gotosocial/vendor/modernc.org/libc/musl_windows_amd64.go

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// Code generated by 'ccgo -D__environ=environ -export-externs X -hide __syscall0,__syscall1,__syscall2,__syscall3,__syscall4,__syscall5,__syscall6 -nostdinc -nostdlib -o ../musl_windows_amd64.go -pkgname libc -static-locals-prefix _s -Iarch\x86_64 -Iarch/generic -Iobj/src/internal -Isrc/include -Isrc/internal -Iobj/include -Iinclude copyright.c src/ctype/isalnum.c src/ctype/isalpha.c src/ctype/isdigit.c src/ctype/islower.c src/ctype/isprint.c src/ctype/isspace.c src/ctype/isxdigit.c src/env/putenv.c src/env/setenv.c src/env/unsetenv.c src/multibyte/wcrtomb.c src/multibyte/wcsrtombs.c src/multibyte/wcstombs.c src/stdlib/bsearch.c src/string/strchrnul.c src/string/strdup.c', DO NOT EDIT.
package libc
import (
"math"
"reflect"
"sync/atomic"
"unsafe"
)
var _ = math.Pi
var _ reflect.Kind
var _ atomic.Value
var _ unsafe.Pointer
// musl as a whole is licensed under the following standard MIT license:
//
// ----------------------------------------------------------------------
// Copyright © 2005-2020 Rich Felker, et al.
//
// Permission is hereby granted, free of charge, to any person obtaining
// a copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to
// permit persons to whom the Software is furnished to do so, subject to
// the following conditions:
//
// The above copyright notice and this permission notice shall be
// included in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
// IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
// CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
// TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
// SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
// ----------------------------------------------------------------------
//
// Authors/contributors include:
//
// A. Wilcox
// Ada Worcester
// Alex Dowad
// Alex Suykov
// Alexander Monakov
// Andre McCurdy
// Andrew Kelley
// Anthony G. Basile
// Aric Belsito
// Arvid Picciani
// Bartosz Brachaczek
// Benjamin Peterson
// Bobby Bingham
// Boris Brezillon
// Brent Cook
// Chris Spiegel
// Clément Vasseur
// Daniel Micay
// Daniel Sabogal
// Daurnimator
// David Carlier
// David Edelsohn
// Denys Vlasenko
// Dmitry Ivanov
// Dmitry V. Levin
// Drew DeVault
// Emil Renner Berthing
// Fangrui Song
// Felix Fietkau
// Felix Janda
// Gianluca Anzolin
// Hauke Mehrtens
// He X
// Hiltjo Posthuma
// Isaac Dunham
// Jaydeep Patil
// Jens Gustedt
// Jeremy Huntwork
// Jo-Philipp Wich
// Joakim Sindholt
// John Spencer
// Julien Ramseier
// Justin Cormack
// Kaarle Ritvanen
// Khem Raj
// Kylie McClain
// Leah Neukirchen
// Luca Barbato
// Luka Perkov
// M Farkas-Dyck (Strake)
// Mahesh Bodapati
// Markus Wichmann
// Masanori Ogino
// Michael Clark
// Michael Forney
// Mikhail Kremnyov
// Natanael Copa
// Nicholas J. Kain
// orc
// Pascal Cuoq
// Patrick Oppenlander
// Petr Hosek
// Petr Skocik
// Pierre Carrier
// Reini Urban
// Rich Felker
// Richard Pennington
// Ryan Fairfax
// Samuel Holland
// Segev Finer
// Shiz
// sin
// Solar Designer
// Stefan Kristiansson
// Stefan O'Rear
// Szabolcs Nagy
// Timo Teräs
// Trutz Behn
// Valentin Ochs
// Will Dietz
// William Haddon
// William Pitcock
//
// Portions of this software are derived from third-party works licensed
// under terms compatible with the above MIT license:
//
// The TRE regular expression implementation (src/regex/reg* and
// src/regex/tre*) is Copyright © 2001-2008 Ville Laurikari and licensed
// under a 2-clause BSD license (license text in the source files). The
// included version has been heavily modified by Rich Felker in 2012, in
// the interests of size, simplicity, and namespace cleanliness.
//
// Much of the math library code (src/math/* and src/complex/*) is
// Copyright © 1993,2004 Sun Microsystems or
// Copyright © 2003-2011 David Schultz or
// Copyright © 2003-2009 Steven G. Kargl or
// Copyright © 2003-2009 Bruce D. Evans or
// Copyright © 2008 Stephen L. Moshier or
// Copyright © 2017-2018 Arm Limited
// and labelled as such in comments in the individual source files. All
// have been licensed under extremely permissive terms.
//
// The ARM memcpy code (src/string/arm/memcpy.S) is Copyright © 2008
// The Android Open Source Project and is licensed under a two-clause BSD
// license. It was taken from Bionic libc, used on Android.
//
// The AArch64 memcpy and memset code (src/string/aarch64/*) are
// Copyright © 1999-2019, Arm Limited.
//
// The implementation of DES for crypt (src/crypt/crypt_des.c) is
// Copyright © 1994 David Burren. It is licensed under a BSD license.
//
// The implementation of blowfish crypt (src/crypt/crypt_blowfish.c) was
// originally written by Solar Designer and placed into the public
// domain. The code also comes with a fallback permissive license for use
// in jurisdictions that may not recognize the public domain.
//
// The smoothsort implementation (src/stdlib/qsort.c) is Copyright © 2011
// Valentin Ochs and is licensed under an MIT-style license.
//
// The x86_64 port was written by Nicholas J. Kain and is licensed under
// the standard MIT terms.
//
// The mips and microblaze ports were originally written by Richard
// Pennington for use in the ellcc project. The original code was adapted
// by Rich Felker for build system and code conventions during upstream
// integration. It is licensed under the standard MIT terms.
//
// The mips64 port was contributed by Imagination Technologies and is
// licensed under the standard MIT terms.
//
// The powerpc port was also originally written by Richard Pennington,
// and later supplemented and integrated by John Spencer. It is licensed
// under the standard MIT terms.
//
// All other files which have no copyright comments are original works
// produced specifically for use as part of this library, written either
// by Rich Felker, the main author of the library, or by one or more
// contibutors listed above. Details on authorship of individual files
// can be found in the git version control history of the project. The
// omission of copyright and license comments in each file is in the
// interest of source tree size.
//
// In addition, permission is hereby granted for all public header files
// (include/* and arch/*/bits/*) and crt files intended to be linked into
// applications (crt/*, ldso/dlstart.c, and arch/*/crt_arch.h) to omit
// the copyright notice and permission notice otherwise required by the
// license, and to use these files without any requirement of
// attribution. These files include substantial contributions from:
//
// Bobby Bingham
// John Spencer
// Nicholas J. Kain
// Rich Felker
// Richard Pennington
// Stefan Kristiansson
// Szabolcs Nagy
//
// all of whom have explicitly granted such permission.
//
// This file previously contained text expressing a belief that most of
// the files covered by the above exception were sufficiently trivial not
// to be subject to copyright, resulting in confusion over whether it
// negated the permissions granted in the license. In the spirit of
// permissive licensing, and of not having licensing issues being an
// obstacle to adoption, that text has been removed.
const ( /* copyright.c:194:1: */
__musl__copyright__ = 0
)
const ( /* pthread_impl.h:58:1: */
DT_EXITING = 0
DT_JOINABLE = 1
DT_DETACHED = 2
)
type ptrdiff_t = int64 /* <builtin>:3:26 */
type size_t = uint64 /* <builtin>:9:23 */
type wchar_t = uint16 /* <builtin>:15:24 */
type va_list = uintptr /* <builtin>:50:27 */
type __locale_struct = struct{ cat [6]uintptr } /* alltypes.h:343:9 */
type locale_t = uintptr /* alltypes.h:343:32 */
func Xisalnum(tls *TLS, c int32) int32 { /* isalnum.c:3:5: */
return Bool32(func() int32 {
if 0 != 0 {
return Xisalpha(tls, c)
}
return Bool32(uint32(c)|uint32(32)-uint32('a') < uint32(26))
}() != 0 || func() int32 {
if 0 != 0 {
return Xisdigit(tls, c)
}
return Bool32(uint32(c)-uint32('0') < uint32(10))
}() != 0)
}
func X__isalnum_l(tls *TLS, c int32, l locale_t) int32 { /* isalnum.c:8:5: */
return Xisalnum(tls, c)
}
func Xisalpha(tls *TLS, c int32) int32 { /* isalpha.c:4:5: */
return Bool32(uint32(c)|uint32(32)-uint32('a') < uint32(26))
}
func X__isalpha_l(tls *TLS, c int32, l locale_t) int32 { /* isalpha.c:9:5: */
return Xisalpha(tls, c)
}
func Xisdigit(tls *TLS, c int32) int32 { /* isdigit.c:4:5: */
return Bool32(uint32(c)-uint32('0') < uint32(10))
}
func X__isdigit_l(tls *TLS, c int32, l locale_t) int32 { /* isdigit.c:9:5: */
return Xisdigit(tls, c)
}
func Xislower(tls *TLS, c int32) int32 { /* islower.c:4:5: */
return Bool32(uint32(c)-uint32('a') < uint32(26))
}
func X__islower_l(tls *TLS, c int32, l locale_t) int32 { /* islower.c:9:5: */
return Xislower(tls, c)
}
func Xisprint(tls *TLS, c int32) int32 { /* isprint.c:4:5: */
return Bool32(uint32(c)-uint32(0x20) < uint32(0x5f))
}
func X__isprint_l(tls *TLS, c int32, l locale_t) int32 { /* isprint.c:9:5: */
return Xisprint(tls, c)
}
func Xisspace(tls *TLS, c int32) int32 { /* isspace.c:4:5: */
return Bool32(c == ' ' || uint32(c)-uint32('\t') < uint32(5))
}
func X__isspace_l(tls *TLS, c int32, l locale_t) int32 { /* isspace.c:9:5: */
return Xisspace(tls, c)
}
func Xisxdigit(tls *TLS, c int32) int32 { /* isxdigit.c:3:5: */
return Bool32(func() int32 {
if 0 != 0 {
return Xisdigit(tls, c)
}
return Bool32(uint32(c)-uint32('0') < uint32(10))
}() != 0 || uint32(c)|uint32(32)-uint32('a') < uint32(6))
}
func X__isxdigit_l(tls *TLS, c int32, l locale_t) int32 { /* isxdigit.c:8:5: */
return Xisxdigit(tls, c)
}
type div_t = struct {
quot int32
rem int32
} /* stdlib.h:62:35 */
type ldiv_t = struct {
quot int32
rem int32
} /* stdlib.h:63:36 */
type lldiv_t = struct {
quot int64
rem int64
} /* stdlib.h:64:41 */
type ssize_t = int32 /* alltypes.h:65:15 */
type intptr_t = int32 /* alltypes.h:70:15 */
type off_t = int32 /* alltypes.h:162:16 */
type pid_t = int32 /* alltypes.h:235:13 */
type uid_t = uint32 /* alltypes.h:245:18 */
type gid_t = uint32 /* alltypes.h:250:18 */
type useconds_t = uint32 /* alltypes.h:260:18 */
func X__putenv(tls *TLS, s uintptr, l size_t, r uintptr) int32 { /* putenv.c:8:5: */
var i size_t
var newenv uintptr
var tmp uintptr
//TODO for (char **e = __environ; *e; e++, i++)
var e uintptr
i = uint64(0)
if !(Environ() != 0) {
goto __1
}
//TODO for (char **e = __environ; *e; e++, i++)
e = Environ()
__2:
if !(*(*uintptr)(unsafe.Pointer(e)) != 0) {
goto __4
}
if !!(Xstrncmp(tls, s, *(*uintptr)(unsafe.Pointer(e)), l+uint64(1)) != 0) {
goto __5
}
tmp = *(*uintptr)(unsafe.Pointer(e))
*(*uintptr)(unsafe.Pointer(e)) = s
X__env_rm_add(tls, tmp, r)
return 0
__5:
;
goto __3
__3:
e += 8
i++
goto __2
goto __4
__4:
;
__1:
;
if !(Environ() == _soldenv) {
goto __6
}
newenv = Xrealloc(tls, _soldenv, uint64(unsafe.Sizeof(uintptr(0)))*(i+uint64(2)))
if !!(newenv != 0) {
goto __8
}
goto oom
__8:
;
goto __7
__6:
newenv = Xmalloc(tls, uint64(unsafe.Sizeof(uintptr(0)))*(i+uint64(2)))
if !!(newenv != 0) {
goto __9
}
goto oom
__9:
;
if !(i != 0) {
goto __10
}
Xmemcpy(tls, newenv, Environ(), uint64(unsafe.Sizeof(uintptr(0)))*i)
__10:
;
Xfree(tls, _soldenv)
__7:
;
*(*uintptr)(unsafe.Pointer(newenv + uintptr(i)*8)) = s
*(*uintptr)(unsafe.Pointer(newenv + uintptr(i+uint64(1))*8)) = uintptr(0)
*(*uintptr)(unsafe.Pointer(EnvironP())) = AssignPtrUintptr(uintptr(unsafe.Pointer(&_soldenv)), newenv)
if !(r != 0) {
goto __11
}
X__env_rm_add(tls, uintptr(0), r)
__11:
;
return 0
oom:
Xfree(tls, r)
return -1
}
var _soldenv uintptr /* putenv.c:22:14: */
func Xputenv(tls *TLS, s uintptr) int32 { /* putenv.c:43:5: */
var l size_t = size_t((int64(X__strchrnul(tls, s, '=')) - int64(s)) / 1)
if !(l != 0) || !(int32(*(*int8)(unsafe.Pointer(s + uintptr(l)))) != 0) {
return Xunsetenv(tls, s)
}
return X__putenv(tls, s, l, uintptr(0))
}
func X__env_rm_add(tls *TLS, old uintptr, new uintptr) { /* setenv.c:5:6: */
//TODO for (size_t i=0; i < env_alloced_n; i++)
var i size_t = uint64(0)
for ; i < _senv_alloced_n; i++ {
if *(*uintptr)(unsafe.Pointer(_senv_alloced + uintptr(i)*8)) == old {
*(*uintptr)(unsafe.Pointer(_senv_alloced + uintptr(i)*8)) = new
Xfree(tls, old)
return
} else if !(int32(*(*uintptr)(unsafe.Pointer(_senv_alloced + uintptr(i)*8))) != 0) && new != 0 {
*(*uintptr)(unsafe.Pointer(_senv_alloced + uintptr(i)*8)) = new
new = uintptr(0)
}
}
if !(new != 0) {
return
}
var t uintptr = Xrealloc(tls, _senv_alloced, uint64(unsafe.Sizeof(uintptr(0)))*(_senv_alloced_n+uint64(1)))
if !(t != 0) {
return
}
*(*uintptr)(unsafe.Pointer(AssignPtrUintptr(uintptr(unsafe.Pointer(&_senv_alloced)), t) + uintptr(PostIncUint64(&_senv_alloced_n, 1))*8)) = new
}
var _senv_alloced uintptr /* setenv.c:7:14: */
var _senv_alloced_n size_t /* setenv.c:8:16: */
func Xsetenv(tls *TLS, var1 uintptr, value uintptr, overwrite int32) int32 { /* setenv.c:26:5: */
var s uintptr
var l1 size_t
var l2 size_t
if !(var1 != 0) || !(int32(AssignUint64(&l1, size_t((int64(X__strchrnul(tls, var1, '='))-int64(var1))/1))) != 0) || *(*int8)(unsafe.Pointer(var1 + uintptr(l1))) != 0 {
*(*int32)(unsafe.Pointer(X___errno_location(tls))) = 22
return -1
}
if !(overwrite != 0) && Xgetenv(tls, var1) != 0 {
return 0
}
l2 = Xstrlen(tls, value)
s = Xmalloc(tls, l1+l2+uint64(2))
if !(s != 0) {
return -1
}
Xmemcpy(tls, s, var1, l1)
*(*int8)(unsafe.Pointer(s + uintptr(l1))) = int8('=')
Xmemcpy(tls, s+uintptr(l1)+uintptr(1), value, l2+uint64(1))
return X__putenv(tls, s, l1, s)
}
func Xunsetenv(tls *TLS, name uintptr) int32 { /* unsetenv.c:9:5: */
var l size_t = size_t((int64(X__strchrnul(tls, name, '=')) - int64(name)) / 1)
if !(l != 0) || *(*int8)(unsafe.Pointer(name + uintptr(l))) != 0 {
*(*int32)(unsafe.Pointer(X___errno_location(tls))) = 22
return -1
}
if Environ() != 0 {
var e uintptr = Environ()
var eo uintptr = e
for ; *(*uintptr)(unsafe.Pointer(e)) != 0; e += 8 {
//TODO if (!strncmp(name, *e, l) && l[*e] == '=')
if !(Xstrncmp(tls, name, *(*uintptr)(unsafe.Pointer(e)), l) != 0) && int32(*(*int8)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(e)) + uintptr(l)))) == '=' {
X__env_rm_add(tls, *(*uintptr)(unsafe.Pointer(e)), uintptr(0))
} else if eo != e {
*(*uintptr)(unsafe.Pointer(PostIncUintptr(&eo, 8))) = *(*uintptr)(unsafe.Pointer(e))
} else {
eo += 8
}
}
if eo != e {
*(*uintptr)(unsafe.Pointer(eo)) = uintptr(0)
}
}
return 0
}
type wint_t = uint32 /* alltypes.h:198:18 */
type wctype_t = uint32 /* alltypes.h:203:23 */
type __mbstate_t = struct {
__opaque1 uint32
__opaque2 uint32
} /* alltypes.h:337:9 */
type mbstate_t = __mbstate_t /* alltypes.h:337:63 */
type tm = struct {
tm_sec int32
tm_min int32
tm_hour int32
tm_mday int32
tm_mon int32
tm_year int32
tm_wday int32
tm_yday int32
tm_isdst int32
tm_gmtoff int32
tm_zone uintptr
} /* wchar.h:138:1 */
type uintptr_t = uint32 /* alltypes.h:55:24 */
type int8_t = int8 /* alltypes.h:96:25 */
type int16_t = int16 /* alltypes.h:101:25 */
type int32_t = int32 /* alltypes.h:106:25 */
type int64_t = int32 /* alltypes.h:111:25 */
type intmax_t = int32 /* alltypes.h:116:25 */
type uint8_t = uint8 /* alltypes.h:121:25 */
type uint16_t = uint16 /* alltypes.h:126:25 */
type uint32_t = uint32 /* alltypes.h:131:25 */
type uint64_t = uint32 /* alltypes.h:136:25 */
type uintmax_t = uint32 /* alltypes.h:146:25 */
type int_fast8_t = int8_t /* stdint.h:22:16 */
type int_fast64_t = int64_t /* stdint.h:23:17 */
type int_least8_t = int8_t /* stdint.h:25:17 */
type int_least16_t = int16_t /* stdint.h:26:17 */
type int_least32_t = int32_t /* stdint.h:27:17 */
type int_least64_t = int64_t /* stdint.h:28:17 */
type uint_fast8_t = uint8_t /* stdint.h:30:17 */
type uint_fast64_t = uint64_t /* stdint.h:31:18 */
type uint_least8_t = uint8_t /* stdint.h:33:18 */
type uint_least16_t = uint16_t /* stdint.h:34:18 */
type uint_least32_t = uint32_t /* stdint.h:35:18 */
type uint_least64_t = uint64_t /* stdint.h:36:18 */
type int_fast16_t = int32_t /* stdint.h:1:17 */
type int_fast32_t = int32_t /* stdint.h:2:17 */
type uint_fast16_t = uint32_t /* stdint.h:3:18 */
type uint_fast32_t = uint32_t /* stdint.h:4:18 */
// Upper 6 state bits are a negative integer offset to bound-check next byte
// equivalent to: ( (b-0x80) | (b+offset) ) & ~0x3f
// Interval [a,b). Either a must be 80 or b must be c0, lower 3 bits clear.
// Arbitrary encoding for representing code units instead of characters.
// Get inline definition of MB_CUR_MAX.
type lconv = struct {
decimal_point uintptr
thousands_sep uintptr
grouping uintptr
int_curr_symbol uintptr
currency_symbol uintptr
mon_decimal_point uintptr
mon_thousands_sep uintptr
mon_grouping uintptr
positive_sign uintptr
negative_sign uintptr
int_frac_digits int8
frac_digits int8
p_cs_precedes int8
p_sep_by_space int8
n_cs_precedes int8
n_sep_by_space int8
p_sign_posn int8
n_sign_posn int8
int_p_cs_precedes int8
int_p_sep_by_space int8
int_n_cs_precedes int8
int_n_sep_by_space int8
int_p_sign_posn int8
int_n_sign_posn int8
_ [2]byte
} /* locale.h:24:1 */
type _G_fpos64_t = struct {
_ [0]uint64
__opaque [16]int8
} /* stdio.h:54:9 */
type fpos_t = _G_fpos64_t /* stdio.h:58:3 */
// Support signed or unsigned plain-char
// Implementation choices...
// Arbitrary numbers...
// POSIX/SUS requirements follow. These numbers come directly
// from SUS and have nothing to do with the host system.
type __locale_map = struct {
__map uintptr
map_size size_t
name [24]int8
next uintptr
} /* alltypes.h:343:9 */
type tls_module = struct {
next uintptr
image uintptr
len size_t
size size_t
align size_t
offset size_t
} /* libc.h:14:1 */
type __libc = struct {
can_do_threads int8
threaded int8
secure int8
need_locks int8
threads_minus_1 int32
auxv uintptr
tls_head uintptr
tls_size size_t
tls_align size_t
tls_cnt size_t
page_size size_t
global_locale struct{ cat [6]uintptr }
} /* libc.h:20:1 */
type time_t = int32 /* alltypes.h:85:16 */
type clockid_t = int32 /* alltypes.h:214:13 */
type timespec = struct {
tv_sec time_t
tv_nsec int32
} /* alltypes.h:229:1 */
type __pthread = struct {
self uintptr
dtv uintptr
prev uintptr
next uintptr
sysinfo uintptr_t
canary uintptr_t
canary2 uintptr_t
tid int32
errno_val int32
detach_state int32
cancel int32
canceldisable uint8
cancelasync uint8
tsd_used uint8 /* unsigned char tsd_used: 1, unsigned char dlerror_flag: 1 */
_ [1]byte
map_base uintptr
map_size size_t
stack uintptr
stack_size size_t
guard_size size_t
result uintptr
cancelbuf uintptr
tsd uintptr
robust_list struct {
head uintptr
off int32
_ [4]byte
pending uintptr
}
timer_id int32
_ [4]byte
locale locale_t
killlock [1]int32
_ [4]byte
dlerror_buf uintptr
stdio_locks uintptr
canary_at_end uintptr_t
_ [4]byte
dtv_copy uintptr
} /* alltypes.h:273:9 */
type pthread_t = uintptr /* alltypes.h:273:26 */
type pthread_once_t = int32 /* alltypes.h:279:13 */
type pthread_key_t = uint32 /* alltypes.h:284:18 */
type pthread_spinlock_t = int32 /* alltypes.h:289:13 */
type pthread_mutexattr_t = struct{ __attr uint32 } /* alltypes.h:294:37 */
type pthread_condattr_t = struct{ __attr uint32 } /* alltypes.h:299:37 */
type pthread_barrierattr_t = struct{ __attr uint32 } /* alltypes.h:304:37 */
type pthread_rwlockattr_t = struct{ __attr [2]uint32 } /* alltypes.h:309:40 */
type __sigset_t = struct{ __bits [32]uint32 } /* alltypes.h:349:9 */
type sigset_t = __sigset_t /* alltypes.h:349:71 */
type pthread_attr_t = struct{ __u struct{ __i [9]int32 } } /* alltypes.h:372:147 */
type pthread_mutex_t = struct {
__u struct {
_ [0]uint64
__i [6]int32
_ [24]byte
}
} /* alltypes.h:377:157 */
type pthread_cond_t = struct {
__u struct {
_ [0]uint64
__i [12]int32
}
} /* alltypes.h:387:112 */
type pthread_rwlock_t = struct {
__u struct {
_ [0]uint64
__i [8]int32
_ [32]byte
}
} /* alltypes.h:397:139 */
type pthread_barrier_t = struct {
__u struct {
_ [0]uint64
__i [5]int32
_ [20]byte
}
} /* alltypes.h:402:137 */
type sched_param = struct {
sched_priority int32
__reserved1 int32
__reserved2 [2]struct {
__reserved1 time_t
__reserved2 int32
}
__reserved3 int32
} /* sched.h:19:1 */
type timer_t = uintptr /* alltypes.h:209:14 */
type clock_t = int32 /* alltypes.h:219:14 */
type itimerspec = struct {
it_interval struct {
tv_sec time_t
tv_nsec int32
}
it_value struct {
tv_sec time_t
tv_nsec int32
}
} /* time.h:80:1 */
type sigevent = struct {
sigev_value struct {
_ [0]uint64
sival_int int32
_ [4]byte
}
sigev_signo int32
sigev_notify int32
sigev_notify_function uintptr
sigev_notify_attributes uintptr
__pad [44]int8
_ [4]byte
} /* time.h:107:1 */
type __ptcb = struct {
__f uintptr
__x uintptr
__next uintptr
} /* alltypes.h:273:9 */
type sigaltstack = struct {
ss_sp uintptr
ss_flags int32
_ [4]byte
ss_size size_t
} /* signal.h:44:9 */
type stack_t = sigaltstack /* signal.h:44:28 */
type greg_t = int64 /* signal.h:59:19 */
type gregset_t = [23]int64 /* signal.h:59:27 */
type _fpstate = struct {
cwd uint16
swd uint16
ftw uint16
fop uint16
rip uint64
rdp uint64
mxcsr uint32
mxcr_mask uint32
_st [8]struct {
significand [4]uint16
exponent uint16
padding [3]uint16
}
_xmm [16]struct{ element [4]uint32 }
padding [24]uint32
} /* signal.h:60:9 */
type fpregset_t = uintptr /* signal.h:71:3 */
type sigcontext = struct {
r8 uint32
r9 uint32
r10 uint32
r11 uint32
r12 uint32
r13 uint32
r14 uint32
r15 uint32
rdi uint32
rsi uint32
rbp uint32
rbx uint32
rdx uint32
rax uint32
rcx uint32
rsp uint32
rip uint32
eflags uint32
cs uint16
gs uint16
fs uint16
__pad0 uint16
err uint32
trapno uint32
oldmask uint32
cr2 uint32
fpstate uintptr
__reserved1 [8]uint32
} /* signal.h:72:1 */
type mcontext_t = struct {
gregs gregset_t
fpregs fpregset_t
__reserved1 [8]uint64
} /* signal.h:84:3 */
type __ucontext = struct {
uc_flags uint32
_ [4]byte
uc_link uintptr
uc_stack stack_t
uc_mcontext mcontext_t
uc_sigmask sigset_t
__fpregs_mem [64]uint32
} /* signal.h:97:9 */
type ucontext_t = __ucontext /* signal.h:104:3 */
type sigval = struct {
_ [0]uint64
sival_int int32
_ [4]byte
} /* time.h:107:1 */
type siginfo_t = struct {
si_signo int32
si_errno int32
si_code int32
_ [4]byte
__si_fields struct {
_ [0]uint64
__pad [116]int8
_ [4]byte
}
} /* signal.h:145:3 */
type sigaction = struct {
__sa_handler struct{ sa_handler uintptr }
sa_mask sigset_t
sa_flags int32
_ [4]byte
sa_restorer uintptr
} /* signal.h:167:1 */
type sig_t = uintptr /* signal.h:251:14 */
type sig_atomic_t = int32 /* signal.h:269:13 */
type mode_t = uint32 /* alltypes.h:152:18 */
type syscall_arg_t = int32 /* syscall.h:22:14 */
func a_cas(tls *TLS, p uintptr, t int32, s int32) int32 { /* atomic_arch.h:2:19: */
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panic(`arch\x86_64\atomic_arch.h:4:2: assembler statements not supported`)
return t
}
func a_or(tls *TLS, p uintptr, v int32) { /* atomic_arch.h:46:20: */
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panic(`arch\x86_64\atomic_arch.h:48:2: assembler statements not supported`)
}
func a_or_64(tls *TLS, p uintptr, v uint64_t) { /* atomic_arch.h:62:20: */
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panic(`arch\x86_64\atomic_arch.h:64:2: assembler statements not supported`)
}
func a_ctz_64(tls *TLS, x uint64_t) int32 { /* atomic_arch.h:112:19: */
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panic(`arch\x86_64\atomic_arch.h:114:2: assembler statements not supported`)
return int32(x)
}
func a_ctz_32(tls *TLS, x uint32_t) int32 { /* atomic.h:256:19: */
return int32(_sdebruijn32[x&-x*uint32_t(0x076be629)>>27])
}
var _sdebruijn32 = [32]int8{
int8(0), int8(1), int8(23), int8(2), int8(29), int8(24), int8(19), int8(3), int8(30), int8(27), int8(25), int8(11), int8(20), int8(8), int8(4), int8(13),
int8(31), int8(22), int8(28), int8(18), int8(26), int8(10), int8(7), int8(12), int8(21), int8(17), int8(9), int8(6), int8(16), int8(5), int8(15), int8(14),
} /* atomic.h:261:20 */
type __timer = struct {
timerid int32
_ [4]byte
thread pthread_t
} /* pthread_impl.h:64:1 */
func __pthread_self(tls *TLS) uintptr { /* pthread_arch.h:1:30: */
var self uintptr
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panic(`arch\x86_64\pthread_arch.h:4:2: assembler statements not supported`)
return self
}
func Xwcrtomb(tls *TLS, s uintptr, wc wchar_t, st uintptr) size_t { /* wcrtomb.c:6:8: */
if !(s != 0) {
return uint64(1)
}
if uint32(wc) < uint32(0x80) {
*(*int8)(unsafe.Pointer(s)) = int8(wc)
return uint64(1)
} else if func() int32 {
if !!(int32(*(*uintptr)(unsafe.Pointer((*__pthread)(unsafe.Pointer(__pthread_self(tls))).locale))) != 0) {
return 4
}
return 1
}() == 1 {
if !(uint32(wc)-uint32(0xdf80) < uint32(0x80)) {
*(*int32)(unsafe.Pointer(X___errno_location(tls))) = 84
return Uint64FromInt32(-1)
}
*(*int8)(unsafe.Pointer(s)) = int8(wc)
return uint64(1)
} else if uint32(wc) < uint32(0x800) {
*(*int8)(unsafe.Pointer(PostIncUintptr(&s, 1))) = int8(0xc0 | int32(wc)>>6)
*(*int8)(unsafe.Pointer(s)) = int8(0x80 | int32(wc)&0x3f)
return uint64(2)
} else if uint32(wc) < uint32(0xd800) || uint32(wc)-uint32(0xe000) < uint32(0x2000) {
*(*int8)(unsafe.Pointer(PostIncUintptr(&s, 1))) = int8(0xe0 | int32(wc)>>12)
*(*int8)(unsafe.Pointer(PostIncUintptr(&s, 1))) = int8(0x80 | int32(wc)>>6&0x3f)
*(*int8)(unsafe.Pointer(s)) = int8(0x80 | int32(wc)&0x3f)
return uint64(3)
} else if uint32(wc)-uint32(0x10000) < uint32(0x100000) {
*(*int8)(unsafe.Pointer(PostIncUintptr(&s, 1))) = int8(0xf0 | int32(wc)>>18)
*(*int8)(unsafe.Pointer(PostIncUintptr(&s, 1))) = int8(0x80 | int32(wc)>>12&0x3f)
*(*int8)(unsafe.Pointer(PostIncUintptr(&s, 1))) = int8(0x80 | int32(wc)>>6&0x3f)
*(*int8)(unsafe.Pointer(s)) = int8(0x80 | int32(wc)&0x3f)
return uint64(4)
}
*(*int32)(unsafe.Pointer(X___errno_location(tls))) = 84
return Uint64FromInt32(-1)
}
func Xwcsrtombs(tls *TLS, s uintptr, ws uintptr, n size_t, st uintptr) size_t { /* wcsrtombs.c:3:8: */
bp := tls.Alloc(4)
defer tls.Free(4)
var ws2 uintptr
// var buf [4]int8 at bp, 4
var N size_t = n
var l size_t
if !(s != 0) {
n = uint64(0)
ws2 = *(*uintptr)(unsafe.Pointer(ws))
for ; *(*wchar_t)(unsafe.Pointer(ws2)) != 0; ws2 += 2 {
if uint32(*(*wchar_t)(unsafe.Pointer(ws2))) >= 0x80 {
l = Xwcrtomb(tls, bp, *(*wchar_t)(unsafe.Pointer(ws2)), uintptr(0))
if !(l+uint64(1) != 0) {
return Uint64FromInt32(-1)
}
n = n + l
} else {
n++
}
}
return n
}
for n >= uint64(4) {
if uint32(*(*wchar_t)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ws)))))-1 >= 0x7f {
if !(int32(*(*wchar_t)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ws))))) != 0) {
*(*int8)(unsafe.Pointer(s)) = int8(0)
*(*uintptr)(unsafe.Pointer(ws)) = uintptr(0)
return N - n
}
l = Xwcrtomb(tls, s, *(*wchar_t)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ws)))), uintptr(0))
if !(l+uint64(1) != 0) {
return Uint64FromInt32(-1)
}
s += uintptr(l)
n = n - l
} else {
*(*int8)(unsafe.Pointer(PostIncUintptr(&s, 1))) = int8(*(*wchar_t)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ws)))))
n--
}
*(*uintptr)(unsafe.Pointer(ws)) += 2
}
for n != 0 {
if uint32(*(*wchar_t)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ws)))))-1 >= 0x7f {
if !(int32(*(*wchar_t)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ws))))) != 0) {
*(*int8)(unsafe.Pointer(s)) = int8(0)
*(*uintptr)(unsafe.Pointer(ws)) = uintptr(0)
return N - n
}
l = Xwcrtomb(tls, bp, *(*wchar_t)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ws)))), uintptr(0))
if !(l+uint64(1) != 0) {
return Uint64FromInt32(-1)
}
if l > n {
return N - n
}
Xwcrtomb(tls, s, *(*wchar_t)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ws)))), uintptr(0))
s += uintptr(l)
n = n - l
} else {
*(*int8)(unsafe.Pointer(PostIncUintptr(&s, 1))) = int8(*(*wchar_t)(unsafe.Pointer(*(*uintptr)(unsafe.Pointer(ws)))))
n--
}
*(*uintptr)(unsafe.Pointer(ws)) += 2
}
return N
}
func Xwcstombs(tls *TLS, s uintptr, ws uintptr, n size_t) size_t { /* wcstombs.c:4:8: */
bp := tls.Alloc(8)
defer tls.Free(8)
*(*uintptr)(unsafe.Pointer(bp)) = ws
//TODO return wcsrtombs(s, &(const wchar_t *){ws}, n, 0);
return Xwcsrtombs(tls, s, bp, n, uintptr(0))
}
func Xbsearch(tls *TLS, key uintptr, base uintptr, nel size_t, width size_t, cmp uintptr) uintptr { /* bsearch.c:3:6: */
var try uintptr
var sign int32
for nel > uint64(0) {
try = base + uintptr(width*(nel/uint64(2)))
sign = (*struct {
f func(*TLS, uintptr, uintptr) int32
})(unsafe.Pointer(&struct{ uintptr }{cmp})).f(tls, key, try)
if sign < 0 {
nel = nel / uint64(2)
} else if sign > 0 {
base = try + uintptr(width)
nel = nel - (nel/uint64(2) + uint64(1))
} else {
return try
}
}
return uintptr(0)
}
// Support signed or unsigned plain-char
// Implementation choices...
// Arbitrary numbers...
// POSIX/SUS requirements follow. These numbers come directly
// from SUS and have nothing to do with the host system.
func X__strchrnul(tls *TLS, s uintptr, c int32) uintptr { /* strchrnul.c:10:6: */
c = int32(uint8(c))
if !(c != 0) {
return s + uintptr(Xstrlen(tls, s))
}
var w uintptr
for ; uint64(s)%uint64(unsafe.Sizeof(size_t(0))) != 0; s++ {
if !(int32(*(*int8)(unsafe.Pointer(s))) != 0) || int32(*(*uint8)(unsafe.Pointer(s))) == c {
return s
}
}
var k size_t = Uint64(Uint64FromInt32(-1)) / uint64(255) * size_t(c)
for w = s; !((*(*uint64)(unsafe.Pointer(w))-Uint64(Uint64FromInt32(-1))/uint64(255)) & ^*(*uint64)(unsafe.Pointer(w)) & (Uint64(Uint64FromInt32(-1))/uint64(255)*uint64(255/2+1)) != 0) && !((*(*uint64)(unsafe.Pointer(w))^k-Uint64(Uint64FromInt32(-1))/uint64(255)) & ^(*(*uint64)(unsafe.Pointer(w))^k) & (Uint64(Uint64FromInt32(-1))/uint64(255)*uint64(255/2+1)) != 0); w += 8 {
}
s = w
for ; *(*int8)(unsafe.Pointer(s)) != 0 && int32(*(*uint8)(unsafe.Pointer(s))) != c; s++ {
}
return s
}
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func Xstrdup(tls *TLS, s uintptr) uintptr { /* strdup.c:4:6: */
var l size_t = Xstrlen(tls, s)
var d uintptr = Xmalloc(tls, l+uint64(1))
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if !(d != 0) {
return uintptr(0)
}
return Xmemcpy(tls, d, s, l+uint64(1))
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}