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https://github.com/golang/go
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exp/regexp/syntax: case-folding in character classes
Also fix \x{123} parsing. R=r CC=golang-dev https://golang.org/cl/4632052
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commit
52cd055f91
@ -81,6 +81,7 @@ type parser struct {
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stack []*Regexp // stack of parsed expressions
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numCap int // number of capturing groups seen
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wholeRegexp string
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tmpClass []int // temporary char class work space
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}
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// Parse stack manipulation.
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@ -371,7 +372,6 @@ func Parse(s string, flags Flags) (*Regexp, os.Error) {
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if r != nil {
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re.Rune = r
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t = rest
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// TODO: Handle FoldCase flag.
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p.push(re)
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break BigSwitch
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}
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@ -729,6 +729,7 @@ Switch:
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if r > unicode.MaxRune {
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break Switch
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}
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nhex++
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}
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if nhex == 0 {
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break Switch
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@ -801,12 +802,7 @@ func (p *parser) parsePerlClassEscape(s string, r []int) (out []int, rest string
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if g.sign == 0 {
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return
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}
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if g.sign < 0 {
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r = appendNegatedClass(r, g.class)
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} else {
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r = appendClass(r, g.class)
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}
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return r, s[2:]
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return p.appendGroup(r, g), s[2:]
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}
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// parseNamedClass parses a leading POSIX named character class like [:alnum:]
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@ -827,23 +823,40 @@ func (p *parser) parseNamedClass(s string, r []int) (out []int, rest string, err
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if g.sign == 0 {
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return nil, "", &Error{ErrInvalidCharRange, name}
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}
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if g.sign < 0 {
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r = appendNegatedClass(r, g.class)
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} else {
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r = appendClass(r, g.class)
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}
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return r, s, nil
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return p.appendGroup(r, g), s, nil
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}
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// unicodeTable returns the unicode.RangeTable identified by name.
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func unicodeTable(name string) *unicode.RangeTable {
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func (p *parser) appendGroup(r []int, g charGroup) []int {
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if p.flags&FoldCase == 0 {
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if g.sign < 0 {
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r = appendNegatedClass(r, g.class)
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} else {
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r = appendClass(r, g.class)
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}
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} else {
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tmp := p.tmpClass[:0]
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tmp = appendFoldedClass(tmp, g.class)
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p.tmpClass = tmp
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tmp = cleanClass(&p.tmpClass)
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if g.sign < 0 {
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r = appendNegatedClass(r, tmp)
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} else {
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r = appendClass(r, tmp)
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}
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}
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return r
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}
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// unicodeTable returns the unicode.RangeTable identified by name
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// and the table of additional fold-equivalent code points.
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func unicodeTable(name string) (*unicode.RangeTable, *unicode.RangeTable) {
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if t := unicode.Categories[name]; t != nil {
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return t
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return t, unicode.FoldCategory[name]
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}
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if t := unicode.Scripts[name]; t != nil {
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return t
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return t, unicode.FoldScript[name]
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}
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return nil
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return nil, nil
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}
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// parseUnicodeClass parses a leading Unicode character class like \p{Han}
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@ -891,14 +904,31 @@ func (p *parser) parseUnicodeClass(s string, r []int) (out []int, rest string, e
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name = name[1:]
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}
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tab := unicodeTable(name)
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tab, fold := unicodeTable(name)
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if tab == nil {
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return nil, "", &Error{ErrInvalidCharRange, seq}
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}
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if sign > 0 {
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r = appendTable(r, tab)
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if p.flags&FoldCase == 0 || fold == nil {
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if sign > 0 {
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r = appendTable(r, tab)
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} else {
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r = appendNegatedTable(r, tab)
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}
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} else {
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r = appendNegatedTable(r, tab)
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// Merge and clean tab and fold in a temporary buffer.
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// This is necessary for the negative case and just tidy
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// for the positive case.
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tmp := p.tmpClass[:0]
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tmp = appendTable(tmp, tab)
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tmp = appendTable(tmp, fold)
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p.tmpClass = tmp
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tmp = cleanClass(&p.tmpClass)
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if sign > 0 {
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r = appendClass(r, tmp)
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} else {
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r = appendNegatedClass(r, tmp)
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}
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}
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return r, t, nil
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}
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@ -979,7 +1009,11 @@ func (p *parser) parseClass(s string) (rest string, err os.Error) {
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return "", &Error{Code: ErrInvalidCharRange, Expr: rng}
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}
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}
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class = appendRange(class, lo, hi)
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if p.flags&FoldCase == 0 {
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class = appendRange(class, lo, hi)
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} else {
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class = appendFoldedRange(class, lo, hi)
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}
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}
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t = t[1:] // chop ]
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@ -999,10 +1033,15 @@ func (p *parser) parseClass(s string) (rest string, err os.Error) {
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// cleanClass sorts the ranges (pairs of elements of r),
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// merges them, and eliminates duplicates.
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func cleanClass(rp *[]int) []int {
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// Sort by lo increasing, hi decreasing to break ties.
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sort.Sort(ranges{rp})
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r := *rp
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if len(r) < 2 {
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return r
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}
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// Merge abutting, overlapping.
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w := 2 // write index
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for i := 2; i < len(r); i += 2 {
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@ -1025,23 +1064,71 @@ func cleanClass(rp *[]int) []int {
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// appendRange returns the result of appending the range lo-hi to the class r.
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func appendRange(r []int, lo, hi int) []int {
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// Expand last range if overlaps or abuts.
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if n := len(r); n > 0 {
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rlo, rhi := r[n-2], r[n-1]
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if lo <= rhi+1 && rlo <= hi+1 {
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if lo < rlo {
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r[n-2] = lo
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// Expand last range or next to last range if it overlaps or abuts.
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// Checking two ranges helps when appending case-folded
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// alphabets, so that one range can be expanding A-Z and the
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// other expanding a-z.
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n := len(r)
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for i := 2; i <= 4; i += 2 { // twice, using i=2, i=4
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if n >= i {
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rlo, rhi := r[n-i], r[n-i+1]
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if lo <= rhi+1 && rlo <= hi+1 {
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if lo < rlo {
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r[n-i] = lo
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}
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if hi > rhi {
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r[n-i+1] = hi
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}
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return r
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}
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if hi > rhi {
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r[n-1] = hi
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}
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return r
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}
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}
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return append(r, lo, hi)
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}
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const (
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// minimum and maximum runes involved in folding.
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// checked during test.
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minFold = 0x0041
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maxFold = 0x1044f
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)
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// appendFoldedRange returns the result of appending the range lo-hi
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// and its case folding-equivalent runes to the class r.
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func appendFoldedRange(r []int, lo, hi int) []int {
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// Optimizations.
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if lo <= minFold && hi >= maxFold {
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// Range is full: folding can't add more.
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return appendRange(r, lo, hi)
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}
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if hi < minFold || lo > maxFold {
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// Range is outside folding possibilities.
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return appendRange(r, lo, hi)
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}
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if lo < minFold {
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// [lo, minFold-1] needs no folding.
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r = appendRange(r, lo, minFold-1)
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lo = minFold
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}
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if hi > maxFold {
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// [maxFold+1, hi] needs no folding.
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r = appendRange(r, maxFold+1, hi)
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hi = maxFold
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}
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// Brute force. Depend on appendRange to coalesce ranges on the fly.
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for c := lo; c <= hi; c++ {
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r = appendRange(r, c, c)
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f := unicode.SimpleFold(c)
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for f != c {
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r = appendRange(r, f, f)
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f = unicode.SimpleFold(f)
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}
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}
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return r
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}
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// appendClass returns the result of appending the class x to the class r.
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// It assume x is clean.
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func appendClass(r []int, x []int) []int {
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@ -1051,6 +1138,14 @@ func appendClass(r []int, x []int) []int {
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return r
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}
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// appendFolded returns the result of appending the case folding of the class x to the class r.
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func appendFoldedClass(r []int, x []int) []int {
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for i := 0; i < len(x); i += 2 {
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r = appendFoldedRange(r, x[i], x[i+1])
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}
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return r
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}
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// appendNegatedClass returns the result of appending the negation of the class x to the class r.
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// It assumes x is clean.
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func appendNegatedClass(r []int, x []int) []int {
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@ -74,18 +74,18 @@ var parseTests = []struct {
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{"[a-z]", "cc{0x61-0x7a}"},
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{"[^[:lower:]]", "cc{0x0-0x60 0x7b-0x10ffff}"},
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{"[[:^lower:]]", "cc{0x0-0x60 0x7b-0x10ffff}"},
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// { "(?i)[[:lower:]]", "cc{0x41-0x5a 0x61-0x7a 0x17f 0x212a}" },
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// { "(?i)[a-z]", "cc{0x41-0x5a 0x61-0x7a 0x17f 0x212a}" },
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// { "(?i)[^[:lower:]]", "cc{0x0-0x40 0x5b-0x60 0x7b-0x17e 0x180-0x2129 0x212b-0x10ffff}" },
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// { "(?i)[[:^lower:]]", "cc{0x0-0x40 0x5b-0x60 0x7b-0x17e 0x180-0x2129 0x212b-0x10ffff}" },
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{"(?i)[[:lower:]]", "cc{0x41-0x5a 0x61-0x7a 0x17f 0x212a}"},
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{"(?i)[a-z]", "cc{0x41-0x5a 0x61-0x7a 0x17f 0x212a}"},
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{"(?i)[^[:lower:]]", "cc{0x0-0x40 0x5b-0x60 0x7b-0x17e 0x180-0x2129 0x212b-0x10ffff}"},
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{"(?i)[[:^lower:]]", "cc{0x0-0x40 0x5b-0x60 0x7b-0x17e 0x180-0x2129 0x212b-0x10ffff}"},
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{"\\d", "cc{0x30-0x39}"},
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{"\\D", "cc{0x0-0x2f 0x3a-0x10ffff}"},
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{"\\s", "cc{0x9-0xa 0xc-0xd 0x20}"},
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{"\\S", "cc{0x0-0x8 0xb 0xe-0x1f 0x21-0x10ffff}"},
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{"\\w", "cc{0x30-0x39 0x41-0x5a 0x5f 0x61-0x7a}"},
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{"\\W", "cc{0x0-0x2f 0x3a-0x40 0x5b-0x5e 0x60 0x7b-0x10ffff}"},
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// { "(?i)\\w", "cc{0x30-0x39 0x41-0x5a 0x5f 0x61-0x7a 0x17f 0x212a}" },
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// { "(?i)\\W", "cc{0x0-0x2f 0x3a-0x40 0x5b-0x5e 0x60 0x7b-0x17e 0x180-0x2129 0x212b-0x10ffff}" },
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{"(?i)\\w", "cc{0x30-0x39 0x41-0x5a 0x5f 0x61-0x7a 0x17f 0x212a}"},
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{"(?i)\\W", "cc{0x0-0x2f 0x3a-0x40 0x5b-0x5e 0x60 0x7b-0x17e 0x180-0x2129 0x212b-0x10ffff}"},
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{"[^\\\\]", "cc{0x0-0x5b 0x5d-0x10ffff}"},
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// { "\\C", "byte{}" },
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@ -100,6 +100,13 @@ var parseTests = []struct {
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{"[\\p{^Braille}]", "cc{0x0-0x27ff 0x2900-0x10ffff}"},
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{"[\\P{^Braille}]", "cc{0x2800-0x28ff}"},
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{"[\\pZ]", "cc{0x20 0xa0 0x1680 0x180e 0x2000-0x200a 0x2028-0x2029 0x202f 0x205f 0x3000}"},
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{"\\p{Lu}", mkCharClass(unicode.IsUpper)},
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{"[\\p{Lu}]", mkCharClass(unicode.IsUpper)},
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{"(?i)[\\p{Lu}]", mkCharClass(isUpperFold)},
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// Hex, octal.
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{"[\\012-\\234]\\141", "cat{cc{0xa-0x9c}lit{a}}"},
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{"[\\x{41}-\\x7a]\\x61", "cat{cc{0x41-0x7a}lit{a}}"},
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// More interesting regular expressions.
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// { "a{,2}", "str{a{,2}}" },
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@ -270,3 +277,69 @@ func dumpRegexp(b *bytes.Buffer, re *Regexp) {
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}
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b.WriteByte('}')
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}
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func mkCharClass(f func(int) bool) string {
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re := &Regexp{Op: OpCharClass}
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lo := -1
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for i := 0; i <= unicode.MaxRune; i++ {
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if f(i) {
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if lo < 0 {
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lo = i
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}
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} else {
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if lo >= 0 {
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re.Rune = append(re.Rune, lo, i-1)
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lo = -1
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}
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}
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}
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if lo >= 0 {
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re.Rune = append(re.Rune, lo, unicode.MaxRune)
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}
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return dump(re)
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}
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func isUpperFold(rune int) bool {
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if unicode.IsUpper(rune) {
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return true
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}
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c := unicode.SimpleFold(rune)
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for c != rune {
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if unicode.IsUpper(c) {
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return true
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}
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c = unicode.SimpleFold(c)
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}
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return false
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}
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func TestFoldConstants(t *testing.T) {
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last := -1
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for i := 0; i <= unicode.MaxRune; i++ {
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if unicode.SimpleFold(i) == i {
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continue
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}
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if last == -1 && minFold != i {
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t.Errorf("minFold=%#U should be %#U", minFold, i)
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}
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last = i
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}
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if maxFold != last {
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t.Errorf("maxFold=%#U should be %#U", maxFold, last)
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}
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}
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func TestAppendRangeCollapse(t *testing.T) {
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// AppendRange should collapse each of the new ranges
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// into the earlier ones (it looks back two ranges), so that
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// the slice never grows very large.
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// Note that we are not calling cleanClass.
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var r []int
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for i := 'A'; i <= 'Z'; i++ {
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r = appendRange(r, i, i)
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r = appendRange(r, i+'a'-'A', i+'a'-'A')
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}
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if string(r) != "AZaz" {
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t.Errorf("appendRange interlaced A-Z a-z = %s, want AZaz", string(r))
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}
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}
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