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forgejo/vendor/github.com/go-enry/go-oniguruma/regex.go
2020-05-29 09:20:01 +03:00

655 lines
15 KiB
Go
Vendored

package rubex
/*
#cgo CFLAGS: -I/usr/local/include
#cgo LDFLAGS: -L/usr/local/lib -lonig
#include <stdlib.h>
#include <oniguruma.h>
#include "chelper.h"
*/
import "C"
import (
"bytes"
"errors"
"fmt"
"io"
"runtime"
"strconv"
"sync"
"unicode/utf8"
"unsafe"
)
const numMatchStartSize = 4
const numReadBufferStartSize = 256
var mutex sync.Mutex
type NamedGroupInfo map[string]int
type Regexp struct {
pattern string
regex C.OnigRegex
encoding C.OnigEncoding
errorInfo *C.OnigErrorInfo
errorBuf *C.char
numCaptures int32
namedGroupInfo NamedGroupInfo
}
// NewRegexp creates and initializes a new Regexp with the given pattern and option.
func NewRegexp(pattern string, option int) (*Regexp, error) {
return initRegexp(&Regexp{pattern: pattern, encoding: C.ONIG_ENCODING_UTF8}, option)
}
// NewRegexpASCII is equivalent to NewRegexp, but with the encoding restricted to ASCII.
func NewRegexpASCII(pattern string, option int) (*Regexp, error) {
return initRegexp(&Regexp{pattern: pattern, encoding: C.ONIG_ENCODING_ASCII}, option)
}
func initRegexp(re *Regexp, option int) (*Regexp, error) {
patternCharPtr := C.CString(re.pattern)
defer C.free(unsafe.Pointer(patternCharPtr))
mutex.Lock()
defer mutex.Unlock()
errorCode := C.NewOnigRegex(patternCharPtr, C.int(len(re.pattern)), C.int(option), &re.regex, &re.encoding, &re.errorInfo, &re.errorBuf)
if errorCode != C.ONIG_NORMAL {
return re, errors.New(C.GoString(re.errorBuf))
}
re.numCaptures = int32(C.onig_number_of_captures(re.regex)) + 1
re.namedGroupInfo = re.getNamedGroupInfo()
runtime.SetFinalizer(re, (*Regexp).Free)
return re, nil
}
func Compile(str string) (*Regexp, error) {
return NewRegexp(str, ONIG_OPTION_DEFAULT)
}
func MustCompile(str string) *Regexp {
regexp, error := NewRegexp(str, ONIG_OPTION_DEFAULT)
if error != nil {
panic("regexp: compiling " + str + ": " + error.Error())
}
return regexp
}
func CompileWithOption(str string, option int) (*Regexp, error) {
return NewRegexp(str, option)
}
func MustCompileWithOption(str string, option int) *Regexp {
regexp, error := NewRegexp(str, option)
if error != nil {
panic("regexp: compiling " + str + ": " + error.Error())
}
return regexp
}
// MustCompileASCII is equivalent to MustCompile, but with the encoding restricted to ASCII.
func MustCompileASCII(str string) *Regexp {
regexp, error := NewRegexpASCII(str, ONIG_OPTION_DEFAULT)
if error != nil {
panic("regexp: compiling " + str + ": " + error.Error())
}
return regexp
}
func (re *Regexp) Free() {
mutex.Lock()
if re.regex != nil {
C.onig_free(re.regex)
re.regex = nil
}
mutex.Unlock()
if re.errorInfo != nil {
C.free(unsafe.Pointer(re.errorInfo))
re.errorInfo = nil
}
if re.errorBuf != nil {
C.free(unsafe.Pointer(re.errorBuf))
re.errorBuf = nil
}
}
func (re *Regexp) getNamedGroupInfo() NamedGroupInfo {
numNamedGroups := int(C.onig_number_of_names(re.regex))
// when any named capture exists, there is no numbered capture even if
// there are unnamed captures.
if numNamedGroups == 0 {
return nil
}
namedGroupInfo := make(map[string]int)
//try to get the names
bufferSize := len(re.pattern) * 2
nameBuffer := make([]byte, bufferSize)
groupNumbers := make([]int32, numNamedGroups)
bufferPtr := unsafe.Pointer(&nameBuffer[0])
numbersPtr := unsafe.Pointer(&groupNumbers[0])
length := int(C.GetCaptureNames(re.regex, bufferPtr, (C.int)(bufferSize), (*C.int)(numbersPtr)))
if length == 0 {
panic(fmt.Errorf("could not get the capture group names from %q", re.String()))
}
namesAsBytes := bytes.Split(nameBuffer[:length], ([]byte)(";"))
if len(namesAsBytes) != numNamedGroups {
panic(fmt.Errorf(
"the number of named groups (%d) does not match the number names found (%d)",
numNamedGroups, len(namesAsBytes),
))
}
for i, nameAsBytes := range namesAsBytes {
name := string(nameAsBytes)
namedGroupInfo[name] = int(groupNumbers[i])
}
return namedGroupInfo
}
func (re *Regexp) find(b []byte, n int, offset int) []int {
match := make([]int, re.numCaptures*2)
if n == 0 {
b = []byte{0}
}
bytesPtr := unsafe.Pointer(&b[0])
// captures contains two pairs of ints, start and end, so we need list
// twice the size of the capture groups.
captures := make([]C.int, re.numCaptures*2)
capturesPtr := unsafe.Pointer(&captures[0])
var numCaptures int32
numCapturesPtr := unsafe.Pointer(&numCaptures)
pos := int(C.SearchOnigRegex(
bytesPtr, C.int(n), C.int(offset), C.int(ONIG_OPTION_DEFAULT),
re.regex, re.errorInfo, (*C.char)(nil), (*C.int)(capturesPtr), (*C.int)(numCapturesPtr),
))
if pos < 0 {
return nil
}
if numCaptures <= 0 {
panic("cannot have 0 captures when processing a match")
}
if re.numCaptures != numCaptures {
panic(fmt.Errorf("expected %d captures but got %d", re.numCaptures, numCaptures))
}
for i := range captures {
match[i] = int(captures[i])
}
return match
}
func getCapture(b []byte, beg int, end int) []byte {
if beg < 0 || end < 0 {
return nil
}
return b[beg:end]
}
func (re *Regexp) match(b []byte, n int, offset int) bool {
if n == 0 {
b = []byte{0}
}
bytesPtr := unsafe.Pointer(&b[0])
pos := int(C.SearchOnigRegex(
bytesPtr, C.int(n), C.int(offset), C.int(ONIG_OPTION_DEFAULT),
re.regex, re.errorInfo, nil, nil, nil,
))
return pos >= 0
}
func (re *Regexp) findAll(b []byte, n int) [][]int {
if n < 0 {
n = len(b)
}
capture := make([][]int, 0, numMatchStartSize)
var offset int
for offset <= n {
match := re.find(b, n, offset)
if match == nil {
break
}
capture = append(capture, match)
// move offset to the ending index of the current match and prepare to
// find the next non-overlapping match.
offset = match[1]
// if match[0] == match[1], it means the current match does not advance
// the search. we need to exit the loop to avoid getting stuck here.
if match[0] == match[1] {
if offset < n && offset >= 0 {
//there are more bytes, so move offset by a word
_, width := utf8.DecodeRune(b[offset:])
offset += width
} else {
//search is over, exit loop
break
}
}
}
return capture
}
func (re *Regexp) FindIndex(b []byte) []int {
match := re.find(b, len(b), 0)
if len(match) == 0 {
return nil
}
return match[:2]
}
func (re *Regexp) Find(b []byte) []byte {
loc := re.FindIndex(b)
if loc == nil {
return nil
}
return getCapture(b, loc[0], loc[1])
}
func (re *Regexp) FindString(s string) string {
mb := re.Find([]byte(s))
if mb == nil {
return ""
}
return string(mb)
}
func (re *Regexp) FindStringIndex(s string) []int {
return re.FindIndex([]byte(s))
}
func (re *Regexp) FindAllIndex(b []byte, n int) [][]int {
matches := re.findAll(b, n)
if len(matches) == 0 {
return nil
}
return matches
}
func (re *Regexp) FindAll(b []byte, n int) [][]byte {
matches := re.FindAllIndex(b, n)
if matches == nil {
return nil
}
matchBytes := make([][]byte, 0, len(matches))
for _, match := range matches {
matchBytes = append(matchBytes, getCapture(b, match[0], match[1]))
}
return matchBytes
}
func (re *Regexp) FindAllString(s string, n int) []string {
b := []byte(s)
matches := re.FindAllIndex(b, n)
if matches == nil {
return nil
}
matchStrings := make([]string, 0, len(matches))
for _, match := range matches {
m := getCapture(b, match[0], match[1])
if m == nil {
matchStrings = append(matchStrings, "")
} else {
matchStrings = append(matchStrings, string(m))
}
}
return matchStrings
}
func (re *Regexp) FindAllStringIndex(s string, n int) [][]int {
return re.FindAllIndex([]byte(s), n)
}
func (re *Regexp) FindSubmatchIndex(b []byte) []int {
match := re.find(b, len(b), 0)
if len(match) == 0 {
return nil
}
return match
}
func (re *Regexp) FindSubmatch(b []byte) [][]byte {
match := re.FindSubmatchIndex(b)
if match == nil {
return nil
}
length := len(match) / 2
if length == 0 {
return nil
}
results := make([][]byte, 0, length)
for i := 0; i < length; i++ {
results = append(results, getCapture(b, match[2*i], match[2*i+1]))
}
return results
}
func (re *Regexp) FindStringSubmatch(s string) []string {
b := []byte(s)
match := re.FindSubmatchIndex(b)
if match == nil {
return nil
}
length := len(match) / 2
if length == 0 {
return nil
}
results := make([]string, 0, length)
for i := 0; i < length; i++ {
cap := getCapture(b, match[2*i], match[2*i+1])
if cap == nil {
results = append(results, "")
} else {
results = append(results, string(cap))
}
}
return results
}
func (re *Regexp) FindStringSubmatchIndex(s string) []int {
return re.FindSubmatchIndex([]byte(s))
}
func (re *Regexp) FindAllSubmatchIndex(b []byte, n int) [][]int {
matches := re.findAll(b, n)
if len(matches) == 0 {
return nil
}
return matches
}
func (re *Regexp) FindAllSubmatch(b []byte, n int) [][][]byte {
matches := re.findAll(b, n)
if len(matches) == 0 {
return nil
}
allCapturedBytes := make([][][]byte, 0, len(matches))
for _, match := range matches {
length := len(match) / 2
capturedBytes := make([][]byte, 0, length)
for i := 0; i < length; i++ {
capturedBytes = append(capturedBytes, getCapture(b, match[2*i], match[2*i+1]))
}
allCapturedBytes = append(allCapturedBytes, capturedBytes)
}
return allCapturedBytes
}
func (re *Regexp) FindAllStringSubmatch(s string, n int) [][]string {
b := []byte(s)
matches := re.findAll(b, n)
if len(matches) == 0 {
return nil
}
allCapturedStrings := make([][]string, 0, len(matches))
for _, match := range matches {
length := len(match) / 2
capturedStrings := make([]string, 0, length)
for i := 0; i < length; i++ {
cap := getCapture(b, match[2*i], match[2*i+1])
if cap == nil {
capturedStrings = append(capturedStrings, "")
} else {
capturedStrings = append(capturedStrings, string(cap))
}
}
allCapturedStrings = append(allCapturedStrings, capturedStrings)
}
return allCapturedStrings
}
func (re *Regexp) FindAllStringSubmatchIndex(s string, n int) [][]int {
return re.FindAllSubmatchIndex([]byte(s), n)
}
func (re *Regexp) Match(b []byte) bool {
return re.match(b, len(b), 0)
}
func (re *Regexp) MatchString(s string) bool {
return re.Match([]byte(s))
}
func (re *Regexp) NumSubexp() int {
return (int)(C.onig_number_of_captures(re.regex))
}
func fillCapturedValues(repl []byte, _ []byte, capturedBytes map[string][]byte) []byte {
replLen := len(repl)
newRepl := make([]byte, 0, replLen*3)
groupName := make([]byte, 0, replLen)
var inGroupNameMode, inEscapeMode bool
for index := 0; index < replLen; index++ {
ch := repl[index]
if inGroupNameMode && ch == byte('<') {
} else if inGroupNameMode && ch == byte('>') {
inGroupNameMode = false
capBytes := capturedBytes[string(groupName)]
newRepl = append(newRepl, capBytes...)
groupName = groupName[:0] //reset the name
} else if inGroupNameMode {
groupName = append(groupName, ch)
} else if inEscapeMode && ch <= byte('9') && byte('1') <= ch {
capNumStr := string(ch)
capBytes := capturedBytes[capNumStr]
newRepl = append(newRepl, capBytes...)
} else if inEscapeMode && ch == byte('k') && (index+1) < replLen && repl[index+1] == byte('<') {
inGroupNameMode = true
inEscapeMode = false
index++ //bypass the next char '<'
} else if inEscapeMode {
newRepl = append(newRepl, '\\')
newRepl = append(newRepl, ch)
} else if ch != '\\' {
newRepl = append(newRepl, ch)
}
if ch == byte('\\') || inEscapeMode {
inEscapeMode = !inEscapeMode
}
}
return newRepl
}
func (re *Regexp) replaceAll(src, repl []byte, replFunc func([]byte, []byte, map[string][]byte) []byte) []byte {
srcLen := len(src)
matches := re.findAll(src, srcLen)
if len(matches) == 0 {
return src
}
dest := make([]byte, 0, srcLen)
for i, match := range matches {
length := len(match) / 2
capturedBytes := make(map[string][]byte)
if re.namedGroupInfo == nil {
for j := 0; j < length; j++ {
capturedBytes[strconv.Itoa(j)] = getCapture(src, match[2*j], match[2*j+1])
}
} else {
for name, j := range re.namedGroupInfo {
capturedBytes[name] = getCapture(src, match[2*j], match[2*j+1])
}
}
matchBytes := getCapture(src, match[0], match[1])
newRepl := replFunc(repl, matchBytes, capturedBytes)
prevEnd := 0
if i > 0 {
prevMatch := matches[i-1][:2]
prevEnd = prevMatch[1]
}
if match[0] > prevEnd && prevEnd >= 0 && match[0] <= srcLen {
dest = append(dest, src[prevEnd:match[0]]...)
}
dest = append(dest, newRepl...)
}
lastEnd := matches[len(matches)-1][1]
if lastEnd < srcLen && lastEnd >= 0 {
dest = append(dest, src[lastEnd:]...)
}
return dest
}
func (re *Regexp) ReplaceAll(src, repl []byte) []byte {
return re.replaceAll(src, repl, fillCapturedValues)
}
func (re *Regexp) ReplaceAllFunc(src []byte, repl func([]byte) []byte) []byte {
return re.replaceAll(src, nil, func(_ []byte, matchBytes []byte, _ map[string][]byte) []byte {
return repl(matchBytes)
})
}
func (re *Regexp) ReplaceAllString(src, repl string) string {
return string(re.ReplaceAll([]byte(src), []byte(repl)))
}
func (re *Regexp) ReplaceAllStringFunc(src string, repl func(string) string) string {
return string(re.replaceAll([]byte(src), nil, func(_ []byte, matchBytes []byte, _ map[string][]byte) []byte {
return []byte(repl(string(matchBytes)))
}))
}
func (re *Regexp) String() string {
return re.pattern
}
func growBuffer(b []byte, offset int, n int) []byte {
if offset+n > cap(b) {
buf := make([]byte, 2*cap(b)+n)
copy(buf, b[:offset])
return buf
}
return b
}
func fromReader(r io.RuneReader) []byte {
b := make([]byte, numReadBufferStartSize)
var offset int
for {
rune, runeWidth, err := r.ReadRune()
if err != nil {
break
}
b = growBuffer(b, offset, runeWidth)
writeWidth := utf8.EncodeRune(b[offset:], rune)
if runeWidth != writeWidth {
panic("reading rune width not equal to the written rune width")
}
offset += writeWidth
}
return b[:offset]
}
func (re *Regexp) FindReaderIndex(r io.RuneReader) []int {
b := fromReader(r)
return re.FindIndex(b)
}
func (re *Regexp) FindReaderSubmatchIndex(r io.RuneReader) []int {
b := fromReader(r)
return re.FindSubmatchIndex(b)
}
func (re *Regexp) MatchReader(r io.RuneReader) bool {
b := fromReader(r)
return re.Match(b)
}
func (re *Regexp) LiteralPrefix() (prefix string, complete bool) {
//no easy way to implement this
return "", false
}
func MatchString(pattern string, s string) (matched bool, error error) {
re, err := Compile(pattern)
if err != nil {
return false, err
}
return re.MatchString(s), nil
}
func (re *Regexp) Gsub(src, repl string) string {
return string(re.replaceAll([]byte(src), []byte(repl), fillCapturedValues))
}
func (re *Regexp) GsubFunc(src string, replFunc func(string, map[string]string) string) string {
replaced := re.replaceAll([]byte(src), nil,
func(_ []byte, matchBytes []byte, capturedBytes map[string][]byte) []byte {
capturedStrings := make(map[string]string)
for name, capBytes := range capturedBytes {
capturedStrings[name] = string(capBytes)
}
matchString := string(matchBytes)
return ([]byte)(replFunc(matchString, capturedStrings))
},
)
return string(replaced)
}