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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libgo/] [go/] [regexp/] [all_test.go] - Rev 747
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// Copyright 2009 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 regexpimport ("strings""testing")var good_re = []string{``,`.`,`^.$`,`a`,`a*`,`a+`,`a?`,`a|b`,`a*|b*`,`(a*|b)(c*|d)`,`[a-z]`,`[a-abc-c\-\]\[]`,`[a-z]+`,`[abc]`,`[^1234]`,`[^\n]`,`\!\\`,}/*type stringError struct {re stringerr error}var bad_re = []stringError{{`*`, ErrBareClosure},{`+`, ErrBareClosure},{`?`, ErrBareClosure},{`(abc`, ErrUnmatchedLpar},{`abc)`, ErrUnmatchedRpar},{`x[a-z`, ErrUnmatchedLbkt},{`abc]`, ErrUnmatchedRbkt},{`[z-a]`, ErrBadRange},{`abc\`, ErrExtraneousBackslash},{`a**`, ErrBadClosure},{`a*+`, ErrBadClosure},{`a??`, ErrBadClosure},{`\x`, ErrBadBackslash},}*/func compileTest(t *testing.T, expr string, error error) *Regexp {re, err := Compile(expr)if err != error {t.Error("compiling `", expr, "`; unexpected error: ", err.Error())}return re}func TestGoodCompile(t *testing.T) {for i := 0; i < len(good_re); i++ {compileTest(t, good_re[i], nil)}}/*func TestBadCompile(t *testing.T) {for i := 0; i < len(bad_re); i++ {compileTest(t, bad_re[i].re, bad_re[i].err)}}*/func matchTest(t *testing.T, test *FindTest) {re := compileTest(t, test.pat, nil)if re == nil {return}m := re.MatchString(test.text)if m != (len(test.matches) > 0) {t.Errorf("MatchString failure on %s: %t should be %t", test, m, len(test.matches) > 0)}// now try bytesm = re.Match([]byte(test.text))if m != (len(test.matches) > 0) {t.Errorf("Match failure on %s: %t should be %t", test, m, len(test.matches) > 0)}}func TestMatch(t *testing.T) {for _, test := range findTests {matchTest(t, &test)}}func matchFunctionTest(t *testing.T, test *FindTest) {m, err := MatchString(test.pat, test.text)if err == nil {return}if m != (len(test.matches) > 0) {t.Errorf("Match failure on %s: %t should be %t", test, m, len(test.matches) > 0)}}func TestMatchFunction(t *testing.T) {for _, test := range findTests {matchFunctionTest(t, &test)}}type ReplaceTest struct {pattern, replacement, input, output string}var replaceTests = []ReplaceTest{// Test empty input and/or replacement, with pattern that matches the empty string.{"", "", "", ""},{"", "x", "", "x"},{"", "", "abc", "abc"},{"", "x", "abc", "xaxbxcx"},// Test empty input and/or replacement, with pattern that does not match the empty string.{"b", "", "", ""},{"b", "x", "", ""},{"b", "", "abc", "ac"},{"b", "x", "abc", "axc"},{"y", "", "", ""},{"y", "x", "", ""},{"y", "", "abc", "abc"},{"y", "x", "abc", "abc"},// Multibyte characters -- verify that we don't try to match in the middle// of a character.{"[a-c]*", "x", "\u65e5", "x\u65e5x"},{"[^\u65e5]", "x", "abc\u65e5def", "xxx\u65e5xxx"},// Start and end of a string.{"^[a-c]*", "x", "abcdabc", "xdabc"},{"[a-c]*$", "x", "abcdabc", "abcdx"},{"^[a-c]*$", "x", "abcdabc", "abcdabc"},{"^[a-c]*", "x", "abc", "x"},{"[a-c]*$", "x", "abc", "x"},{"^[a-c]*$", "x", "abc", "x"},{"^[a-c]*", "x", "dabce", "xdabce"},{"[a-c]*$", "x", "dabce", "dabcex"},{"^[a-c]*$", "x", "dabce", "dabce"},{"^[a-c]*", "x", "", "x"},{"[a-c]*$", "x", "", "x"},{"^[a-c]*$", "x", "", "x"},{"^[a-c]+", "x", "abcdabc", "xdabc"},{"[a-c]+$", "x", "abcdabc", "abcdx"},{"^[a-c]+$", "x", "abcdabc", "abcdabc"},{"^[a-c]+", "x", "abc", "x"},{"[a-c]+$", "x", "abc", "x"},{"^[a-c]+$", "x", "abc", "x"},{"^[a-c]+", "x", "dabce", "dabce"},{"[a-c]+$", "x", "dabce", "dabce"},{"^[a-c]+$", "x", "dabce", "dabce"},{"^[a-c]+", "x", "", ""},{"[a-c]+$", "x", "", ""},{"^[a-c]+$", "x", "", ""},// Other cases.{"abc", "def", "abcdefg", "defdefg"},{"bc", "BC", "abcbcdcdedef", "aBCBCdcdedef"},{"abc", "", "abcdabc", "d"},{"x", "xXx", "xxxXxxx", "xXxxXxxXxXxXxxXxxXx"},{"abc", "d", "", ""},{"abc", "d", "abc", "d"},{".+", "x", "abc", "x"},{"[a-c]*", "x", "def", "xdxexfx"},{"[a-c]+", "x", "abcbcdcdedef", "xdxdedef"},{"[a-c]*", "x", "abcbcdcdedef", "xdxdxexdxexfx"},}type ReplaceFuncTest struct {pattern stringreplacement func(string) stringinput, output string}var replaceFuncTests = []ReplaceFuncTest{{"[a-c]", func(s string) string { return "x" + s + "y" }, "defabcdef", "defxayxbyxcydef"},{"[a-c]+", func(s string) string { return "x" + s + "y" }, "defabcdef", "defxabcydef"},{"[a-c]*", func(s string) string { return "x" + s + "y" }, "defabcdef", "xydxyexyfxabcydxyexyfxy"},}func TestReplaceAll(t *testing.T) {for _, tc := range replaceTests {re, err := Compile(tc.pattern)if err != nil {t.Errorf("Unexpected error compiling %q: %v", tc.pattern, err)continue}actual := re.ReplaceAllString(tc.input, tc.replacement)if actual != tc.output {t.Errorf("%q.Replace(%q,%q) = %q; want %q",tc.pattern, tc.input, tc.replacement, actual, tc.output)}// now try bytesactual = string(re.ReplaceAll([]byte(tc.input), []byte(tc.replacement)))if actual != tc.output {t.Errorf("%q.Replace(%q,%q) = %q; want %q",tc.pattern, tc.input, tc.replacement, actual, tc.output)}}}func TestReplaceAllFunc(t *testing.T) {for _, tc := range replaceFuncTests {re, err := Compile(tc.pattern)if err != nil {t.Errorf("Unexpected error compiling %q: %v", tc.pattern, err)continue}actual := re.ReplaceAllStringFunc(tc.input, tc.replacement)if actual != tc.output {t.Errorf("%q.ReplaceFunc(%q,%q) = %q; want %q",tc.pattern, tc.input, tc.replacement, actual, tc.output)}// now try bytesactual = string(re.ReplaceAllFunc([]byte(tc.input), func(s []byte) []byte { return []byte(tc.replacement(string(s))) }))if actual != tc.output {t.Errorf("%q.ReplaceFunc(%q,%q) = %q; want %q",tc.pattern, tc.input, tc.replacement, actual, tc.output)}}}type MetaTest struct {pattern, output, literal stringisLiteral bool}var metaTests = []MetaTest{{``, ``, ``, true},{`foo`, `foo`, `foo`, true},{`foo\.\$`, `foo\\\.\\\$`, `foo.$`, true}, // has meta but no operator{`foo.\$`, `foo\.\\\$`, `foo`, false}, // has escaped operators and real operators{`!@#$%^&*()_+-=[{]}\|,<.>/?~`, `!@#\$%\^&\*\(\)_\+-=\[\{\]\}\\\|,<\.>/\?~`, `!@#`, false},}func TestQuoteMeta(t *testing.T) {for _, tc := range metaTests {// Verify that QuoteMeta returns the expected string.quoted := QuoteMeta(tc.pattern)if quoted != tc.output {t.Errorf("QuoteMeta(`%s`) = `%s`; want `%s`",tc.pattern, quoted, tc.output)continue}// Verify that the quoted string is in fact treated as expected// by Compile -- i.e. that it matches the original, unquoted string.if tc.pattern != "" {re, err := Compile(quoted)if err != nil {t.Errorf("Unexpected error compiling QuoteMeta(`%s`): %v", tc.pattern, err)continue}src := "abc" + tc.pattern + "def"repl := "xyz"replaced := re.ReplaceAllString(src, repl)expected := "abcxyzdef"if replaced != expected {t.Errorf("QuoteMeta(`%s`).Replace(`%s`,`%s`) = `%s`; want `%s`",tc.pattern, src, repl, replaced, expected)}}}}func TestLiteralPrefix(t *testing.T) {for _, tc := range metaTests {// Literal method needs to scan the pattern.re := MustCompile(tc.pattern)str, complete := re.LiteralPrefix()if complete != tc.isLiteral {t.Errorf("LiteralPrefix(`%s`) = %t; want %t", tc.pattern, complete, tc.isLiteral)}if str != tc.literal {t.Errorf("LiteralPrefix(`%s`) = `%s`; want `%s`", tc.pattern, str, tc.literal)}}}type subexpCase struct {input stringnum intnames []string}var subexpCases = []subexpCase{{``, 0, nil},{`.*`, 0, nil},{`abba`, 0, nil},{`ab(b)a`, 1, []string{"", ""}},{`ab(.*)a`, 1, []string{"", ""}},{`(.*)ab(.*)a`, 2, []string{"", "", ""}},{`(.*)(ab)(.*)a`, 3, []string{"", "", "", ""}},{`(.*)((a)b)(.*)a`, 4, []string{"", "", "", "", ""}},{`(.*)(\(ab)(.*)a`, 3, []string{"", "", "", ""}},{`(.*)(\(a\)b)(.*)a`, 3, []string{"", "", "", ""}},{`(?P<foo>.*)(?P<bar>(a)b)(?P<foo>.*)a`, 4, []string{"", "foo", "bar", "", "foo"}},}func TestSubexp(t *testing.T) {for _, c := range subexpCases {re := MustCompile(c.input)n := re.NumSubexp()if n != c.num {t.Errorf("%q: NumSubexp = %d, want %d", c.input, n, c.num)continue}names := re.SubexpNames()if len(names) != 1+n {t.Errorf("%q: len(SubexpNames) = %d, want %d", c.input, len(names), n)continue}if c.names != nil {for i := 0; i < 1+n; i++ {if names[i] != c.names[i] {t.Errorf("%q: SubexpNames[%d] = %q, want %q", c.input, i, names[i], c.names[i])}}}}}func BenchmarkLiteral(b *testing.B) {x := strings.Repeat("x", 50) + "y"b.StopTimer()re := MustCompile("y")b.StartTimer()for i := 0; i < b.N; i++ {if !re.MatchString(x) {b.Fatalf("no match!")}}}func BenchmarkNotLiteral(b *testing.B) {x := strings.Repeat("x", 50) + "y"b.StopTimer()re := MustCompile(".y")b.StartTimer()for i := 0; i < b.N; i++ {if !re.MatchString(x) {b.Fatalf("no match!")}}}func BenchmarkMatchClass(b *testing.B) {b.StopTimer()x := strings.Repeat("xxxx", 20) + "w"re := MustCompile("[abcdw]")b.StartTimer()for i := 0; i < b.N; i++ {if !re.MatchString(x) {b.Fatalf("no match!")}}}func BenchmarkMatchClass_InRange(b *testing.B) {b.StopTimer()// 'b' is between 'a' and 'c', so the charclass// range checking is no help here.x := strings.Repeat("bbbb", 20) + "c"re := MustCompile("[ac]")b.StartTimer()for i := 0; i < b.N; i++ {if !re.MatchString(x) {b.Fatalf("no match!")}}}func BenchmarkReplaceAll(b *testing.B) {x := "abcdefghijklmnopqrstuvwxyz"b.StopTimer()re := MustCompile("[cjrw]")b.StartTimer()for i := 0; i < b.N; i++ {re.ReplaceAllString(x, "")}}func BenchmarkAnchoredLiteralShortNonMatch(b *testing.B) {b.StopTimer()x := []byte("abcdefghijklmnopqrstuvwxyz")re := MustCompile("^zbc(d|e)")b.StartTimer()for i := 0; i < b.N; i++ {re.Match(x)}}func BenchmarkAnchoredLiteralLongNonMatch(b *testing.B) {b.StopTimer()x := []byte("abcdefghijklmnopqrstuvwxyz")for i := 0; i < 15; i++ {x = append(x, x...)}re := MustCompile("^zbc(d|e)")b.StartTimer()for i := 0; i < b.N; i++ {re.Match(x)}}func BenchmarkAnchoredShortMatch(b *testing.B) {b.StopTimer()x := []byte("abcdefghijklmnopqrstuvwxyz")re := MustCompile("^.bc(d|e)")b.StartTimer()for i := 0; i < b.N; i++ {re.Match(x)}}func BenchmarkAnchoredLongMatch(b *testing.B) {b.StopTimer()x := []byte("abcdefghijklmnopqrstuvwxyz")for i := 0; i < 15; i++ {x = append(x, x...)}re := MustCompile("^.bc(d|e)")b.StartTimer()for i := 0; i < b.N; i++ {re.Match(x)}}