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Current Directory: /opt/golang/1.22.0/src/regexp/syntax
/opt/golang/1.22.0/src/regexp/syntax/
Viewing File: /opt/golang/1.22.0/src/regexp/syntax/parse_test.go
// Copyright 2011 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package syntax import ( "fmt" "strings" "testing" "unicode" ) type parseTest struct { Regexp string Dump string } var parseTests = []parseTest{ // Base cases {`a`, `lit{a}`}, {`a.`, `cat{lit{a}dot{}}`}, {`a.b`, `cat{lit{a}dot{}lit{b}}`}, {`ab`, `str{ab}`}, {`a.b.c`, `cat{lit{a}dot{}lit{b}dot{}lit{c}}`}, {`abc`, `str{abc}`}, {`a|^`, `alt{lit{a}bol{}}`}, {`a|b`, `cc{0x61-0x62}`}, {`(a)`, `cap{lit{a}}`}, {`(a)|b`, `alt{cap{lit{a}}lit{b}}`}, {`a*`, `star{lit{a}}`}, {`a+`, `plus{lit{a}}`}, {`a?`, `que{lit{a}}`}, {`a{2}`, `rep{2,2 lit{a}}`}, {`a{2,3}`, `rep{2,3 lit{a}}`}, {`a{2,}`, `rep{2,-1 lit{a}}`}, {`a*?`, `nstar{lit{a}}`}, {`a+?`, `nplus{lit{a}}`}, {`a??`, `nque{lit{a}}`}, {`a{2}?`, `nrep{2,2 lit{a}}`}, {`a{2,3}?`, `nrep{2,3 lit{a}}`}, {`a{2,}?`, `nrep{2,-1 lit{a}}`}, // Malformed { } are treated as literals. {`x{1001`, `str{x{1001}`}, {`x{9876543210`, `str{x{9876543210}`}, {`x{9876543210,`, `str{x{9876543210,}`}, {`x{2,1`, `str{x{2,1}`}, {`x{1,9876543210`, `str{x{1,9876543210}`}, {``, `emp{}`}, {`|`, `emp{}`}, // alt{emp{}emp{}} but got factored {`|x|`, `alt{emp{}lit{x}emp{}}`}, {`.`, `dot{}`}, {`^`, `bol{}`}, {`$`, `eol{}`}, {`\|`, `lit{|}`}, {`\(`, `lit{(}`}, {`\)`, `lit{)}`}, {`\*`, `lit{*}`}, {`\+`, `lit{+}`}, {`\?`, `lit{?}`}, {`{`, `lit{{}`}, {`}`, `lit{}}`}, {`\.`, `lit{.}`}, {`\^`, `lit{^}`}, {`\$`, `lit{$}`}, {`\\`, `lit{\}`}, {`[ace]`, `cc{0x61 0x63 0x65}`}, {`[abc]`, `cc{0x61-0x63}`}, {`[a-z]`, `cc{0x61-0x7a}`}, {`[a]`, `lit{a}`}, {`\-`, `lit{-}`}, {`-`, `lit{-}`}, {`\_`, `lit{_}`}, {`abc`, `str{abc}`}, {`abc|def`, `alt{str{abc}str{def}}`}, {`abc|def|ghi`, `alt{str{abc}str{def}str{ghi}}`}, // Posix and Perl extensions {`[[:lower:]]`, `cc{0x61-0x7a}`}, {`[a-z]`, `cc{0x61-0x7a}`}, {`[^[:lower:]]`, `cc{0x0-0x60 0x7b-0x10ffff}`}, {`[[:^lower:]]`, `cc{0x0-0x60 0x7b-0x10ffff}`}, {`(?i)[[:lower:]]`, `cc{0x41-0x5a 0x61-0x7a 0x17f 0x212a}`}, {`(?i)[a-z]`, `cc{0x41-0x5a 0x61-0x7a 0x17f 0x212a}`}, {`(?i)[^[:lower:]]`, `cc{0x0-0x40 0x5b-0x60 0x7b-0x17e 0x180-0x2129 0x212b-0x10ffff}`}, {`(?i)[[:^lower:]]`, `cc{0x0-0x40 0x5b-0x60 0x7b-0x17e 0x180-0x2129 0x212b-0x10ffff}`}, {`\d`, `cc{0x30-0x39}`}, {`\D`, `cc{0x0-0x2f 0x3a-0x10ffff}`}, {`\s`, `cc{0x9-0xa 0xc-0xd 0x20}`}, {`\S`, `cc{0x0-0x8 0xb 0xe-0x1f 0x21-0x10ffff}`}, {`\w`, `cc{0x30-0x39 0x41-0x5a 0x5f 0x61-0x7a}`}, {`\W`, `cc{0x0-0x2f 0x3a-0x40 0x5b-0x5e 0x60 0x7b-0x10ffff}`}, {`(?i)\w`, `cc{0x30-0x39 0x41-0x5a 0x5f 0x61-0x7a 0x17f 0x212a}`}, {`(?i)\W`, `cc{0x0-0x2f 0x3a-0x40 0x5b-0x5e 0x60 0x7b-0x17e 0x180-0x2129 0x212b-0x10ffff}`}, {`[^\\]`, `cc{0x0-0x5b 0x5d-0x10ffff}`}, // { `\C`, `byte{}` }, // probably never // Unicode, negatives, and a double negative. {`\p{Braille}`, `cc{0x2800-0x28ff}`}, {`\P{Braille}`, `cc{0x0-0x27ff 0x2900-0x10ffff}`}, {`\p{^Braille}`, `cc{0x0-0x27ff 0x2900-0x10ffff}`}, {`\P{^Braille}`, `cc{0x2800-0x28ff}`}, {`\pZ`, `cc{0x20 0xa0 0x1680 0x2000-0x200a 0x2028-0x2029 0x202f 0x205f 0x3000}`}, {`[\p{Braille}]`, `cc{0x2800-0x28ff}`}, {`[\P{Braille}]`, `cc{0x0-0x27ff 0x2900-0x10ffff}`}, {`[\p{^Braille}]`, `cc{0x0-0x27ff 0x2900-0x10ffff}`}, {`[\P{^Braille}]`, `cc{0x2800-0x28ff}`}, {`[\pZ]`, `cc{0x20 0xa0 0x1680 0x2000-0x200a 0x2028-0x2029 0x202f 0x205f 0x3000}`}, {`\p{Lu}`, mkCharClass(unicode.IsUpper)}, {`[\p{Lu}]`, mkCharClass(unicode.IsUpper)}, {`(?i)[\p{Lu}]`, mkCharClass(isUpperFold)}, {`\p{Any}`, `dot{}`}, {`\p{^Any}`, `cc{}`}, // Hex, octal. {`[\012-\234]\141`, `cat{cc{0xa-0x9c}lit{a}}`}, {`[\x{41}-\x7a]\x61`, `cat{cc{0x41-0x7a}lit{a}}`}, // More interesting regular expressions. {`a{,2}`, `str{a{,2}}`}, {`\.\^\$\\`, `str{.^$\}`}, {`[a-zABC]`, `cc{0x41-0x43 0x61-0x7a}`}, {`[^a]`, `cc{0x0-0x60 0x62-0x10ffff}`}, {`[α-ε☺]`, `cc{0x3b1-0x3b5 0x263a}`}, // utf-8 {`a*{`, `cat{star{lit{a}}lit{{}}`}, // Test precedences {`(?:ab)*`, `star{str{ab}}`}, {`(ab)*`, `star{cap{str{ab}}}`}, {`ab|cd`, `alt{str{ab}str{cd}}`}, {`a(b|c)d`, `cat{lit{a}cap{cc{0x62-0x63}}lit{d}}`}, // Test flattening. {`(?:a)`, `lit{a}`}, {`(?:ab)(?:cd)`, `str{abcd}`}, {`(?:a+b+)(?:c+d+)`, `cat{plus{lit{a}}plus{lit{b}}plus{lit{c}}plus{lit{d}}}`}, {`(?:a+|b+)|(?:c+|d+)`, `alt{plus{lit{a}}plus{lit{b}}plus{lit{c}}plus{lit{d}}}`}, {`(?:a|b)|(?:c|d)`, `cc{0x61-0x64}`}, {`a|.`, `dot{}`}, {`.|a`, `dot{}`}, {`(?:[abc]|A|Z|hello|world)`, `alt{cc{0x41 0x5a 0x61-0x63}str{hello}str{world}}`}, {`(?:[abc]|A|Z)`, `cc{0x41 0x5a 0x61-0x63}`}, // Test Perl quoted literals {`\Q+|*?{[\E`, `str{+|*?{[}`}, {`\Q+\E+`, `plus{lit{+}}`}, {`\Qab\E+`, `cat{lit{a}plus{lit{b}}}`}, {`\Q\\E`, `lit{\}`}, {`\Q\\\E`, `str{\\}`}, // Test Perl \A and \z {`(?m)^`, `bol{}`}, {`(?m)$`, `eol{}`}, {`(?-m)^`, `bot{}`}, {`(?-m)$`, `eot{}`}, {`(?m)\A`, `bot{}`}, {`(?m)\z`, `eot{\z}`}, {`(?-m)\A`, `bot{}`}, {`(?-m)\z`, `eot{\z}`}, // Test named captures {`(?P<name>a)`, `cap{name:lit{a}}`}, {`(?<name>a)`, `cap{name:lit{a}}`}, // Case-folded literals {`[Aa]`, `litfold{A}`}, {`[\x{100}\x{101}]`, `litfold{Ā}`}, {`[Δδ]`, `litfold{Δ}`}, // Strings {`abcde`, `str{abcde}`}, {`[Aa][Bb]cd`, `cat{strfold{AB}str{cd}}`}, // Factoring. {`abc|abd|aef|bcx|bcy`, `alt{cat{lit{a}alt{cat{lit{b}cc{0x63-0x64}}str{ef}}}cat{str{bc}cc{0x78-0x79}}}`}, {`ax+y|ax+z|ay+w`, `cat{lit{a}alt{cat{plus{lit{x}}lit{y}}cat{plus{lit{x}}lit{z}}cat{plus{lit{y}}lit{w}}}}`}, // Bug fixes. {`(?:.)`, `dot{}`}, {`(?:x|(?:xa))`, `cat{lit{x}alt{emp{}lit{a}}}`}, {`(?:.|(?:.a))`, `cat{dot{}alt{emp{}lit{a}}}`}, {`(?:A(?:A|a))`, `cat{lit{A}litfold{A}}`}, {`(?:A|a)`, `litfold{A}`}, {`A|(?:A|a)`, `litfold{A}`}, {`(?s).`, `dot{}`}, {`(?-s).`, `dnl{}`}, {`(?:(?:^).)`, `cat{bol{}dot{}}`}, {`(?-s)(?:(?:^).)`, `cat{bol{}dnl{}}`}, {`[\s\S]a`, `cat{cc{0x0-0x10ffff}lit{a}}`}, // RE2 prefix_tests {`abc|abd`, `cat{str{ab}cc{0x63-0x64}}`}, {`a(?:b)c|abd`, `cat{str{ab}cc{0x63-0x64}}`}, {`abc|abd|aef|bcx|bcy`, `alt{cat{lit{a}alt{cat{lit{b}cc{0x63-0x64}}str{ef}}}` + `cat{str{bc}cc{0x78-0x79}}}`}, {`abc|x|abd`, `alt{str{abc}lit{x}str{abd}}`}, {`(?i)abc|ABD`, `cat{strfold{AB}cc{0x43-0x44 0x63-0x64}}`}, {`[ab]c|[ab]d`, `cat{cc{0x61-0x62}cc{0x63-0x64}}`}, {`.c|.d`, `cat{dot{}cc{0x63-0x64}}`}, {`x{2}|x{2}[0-9]`, `cat{rep{2,2 lit{x}}alt{emp{}cc{0x30-0x39}}}`}, {`x{2}y|x{2}[0-9]y`, `cat{rep{2,2 lit{x}}alt{lit{y}cat{cc{0x30-0x39}lit{y}}}}`}, {`a.*?c|a.*?b`, `cat{lit{a}alt{cat{nstar{dot{}}lit{c}}cat{nstar{dot{}}lit{b}}}}`}, // Valid repetitions. {`((((((((((x{2}){2}){2}){2}){2}){2}){2}){2}){2}))`, ``}, {`((((((((((x{1}){2}){2}){2}){2}){2}){2}){2}){2}){2})`, ``}, // Valid nesting. {strings.Repeat("(", 999) + strings.Repeat(")", 999), ``}, {strings.Repeat("(?:", 999) + strings.Repeat(")*", 999), ``}, {"(" + strings.Repeat("|", 12345) + ")", ``}, // not nested at all } const testFlags = MatchNL | PerlX | UnicodeGroups func TestParseSimple(t *testing.T) { testParseDump(t, parseTests, testFlags) } var foldcaseTests = []parseTest{ {`AbCdE`, `strfold{ABCDE}`}, {`[Aa]`, `litfold{A}`}, {`a`, `litfold{A}`}, // 0x17F is an old English long s (looks like an f) and folds to s. // 0x212A is the Kelvin symbol and folds to k. {`A[F-g]`, `cat{litfold{A}cc{0x41-0x7a 0x17f 0x212a}}`}, // [Aa][A-z...] {`[[:upper:]]`, `cc{0x41-0x5a 0x61-0x7a 0x17f 0x212a}`}, {`[[:lower:]]`, `cc{0x41-0x5a 0x61-0x7a 0x17f 0x212a}`}, } func TestParseFoldCase(t *testing.T) { testParseDump(t, foldcaseTests, FoldCase) } var literalTests = []parseTest{ {"(|)^$.[*+?]{5,10},\\", "str{(|)^$.[*+?]{5,10},\\}"}, } func TestParseLiteral(t *testing.T) { testParseDump(t, literalTests, Literal) } var matchnlTests = []parseTest{ {`.`, `dot{}`}, {"\n", "lit{\n}"}, {`[^a]`, `cc{0x0-0x60 0x62-0x10ffff}`}, {`[a\n]`, `cc{0xa 0x61}`}, } func TestParseMatchNL(t *testing.T) { testParseDump(t, matchnlTests, MatchNL) } var nomatchnlTests = []parseTest{ {`.`, `dnl{}`}, {"\n", "lit{\n}"}, {`[^a]`, `cc{0x0-0x9 0xb-0x60 0x62-0x10ffff}`}, {`[a\n]`, `cc{0xa 0x61}`}, } func TestParseNoMatchNL(t *testing.T) { testParseDump(t, nomatchnlTests, 0) } // Test Parse -> Dump. func testParseDump(t *testing.T, tests []parseTest, flags Flags) { for _, tt := range tests { re, err := Parse(tt.Regexp, flags) if err != nil { t.Errorf("Parse(%#q): %v", tt.Regexp, err) continue } if tt.Dump == "" { // It parsed. That's all we care about. continue } d := dump(re) if d != tt.Dump { t.Errorf("Parse(%#q).Dump() = %#q want %#q", tt.Regexp, d, tt.Dump) } } } // dump prints a string representation of the regexp showing // the structure explicitly. func dump(re *Regexp) string { var b strings.Builder dumpRegexp(&b, re) return b.String() } var opNames = []string{ OpNoMatch: "no", OpEmptyMatch: "emp", OpLiteral: "lit", OpCharClass: "cc", OpAnyCharNotNL: "dnl", OpAnyChar: "dot", OpBeginLine: "bol", OpEndLine: "eol", OpBeginText: "bot", OpEndText: "eot", OpWordBoundary: "wb", OpNoWordBoundary: "nwb", OpCapture: "cap", OpStar: "star", OpPlus: "plus", OpQuest: "que", OpRepeat: "rep", OpConcat: "cat", OpAlternate: "alt", } // dumpRegexp writes an encoding of the syntax tree for the regexp re to b. // It is used during testing to distinguish between parses that might print // the same using re's String method. func dumpRegexp(b *strings.Builder, re *Regexp) { if int(re.Op) >= len(opNames) || opNames[re.Op] == "" { fmt.Fprintf(b, "op%d", re.Op) } else { switch re.Op { default: b.WriteString(opNames[re.Op]) case OpStar, OpPlus, OpQuest, OpRepeat: if re.Flags&NonGreedy != 0 { b.WriteByte('n') } b.WriteString(opNames[re.Op]) case OpLiteral: if len(re.Rune) > 1 { b.WriteString("str") } else { b.WriteString("lit") } if re.Flags&FoldCase != 0 { for _, r := range re.Rune { if unicode.SimpleFold(r) != r { b.WriteString("fold") break } } } } } b.WriteByte('{') switch re.Op { case OpEndText: if re.Flags&WasDollar == 0 { b.WriteString(`\z`) } case OpLiteral: for _, r := range re.Rune { b.WriteRune(r) } case OpConcat, OpAlternate: for _, sub := range re.Sub { dumpRegexp(b, sub) } case OpStar, OpPlus, OpQuest: dumpRegexp(b, re.Sub[0]) case OpRepeat: fmt.Fprintf(b, "%d,%d ", re.Min, re.Max) dumpRegexp(b, re.Sub[0]) case OpCapture: if re.Name != "" { b.WriteString(re.Name) b.WriteByte(':') } dumpRegexp(b, re.Sub[0]) case OpCharClass: sep := "" for i := 0; i < len(re.Rune); i += 2 { b.WriteString(sep) sep = " " lo, hi := re.Rune[i], re.Rune[i+1] if lo == hi { fmt.Fprintf(b, "%#x", lo) } else { fmt.Fprintf(b, "%#x-%#x", lo, hi) } } } b.WriteByte('}') } func mkCharClass(f func(rune) bool) string { re := &Regexp{Op: OpCharClass} lo := rune(-1) for i := rune(0); i <= unicode.MaxRune; i++ { if f(i) { if lo < 0 { lo = i } } else { if lo >= 0 { re.Rune = append(re.Rune, lo, i-1) lo = -1 } } } if lo >= 0 { re.Rune = append(re.Rune, lo, unicode.MaxRune) } return dump(re) } func isUpperFold(r rune) bool { if unicode.IsUpper(r) { return true } c := unicode.SimpleFold(r) for c != r { if unicode.IsUpper(c) { return true } c = unicode.SimpleFold(c) } return false } func TestFoldConstants(t *testing.T) { last := rune(-1) for i := rune(0); i <= unicode.MaxRune; i++ { if unicode.SimpleFold(i) == i { continue } if last == -1 && minFold != i { t.Errorf("minFold=%#U should be %#U", minFold, i) } last = i } if maxFold != last { t.Errorf("maxFold=%#U should be %#U", maxFold, last) } } func TestAppendRangeCollapse(t *testing.T) { // AppendRange should collapse each of the new ranges // into the earlier ones (it looks back two ranges), so that // the slice never grows very large. // Note that we are not calling cleanClass. var r []rune for i := rune('A'); i <= 'Z'; i++ { r = appendRange(r, i, i) r = appendRange(r, i+'a'-'A', i+'a'-'A') } if string(r) != "AZaz" { t.Errorf("appendRange interlaced A-Z a-z = %s, want AZaz", string(r)) } } var invalidRegexps = []string{ `(`, `)`, `(a`, `a)`, `(a))`, `(a|b|`, `a|b|)`, `(a|b|))`, `(a|b`, `a|b)`, `(a|b))`, `[a-z`, `([a-z)`, `[a-z)`, `([a-z]))`, `x{1001}`, `x{9876543210}`, `x{2,1}`, `x{1,9876543210}`, "\xff", // Invalid UTF-8 "[\xff]", "[\\\xff]", "\\\xff", `(?P<name>a`, `(?P<name>`, `(?P<name`, `(?P<x y>a)`, `(?P<>a)`, `(?<name>a`, `(?<name>`, `(?<name`, `(?<x y>a)`, `(?<>a)`, `[a-Z]`, `(?i)[a-Z]`, `\Q\E*`, `a{100000}`, // too much repetition `a{100000,}`, // too much repetition "((((((((((x{2}){2}){2}){2}){2}){2}){2}){2}){2}){2})", // too much repetition strings.Repeat("(", 1000) + strings.Repeat(")", 1000), // too deep strings.Repeat("(?:", 1000) + strings.Repeat(")*", 1000), // too deep "(" + strings.Repeat("(xx?)", 1000) + "){1000}", // too long strings.Repeat("(xx?){1000}", 1000), // too long strings.Repeat(`\pL`, 27000), // too many runes } var onlyPerl = []string{ `[a-b-c]`, `\Qabc\E`, `\Q*+?{[\E`, `\Q\\E`, `\Q\\\E`, `\Q\\\\E`, `\Q\\\\\E`, `(?:a)`, `(?P<name>a)`, } var onlyPOSIX = []string{ "a++", "a**", "a?*", "a+*", "a{1}*", ".{1}{2}.{3}", } func TestParseInvalidRegexps(t *testing.T) { for _, regexp := range invalidRegexps { if re, err := Parse(regexp, Perl); err == nil { t.Errorf("Parse(%#q, Perl) = %s, should have failed", regexp, dump(re)) } if re, err := Parse(regexp, POSIX); err == nil { t.Errorf("Parse(%#q, POSIX) = %s, should have failed", regexp, dump(re)) } } for _, regexp := range onlyPerl { if _, err := Parse(regexp, Perl); err != nil { t.Errorf("Parse(%#q, Perl): %v", regexp, err) } if re, err := Parse(regexp, POSIX); err == nil { t.Errorf("Parse(%#q, POSIX) = %s, should have failed", regexp, dump(re)) } } for _, regexp := range onlyPOSIX { if re, err := Parse(regexp, Perl); err == nil { t.Errorf("Parse(%#q, Perl) = %s, should have failed", regexp, dump(re)) } if _, err := Parse(regexp, POSIX); err != nil { t.Errorf("Parse(%#q, POSIX): %v", regexp, err) } } } func TestToStringEquivalentParse(t *testing.T) { for _, tt := range parseTests { re, err := Parse(tt.Regexp, testFlags) if err != nil { t.Errorf("Parse(%#q): %v", tt.Regexp, err) continue } if tt.Dump == "" { // It parsed. That's all we care about. continue } d := dump(re) if d != tt.Dump { t.Errorf("Parse(%#q).Dump() = %#q want %#q", tt.Regexp, d, tt.Dump) continue } s := re.String() if s != tt.Regexp { // If ToString didn't return the original regexp, // it must have found one with fewer parens. // Unfortunately we can't check the length here, because // ToString produces "\\{" for a literal brace, // but "{" is a shorter equivalent in some contexts. nre, err := Parse(s, testFlags) if err != nil { t.Errorf("Parse(%#q.String() = %#q): %v", tt.Regexp, s, err) continue } nd := dump(nre) if d != nd { t.Errorf("Parse(%#q) -> %#q; %#q vs %#q", tt.Regexp, s, d, nd) } ns := nre.String() if s != ns { t.Errorf("Parse(%#q) -> %#q -> %#q", tt.Regexp, s, ns) } } } } var stringTests = []struct { re string out string }{ {`x(?i:ab*c|d?e)1`, `x(?i:AB*C|D?E)1`}, {`x(?i:ab*cd?e)1`, `x(?i:AB*CD?E)1`}, {`0(?i:ab*c|d?e)1`, `(?i:0(?:AB*C|D?E)1)`}, {`0(?i:ab*cd?e)1`, `(?i:0AB*CD?E1)`}, {`x(?i:ab*c|d?e)`, `x(?i:AB*C|D?E)`}, {`x(?i:ab*cd?e)`, `x(?i:AB*CD?E)`}, {`0(?i:ab*c|d?e)`, `(?i:0(?:AB*C|D?E))`}, {`0(?i:ab*cd?e)`, `(?i:0AB*CD?E)`}, {`(?i:ab*c|d?e)1`, `(?i:(?:AB*C|D?E)1)`}, {`(?i:ab*cd?e)1`, `(?i:AB*CD?E1)`}, {`(?i:ab)[123](?i:cd)`, `(?i:AB[1-3]CD)`}, {`(?i:ab*c|d?e)`, `(?i:AB*C|D?E)`}, {`[Aa][Bb]`, `(?i:AB)`}, {`[Aa][Bb]*[Cc]`, `(?i:AB*C)`}, {`A(?:[Bb][Cc]|[Dd])[Zz]`, `A(?i:(?:BC|D)Z)`}, {`[Aa](?:[Bb][Cc]|[Dd])Z`, `(?i:A(?:BC|D))Z`}, } func TestString(t *testing.T) { for _, tt := range stringTests { re, err := Parse(tt.re, Perl) if err != nil { t.Errorf("Parse(%#q): %v", tt.re, err) continue } out := re.String() if out != tt.out { t.Errorf("Parse(%#q).String() = %#q, want %#q", tt.re, out, tt.out) } } }
webs 1.0 - Enhanced UI