package interp import ( "io" "regexp" "strings" "github.com/wader/fq/internal/gojqex" "github.com/wader/fq/internal/ioex" "github.com/wader/fq/pkg/bitio" "github.com/wader/fq/pkg/ranges" "github.com/wader/gojq" ) func init() { RegisterIter2("_match_binary", (*Interp)._binaryMatch) } func (i *Interp) _binaryMatch(c any, pattern any, flags string) gojq.Iter { bv, err := toBinary(c) if err != nil { return gojq.NewIter(err) } var re string var byteRunes bool var global bool switch pattern := pattern.(type) { case string: re = pattern default: reBuf, err := toBytes(pattern) if err != nil { return gojq.NewIter(err) } var reRs []rune for _, b := range reBuf { reRs = append(reRs, rune(b)) } byteRunes = true // escape paratheses runes etc re = regexp.QuoteMeta(string(reRs)) } if strings.Contains(flags, "b") { byteRunes = true } global = strings.Contains(flags, "g") // TODO: err to string // TODO: extract to regexpextra? "all" FindReaderSubmatchIndex that can iter? sre, err := gojqex.CompileRegexp(re, "gimb", flags) if err != nil { return gojq.NewIter(err) } sreNames := sre.SubexpNames() br, err := bv.toReader() if err != nil { return gojq.NewIter(err) } var rr interface { io.RuneReader io.Seeker } // raw bytes regexp matching is a bit tricky, what we do is to read each byte as a codepoint (ByteRuneReader) // and then we can use UTF-8 encoded codepoint to match a raw byte. So for example \u00ff (encoded as 0xc3 0xbf) // will match the byte \0xff if byteRunes { // byte mode, read each byte as a rune rr = ioex.ByteRuneReader{RS: bitio.NewIOReadSeeker(br)} } else { rr = ioex.RuneReadSeeker{RS: bitio.NewIOReadSeeker(br)} } var off int64 prevOff := int64(-1) return iterFn(func() (any, bool) { // TODO: correct way to handle empty match for binary, move one byte forward? // > "asdasd" | [match(""; "g")], [(tobytes | match(""; "g"))] | length // 7 // 1 if prevOff == off { return nil, false } if prevOff != -1 && !global { return nil, false } _, err = rr.Seek(off, io.SeekStart) if err != nil { return err, false } l := sre.FindReaderSubmatchIndex(rr) if l == nil { return nil, false } var captures []any var firstCapture map[string]any for i := 0; i < len(l)/2; i++ { start, end := l[i*2], l[i*2+1] capture := map[string]any{ "offset": int(off) + start, "length": end - start, } if start != -1 { matchBitOff := (off + int64(start)) * 8 matchLength := int64(end-start) * 8 bbo := Binary{ br: bv.br, r: ranges.Range{ Start: bv.r.Start + matchBitOff, Len: matchLength, }, unit: 8, } capture["string"] = bbo } else { capture["string"] = nil } if i > 0 { if sreNames[i] != "" { capture["name"] = sreNames[i] } else { capture["name"] = nil } } if i == 0 { firstCapture = capture } captures = append(captures, capture) } prevOff = off off = off + int64(l[1]) firstCapture["captures"] = captures[1:] return firstCapture, true }) }