 5 && 0 == libc.Xmemcmp(tls, ts+37675, aBuf+uintptr(nBuf-5), uint64(5)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-5) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-5), ts+37463, uint64(2), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-5), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 5 + 2
}
} else if nBuf > 5 && 0 == libc.Xmemcmp(tls, ts+37681, aBuf+uintptr(nBuf-5), uint64(5)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-5) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-5), ts+37534, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-5), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 5 + 3
}
} else if nBuf > 6 && 0 == libc.Xmemcmp(tls, ts+37687, aBuf+uintptr(nBuf-6), uint64(6)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-6) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-6), ts+37548, uint64(3), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-6), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 6 + 3
}
}
break
}
return ret
}
func fts5PorterStep3(tls *libc.TLS, aBuf uintptr, pnBuf uintptr) int32 {
var ret int32 = 0
var nBuf int32 = *(*int32)(unsafe.Pointer(pnBuf))
switch int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(nBuf-2)))) {
case 'a':
if nBuf > 4 && 0 == libc.Xmemcmp(tls, ts+37694, aBuf+uintptr(nBuf-4), uint64(4)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-4) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-4), ts+37479, uint64(2), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-4), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 4 + 2
}
}
break
case 's':
if nBuf > 4 && 0 == libc.Xmemcmp(tls, ts+37699, aBuf+uintptr(nBuf-4), uint64(4)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-4) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 4
}
}
break
case 't':
if nBuf > 5 && 0 == libc.Xmemcmp(tls, ts+37704, aBuf+uintptr(nBuf-5), uint64(5)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-5) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-5), ts+37479, uint64(2), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-5), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 5 + 2
}
} else if nBuf > 5 && 0 == libc.Xmemcmp(tls, ts+37710, aBuf+uintptr(nBuf-5), uint64(5)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-5) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-5), ts+37479, uint64(2), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-5), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 5 + 2
}
}
break
case 'u':
if nBuf > 3 && 0 == libc.Xmemcmp(tls, ts+37663, aBuf+uintptr(nBuf-3), uint64(3)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-3) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 3
}
}
break
case 'v':
if nBuf > 5 && 0 == libc.Xmemcmp(tls, ts+37716, aBuf+uintptr(nBuf-5), uint64(5)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-5) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 5
}
}
break
case 'z':
if nBuf > 5 && 0 == libc.Xmemcmp(tls, ts+37722, aBuf+uintptr(nBuf-5), uint64(5)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-5) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-5), ts+37463, uint64(2), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-5), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 5 + 2
}
}
break
}
return ret
}
func fts5PorterStep1B(tls *libc.TLS, aBuf uintptr, pnBuf uintptr) int32 {
var ret int32 = 0
var nBuf int32 = *(*int32)(unsafe.Pointer(pnBuf))
switch int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(nBuf-2)))) {
case 'e':
if nBuf > 3 && 0 == libc.Xmemcmp(tls, ts+37728, aBuf+uintptr(nBuf-3), uint64(3)) {
if fts5Porter_MGt0(tls, aBuf, nBuf-3) != 0 {
libc.X__builtin___memcpy_chk(tls, aBuf+uintptr(nBuf-3), ts+37732, uint64(2), libc.X__builtin_object_size(tls, aBuf+uintptr(nBuf-3), 0))
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 3 + 2
}
} else if nBuf > 2 && 0 == libc.Xmemcmp(tls, ts+37735, aBuf+uintptr(nBuf-2), uint64(2)) {
if fts5Porter_Vowel(tls, aBuf, nBuf-2) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 2
ret = 1
}
}
break
case 'n':
if nBuf > 3 && 0 == libc.Xmemcmp(tls, ts+37738, aBuf+uintptr(nBuf-3), uint64(3)) {
if fts5Porter_Vowel(tls, aBuf, nBuf-3) != 0 {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 3
ret = 1
}
}
break
}
return ret
}
func fts5PorterStep1A(tls *libc.TLS, aBuf uintptr, pnBuf uintptr) {
var nBuf int32 = *(*int32)(unsafe.Pointer(pnBuf))
if int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(nBuf-1)))) == 's' {
if int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(nBuf-2)))) == 'e' {
if nBuf > 4 && int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(nBuf-4)))) == 's' && int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(nBuf-3)))) == 's' ||
nBuf > 3 && int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(nBuf-3)))) == 'i' {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 2
} else {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 1
}
} else if int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(nBuf-2)))) != 's' {
*(*int32)(unsafe.Pointer(pnBuf)) = nBuf - 1
}
}
}
func fts5PorterCb(tls *libc.TLS, pCtx uintptr, tflags int32, pToken uintptr, nToken int32, iStart int32, iEnd int32) int32 {
bp := tls.Alloc(4)
defer tls.Free(4)
var p uintptr
var aBuf uintptr
var c int8
p = pCtx
if !(nToken > FTS5_PORTER_MAX_TOKEN || nToken < 3) {
goto __1
}
goto pass_through
__1:
;
aBuf = (*PorterContext)(unsafe.Pointer(p)).FaBuf
*(*int32)(unsafe.Pointer(bp)) = nToken
libc.X__builtin___memcpy_chk(tls, aBuf, pToken, uint64(*(*int32)(unsafe.Pointer(bp))), libc.X__builtin_object_size(tls, aBuf, 0))
fts5PorterStep1A(tls, aBuf, bp)
if !(fts5PorterStep1B(tls, aBuf, bp) != 0) {
goto __2
}
if !(fts5PorterStep1B2(tls, aBuf, bp) == 0) {
goto __3
}
c = *(*int8)(unsafe.Pointer(aBuf + uintptr(*(*int32)(unsafe.Pointer(bp))-1)))
if !(fts5PorterIsVowel(tls, c, 0) == 0 &&
int32(c) != 'l' && int32(c) != 's' && int32(c) != 'z' && int32(c) == int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(*(*int32)(unsafe.Pointer(bp))-2))))) {
goto __4
}
*(*int32)(unsafe.Pointer(bp))--
goto __5
__4:
if !(fts5Porter_MEq1(tls, aBuf, *(*int32)(unsafe.Pointer(bp))) != 0 && fts5Porter_Ostar(tls, aBuf, *(*int32)(unsafe.Pointer(bp))) != 0) {
goto __6
}
*(*int8)(unsafe.Pointer(aBuf + uintptr(libc.PostIncInt32(&*(*int32)(unsafe.Pointer(bp)), 1)))) = int8('e')
__6:
;
__5:
;
__3:
;
__2:
;
if !(int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(*(*int32)(unsafe.Pointer(bp))-1)))) == 'y' && fts5Porter_Vowel(tls, aBuf, *(*int32)(unsafe.Pointer(bp))-1) != 0) {
goto __7
}
*(*int8)(unsafe.Pointer(aBuf + uintptr(*(*int32)(unsafe.Pointer(bp))-1))) = int8('i')
__7:
;
fts5PorterStep2(tls, aBuf, bp)
fts5PorterStep3(tls, aBuf, bp)
fts5PorterStep4(tls, aBuf, bp)
if !(int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(*(*int32)(unsafe.Pointer(bp))-1)))) == 'e') {
goto __8
}
if !(fts5Porter_MGt1(tls, aBuf, *(*int32)(unsafe.Pointer(bp))-1) != 0 ||
fts5Porter_MEq1(tls, aBuf, *(*int32)(unsafe.Pointer(bp))-1) != 0 && !(fts5Porter_Ostar(tls, aBuf, *(*int32)(unsafe.Pointer(bp))-1) != 0)) {
goto __9
}
*(*int32)(unsafe.Pointer(bp))--
__9:
;
__8:
;
if !(*(*int32)(unsafe.Pointer(bp)) > 1 && int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(*(*int32)(unsafe.Pointer(bp))-1)))) == 'l' &&
int32(*(*int8)(unsafe.Pointer(aBuf + uintptr(*(*int32)(unsafe.Pointer(bp))-2)))) == 'l' && fts5Porter_MGt1(tls, aBuf, *(*int32)(unsafe.Pointer(bp))-1) != 0) {
goto __10
}
*(*int32)(unsafe.Pointer(bp))--
__10:
;
return (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*PorterContext)(unsafe.Pointer(p)).FxToken})).f(tls, (*PorterContext)(unsafe.Pointer(p)).FpCtx, tflags, aBuf, *(*int32)(unsafe.Pointer(bp)), iStart, iEnd)
pass_through:
return (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{(*PorterContext)(unsafe.Pointer(p)).FxToken})).f(tls, (*PorterContext)(unsafe.Pointer(p)).FpCtx, tflags, pToken, nToken, iStart, iEnd)
}
func fts5PorterTokenize(tls *libc.TLS, pTokenizer uintptr, pCtx uintptr, flags int32, pText uintptr, nText int32, xToken uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var p uintptr = pTokenizer
(*PorterContext)(unsafe.Pointer(bp)).FxToken = xToken
(*PorterContext)(unsafe.Pointer(bp)).FpCtx = pCtx
(*PorterContext)(unsafe.Pointer(bp)).FaBuf = p + 32
return (*struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr, int32, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*PorterTokenizer)(unsafe.Pointer(p)).Ftokenizer.FxTokenize})).f(tls,
(*PorterTokenizer)(unsafe.Pointer(p)).FpTokenizer, bp, flags, pText, nText, *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
}{fts5PorterCb})))
}
// *************************************************************************
//
// Start of trigram implementation.
type TrigramTokenizer1 = struct{ FbFold int32 }
// *************************************************************************
//
// Start of trigram implementation.
type TrigramTokenizer = TrigramTokenizer1
func fts5TriDelete(tls *libc.TLS, p uintptr) {
Xsqlite3_free(tls, p)
}
func fts5TriCreate(tls *libc.TLS, pUnused uintptr, azArg uintptr, nArg int32, ppOut uintptr) int32 {
var rc int32 = SQLITE_OK
var pNew uintptr = Xsqlite3_malloc(tls, int32(unsafe.Sizeof(TrigramTokenizer{})))
_ = pUnused
if pNew == uintptr(0) {
rc = SQLITE_NOMEM
} else {
var i int32
(*TrigramTokenizer)(unsafe.Pointer(pNew)).FbFold = 1
for i = 0; rc == SQLITE_OK && i < nArg; i = i + 2 {
var zArg uintptr = *(*uintptr)(unsafe.Pointer(azArg + uintptr(i+1)*8))
if 0 == Xsqlite3_stricmp(tls, *(*uintptr)(unsafe.Pointer(azArg + uintptr(i)*8)), ts+37742) {
if int32(*(*int8)(unsafe.Pointer(zArg))) != '0' && int32(*(*int8)(unsafe.Pointer(zArg))) != '1' || *(*int8)(unsafe.Pointer(zArg + 1)) != 0 {
rc = SQLITE_ERROR
} else {
(*TrigramTokenizer)(unsafe.Pointer(pNew)).FbFold = libc.Bool32(int32(*(*int8)(unsafe.Pointer(zArg))) == '0')
}
} else {
rc = SQLITE_ERROR
}
}
if rc != SQLITE_OK {
fts5TriDelete(tls, pNew)
pNew = uintptr(0)
}
}
*(*uintptr)(unsafe.Pointer(ppOut)) = pNew
return rc
}
func fts5TriTokenize(tls *libc.TLS, pTok uintptr, pCtx uintptr, unusedFlags int32, pText uintptr, nText int32, xToken uintptr) int32 {
bp := tls.Alloc(32)
defer tls.Free(32)
var p uintptr = pTok
var rc int32 = SQLITE_OK
var zIn uintptr = pText
var zEof uintptr = zIn + uintptr(nText)
var iCode U32
_ = unusedFlags
for 1 != 0 {
var zOut uintptr = bp
var iStart int32 = int32((int64(zIn) - int64(pText)) / 1)
var zNext uintptr
iCode = U32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1))))
if iCode >= U32(0xc0) {
iCode = U32(sqlite3Utf8Trans1[iCode-U32(0xc0)])
for zIn != zEof && int32(*(*uint8)(unsafe.Pointer(zIn)))&0xc0 == 0x80 {
iCode = iCode<<6 + U32(0x3f&int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1)))))
}
if iCode < U32(0x80) || iCode&0xFFFFF800 == U32(0xD800) || iCode&0xFFFFFFFE == U32(0xFFFE) {
iCode = U32(0xFFFD)
}
}
if iCode == U32(0) {
break
}
zNext = zIn
if zIn < zEof {
if (*TrigramTokenizer)(unsafe.Pointer(p)).FbFold != 0 {
iCode = U32(sqlite3Fts5UnicodeFold(tls, int32(iCode), 0))
}
{
if iCode < U32(0x00080) {
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(U8(iCode & U32(0xFF)))
} else if iCode < U32(0x00800) {
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0xC0 + int32(U8(iCode>>6&U32(0x1F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode&U32(0x3F))))
} else if iCode < U32(0x10000) {
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0xE0 + int32(U8(iCode>>12&U32(0x0F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode>>6&U32(0x3F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode&U32(0x3F))))
} else {
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0xF0 + int32(U8(iCode>>18&U32(0x07))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode>>12&U32(0x3F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode>>6&U32(0x3F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode&U32(0x3F))))
}
}
iCode = U32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1))))
if iCode >= U32(0xc0) {
iCode = U32(sqlite3Utf8Trans1[iCode-U32(0xc0)])
for zIn != zEof && int32(*(*uint8)(unsafe.Pointer(zIn)))&0xc0 == 0x80 {
iCode = iCode<<6 + U32(0x3f&int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1)))))
}
if iCode < U32(0x80) || iCode&0xFFFFF800 == U32(0xD800) || iCode&0xFFFFFFFE == U32(0xFFFE) {
iCode = U32(0xFFFD)
}
}
if iCode == U32(0) {
break
}
} else {
break
}
if zIn < zEof {
if (*TrigramTokenizer)(unsafe.Pointer(p)).FbFold != 0 {
iCode = U32(sqlite3Fts5UnicodeFold(tls, int32(iCode), 0))
}
{
if iCode < U32(0x00080) {
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(U8(iCode & U32(0xFF)))
} else if iCode < U32(0x00800) {
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0xC0 + int32(U8(iCode>>6&U32(0x1F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode&U32(0x3F))))
} else if iCode < U32(0x10000) {
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0xE0 + int32(U8(iCode>>12&U32(0x0F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode>>6&U32(0x3F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode&U32(0x3F))))
} else {
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0xF0 + int32(U8(iCode>>18&U32(0x07))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode>>12&U32(0x3F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode>>6&U32(0x3F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode&U32(0x3F))))
}
}
iCode = U32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1))))
if iCode >= U32(0xc0) {
iCode = U32(sqlite3Utf8Trans1[iCode-U32(0xc0)])
for zIn != zEof && int32(*(*uint8)(unsafe.Pointer(zIn)))&0xc0 == 0x80 {
iCode = iCode<<6 + U32(0x3f&int32(*(*uint8)(unsafe.Pointer(libc.PostIncUintptr(&zIn, 1)))))
}
if iCode < U32(0x80) || iCode&0xFFFFF800 == U32(0xD800) || iCode&0xFFFFFFFE == U32(0xFFFE) {
iCode = U32(0xFFFD)
}
}
if iCode == U32(0) {
break
}
if (*TrigramTokenizer)(unsafe.Pointer(p)).FbFold != 0 {
iCode = U32(sqlite3Fts5UnicodeFold(tls, int32(iCode), 0))
}
{
if iCode < U32(0x00080) {
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(U8(iCode & U32(0xFF)))
} else if iCode < U32(0x00800) {
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0xC0 + int32(U8(iCode>>6&U32(0x1F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode&U32(0x3F))))
} else if iCode < U32(0x10000) {
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0xE0 + int32(U8(iCode>>12&U32(0x0F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode>>6&U32(0x3F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode&U32(0x3F))))
} else {
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0xF0 + int32(U8(iCode>>18&U32(0x07))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode>>12&U32(0x3F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode>>6&U32(0x3F))))
*(*int8)(unsafe.Pointer(libc.PostIncUintptr(&zOut, 1))) = int8(0x80 + int32(U8(iCode&U32(0x3F))))
}
}
} else {
break
}
rc = (*struct {
f func(*libc.TLS, uintptr, int32, uintptr, int32, int32, int32) int32
})(unsafe.Pointer(&struct{ uintptr }{xToken})).f(tls, pCtx, 0, bp, int32(int64((zOut-bp)/1)), iStart, int32(int64((uintptr(iStart)+zOut-bp)/1)))
if rc != SQLITE_OK {
break
}
zIn = zNext
}
return rc
}
func sqlite3Fts5TokenizerPattern(tls *libc.TLS, xCreate uintptr, pTok uintptr) int32 {
if xCreate == *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32
}{fts5TriCreate})) {
var p uintptr = pTok
if (*TrigramTokenizer)(unsafe.Pointer(p)).FbFold != 0 {
return FTS5_PATTERN_LIKE
}
return FTS5_PATTERN_GLOB
}
return FTS5_PATTERN_NONE
}
func sqlite3Fts5TokenizerInit(tls *libc.TLS, pApi uintptr) int32 {
bp := tls.Alloc(128)
defer tls.Free(128)
*(*[4]BuiltinTokenizer)(unsafe.Pointer(bp)) = [4]BuiltinTokenizer{
{FzName: ts + 37453, Fx: Fts5_tokenizer{FxCreate: *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32
}{fts5UnicodeCreate})), FxDelete: *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{fts5UnicodeDelete})), FxTokenize: *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr, int32, uintptr) int32
}{fts5UnicodeTokenize}))}},
{FzName: ts + 37757, Fx: Fts5_tokenizer{FxCreate: *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32
}{fts5AsciiCreate})), FxDelete: *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{fts5AsciiDelete})), FxTokenize: *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr, int32, uintptr) int32
}{fts5AsciiTokenize}))}},
{FzName: ts + 37763, Fx: Fts5_tokenizer{FxCreate: *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32
}{fts5PorterCreate})), FxDelete: *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{fts5PorterDelete})), FxTokenize: *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr, int32, uintptr) int32
}{fts5PorterTokenize}))}},
{FzName: ts + 37770, Fx: Fts5_tokenizer{FxCreate: *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32
}{fts5TriCreate})), FxDelete: *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, uintptr) }{fts5TriDelete})), FxTokenize: *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, int32, uintptr, int32, uintptr) int32
}{fts5TriTokenize}))}},
}
var rc int32 = SQLITE_OK
var i int32
for i = 0; rc == SQLITE_OK && i < int32(uint64(unsafe.Sizeof([4]BuiltinTokenizer{}))/uint64(unsafe.Sizeof(BuiltinTokenizer{}))); i++ {
rc = (*struct {
f func(*libc.TLS, uintptr, uintptr, uintptr, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{(*Fts5_api)(unsafe.Pointer(pApi)).FxCreateTokenizer})).f(tls, pApi,
(*BuiltinTokenizer)(unsafe.Pointer(bp+uintptr(i)*32)).FzName,
pApi,
bp+uintptr(i)*32+8,
uintptr(0))
}
return rc
}
type BuiltinTokenizer = struct {
FzName uintptr
Fx Fts5_tokenizer
}
func fts5_remove_diacritic(tls *libc.TLS, c int32, bComplex int32) int32 {
bp := tls.Alloc(378)
defer tls.Free(378)
*(*[126]uint16)(unsafe.Pointer(bp)) = [126]uint16{
uint16(0), uint16(1797), uint16(1848), uint16(1859), uint16(1891), uint16(1928), uint16(1940), uint16(1995),
uint16(2024), uint16(2040), uint16(2060), uint16(2110), uint16(2168), uint16(2206), uint16(2264), uint16(2286),
uint16(2344), uint16(2383), uint16(2472), uint16(2488), uint16(2516), uint16(2596), uint16(2668), uint16(2732),
uint16(2782), uint16(2842), uint16(2894), uint16(2954), uint16(2984), uint16(3000), uint16(3028), uint16(3336),
uint16(3456), uint16(3696), uint16(3712), uint16(3728), uint16(3744), uint16(3766), uint16(3832), uint16(3896),
uint16(3912), uint16(3928), uint16(3944), uint16(3968), uint16(4008), uint16(4040), uint16(4056), uint16(4106),
uint16(4138), uint16(4170), uint16(4202), uint16(4234), uint16(4266), uint16(4296), uint16(4312), uint16(4344),
uint16(4408), uint16(4424), uint16(4442), uint16(4472), uint16(4488), uint16(4504), uint16(6148), uint16(6198),
uint16(6264), uint16(6280), uint16(6360), uint16(6429), uint16(6505), uint16(6529), uint16(61448), uint16(61468),
uint16(61512), uint16(61534), uint16(61592), uint16(61610), uint16(61642), uint16(61672), uint16(61688), uint16(61704),
uint16(61726), uint16(61784), uint16(61800), uint16(61816), uint16(61836), uint16(61880), uint16(61896), uint16(61914),
uint16(61948), uint16(61998), uint16(62062), uint16(62122), uint16(62154), uint16(62184), uint16(62200), uint16(62218),
uint16(62252), uint16(62302), uint16(62364), uint16(62410), uint16(62442), uint16(62478), uint16(62536), uint16(62554),
uint16(62584), uint16(62604), uint16(62640), uint16(62648), uint16(62656), uint16(62664), uint16(62730), uint16(62766),
uint16(62830), uint16(62890), uint16(62924), uint16(62974), uint16(63032), uint16(63050), uint16(63082), uint16(63118),
uint16(63182), uint16(63242), uint16(63274), uint16(63310), uint16(63368), uint16(63390),
}
*(*[126]uint8)(unsafe.Pointer(bp + 252)) = [126]uint8{
uint8(0), uint8('a'), uint8('c'), uint8('e'), uint8('i'), uint8('n'),
uint8('o'), uint8('u'), uint8('y'), uint8('y'), uint8('a'), uint8('c'),
uint8('d'), uint8('e'), uint8('e'), uint8('g'), uint8('h'), uint8('i'),
uint8('j'), uint8('k'), uint8('l'), uint8('n'), uint8('o'), uint8('r'),
uint8('s'), uint8('t'), uint8('u'), uint8('u'), uint8('w'), uint8('y'),
uint8('z'), uint8('o'), uint8('u'), uint8('a'), uint8('i'), uint8('o'),
uint8('u'), uint8('u' | int32(uint8(0x80))), uint8('a' | int32(uint8(0x80))), uint8('g'), uint8('k'), uint8('o'),
uint8('o' | int32(uint8(0x80))), uint8('j'), uint8('g'), uint8('n'), uint8('a' | int32(uint8(0x80))), uint8('a'),
uint8('e'), uint8('i'), uint8('o'), uint8('r'), uint8('u'), uint8('s'),
uint8('t'), uint8('h'), uint8('a'), uint8('e'), uint8('o' | int32(uint8(0x80))), uint8('o'),
uint8('o' | int32(uint8(0x80))), uint8('y'), uint8(0), uint8(0), uint8(0), uint8(0),
uint8(0), uint8(0), uint8(0), uint8(0), uint8('a'), uint8('b'),
uint8('c' | int32(uint8(0x80))), uint8('d'), uint8('d'), uint8('e' | int32(uint8(0x80))), uint8('e'), uint8('e' | int32(uint8(0x80))),
uint8('f'), uint8('g'), uint8('h'), uint8('h'), uint8('i'), uint8('i' | int32(uint8(0x80))),
uint8('k'), uint8('l'), uint8('l' | int32(uint8(0x80))), uint8('l'), uint8('m'), uint8('n'),
uint8('o' | int32(uint8(0x80))), uint8('p'), uint8('r'), uint8('r' | int32(uint8(0x80))), uint8('r'), uint8('s'),
uint8('s' | int32(uint8(0x80))), uint8('t'), uint8('u'), uint8('u' | int32(uint8(0x80))), uint8('v'), uint8('w'),
uint8('w'), uint8('x'), uint8('y'), uint8('z'), uint8('h'), uint8('t'),
uint8('w'), uint8('y'), uint8('a'), uint8('a' | int32(uint8(0x80))), uint8('a' | int32(uint8(0x80))), uint8('a' | int32(uint8(0x80))),
uint8('e'), uint8('e' | int32(uint8(0x80))), uint8('e' | int32(uint8(0x80))), uint8('i'), uint8('o'), uint8('o' | int32(uint8(0x80))),
uint8('o' | int32(uint8(0x80))), uint8('o' | int32(uint8(0x80))), uint8('u'), uint8('u' | int32(uint8(0x80))), uint8('u' | int32(uint8(0x80))), uint8('y'),
}
var key uint32 = uint32(c)<<3 | uint32(0x00000007)
var iRes int32 = 0
var iHi int32 = int32(uint64(unsafe.Sizeof([126]uint16{}))/uint64(unsafe.Sizeof(uint16(0))) - uint64(1))
var iLo int32 = 0
for iHi >= iLo {
var iTest int32 = (iHi + iLo) / 2
if key >= uint32(*(*uint16)(unsafe.Pointer(bp + uintptr(iTest)*2))) {
iRes = iTest
iLo = iTest + 1
} else {
iHi = iTest - 1
}
}
if bComplex == 0 && int32(*(*uint8)(unsafe.Pointer(bp + 252 + uintptr(iRes))))&0x80 != 0 {
return c
}
if c > int32(*(*uint16)(unsafe.Pointer(bp + uintptr(iRes)*2)))>>3+int32(*(*uint16)(unsafe.Pointer(bp + uintptr(iRes)*2)))&0x07 {
return c
}
return int32(*(*uint8)(unsafe.Pointer(bp + 252 + uintptr(iRes)))) & 0x7F
}
func sqlite3Fts5UnicodeIsdiacritic(tls *libc.TLS, c int32) int32 {
var mask0 uint32 = uint32(0x08029FDF)
var mask1 uint32 = uint32(0x000361F8)
if c < 768 || c > 817 {
return 0
}
if c < 768+32 {
return int32(mask0 & (uint32(1) << (c - 768)))
}
return int32(mask1 & (uint32(1) << (c - 768 - 32)))
}
func sqlite3Fts5UnicodeFold(tls *libc.TLS, c int32, eRemoveDiacritic int32) int32 {
var ret int32 = c
if c < 128 {
if c >= 'A' && c <= 'Z' {
ret = c + ('a' - 'A')
}
} else if c < 65536 {
var p uintptr
var iHi int32 = int32(uint64(unsafe.Sizeof(aEntry))/uint64(unsafe.Sizeof(TableEntry{})) - uint64(1))
var iLo int32 = 0
var iRes int32 = -1
for iHi >= iLo {
var iTest int32 = (iHi + iLo) / 2
var cmp int32 = c - int32(aEntry[iTest].FiCode)
if cmp >= 0 {
iRes = iTest
iLo = iTest + 1
} else {
iHi = iTest - 1
}
}
p = uintptr(unsafe.Pointer(&aEntry)) + uintptr(iRes)*4
if c < int32((*TableEntry)(unsafe.Pointer(p)).FiCode)+int32((*TableEntry)(unsafe.Pointer(p)).FnRange) && 0 == 0x01&int32((*TableEntry)(unsafe.Pointer(p)).Fflags)&(int32((*TableEntry)(unsafe.Pointer(p)).FiCode)^c) {
ret = (c + int32(aiOff[int32((*TableEntry)(unsafe.Pointer(p)).Fflags)>>1])) & 0x0000FFFF
}
if eRemoveDiacritic != 0 {
ret = fts5_remove_diacritic(tls, ret, libc.Bool32(eRemoveDiacritic == 2))
}
} else if c >= 66560 && c < 66600 {
ret = c + 40
}
return ret
}
// Each entry in the following array defines a rule for folding a range
// of codepoints to lower case. The rule applies to a range of nRange
// codepoints starting at codepoint iCode.
//
// If the least significant bit in flags is clear, then the rule applies
// to all nRange codepoints (i.e. all nRange codepoints are upper case and
// need to be folded). Or, if it is set, then the rule only applies to
// every second codepoint in the range, starting with codepoint C.
//
// The 7 most significant bits in flags are an index into the aiOff[]
// array. If a specific codepoint C does require folding, then its lower
// case equivalent is ((C + aiOff[flags>>1]) & 0xFFFF).
//
// The contents of this array are generated by parsing the CaseFolding.txt
// file distributed as part of the "Unicode Character Database". See
// http://www.unicode.org for details.
type TableEntry = struct {
FiCode uint16
Fflags uint8
FnRange uint8
}
var aEntry = [163]TableEntry{
{FiCode: uint16(65), Fflags: uint8(14), FnRange: uint8(26)}, {FiCode: uint16(181), Fflags: uint8(64), FnRange: uint8(1)}, {FiCode: uint16(192), Fflags: uint8(14), FnRange: uint8(23)},
{FiCode: uint16(216), Fflags: uint8(14), FnRange: uint8(7)}, {FiCode: uint16(256), Fflags: uint8(1), FnRange: uint8(48)}, {FiCode: uint16(306), Fflags: uint8(1), FnRange: uint8(6)},
{FiCode: uint16(313), Fflags: uint8(1), FnRange: uint8(16)}, {FiCode: uint16(330), Fflags: uint8(1), FnRange: uint8(46)}, {FiCode: uint16(376), Fflags: uint8(116), FnRange: uint8(1)},
{FiCode: uint16(377), Fflags: uint8(1), FnRange: uint8(6)}, {FiCode: uint16(383), Fflags: uint8(104), FnRange: uint8(1)}, {FiCode: uint16(385), Fflags: uint8(50), FnRange: uint8(1)},
{FiCode: uint16(386), Fflags: uint8(1), FnRange: uint8(4)}, {FiCode: uint16(390), Fflags: uint8(44), FnRange: uint8(1)}, {FiCode: uint16(391), FnRange: uint8(1)},
{FiCode: uint16(393), Fflags: uint8(42), FnRange: uint8(2)}, {FiCode: uint16(395), FnRange: uint8(1)}, {FiCode: uint16(398), Fflags: uint8(32), FnRange: uint8(1)},
{FiCode: uint16(399), Fflags: uint8(38), FnRange: uint8(1)}, {FiCode: uint16(400), Fflags: uint8(40), FnRange: uint8(1)}, {FiCode: uint16(401), FnRange: uint8(1)},
{FiCode: uint16(403), Fflags: uint8(42), FnRange: uint8(1)}, {FiCode: uint16(404), Fflags: uint8(46), FnRange: uint8(1)}, {FiCode: uint16(406), Fflags: uint8(52), FnRange: uint8(1)},
{FiCode: uint16(407), Fflags: uint8(48), FnRange: uint8(1)}, {FiCode: uint16(408), FnRange: uint8(1)}, {FiCode: uint16(412), Fflags: uint8(52), FnRange: uint8(1)},
{FiCode: uint16(413), Fflags: uint8(54), FnRange: uint8(1)}, {FiCode: uint16(415), Fflags: uint8(56), FnRange: uint8(1)}, {FiCode: uint16(416), Fflags: uint8(1), FnRange: uint8(6)},
{FiCode: uint16(422), Fflags: uint8(60), FnRange: uint8(1)}, {FiCode: uint16(423), FnRange: uint8(1)}, {FiCode: uint16(425), Fflags: uint8(60), FnRange: uint8(1)},
{FiCode: uint16(428), FnRange: uint8(1)}, {FiCode: uint16(430), Fflags: uint8(60), FnRange: uint8(1)}, {FiCode: uint16(431), FnRange: uint8(1)},
{FiCode: uint16(433), Fflags: uint8(58), FnRange: uint8(2)}, {FiCode: uint16(435), Fflags: uint8(1), FnRange: uint8(4)}, {FiCode: uint16(439), Fflags: uint8(62), FnRange: uint8(1)},
{FiCode: uint16(440), FnRange: uint8(1)}, {FiCode: uint16(444), FnRange: uint8(1)}, {FiCode: uint16(452), Fflags: uint8(2), FnRange: uint8(1)},
{FiCode: uint16(453), FnRange: uint8(1)}, {FiCode: uint16(455), Fflags: uint8(2), FnRange: uint8(1)}, {FiCode: uint16(456), FnRange: uint8(1)},
{FiCode: uint16(458), Fflags: uint8(2), FnRange: uint8(1)}, {FiCode: uint16(459), Fflags: uint8(1), FnRange: uint8(18)}, {FiCode: uint16(478), Fflags: uint8(1), FnRange: uint8(18)},
{FiCode: uint16(497), Fflags: uint8(2), FnRange: uint8(1)}, {FiCode: uint16(498), Fflags: uint8(1), FnRange: uint8(4)}, {FiCode: uint16(502), Fflags: uint8(122), FnRange: uint8(1)},
{FiCode: uint16(503), Fflags: uint8(134), FnRange: uint8(1)}, {FiCode: uint16(504), Fflags: uint8(1), FnRange: uint8(40)}, {FiCode: uint16(544), Fflags: uint8(110), FnRange: uint8(1)},
{FiCode: uint16(546), Fflags: uint8(1), FnRange: uint8(18)}, {FiCode: uint16(570), Fflags: uint8(70), FnRange: uint8(1)}, {FiCode: uint16(571), FnRange: uint8(1)},
{FiCode: uint16(573), Fflags: uint8(108), FnRange: uint8(1)}, {FiCode: uint16(574), Fflags: uint8(68), FnRange: uint8(1)}, {FiCode: uint16(577), FnRange: uint8(1)},
{FiCode: uint16(579), Fflags: uint8(106), FnRange: uint8(1)}, {FiCode: uint16(580), Fflags: uint8(28), FnRange: uint8(1)}, {FiCode: uint16(581), Fflags: uint8(30), FnRange: uint8(1)},
{FiCode: uint16(582), Fflags: uint8(1), FnRange: uint8(10)}, {FiCode: uint16(837), Fflags: uint8(36), FnRange: uint8(1)}, {FiCode: uint16(880), Fflags: uint8(1), FnRange: uint8(4)},
{FiCode: uint16(886), FnRange: uint8(1)}, {FiCode: uint16(902), Fflags: uint8(18), FnRange: uint8(1)}, {FiCode: uint16(904), Fflags: uint8(16), FnRange: uint8(3)},
{FiCode: uint16(908), Fflags: uint8(26), FnRange: uint8(1)}, {FiCode: uint16(910), Fflags: uint8(24), FnRange: uint8(2)}, {FiCode: uint16(913), Fflags: uint8(14), FnRange: uint8(17)},
{FiCode: uint16(931), Fflags: uint8(14), FnRange: uint8(9)}, {FiCode: uint16(962), FnRange: uint8(1)}, {FiCode: uint16(975), Fflags: uint8(4), FnRange: uint8(1)},
{FiCode: uint16(976), Fflags: uint8(140), FnRange: uint8(1)}, {FiCode: uint16(977), Fflags: uint8(142), FnRange: uint8(1)}, {FiCode: uint16(981), Fflags: uint8(146), FnRange: uint8(1)},
{FiCode: uint16(982), Fflags: uint8(144), FnRange: uint8(1)}, {FiCode: uint16(984), Fflags: uint8(1), FnRange: uint8(24)}, {FiCode: uint16(1008), Fflags: uint8(136), FnRange: uint8(1)},
{FiCode: uint16(1009), Fflags: uint8(138), FnRange: uint8(1)}, {FiCode: uint16(1012), Fflags: uint8(130), FnRange: uint8(1)}, {FiCode: uint16(1013), Fflags: uint8(128), FnRange: uint8(1)},
{FiCode: uint16(1015), FnRange: uint8(1)}, {FiCode: uint16(1017), Fflags: uint8(152), FnRange: uint8(1)}, {FiCode: uint16(1018), FnRange: uint8(1)},
{FiCode: uint16(1021), Fflags: uint8(110), FnRange: uint8(3)}, {FiCode: uint16(1024), Fflags: uint8(34), FnRange: uint8(16)}, {FiCode: uint16(1040), Fflags: uint8(14), FnRange: uint8(32)},
{FiCode: uint16(1120), Fflags: uint8(1), FnRange: uint8(34)}, {FiCode: uint16(1162), Fflags: uint8(1), FnRange: uint8(54)}, {FiCode: uint16(1216), Fflags: uint8(6), FnRange: uint8(1)},
{FiCode: uint16(1217), Fflags: uint8(1), FnRange: uint8(14)}, {FiCode: uint16(1232), Fflags: uint8(1), FnRange: uint8(88)}, {FiCode: uint16(1329), Fflags: uint8(22), FnRange: uint8(38)},
{FiCode: uint16(4256), Fflags: uint8(66), FnRange: uint8(38)}, {FiCode: uint16(4295), Fflags: uint8(66), FnRange: uint8(1)}, {FiCode: uint16(4301), Fflags: uint8(66), FnRange: uint8(1)},
{FiCode: uint16(7680), Fflags: uint8(1), FnRange: uint8(150)}, {FiCode: uint16(7835), Fflags: uint8(132), FnRange: uint8(1)}, {FiCode: uint16(7838), Fflags: uint8(96), FnRange: uint8(1)},
{FiCode: uint16(7840), Fflags: uint8(1), FnRange: uint8(96)}, {FiCode: uint16(7944), Fflags: uint8(150), FnRange: uint8(8)}, {FiCode: uint16(7960), Fflags: uint8(150), FnRange: uint8(6)},
{FiCode: uint16(7976), Fflags: uint8(150), FnRange: uint8(8)}, {FiCode: uint16(7992), Fflags: uint8(150), FnRange: uint8(8)}, {FiCode: uint16(8008), Fflags: uint8(150), FnRange: uint8(6)},
{FiCode: uint16(8025), Fflags: uint8(151), FnRange: uint8(8)}, {FiCode: uint16(8040), Fflags: uint8(150), FnRange: uint8(8)}, {FiCode: uint16(8072), Fflags: uint8(150), FnRange: uint8(8)},
{FiCode: uint16(8088), Fflags: uint8(150), FnRange: uint8(8)}, {FiCode: uint16(8104), Fflags: uint8(150), FnRange: uint8(8)}, {FiCode: uint16(8120), Fflags: uint8(150), FnRange: uint8(2)},
{FiCode: uint16(8122), Fflags: uint8(126), FnRange: uint8(2)}, {FiCode: uint16(8124), Fflags: uint8(148), FnRange: uint8(1)}, {FiCode: uint16(8126), Fflags: uint8(100), FnRange: uint8(1)},
{FiCode: uint16(8136), Fflags: uint8(124), FnRange: uint8(4)}, {FiCode: uint16(8140), Fflags: uint8(148), FnRange: uint8(1)}, {FiCode: uint16(8152), Fflags: uint8(150), FnRange: uint8(2)},
{FiCode: uint16(8154), Fflags: uint8(120), FnRange: uint8(2)}, {FiCode: uint16(8168), Fflags: uint8(150), FnRange: uint8(2)}, {FiCode: uint16(8170), Fflags: uint8(118), FnRange: uint8(2)},
{FiCode: uint16(8172), Fflags: uint8(152), FnRange: uint8(1)}, {FiCode: uint16(8184), Fflags: uint8(112), FnRange: uint8(2)}, {FiCode: uint16(8186), Fflags: uint8(114), FnRange: uint8(2)},
{FiCode: uint16(8188), Fflags: uint8(148), FnRange: uint8(1)}, {FiCode: uint16(8486), Fflags: uint8(98), FnRange: uint8(1)}, {FiCode: uint16(8490), Fflags: uint8(92), FnRange: uint8(1)},
{FiCode: uint16(8491), Fflags: uint8(94), FnRange: uint8(1)}, {FiCode: uint16(8498), Fflags: uint8(12), FnRange: uint8(1)}, {FiCode: uint16(8544), Fflags: uint8(8), FnRange: uint8(16)},
{FiCode: uint16(8579), FnRange: uint8(1)}, {FiCode: uint16(9398), Fflags: uint8(10), FnRange: uint8(26)}, {FiCode: uint16(11264), Fflags: uint8(22), FnRange: uint8(47)},
{FiCode: uint16(11360), FnRange: uint8(1)}, {FiCode: uint16(11362), Fflags: uint8(88), FnRange: uint8(1)}, {FiCode: uint16(11363), Fflags: uint8(102), FnRange: uint8(1)},
{FiCode: uint16(11364), Fflags: uint8(90), FnRange: uint8(1)}, {FiCode: uint16(11367), Fflags: uint8(1), FnRange: uint8(6)}, {FiCode: uint16(11373), Fflags: uint8(84), FnRange: uint8(1)},
{FiCode: uint16(11374), Fflags: uint8(86), FnRange: uint8(1)}, {FiCode: uint16(11375), Fflags: uint8(80), FnRange: uint8(1)}, {FiCode: uint16(11376), Fflags: uint8(82), FnRange: uint8(1)},
{FiCode: uint16(11378), FnRange: uint8(1)}, {FiCode: uint16(11381), FnRange: uint8(1)}, {FiCode: uint16(11390), Fflags: uint8(78), FnRange: uint8(2)},
{FiCode: uint16(11392), Fflags: uint8(1), FnRange: uint8(100)}, {FiCode: uint16(11499), Fflags: uint8(1), FnRange: uint8(4)}, {FiCode: uint16(11506), FnRange: uint8(1)},
{FiCode: uint16(42560), Fflags: uint8(1), FnRange: uint8(46)}, {FiCode: uint16(42624), Fflags: uint8(1), FnRange: uint8(24)}, {FiCode: uint16(42786), Fflags: uint8(1), FnRange: uint8(14)},
{FiCode: uint16(42802), Fflags: uint8(1), FnRange: uint8(62)}, {FiCode: uint16(42873), Fflags: uint8(1), FnRange: uint8(4)}, {FiCode: uint16(42877), Fflags: uint8(76), FnRange: uint8(1)},
{FiCode: uint16(42878), Fflags: uint8(1), FnRange: uint8(10)}, {FiCode: uint16(42891), FnRange: uint8(1)}, {FiCode: uint16(42893), Fflags: uint8(74), FnRange: uint8(1)},
{FiCode: uint16(42896), Fflags: uint8(1), FnRange: uint8(4)}, {FiCode: uint16(42912), Fflags: uint8(1), FnRange: uint8(10)}, {FiCode: uint16(42922), Fflags: uint8(72), FnRange: uint8(1)},
{FiCode: uint16(65313), Fflags: uint8(14), FnRange: uint8(26)},
}
var aiOff = [77]uint16{
uint16(1), uint16(2), uint16(8), uint16(15), uint16(16), uint16(26), uint16(28), uint16(32),
uint16(37), uint16(38), uint16(40), uint16(48), uint16(63), uint16(64), uint16(69), uint16(71),
uint16(79), uint16(80), uint16(116), uint16(202), uint16(203), uint16(205), uint16(206), uint16(207),
uint16(209), uint16(210), uint16(211), uint16(213), uint16(214), uint16(217), uint16(218), uint16(219),
uint16(775), uint16(7264), uint16(10792), uint16(10795), uint16(23228), uint16(23256), uint16(30204), uint16(54721),
uint16(54753), uint16(54754), uint16(54756), uint16(54787), uint16(54793), uint16(54809), uint16(57153), uint16(57274),
uint16(57921), uint16(58019), uint16(58363), uint16(61722), uint16(65268), uint16(65341), uint16(65373), uint16(65406),
uint16(65408), uint16(65410), uint16(65415), uint16(65424), uint16(65436), uint16(65439), uint16(65450), uint16(65462),
uint16(65472), uint16(65476), uint16(65478), uint16(65480), uint16(65482), uint16(65488), uint16(65506), uint16(65511),
uint16(65514), uint16(65521), uint16(65527), uint16(65528), uint16(65529),
}
func sqlite3Fts5UnicodeCatParse(tls *libc.TLS, zCat uintptr, aArray uintptr) int32 {
*(*U8)(unsafe.Pointer(aArray)) = U8(1)
switch int32(*(*int8)(unsafe.Pointer(zCat))) {
case 'C':
switch int32(*(*int8)(unsafe.Pointer(zCat + 1))) {
case 'c':
*(*U8)(unsafe.Pointer(aArray + 1)) = U8(1)
break
case 'f':
*(*U8)(unsafe.Pointer(aArray + 2)) = U8(1)
break
case 'n':
*(*U8)(unsafe.Pointer(aArray + 3)) = U8(1)
break
case 's':
*(*U8)(unsafe.Pointer(aArray + 4)) = U8(1)
break
case 'o':
*(*U8)(unsafe.Pointer(aArray + 31)) = U8(1)
break
case '*':
*(*U8)(unsafe.Pointer(aArray + 1)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 2)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 3)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 4)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 31)) = U8(1)
break
default:
return 1
}
break
case 'L':
switch int32(*(*int8)(unsafe.Pointer(zCat + 1))) {
case 'l':
*(*U8)(unsafe.Pointer(aArray + 5)) = U8(1)
break
case 'm':
*(*U8)(unsafe.Pointer(aArray + 6)) = U8(1)
break
case 'o':
*(*U8)(unsafe.Pointer(aArray + 7)) = U8(1)
break
case 't':
*(*U8)(unsafe.Pointer(aArray + 8)) = U8(1)
break
case 'u':
*(*U8)(unsafe.Pointer(aArray + 9)) = U8(1)
break
case 'C':
*(*U8)(unsafe.Pointer(aArray + 30)) = U8(1)
break
case '*':
*(*U8)(unsafe.Pointer(aArray + 5)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 6)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 7)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 8)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 9)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 30)) = U8(1)
break
default:
return 1
}
break
case 'M':
switch int32(*(*int8)(unsafe.Pointer(zCat + 1))) {
case 'c':
*(*U8)(unsafe.Pointer(aArray + 10)) = U8(1)
break
case 'e':
*(*U8)(unsafe.Pointer(aArray + 11)) = U8(1)
break
case 'n':
*(*U8)(unsafe.Pointer(aArray + 12)) = U8(1)
break
case '*':
*(*U8)(unsafe.Pointer(aArray + 10)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 11)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 12)) = U8(1)
break
default:
return 1
}
break
case 'N':
switch int32(*(*int8)(unsafe.Pointer(zCat + 1))) {
case 'd':
*(*U8)(unsafe.Pointer(aArray + 13)) = U8(1)
break
case 'l':
*(*U8)(unsafe.Pointer(aArray + 14)) = U8(1)
break
case 'o':
*(*U8)(unsafe.Pointer(aArray + 15)) = U8(1)
break
case '*':
*(*U8)(unsafe.Pointer(aArray + 13)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 14)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 15)) = U8(1)
break
default:
return 1
}
break
case 'P':
switch int32(*(*int8)(unsafe.Pointer(zCat + 1))) {
case 'c':
*(*U8)(unsafe.Pointer(aArray + 16)) = U8(1)
break
case 'd':
*(*U8)(unsafe.Pointer(aArray + 17)) = U8(1)
break
case 'e':
*(*U8)(unsafe.Pointer(aArray + 18)) = U8(1)
break
case 'f':
*(*U8)(unsafe.Pointer(aArray + 19)) = U8(1)
break
case 'i':
*(*U8)(unsafe.Pointer(aArray + 20)) = U8(1)
break
case 'o':
*(*U8)(unsafe.Pointer(aArray + 21)) = U8(1)
break
case 's':
*(*U8)(unsafe.Pointer(aArray + 22)) = U8(1)
break
case '*':
*(*U8)(unsafe.Pointer(aArray + 16)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 17)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 18)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 19)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 20)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 21)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 22)) = U8(1)
break
default:
return 1
}
break
case 'S':
switch int32(*(*int8)(unsafe.Pointer(zCat + 1))) {
case 'c':
*(*U8)(unsafe.Pointer(aArray + 23)) = U8(1)
break
case 'k':
*(*U8)(unsafe.Pointer(aArray + 24)) = U8(1)
break
case 'm':
*(*U8)(unsafe.Pointer(aArray + 25)) = U8(1)
break
case 'o':
*(*U8)(unsafe.Pointer(aArray + 26)) = U8(1)
break
case '*':
*(*U8)(unsafe.Pointer(aArray + 23)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 24)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 25)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 26)) = U8(1)
break
default:
return 1
}
break
case 'Z':
switch int32(*(*int8)(unsafe.Pointer(zCat + 1))) {
case 'l':
*(*U8)(unsafe.Pointer(aArray + 27)) = U8(1)
break
case 'p':
*(*U8)(unsafe.Pointer(aArray + 28)) = U8(1)
break
case 's':
*(*U8)(unsafe.Pointer(aArray + 29)) = U8(1)
break
case '*':
*(*U8)(unsafe.Pointer(aArray + 27)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 28)) = U8(1)
*(*U8)(unsafe.Pointer(aArray + 29)) = U8(1)
break
default:
return 1
}
break
}
return 0
}
var aFts5UnicodeBlock = [17]U16{
U16(0), U16(1471), U16(1753), U16(1760), U16(1760), U16(1760), U16(1760), U16(1760), U16(1760), U16(1760),
U16(1760), U16(1760), U16(1760), U16(1760), U16(1760), U16(1763), U16(1765),
}
var aFts5UnicodeMap = [1765]U16{
U16(0), U16(32), U16(33), U16(36), U16(37), U16(40), U16(41), U16(42), U16(43), U16(44),
U16(45), U16(46), U16(48), U16(58), U16(60), U16(63), U16(65), U16(91), U16(92), U16(93),
U16(94), U16(95), U16(96), U16(97), U16(123), U16(124), U16(125), U16(126), U16(127), U16(160),
U16(161), U16(162), U16(166), U16(167), U16(168), U16(169), U16(170), U16(171), U16(172), U16(173),
U16(174), U16(175), U16(176), U16(177), U16(178), U16(180), U16(181), U16(182), U16(184), U16(185),
U16(186), U16(187), U16(188), U16(191), U16(192), U16(215), U16(216), U16(223), U16(247), U16(248),
U16(256), U16(312), U16(313), U16(329), U16(330), U16(377), U16(383), U16(385), U16(387), U16(388),
U16(391), U16(394), U16(396), U16(398), U16(402), U16(403), U16(405), U16(406), U16(409), U16(412),
U16(414), U16(415), U16(417), U16(418), U16(423), U16(427), U16(428), U16(431), U16(434), U16(436),
U16(437), U16(440), U16(442), U16(443), U16(444), U16(446), U16(448), U16(452), U16(453), U16(454),
U16(455), U16(456), U16(457), U16(458), U16(459), U16(460), U16(461), U16(477), U16(478), U16(496),
U16(497), U16(498), U16(499), U16(500), U16(503), U16(505), U16(506), U16(564), U16(570), U16(572),
U16(573), U16(575), U16(577), U16(580), U16(583), U16(584), U16(592), U16(660), U16(661), U16(688),
U16(706), U16(710), U16(722), U16(736), U16(741), U16(748), U16(749), U16(750), U16(751), U16(768),
U16(880), U16(884), U16(885), U16(886), U16(890), U16(891), U16(894), U16(900), U16(902), U16(903),
U16(904), U16(908), U16(910), U16(912), U16(913), U16(931), U16(940), U16(975), U16(977), U16(978),
U16(981), U16(984), U16(1008), U16(1012), U16(1014), U16(1015), U16(1018), U16(1020), U16(1021), U16(1072),
U16(1120), U16(1154), U16(1155), U16(1160), U16(1162), U16(1217), U16(1231), U16(1232), U16(1329), U16(1369),
U16(1370), U16(1377), U16(1417), U16(1418), U16(1423), U16(1425), U16(1470), U16(1471), U16(1472), U16(1473),
U16(1475), U16(1476), U16(1478), U16(1479), U16(1488), U16(1520), U16(1523), U16(1536), U16(1542), U16(1545),
U16(1547), U16(1548), U16(1550), U16(1552), U16(1563), U16(1566), U16(1568), U16(1600), U16(1601), U16(1611),
U16(1632), U16(1642), U16(1646), U16(1648), U16(1649), U16(1748), U16(1749), U16(1750), U16(1757), U16(1758),
U16(1759), U16(1765), U16(1767), U16(1769), U16(1770), U16(1774), U16(1776), U16(1786), U16(1789), U16(1791),
U16(1792), U16(1807), U16(1808), U16(1809), U16(1810), U16(1840), U16(1869), U16(1958), U16(1969), U16(1984),
U16(1994), U16(2027), U16(2036), U16(2038), U16(2039), U16(2042), U16(2048), U16(2070), U16(2074), U16(2075),
U16(2084), U16(2085), U16(2088), U16(2089), U16(2096), U16(2112), U16(2137), U16(2142), U16(2208), U16(2210),
U16(2276), U16(2304), U16(2307), U16(2308), U16(2362), U16(2363), U16(2364), U16(2365), U16(2366), U16(2369),
U16(2377), U16(2381), U16(2382), U16(2384), U16(2385), U16(2392), U16(2402), U16(2404), U16(2406), U16(2416),
U16(2417), U16(2418), U16(2425), U16(2433), U16(2434), U16(2437), U16(2447), U16(2451), U16(2474), U16(2482),
U16(2486), U16(2492), U16(2493), U16(2494), U16(2497), U16(2503), U16(2507), U16(2509), U16(2510), U16(2519),
U16(2524), U16(2527), U16(2530), U16(2534), U16(2544), U16(2546), U16(2548), U16(2554), U16(2555), U16(2561),
U16(2563), U16(2565), U16(2575), U16(2579), U16(2602), U16(2610), U16(2613), U16(2616), U16(2620), U16(2622),
U16(2625), U16(2631), U16(2635), U16(2641), U16(2649), U16(2654), U16(2662), U16(2672), U16(2674), U16(2677),
U16(2689), U16(2691), U16(2693), U16(2703), U16(2707), U16(2730), U16(2738), U16(2741), U16(2748), U16(2749),
U16(2750), U16(2753), U16(2759), U16(2761), U16(2763), U16(2765), U16(2768), U16(2784), U16(2786), U16(2790),
U16(2800), U16(2801), U16(2817), U16(2818), U16(2821), U16(2831), U16(2835), U16(2858), U16(2866), U16(2869),
U16(2876), U16(2877), U16(2878), U16(2879), U16(2880), U16(2881), U16(2887), U16(2891), U16(2893), U16(2902),
U16(2903), U16(2908), U16(2911), U16(2914), U16(2918), U16(2928), U16(2929), U16(2930), U16(2946), U16(2947),
U16(2949), U16(2958), U16(2962), U16(2969), U16(2972), U16(2974), U16(2979), U16(2984), U16(2990), U16(3006),
U16(3008), U16(3009), U16(3014), U16(3018), U16(3021), U16(3024), U16(3031), U16(3046), U16(3056), U16(3059),
U16(3065), U16(3066), U16(3073), U16(3077), U16(3086), U16(3090), U16(3114), U16(3125), U16(3133), U16(3134),
U16(3137), U16(3142), U16(3146), U16(3157), U16(3160), U16(3168), U16(3170), U16(3174), U16(3192), U16(3199),
U16(3202), U16(3205), U16(3214), U16(3218), U16(3242), U16(3253), U16(3260), U16(3261), U16(3262), U16(3263),
U16(3264), U16(3270), U16(3271), U16(3274), U16(3276), U16(3285), U16(3294), U16(3296), U16(3298), U16(3302),
U16(3313), U16(3330), U16(3333), U16(3342), U16(3346), U16(3389), U16(3390), U16(3393), U16(3398), U16(3402),
U16(3405), U16(3406), U16(3415), U16(3424), U16(3426), U16(3430), U16(3440), U16(3449), U16(3450), U16(3458),
U16(3461), U16(3482), U16(3507), U16(3517), U16(3520), U16(3530), U16(3535), U16(3538), U16(3542), U16(3544),
U16(3570), U16(3572), U16(3585), U16(3633), U16(3634), U16(3636), U16(3647), U16(3648), U16(3654), U16(3655),
U16(3663), U16(3664), U16(3674), U16(3713), U16(3716), U16(3719), U16(3722), U16(3725), U16(3732), U16(3737),
U16(3745), U16(3749), U16(3751), U16(3754), U16(3757), U16(3761), U16(3762), U16(3764), U16(3771), U16(3773),
U16(3776), U16(3782), U16(3784), U16(3792), U16(3804), U16(3840), U16(3841), U16(3844), U16(3859), U16(3860),
U16(3861), U16(3864), U16(3866), U16(3872), U16(3882), U16(3892), U16(3893), U16(3894), U16(3895), U16(3896),
U16(3897), U16(3898), U16(3899), U16(3900), U16(3901), U16(3902), U16(3904), U16(3913), U16(3953), U16(3967),
U16(3968), U16(3973), U16(3974), U16(3976), U16(3981), U16(3993), U16(4030), U16(4038), U16(4039), U16(4046),
U16(4048), U16(4053), U16(4057), U16(4096), U16(4139), U16(4141), U16(4145), U16(4146), U16(4152), U16(4153),
U16(4155), U16(4157), U16(4159), U16(4160), U16(4170), U16(4176), U16(4182), U16(4184), U16(4186), U16(4190),
U16(4193), U16(4194), U16(4197), U16(4199), U16(4206), U16(4209), U16(4213), U16(4226), U16(4227), U16(4229),
U16(4231), U16(4237), U16(4238), U16(4239), U16(4240), U16(4250), U16(4253), U16(4254), U16(4256), U16(4295),
U16(4301), U16(4304), U16(4347), U16(4348), U16(4349), U16(4682), U16(4688), U16(4696), U16(4698), U16(4704),
U16(4746), U16(4752), U16(4786), U16(4792), U16(4800), U16(4802), U16(4808), U16(4824), U16(4882), U16(4888),
U16(4957), U16(4960), U16(4969), U16(4992), U16(5008), U16(5024), U16(5120), U16(5121), U16(5741), U16(5743),
U16(5760), U16(5761), U16(5787), U16(5788), U16(5792), U16(5867), U16(5870), U16(5888), U16(5902), U16(5906),
U16(5920), U16(5938), U16(5941), U16(5952), U16(5970), U16(5984), U16(5998), U16(6002), U16(6016), U16(6068),
U16(6070), U16(6071), U16(6078), U16(6086), U16(6087), U16(6089), U16(6100), U16(6103), U16(6104), U16(6107),
U16(6108), U16(6109), U16(6112), U16(6128), U16(6144), U16(6150), U16(6151), U16(6155), U16(6158), U16(6160),
U16(6176), U16(6211), U16(6212), U16(6272), U16(6313), U16(6314), U16(6320), U16(6400), U16(6432), U16(6435),
U16(6439), U16(6441), U16(6448), U16(6450), U16(6451), U16(6457), U16(6464), U16(6468), U16(6470), U16(6480),
U16(6512), U16(6528), U16(6576), U16(6593), U16(6600), U16(6608), U16(6618), U16(6622), U16(6656), U16(6679),
U16(6681), U16(6686), U16(6688), U16(6741), U16(6742), U16(6743), U16(6744), U16(6752), U16(6753), U16(6754),
U16(6755), U16(6757), U16(6765), U16(6771), U16(6783), U16(6784), U16(6800), U16(6816), U16(6823), U16(6824),
U16(6912), U16(6916), U16(6917), U16(6964), U16(6965), U16(6966), U16(6971), U16(6972), U16(6973), U16(6978),
U16(6979), U16(6981), U16(6992), U16(7002), U16(7009), U16(7019), U16(7028), U16(7040), U16(7042), U16(7043),
U16(7073), U16(7074), U16(7078), U16(7080), U16(7082), U16(7083), U16(7084), U16(7086), U16(7088), U16(7098),
U16(7142), U16(7143), U16(7144), U16(7146), U16(7149), U16(7150), U16(7151), U16(7154), U16(7164), U16(7168),
U16(7204), U16(7212), U16(7220), U16(7222), U16(7227), U16(7232), U16(7245), U16(7248), U16(7258), U16(7288),
U16(7294), U16(7360), U16(7376), U16(7379), U16(7380), U16(7393), U16(7394), U16(7401), U16(7405), U16(7406),
U16(7410), U16(7412), U16(7413), U16(7424), U16(7468), U16(7531), U16(7544), U16(7545), U16(7579), U16(7616),
U16(7676), U16(7680), U16(7830), U16(7838), U16(7936), U16(7944), U16(7952), U16(7960), U16(7968), U16(7976),
U16(7984), U16(7992), U16(8000), U16(8008), U16(8016), U16(8025), U16(8027), U16(8029), U16(8031), U16(8033),
U16(8040), U16(8048), U16(8064), U16(8072), U16(8080), U16(8088), U16(8096), U16(8104), U16(8112), U16(8118),
U16(8120), U16(8124), U16(8125), U16(8126), U16(8127), U16(8130), U16(8134), U16(8136), U16(8140), U16(8141),
U16(8144), U16(8150), U16(8152), U16(8157), U16(8160), U16(8168), U16(8173), U16(8178), U16(8182), U16(8184),
U16(8188), U16(8189), U16(8192), U16(8203), U16(8208), U16(8214), U16(8216), U16(8217), U16(8218), U16(8219),
U16(8221), U16(8222), U16(8223), U16(8224), U16(8232), U16(8233), U16(8234), U16(8239), U16(8240), U16(8249),
U16(8250), U16(8251), U16(8255), U16(8257), U16(8260), U16(8261), U16(8262), U16(8263), U16(8274), U16(8275),
U16(8276), U16(8277), U16(8287), U16(8288), U16(8298), U16(8304), U16(8305), U16(8308), U16(8314), U16(8317),
U16(8318), U16(8319), U16(8320), U16(8330), U16(8333), U16(8334), U16(8336), U16(8352), U16(8400), U16(8413),
U16(8417), U16(8418), U16(8421), U16(8448), U16(8450), U16(8451), U16(8455), U16(8456), U16(8458), U16(8459),
U16(8462), U16(8464), U16(8467), U16(8468), U16(8469), U16(8470), U16(8472), U16(8473), U16(8478), U16(8484),
U16(8485), U16(8486), U16(8487), U16(8488), U16(8489), U16(8490), U16(8494), U16(8495), U16(8496), U16(8500),
U16(8501), U16(8505), U16(8506), U16(8508), U16(8510), U16(8512), U16(8517), U16(8519), U16(8522), U16(8523),
U16(8524), U16(8526), U16(8527), U16(8528), U16(8544), U16(8579), U16(8581), U16(8585), U16(8592), U16(8597),
U16(8602), U16(8604), U16(8608), U16(8609), U16(8611), U16(8612), U16(8614), U16(8615), U16(8622), U16(8623),
U16(8654), U16(8656), U16(8658), U16(8659), U16(8660), U16(8661), U16(8692), U16(8960), U16(8968), U16(8972),
U16(8992), U16(8994), U16(9001), U16(9002), U16(9003), U16(9084), U16(9085), U16(9115), U16(9140), U16(9180),
U16(9186), U16(9216), U16(9280), U16(9312), U16(9372), U16(9450), U16(9472), U16(9655), U16(9656), U16(9665),
U16(9666), U16(9720), U16(9728), U16(9839), U16(9840), U16(9985), U16(10088), U16(10089), U16(10090), U16(10091),
U16(10092), U16(10093), U16(10094), U16(10095), U16(10096), U16(10097), U16(10098), U16(10099), U16(10100), U16(10101),
U16(10102), U16(10132), U16(10176), U16(10181), U16(10182), U16(10183), U16(10214), U16(10215), U16(10216), U16(10217),
U16(10218), U16(10219), U16(10220), U16(10221), U16(10222), U16(10223), U16(10224), U16(10240), U16(10496), U16(10627),
U16(10628), U16(10629), U16(10630), U16(10631), U16(10632), U16(10633), U16(10634), U16(10635), U16(10636), U16(10637),
U16(10638), U16(10639), U16(10640), U16(10641), U16(10642), U16(10643), U16(10644), U16(10645), U16(10646), U16(10647),
U16(10648), U16(10649), U16(10712), U16(10713), U16(10714), U16(10715), U16(10716), U16(10748), U16(10749), U16(10750),
U16(11008), U16(11056), U16(11077), U16(11079), U16(11088), U16(11264), U16(11312), U16(11360), U16(11363), U16(11365),
U16(11367), U16(11374), U16(11377), U16(11378), U16(11380), U16(11381), U16(11383), U16(11388), U16(11390), U16(11393),
U16(11394), U16(11492), U16(11493), U16(11499), U16(11503), U16(11506), U16(11513), U16(11517), U16(11518), U16(11520),
U16(11559), U16(11565), U16(11568), U16(11631), U16(11632), U16(11647), U16(11648), U16(11680), U16(11688), U16(11696),
U16(11704), U16(11712), U16(11720), U16(11728), U16(11736), U16(11744), U16(11776), U16(11778), U16(11779), U16(11780),
U16(11781), U16(11782), U16(11785), U16(11786), U16(11787), U16(11788), U16(11789), U16(11790), U16(11799), U16(11800),
U16(11802), U16(11803), U16(11804), U16(11805), U16(11806), U16(11808), U16(11809), U16(11810), U16(11811), U16(11812),
U16(11813), U16(11814), U16(11815), U16(11816), U16(11817), U16(11818), U16(11823), U16(11824), U16(11834), U16(11904),
U16(11931), U16(12032), U16(12272), U16(12288), U16(12289), U16(12292), U16(12293), U16(12294), U16(12295), U16(12296),
U16(12297), U16(12298), U16(12299), U16(12300), U16(12301), U16(12302), U16(12303), U16(12304), U16(12305), U16(12306),
U16(12308), U16(12309), U16(12310), U16(12311), U16(12312), U16(12313), U16(12314), U16(12315), U16(12316), U16(12317),
U16(12318), U16(12320), U16(12321), U16(12330), U16(12334), U16(12336), U16(12337), U16(12342), U16(12344), U16(12347),
U16(12348), U16(12349), U16(12350), U16(12353), U16(12441), U16(12443), U16(12445), U16(12447), U16(12448), U16(12449),
U16(12539), U16(12540), U16(12543), U16(12549), U16(12593), U16(12688), U16(12690), U16(12694), U16(12704), U16(12736),
U16(12784), U16(12800), U16(12832), U16(12842), U16(12872), U16(12880), U16(12881), U16(12896), U16(12928), U16(12938),
U16(12977), U16(12992), U16(13056), U16(13312), U16(19893), U16(19904), U16(19968), U16(40908), U16(40960), U16(40981),
U16(40982), U16(42128), U16(42192), U16(42232), U16(42238), U16(42240), U16(42508), U16(42509), U16(42512), U16(42528),
U16(42538), U16(42560), U16(42606), U16(42607), U16(42608), U16(42611), U16(42612), U16(42622), U16(42623), U16(42624),
U16(42655), U16(42656), U16(42726), U16(42736), U16(42738), U16(42752), U16(42775), U16(42784), U16(42786), U16(42800),
U16(42802), U16(42864), U16(42865), U16(42873), U16(42878), U16(42888), U16(42889), U16(42891), U16(42896), U16(42912),
U16(43000), U16(43002), U16(43003), U16(43010), U16(43011), U16(43014), U16(43015), U16(43019), U16(43020), U16(43043),
U16(43045), U16(43047), U16(43048), U16(43056), U16(43062), U16(43064), U16(43065), U16(43072), U16(43124), U16(43136),
U16(43138), U16(43188), U16(43204), U16(43214), U16(43216), U16(43232), U16(43250), U16(43256), U16(43259), U16(43264),
U16(43274), U16(43302), U16(43310), U16(43312), U16(43335), U16(43346), U16(43359), U16(43360), U16(43392), U16(43395),
U16(43396), U16(43443), U16(43444), U16(43446), U16(43450), U16(43452), U16(43453), U16(43457), U16(43471), U16(43472),
U16(43486), U16(43520), U16(43561), U16(43567), U16(43569), U16(43571), U16(43573), U16(43584), U16(43587), U16(43588),
U16(43596), U16(43597), U16(43600), U16(43612), U16(43616), U16(43632), U16(43633), U16(43639), U16(43642), U16(43643),
U16(43648), U16(43696), U16(43697), U16(43698), U16(43701), U16(43703), U16(43705), U16(43710), U16(43712), U16(43713),
U16(43714), U16(43739), U16(43741), U16(43742), U16(43744), U16(43755), U16(43756), U16(43758), U16(43760), U16(43762),
U16(43763), U16(43765), U16(43766), U16(43777), U16(43785), U16(43793), U16(43808), U16(43816), U16(43968), U16(44003),
U16(44005), U16(44006), U16(44008), U16(44009), U16(44011), U16(44012), U16(44013), U16(44016), U16(44032), U16(55203),
U16(55216), U16(55243), U16(55296), U16(56191), U16(56319), U16(57343), U16(57344), U16(63743), U16(63744), U16(64112),
U16(64256), U16(64275), U16(64285), U16(64286), U16(64287), U16(64297), U16(64298), U16(64312), U16(64318), U16(64320),
U16(64323), U16(64326), U16(64434), U16(64467), U16(64830), U16(64831), U16(64848), U16(64914), U16(65008), U16(65020),
U16(65021), U16(65024), U16(65040), U16(65047), U16(65048), U16(65049), U16(65056), U16(65072), U16(65073), U16(65075),
U16(65077), U16(65078), U16(65079), U16(65080), U16(65081), U16(65082), U16(65083), U16(65084), U16(65085), U16(65086),
U16(65087), U16(65088), U16(65089), U16(65090), U16(65091), U16(65092), U16(65093), U16(65095), U16(65096), U16(65097),
U16(65101), U16(65104), U16(65108), U16(65112), U16(65113), U16(65114), U16(65115), U16(65116), U16(65117), U16(65118),
U16(65119), U16(65122), U16(65123), U16(65124), U16(65128), U16(65129), U16(65130), U16(65136), U16(65142), U16(65279),
U16(65281), U16(65284), U16(65285), U16(65288), U16(65289), U16(65290), U16(65291), U16(65292), U16(65293), U16(65294),
U16(65296), U16(65306), U16(65308), U16(65311), U16(65313), U16(65339), U16(65340), U16(65341), U16(65342), U16(65343),
U16(65344), U16(65345), U16(65371), U16(65372), U16(65373), U16(65374), U16(65375), U16(65376), U16(65377), U16(65378),
U16(65379), U16(65380), U16(65382), U16(65392), U16(65393), U16(65438), U16(65440), U16(65474), U16(65482), U16(65490),
U16(65498), U16(65504), U16(65506), U16(65507), U16(65508), U16(65509), U16(65512), U16(65513), U16(65517), U16(65529),
U16(65532), U16(0), U16(13), U16(40), U16(60), U16(63), U16(80), U16(128), U16(256), U16(263),
U16(311), U16(320), U16(373), U16(377), U16(394), U16(400), U16(464), U16(509), U16(640), U16(672),
U16(768), U16(800), U16(816), U16(833), U16(834), U16(842), U16(896), U16(927), U16(928), U16(968),
U16(976), U16(977), U16(1024), U16(1064), U16(1104), U16(1184), U16(2048), U16(2056), U16(2058), U16(2103),
U16(2108), U16(2111), U16(2135), U16(2136), U16(2304), U16(2326), U16(2335), U16(2336), U16(2367), U16(2432),
U16(2494), U16(2560), U16(2561), U16(2565), U16(2572), U16(2576), U16(2581), U16(2585), U16(2616), U16(2623),
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U16(2014), U16(38), U16(261), U16(190), U16(350), U16(38), U16(88), U16(158), U16(158), U16(382),
U16(70), U16(37), U16(231), U16(44), U16(103), U16(44), U16(135), U16(44), U16(743), U16(74),
U16(76), U16(42), U16(154), U16(207), U16(90), U16(55), U16(58), U16(1671), U16(149), U16(74),
U16(1607), U16(522), U16(44), U16(85), U16(333), U16(588), U16(199), U16(117), U16(39), U16(333),
U16(903), U16(268), U16(85), U16(743), U16(364), U16(74), U16(53), U16(935), U16(108), U16(42),
U16(1511), U16(44), U16(74), U16(140), U16(74), U16(44), U16(138), U16(437), U16(38), U16(333),
U16(85), U16(1319), U16(204), U16(74), U16(76), U16(74), U16(76), U16(103), U16(44), U16(263),
U16(44), U16(42), U16(333), U16(149), U16(519), U16(38), U16(199), U16(122), U16(39), U16(42),
U16(1543), U16(44), U16(39), U16(108), U16(71), U16(76), U16(167), U16(76), U16(39), U16(44),
U16(39), U16(71), U16(38), U16(85), U16(359), U16(42), U16(76), U16(74), U16(85), U16(39),
U16(70), U16(42), U16(44), U16(199), U16(199), U16(199), U16(231), U16(231), U16(1127), U16(74),
U16(44), U16(74), U16(44), U16(74), U16(53), U16(42), U16(44), U16(333), U16(39), U16(39),
U16(743), U16(1575), U16(36), U16(68), U16(68), U16(36), U16(63), U16(63), U16(11719), U16(3399),
U16(229), U16(165), U16(39), U16(44), U16(327), U16(57), U16(423), U16(167), U16(39), U16(71),
U16(71), U16(3463), U16(536), U16(11623), U16(54), U16(50), U16(2055), U16(1735), U16(391), U16(55),
U16(58), U16(524), U16(245), U16(54), U16(50), U16(53), U16(236), U16(53), U16(81), U16(80),
U16(54), U16(50), U16(54), U16(50), U16(54), U16(50), U16(54), U16(50), U16(54), U16(50),
U16(54), U16(50), U16(54), U16(50), U16(54), U16(50), U16(85), U16(54), U16(50), U16(149),
U16(112), U16(117), U16(149), U16(49), U16(54), U16(50), U16(54), U16(50), U16(54), U16(50),
U16(117), U16(57), U16(49), U16(121), U16(53), U16(55), U16(85), U16(167), U16(4327), U16(34),
U16(117), U16(55), U16(117), U16(54), U16(50), U16(53), U16(57), U16(53), U16(49), U16(85),
U16(333), U16(85), U16(121), U16(85), U16(841), U16(54), U16(53), U16(50), U16(56), U16(48),
U16(56), U16(837), U16(54), U16(57), U16(50), U16(57), U16(54), U16(50), U16(53), U16(54),
U16(50), U16(85), U16(327), U16(38), U16(1447), U16(70), U16(999), U16(199), U16(199), U16(199),
U16(103), U16(87), U16(57), U16(56), U16(58), U16(87), U16(58), U16(153), U16(90), U16(98),
U16(90), U16(391), U16(839), U16(615), U16(71), U16(487), U16(455), U16(3943), U16(117), U16(1455),
U16(314), U16(1710), U16(143), U16(570), U16(47), U16(410), U16(1466), U16(44), U16(935), U16(1575),
U16(999), U16(143), U16(551), U16(46), U16(263), U16(46), U16(967), U16(53), U16(1159), U16(263),
U16(53), U16(174), U16(1289), U16(1285), U16(2503), U16(333), U16(199), U16(39), U16(1415), U16(71),
U16(39), U16(743), U16(53), U16(271), U16(711), U16(207), U16(53), U16(839), U16(53), U16(1799),
U16(71), U16(39), U16(108), U16(76), U16(140), U16(135), U16(103), U16(871), U16(108), U16(44),
U16(271), U16(309), U16(935), U16(79), U16(53), U16(1735), U16(245), U16(711), U16(271), U16(615),
U16(271), U16(2343), U16(1007), U16(42), U16(44), U16(42), U16(1703), U16(492), U16(245), U16(655),
U16(333), U16(76), U16(42), U16(1447), U16(106), U16(140), U16(74), U16(76), U16(85), U16(34),
U16(149), U16(807), U16(333), U16(108), U16(1159), U16(172), U16(42), U16(268), U16(333), U16(149),
U16(76), U16(42), U16(1543), U16(106), U16(300), U16(74), U16(135), U16(149), U16(333), U16(1383),
U16(44), U16(42), U16(44), U16(74), U16(204), U16(42), U16(44), U16(333), U16(28135), U16(3182),
U16(149), U16(34279), U16(18215), U16(2215), U16(39), U16(1482), U16(140), U16(422), U16(71), U16(7898),
U16(1274), U16(1946), U16(74), U16(108), U16(122), U16(202), U16(258), U16(268), U16(90), U16(236),
U16(986), U16(140), U16(1562), U16(2138), U16(108), U16(58), U16(2810), U16(591), U16(841), U16(837),
U16(841), U16(229), U16(581), U16(841), U16(837), U16(41), U16(73), U16(41), U16(73), U16(137),
U16(265), U16(133), U16(37), U16(229), U16(357), U16(841), U16(837), U16(73), U16(137), U16(265),
U16(233), U16(837), U16(73), U16(137), U16(169), U16(41), U16(233), U16(837), U16(841), U16(837),
U16(841), U16(837), U16(841), U16(837), U16(841), U16(837), U16(841), U16(837), U16(841), U16(901),
U16(809), U16(57), U16(805), U16(57), U16(197), U16(809), U16(57), U16(805), U16(57), U16(197),
U16(809), U16(57), U16(805), U16(57), U16(197), U16(809), U16(57), U16(805), U16(57), U16(197),
U16(809), U16(57), U16(805), U16(57), U16(197), U16(94), U16(1613), U16(135), U16(871), U16(71),
U16(39), U16(39), U16(327), U16(135), U16(39), U16(39), U16(39), U16(39), U16(39), U16(39),
U16(103), U16(71), U16(39), U16(39), U16(39), U16(39), U16(39), U16(39), U16(71), U16(39),
U16(135), U16(231), U16(135), U16(135), U16(39), U16(327), U16(551), U16(103), U16(167), U16(551),
U16(89), U16(1434), U16(3226), U16(506), U16(474), U16(506), U16(506), U16(367), U16(1018), U16(1946),
U16(1402), U16(954), U16(1402), U16(314), U16(90), U16(1082), U16(218), U16(2266), U16(666), U16(1210),
U16(186), U16(570), U16(2042), U16(58), U16(5850), U16(154), U16(2010), U16(154), U16(794), U16(2266),
U16(378), U16(2266), U16(3738), U16(39), U16(39), U16(39), U16(39), U16(39), U16(39), U16(17351),
U16(34), U16(3074), U16(7692), U16(63), U16(63),
}
func sqlite3Fts5UnicodeCategory(tls *libc.TLS, iCode U32) int32 {
var iRes int32 = -1
var iHi int32
var iLo int32
var ret int32
var iKey U16
if iCode >= U32(int32(1)<<20) {
return 0
}
iLo = int32(aFts5UnicodeBlock[iCode>>16])
iHi = int32(aFts5UnicodeBlock[U32(1)+iCode>>16])
iKey = U16(iCode & U32(0xFFFF))
for iHi > iLo {
var iTest int32 = (iHi + iLo) / 2
if int32(iKey) >= int32(aFts5UnicodeMap[iTest]) {
iRes = iTest
iLo = iTest + 1
} else {
iHi = iTest
}
}
if iRes < 0 {
return 0
}
if int32(iKey) >= int32(aFts5UnicodeMap[iRes])+int32(aFts5UnicodeData[iRes])>>5 {
return 0
}
ret = int32(aFts5UnicodeData[iRes]) & 0x1F
if ret != 30 {
return ret
}
if (int32(iKey)-int32(aFts5UnicodeMap[iRes]))&0x01 != 0 {
return 5
}
return 9
}
func sqlite3Fts5UnicodeAscii(tls *libc.TLS, aArray uintptr, aAscii uintptr) {
var i int32 = 0
var iTbl int32 = 0
for i < 128 {
var bToken int32 = int32(*(*U8)(unsafe.Pointer(aArray + uintptr(int32(aFts5UnicodeData[iTbl])&0x1F))))
var n int32 = int32(aFts5UnicodeData[iTbl])>>5 + i
for ; i < 128 && i < n; i++ {
*(*U8)(unsafe.Pointer(aAscii + uintptr(i))) = U8(bToken)
}
iTbl++
}
*(*U8)(unsafe.Pointer(aAscii)) = U8(0)
}
func sqlite3Fts5GetVarint32(tls *libc.TLS, p uintptr, v uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
var a U32
var b U32
a = U32(*(*uint8)(unsafe.Pointer(p)))
if !(a&U32(0x80) != 0) {
*(*U32)(unsafe.Pointer(v)) = a
return 1
}
p++
b = U32(*(*uint8)(unsafe.Pointer(p)))
if !(b&U32(0x80) != 0) {
a = a & U32(0x7f)
a = a << 7
*(*U32)(unsafe.Pointer(v)) = a | b
return 2
}
p++
a = a << 14
a = a | U32(*(*uint8)(unsafe.Pointer(p)))
if !(a&U32(0x80) != 0) {
a = a & U32(int32(0x7f)<<14|0x7f)
b = b & U32(0x7f)
b = b << 7
*(*U32)(unsafe.Pointer(v)) = a | b
return 3
}
{
var n U8
p -= uintptr(2)
n = sqlite3Fts5GetVarint(tls, p, bp)
*(*U32)(unsafe.Pointer(v)) = U32(*(*U64)(unsafe.Pointer(bp))) & U32(0x7FFFFFFF)
return int32(n)
}
return int32(0)
}
func sqlite3Fts5GetVarint(tls *libc.TLS, p uintptr, v uintptr) U8 {
var a U32
var b U32
var s U32
a = U32(*(*uint8)(unsafe.Pointer(p)))
if !(a&U32(0x80) != 0) {
*(*U64)(unsafe.Pointer(v)) = U64(a)
return U8(1)
}
p++
b = U32(*(*uint8)(unsafe.Pointer(p)))
if !(b&U32(0x80) != 0) {
a = a & U32(0x7f)
a = a << 7
a = a | b
*(*U64)(unsafe.Pointer(v)) = U64(a)
return U8(2)
}
p++
a = a << 14
a = a | U32(*(*uint8)(unsafe.Pointer(p)))
if !(a&U32(0x80) != 0) {
a = a & U32(SLOT_2_0)
b = b & U32(0x7f)
b = b << 7
a = a | b
*(*U64)(unsafe.Pointer(v)) = U64(a)
return U8(3)
}
a = a & U32(SLOT_2_0)
p++
b = b << 14
b = b | U32(*(*uint8)(unsafe.Pointer(p)))
if !(b&U32(0x80) != 0) {
b = b & U32(SLOT_2_0)
a = a << 7
a = a | b
*(*U64)(unsafe.Pointer(v)) = U64(a)
return U8(4)
}
b = b & U32(SLOT_2_0)
s = a
p++
a = a << 14
a = a | U32(*(*uint8)(unsafe.Pointer(p)))
if !(a&U32(0x80) != 0) {
b = b << 7
a = a | b
s = s >> 18
*(*U64)(unsafe.Pointer(v)) = U64(s)<<32 | U64(a)
return U8(5)
}
s = s << 7
s = s | b
p++
b = b << 14
b = b | U32(*(*uint8)(unsafe.Pointer(p)))
if !(b&U32(0x80) != 0) {
a = a & U32(SLOT_2_0)
a = a << 7
a = a | b
s = s >> 18
*(*U64)(unsafe.Pointer(v)) = U64(s)<<32 | U64(a)
return U8(6)
}
p++
a = a << 14
a = a | U32(*(*uint8)(unsafe.Pointer(p)))
if !(a&U32(0x80) != 0) {
a = a & SLOT_4_2_0
b = b & U32(SLOT_2_0)
b = b << 7
a = a | b
s = s >> 11
*(*U64)(unsafe.Pointer(v)) = U64(s)<<32 | U64(a)
return U8(7)
}
a = a & U32(SLOT_2_0)
p++
b = b << 14
b = b | U32(*(*uint8)(unsafe.Pointer(p)))
if !(b&U32(0x80) != 0) {
b = b & SLOT_4_2_0
a = a << 7
a = a | b
s = s >> 4
*(*U64)(unsafe.Pointer(v)) = U64(s)<<32 | U64(a)
return U8(8)
}
p++
a = a << 15
a = a | U32(*(*uint8)(unsafe.Pointer(p)))
b = b & U32(SLOT_2_0)
b = b << 8
a = a | b
s = s << 4
b = U32(*(*uint8)(unsafe.Pointer(p + libc.UintptrFromInt32(-4))))
b = b & U32(0x7f)
b = b >> 3
s = s | b
*(*U64)(unsafe.Pointer(v)) = U64(s)<<32 | U64(a)
return U8(9)
}
func fts5PutVarint64(tls *libc.TLS, p uintptr, v U64) int32 {
bp := tls.Alloc(10)
defer tls.Free(10)
var i int32
var j int32
var n int32
if v&(uint64(0xff000000)<<32) != 0 {
*(*uint8)(unsafe.Pointer(p + 8)) = U8(v)
v >>= 8
for i = 7; i >= 0; i-- {
*(*uint8)(unsafe.Pointer(p + uintptr(i))) = U8(v&uint64(0x7f) | uint64(0x80))
v >>= 7
}
return 9
}
n = 0
for __ccgo := true; __ccgo; __ccgo = v != uint64(0) {
*(*U8)(unsafe.Pointer(bp + uintptr(libc.PostIncInt32(&n, 1)))) = U8(v&uint64(0x7f) | uint64(0x80))
v >>= 7
}
*(*U8)(unsafe.Pointer(bp)) &= U8(0x7f)
i = 0
j = n - 1
__1:
if !(j >= 0) {
goto __3
}
{
*(*uint8)(unsafe.Pointer(p + uintptr(i))) = *(*U8)(unsafe.Pointer(bp + uintptr(j)))
}
goto __2
__2:
j--
i++
goto __1
goto __3
__3:
;
return n
}
func sqlite3Fts5PutVarint(tls *libc.TLS, p uintptr, v U64) int32 {
if v <= uint64(0x7f) {
*(*uint8)(unsafe.Pointer(p)) = uint8(v & uint64(0x7f))
return 1
}
if v <= uint64(0x3fff) {
*(*uint8)(unsafe.Pointer(p)) = uint8(v>>7&uint64(0x7f) | uint64(0x80))
*(*uint8)(unsafe.Pointer(p + 1)) = uint8(v & uint64(0x7f))
return 2
}
return fts5PutVarint64(tls, p, v)
}
func sqlite3Fts5GetVarintLen(tls *libc.TLS, iVal U32) int32 {
if iVal < U32(int32(1)<<14) {
return 2
}
if iVal < U32(int32(1)<<21) {
return 3
}
if iVal < U32(int32(1)<<28) {
return 4
}
return 5
}
type Fts5VocabTable1 = struct {
Fbase Sqlite3_vtab
FzFts5Tbl uintptr
FzFts5Db uintptr
Fdb uintptr
FpGlobal uintptr
FeType int32
FbBusy uint32
}
type Fts5VocabTable = Fts5VocabTable1
type Fts5VocabCursor1 = struct {
Fbase Sqlite3_vtab_cursor
FpStmt uintptr
FpFts5 uintptr
FbEof int32
F__ccgo_pad1 [4]byte
FpIter uintptr
FpStruct uintptr
FnLeTerm int32
F__ccgo_pad2 [4]byte
FzLeTerm uintptr
FiCol int32
F__ccgo_pad3 [4]byte
FaCnt uintptr
FaDoc uintptr
Frowid I64
Fterm Fts5Buffer
FiInstPos I64
FiInstOff int32
F__ccgo_pad4 [4]byte
}
type Fts5VocabCursor = Fts5VocabCursor1
func fts5VocabTableType(tls *libc.TLS, zType uintptr, pzErr uintptr, peType uintptr) int32 {
bp := tls.Alloc(12)
defer tls.Free(12)
*(*int32)(unsafe.Pointer(bp + 8)) = SQLITE_OK
var zCopy uintptr = sqlite3Fts5Strndup(tls, bp+8, zType, -1)
if *(*int32)(unsafe.Pointer(bp + 8)) == SQLITE_OK {
sqlite3Fts5Dequote(tls, zCopy)
if Xsqlite3_stricmp(tls, zCopy, ts+37778) == 0 {
*(*int32)(unsafe.Pointer(peType)) = FTS5_VOCAB_COL
} else if Xsqlite3_stricmp(tls, zCopy, ts+37782) == 0 {
*(*int32)(unsafe.Pointer(peType)) = FTS5_VOCAB_ROW
} else if Xsqlite3_stricmp(tls, zCopy, ts+37786) == 0 {
*(*int32)(unsafe.Pointer(peType)) = FTS5_VOCAB_INSTANCE
} else {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+37795, libc.VaList(bp, zCopy))
*(*int32)(unsafe.Pointer(bp + 8)) = SQLITE_ERROR
}
Xsqlite3_free(tls, zCopy)
}
return *(*int32)(unsafe.Pointer(bp + 8))
}
func fts5VocabDisconnectMethod(tls *libc.TLS, pVtab uintptr) int32 {
var pTab uintptr = pVtab
Xsqlite3_free(tls, pTab)
return SQLITE_OK
}
func fts5VocabDestroyMethod(tls *libc.TLS, pVtab uintptr) int32 {
var pTab uintptr = pVtab
Xsqlite3_free(tls, pTab)
return SQLITE_OK
}
func fts5VocabInitVtab(tls *libc.TLS, db uintptr, pAux uintptr, argc int32, argv uintptr, ppVTab uintptr, pzErr uintptr) int32 {
bp := tls.Alloc(36)
defer tls.Free(36)
*(*[3]uintptr)(unsafe.Pointer(bp + 8)) = [3]uintptr{
ts + 37829,
ts + 37869,
ts + 37904,
}
var pRet uintptr = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 32)) = SQLITE_OK
var bDb int32
bDb = libc.Bool32(argc == 6 && libc.Xstrlen(tls, *(*uintptr)(unsafe.Pointer(argv + 1*8))) == uint64(4) && libc.Xmemcmp(tls, ts+23802, *(*uintptr)(unsafe.Pointer(argv + 1*8)), uint64(4)) == 0)
if argc != 5 && bDb == 0 {
*(*uintptr)(unsafe.Pointer(pzErr)) = Xsqlite3_mprintf(tls, ts+37947, 0)
*(*int32)(unsafe.Pointer(bp + 32)) = SQLITE_ERROR
} else {
var nByte int32
var zDb uintptr
if bDb != 0 {
zDb = *(*uintptr)(unsafe.Pointer(argv + 3*8))
} else {
zDb = *(*uintptr)(unsafe.Pointer(argv + 1*8))
}
var zTab uintptr
if bDb != 0 {
zTab = *(*uintptr)(unsafe.Pointer(argv + 4*8))
} else {
zTab = *(*uintptr)(unsafe.Pointer(argv + 3*8))
}
var zType uintptr
if bDb != 0 {
zType = *(*uintptr)(unsafe.Pointer(argv + 5*8))
} else {
zType = *(*uintptr)(unsafe.Pointer(argv + 4*8))
}
var nDb int32 = int32(libc.Xstrlen(tls, zDb)) + 1
var nTab int32 = int32(libc.Xstrlen(tls, zTab)) + 1
*(*int32)(unsafe.Pointer(bp)) = 0
*(*int32)(unsafe.Pointer(bp + 32)) = fts5VocabTableType(tls, zType, pzErr, bp)
if *(*int32)(unsafe.Pointer(bp + 32)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 32)) = Xsqlite3_declare_vtab(tls, db, *(*uintptr)(unsafe.Pointer(bp + 8 + uintptr(*(*int32)(unsafe.Pointer(bp)))*8)))
}
nByte = int32(uint64(unsafe.Sizeof(Fts5VocabTable{})) + uint64(nDb) + uint64(nTab))
pRet = sqlite3Fts5MallocZero(tls, bp+32, int64(nByte))
if pRet != 0 {
(*Fts5VocabTable)(unsafe.Pointer(pRet)).FpGlobal = pAux
(*Fts5VocabTable)(unsafe.Pointer(pRet)).FeType = *(*int32)(unsafe.Pointer(bp))
(*Fts5VocabTable)(unsafe.Pointer(pRet)).Fdb = db
(*Fts5VocabTable)(unsafe.Pointer(pRet)).FzFts5Tbl = pRet + 1*64
(*Fts5VocabTable)(unsafe.Pointer(pRet)).FzFts5Db = (*Fts5VocabTable)(unsafe.Pointer(pRet)).FzFts5Tbl + uintptr(nTab)
libc.X__builtin___memcpy_chk(tls, (*Fts5VocabTable)(unsafe.Pointer(pRet)).FzFts5Tbl, zTab, uint64(nTab), libc.X__builtin_object_size(tls, (*Fts5VocabTable)(unsafe.Pointer(pRet)).FzFts5Tbl, 0))
libc.X__builtin___memcpy_chk(tls, (*Fts5VocabTable)(unsafe.Pointer(pRet)).FzFts5Db, zDb, uint64(nDb), libc.X__builtin_object_size(tls, (*Fts5VocabTable)(unsafe.Pointer(pRet)).FzFts5Db, 0))
sqlite3Fts5Dequote(tls, (*Fts5VocabTable)(unsafe.Pointer(pRet)).FzFts5Tbl)
sqlite3Fts5Dequote(tls, (*Fts5VocabTable)(unsafe.Pointer(pRet)).FzFts5Db)
}
}
*(*uintptr)(unsafe.Pointer(ppVTab)) = pRet
return *(*int32)(unsafe.Pointer(bp + 32))
}
func fts5VocabConnectMethod(tls *libc.TLS, db uintptr, pAux uintptr, argc int32, argv uintptr, ppVtab uintptr, pzErr uintptr) int32 {
return fts5VocabInitVtab(tls, db, pAux, argc, argv, ppVtab, pzErr)
}
func fts5VocabCreateMethod(tls *libc.TLS, db uintptr, pAux uintptr, argc int32, argv uintptr, ppVtab uintptr, pzErr uintptr) int32 {
return fts5VocabInitVtab(tls, db, pAux, argc, argv, ppVtab, pzErr)
}
func fts5VocabBestIndexMethod(tls *libc.TLS, pUnused uintptr, pInfo uintptr) int32 {
var i int32
var iTermEq int32 = -1
var iTermGe int32 = -1
var iTermLe int32 = -1
var idxNum int32 = 0
var nArg int32 = 0
_ = pUnused
for i = 0; i < (*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FnConstraint; i++ {
var p uintptr = (*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaConstraint + uintptr(i)*12
if int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fusable) == 0 {
continue
}
if (*sqlite3_index_constraint)(unsafe.Pointer(p)).FiColumn == 0 {
if int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == SQLITE_INDEX_CONSTRAINT_EQ {
iTermEq = i
}
if int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == SQLITE_INDEX_CONSTRAINT_LE {
iTermLe = i
}
if int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == SQLITE_INDEX_CONSTRAINT_LT {
iTermLe = i
}
if int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == SQLITE_INDEX_CONSTRAINT_GE {
iTermGe = i
}
if int32((*sqlite3_index_constraint)(unsafe.Pointer(p)).Fop) == SQLITE_INDEX_CONSTRAINT_GT {
iTermGe = i
}
}
}
if iTermEq >= 0 {
idxNum = idxNum | FTS5_VOCAB_TERM_EQ
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaConstraintUsage + uintptr(iTermEq)*8)).FargvIndex = libc.PreIncInt32(&nArg, 1)
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FestimatedCost = float64(100)
} else {
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FestimatedCost = float64(1000000)
if iTermGe >= 0 {
idxNum = idxNum | FTS5_VOCAB_TERM_GE
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaConstraintUsage + uintptr(iTermGe)*8)).FargvIndex = libc.PreIncInt32(&nArg, 1)
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FestimatedCost = (*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FestimatedCost / float64(2)
}
if iTermLe >= 0 {
idxNum = idxNum | FTS5_VOCAB_TERM_LE
(*sqlite3_index_constraint_usage)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaConstraintUsage + uintptr(iTermLe)*8)).FargvIndex = libc.PreIncInt32(&nArg, 1)
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FestimatedCost = (*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FestimatedCost / float64(2)
}
}
if (*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FnOrderBy == 1 &&
(*sqlite3_index_orderby)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaOrderBy)).FiColumn == 0 &&
int32((*sqlite3_index_orderby)(unsafe.Pointer((*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FaOrderBy)).Fdesc) == 0 {
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).ForderByConsumed = 1
}
(*Sqlite3_index_info)(unsafe.Pointer(pInfo)).FidxNum = idxNum
return SQLITE_OK
}
func fts5VocabOpenMethod(tls *libc.TLS, pVTab uintptr, ppCsr uintptr) int32 {
bp := tls.Alloc(80)
defer tls.Free(80)
var pTab uintptr = pVTab
var pFts5 uintptr = uintptr(0)
var pCsr uintptr = uintptr(0)
*(*int32)(unsafe.Pointer(bp + 64)) = SQLITE_OK
*(*uintptr)(unsafe.Pointer(bp + 72)) = uintptr(0)
var zSql uintptr = uintptr(0)
if (*Fts5VocabTable)(unsafe.Pointer(pTab)).FbBusy != 0 {
(*Sqlite3_vtab)(unsafe.Pointer(pVTab)).FzErrMsg = Xsqlite3_mprintf(tls,
ts+37980, libc.VaList(bp, (*Fts5VocabTable)(unsafe.Pointer(pTab)).FzFts5Db, (*Fts5VocabTable)(unsafe.Pointer(pTab)).FzFts5Tbl))
return SQLITE_ERROR
}
zSql = sqlite3Fts5Mprintf(tls, bp+64,
ts+38011,
libc.VaList(bp+16, (*Fts5VocabTable)(unsafe.Pointer(pTab)).FzFts5Tbl, (*Fts5VocabTable)(unsafe.Pointer(pTab)).FzFts5Db, (*Fts5VocabTable)(unsafe.Pointer(pTab)).FzFts5Tbl, (*Fts5VocabTable)(unsafe.Pointer(pTab)).FzFts5Tbl))
if zSql != 0 {
*(*int32)(unsafe.Pointer(bp + 64)) = Xsqlite3_prepare_v2(tls, (*Fts5VocabTable)(unsafe.Pointer(pTab)).Fdb, zSql, -1, bp+72, uintptr(0))
}
Xsqlite3_free(tls, zSql)
if *(*int32)(unsafe.Pointer(bp + 64)) == SQLITE_ERROR {
*(*int32)(unsafe.Pointer(bp + 64)) = SQLITE_OK
}
(*Fts5VocabTable)(unsafe.Pointer(pTab)).FbBusy = uint32(1)
if *(*uintptr)(unsafe.Pointer(bp + 72)) != 0 && Xsqlite3_step(tls, *(*uintptr)(unsafe.Pointer(bp + 72))) == SQLITE_ROW {
var iId I64 = Xsqlite3_column_int64(tls, *(*uintptr)(unsafe.Pointer(bp + 72)), 0)
pFts5 = sqlite3Fts5TableFromCsrid(tls, (*Fts5VocabTable)(unsafe.Pointer(pTab)).FpGlobal, iId)
}
(*Fts5VocabTable)(unsafe.Pointer(pTab)).FbBusy = uint32(0)
if *(*int32)(unsafe.Pointer(bp + 64)) == SQLITE_OK {
if pFts5 == uintptr(0) {
*(*int32)(unsafe.Pointer(bp + 64)) = Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 72)))
*(*uintptr)(unsafe.Pointer(bp + 72)) = uintptr(0)
if *(*int32)(unsafe.Pointer(bp + 64)) == SQLITE_OK {
(*Sqlite3_vtab)(unsafe.Pointer(pVTab)).FzErrMsg = Xsqlite3_mprintf(tls,
ts+38062, libc.VaList(bp+48, (*Fts5VocabTable)(unsafe.Pointer(pTab)).FzFts5Db, (*Fts5VocabTable)(unsafe.Pointer(pTab)).FzFts5Tbl))
*(*int32)(unsafe.Pointer(bp + 64)) = SQLITE_ERROR
}
} else {
*(*int32)(unsafe.Pointer(bp + 64)) = sqlite3Fts5FlushToDisk(tls, pFts5)
}
}
if *(*int32)(unsafe.Pointer(bp + 64)) == SQLITE_OK {
var nByte I64 = I64(uint64((*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer(pFts5)).FpConfig)).FnCol)*uint64(unsafe.Sizeof(I64(0)))*uint64(2) + uint64(unsafe.Sizeof(Fts5VocabCursor{})))
pCsr = sqlite3Fts5MallocZero(tls, bp+64, nByte)
}
if pCsr != 0 {
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpFts5 = pFts5
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpStmt = *(*uintptr)(unsafe.Pointer(bp + 72))
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaCnt = pCsr + 1*128
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaDoc = (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaCnt + uintptr((*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer(pFts5)).FpConfig)).FnCol)*8
} else {
Xsqlite3_finalize(tls, *(*uintptr)(unsafe.Pointer(bp + 72)))
}
*(*uintptr)(unsafe.Pointer(ppCsr)) = pCsr
return *(*int32)(unsafe.Pointer(bp + 64))
}
func fts5VocabResetCursor(tls *libc.TLS, pCsr uintptr) {
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).Frowid = int64(0)
sqlite3Fts5IterClose(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpIter)
sqlite3Fts5StructureRelease(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpStruct)
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpStruct = uintptr(0)
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpIter = uintptr(0)
Xsqlite3_free(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FzLeTerm)
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FnLeTerm = -1
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FzLeTerm = uintptr(0)
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FbEof = 0
}
func fts5VocabCloseMethod(tls *libc.TLS, pCursor uintptr) int32 {
var pCsr uintptr = pCursor
fts5VocabResetCursor(tls, pCsr)
sqlite3Fts5BufferFree(tls, pCsr+96)
Xsqlite3_finalize(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpStmt)
Xsqlite3_free(tls, pCsr)
return SQLITE_OK
}
func fts5VocabInstanceNewTerm(tls *libc.TLS, pCsr uintptr) int32 {
bp := tls.Alloc(8)
defer tls.Free(8)
*(*int32)(unsafe.Pointer(bp + 4)) = SQLITE_OK
if (*Fts5IndexIter)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpIter)).FbEof != 0 {
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FbEof = 1
} else {
var zTerm uintptr
zTerm = sqlite3Fts5IterTerm(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpIter, bp)
if (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FnLeTerm >= 0 {
var nCmp int32 = func() int32 {
if *(*int32)(unsafe.Pointer(bp)) < (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FnLeTerm {
return *(*int32)(unsafe.Pointer(bp))
}
return (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FnLeTerm
}()
var bCmp int32 = libc.Xmemcmp(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FzLeTerm, zTerm, uint64(nCmp))
if bCmp < 0 || bCmp == 0 && (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FnLeTerm < *(*int32)(unsafe.Pointer(bp)) {
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FbEof = 1
}
}
sqlite3Fts5BufferSet(tls, bp+4, pCsr+96, *(*int32)(unsafe.Pointer(bp)), zTerm)
}
return *(*int32)(unsafe.Pointer(bp + 4))
}
func fts5VocabInstanceNext(tls *libc.TLS, pCsr uintptr) int32 {
var eDetail int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpFts5)).FpConfig)).FeDetail
var rc int32 = SQLITE_OK
var pIter uintptr = (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpIter
var pp uintptr = pCsr + 112
var po uintptr = pCsr + 120
for eDetail == FTS5_DETAIL_NONE ||
sqlite3Fts5PoslistNext64(tls, (*Fts5IndexIter)(unsafe.Pointer(pIter)).FpData, (*Fts5IndexIter)(unsafe.Pointer(pIter)).FnData, po, pp) != 0 {
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiInstPos = int64(0)
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiInstOff = 0
rc = sqlite3Fts5IterNextScan(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpIter)
if rc == SQLITE_OK {
rc = fts5VocabInstanceNewTerm(tls, pCsr)
if (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FbEof != 0 || eDetail == FTS5_DETAIL_NONE {
break
}
}
if rc != 0 {
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FbEof = 1
break
}
}
return rc
}
func fts5VocabNextMethod(tls *libc.TLS, pCursor uintptr) int32 {
bp := tls.Alloc(24)
defer tls.Free(24)
var pCsr uintptr = pCursor
var pTab uintptr = (*Sqlite3_vtab_cursor)(unsafe.Pointer(pCursor)).FpVtab
var nCol int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpFts5)).FpConfig)).FnCol
*(*int32)(unsafe.Pointer(bp + 4)) = sqlite3Fts5StructureTest(tls, (*Fts5Table)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpFts5)).FpIndex, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpStruct)
if *(*int32)(unsafe.Pointer(bp + 4)) != SQLITE_OK {
return *(*int32)(unsafe.Pointer(bp + 4))
}
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).Frowid++
if (*Fts5VocabTable)(unsafe.Pointer(pTab)).FeType == FTS5_VOCAB_INSTANCE {
return fts5VocabInstanceNext(tls, pCsr)
}
if (*Fts5VocabTable)(unsafe.Pointer(pTab)).FeType == FTS5_VOCAB_COL {
for (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiCol++; (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiCol < nCol; (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiCol++ {
if *(*I64)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaDoc + uintptr((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiCol)*8)) != 0 {
break
}
}
}
if (*Fts5VocabTable)(unsafe.Pointer(pTab)).FeType != FTS5_VOCAB_COL || (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiCol >= nCol {
if (*Fts5IndexIter)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpIter)).FbEof != 0 {
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FbEof = 1
} else {
var zTerm uintptr
zTerm = sqlite3Fts5IterTerm(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpIter, bp)
if (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FnLeTerm >= 0 {
var nCmp int32 = func() int32 {
if *(*int32)(unsafe.Pointer(bp)) < (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FnLeTerm {
return *(*int32)(unsafe.Pointer(bp))
}
return (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FnLeTerm
}()
var bCmp int32 = libc.Xmemcmp(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FzLeTerm, zTerm, uint64(nCmp))
if bCmp < 0 || bCmp == 0 && (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FnLeTerm < *(*int32)(unsafe.Pointer(bp)) {
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FbEof = 1
return SQLITE_OK
}
}
sqlite3Fts5BufferSet(tls, bp+4, pCsr+96, *(*int32)(unsafe.Pointer(bp)), zTerm)
libc.X__builtin___memset_chk(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaCnt, 0, uint64(nCol)*uint64(unsafe.Sizeof(I64(0))), libc.X__builtin_object_size(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaCnt, 0))
libc.X__builtin___memset_chk(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaDoc, 0, uint64(nCol)*uint64(unsafe.Sizeof(I64(0))), libc.X__builtin_object_size(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaDoc, 0))
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiCol = 0
for *(*int32)(unsafe.Pointer(bp + 4)) == SQLITE_OK {
var eDetail int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpFts5)).FpConfig)).FeDetail
var pPos uintptr
var nPos int32
*(*I64)(unsafe.Pointer(bp + 16)) = int64(0)
*(*int32)(unsafe.Pointer(bp + 8)) = 0
pPos = (*Fts5IndexIter)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpIter)).FpData
nPos = (*Fts5IndexIter)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpIter)).FnData
switch (*Fts5VocabTable)(unsafe.Pointer(pTab)).FeType {
case FTS5_VOCAB_ROW:
if eDetail == FTS5_DETAIL_FULL {
for 0 == sqlite3Fts5PoslistNext64(tls, pPos, nPos, bp+8, bp+16) {
*(*I64)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaCnt))++
}
}
*(*I64)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaDoc))++
break
fallthrough
case FTS5_VOCAB_COL:
if eDetail == FTS5_DETAIL_FULL {
var iCol int32 = -1
for 0 == sqlite3Fts5PoslistNext64(tls, pPos, nPos, bp+8, bp+16) {
var ii int32 = int32(*(*I64)(unsafe.Pointer(bp + 16)) >> 32)
if iCol != ii {
if ii >= nCol {
*(*int32)(unsafe.Pointer(bp + 4)) = SQLITE_CORRUPT | int32(1)<<8
break
}
*(*I64)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaDoc + uintptr(ii)*8))++
iCol = ii
}
*(*I64)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaCnt + uintptr(ii)*8))++
}
} else if eDetail == FTS5_DETAIL_COLUMNS {
for 0 == sqlite3Fts5PoslistNext64(tls, pPos, nPos, bp+8, bp+16) {
if *(*I64)(unsafe.Pointer(bp + 16)) >= I64(nCol) {
*(*int32)(unsafe.Pointer(bp + 4)) = SQLITE_CORRUPT | int32(1)<<8
break
}
*(*I64)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaDoc + uintptr(*(*I64)(unsafe.Pointer(bp + 16)))*8))++
}
} else {
*(*I64)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaDoc))++
}
break
fallthrough
default:
break
}
if *(*int32)(unsafe.Pointer(bp + 4)) == SQLITE_OK {
*(*int32)(unsafe.Pointer(bp + 4)) = sqlite3Fts5IterNextScan(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpIter)
}
if (*Fts5VocabTable)(unsafe.Pointer(pTab)).FeType == FTS5_VOCAB_INSTANCE {
break
}
if *(*int32)(unsafe.Pointer(bp + 4)) == SQLITE_OK {
zTerm = sqlite3Fts5IterTerm(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpIter, bp)
if *(*int32)(unsafe.Pointer(bp)) != (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).Fterm.Fn ||
*(*int32)(unsafe.Pointer(bp)) > 0 && libc.Xmemcmp(tls, zTerm, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).Fterm.Fp, uint64(*(*int32)(unsafe.Pointer(bp)))) != 0 {
break
}
if (*Fts5IndexIter)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpIter)).FbEof != 0 {
break
}
}
}
}
}
if *(*int32)(unsafe.Pointer(bp + 4)) == SQLITE_OK && (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FbEof == 0 && (*Fts5VocabTable)(unsafe.Pointer(pTab)).FeType == FTS5_VOCAB_COL {
for ; (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiCol < nCol && *(*I64)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaDoc + uintptr((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiCol)*8)) == int64(0); (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiCol++ {
}
if (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiCol == nCol {
*(*int32)(unsafe.Pointer(bp + 4)) = SQLITE_CORRUPT | int32(1)<<8
}
}
return *(*int32)(unsafe.Pointer(bp + 4))
}
func fts5VocabFilterMethod(tls *libc.TLS, pCursor uintptr, idxNum int32, zUnused uintptr, nUnused int32, apVal uintptr) int32 {
var pTab uintptr = (*Sqlite3_vtab_cursor)(unsafe.Pointer(pCursor)).FpVtab
var pCsr uintptr = pCursor
var eType int32 = (*Fts5VocabTable)(unsafe.Pointer(pTab)).FeType
var rc int32 = SQLITE_OK
var iVal int32 = 0
var f int32 = FTS5INDEX_QUERY_SCAN
var zTerm uintptr = uintptr(0)
var nTerm int32 = 0
var pEq uintptr = uintptr(0)
var pGe uintptr = uintptr(0)
var pLe uintptr = uintptr(0)
_ = zUnused
_ = nUnused
fts5VocabResetCursor(tls, pCsr)
if idxNum&FTS5_VOCAB_TERM_EQ != 0 {
pEq = *(*uintptr)(unsafe.Pointer(apVal + uintptr(libc.PostIncInt32(&iVal, 1))*8))
}
if idxNum&FTS5_VOCAB_TERM_GE != 0 {
pGe = *(*uintptr)(unsafe.Pointer(apVal + uintptr(libc.PostIncInt32(&iVal, 1))*8))
}
if idxNum&FTS5_VOCAB_TERM_LE != 0 {
pLe = *(*uintptr)(unsafe.Pointer(apVal + uintptr(libc.PostIncInt32(&iVal, 1))*8))
}
if pEq != 0 {
zTerm = Xsqlite3_value_text(tls, pEq)
nTerm = Xsqlite3_value_bytes(tls, pEq)
f = 0
} else {
if pGe != 0 {
zTerm = Xsqlite3_value_text(tls, pGe)
nTerm = Xsqlite3_value_bytes(tls, pGe)
}
if pLe != 0 {
var zCopy uintptr = Xsqlite3_value_text(tls, pLe)
if zCopy == uintptr(0) {
zCopy = ts + 1547
}
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FnLeTerm = Xsqlite3_value_bytes(tls, pLe)
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FzLeTerm = Xsqlite3_malloc(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FnLeTerm+1)
if (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FzLeTerm == uintptr(0) {
rc = SQLITE_NOMEM
} else {
libc.X__builtin___memcpy_chk(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FzLeTerm, zCopy, uint64((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FnLeTerm+1), libc.X__builtin_object_size(tls, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FzLeTerm, 0))
}
}
}
if rc == SQLITE_OK {
var pIndex uintptr = (*Fts5Table)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpFts5)).FpIndex
rc = sqlite3Fts5IndexQuery(tls, pIndex, zTerm, nTerm, f, uintptr(0), pCsr+32)
if rc == SQLITE_OK {
(*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpStruct = sqlite3Fts5StructureRef(tls, pIndex)
}
}
if rc == SQLITE_OK && eType == FTS5_VOCAB_INSTANCE {
rc = fts5VocabInstanceNewTerm(tls, pCsr)
}
if rc == SQLITE_OK && !((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FbEof != 0) &&
(eType != FTS5_VOCAB_INSTANCE ||
(*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpFts5)).FpConfig)).FeDetail != FTS5_DETAIL_NONE) {
rc = fts5VocabNextMethod(tls, pCursor)
}
return rc
}
func fts5VocabEofMethod(tls *libc.TLS, pCursor uintptr) int32 {
var pCsr uintptr = pCursor
return (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FbEof
}
func fts5VocabColumnMethod(tls *libc.TLS, pCursor uintptr, pCtx uintptr, iCol int32) int32 {
var pCsr uintptr = pCursor
var eDetail int32 = (*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpFts5)).FpConfig)).FeDetail
var eType int32 = (*Fts5VocabTable)(unsafe.Pointer((*Sqlite3_vtab_cursor)(unsafe.Pointer(pCursor)).FpVtab)).FeType
var iVal I64 = int64(0)
if iCol == 0 {
Xsqlite3_result_text(tls,
pCtx, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).Fterm.Fp, (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).Fterm.Fn, libc.UintptrFromInt32(-1))
} else if eType == FTS5_VOCAB_COL {
if iCol == 1 {
if eDetail != FTS5_DETAIL_NONE {
var z uintptr = *(*uintptr)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpFts5)).FpConfig)).FazCol + uintptr((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiCol)*8))
Xsqlite3_result_text(tls, pCtx, z, -1, uintptr(0))
}
} else if iCol == 2 {
iVal = *(*I64)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaDoc + uintptr((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiCol)*8))
} else {
iVal = *(*I64)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaCnt + uintptr((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiCol)*8))
}
} else if eType == FTS5_VOCAB_ROW {
if iCol == 1 {
iVal = *(*I64)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaDoc))
} else {
iVal = *(*I64)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FaCnt))
}
} else {
switch iCol {
case 1:
Xsqlite3_result_int64(tls, pCtx, (*Fts5IndexIter)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpIter)).FiRowid)
break
fallthrough
case 2:
{
var ii int32 = -1
if eDetail == FTS5_DETAIL_FULL {
ii = int32((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiInstPos >> 32)
} else if eDetail == FTS5_DETAIL_COLUMNS {
ii = int32((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiInstPos)
}
if ii >= 0 && ii < (*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpFts5)).FpConfig)).FnCol {
var z uintptr = *(*uintptr)(unsafe.Pointer((*Fts5Config)(unsafe.Pointer((*Fts5Table)(unsafe.Pointer((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FpFts5)).FpConfig)).FazCol + uintptr(ii)*8))
Xsqlite3_result_text(tls, pCtx, z, -1, uintptr(0))
}
break
}
fallthrough
default:
{
if eDetail == FTS5_DETAIL_FULL {
var ii int32 = int32((*Fts5VocabCursor)(unsafe.Pointer(pCsr)).FiInstPos & int64(0x7FFFFFFF))
Xsqlite3_result_int(tls, pCtx, ii)
}
break
}
}
}
if iVal > int64(0) {
Xsqlite3_result_int64(tls, pCtx, iVal)
}
return SQLITE_OK
}
func fts5VocabRowidMethod(tls *libc.TLS, pCursor uintptr, pRowid uintptr) int32 {
var pCsr uintptr = pCursor
*(*Sqlite_int64)(unsafe.Pointer(pRowid)) = (*Fts5VocabCursor)(unsafe.Pointer(pCsr)).Frowid
return SQLITE_OK
}
func sqlite3Fts5VocabInit(tls *libc.TLS, pGlobal uintptr, db uintptr) int32 {
var p uintptr = pGlobal
return Xsqlite3_create_module_v2(tls, db, ts+38088, uintptr(unsafe.Pointer(&fts5Vocab)), p, uintptr(0))
}
var fts5Vocab = Sqlite3_module{
FiVersion: 2,
FxCreate: 0,
FxConnect: 0,
FxBestIndex: 0,
FxDisconnect: 0,
FxDestroy: 0,
FxOpen: 0,
FxClose: 0,
FxFilter: 0,
FxNext: 0,
FxEof: 0,
FxColumn: 0,
FxRowid: 0,
}
// ************* End of stmt.c ***********************************************
// Return the source-id for this library
func Xsqlite3_sourceid(tls *libc.TLS) uintptr {
return ts + 38098
}
func init() {
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&Xsqlite3aEQb)) + 0)) = uintptr(unsafe.Pointer(&Xsqlite3UpperToLower)) + 210
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&Xsqlite3aGTb)) + 0)) = uintptr(unsafe.Pointer(&Xsqlite3UpperToLower)) + 216
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&Xsqlite3aLTb)) + 0)) = uintptr(unsafe.Pointer(&Xsqlite3UpperToLower)) + 204
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aAgg)) + 0)) = geopolyBBoxStep
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aAgg)) + 8)) = geopolyBBoxFinal
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aAlterTableFuncs)) + 24)) = renameColumnFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aAlterTableFuncs)) + 96)) = renameTableFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aAlterTableFuncs)) + 168)) = renameTableTest
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aAlterTableFuncs)) + 240)) = dropColumnFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aAlterTableFuncs)) + 312)) = renameQuotefixFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 24)) = versionFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 96)) = versionFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 168)) = versionFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 240)) = versionFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 312)) = soundexFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 384)) = loadExt
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 456)) = loadExt
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 528)) = compileoptionusedFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 600)) = compileoptiongetFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 672)) = versionFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 744)) = versionFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 816)) = versionFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 888)) = versionFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 960)) = trimFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1032)) = trimFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1104)) = trimFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1176)) = trimFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1248)) = trimFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1320)) = trimFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1392)) = minmaxFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1536)) = minmaxStep
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1544)) = minMaxFinalize
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1552)) = minMaxValue
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1608)) = minmaxFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1752)) = minmaxStep
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1760)) = minMaxFinalize
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1768)) = minMaxValue
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1824)) = typeofFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1896)) = subtypeFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 1968)) = lengthFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 2040)) = instrFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 2112)) = printfFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 2184)) = printfFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 2256)) = unicodeFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 2328)) = charFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 2400)) = absFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 2472)) = roundFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 2544)) = roundFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 2616)) = upperFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 2688)) = lowerFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 2760)) = hexFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 2832)) = unhexFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 2904)) = unhexFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 2976)) = versionFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 3048)) = randomFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 3120)) = randomBlob
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 3192)) = nullifFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 3264)) = versionFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 3336)) = sourceidFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 3408)) = errlogFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 3480)) = quoteFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 3552)) = last_insert_rowid
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 3624)) = changes
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 3696)) = total_changes
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 3768)) = replaceFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 3840)) = zeroblobFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 3912)) = substrFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 3984)) = substrFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4056)) = substrFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4128)) = substrFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4200)) = sumStep
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4208)) = sumFinalize
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4216)) = sumFinalize
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4224)) = sumInverse
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4272)) = sumStep
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4280)) = totalFinalize
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4288)) = totalFinalize
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4296)) = sumInverse
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4344)) = sumStep
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4352)) = avgFinalize
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4360)) = avgFinalize
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4368)) = sumInverse
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4416)) = countStep
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4424)) = countFinalize
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4432)) = countFinalize
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4440)) = countInverse
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4488)) = countStep
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4496)) = countFinalize
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4504)) = countFinalize
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4512)) = countInverse
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4560)) = groupConcatStep
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4568)) = groupConcatFinalize
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4576)) = groupConcatValue
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4584)) = groupConcatInverse
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4632)) = groupConcatStep
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4640)) = groupConcatFinalize
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4648)) = groupConcatValue
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4656)) = groupConcatInverse
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4688)) = uintptr(unsafe.Pointer(&globInfo))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4704)) = likeFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4760)) = uintptr(unsafe.Pointer(&likeInfoNorm))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4776)) = likeFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4832)) = uintptr(unsafe.Pointer(&likeInfoNorm))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 4848)) = likeFunc
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5048)) = xCeil
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5064)) = ceilingFunc
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5120)) = xCeil
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5136)) = ceilingFunc
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5192)) = xFloor
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5208)) = ceilingFunc
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5264)) = libc.Xtrunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5280)) = ceilingFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5352)) = logFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5424)) = logFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5496)) = logFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5568)) = logFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5640)) = logFunc
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5696)) = libc.Xexp
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5712)) = math1Func
*(*func(*libc.TLS, float64, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5768)) = libc.Xpow
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5784)) = math2Func
*(*func(*libc.TLS, float64, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5840)) = libc.Xpow
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5856)) = math2Func
*(*func(*libc.TLS, float64, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5912)) = libc.Xfmod
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5928)) = math2Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 5984)) = libc.Xacos
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6000)) = math1Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6056)) = libc.Xasin
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6072)) = math1Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6128)) = libc.Xatan
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6144)) = math1Func
*(*func(*libc.TLS, float64, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6200)) = libc.Xatan2
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6216)) = math2Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6272)) = libc.Xcos
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6288)) = math1Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6344)) = libc.Xsin
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6360)) = math1Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6416)) = libc.Xtan
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6432)) = math1Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6488)) = libc.Xcosh
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6504)) = math1Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6560)) = libc.Xsinh
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6576)) = math1Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6632)) = libc.Xtanh
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6648)) = math1Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6704)) = libc.Xacosh
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6720)) = math1Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6776)) = libc.Xasinh
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6792)) = math1Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6848)) = libc.Xatanh
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6864)) = math1Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6920)) = libc.Xsqrt
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6936)) = math1Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 6992)) = degToRad
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 7008)) = math1Func
*(*func(*libc.TLS, float64) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 7064)) = radToDeg
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 7080)) = math1Func
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 7152)) = piFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 7224)) = signFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 7296)) = versionFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aBuiltinFunc)) + 7368)) = versionFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 8)) = uintptr(unsafe.Pointer(&Xsqlite3Config))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 24)) = juliandayFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 80)) = uintptr(unsafe.Pointer(&Xsqlite3Config))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 96)) = unixepochFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 152)) = uintptr(unsafe.Pointer(&Xsqlite3Config))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 168)) = dateFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 224)) = uintptr(unsafe.Pointer(&Xsqlite3Config))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 240)) = timeFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 296)) = uintptr(unsafe.Pointer(&Xsqlite3Config))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 312)) = datetimeFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 368)) = uintptr(unsafe.Pointer(&Xsqlite3Config))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 384)) = strftimeFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 456)) = ctimeFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 528)) = ctimestampFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aDateTimeFuncs)) + 600)) = cdateFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aFunc)) + 0)) = geopolyAreaFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aFunc)) + 24)) = geopolyBlobFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aFunc)) + 48)) = geopolyJsonFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aFunc)) + 72)) = geopolySvgFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aFunc)) + 96)) = geopolyWithinFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aFunc)) + 120)) = geopolyContainsPointFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aFunc)) + 144)) = geopolyOverlapFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aFunc)) + 168)) = geopolyDebugFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aFunc)) + 192)) = geopolyBBoxFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aFunc)) + 216)) = geopolyXformFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aFunc)) + 240)) = geopolyRegularFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aFunc)) + 264)) = geopolyCcwFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 24)) = jsonRemoveFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 96)) = jsonArrayFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 168)) = jsonArrayLengthFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 240)) = jsonArrayLengthFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 312)) = jsonExtractFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 384)) = jsonExtractFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 456)) = jsonExtractFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 528)) = jsonSetFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 600)) = jsonObjectFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 672)) = jsonPatchFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 744)) = jsonQuoteFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 816)) = jsonRemoveFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 888)) = jsonReplaceFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 960)) = jsonSetFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 1032)) = jsonTypeFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 1104)) = jsonTypeFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 1176)) = jsonValidFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 1248)) = jsonArrayStep
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 1256)) = jsonArrayFinal
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 1264)) = jsonArrayValue
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 1272)) = jsonGroupInverse
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 1320)) = jsonObjectStep
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 1328)) = jsonObjectFinal
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 1336)) = jsonObjectValue
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aJsonFunc)) + 1344)) = jsonGroupInverse
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aMap)) + 8)) = uintptr(unsafe.Pointer(&posixIoMethods))
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aMap)) + 24)) = uintptr(unsafe.Pointer(&posixIoMethods))
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aMap)) + 40)) = uintptr(unsafe.Pointer(&afpIoMethods))
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aMap)) + 56)) = uintptr(unsafe.Pointer(&afpIoMethods))
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aMap)) + 72)) = uintptr(unsafe.Pointer(&nolockIoMethods))
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aMod)) + 8)) = uintptr(unsafe.Pointer(&jsonEachModule))
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aMod)) + 24)) = uintptr(unsafe.Pointer(&jsonTreeModule))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 8)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32, int32) int32
}{posixOpen}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 32)) = *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS, int32) int32 }{libc.Xclose}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 56)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, int32) int32
}{libc.Xaccess}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 80)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, Size_t) uintptr
}{libc.Xgetcwd}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 104)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{libc.Xstat}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 128)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, int32, uintptr) int32
}{libc.Xfstat}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 152)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, int32, Off_t) int32
}{libc.Xftruncate}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 176)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, int32, int32, uintptr) int32
}{libc.Xfcntl}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 200)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, int32, uintptr, Size_t) Ssize_t
}{libc.Xread}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 224)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, int32, uintptr, Size_t, Off_t) Ssize_t
}{libc.Xpread}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 272)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, int32, uintptr, Size_t) Ssize_t
}{libc.Xwrite}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 296)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, int32, uintptr, Size_t, Off_t) Ssize_t
}{libc.Xpwrite}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 344)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, int32, Mode_t) int32
}{libc.Xfchmod}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 392)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr) int32
}{libc.Xunlink}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 416)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{openDirectory}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 440)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, Mode_t) int32
}{libc.Xmkdir}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 464)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr) int32
}{libc.Xrmdir}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 488)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, int32, Uid_t, Gid_t) int32
}{libc.Xfchown}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 512)) = *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS) Uid_t }{libc.Xgeteuid}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 536)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, Size_t, int32, int32, int32, Off_t) uintptr
}{libc.Xmmap}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 560)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, Size_t) int32
}{libc.Xmunmap}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 608)) = *(*uintptr)(unsafe.Pointer(&struct{ f func(*libc.TLS) int32 }{unixGetpagesize}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 632)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr, Size_t) Ssize_t
}{libc.Xreadlink}))
*(*Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aSyscall)) + 656)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr, uintptr) int32
}{libc.Xlstat}))
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 32)) = uintptr(unsafe.Pointer(&autolockIoFinder))
*(*func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 40)) = unixOpen
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 48)) = unixDelete
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 56)) = unixAccess
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 64)) = unixFullPathname
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 72)) = unixDlOpen
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 80)) = unixDlError
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 88)) = unixDlSym
*(*func(*libc.TLS, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 96)) = unixDlClose
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 104)) = unixRandomness
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 112)) = unixSleep
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 120)) = unixCurrentTime
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 128)) = unixGetLastError
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 136)) = unixCurrentTimeInt64
*(*func(*libc.TLS, uintptr, uintptr, Sqlite3_syscall_ptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 144)) = unixSetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 152)) = unixGetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 160)) = unixNextSystemCall
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 200)) = uintptr(unsafe.Pointer(&nolockIoFinder))
*(*func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 208)) = unixOpen
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 216)) = unixDelete
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 224)) = unixAccess
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 232)) = unixFullPathname
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 240)) = unixDlOpen
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 248)) = unixDlError
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 256)) = unixDlSym
*(*func(*libc.TLS, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 264)) = unixDlClose
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 272)) = unixRandomness
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 280)) = unixSleep
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 288)) = unixCurrentTime
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 296)) = unixGetLastError
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 304)) = unixCurrentTimeInt64
*(*func(*libc.TLS, uintptr, uintptr, Sqlite3_syscall_ptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 312)) = unixSetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 320)) = unixGetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 328)) = unixNextSystemCall
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 368)) = uintptr(unsafe.Pointer(&dotlockIoFinder))
*(*func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 376)) = unixOpen
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 384)) = unixDelete
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 392)) = unixAccess
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 400)) = unixFullPathname
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 408)) = unixDlOpen
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 416)) = unixDlError
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 424)) = unixDlSym
*(*func(*libc.TLS, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 432)) = unixDlClose
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 440)) = unixRandomness
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 448)) = unixSleep
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 456)) = unixCurrentTime
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 464)) = unixGetLastError
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 472)) = unixCurrentTimeInt64
*(*func(*libc.TLS, uintptr, uintptr, Sqlite3_syscall_ptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 480)) = unixSetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 488)) = unixGetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 496)) = unixNextSystemCall
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 536)) = uintptr(unsafe.Pointer(&posixIoFinder))
*(*func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 544)) = unixOpen
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 552)) = unixDelete
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 560)) = unixAccess
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 568)) = unixFullPathname
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 576)) = unixDlOpen
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 584)) = unixDlError
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 592)) = unixDlSym
*(*func(*libc.TLS, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 600)) = unixDlClose
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 608)) = unixRandomness
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 616)) = unixSleep
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 624)) = unixCurrentTime
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 632)) = unixGetLastError
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 640)) = unixCurrentTimeInt64
*(*func(*libc.TLS, uintptr, uintptr, Sqlite3_syscall_ptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 648)) = unixSetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 656)) = unixGetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 664)) = unixNextSystemCall
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 704)) = uintptr(unsafe.Pointer(&posixIoFinder))
*(*func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 712)) = unixOpen
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 720)) = unixDelete
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 728)) = unixAccess
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 736)) = unixFullPathname
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 744)) = unixDlOpen
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 752)) = unixDlError
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 760)) = unixDlSym
*(*func(*libc.TLS, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 768)) = unixDlClose
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 776)) = unixRandomness
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 784)) = unixSleep
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 792)) = unixCurrentTime
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 800)) = unixGetLastError
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 808)) = unixCurrentTimeInt64
*(*func(*libc.TLS, uintptr, uintptr, Sqlite3_syscall_ptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 816)) = unixSetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 824)) = unixGetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 832)) = unixNextSystemCall
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 872)) = uintptr(unsafe.Pointer(&flockIoFinder))
*(*func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 880)) = unixOpen
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 888)) = unixDelete
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 896)) = unixAccess
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 904)) = unixFullPathname
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 912)) = unixDlOpen
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 920)) = unixDlError
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 928)) = unixDlSym
*(*func(*libc.TLS, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 936)) = unixDlClose
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 944)) = unixRandomness
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 952)) = unixSleep
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 960)) = unixCurrentTime
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 968)) = unixGetLastError
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 976)) = unixCurrentTimeInt64
*(*func(*libc.TLS, uintptr, uintptr, Sqlite3_syscall_ptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 984)) = unixSetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 992)) = unixGetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1000)) = unixNextSystemCall
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1040)) = uintptr(unsafe.Pointer(&afpIoFinder))
*(*func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1048)) = unixOpen
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1056)) = unixDelete
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1064)) = unixAccess
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1072)) = unixFullPathname
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1080)) = unixDlOpen
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1088)) = unixDlError
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1096)) = unixDlSym
*(*func(*libc.TLS, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1104)) = unixDlClose
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1112)) = unixRandomness
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1120)) = unixSleep
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1128)) = unixCurrentTime
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1136)) = unixGetLastError
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1144)) = unixCurrentTimeInt64
*(*func(*libc.TLS, uintptr, uintptr, Sqlite3_syscall_ptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1152)) = unixSetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1160)) = unixGetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1168)) = unixNextSystemCall
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1208)) = uintptr(unsafe.Pointer(&nfsIoFinder))
*(*func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1216)) = unixOpen
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1224)) = unixDelete
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1232)) = unixAccess
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1240)) = unixFullPathname
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1248)) = unixDlOpen
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1256)) = unixDlError
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1264)) = unixDlSym
*(*func(*libc.TLS, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1272)) = unixDlClose
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1280)) = unixRandomness
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1288)) = unixSleep
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1296)) = unixCurrentTime
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1304)) = unixGetLastError
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1312)) = unixCurrentTimeInt64
*(*func(*libc.TLS, uintptr, uintptr, Sqlite3_syscall_ptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1320)) = unixSetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1328)) = unixGetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1336)) = unixNextSystemCall
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1376)) = uintptr(unsafe.Pointer(&proxyIoFinder))
*(*func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1384)) = unixOpen
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1392)) = unixDelete
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1400)) = unixAccess
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1408)) = unixFullPathname
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1416)) = unixDlOpen
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1424)) = unixDlError
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1432)) = unixDlSym
*(*func(*libc.TLS, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1440)) = unixDlClose
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1448)) = unixRandomness
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1456)) = unixSleep
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1464)) = unixCurrentTime
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1472)) = unixGetLastError
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1480)) = unixCurrentTimeInt64
*(*func(*libc.TLS, uintptr, uintptr, Sqlite3_syscall_ptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1488)) = unixSetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) Sqlite3_syscall_ptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1496)) = unixGetSystemCall
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aVfs)) + 1504)) = unixNextSystemCall
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 24)) = row_numberStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 32)) = row_numberValueFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 40)) = row_numberValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 48)) = noopStepFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 56)) = uintptr(unsafe.Pointer(&row_numberName))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 96)) = dense_rankStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 104)) = dense_rankValueFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 112)) = dense_rankValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 120)) = noopStepFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 128)) = uintptr(unsafe.Pointer(&dense_rankName))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 168)) = rankStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 176)) = rankValueFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 184)) = rankValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 192)) = noopStepFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 200)) = uintptr(unsafe.Pointer(&rankName))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 240)) = percent_rankStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 248)) = percent_rankValueFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 256)) = percent_rankValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 264)) = percent_rankInvFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 272)) = uintptr(unsafe.Pointer(&percent_rankName))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 312)) = cume_distStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 320)) = cume_distValueFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 328)) = cume_distValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 336)) = cume_distInvFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 344)) = uintptr(unsafe.Pointer(&cume_distName))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 384)) = ntileStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 392)) = ntileValueFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 400)) = ntileValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 408)) = ntileInvFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 416)) = uintptr(unsafe.Pointer(&ntileName))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 456)) = last_valueStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 464)) = last_valueFinalizeFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 472)) = last_valueValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 480)) = last_valueInvFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 488)) = uintptr(unsafe.Pointer(&last_valueName))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 528)) = nth_valueStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 536)) = nth_valueFinalizeFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 544)) = noopValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 552)) = noopStepFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 560)) = uintptr(unsafe.Pointer(&nth_valueName))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 600)) = first_valueStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 608)) = first_valueFinalizeFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 616)) = noopValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 624)) = noopStepFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 632)) = uintptr(unsafe.Pointer(&first_valueName))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 672)) = noopStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 680)) = noopValueFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 688)) = noopValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 696)) = noopStepFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 704)) = uintptr(unsafe.Pointer(&leadName))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 744)) = noopStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 752)) = noopValueFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 760)) = noopValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 768)) = noopStepFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 776)) = uintptr(unsafe.Pointer(&leadName))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 816)) = noopStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 824)) = noopValueFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 832)) = noopValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 840)) = noopStepFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 848)) = uintptr(unsafe.Pointer(&leadName))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 888)) = noopStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 896)) = noopValueFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 904)) = noopValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 912)) = noopStepFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 920)) = uintptr(unsafe.Pointer(&lagName))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 960)) = noopStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 968)) = noopValueFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 976)) = noopValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 984)) = noopStepFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 992)) = uintptr(unsafe.Pointer(&lagName))
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 1032)) = noopStepFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 1040)) = noopValueFunc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 1048)) = noopValueFunc
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 1056)) = noopStepFunc
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&aWindowFuncs)) + 1064)) = uintptr(unsafe.Pointer(&lagName))
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoFinder)) + 0)) = afpIoFinderImpl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 8)) = afpClose
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 16)) = unixRead
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 24)) = unixWrite
*(*func(*libc.TLS, uintptr, I64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 32)) = unixTruncate
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 40)) = unixSync
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 48)) = unixFileSize
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 56)) = afpLock
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 64)) = afpUnlock
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 72)) = afpCheckReservedLock
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 80)) = unixFileControl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 88)) = unixSectorSize
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 96)) = unixDeviceCharacteristics
*(*func(*libc.TLS, uintptr, int32, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 112)) = unixShmLock
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 120)) = unixShmBarrier
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 128)) = unixShmUnmap
*(*func(*libc.TLS, uintptr, I64, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 136)) = unixFetch
*(*func(*libc.TLS, uintptr, I64, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&afpIoMethods)) + 144)) = unixUnfetch
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&attach_func)) + 24)) = attachFunc
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&autolockIoFinder)) + 0)) = autolockIoFinderImpl
*(*func(*libc.TLS, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods)) + 0)) = sqlite3MemMalloc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods)) + 8)) = sqlite3MemFree
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods)) + 16)) = sqlite3MemRealloc
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods)) + 24)) = sqlite3MemSize
*(*func(*libc.TLS, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods)) + 32)) = sqlite3MemRoundup
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods)) + 40)) = sqlite3MemInit
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods)) + 48)) = sqlite3MemShutdown
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods1)) + 16)) = pcache1Init
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods1)) + 24)) = pcache1Shutdown
*(*func(*libc.TLS, int32, int32, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods1)) + 32)) = pcache1Create
*(*func(*libc.TLS, uintptr, int32))(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods1)) + 40)) = pcache1Cachesize
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods1)) + 48)) = pcache1Pagecount
*(*func(*libc.TLS, uintptr, uint32, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods1)) + 56)) = pcache1Fetch
*(*func(*libc.TLS, uintptr, uintptr, int32))(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods1)) + 64)) = pcache1Unpin
*(*func(*libc.TLS, uintptr, uintptr, uint32, uint32))(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods1)) + 72)) = pcache1Rekey
*(*func(*libc.TLS, uintptr, uint32))(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods1)) + 80)) = pcache1Truncate
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods1)) + 88)) = pcache1Destroy
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&defaultMethods1)) + 96)) = pcache1Shrink
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&detach_func)) + 24)) = detachFunc
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoFinder)) + 0)) = dotlockIoFinderImpl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 8)) = dotlockClose
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 16)) = unixRead
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 24)) = unixWrite
*(*func(*libc.TLS, uintptr, I64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 32)) = unixTruncate
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 40)) = unixSync
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 48)) = unixFileSize
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 56)) = dotlockLock
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 64)) = dotlockUnlock
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 72)) = dotlockCheckReservedLock
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 80)) = unixFileControl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 88)) = unixSectorSize
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 96)) = unixDeviceCharacteristics
*(*func(*libc.TLS, uintptr, int32, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 112)) = unixShmLock
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 120)) = unixShmBarrier
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 128)) = unixShmUnmap
*(*func(*libc.TLS, uintptr, I64, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 136)) = unixFetch
*(*func(*libc.TLS, uintptr, I64, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&dotlockIoMethods)) + 144)) = unixUnfetch
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoFinder)) + 0)) = flockIoFinderImpl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 8)) = flockClose
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 16)) = unixRead
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 24)) = unixWrite
*(*func(*libc.TLS, uintptr, I64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 32)) = unixTruncate
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 40)) = unixSync
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 48)) = unixFileSize
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 56)) = flockLock
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 64)) = flockUnlock
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 72)) = flockCheckReservedLock
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 80)) = unixFileControl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 88)) = unixSectorSize
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 96)) = unixDeviceCharacteristics
*(*func(*libc.TLS, uintptr, int32, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 112)) = unixShmLock
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 120)) = unixShmBarrier
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 128)) = unixShmUnmap
*(*func(*libc.TLS, uintptr, I64, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 136)) = unixFetch
*(*func(*libc.TLS, uintptr, I64, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&flockIoMethods)) + 144)) = unixUnfetch
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 8)) = fts5CreateMethod
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 16)) = fts5ConnectMethod
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 24)) = fts5BestIndexMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 32)) = fts5DisconnectMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 40)) = fts5DestroyMethod
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 48)) = fts5OpenMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 56)) = fts5CloseMethod
*(*func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 64)) = fts5FilterMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 72)) = fts5NextMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 80)) = fts5EofMethod
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 88)) = fts5ColumnMethod
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 96)) = fts5RowidMethod
*(*func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 104)) = fts5UpdateMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 112)) = fts5BeginMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 120)) = fts5SyncMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 128)) = fts5CommitMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 136)) = fts5RollbackMethod
*(*func(*libc.TLS, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 144)) = fts5FindFunctionMethod
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 152)) = fts5RenameMethod
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 160)) = fts5SavepointMethod
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 168)) = fts5ReleaseMethod
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 176)) = fts5RollbackToMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Mod)) + 184)) = fts5ShadowName
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Vocab)) + 8)) = fts5VocabCreateMethod
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Vocab)) + 16)) = fts5VocabConnectMethod
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Vocab)) + 24)) = fts5VocabBestIndexMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Vocab)) + 32)) = fts5VocabDisconnectMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Vocab)) + 40)) = fts5VocabDestroyMethod
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Vocab)) + 48)) = fts5VocabOpenMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Vocab)) + 56)) = fts5VocabCloseMethod
*(*func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Vocab)) + 64)) = fts5VocabFilterMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Vocab)) + 72)) = fts5VocabNextMethod
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Vocab)) + 80)) = fts5VocabEofMethod
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Vocab)) + 88)) = fts5VocabColumnMethod
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&fts5Vocab)) + 96)) = fts5VocabRowidMethod
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 8)) = geopolyCreate
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 16)) = geopolyConnect
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 24)) = geopolyBestIndex
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 32)) = rtreeDisconnect
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 40)) = rtreeDestroy
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 48)) = rtreeOpen
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 56)) = rtreeClose
*(*func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 64)) = geopolyFilter
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 72)) = rtreeNext
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 80)) = rtreeEof
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 88)) = geopolyColumn
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 96)) = rtreeRowid
*(*func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 104)) = geopolyUpdate
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 112)) = rtreeBeginTransaction
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 120)) = rtreeEndTransaction
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 128)) = rtreeEndTransaction
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 136)) = rtreeEndTransaction
*(*func(*libc.TLS, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 144)) = geopolyFindFunction
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 152)) = rtreeRename
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 160)) = rtreeSavepoint
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&geopolyModule)) + 184)) = rtreeShadowName
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonEachModule)) + 16)) = jsonEachConnect
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonEachModule)) + 24)) = jsonEachBestIndex
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonEachModule)) + 32)) = jsonEachDisconnect
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonEachModule)) + 48)) = jsonEachOpenEach
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonEachModule)) + 56)) = jsonEachClose
*(*func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonEachModule)) + 64)) = jsonEachFilter
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonEachModule)) + 72)) = jsonEachNext
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonEachModule)) + 80)) = jsonEachEof
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonEachModule)) + 88)) = jsonEachColumn
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonEachModule)) + 96)) = jsonEachRowid
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonTreeModule)) + 16)) = jsonEachConnect
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonTreeModule)) + 24)) = jsonEachBestIndex
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonTreeModule)) + 32)) = jsonEachDisconnect
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonTreeModule)) + 48)) = jsonEachOpenTree
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonTreeModule)) + 56)) = jsonEachClose
*(*func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonTreeModule)) + 64)) = jsonEachFilter
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonTreeModule)) + 72)) = jsonEachNext
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonTreeModule)) + 80)) = jsonEachEof
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonTreeModule)) + 88)) = jsonEachColumn
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&jsonTreeModule)) + 96)) = jsonEachRowid
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_io_methods)) + 8)) = memdbClose
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_io_methods)) + 16)) = memdbRead
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_io_methods)) + 24)) = memdbWrite
*(*func(*libc.TLS, uintptr, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_io_methods)) + 32)) = memdbTruncate
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_io_methods)) + 40)) = memdbSync
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_io_methods)) + 48)) = memdbFileSize
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_io_methods)) + 56)) = memdbLock
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_io_methods)) + 64)) = memdbUnlock
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_io_methods)) + 80)) = memdbFileControl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_io_methods)) + 96)) = memdbDeviceCharacteristics
*(*func(*libc.TLS, uintptr, Sqlite3_int64, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_io_methods)) + 136)) = memdbFetch
*(*func(*libc.TLS, uintptr, Sqlite3_int64, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_io_methods)) + 144)) = memdbUnfetch
*(*func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_vfs)) + 40)) = memdbOpen
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_vfs)) + 56)) = memdbAccess
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_vfs)) + 64)) = memdbFullPathname
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_vfs)) + 72)) = memdbDlOpen
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_vfs)) + 80)) = memdbDlError
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_vfs)) + 88)) = memdbDlSym
*(*func(*libc.TLS, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_vfs)) + 96)) = memdbDlClose
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_vfs)) + 104)) = memdbRandomness
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_vfs)) + 112)) = memdbSleep
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_vfs)) + 128)) = memdbGetLastError
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&memdb_vfs)) + 136)) = memdbCurrentTimeInt64
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoFinder)) + 0)) = nfsIoFinderImpl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 8)) = unixClose
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 16)) = unixRead
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 24)) = unixWrite
*(*func(*libc.TLS, uintptr, I64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 32)) = unixTruncate
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 40)) = unixSync
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 48)) = unixFileSize
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 56)) = unixLock
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 64)) = nfsUnlock
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 72)) = unixCheckReservedLock
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 80)) = unixFileControl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 88)) = unixSectorSize
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 96)) = unixDeviceCharacteristics
*(*func(*libc.TLS, uintptr, int32, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 112)) = unixShmLock
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 120)) = unixShmBarrier
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 128)) = unixShmUnmap
*(*func(*libc.TLS, uintptr, I64, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 136)) = unixFetch
*(*func(*libc.TLS, uintptr, I64, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nfsIoMethods)) + 144)) = unixUnfetch
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoFinder)) + 0)) = nolockIoFinderImpl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 8)) = nolockClose
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 16)) = unixRead
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 24)) = unixWrite
*(*func(*libc.TLS, uintptr, I64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 32)) = unixTruncate
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 40)) = unixSync
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 48)) = unixFileSize
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 56)) = nolockLock
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 64)) = nolockUnlock
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 72)) = nolockCheckReservedLock
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 80)) = unixFileControl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 88)) = unixSectorSize
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 96)) = unixDeviceCharacteristics
*(*func(*libc.TLS, uintptr, int32, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 112)) = unixShmLock
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 120)) = unixShmBarrier
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 128)) = unixShmUnmap
*(*func(*libc.TLS, uintptr, I64, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 136)) = unixFetch
*(*func(*libc.TLS, uintptr, I64, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&nolockIoMethods)) + 144)) = unixUnfetch
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoFinder)) + 0)) = posixIoFinderImpl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 8)) = unixClose
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 16)) = unixRead
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 24)) = unixWrite
*(*func(*libc.TLS, uintptr, I64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 32)) = unixTruncate
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 40)) = unixSync
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 48)) = unixFileSize
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 56)) = unixLock
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 64)) = unixUnlock
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 72)) = unixCheckReservedLock
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 80)) = unixFileControl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 88)) = unixSectorSize
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 96)) = unixDeviceCharacteristics
*(*func(*libc.TLS, uintptr, int32, int32, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 104)) = unixShmMap
*(*func(*libc.TLS, uintptr, int32, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 112)) = unixShmLock
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 120)) = unixShmBarrier
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 128)) = unixShmUnmap
*(*func(*libc.TLS, uintptr, I64, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 136)) = unixFetch
*(*func(*libc.TLS, uintptr, I64, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&posixIoMethods)) + 144)) = unixUnfetch
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&pragmaVtabModule)) + 16)) = pragmaVtabConnect
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&pragmaVtabModule)) + 24)) = pragmaVtabBestIndex
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&pragmaVtabModule)) + 32)) = pragmaVtabDisconnect
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&pragmaVtabModule)) + 48)) = pragmaVtabOpen
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&pragmaVtabModule)) + 56)) = pragmaVtabClose
*(*func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&pragmaVtabModule)) + 64)) = pragmaVtabFilter
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&pragmaVtabModule)) + 72)) = pragmaVtabNext
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&pragmaVtabModule)) + 80)) = pragmaVtabEof
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&pragmaVtabModule)) + 88)) = pragmaVtabColumn
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&pragmaVtabModule)) + 96)) = pragmaVtabRowid
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoFinder)) + 0)) = proxyIoFinderImpl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 8)) = proxyClose
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 16)) = unixRead
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 24)) = unixWrite
*(*func(*libc.TLS, uintptr, I64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 32)) = unixTruncate
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 40)) = unixSync
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 48)) = unixFileSize
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 56)) = proxyLock
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 64)) = proxyUnlock
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 72)) = proxyCheckReservedLock
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 80)) = unixFileControl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 88)) = unixSectorSize
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 96)) = unixDeviceCharacteristics
*(*func(*libc.TLS, uintptr, int32, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 112)) = unixShmLock
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 120)) = unixShmBarrier
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 128)) = unixShmUnmap
*(*func(*libc.TLS, uintptr, I64, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 136)) = unixFetch
*(*func(*libc.TLS, uintptr, I64, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&proxyIoMethods)) + 144)) = unixUnfetch
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 8)) = rbuVfsClose
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 16)) = rbuVfsRead
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 24)) = rbuVfsWrite
*(*func(*libc.TLS, uintptr, Sqlite_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 32)) = rbuVfsTruncate
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 40)) = rbuVfsSync
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 48)) = rbuVfsFileSize
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 56)) = rbuVfsLock
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 64)) = rbuVfsUnlock
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 72)) = rbuVfsCheckReservedLock
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 80)) = rbuVfsFileControl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 88)) = rbuVfsSectorSize
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 96)) = rbuVfsDeviceCharacteristics
*(*func(*libc.TLS, uintptr, int32, int32, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 104)) = rbuVfsShmMap
*(*func(*libc.TLS, uintptr, int32, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 112)) = rbuVfsShmLock
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 120)) = rbuVfsShmBarrier
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods)) + 128)) = rbuVfsShmUnmap
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods1)) + 8)) = rbuVfsClose
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods1)) + 16)) = rbuVfsRead
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods1)) + 24)) = rbuVfsWrite
*(*func(*libc.TLS, uintptr, Sqlite_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods1)) + 32)) = rbuVfsTruncate
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods1)) + 40)) = rbuVfsSync
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods1)) + 48)) = rbuVfsFileSize
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods1)) + 56)) = rbuVfsLock
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods1)) + 64)) = rbuVfsUnlock
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods1)) + 72)) = rbuVfsCheckReservedLock
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods1)) + 80)) = rbuVfsFileControl
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods1)) + 88)) = rbuVfsSectorSize
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rbuvfs_io_methods1)) + 96)) = rbuVfsDeviceCharacteristics
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 8)) = rtreeCreate
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 16)) = rtreeConnect
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 24)) = rtreeBestIndex
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 32)) = rtreeDisconnect
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 40)) = rtreeDestroy
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 48)) = rtreeOpen
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 56)) = rtreeClose
*(*func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 64)) = rtreeFilter
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 72)) = rtreeNext
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 80)) = rtreeEof
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 88)) = rtreeColumn
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 96)) = rtreeRowid
*(*func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 104)) = rtreeUpdate
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 112)) = rtreeBeginTransaction
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 120)) = rtreeEndTransaction
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 128)) = rtreeEndTransaction
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 136)) = rtreeEndTransaction
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 152)) = rtreeRename
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 160)) = rtreeSavepoint
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&rtreeModule)) + 184)) = rtreeShadowName
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 8)) = fts5ApiUserData
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 16)) = fts5ApiColumnCount
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 24)) = fts5ApiRowCount
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 32)) = fts5ApiColumnTotalSize
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 40)) = fts5ApiTokenize
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 48)) = fts5ApiPhraseCount
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 56)) = fts5ApiPhraseSize
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 64)) = fts5ApiInstCount
*(*func(*libc.TLS, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 72)) = fts5ApiInst
*(*func(*libc.TLS, uintptr) Sqlite3_int64)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 80)) = fts5ApiRowid
*(*func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 88)) = fts5ApiColumnText
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 96)) = fts5ApiColumnSize
*(*func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 104)) = fts5ApiQueryPhrase
*(*func(*libc.TLS, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 112)) = fts5ApiSetAuxdata
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 120)) = fts5ApiGetAuxdata
*(*func(*libc.TLS, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 128)) = fts5ApiPhraseFirst
*(*func(*libc.TLS, uintptr, uintptr, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 136)) = fts5ApiPhraseNext
*(*func(*libc.TLS, uintptr, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 144)) = fts5ApiPhraseFirstColumn
*(*func(*libc.TLS, uintptr, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sFts5Api)) + 152)) = fts5ApiPhraseNextColumn
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sMemJournalMethods)) + 8)) = memjrnlClose
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sMemJournalMethods)) + 16)) = memjrnlRead
*(*func(*libc.TLS, uintptr, uintptr, int32, Sqlite_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sMemJournalMethods)) + 24)) = memjrnlWrite
*(*func(*libc.TLS, uintptr, Sqlite_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sMemJournalMethods)) + 32)) = memjrnlTruncate
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sMemJournalMethods)) + 40)) = memjrnlSync
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sMemJournalMethods)) + 48)) = memjrnlFileSize
*(*func(*libc.TLS) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sMutex)) + 0)) = noopMutexInit
*(*func(*libc.TLS) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sMutex)) + 8)) = noopMutexEnd
*(*func(*libc.TLS, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sMutex)) + 16)) = noopMutexAlloc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sMutex)) + 24)) = noopMutexFree
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sMutex)) + 32)) = noopMutexEnter
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sMutex)) + 40)) = noopMutexTry
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sMutex)) + 48)) = noopMutexLeave
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 0)) = Xsqlite3_aggregate_context
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 8)) = Xsqlite3_aggregate_count
*(*func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 16)) = Xsqlite3_bind_blob
*(*func(*libc.TLS, uintptr, int32, float64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 24)) = Xsqlite3_bind_double
*(*func(*libc.TLS, uintptr, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 32)) = Xsqlite3_bind_int
*(*func(*libc.TLS, uintptr, int32, Sqlite_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 40)) = Xsqlite3_bind_int64
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 48)) = Xsqlite3_bind_null
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 56)) = Xsqlite3_bind_parameter_count
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 64)) = Xsqlite3_bind_parameter_index
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 72)) = Xsqlite3_bind_parameter_name
*(*func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 80)) = Xsqlite3_bind_text
*(*func(*libc.TLS, uintptr, int32, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 88)) = Xsqlite3_bind_text16
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 96)) = Xsqlite3_bind_value
*(*func(*libc.TLS, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 104)) = Xsqlite3_busy_handler
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 112)) = Xsqlite3_busy_timeout
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 120)) = Xsqlite3_changes
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 128)) = Xsqlite3_close
*(*func(*libc.TLS, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 136)) = Xsqlite3_collation_needed
*(*func(*libc.TLS, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 144)) = Xsqlite3_collation_needed16
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 152)) = Xsqlite3_column_blob
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 160)) = Xsqlite3_column_bytes
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 168)) = Xsqlite3_column_bytes16
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 176)) = Xsqlite3_column_count
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 184)) = Xsqlite3_column_database_name
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 192)) = Xsqlite3_column_database_name16
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 200)) = Xsqlite3_column_decltype
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 208)) = Xsqlite3_column_decltype16
*(*func(*libc.TLS, uintptr, int32) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 216)) = Xsqlite3_column_double
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 224)) = Xsqlite3_column_int
*(*func(*libc.TLS, uintptr, int32) Sqlite_int64)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 232)) = Xsqlite3_column_int64
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 240)) = Xsqlite3_column_name
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 248)) = Xsqlite3_column_name16
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 256)) = Xsqlite3_column_origin_name
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 264)) = Xsqlite3_column_origin_name16
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 272)) = Xsqlite3_column_table_name
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 280)) = Xsqlite3_column_table_name16
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 288)) = Xsqlite3_column_text
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 296)) = Xsqlite3_column_text16
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 304)) = Xsqlite3_column_type
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 312)) = Xsqlite3_column_value
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 320)) = Xsqlite3_commit_hook
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 328)) = Xsqlite3_complete
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 336)) = Xsqlite3_complete16
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 344)) = Xsqlite3_create_collation
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 352)) = Xsqlite3_create_collation16
*(*func(*libc.TLS, uintptr, uintptr, int32, int32, uintptr, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 360)) = Xsqlite3_create_function
*(*func(*libc.TLS, uintptr, uintptr, int32, int32, uintptr, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 368)) = Xsqlite3_create_function16
*(*func(*libc.TLS, uintptr, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 376)) = Xsqlite3_create_module
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 384)) = Xsqlite3_data_count
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 392)) = Xsqlite3_db_handle
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 400)) = Xsqlite3_declare_vtab
*(*func(*libc.TLS, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 408)) = Xsqlite3_enable_shared_cache
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 416)) = Xsqlite3_errcode
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 424)) = Xsqlite3_errmsg
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 432)) = Xsqlite3_errmsg16
*(*func(*libc.TLS, uintptr, uintptr, Sqlite3_callback, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 440)) = Xsqlite3_exec
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 448)) = Xsqlite3_expired
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 456)) = Xsqlite3_finalize
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 464)) = Xsqlite3_free
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 472)) = Xsqlite3_free_table
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 480)) = Xsqlite3_get_autocommit
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 488)) = Xsqlite3_get_auxdata
*(*func(*libc.TLS, uintptr, uintptr, uintptr, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 496)) = Xsqlite3_get_table
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 512)) = Xsqlite3_interrupt
*(*func(*libc.TLS, uintptr) Sqlite3_int64)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 520)) = Xsqlite3_last_insert_rowid
*(*func(*libc.TLS) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 528)) = Xsqlite3_libversion
*(*func(*libc.TLS) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 536)) = Xsqlite3_libversion_number
*(*func(*libc.TLS, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 544)) = Xsqlite3_malloc
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 552)) = Xsqlite3_mprintf
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 560)) = Xsqlite3_open
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 568)) = Xsqlite3_open16
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 576)) = Xsqlite3_prepare
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 584)) = Xsqlite3_prepare16
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 592)) = Xsqlite3_profile
*(*func(*libc.TLS, uintptr, int32, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 600)) = Xsqlite3_progress_handler
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 608)) = Xsqlite3_realloc
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 616)) = Xsqlite3_reset
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 624)) = Xsqlite3_result_blob
*(*func(*libc.TLS, uintptr, float64))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 632)) = Xsqlite3_result_double
*(*func(*libc.TLS, uintptr, uintptr, int32))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 640)) = Xsqlite3_result_error
*(*func(*libc.TLS, uintptr, uintptr, int32))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 648)) = Xsqlite3_result_error16
*(*func(*libc.TLS, uintptr, int32))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 656)) = Xsqlite3_result_int
*(*func(*libc.TLS, uintptr, I64))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 664)) = Xsqlite3_result_int64
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 672)) = Xsqlite3_result_null
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 680)) = Xsqlite3_result_text
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 688)) = Xsqlite3_result_text16
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 696)) = Xsqlite3_result_text16be
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 704)) = Xsqlite3_result_text16le
*(*func(*libc.TLS, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 712)) = Xsqlite3_result_value
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 720)) = Xsqlite3_rollback_hook
*(*func(*libc.TLS, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 728)) = Xsqlite3_set_authorizer
*(*func(*libc.TLS, uintptr, int32, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 736)) = Xsqlite3_set_auxdata
*(*func(*libc.TLS, int32, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 744)) = Xsqlite3_snprintf
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 752)) = Xsqlite3_step
*(*func(*libc.TLS, uintptr, uintptr, uintptr, uintptr, uintptr, uintptr, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 760)) = Xsqlite3_table_column_metadata
*(*func(*libc.TLS))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 768)) = Xsqlite3_thread_cleanup
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 776)) = Xsqlite3_total_changes
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 784)) = Xsqlite3_trace
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 792)) = Xsqlite3_transfer_bindings
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 800)) = Xsqlite3_update_hook
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 808)) = Xsqlite3_user_data
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 816)) = Xsqlite3_value_blob
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 824)) = Xsqlite3_value_bytes
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 832)) = Xsqlite3_value_bytes16
*(*func(*libc.TLS, uintptr) float64)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 840)) = Xsqlite3_value_double
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 848)) = Xsqlite3_value_int
*(*func(*libc.TLS, uintptr) Sqlite_int64)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 856)) = Xsqlite3_value_int64
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 864)) = Xsqlite3_value_numeric_type
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 872)) = Xsqlite3_value_text
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 880)) = Xsqlite3_value_text16
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 888)) = Xsqlite3_value_text16be
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 896)) = Xsqlite3_value_text16le
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 904)) = Xsqlite3_value_type
*(*func(*libc.TLS, uintptr, Va_list) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 912)) = Xsqlite3_vmprintf
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 920)) = Xsqlite3_overload_function
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 928)) = Xsqlite3_prepare_v2
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 936)) = Xsqlite3_prepare16_v2
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 944)) = Xsqlite3_clear_bindings
*(*func(*libc.TLS, uintptr, uintptr, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 952)) = Xsqlite3_create_module_v2
*(*func(*libc.TLS, uintptr, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 960)) = Xsqlite3_bind_zeroblob
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 968)) = Xsqlite3_blob_bytes
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 976)) = Xsqlite3_blob_close
*(*func(*libc.TLS, uintptr, uintptr, uintptr, uintptr, Sqlite_int64, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 984)) = Xsqlite3_blob_open
*(*func(*libc.TLS, uintptr, uintptr, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 992)) = Xsqlite3_blob_read
*(*func(*libc.TLS, uintptr, uintptr, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1000)) = Xsqlite3_blob_write
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1008)) = Xsqlite3_create_collation_v2
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1016)) = Xsqlite3_file_control
*(*func(*libc.TLS, int32) Sqlite3_int64)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1024)) = Xsqlite3_memory_highwater
*(*func(*libc.TLS) Sqlite3_int64)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1032)) = Xsqlite3_memory_used
*(*func(*libc.TLS, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1040)) = Xsqlite3_mutex_alloc
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1048)) = Xsqlite3_mutex_enter
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1056)) = Xsqlite3_mutex_free
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1064)) = Xsqlite3_mutex_leave
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1072)) = Xsqlite3_mutex_try
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1080)) = Xsqlite3_open_v2
*(*func(*libc.TLS, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1088)) = Xsqlite3_release_memory
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1096)) = Xsqlite3_result_error_nomem
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1104)) = Xsqlite3_result_error_toobig
*(*func(*libc.TLS, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1112)) = Xsqlite3_sleep
*(*func(*libc.TLS, int32))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1120)) = Xsqlite3_soft_heap_limit
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1128)) = Xsqlite3_vfs_find
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1136)) = Xsqlite3_vfs_register
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1144)) = Xsqlite3_vfs_unregister
*(*func(*libc.TLS) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1152)) = Xsqlite3_threadsafe
*(*func(*libc.TLS, uintptr, int32))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1160)) = Xsqlite3_result_zeroblob
*(*func(*libc.TLS, uintptr, int32))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1168)) = Xsqlite3_result_error_code
*(*func(*libc.TLS, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1176)) = Xsqlite3_test_control
*(*func(*libc.TLS, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1184)) = Xsqlite3_randomness
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1192)) = Xsqlite3_context_db_handle
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1200)) = Xsqlite3_extended_result_codes
*(*func(*libc.TLS, uintptr, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1208)) = Xsqlite3_limit
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1216)) = Xsqlite3_next_stmt
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1224)) = Xsqlite3_sql
*(*func(*libc.TLS, int32, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1232)) = Xsqlite3_status
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1240)) = Xsqlite3_backup_finish
*(*func(*libc.TLS, uintptr, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1248)) = Xsqlite3_backup_init
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1256)) = Xsqlite3_backup_pagecount
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1264)) = Xsqlite3_backup_remaining
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1272)) = Xsqlite3_backup_step
*(*func(*libc.TLS, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1280)) = Xsqlite3_compileoption_get
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1288)) = Xsqlite3_compileoption_used
*(*func(*libc.TLS, uintptr, uintptr, int32, int32, uintptr, uintptr, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1296)) = Xsqlite3_create_function_v2
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1304)) = Xsqlite3_db_config
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1312)) = Xsqlite3_db_mutex
*(*func(*libc.TLS, uintptr, int32, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1320)) = Xsqlite3_db_status
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1328)) = Xsqlite3_extended_errcode
*(*func(*libc.TLS, int32, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1336)) = Xsqlite3_log
*(*func(*libc.TLS, Sqlite3_int64) Sqlite3_int64)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1344)) = Xsqlite3_soft_heap_limit64
*(*func(*libc.TLS) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1352)) = Xsqlite3_sourceid
*(*func(*libc.TLS, uintptr, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1360)) = Xsqlite3_stmt_status
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1368)) = Xsqlite3_strnicmp
*(*func(*libc.TLS, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1376)) = Xsqlite3_unlock_notify
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1384)) = Xsqlite3_wal_autocheckpoint
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1392)) = Xsqlite3_wal_checkpoint
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1400)) = Xsqlite3_wal_hook
*(*func(*libc.TLS, uintptr, Sqlite3_int64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1408)) = Xsqlite3_blob_reopen
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1416)) = Xsqlite3_vtab_config
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1424)) = Xsqlite3_vtab_on_conflict
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1432)) = Xsqlite3_close_v2
*(*func(*libc.TLS, uintptr, uintptr) Sqlite3_filename)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1440)) = Xsqlite3_db_filename
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1448)) = Xsqlite3_db_readonly
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1456)) = Xsqlite3_db_release_memory
*(*func(*libc.TLS, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1464)) = Xsqlite3_errstr
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1472)) = Xsqlite3_stmt_busy
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1480)) = Xsqlite3_stmt_readonly
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1488)) = Xsqlite3_stricmp
*(*func(*libc.TLS, Sqlite3_filename, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1496)) = Xsqlite3_uri_boolean
*(*func(*libc.TLS, Sqlite3_filename, uintptr, Sqlite3_int64) Sqlite3_int64)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1504)) = Xsqlite3_uri_int64
*(*func(*libc.TLS, Sqlite3_filename, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1512)) = Xsqlite3_uri_parameter
*(*func(*libc.TLS, int32, uintptr, uintptr, Va_list) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1520)) = Xsqlite3_vsnprintf
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1528)) = Xsqlite3_wal_checkpoint_v2
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1536)) = Xsqlite3_auto_extension
*(*func(*libc.TLS, uintptr, int32, uintptr, Sqlite3_uint64, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1544)) = Xsqlite3_bind_blob64
*(*func(*libc.TLS, uintptr, int32, uintptr, Sqlite3_uint64, uintptr, uint8) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1552)) = Xsqlite3_bind_text64
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1560)) = Xsqlite3_cancel_auto_extension
*(*func(*libc.TLS, uintptr, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1568)) = Xsqlite3_load_extension
*(*func(*libc.TLS, Sqlite3_uint64) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1576)) = Xsqlite3_malloc64
*(*func(*libc.TLS, uintptr) Sqlite3_uint64)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1584)) = Xsqlite3_msize
*(*func(*libc.TLS, uintptr, Sqlite3_uint64) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1592)) = Xsqlite3_realloc64
*(*func(*libc.TLS))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1600)) = Xsqlite3_reset_auto_extension
*(*func(*libc.TLS, uintptr, uintptr, Sqlite3_uint64, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1608)) = Xsqlite3_result_blob64
*(*func(*libc.TLS, uintptr, uintptr, Sqlite3_uint64, uintptr, uint8))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1616)) = Xsqlite3_result_text64
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1624)) = Xsqlite3_strglob
*(*uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1632)) = *(*uintptr)(unsafe.Pointer(&struct {
f func(*libc.TLS, uintptr) uintptr
}{Xsqlite3_value_dup}))
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1640)) = Xsqlite3_value_free
*(*func(*libc.TLS, uintptr, U64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1648)) = Xsqlite3_result_zeroblob64
*(*func(*libc.TLS, uintptr, int32, Sqlite3_uint64) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1656)) = Xsqlite3_bind_zeroblob64
*(*func(*libc.TLS, uintptr) uint32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1664)) = Xsqlite3_value_subtype
*(*func(*libc.TLS, uintptr, uint32))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1672)) = Xsqlite3_result_subtype
*(*func(*libc.TLS, int32, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1680)) = Xsqlite3_status64
*(*func(*libc.TLS, uintptr, uintptr, uint32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1688)) = Xsqlite3_strlike
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1696)) = Xsqlite3_db_cacheflush
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1704)) = Xsqlite3_system_errno
*(*func(*libc.TLS, uintptr, uint32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1712)) = Xsqlite3_trace_v2
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1720)) = Xsqlite3_expanded_sql
*(*func(*libc.TLS, uintptr, Sqlite3_int64))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1728)) = Xsqlite3_set_last_insert_rowid
*(*func(*libc.TLS, uintptr, uintptr, int32, uint32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1736)) = Xsqlite3_prepare_v3
*(*func(*libc.TLS, uintptr, uintptr, int32, uint32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1744)) = Xsqlite3_prepare16_v3
*(*func(*libc.TLS, uintptr, int32, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1752)) = Xsqlite3_bind_pointer
*(*func(*libc.TLS, uintptr, uintptr, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1760)) = Xsqlite3_result_pointer
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1768)) = Xsqlite3_value_pointer
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1776)) = Xsqlite3_vtab_nochange
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1784)) = Xsqlite3_value_nochange
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1792)) = Xsqlite3_vtab_collation
*(*func(*libc.TLS) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1800)) = Xsqlite3_keyword_count
*(*func(*libc.TLS, int32, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1808)) = Xsqlite3_keyword_name
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1816)) = Xsqlite3_keyword_check
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1824)) = Xsqlite3_str_new
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1832)) = Xsqlite3_str_finish
*(*func(*libc.TLS, uintptr, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1840)) = Xsqlite3_str_appendf
*(*func(*libc.TLS, uintptr, uintptr, Va_list))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1848)) = Xsqlite3_str_vappendf
*(*func(*libc.TLS, uintptr, uintptr, int32))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1856)) = Xsqlite3_str_append
*(*func(*libc.TLS, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1864)) = Xsqlite3_str_appendall
*(*func(*libc.TLS, uintptr, int32, int8))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1872)) = Xsqlite3_str_appendchar
*(*func(*libc.TLS, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1880)) = Xsqlite3_str_reset
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1888)) = Xsqlite3_str_errcode
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1896)) = Xsqlite3_str_length
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1904)) = Xsqlite3_str_value
*(*func(*libc.TLS, uintptr, uintptr, int32, int32, uintptr, uintptr, uintptr, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1912)) = Xsqlite3_create_window_function
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1928)) = Xsqlite3_stmt_isexplain
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1936)) = Xsqlite3_value_frombind
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1944)) = Xsqlite3_drop_modules
*(*func(*libc.TLS, Sqlite3_int64) Sqlite3_int64)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1952)) = Xsqlite3_hard_heap_limit64
*(*func(*libc.TLS, Sqlite3_filename, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1960)) = Xsqlite3_uri_key
*(*func(*libc.TLS, Sqlite3_filename) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1968)) = Xsqlite3_filename_database
*(*func(*libc.TLS, Sqlite3_filename) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1976)) = Xsqlite3_filename_journal
*(*func(*libc.TLS, Sqlite3_filename) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1984)) = Xsqlite3_filename_wal
*(*func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr) Sqlite3_filename)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 1992)) = Xsqlite3_create_filename
*(*func(*libc.TLS, Sqlite3_filename))(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2000)) = Xsqlite3_free_filename
*(*func(*libc.TLS, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2008)) = Xsqlite3_database_file_object
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2016)) = Xsqlite3_txn_state
*(*func(*libc.TLS, uintptr) Sqlite3_int64)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2024)) = Xsqlite3_changes64
*(*func(*libc.TLS, uintptr) Sqlite3_int64)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2032)) = Xsqlite3_total_changes64
*(*func(*libc.TLS, uintptr, uintptr, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2040)) = Xsqlite3_autovacuum_pages
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2048)) = Xsqlite3_error_offset
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2056)) = Xsqlite3_vtab_rhs_value
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2064)) = Xsqlite3_vtab_distinct
*(*func(*libc.TLS, uintptr, int32, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2072)) = Xsqlite3_vtab_in
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2080)) = Xsqlite3_vtab_in_first
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2088)) = Xsqlite3_vtab_in_next
*(*func(*libc.TLS, uintptr, uintptr, uintptr, Sqlite3_int64, Sqlite3_int64, uint32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2096)) = Xsqlite3_deserialize
*(*func(*libc.TLS, uintptr, uintptr, uintptr, uint32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2104)) = Xsqlite3_serialize
*(*func(*libc.TLS, uintptr, int32) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2112)) = Xsqlite3_db_name
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2120)) = Xsqlite3_value_encoding
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3Apis)) + 2128)) = Xsqlite3_is_interrupted
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3BuiltinExtensions)) + 0)) = Xsqlite3Fts5Init
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3BuiltinExtensions)) + 8)) = Xsqlite3RtreeInit
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3BuiltinExtensions)) + 16)) = sqlite3TestExtInit
*(*func(*libc.TLS, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&sqlite3BuiltinExtensions)) + 24)) = Xsqlite3JsonTableFunctions
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&statGetFuncdef)) + 24)) = statGet
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&statInitFuncdef)) + 24)) = statInit
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&statPushFuncdef)) + 24)) = statPush
*(*func(*libc.TLS, uintptr, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&vfs_template)) + 40)) = rbuVfsOpen
*(*func(*libc.TLS, uintptr, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&vfs_template)) + 48)) = rbuVfsDelete
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&vfs_template)) + 56)) = rbuVfsAccess
*(*func(*libc.TLS, uintptr, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&vfs_template)) + 64)) = rbuVfsFullPathname
*(*func(*libc.TLS, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&vfs_template)) + 72)) = rbuVfsDlOpen
*(*func(*libc.TLS, uintptr, int32, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&vfs_template)) + 80)) = rbuVfsDlError
*(*func(*libc.TLS, uintptr, uintptr, uintptr) uintptr)(unsafe.Pointer(uintptr(unsafe.Pointer(&vfs_template)) + 88)) = rbuVfsDlSym
*(*func(*libc.TLS, uintptr, uintptr))(unsafe.Pointer(uintptr(unsafe.Pointer(&vfs_template)) + 96)) = rbuVfsDlClose
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&vfs_template)) + 104)) = rbuVfsRandomness
*(*func(*libc.TLS, uintptr, int32) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&vfs_template)) + 112)) = rbuVfsSleep
*(*func(*libc.TLS, uintptr, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&vfs_template)) + 120)) = rbuVfsCurrentTime
*(*func(*libc.TLS, uintptr, int32, uintptr) int32)(unsafe.Pointer(uintptr(unsafe.Pointer(&vfs_template)) + 128)) = rbuVfsGetLastError
}
var ts1 = "3.41.0\x00ATOMIC_INTRINSICS=0\x00COMPILER=clang-12.0.0\x00DEFAULT_AUTOVACUUM\x00DEFAULT_CACHE_SIZE=-2000\x00DEFAULT_FILE_FORMAT=4\x00DEFAULT_JOURNAL_SIZE_LIMIT=-1\x00DEFAULT_MEMSTATUS=0\x00DEFAULT_MMAP_SIZE=0\x00DEFAULT_PAGE_SIZE=4096\x00DEFAULT_PCACHE_INITSZ=20\x00DEFAULT_RECURSIVE_TRIGGERS\x00DEFAULT_SECTOR_SIZE=4096\x00DEFAULT_SYNCHRONOUS=2\x00DEFAULT_WAL_AUTOCHECKPOINT=1000\x00DEFAULT_WAL_SYNCHRONOUS=2\x00DEFAULT_WORKER_THREADS=0\x00ENABLE_COLUMN_METADATA\x00ENABLE_FTS5\x00ENABLE_GEOPOLY\x00ENABLE_MATH_FUNCTIONS\x00ENABLE_MEMORY_MANAGEMENT\x00ENABLE_OFFSET_SQL_FUNC\x00ENABLE_PREUPDATE_HOOK\x00ENABLE_RBU\x00ENABLE_RTREE\x00ENABLE_SESSION\x00ENABLE_SNAPSHOT\x00ENABLE_STAT4\x00ENABLE_UNLOCK_NOTIFY\x00LIKE_DOESNT_MATCH_BLOBS\x00MALLOC_SOFT_LIMIT=1024\x00MAX_ATTACHED=10\x00MAX_COLUMN=2000\x00MAX_COMPOUND_SELECT=500\x00MAX_DEFAULT_PAGE_SIZE=8192\x00MAX_EXPR_DEPTH=1000\x00MAX_FUNCTION_ARG=127\x00MAX_LENGTH=1000000000\x00MAX_LIKE_PATTERN_LENGTH=50000\x00MAX_MMAP_SIZE=0x7fff0000\x00MAX_PAGE_COUNT=1073741823\x00MAX_PAGE_SIZE=65536\x00MAX_SQL_LENGTH=1000000000\x00MAX_TRIGGER_DEPTH=1000\x00MAX_VARIABLE_NUMBER=32766\x00MAX_VDBE_OP=250000000\x00MAX_WORKER_THREADS=8\x00MUTEX_NOOP\x00SOUNDEX\x00SYSTEM_MALLOC\x00TEMP_STORE=1\x00THREADSAFE=1\x00BINARY\x00ANY\x00BLOB\x00INT\x00INTEGER\x00REAL\x00TEXT\x0020b:20e\x0020c:20e\x0020e\x0040f-21a-21d\x00now\x00local time unavailable\x00second\x00minute\x00hour\x00\x00\x00day\x00\x00\x00\x00month\x00\x00year\x00\x00\x00auto\x00julianday\x00localtime\x00unixepoch\x00utc\x00weekday \x00start of \x00month\x00year\x00day\x00%02d\x00%06.3f\x00%03d\x00%.16g\x00%lld\x00%04d\x00date\x00time\x00datetime\x00strftime\x00current_time\x00current_timestamp\x00current_date\x00failed to allocate %u bytes of memory\x00failed memory resize %u to %u bytes\x00out of memory\x000123456789ABCDEF0123456789abcdef\x00-x0\x00X0\x00%\x00NaN\x00Inf\x00\x00NULL\x00(NULL)\x00.\x00(join-%u)\x00(subquery-%u)\x00thstndrd\x00922337203685477580\x00API call with %s database connection pointer\x00unopened\x00invalid\x00Savepoint\x00AutoCommit\x00Transaction\x00Checkpoint\x00JournalMode\x00Vacuum\x00VFilter\x00VUpdate\x00Init\x00Goto\x00Gosub\x00InitCoroutine\x00Yield\x00MustBeInt\x00Jump\x00Once\x00If\x00IfNot\x00IsType\x00Not\x00IfNullRow\x00SeekLT\x00SeekLE\x00SeekGE\x00SeekGT\x00IfNotOpen\x00IfNoHope\x00NoConflict\x00NotFound\x00Found\x00SeekRowid\x00NotExists\x00Last\x00IfSmaller\x00SorterSort\x00Sort\x00Rewind\x00SorterNext\x00Prev\x00Next\x00IdxLE\x00IdxGT\x00IdxLT\x00Or\x00And\x00IdxGE\x00RowSetRead\x00RowSetTest\x00Program\x00FkIfZero\x00IsNull\x00NotNull\x00Ne\x00Eq\x00Gt\x00Le\x00Lt\x00Ge\x00ElseEq\x00IfPos\x00IfNotZero\x00DecrJumpZero\x00IncrVacuum\x00VNext\x00Filter\x00PureFunc\x00Function\x00Return\x00EndCoroutine\x00HaltIfNull\x00Halt\x00Integer\x00Int64\x00String\x00BeginSubrtn\x00Null\x00SoftNull\x00Blob\x00Variable\x00Move\x00Copy\x00SCopy\x00IntCopy\x00FkCheck\x00ResultRow\x00CollSeq\x00AddImm\x00RealAffinity\x00Cast\x00Permutation\x00Compare\x00IsTrue\x00ZeroOrNull\x00Offset\x00Column\x00TypeCheck\x00Affinity\x00MakeRecord\x00Count\x00ReadCookie\x00SetCookie\x00ReopenIdx\x00BitAnd\x00BitOr\x00ShiftLeft\x00ShiftRight\x00Add\x00Subtract\x00Multiply\x00Divide\x00Remainder\x00Concat\x00OpenRead\x00OpenWrite\x00BitNot\x00OpenDup\x00OpenAutoindex\x00String8\x00OpenEphemeral\x00SorterOpen\x00SequenceTest\x00OpenPseudo\x00Close\x00ColumnsUsed\x00SeekScan\x00SeekHit\x00Sequence\x00NewRowid\x00Insert\x00RowCell\x00Delete\x00ResetCount\x00SorterCompare\x00SorterData\x00RowData\x00Rowid\x00NullRow\x00SeekEnd\x00IdxInsert\x00SorterInsert\x00IdxDelete\x00DeferredSeek\x00IdxRowid\x00FinishSeek\x00Destroy\x00Clear\x00ResetSorter\x00CreateBtree\x00SqlExec\x00ParseSchema\x00LoadAnalysis\x00DropTable\x00DropIndex\x00Real\x00DropTrigger\x00IntegrityCk\x00RowSetAdd\x00Param\x00FkCounter\x00MemMax\x00OffsetLimit\x00AggInverse\x00AggStep\x00AggStep1\x00AggValue\x00AggFinal\x00Expire\x00CursorLock\x00CursorUnlock\x00TableLock\x00VBegin\x00VCreate\x00VDestroy\x00VOpen\x00VInitIn\x00VColumn\x00VRename\x00Pagecount\x00MaxPgcnt\x00ClrSubtype\x00FilterAdd\x00Trace\x00CursorHint\x00ReleaseReg\x00Noop\x00Explain\x00Abortable\x00open\x00close\x00access\x00getcwd\x00stat\x00fstat\x00ftruncate\x00fcntl\x00read\x00pread\x00pread64\x00write\x00pwrite\x00pwrite64\x00fchmod\x00fallocate\x00unlink\x00openDirectory\x00mkdir\x00rmdir\x00fchown\x00geteuid\x00mmap\x00munmap\x00mremap\x00getpagesize\x00readlink\x00lstat\x00ioctl\x00attempt to open \"%s\" as file descriptor %d\x00/dev/null\x00os_unix.c:%d: (%d) %s(%s) - %s\x00S\x00cannot fstat db file %s\x00file unlinked while open: %s\x00multiple links to file: %s\x00file renamed while open: %s\x00%s\x00full_fsync\x00%s-shm\x00readonly_shm\x00nfs\x00hfs\x00ufs\x00afpfs\x00smbfs\x00webdav\x00psow\x00unix-excl\x00%s.lock\x00/var/tmp\x00/usr/tmp\x00/tmp\x00SQLITE_TMPDIR\x00TMPDIR\x00%s/etilqs_%llx%c\x00modeof\x00msdos\x00exfat\x00SQLITE_FORCE_PROXY_LOCKING\x00:auto:\x00fsync\x00/dev/urandom\x00sqliteplocks\x00/\x00dummy\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00break\x00path error (len %d)\x00read error (len %d)\x00create failed (%d)\x00write failed (%d)\x00rename failed (%d)\x00broke stale lock on %s\n\x00failed to break stale lock on %s, %s\n\x00-conch\x00.lock\x00:auto: (not held)\x00unix\x00unix-none\x00unix-dotfile\x00unix-posix\x00unix-flock\x00unix-afp\x00unix-nfs\x00unix-proxy\x00memdb\x00memdb(%p,%lld)\x00PRAGMA \"%w\".page_count\x00ATTACH x AS %Q\x00recovered %d pages from %s\x00-journal\x00-wal\x00nolock\x00immutable\x00PRAGMA table_list\x00recovered %d frames from WAL file %s\x00cannot limit WAL size: %s\x00SQLite format 3\x00:memory:\x00@ \x00\n\x00invalid page number %d\x002nd reference to page %d\x00Failed to read ptrmap key=%d\x00Bad ptr map entry key=%d expected=(%d,%d) got=(%d,%d)\x00failed to get page %d\x00freelist leaf count too big on page %d\x00%s is %d but should be %d\x00size\x00overflow list length\x00Page %u: \x00unable to get the page. error code=%d\x00btreeInitPage() returns error code %d\x00free space corruption\x00On tree page %u cell %d: \x00On page %u at right child: \x00Offset %d out of range %d..%d\x00Extends off end of page\x00Rowid %lld out of order\x00Child page depth differs\x00Multiple uses for byte %u of page %u\x00Fragmentation of %d bytes reported as %d on page %u\x00Main freelist: \x00max rootpage (%d) disagrees with header (%d)\x00incremental_vacuum enabled with a max rootpage of zero\x00Page %d is never used\x00Pointer map page %d is referenced\x00unknown database %s\x00destination database is in use\x00source and destination must be distinct\x00%!.15g\x00-\x00%s%s\x00k(%d\x00B\x00,%s%s%s\x00N.\x00)\x00%.18s-%s\x00%s(%d)\x00%d\x00(blob)\x00vtab:%p\x00%c%u\x00]\x00program\x00?\x008\x0016LE\x0016BE\x00addr\x00opcode\x00p1\x00p2\x00p3\x00p4\x00p5\x00comment\x00id\x00parent\x00notused\x00detail\x00%.4c%s%.16c\x00MJ delete: %s\x00MJ collide: %s\x00-mj%06X9%02X\x00FOREIGN KEY constraint failed\x00a CHECK constraint\x00a generated column\x00an index\x00non-deterministic use of %s() in %s\x00API called with finalized prepared statement\x00API called with NULL prepared statement\x00string or blob too big\x00bind on a busy prepared statement: [%s]\x00-- \x00'%.*q'\x00zeroblob(%d)\x00x'\x00%02x\x00'\x00%s constraint failed\x00%z: %s\x00abort at %d in [%s]: %s\x00cannot store %s value in %s column %s.%s\x00cannot open savepoint - SQL statements in progress\x00no such savepoint: %s\x00cannot release savepoint - SQL statements in progress\x00cannot commit transaction - SQL statements in progress\x00cannot start a transaction within a transaction\x00cannot rollback - no transaction is active\x00cannot commit - no transaction is active\x00database schema has changed\x00index corruption\x00sqlite_master\x00SELECT*FROM\"%w\".%s WHERE %s ORDER BY rowid\x00too many levels of trigger recursion\x00cannot change %s wal mode from within a transaction\x00into\x00out of\x00database table is locked: %s\x00ValueList\x00-- %s\x00statement aborts at %d: [%s] %s\x00NOT NULL\x00UNIQUE\x00CHECK\x00FOREIGN KEY\x00cannot open value of type %s\x00null\x00real\x00integer\x00no such rowid: %lld\x00cannot open virtual table: %s\x00cannot open table without rowid: %s\x00cannot open view: %s\x00no such column: \"%s\"\x00foreign key\x00indexed\x00cannot open %s column for writing\x00sqlite_\x00sqlite_temp_master\x00sqlite_temp_schema\x00sqlite_schema\x00main\x00*\x00new\x00old\x00excluded\x00misuse of aliased aggregate %s\x00misuse of aliased window function %s\x00row value misused\x00double-quoted string literal: \"%w\"\x00coalesce\x00no such column\x00ambiguous column name\x00%s: %s.%s.%s\x00%s: %s.%s\x00%s: %s\x00partial index WHERE clauses\x00index expressions\x00CHECK constraints\x00generated columns\x00%s prohibited in %s\x00true\x00false\x00the \".\" operator\x00second argument to %#T() must be a constant between 0.0 and 1.0\x00not authorized to use function: %#T\x00non-deterministic functions\x00%#T() may not be used as a window function\x00window\x00aggregate\x00misuse of %s function %#T()\x00no such function: %#T\x00wrong number of arguments to function %#T()\x00FILTER may not be used with non-aggregate %#T()\x00subqueries\x00parameters\x00%r %s BY term out of range - should be between 1 and %d\x00too many terms in ORDER BY clause\x00ORDER\x00%r ORDER BY term does not match any column in the result set\x00too many terms in %s BY clause\x00HAVING clause on a non-aggregate query\x00GROUP\x00aggregate functions are not allowed in the GROUP BY clause\x00Expression tree is too large (maximum depth %d)\x00IN(...) element has %d term%s - expected %d\x00s\x000\x00too many arguments on function %T\x00unsafe use of %#T()\x00variable number must be between ?1 and ?%d\x00too many SQL variables\x00%d columns assigned %d values\x00too many columns in %s\x00_ROWID_\x00ROWID\x00OID\x00USING ROWID SEARCH ON TABLE %s FOR IN-OPERATOR\x00USING INDEX %s FOR IN-OPERATOR\x00sub-select returns %d columns - expected %d\x00REUSE LIST SUBQUERY %d\x00%sLIST SUBQUERY %d\x00CORRELATED \x00REUSE SUBQUERY %d\x00%sSCALAR SUBQUERY %d\x001\x000x\x00hex literal too big: %s%#T\x00generated column loop on \"%s\"\x00blob\x00text\x00numeric\x00flexnum\x00none\x00misuse of aggregate: %#T()\x00unknown function: %#T()\x00RAISE() may only be used within a trigger-program\x00B\x00C\x00D\x00E\x00F\x00table %s may not be altered\x00SELECT 1 FROM \"%w\".sqlite_master WHERE name NOT LIKE 'sqliteX_%%' ESCAPE 'X' AND sql NOT LIKE 'create virtual%%' AND sqlite_rename_test(%Q, sql, type, name, %d, %Q, %d)=NULL \x00SELECT 1 FROM temp.sqlite_master WHERE name NOT LIKE 'sqliteX_%%' ESCAPE 'X' AND sql NOT LIKE 'create virtual%%' AND sqlite_rename_test(%Q, sql, type, name, 1, %Q, %d)=NULL \x00UPDATE \"%w\".sqlite_master SET sql = sqlite_rename_quotefix(%Q, sql)WHERE name NOT LIKE 'sqliteX_%%' ESCAPE 'X' AND sql NOT LIKE 'create virtual%%'\x00UPDATE temp.sqlite_master SET sql = sqlite_rename_quotefix('temp', sql)WHERE name NOT LIKE 'sqliteX_%%' ESCAPE 'X' AND sql NOT LIKE 'create virtual%%'\x00there is already another table or index with this name: %s\x00table\x00view %s may not be altered\x00UPDATE \"%w\".sqlite_master SET sql = sqlite_rename_table(%Q, type, name, sql, %Q, %Q, %d) WHERE (type!='index' OR tbl_name=%Q COLLATE nocase)AND name NOT LIKE 'sqliteX_%%' ESCAPE 'X'\x00UPDATE %Q.sqlite_master SET tbl_name = %Q, name = CASE WHEN type='table' THEN %Q WHEN name LIKE 'sqliteX_autoindex%%' ESCAPE 'X' AND type='index' THEN 'sqlite_autoindex_' || %Q || substr(name,%d+18) ELSE name END WHERE tbl_name=%Q COLLATE nocase AND (type='table' OR type='index' OR type='trigger');\x00sqlite_sequence\x00UPDATE \"%w\".sqlite_sequence set name = %Q WHERE name = %Q\x00UPDATE sqlite_temp_schema SET sql = sqlite_rename_table(%Q, type, name, sql, %Q, %Q, 1), tbl_name = CASE WHEN tbl_name=%Q COLLATE nocase AND sqlite_rename_test(%Q, sql, type, name, 1, 'after rename', 0) THEN %Q ELSE tbl_name END WHERE type IN ('view', 'trigger')\x00after rename\x00SELECT raise(ABORT,%Q) FROM \"%w\".\"%w\"\x00Cannot add a PRIMARY KEY column\x00Cannot add a UNIQUE column\x00Cannot add a REFERENCES column with non-NULL default value\x00Cannot add a NOT NULL column with default value NULL\x00Cannot add a column with non-constant default\x00cannot add a STORED column\x00UPDATE \"%w\".sqlite_master SET sql = printf('%%.%ds, ',sql) || %Q || substr(sql,1+length(printf('%%.%ds',sql))) WHERE type = 'table' AND name = %Q\x00SELECT CASE WHEN quick_check GLOB 'CHECK*' THEN raise(ABORT,'CHECK constraint failed') ELSE raise(ABORT,'NOT NULL constraint failed') END FROM pragma_quick_check(%Q,%Q) WHERE quick_check GLOB 'CHECK*' OR quick_check GLOB 'NULL*'\x00virtual tables may not be altered\x00Cannot add a column to a view\x00sqlite_altertab_%s\x00view\x00virtual table\x00cannot %s %s \"%s\"\x00drop column from\x00rename columns of\x00no such column: \"%T\"\x00UPDATE \"%w\".sqlite_master SET sql = sqlite_rename_column(sql, type, name, %Q, %Q, %d, %Q, %d, %d) WHERE name NOT LIKE 'sqliteX_%%' ESCAPE 'X' AND (type != 'index' OR tbl_name = %Q)\x00UPDATE temp.sqlite_master SET sql = sqlite_rename_column(sql, type, name, %Q, %Q, %d, %Q, %d, 1) WHERE type IN ('trigger', 'view')\x00error in %s %s%s%s: %s\x00 \x00CREATE \x00\"%w\" \x00%Q%s\x00%.*s%s\x00cannot drop %s column: \"%s\"\x00PRIMARY KEY\x00cannot drop column \"%s\": no other columns exist\x00UPDATE \"%w\".sqlite_master SET sql = sqlite_drop_column(%d, sql, %d) WHERE (type=='table' AND tbl_name=%Q COLLATE nocase)\x00after drop column\x00sqlite_rename_column\x00sqlite_rename_table\x00sqlite_rename_test\x00sqlite_drop_column\x00sqlite_rename_quotefix\x00CREATE TABLE %Q.%s(%s)\x00DELETE FROM %Q.%s WHERE %s=%Q\x00DELETE FROM %Q.%s\x00sqlite_stat1\x00tbl,idx,stat\x00sqlite_stat4\x00tbl,idx,neq,nlt,ndlt,sample\x00sqlite_stat3\x00stat_init\x00stat_push\x00%llu\x00 %llu\x00%llu \x00stat_get\x00sqlite\\_%\x00BBB\x00idx\x00tbl\x00unordered*\x00sz=[0-9]*\x00noskipscan*\x00SELECT idx,count(*) FROM %Q.sqlite_stat4 GROUP BY idx\x00SELECT idx,neq,nlt,ndlt,sample FROM %Q.sqlite_stat4\x00SELECT tbl,idx,stat FROM %Q.sqlite_stat1\x00x\x00\x00too many attached databases - max %d\x00database %s is already in use\x00database is already attached\x00attached databases must use the same text encoding as main database\x00unable to open database: %s\x00no such database: %s\x00cannot detach database %s\x00database %s is locked\x00sqlite_detach\x00sqlite_attach\x00%s cannot use variables\x00%s %T cannot reference objects in database %s\x00authorizer malfunction\x00%s.%s\x00%s.%z\x00access to %z is prohibited\x00not authorized\x00pragma_\x00no such view\x00no such table\x00corrupt database\x00unknown database %T\x00object name reserved for internal use: %s\x00temporary table name must be unqualified\x00%s %T already exists\x00there is already an index named %s\x00sqlite_returning\x00cannot use RETURNING in a trigger\x00too many columns on %s\x00always\x00generated\x00duplicate column name: %s\x00default value of column [%s] is not constant\x00cannot use DEFAULT on a generated column\x00generated columns cannot be part of the PRIMARY KEY\x00table \"%s\" has more than one primary key\x00AUTOINCREMENT is only allowed on an INTEGER PRIMARY KEY\x00virtual tables cannot use computed columns\x00virtual\x00stored\x00error in generated column \"%s\"\x00,\x00\n \x00,\n \x00\n)\x00CREATE TABLE \x00 TEXT\x00 NUM\x00 INT\x00 REAL\x00unknown datatype for %s.%s: \"%s\"\x00missing datatype for %s.%s\x00AUTOINCREMENT not allowed on WITHOUT ROWID tables\x00PRIMARY KEY missing on table %s\x00must have at least one non-generated column\x00TABLE\x00VIEW\x00CREATE %s %.*s\x00UPDATE %Q.sqlite_master SET type='%s', name=%Q, tbl_name=%Q, rootpage=#%d, sql=%Q WHERE rowid=#%d\x00CREATE TABLE %Q.sqlite_sequence(name,seq)\x00tbl_name='%q' AND type!='trigger'\x00parameters are not allowed in views\x00view %s is circularly defined\x00corrupt schema\x00UPDATE %Q.sqlite_master SET rootpage=%d WHERE #%d AND rootpage=#%d\x00sqlite_stat%d\x00DELETE FROM %Q.sqlite_sequence WHERE name=%Q\x00DELETE FROM %Q.sqlite_master WHERE tbl_name=%Q and type!='trigger'\x00table %s may not be dropped\x00use DROP TABLE to delete table %s\x00use DROP VIEW to delete view %s\x00foreign key on %s should reference only one column of table %T\x00number of columns in foreign key does not match the number of columns in the referenced table\x00unknown column \"%s\" in foreign key definition\x00unsupported use of NULLS %s\x00FIRST\x00LAST\x00index\x00cannot create a TEMP index on non-TEMP table \"%s\"\x00table %s may not be indexed\x00views may not be indexed\x00virtual tables may not be indexed\x00there is already a table named %s\x00index %s already exists\x00sqlite_autoindex_%s_%d\x00expressions prohibited in PRIMARY KEY and UNIQUE constraints\x00conflicting ON CONFLICT clauses specified\x00invalid rootpage\x00CREATE%s INDEX %.*s\x00 UNIQUE\x00INSERT INTO %Q.sqlite_master VALUES('index',%Q,%Q,#%d,%Q);\x00name='%q' AND type='index'\x00no such index: %S\x00index associated with UNIQUE or PRIMARY KEY constraint cannot be dropped\x00DELETE FROM %Q.sqlite_master WHERE name=%Q AND type='index'\x00too many FROM clause terms, max: %d\x00a JOIN clause is required before %s\x00ON\x00USING\x00BEGIN\x00ROLLBACK\x00COMMIT\x00RELEASE\x00unable to open a temporary database file for storing temporary tables\x00index '%q'\x00, \x00%s.rowid\x00unable to identify the object to be reindexed\x00duplicate WITH table name: %s\x00no such collation sequence: %s\x00unsafe use of virtual table \"%s\"\x00table %s may not be modified\x00cannot modify %s because it is a view\x00rows deleted\x00integer overflow\x00%.*f\x00LIKE or GLOB pattern too complex\x00ESCAPE expression must be a single character\x00%!.20e\x00%Q\x00?000\x00MATCH\x00like\x00implies_nonnull_row\x00expr_compare\x00expr_implies_expr\x00affinity\x00soundex\x00load_extension\x00sqlite_compileoption_used\x00sqlite_compileoption_get\x00unlikely\x00likelihood\x00likely\x00sqlite_offset\x00ltrim\x00rtrim\x00trim\x00min\x00max\x00typeof\x00subtype\x00length\x00instr\x00printf\x00format\x00unicode\x00char\x00abs\x00round\x00upper\x00lower\x00hex\x00unhex\x00ifnull\x00random\x00randomblob\x00nullif\x00sqlite_version\x00sqlite_source_id\x00sqlite_log\x00quote\x00last_insert_rowid\x00changes\x00total_changes\x00replace\x00zeroblob\x00substr\x00substring\x00sum\x00total\x00avg\x00count\x00group_concat\x00glob\x00ceil\x00ceiling\x00floor\x00trunc\x00ln\x00log\x00log10\x00log2\x00exp\x00pow\x00power\x00mod\x00acos\x00asin\x00atan\x00atan2\x00cos\x00sin\x00tan\x00cosh\x00sinh\x00tanh\x00acosh\x00asinh\x00atanh\x00sqrt\x00radians\x00degrees\x00pi\x00sign\x00iif\x00foreign key mismatch - \"%w\" referencing \"%w\"\x00cannot INSERT into generated column \"%s\"\x00table %S has no column named %s\x00table %S has %d columns but %d values were supplied\x00%d values for %d columns\x00UPSERT not implemented for virtual table \"%s\"\x00cannot UPSERT a view\x00rows inserted\x00sqlite3_extension_init\x00sqlite3_\x00lib\x00_init\x00no entry point [%s] in shared library [%s]\x00error during initialization: %s\x00unable to open shared library [%.*s]\x00dylib\x00automatic extension loading failed: %s\x00seq\x00from\x00to\x00on_update\x00on_delete\x00match\x00cid\x00name\x00type\x00notnull\x00dflt_value\x00pk\x00hidden\x00schema\x00ncol\x00wr\x00strict\x00seqno\x00desc\x00coll\x00key\x00builtin\x00enc\x00narg\x00flags\x00wdth\x00hght\x00flgs\x00unique\x00origin\x00partial\x00rowid\x00fkid\x00file\x00busy\x00checkpointed\x00database\x00status\x00cache_size\x00timeout\x00analysis_limit\x00application_id\x00auto_vacuum\x00automatic_index\x00busy_timeout\x00cache_spill\x00case_sensitive_like\x00cell_size_check\x00checkpoint_fullfsync\x00collation_list\x00compile_options\x00count_changes\x00data_version\x00database_list\x00default_cache_size\x00defer_foreign_keys\x00empty_result_callbacks\x00encoding\x00foreign_key_check\x00foreign_key_list\x00foreign_keys\x00freelist_count\x00full_column_names\x00fullfsync\x00function_list\x00hard_heap_limit\x00ignore_check_constraints\x00incremental_vacuum\x00index_info\x00index_list\x00index_xinfo\x00integrity_check\x00journal_mode\x00journal_size_limit\x00legacy_alter_table\x00lock_proxy_file\x00locking_mode\x00max_page_count\x00mmap_size\x00module_list\x00optimize\x00page_count\x00page_size\x00pragma_list\x00query_only\x00quick_check\x00read_uncommitted\x00recursive_triggers\x00reverse_unordered_selects\x00schema_version\x00secure_delete\x00short_column_names\x00shrink_memory\x00soft_heap_limit\x00synchronous\x00table_info\x00table_list\x00table_xinfo\x00temp_store\x00temp_store_directory\x00threads\x00trusted_schema\x00user_version\x00wal_autocheckpoint\x00wal_checkpoint\x00writable_schema\x00onoffalseyestruextrafull\x00exclusive\x00normal\x00full\x00incremental\x00memory\x00temporary storage cannot be changed from within a transaction\x00SET NULL\x00SET DEFAULT\x00CASCADE\x00RESTRICT\x00NO ACTION\x00delete\x00persist\x00off\x00truncate\x00wal\x00w\x00a\x00sissii\x00utf8\x00utf16le\x00utf16be\x00-%T\x00fast\x00not a writable directory\x00failed to set lock proxy file\x00Safety level may not be changed inside a transaction\x00reset\x00issisii\x00issisi\x00SELECT*FROM\"%w\"\x00shadow\x00sssiii\x00iisX\x00isiX\x00c\x00u\x00isisi\x00iss\x00is\x00iissssss\x00NONE\x00siX\x00*** in database %s ***\n\x00row not in PRIMARY KEY order for %s\x00NULL value in %s.%s\x00non-%s value in %s.%s\x00NUMERIC value in %s.%s\x00C\x00TEXT value in %s.%s\x00CHECK constraint failed in %s\x00row \x00 missing from index \x00 values differ from index \x00non-unique entry in index \x00wrong # of entries in index \x00ok\x00unsupported encoding: %s\x00restart\x00ANALYZE \"%w\".\"%w\"\x00UTF8\x00UTF-8\x00UTF-16le\x00UTF-16be\x00UTF16le\x00UTF16be\x00UTF-16\x00UTF16\x00CREATE TABLE x\x00%c\"%s\"\x00(\"%s\"\x00,arg HIDDEN\x00,schema HIDDEN\x00PRAGMA \x00%Q.\x00=%Q\x00error in %s %s after %s: %s\x00malformed database schema (%s)\x00%z - %s\x00rename\x00drop column\x00add column\x00orphan index\x00CREATE TABLE x(type text,name text,tbl_name text,rootpage int,sql text)\x00unsupported file format\x00SELECT*FROM\"%w\".%s ORDER BY rowid\x00database schema is locked: %s\x00statement too long\x00unknown join type: %T%s%T%s%T\x00naturaleftouterightfullinnercross\x00a NATURAL join may not have an ON or USING clause\x00cannot join using column %s - column not present in both tables\x00ambiguous reference to %s in USING()\x00UNION ALL\x00INTERSECT\x00EXCEPT\x00UNION\x00USE TEMP B-TREE FOR %s\x00USE TEMP B-TREE FOR %sORDER BY\x00RIGHT PART OF \x00column%d\x00%.*z:%u\x00NUM\x00cannot use window functions in recursive queries\x00recursive aggregate queries not supported\x00SETUP\x00RECURSIVE STEP\x00SCAN %d CONSTANT ROW%s\x00COMPOUND QUERY\x00LEFT-MOST SUBQUERY\x00%s USING TEMP B-TREE\x00all VALUES must have the same number of terms\x00SELECTs to the left and right of %s do not have the same number of result columns\x00MERGE (%s)\x00LEFT\x00RIGHT\x00no such index: %s\x00'%s' is not a function\x00no such index: \"%s\"\x00multiple references to recursive table: %s\x00circular reference: %s\x00table %s has %d values for %d columns\x00multiple recursive references: %s\x00recursive reference in a subquery: %s\x00%!S\x00too many references to \"%s\": max 65535\x00access to view \"%s\" prohibited\x00..%s\x00%s.%s.%s\x00no such table: %s\x00no tables specified\x00too many columns in result set\x00DISTINCT aggregates must have exactly one argument\x00USE TEMP B-TREE FOR %s(DISTINCT)\x00SCAN %s%s%s\x00 USING COVERING INDEX \x00target object/alias may not appear in FROM clause: %s\x00expected %d columns for '%s' but got %d\x00CO-ROUTINE %!S\x00MATERIALIZE %!S\x00DISTINCT\x00GROUP BY\x00sqlite3_get_table() called with two or more incompatible queries\x00temporary trigger may not have qualified name\x00trigger\x00cannot create triggers on virtual tables\x00trigger %T already exists\x00cannot create trigger on system table\x00cannot create %s trigger on view: %S\x00BEFORE\x00AFTER\x00cannot create INSTEAD OF trigger on table: %S\x00trigger \"%s\" may not write to shadow table \"%s\"\x00INSERT INTO %Q.sqlite_master VALUES('trigger',%Q,%Q,0,'CREATE TRIGGER %q')\x00type='trigger' AND name='%q'\x00no such trigger: %S\x00DELETE FROM %Q.sqlite_master WHERE name=%Q AND type='trigger'\x00%s RETURNING is not available on virtual tables\x00DELETE\x00UPDATE\x00RETURNING may not use \"TABLE.*\" wildcards\x00-- TRIGGER %s\x00cannot UPDATE generated column \"%s\"\x00no such column: %s\x00rows updated\x00%r \x00%sON CONFLICT clause does not match any PRIMARY KEY or UNIQUE constraint\x00CRE\x00INS\x00cannot VACUUM from within a transaction\x00cannot VACUUM - SQL statements in progress\x00non-text filename\x00ATTACH %Q AS vacuum_db\x00output file already exists\x00SELECT sql FROM \"%w\".sqlite_schema WHERE type='table'AND name<>'sqlite_sequence' AND coalesce(rootpage,1)>0\x00SELECT sql FROM \"%w\".sqlite_schema WHERE type='index'\x00SELECT'INSERT INTO vacuum_db.'||quote(name)||' SELECT*FROM\"%w\".'||quote(name)FROM vacuum_db.sqlite_schema WHERE type='table'AND coalesce(rootpage,1)>0\x00INSERT INTO vacuum_db.sqlite_schema SELECT*FROM \"%w\".sqlite_schema WHERE type IN('view','trigger') OR(type='table'AND rootpage=0)\x00CREATE VIRTUAL TABLE %T\x00UPDATE %Q.sqlite_master SET type='table', name=%Q, tbl_name=%Q, rootpage=0, sql=%Q WHERE rowid=#%d\x00name=%Q AND sql=%Q\x00vtable constructor called recursively: %s\x00vtable constructor failed: %s\x00vtable constructor did not declare schema: %s\x00no such module: %s\x00<expr>\x00 AND \x00(\x00 (\x00%s=?\x00ANY(%s)\x00>\x00<\x00%s %S\x00SEARCH\x00SCAN\x00AUTOMATIC PARTIAL COVERING INDEX\x00AUTOMATIC COVERING INDEX\x00COVERING INDEX %s\x00INDEX %s\x00 USING \x00 USING INTEGER PRIMARY KEY (%s\x00>? AND %s\x00%c?)\x00 VIRTUAL TABLE INDEX %d:%s\x00 LEFT-JOIN\x00BLOOM FILTER ON %S (\x00rowid=?\x00MULTI-INDEX OR\x00INDEX %d\x00RIGHT-JOIN %s\x00regexp\x00ON clause references tables to its right\x00NOCASE\x00too many arguments on %s() - max %d\x00automatic index on %s(%s)\x00auto-index\x00%s.xBestIndex malfunction\x00abbreviated query algorithm search\x00no query solution\x00at most %d tables in a join\x00SCAN CONSTANT ROW\x00second argument to nth_value must be a positive integer\x00argument of ntile must be a positive integer\x00row_number\x00dense_rank\x00rank\x00percent_rank\x00cume_dist\x00ntile\x00last_value\x00nth_value\x00first_value\x00lead\x00lag\x00no such window: %s\x00RANGE with offset PRECEDING/FOLLOWING requires one ORDER BY expression\x00FILTER clause may only be used with aggregate window functions\x00misuse of aggregate: %s()\x00unsupported frame specification\x00PARTITION clause\x00ORDER BY clause\x00frame specification\x00cannot override %s of window: %s\x00DISTINCT is not supported for window functions\x00frame starting offset must be a non-negative integer\x00frame ending offset must be a non-negative integer\x00frame starting offset must be a non-negative number\x00frame ending offset must be a non-negative number\x00%s clause should come after %s not before\x00ORDER BY\x00LIMIT\x00too many terms in compound SELECT\x00syntax error after column name \"%.*s\"\x00parser stack overflow\x00unknown table option: %.*s\x00set list\x00near \"%T\": syntax error\x00qualified table names are not allowed on INSERT, UPDATE, and DELETE statements within triggers\x00the INDEXED BY clause is not allowed on UPDATE or DELETE statements within triggers\x00the NOT INDEXED clause is not allowed on UPDATE or DELETE statements within triggers\x00incomplete input\x00unrecognized token: \"%T\"\x00%s in \"%s\"\x00create\x00temp\x00temporary\x00end\x00explain\x00unable to close due to unfinalized statements or unfinished backups\x00unknown error\x00abort due to ROLLBACK\x00another row available\x00no more rows available\x00not an error\x00SQL logic error\x00access permission denied\x00query aborted\x00database is locked\x00database table is locked\x00attempt to write a readonly database\x00interrupted\x00disk I/O error\x00database disk image is malformed\x00unknown operation\x00database or disk is full\x00unable to open database file\x00locking protocol\x00constraint failed\x00datatype mismatch\x00bad parameter or other API misuse\x00authorization denied\x00column index out of range\x00file is not a database\x00notification message\x00warning message\x00unable to delete/modify user-function due to active statements\x00unable to use function %s in the requested context\x00unknown database: %s\x00unable to delete/modify collation sequence due to active statements\x00file:\x00localhost\x00invalid uri authority: %.*s\x00vfs\x00cache\x00mode\x00no such %s mode: %s\x00%s mode not allowed: %s\x00no such vfs: %s\x00shared\x00private\x00ro\x00rw\x00rwc\x00RTRIM\x00\x00\x00\x00%s at line %d of [%.10s]\x00database corruption\x00misuse\x00cannot open file\x00no such table column: %s.%s\x00SQLITE_\x00database is deadlocked\x00array\x00object\x000123456789abcdef\x00JSON cannot hold BLOB values\x00malformed JSON\x00[0]\x00JSON path error near '%q'\x00json_%s() needs an odd number of arguments\x00$[\x00$.\x00json_object() requires an even number of arguments\x00json_object() labels must be TEXT\x00set\x00insert\x00[]\x00{}\x00CREATE TABLE x(key,value,type,atom,id,parent,fullkey,path,json HIDDEN,root HIDDEN)\x00.%.*s\x00[%d]\x00$\x00json\x00json_array\x00json_array_length\x00json_extract\x00->\x00->>\x00json_insert\x00json_object\x00json_patch\x00json_quote\x00json_remove\x00json_replace\x00json_set\x00json_type\x00json_valid\x00json_group_array\x00json_group_object\x00json_each\x00json_tree\x00%s_node\x00data\x00DROP TABLE '%q'.'%q_node';DROP TABLE '%q'.'%q_rowid';DROP TABLE '%q'.'%q_parent';\x00RtreeMatchArg\x00SELECT * FROM %Q.%Q\x00UNIQUE constraint failed: %s.%s\x00rtree constraint failed: %s.(%s<=%s)\x00ALTER TABLE %Q.'%q_node' RENAME TO \"%w_node\";ALTER TABLE %Q.'%q_parent' RENAME TO \"%w_parent\";ALTER TABLE %Q.'%q_rowid' RENAME TO \"%w_rowid\";\x00SELECT stat FROM %Q.sqlite_stat1 WHERE tbl = '%q_rowid'\x00node\x00CREATE TABLE \"%w\".\"%w_rowid\"(rowid INTEGER PRIMARY KEY,nodeno\x00,a%d\x00);CREATE TABLE \"%w\".\"%w_node\"(nodeno INTEGER PRIMARY KEY,data);\x00CREATE TABLE \"%w\".\"%w_parent\"(nodeno INTEGER PRIMARY KEY,parentnode);\x00INSERT INTO \"%w\".\"%w_node\"VALUES(1,zeroblob(%d))\x00INSERT INTO\"%w\".\"%w_rowid\"(rowid,nodeno)VALUES(?1,?2)ON CONFLICT(rowid)DO UPDATE SET nodeno=excluded.nodeno\x00SELECT * FROM \"%w\".\"%w_rowid\" WHERE rowid=?1\x00UPDATE \"%w\".\"%w_rowid\"SET \x00a%d=coalesce(?%d,a%d)\x00a%d=?%d\x00 WHERE rowid=?1\x00INSERT OR REPLACE INTO '%q'.'%q_node' VALUES(?1, ?2)\x00DELETE FROM '%q'.'%q_node' WHERE nodeno = ?1\x00SELECT nodeno FROM '%q'.'%q_rowid' WHERE rowid = ?1\x00INSERT OR REPLACE INTO '%q'.'%q_rowid' VALUES(?1, ?2)\x00DELETE FROM '%q'.'%q_rowid' WHERE rowid = ?1\x00SELECT parentnode FROM '%q'.'%q_parent' WHERE nodeno = ?1\x00INSERT OR REPLACE INTO '%q'.'%q_parent' VALUES(?1, ?2)\x00DELETE FROM '%q'.'%q_parent' WHERE nodeno = ?1\x00PRAGMA %Q.page_size\x00SELECT length(data) FROM '%q'.'%q_node' WHERE nodeno = 1\x00undersize RTree blobs in \"%q_node\"\x00Wrong number of columns for an rtree table\x00Too few columns for an rtree table\x00Too many columns for an rtree table\x00Auxiliary rtree columns must be last\x00CREATE TABLE x(%.*s INT\x00,%.*s\x00);\x00,%.*s REAL\x00,%.*s INT\x00{%lld\x00 %g\x00}\x00Invalid argument to rtreedepth()\x00%z%s%z\x00SELECT data FROM %Q.'%q_node' WHERE nodeno=?\x00Node %lld missing from database\x00SELECT parentnode FROM %Q.'%q_parent' WHERE nodeno=?1\x00SELECT nodeno FROM %Q.'%q_rowid' WHERE rowid=?1\x00Mapping (%lld -> %lld) missing from %s table\x00%_rowid\x00%_parent\x00Found (%lld -> %lld) in %s table, expected (%lld -> %lld)\x00Dimension %d of cell %d on node %lld is corrupt\x00Dimension %d of cell %d on node %lld is corrupt relative to parent\x00Node %lld is too small (%d bytes)\x00Rtree depth out of range (%d)\x00Node %lld is too small for cell count of %d (%d bytes)\x00SELECT count(*) FROM %Q.'%q%s'\x00Wrong number of entries in %%%s table - expected %lld, actual %lld\x00SELECT * FROM %Q.'%q_rowid'\x00Schema corrupt or not an rtree\x00_rowid\x00_parent\x00END\x00wrong number of arguments to function rtreecheck()\x00[\x00[%!g,%!g],\x00[%!g,%!g]]\x00<polyline points=\x00%c%g,%g\x00 %g,%g'\x00 %s\x00></polyline>\x00CREATE TABLE x(_shape\x00,%s\x00rtree\x00fullscan\x00_shape does not contain a valid polygon\x00geopoly_overlap\x00geopoly_within\x00geopoly\x00geopoly_area\x00geopoly_blob\x00geopoly_json\x00geopoly_svg\x00geopoly_contains_point\x00geopoly_debug\x00geopoly_bbox\x00geopoly_xform\x00geopoly_regular\x00geopoly_ccw\x00geopoly_group_bbox\x00rtreenode\x00rtreedepth\x00rtreecheck\x00rtree_i32\x00corrupt fossil delta\x00DROP TRIGGER IF EXISTS temp.rbu_insert_tr;DROP TRIGGER IF EXISTS temp.rbu_update1_tr;DROP TRIGGER IF EXISTS temp.rbu_update2_tr;DROP TRIGGER IF EXISTS temp.rbu_delete_tr;\x00SELECT rbu_target_name(name, type='view') AS target, name FROM sqlite_schema WHERE type IN ('table', 'view') AND target IS NOT NULL %s ORDER BY name\x00AND rootpage!=0 AND rootpage IS NOT NULL\x00SELECT name, rootpage, sql IS NULL OR substr(8, 6)=='UNIQUE' FROM main.sqlite_schema WHERE type='index' AND tbl_name = ?\x00SELECT (sql COLLATE nocase BETWEEN 'CREATE VIRTUAL' AND 'CREATE VIRTUAM'), rootpage FROM sqlite_schema WHERE name=%Q\x00PRAGMA index_list=%Q\x00SELECT rootpage FROM sqlite_schema WHERE name = %Q\x00PRAGMA table_info=%Q\x00PRAGMA main.index_list = %Q\x00PRAGMA main.index_xinfo = %Q\x00SELECT * FROM '%q'\x00rbu_\x00rbu_rowid\x00table %q %s rbu_rowid column\x00may not have\x00requires\x00PRAGMA table_info(%Q)\x00column missing from %q: %s\x00%z%s\"%w\"\x00%z%s%s\"%w\"%s\x00SELECT max(_rowid_) FROM \"%s%w\"\x00 WHERE _rowid_ > %lld \x00 DESC\x00quote(\x00||','||\x00SELECT %s FROM \"%s%w\" ORDER BY %s LIMIT 1\x00 WHERE (%s) > (%s) \x00_rowid_\x00%z%s \"%w\" COLLATE %Q\x00%z%s \"rbu_imp_%d%w\" COLLATE %Q DESC\x00%z%s quote(\"rbu_imp_%d%w\")\x00SELECT %s FROM \"rbu_imp_%w\" ORDER BY %s LIMIT 1\x00%z%s%s\x00(%s) > (%s)\x00%z%s(%.*s) COLLATE %Q\x00%z%s\"%w\" COLLATE %Q\x00%z%s\"rbu_imp_%d%w\"%s\x00%z%s\"rbu_imp_%d%w\" %s COLLATE %Q\x00%z%s\"rbu_imp_%d%w\" IS ?\x00%z%s%s.\"%w\"\x00%z%sNULL\x00%z, %s._rowid_\x00_rowid_ = ?%d\x00%z%sc%d=?%d\x00_rowid_ = (SELECT id FROM rbu_imposter2 WHERE %z)\x00%z%s\"%w\"=?%d\x00invalid rbu_control value\x00%z%s\"%w\"=rbu_delta(\"%w\", ?%d)\x00%z%s\"%w\"=rbu_fossil_delta(\"%w\", ?%d)\x00PRIMARY KEY(\x00%z%s\"%w\"%s\x00%z)\x00SELECT name FROM sqlite_schema WHERE rootpage = ?\x00%z%sc%d %s COLLATE %Q\x00%z%sc%d%s\x00%z, id INTEGER\x00CREATE TABLE rbu_imposter2(%z, PRIMARY KEY(%z)) WITHOUT ROWID\x00PRIMARY KEY \x00%z%s\"%w\" %s %sCOLLATE %Q%s\x00 NOT NULL\x00%z, %z\x00CREATE TABLE \"rbu_imp_%w\"(%z)%s\x00 WITHOUT ROWID\x00INSERT INTO %s.'rbu_tmp_%q'(rbu_control,%s%s) VALUES(%z)\x00SELECT trim(sql) FROM sqlite_schema WHERE type='index' AND name=?\x00 LIMIT -1 OFFSET %d\x00CREATE TABLE \"rbu_imp_%w\"( %s, PRIMARY KEY( %s ) ) WITHOUT ROWID\x00INSERT INTO \"rbu_imp_%w\" VALUES(%s)\x00DELETE FROM \"rbu_imp_%w\" WHERE %s\x00SELECT %s, 0 AS rbu_control FROM '%q' %s %s %s ORDER BY %s%s\x00AND\x00WHERE\x00SELECT %s, rbu_control FROM %s.'rbu_tmp_%q' %s ORDER BY %s%s\x00SELECT %s, rbu_control FROM %s.'rbu_tmp_%q' %s UNION ALL SELECT %s, rbu_control FROM '%q' %s %s typeof(rbu_control)='integer' AND rbu_control!=1 ORDER BY %s%s\x00rbu_imp_\x00INSERT INTO \"%s%w\"(%s%s) VALUES(%s)\x00, _rowid_\x00DELETE FROM \"%s%w\" WHERE %s\x00, rbu_rowid\x00CREATE TABLE IF NOT EXISTS %s.'rbu_tmp_%q' AS SELECT *%s FROM '%q' WHERE 0;\x00, 0 AS rbu_rowid\x00CREATE TEMP TRIGGER rbu_delete_tr BEFORE DELETE ON \"%s%w\" BEGIN SELECT rbu_tmp_insert(3, %s);END;CREATE TEMP TRIGGER rbu_update1_tr BEFORE UPDATE ON \"%s%w\" BEGIN SELECT rbu_tmp_insert(3, %s);END;CREATE TEMP TRIGGER rbu_update2_tr AFTER UPDATE ON \"%s%w\" BEGIN SELECT rbu_tmp_insert(4, %s);END;\x00CREATE TEMP TRIGGER rbu_insert_tr AFTER INSERT ON \"%s%w\" BEGIN SELECT rbu_tmp_insert(0, %s);END;\x00,_rowid_ \x00,rbu_rowid\x00SELECT %s,%s rbu_control%s FROM '%q'%s %s %s %s\x000 AS \x00UPDATE \"%s%w\" SET %s WHERE %s\x00SELECT k, v FROM %s.rbu_state\x00file:///%s-vacuum?modeof=%s\x00ATTACH %Q AS stat\x00CREATE TABLE IF NOT EXISTS %s.rbu_state(k INTEGER PRIMARY KEY, v)\x00cannot vacuum wal mode database\x00file:%s-vactmp?rbu_memory=1%s%s\x00&\x00rbu_tmp_insert\x00rbu_fossil_delta\x00rbu_target_name\x00SELECT * FROM sqlite_schema\x00rbu vfs not found\x00PRAGMA main.wal_checkpoint=restart\x00rbu_exclusive_checkpoint\x00%s-oal\x00%s-wal\x00PRAGMA schema_version\x00PRAGMA schema_version = %d\x00INSERT OR REPLACE INTO %s.rbu_state(k, v) VALUES (%d, %d), (%d, %Q), (%d, %Q), (%d, %d), (%d, %d), (%d, %lld), (%d, %lld), (%d, %lld), (%d, %lld), (%d, %Q) \x00PRAGMA main.%s\x00PRAGMA main.%s = %d\x00PRAGMA writable_schema=1\x00SELECT sql FROM sqlite_schema WHERE sql!='' AND rootpage!=0 AND name!='sqlite_sequence' ORDER BY type DESC\x00SELECT * FROM sqlite_schema WHERE rootpage=0 OR rootpage IS NULL\x00INSERT INTO sqlite_schema VALUES(?,?,?,?,?)\x00PRAGMA writable_schema=0\x00DELETE FROM %s.'rbu_tmp_%q'\x00rbu_state mismatch error\x00rbu_vfs_%d\x00SELECT count(*) FROM sqlite_schema WHERE type='index' AND tbl_name = %Q\x00rbu_index_cnt\x00SELECT 1 FROM sqlite_schema WHERE tbl_name = 'rbu_count'\x00SELECT sum(cnt * (1 + rbu_index_cnt(rbu_target_name(tbl))))FROM rbu_count\x00cannot update wal mode database\x00database modified during rbu %s\x00vacuum\x00update\x00BEGIN IMMEDIATE\x00PRAGMA journal_mode=off\x00-vactmp\x00DELETE FROM stat.rbu_state\x00rbu/zipvfs setup error\x00rbu(%s)/%z\x00rbu_memory\x00SELECT 0, 'tbl', '', 0, '', 1 UNION ALL SELECT 1, 'idx', '', 0, '', 2 UNION ALL SELECT 2, 'stat', '', 0, '', 0\x00PRAGMA '%q'.table_info('%q')\x00%z%s\"%w\".\"%w\".\"%w\"=\"%w\".\"%w\".\"%w\"\x00%z%s\"%w\".\"%w\".\"%w\" IS NOT \"%w\".\"%w\".\"%w\"\x00 OR \x00SELECT * FROM \"%w\".\"%w\" WHERE NOT EXISTS ( SELECT 1 FROM \"%w\".\"%w\" WHERE %s)\x00SELECT * FROM \"%w\".\"%w\", \"%w\".\"%w\" WHERE %s AND (%z)\x00table schemas do not match\x00SELECT tbl, ?2, stat FROM %Q.sqlite_stat1 WHERE tbl IS ?1 AND idx IS (CASE WHEN ?2=X'' THEN NULL ELSE ?2 END)\x00SELECT * FROM \x00 WHERE \x00 IS ?\x00SAVEPOINT changeset\x00RELEASE changeset\x00UPDATE main.\x00 SET \x00 = ?\x00idx IS CASE WHEN length(?4)=0 AND typeof(?4)='blob' THEN NULL ELSE ?4 END \x00DELETE FROM main.\x00 AND (?\x00AND \x00INSERT INTO main.\x00) VALUES(?\x00, ?\x00INSERT INTO main.sqlite_stat1 VALUES(?1, CASE WHEN length(?2)=0 AND typeof(?2)='blob' THEN NULL ELSE ?2 END, ?3)\x00DELETE FROM main.sqlite_stat1 WHERE tbl=?1 AND idx IS CASE WHEN length(?2)=0 AND typeof(?2)='blob' THEN NULL ELSE ?2 END AND (?4 OR stat IS ?3)\x00SAVEPOINT replace_op\x00RELEASE replace_op\x00SAVEPOINT changeset_apply\x00PRAGMA defer_foreign_keys = 1\x00sqlite3changeset_apply(): no such table: %s\x00sqlite3changeset_apply(): table %s has %d columns, expected %d or more\x00sqlite3changeset_apply(): primary key mismatch for table %s\x00PRAGMA defer_foreign_keys = 0\x00RELEASE changeset_apply\x00ROLLBACK TO changeset_apply\x00fts5: parser stack overflow\x00fts5: syntax error near \"%.*s\"\x00%z%.*s\x00wrong number of arguments to function highlight()\x00wrong number of arguments to function snippet()\x00snippet\x00highlight\x00bm25\x00prefix\x00malformed prefix=... directive\x00too many prefix indexes (max %d)\x00prefix length out of range (max 999)\x00tokenize\x00multiple tokenize=... directives\x00parse error in tokenize directive\x00content\x00multiple content=... directives\x00%Q.%Q\x00content_rowid\x00multiple content_rowid=... directives\x00columnsize\x00malformed columnsize=... directive\x00columns\x00malformed detail=... directive\x00unrecognized option: \"%.*s\"\x00reserved fts5 column name: %s\x00unindexed\x00unrecognized column option: %s\x00T.%Q\x00, T.%Q\x00, T.c%d\x00reserved fts5 table name: %s\x00parse error in \"%s\"\x00docsize\x00%Q.'%q_%s'\x00CREATE TABLE x(\x00%z%s%Q\x00%z, %Q HIDDEN, %s HIDDEN)\x00pgsz\x00hashsize\x00automerge\x00usermerge\x00crisismerge\x00SELECT k, v FROM %Q.'%q_config'\x00version\x00invalid fts5 file format (found %d, expected %d) - run 'rebuild'\x00unterminated string\x00fts5: syntax error near \"%.1s\"\x00OR\x00NOT\x00NEAR\x00expected integer, got \"%.*s\"\x00fts5: column queries are not supported (detail=none)\x00fts5: %s queries are not supported (detail!=full)\x00phrase\x00block\x00REPLACE INTO '%q'.'%q_data'(id, block) VALUES(?,?)\x00DELETE FROM '%q'.'%q_data' WHERE id>=? AND id<=?\x00DELETE FROM '%q'.'%q_idx' WHERE segid=?\x00PRAGMA %Q.data_version\x00SELECT pgno FROM '%q'.'%q_idx' WHERE segid=? AND term<=? ORDER BY term DESC LIMIT 1\x00INSERT INTO '%q'.'%q_idx'(segid,term,pgno) VALUES(?,?,?)\x00%s_data\x00id INTEGER PRIMARY KEY, block BLOB\x00segid, term, pgno, PRIMARY KEY(segid, term)\x00SELECT segid, term, (pgno>>1), (pgno&1) FROM %Q.'%q_idx' WHERE segid=%d ORDER BY 1, 2\x00\x00\x00\x00\x00\x00recursively defined fts5 content table\x00SELECT rowid, rank FROM %Q.%Q ORDER BY %s(\"%w\"%s%s) %s\x00DESC\x00ASC\x00reads\x00unknown special query: %.*s\x00SELECT %s\x00no such function: %s\x00parse error in rank function: %s\x00%s: table does not support scanning\x00delete-all\x00'delete-all' may only be used with a contentless or external content fts5 table\x00rebuild\x00'rebuild' may not be used with a contentless fts5 table\x00merge\x00integrity-check\x00cannot %s contentless fts5 table: %s\x00DELETE from\x00no such cursor: %lld\x00no such tokenizer: %s\x00error in tokenizer constructor\x00fts5_api_ptr\x00fts5: 2023-02-21 18:09:37 05941c2a04037fc3ed2ffae11f5d2260706f89431f463518740f72ada350866d\x00config\x00fts5\x00fts5_source_id\x00SELECT %s FROM %s T WHERE T.%Q >= ? AND T.%Q <= ? ORDER BY T.%Q ASC\x00SELECT %s FROM %s T WHERE T.%Q <= ? AND T.%Q >= ? ORDER BY T.%Q DESC\x00SELECT %s FROM %s T WHERE T.%Q=?\x00INSERT INTO %Q.'%q_content' VALUES(%s)\x00REPLACE INTO %Q.'%q_content' VALUES(%s)\x00DELETE FROM %Q.'%q_content' WHERE id=?\x00REPLACE INTO %Q.'%q_docsize' VALUES(?,?)\x00DELETE FROM %Q.'%q_docsize' WHERE id=?\x00SELECT sz FROM %Q.'%q_docsize' WHERE id=?\x00REPLACE INTO %Q.'%q_config' VALUES(?,?)\x00SELECT %s FROM %s AS T\x00DROP TABLE IF EXISTS %Q.'%q_data';DROP TABLE IF EXISTS %Q.'%q_idx';DROP TABLE IF EXISTS %Q.'%q_config';\x00DROP TABLE IF EXISTS %Q.'%q_docsize';\x00DROP TABLE IF EXISTS %Q.'%q_content';\x00ALTER TABLE %Q.'%q_%s' RENAME TO '%q_%s';\x00CREATE TABLE %Q.'%q_%q'(%s)%s\x00fts5: error creating shadow table %q_%s: %s\x00id INTEGER PRIMARY KEY\x00, c%d\x00id INTEGER PRIMARY KEY, sz BLOB\x00k PRIMARY KEY, v\x00DELETE FROM %Q.'%q_data';DELETE FROM %Q.'%q_idx';\x00DELETE FROM %Q.'%q_docsize';\x00SELECT count(*) FROM %Q.'%q_%s'\x00tokenchars\x00separators\x00L* N* Co\x00categories\x00remove_diacritics\x00unicode61\x00al\x00ance\x00ence\x00er\x00ic\x00able\x00ible\x00ant\x00ement\x00ment\x00ent\x00ion\x00ou\x00ism\x00ate\x00iti\x00ous\x00ive\x00ize\x00at\x00bl\x00ble\x00iz\x00ational\x00tional\x00tion\x00enci\x00anci\x00izer\x00logi\x00bli\x00alli\x00entli\x00eli\x00e\x00ousli\x00ization\x00ation\x00ator\x00alism\x00iveness\x00fulness\x00ful\x00ousness\x00aliti\x00iviti\x00biliti\x00ical\x00ness\x00icate\x00iciti\x00ative\x00alize\x00eed\x00ee\x00ed\x00ing\x00case_sensitive\x00ascii\x00porter\x00trigram\x00col\x00row\x00instance\x00fts5vocab: unknown table type: %Q\x00CREATE TABlE vocab(term, col, doc, cnt)\x00CREATE TABlE vocab(term, doc, cnt)\x00CREATE TABlE vocab(term, doc, col, offset)\x00wrong number of vtable arguments\x00recursive definition for %s.%s\x00SELECT t.%Q FROM %Q.%Q AS t WHERE t.%Q MATCH '*id'\x00no such fts5 table: %s.%s\x00fts5vocab\x002023-02-21 18:09:37 05941c2a04037fc3ed2ffae11f5d2260706f89431f463518740f72ada350866d\x00"
var ts = (*reflect.StringHeader)(unsafe.Pointer(&ts1)).Data