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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libgo/] [go/] [regexp/] [syntax/] [prog.go] - Blame information for rev 801

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1 747 jeremybenn
// Copyright 2011 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package syntax
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import (
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        "bytes"
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        "strconv"
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        "unicode"
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)
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// Compiled program.
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// May not belong in this package, but convenient for now.
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// A Prog is a compiled regular expression program.
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type Prog struct {
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        Inst   []Inst
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        Start  int // index of start instruction
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        NumCap int // number of InstCapture insts in re
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}
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// An InstOp is an instruction opcode.
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type InstOp uint8
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const (
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        InstAlt InstOp = iota
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        InstAltMatch
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        InstCapture
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        InstEmptyWidth
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        InstMatch
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        InstFail
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        InstNop
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        InstRune
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        InstRune1
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        InstRuneAny
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        InstRuneAnyNotNL
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)
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// An EmptyOp specifies a kind or mixture of zero-width assertions.
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type EmptyOp uint8
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const (
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        EmptyBeginLine EmptyOp = 1 << iota
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        EmptyEndLine
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        EmptyBeginText
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        EmptyEndText
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        EmptyWordBoundary
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        EmptyNoWordBoundary
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)
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// EmptyOpContext returns the zero-width assertions
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// satisfied at the position between the runes r1 and r2.
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// Passing r1 == -1 indicates that the position is
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// at the beginning of the text.
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// Passing r2 == -1 indicates that the position is
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// at the end of the text.
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func EmptyOpContext(r1, r2 rune) EmptyOp {
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        var op EmptyOp
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        if r1 < 0 {
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                op |= EmptyBeginText | EmptyBeginLine
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        }
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        if r1 == '\n' {
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                op |= EmptyBeginLine
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        }
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        if r2 < 0 {
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                op |= EmptyEndText | EmptyEndLine
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        }
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        if r2 == '\n' {
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                op |= EmptyEndLine
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        }
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        if IsWordChar(r1) != IsWordChar(r2) {
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                op |= EmptyWordBoundary
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        } else {
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                op |= EmptyNoWordBoundary
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        }
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        return op
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}
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// IsWordChar reports whether r is consider a ``word character''
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// during the evaluation of the \b and \B zero-width assertions.
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// These assertions are ASCII-only: the word characters are [A-Za-z0-9_].
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func IsWordChar(r rune) bool {
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        return 'A' <= r && r <= 'Z' || 'a' <= r && r <= 'z' || '0' <= r && r <= '9' || r == '_'
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}
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// An Inst is a single instruction in a regular expression program.
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type Inst struct {
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        Op   InstOp
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        Out  uint32 // all but InstMatch, InstFail
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        Arg  uint32 // InstAlt, InstAltMatch, InstCapture, InstEmptyWidth
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        Rune []rune
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}
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func (p *Prog) String() string {
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        var b bytes.Buffer
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        dumpProg(&b, p)
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        return b.String()
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}
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// skipNop follows any no-op or capturing instructions
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// and returns the resulting pc.
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func (p *Prog) skipNop(pc uint32) *Inst {
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        i := &p.Inst[pc]
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        for i.Op == InstNop || i.Op == InstCapture {
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                pc = i.Out
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                i = &p.Inst[pc]
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        }
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        return i
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}
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// op returns i.Op but merges all the Rune special cases into InstRune
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func (i *Inst) op() InstOp {
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        op := i.Op
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        switch op {
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        case InstRune1, InstRuneAny, InstRuneAnyNotNL:
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                op = InstRune
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        }
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        return op
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}
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// Prefix returns a literal string that all matches for the
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// regexp must start with.  Complete is true if the prefix
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// is the entire match.
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func (p *Prog) Prefix() (prefix string, complete bool) {
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        i := p.skipNop(uint32(p.Start))
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        // Avoid allocation of buffer if prefix is empty.
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        if i.op() != InstRune || len(i.Rune) != 1 {
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                return "", i.Op == InstMatch
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        }
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        // Have prefix; gather characters.
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        var buf bytes.Buffer
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        for i.op() == InstRune && len(i.Rune) == 1 && Flags(i.Arg)&FoldCase == 0 {
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                buf.WriteRune(i.Rune[0])
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                i = p.skipNop(i.Out)
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        }
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        return buf.String(), i.Op == InstMatch
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}
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// StartCond returns the leading empty-width conditions that must
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// be true in any match.  It returns ^EmptyOp(0) if no matches are possible.
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func (p *Prog) StartCond() EmptyOp {
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        var flag EmptyOp
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        pc := uint32(p.Start)
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        i := &p.Inst[pc]
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Loop:
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        for {
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                switch i.Op {
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                case InstEmptyWidth:
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                        flag |= EmptyOp(i.Arg)
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                case InstFail:
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                        return ^EmptyOp(0)
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                case InstCapture, InstNop:
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                        // skip
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                default:
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                        break Loop
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                }
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                pc = i.Out
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                i = &p.Inst[pc]
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        }
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        return flag
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}
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// MatchRune returns true if the instruction matches (and consumes) r.
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// It should only be called when i.Op == InstRune.
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func (i *Inst) MatchRune(r rune) bool {
169
        rune := i.Rune
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        // Special case: single-rune slice is from literal string, not char class.
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        if len(rune) == 1 {
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                r0 := rune[0]
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                if r == r0 {
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                        return true
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                }
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                if Flags(i.Arg)&FoldCase != 0 {
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                        for r1 := unicode.SimpleFold(r0); r1 != r0; r1 = unicode.SimpleFold(r1) {
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                                if r == r1 {
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                                        return true
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                                }
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                        }
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                }
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                return false
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        }
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        // Peek at the first few pairs.
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        // Should handle ASCII well.
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        for j := 0; j < len(rune) && j <= 8; j += 2 {
190
                if r < rune[j] {
191
                        return false
192
                }
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                if r <= rune[j+1] {
194
                        return true
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                }
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        }
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        // Otherwise binary search.
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        lo := 0
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        hi := len(rune) / 2
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        for lo < hi {
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                m := lo + (hi-lo)/2
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                if c := rune[2*m]; c <= r {
204
                        if r <= rune[2*m+1] {
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                                return true
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                        }
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                        lo = m + 1
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                } else {
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                        hi = m
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                }
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        }
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        return false
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}
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// As per re2's Prog::IsWordChar. Determines whether rune is an ASCII word char.
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// Since we act on runes, it would be easy to support Unicode here.
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func wordRune(r rune) bool {
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        return r == '_' ||
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                ('A' <= r && r <= 'Z') ||
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                ('a' <= r && r <= 'z') ||
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                ('0' <= r && r <= '9')
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}
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// MatchEmptyWidth returns true if the instruction matches
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// an empty string between the runes before and after.
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// It should only be called when i.Op == InstEmptyWidth.
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func (i *Inst) MatchEmptyWidth(before rune, after rune) bool {
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        switch EmptyOp(i.Arg) {
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        case EmptyBeginLine:
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                return before == '\n' || before == -1
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        case EmptyEndLine:
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                return after == '\n' || after == -1
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        case EmptyBeginText:
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                return before == -1
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        case EmptyEndText:
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                return after == -1
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        case EmptyWordBoundary:
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                return wordRune(before) != wordRune(after)
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        case EmptyNoWordBoundary:
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                return wordRune(before) == wordRune(after)
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        }
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        panic("unknown empty width arg")
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}
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func (i *Inst) String() string {
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        var b bytes.Buffer
247
        dumpInst(&b, i)
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        return b.String()
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}
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251
func bw(b *bytes.Buffer, args ...string) {
252
        for _, s := range args {
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                b.WriteString(s)
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        }
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}
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func dumpProg(b *bytes.Buffer, p *Prog) {
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        for j := range p.Inst {
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                i := &p.Inst[j]
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                pc := strconv.Itoa(j)
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                if len(pc) < 3 {
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                        b.WriteString("   "[len(pc):])
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                }
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                if j == p.Start {
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                        pc += "*"
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                }
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                bw(b, pc, "\t")
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                dumpInst(b, i)
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                bw(b, "\n")
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        }
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}
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273
func u32(i uint32) string {
274
        return strconv.FormatUint(uint64(i), 10)
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}
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func dumpInst(b *bytes.Buffer, i *Inst) {
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        switch i.Op {
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        case InstAlt:
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                bw(b, "alt -> ", u32(i.Out), ", ", u32(i.Arg))
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        case InstAltMatch:
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                bw(b, "altmatch -> ", u32(i.Out), ", ", u32(i.Arg))
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        case InstCapture:
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                bw(b, "cap ", u32(i.Arg), " -> ", u32(i.Out))
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        case InstEmptyWidth:
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                bw(b, "empty ", u32(i.Arg), " -> ", u32(i.Out))
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        case InstMatch:
288
                bw(b, "match")
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        case InstFail:
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                bw(b, "fail")
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        case InstNop:
292
                bw(b, "nop -> ", u32(i.Out))
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        case InstRune:
294
                if i.Rune == nil {
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                        // shouldn't happen
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                        bw(b, "rune ")
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                }
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                bw(b, "rune ", strconv.QuoteToASCII(string(i.Rune)))
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                if Flags(i.Arg)&FoldCase != 0 {
300
                        bw(b, "/i")
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                }
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                bw(b, " -> ", u32(i.Out))
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        case InstRune1:
304
                bw(b, "rune1 ", strconv.QuoteToASCII(string(i.Rune)), " -> ", u32(i.Out))
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        case InstRuneAny:
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                bw(b, "any -> ", u32(i.Out))
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        case InstRuneAnyNotNL:
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                bw(b, "anynotnl -> ", u32(i.Out))
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        }
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}

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