woodpecker/vendor/github.com/ugorji/go/codec/float.go
6543 75513575be
Use go's vendoring (#284)
* store dependency's in git

* since we vendor ... rm tech-depts

* aad make target 'vendor' to update vendor folder (manual task)
2021-08-30 19:14:04 +02:00

313 lines
7.4 KiB
Go

// Copyright (c) 2012-2018 Ugorji Nwoke. All rights reserved.
// Use of this source code is governed by a MIT license found in the LICENSE file.
package codec
import "strconv"
// func parseFloat(b []byte, bitsize int) (f float64, err error) {
// if bitsize == 32 {
// return parseFloat32(b)
// } else {
// return parseFloat64(b)
// }
// }
func parseFloat32(b []byte) (f float32, err error) {
return parseFloat32_custom(b)
// return parseFloat32_strconv(b)
}
func parseFloat64(b []byte) (f float64, err error) {
return parseFloat64_custom(b)
// return parseFloat64_strconv(b)
}
func parseFloat32_strconv(b []byte) (f float32, err error) {
f64, err := strconv.ParseFloat(stringView(b), 32)
f = float32(f64)
return
}
func parseFloat64_strconv(b []byte) (f float64, err error) {
return strconv.ParseFloat(stringView(b), 64)
}
// ------ parseFloat custom below --------
// We assume that a lot of floating point numbers in json files will be
// those that are handwritten, and with defined precision (in terms of number
// of digits after decimal point), etc.
//
// We further assume that this ones can be written in exact format.
//
// strconv.ParseFloat has some unnecessary overhead which we can do without
// for the common case:
//
// - expensive char-by-char check to see if underscores are in right place
// - testing for and skipping underscores
// - check if the string matches ignorecase +/- inf, +/- infinity, nan
// - support for base 16 (0xFFFF...)
//
// The functions below will try a fast-path for floats which can be decoded
// without any loss of precision, meaning they:
//
// - fits within the significand bits of the 32-bits or 64-bits
// - exponent fits within the exponent value
// - there is no truncation (any extra numbers are all trailing zeros)
//
// To figure out what the values are for maxMantDigits, use this idea below:
//
// 2^23 = 838 8608 (between 10^ 6 and 10^ 7) (significand bits of uint32)
// 2^32 = 42 9496 7296 (between 10^ 9 and 10^10) (full uint32)
// 2^52 = 4503 5996 2737 0496 (between 10^15 and 10^16) (significand bits of uint64)
// 2^64 = 1844 6744 0737 0955 1616 (between 10^19 and 10^20) (full uint64)
//
// Since we only allow for up to what can comfortably fit into the significand
// ignoring the exponent, and we only try to parse iff significand fits into the
// Exact powers of 10.
var float64pow10 = [...]float64{
1e0, 1e1, 1e2, 1e3, 1e4, 1e5, 1e6, 1e7, 1e8, 1e9,
1e10, 1e11, 1e12, 1e13, 1e14, 1e15, 1e16, 1e17, 1e18, 1e19,
1e20, 1e21, 1e22,
}
var float32pow10 = [...]float32{1e0, 1e1, 1e2, 1e3, 1e4, 1e5, 1e6, 1e7, 1e8, 1e9, 1e10}
type floatinfo struct {
mantbits uint8
expbits uint8
bias int16
exactPow10 int8 // Exact powers of ten are <= 10^N (32: 10, 64: 22)
exactInts int8 // Exact integers are <= 10^N
maxMantDigits int8 // 10^19 fits in uint64, while 10^9 fits in uint32
}
var fi32 = floatinfo{23, 8, -127, 10, 7, 9} // maxMantDigits = 9
var fi64 = floatinfo{52, 11, -1023, 22, 15, 19} // maxMantDigits = 19
const fMax64 = 1e15
const fMax32 = 1e7
const fBase = 10
func parseFloatErr(b []byte) error {
return &strconv.NumError{
Func: "ParseFloat",
Err: strconv.ErrSyntax,
Num: string(b),
}
}
func parseFloat32_custom(b []byte) (f float32, err error) {
mantissa, exp, neg, trunc, bad, ok := readFloat(b, fi32)
_ = trunc
if bad {
return 0, parseFloatErr(b)
}
if ok {
// parseFloatDebug(b, 32, false, exp, trunc, ok)
f = float32(mantissa)
if neg {
f = -f
}
if exp != 0 {
indx := fExpIndx(exp)
if exp < 0 { // int / 10^k
f /= float32pow10[indx]
} else { // exp > 0
if exp > fi32.exactPow10 {
f *= float32pow10[exp-fi32.exactPow10]
if f < -fMax32 || f > fMax32 { // exponent too large - outside range
goto FALLBACK
}
indx = uint8(fi32.exactPow10)
}
f *= float32pow10[indx]
}
}
return
}
FALLBACK:
// parseFloatDebug(b, 32, true, exp, trunc, ok)
return parseFloat32_strconv(b)
}
func parseFloat64_custom(b []byte) (f float64, err error) {
mantissa, exp, neg, trunc, bad, ok := readFloat(b, fi64)
_ = trunc
if bad {
return 0, parseFloatErr(b)
}
if ok {
f = float64(mantissa)
if neg {
f = -f
}
if exp != 0 {
indx := fExpIndx(exp)
if exp < 0 { // int / 10^k
f /= float64pow10[indx]
} else { // exp > 0
if exp > fi64.exactPow10 {
f *= float64pow10[exp-fi64.exactPow10]
if f < -fMax64 || f > fMax64 { // exponent too large - outside range
goto FALLBACK
}
indx = uint8(fi64.exactPow10)
}
f *= float64pow10[indx]
}
}
return
}
FALLBACK:
return parseFloat64_strconv(b)
}
func fExpIndx(v int8) uint8 {
if v < 0 {
return uint8(-v)
}
return uint8(v)
}
func readFloat(s []byte, y floatinfo) (mantissa uint64, exp int8, neg, trunc, bad, ok bool) {
var i uint // make it uint, so that we eliminate bounds checking
var slen = uint(len(s))
if slen == 0 {
bad = true
return
}
switch s[0] {
case '+':
i++
case '-':
neg = true
i++
}
// we considered punting early if string has length > maxMantDigits, but this doesn't account
// for trailing 0's e.g. 700000000000000000000 can be encoded exactly as it is 7e20
// var sawdot, sawdigits, sawexp bool
var sawdot, sawexp bool
var nd, ndMant, dp int8
L:
for ; i < slen; i++ {
switch s[i] {
case '.':
if sawdot {
bad = true
return
}
sawdot = true
dp = nd
case '0':
if nd == 0 { // ignore leading zeros
dp--
continue
}
nd++
if ndMant < y.maxMantDigits {
// mantissa = (mantissa << 1) + (mantissa << 3)
mantissa *= fBase
ndMant++
}
case '1', '2', '3', '4', '5', '6', '7', '8', '9':
// sawdigits = true
nd++
if ndMant < y.maxMantDigits {
// mantissa = (mantissa << 1) + (mantissa << 3) + uint64(s[i]-'0')
mantissa = mantissa*fBase + uint64(s[i]-'0')
// mantissa *= fBase
// mantissa += uint64(s[i] - '0')
ndMant++
} else {
trunc = true
return // break L
}
case 'e', 'E':
sawexp = true
break L
default:
bad = true
return
}
}
// if !sawdigits {
// bad = true
// return
// }
if !sawdot {
dp = nd
}
if sawexp {
i++
if i < slen {
var eneg bool
if s[i] == '+' {
i++
} else if s[i] == '-' {
i++
eneg = true
}
if i < slen {
// for exact match, exponent is 1 or 2 digits (float64: -22 to 37, float32: -1 to 17).
// exit quick if exponent is more than 2 digits.
if i+2 < slen {
return
}
var e int8
if s[i] < '0' || s[i] > '9' {
bad = true
return
}
e = e*fBase + int8(s[i]-'0') // (e << 1) + (e << 3) + int8(s[i]-'0')
i++
if i < slen {
if s[i] < '0' || s[i] > '9' {
bad = true
return
}
e = e*fBase + int8(s[i]-'0') // (e << 1) + (e << 3) + int8(s[i]-'0')
i++
}
if eneg {
dp -= e
} else {
dp += e
}
}
}
}
if mantissa != 0 {
if mantissa>>y.mantbits != 0 {
return
}
exp = dp - ndMant
if exp < -y.exactPow10 || exp > y.exactInts+y.exactPow10 { // cannot handle it
return
}
}
ok = true // && !trunc // if trunc=true, we return early (so here trunc=false)
return
}
// fMul10ShiftU64
// func parseFloatDebug(b []byte, bitsize int, strconv bool, exp int8, trunc, ok bool) {
// if strconv {
// xdebugf("parseFloat%d: delegating: %s, exp: %d, trunc: %v, ok: %v", bitsize, b, exp, trunc, ok)
// } else {
// xdebug2f("parseFloat%d: attempting: %s, exp: %d, trunc: %v, ok: %v", bitsize, b, exp, trunc, ok)
// }
// }