// Copyright 2014 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 binaryregexp import ( "reflect" "rsc.io/binaryregexp/syntax" "strings" "testing" ) var runeMergeTests = []struct { left, right, merged []rune next []uint32 leftPC, rightPC uint32 }{ { // empty rhs []rune{69, 69}, []rune{}, []rune{69, 69}, []uint32{1}, 1, 2, }, { // identical runes, identical targets []rune{69, 69}, []rune{69, 69}, []rune{}, []uint32{mergeFailed}, 1, 1, }, { // identical runes, different targets []rune{69, 69}, []rune{69, 69}, []rune{}, []uint32{mergeFailed}, 1, 2, }, { // append right-first []rune{69, 69}, []rune{71, 71}, []rune{69, 69, 71, 71}, []uint32{1, 2}, 1, 2, }, { // append, left-first []rune{71, 71}, []rune{69, 69}, []rune{69, 69, 71, 71}, []uint32{2, 1}, 1, 2, }, { // successful interleave []rune{60, 60, 71, 71, 101, 101}, []rune{69, 69, 88, 88}, []rune{60, 60, 69, 69, 71, 71, 88, 88, 101, 101}, []uint32{1, 2, 1, 2, 1}, 1, 2, }, { // left surrounds right []rune{69, 74}, []rune{71, 71}, []rune{}, []uint32{mergeFailed}, 1, 2, }, { // right surrounds left []rune{69, 74}, []rune{68, 75}, []rune{}, []uint32{mergeFailed}, 1, 2, }, { // overlap at interval begin []rune{69, 74}, []rune{74, 75}, []rune{}, []uint32{mergeFailed}, 1, 2, }, { // overlap ar interval end []rune{69, 74}, []rune{65, 69}, []rune{}, []uint32{mergeFailed}, 1, 2, }, { // overlap from above []rune{69, 74}, []rune{71, 74}, []rune{}, []uint32{mergeFailed}, 1, 2, }, { // overlap from below []rune{69, 74}, []rune{65, 71}, []rune{}, []uint32{mergeFailed}, 1, 2, }, { // out of order []rune []rune{69, 74, 60, 65}, []rune{66, 67}, []rune{}, []uint32{mergeFailed}, 1, 2, }, } func TestMergeRuneSet(t *testing.T) { for ix, test := range runeMergeTests { merged, next := mergeRuneSets(&test.left, &test.right, test.leftPC, test.rightPC) if !reflect.DeepEqual(merged, test.merged) { t.Errorf("mergeRuneSet :%d (%v, %v) merged\n have\n%v\nwant\n%v", ix, test.left, test.right, merged, test.merged) } if !reflect.DeepEqual(next, test.next) { t.Errorf("mergeRuneSet :%d(%v, %v) next\n have\n%v\nwant\n%v", ix, test.left, test.right, next, test.next) } } } var onePassTests = []struct { re string isOnePass bool }{ {`^(?:a|(?:a*))$`, false}, {`^(?:(a)|(?:a*))$`, false}, {`^(?:(?:(?:.(?:$))?))$`, true}, {`^abcd$`, true}, {`^(?:(?:a{0,})*?)$`, true}, {`^(?:(?:a+)*)$`, true}, {`^(?:(?:a|(?:aa)))$`, true}, {`^(?:[^\s\S])$`, true}, {`^(?:(?:a{3,4}){0,})$`, false}, {`^(?:(?:(?:a*)+))$`, true}, {`^[a-c]+$`, true}, {`^[a-c]*$`, true}, {`^(?:a*)$`, true}, {`^(?:(?:aa)|a)$`, true}, {`^[a-c]*`, false}, {`^...$`, true}, {`^(?:a|(?:aa))$`, true}, {`^a((b))c$`, true}, {`^a.[l-nA-Cg-j]?e$`, true}, {`^a((b))$`, true}, {`^a(?:(b)|(c))c$`, true}, {`^a(?:(b*)|(c))c$`, false}, {`^a(?:b|c)$`, true}, {`^a(?:b?|c)$`, true}, {`^a(?:b?|c?)$`, false}, {`^a(?:b?|c+)$`, true}, {`^a(?:b+|(bc))d$`, false}, {`^a(?:bc)+$`, true}, {`^a(?:[bcd])+$`, true}, {`^a((?:[bcd])+)$`, true}, {`^a(:?b|c)*d$`, true}, {`^.bc(d|e)*$`, true}, {`^(?:(?:aa)|.)$`, false}, {`^(?:(?:a{1,2}){1,2})$`, false}, {`^l` + strings.Repeat("o", 2<<8) + `ng$`, true}, } func TestCompileOnePass(t *testing.T) { var ( p *syntax.Prog re *syntax.Regexp err error ) for _, test := range onePassTests { if re, err = syntax.Parse(test.re, syntax.Perl); err != nil { t.Errorf("Parse(%q) got err:%s, want success", test.re, err) continue } // needs to be done before compile... re = re.Simplify() if p, err = syntax.Compile(re); err != nil { t.Errorf("Compile(%q) got err:%s, want success", test.re, err) continue } isOnePass := compileOnePass(p) != nil if isOnePass != test.isOnePass { t.Errorf("CompileOnePass(%q) got isOnePass=%v, expected %v", test.re, isOnePass, test.isOnePass) } } } // TODO(cespare): Unify with onePassTests and rationalize one-pass test cases. var onePassTests1 = []struct { re string match string }{ {`^a(/b+(#c+)*)*$`, "a/b#c"}, // golang.org/issue/11905 } func TestRunOnePass(t *testing.T) { for _, test := range onePassTests1 { re, err := Compile(test.re) if err != nil { t.Errorf("Compile(%q): got err: %s", test.re, err) continue } if re.onepass == nil { t.Errorf("Compile(%q): got nil, want one-pass", test.re) continue } if !re.MatchString(test.match) { t.Errorf("onepass %q did not match %q", test.re, test.match) } } }