package glob import ( "github.com/gobwas/glob/match" "reflect" "testing" ) const separators = "." func TestGlueMatchers(t *testing.T) { for id, test := range []struct { in []match.Matcher exp match.Matcher }{ { []match.Matcher{ match.Super{}, match.Single{}, }, match.Min{1}, }, { []match.Matcher{ match.Any{separators}, match.Single{separators}, }, match.EveryOf{match.Matchers{ match.Min{1}, match.Contains{separators, true}, }}, }, { []match.Matcher{ match.Single{}, match.Single{}, match.Single{}, }, match.EveryOf{match.Matchers{ match.Min{3}, match.Max{3}, }}, }, { []match.Matcher{ match.List{"a", true}, match.Any{"a"}, }, match.EveryOf{match.Matchers{ match.Min{1}, match.Contains{"a", true}, }}, }, } { act, err := compileMatchers(test.in) if err != nil { t.Errorf("#%d convert matchers error: %s", id, err) continue } if !reflect.DeepEqual(act, test.exp) { t.Errorf("#%d unexpected convert matchers result:\nact: %s;\nexp: %s", id, act, test.exp) continue } } } func TestCompileMatchers(t *testing.T) { for id, test := range []struct { in []match.Matcher exp match.Matcher }{ { []match.Matcher{ match.Super{}, match.Single{separators}, match.NewText("c"), }, match.NewBTree( match.NewText("c"), match.NewBTree( match.Single{separators}, match.Super{}, nil, ), nil, ), }, { []match.Matcher{ match.Any{}, match.NewText("c"), match.Any{}, }, match.NewBTree( match.NewText("c"), match.Any{}, match.Any{}, ), }, { []match.Matcher{ match.Range{'a', 'c', true}, match.List{"zte", false}, match.NewText("c"), match.Single{}, }, match.Row{ Matchers: match.Matchers{ match.Range{'a', 'c', true}, match.List{"zte", false}, match.NewText("c"), match.Single{}, }, RunesLength: 4, }, }, } { act, err := compileMatchers(test.in) if err != nil { t.Errorf("#%d convert matchers error: %s", id, err) continue } if !reflect.DeepEqual(act, test.exp) { t.Errorf("#%d unexpected convert matchers result:\nact: %s;\nexp: %s", id, act, test.exp) continue } } } func TestConvertMatchers(t *testing.T) { for id, test := range []struct { in, exp []match.Matcher }{ { []match.Matcher{ match.Range{'a', 'c', true}, match.List{"zte", false}, match.NewText("c"), match.Single{}, match.Any{}, }, []match.Matcher{ match.Row{ Matchers: match.Matchers{ match.Range{'a', 'c', true}, match.List{"zte", false}, match.NewText("c"), match.Single{}, }, RunesLength: 4, }, match.Any{}, }, }, { []match.Matcher{ match.Range{'a', 'c', true}, match.List{"zte", false}, match.NewText("c"), match.Single{}, match.Any{}, match.Single{}, match.Single{}, match.Any{}, }, []match.Matcher{ match.Row{ Matchers: match.Matchers{ match.Range{'a', 'c', true}, match.List{"zte", false}, match.NewText("c"), }, RunesLength: 3, }, match.Min{3}, }, }, } { act := minimizeMatchers(test.in) if !reflect.DeepEqual(act, test.exp) { t.Errorf("#%d unexpected convert matchers 2 result:\nact: %s;\nexp: %s", id, act, test.exp) continue } } } func pattern(nodes ...node) *nodePattern { return &nodePattern{ nodeImpl: nodeImpl{ desc: nodes, }, } } func anyOf(nodes ...node) *nodeAnyOf { return &nodeAnyOf{ nodeImpl: nodeImpl{ desc: nodes, }, } } func TestCompiler(t *testing.T) { for id, test := range []struct { ast *nodePattern result Glob sep string }{ { ast: pattern(&nodeText{text: "abc"}), result: match.NewText("abc"), }, { ast: pattern(&nodeAny{}), sep: separators, result: match.Any{separators}, }, { ast: pattern(&nodeAny{}), result: match.Super{}, }, { ast: pattern(&nodeSuper{}), result: match.Super{}, }, { ast: pattern(&nodeSingle{}), sep: separators, result: match.Single{separators}, }, { ast: pattern(&nodeRange{ lo: 'a', hi: 'z', not: true, }), result: match.Range{'a', 'z', true}, }, { ast: pattern(&nodeList{ chars: "abc", not: true, }), result: match.List{"abc", true}, }, { ast: pattern(&nodeAny{}, &nodeSingle{}, &nodeSingle{}, &nodeSingle{}), sep: separators, result: match.EveryOf{Matchers: match.Matchers{ match.Min{3}, match.Contains{separators, true}, }}, }, { ast: pattern(&nodeAny{}, &nodeSingle{}, &nodeSingle{}, &nodeSingle{}), result: match.Min{3}, }, { ast: pattern(&nodeAny{}, &nodeText{text: "abc"}, &nodeSingle{}), sep: separators, result: match.NewBTree( match.Row{ Matchers: match.Matchers{ match.NewText("abc"), match.Single{separators}, }, RunesLength: 4, }, match.Any{separators}, nil, ), }, { ast: pattern(&nodeSuper{}, &nodeSingle{}, &nodeText{text: "abc"}, &nodeSingle{}), sep: separators, result: match.NewBTree( match.Row{ Matchers: match.Matchers{ match.Single{separators}, match.NewText("abc"), match.Single{separators}, }, RunesLength: 5, }, match.Super{}, nil, ), }, { ast: pattern(&nodeAny{}, &nodeText{text: "abc"}), result: match.Suffix{"abc"}, }, { ast: pattern(&nodeText{text: "abc"}, &nodeAny{}), result: match.Prefix{"abc"}, }, { ast: pattern(&nodeText{text: "abc"}, &nodeAny{}, &nodeText{text: "def"}), result: match.PrefixSuffix{"abc", "def"}, }, { ast: pattern(&nodeAny{}, &nodeAny{}, &nodeAny{}, &nodeText{text: "abc"}, &nodeAny{}, &nodeAny{}), result: match.Contains{"abc", false}, }, { ast: pattern(&nodeAny{}, &nodeAny{}, &nodeAny{}, &nodeText{text: "abc"}, &nodeAny{}, &nodeAny{}), sep: separators, result: match.NewBTree( match.NewText("abc"), match.Any{separators}, match.Any{separators}, ), }, { ast: pattern(&nodeSuper{}, &nodeSingle{}, &nodeText{text: "abc"}, &nodeSuper{}, &nodeSingle{}), result: match.NewBTree( match.NewText("abc"), match.Min{1}, match.Min{1}, ), }, { ast: pattern(anyOf(&nodeText{text: "abc"})), result: match.NewText("abc"), }, { ast: pattern(anyOf(pattern(anyOf(pattern(&nodeText{text: "abc"}))))), result: match.NewText("abc"), }, { ast: pattern(anyOf( pattern( &nodeText{text: "abc"}, &nodeSingle{}, ), pattern( &nodeText{text: "abc"}, &nodeList{chars: "def"}, ), pattern( &nodeText{text: "abc"}, ), pattern( &nodeText{text: "abc"}, ), )), result: match.NewBTree( match.NewText("abc"), nil, match.AnyOf{Matchers: match.Matchers{ match.Single{}, match.List{List: "def"}, match.Nothing{}, }}, ), }, { ast: pattern( &nodeRange{lo: 'a', hi: 'z'}, &nodeRange{lo: 'a', hi: 'x', not: true}, &nodeAny{}, ), result: match.NewBTree( match.Row{ Matchers: match.Matchers{ match.Range{Lo: 'a', Hi: 'z'}, match.Range{Lo: 'a', Hi: 'x', Not: true}, }, RunesLength: 2, }, nil, match.Super{}, ), }, { ast: pattern(anyOf( pattern( &nodeText{text: "abc"}, &nodeList{chars: "abc"}, &nodeText{text: "ghi"}, ), pattern( &nodeText{text: "abc"}, &nodeList{chars: "def"}, &nodeText{text: "ghi"}, ), )), result: match.Row{ RunesLength: 7, Matchers: match.Matchers{ match.NewText("abc"), match.AnyOf{Matchers: match.Matchers{ match.List{List: "abc"}, match.List{List: "def"}, }}, match.NewText("ghi"), }, }, }, // { // ast: pattern( // anyOf(&nodeText{text: "a"}, &nodeText{text: "b"}), // anyOf(&nodeText{text: "c"}, &nodeText{text: "d"}), // ), // result: match.AnyOf{Matchers: match.Matchers{ // match.Row{Matchers: match.Matchers{match.Raw{"a"}, match.Raw{"c", 1}}}, // match.Row{Matchers: match.Matchers{match.Raw{"a"}, match.Raw{"d"}}}, // match.Row{Matchers: match.Matchers{match.Raw{"b"}, match.Raw{"c", 1}}}, // match.Row{Matchers: match.Matchers{match.Raw{"b"}, match.Raw{"d"}}}, // }}, // }, } { prog, err := compile(test.ast, test.sep) if err != nil { t.Errorf("compilation error: %s", err) continue } if !reflect.DeepEqual(prog, test.result) { t.Errorf("#%d results are not equal:\nexp: %s,\nact: %s", id, test.result, prog) continue } } } const complexityString = "abcd" //func BenchmarkComplexityAny(b *testing.B) { // m := match.Any{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexityContains(b *testing.B) { // m := match.Contains{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexityList(b *testing.B) { // m := match.List{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexityMax(b *testing.B) { // m := match.Max{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexityMin(b *testing.B) { // m := match.Min{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexityNothing(b *testing.B) { // m := match.Nothing{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexityPrefix(b *testing.B) { // m := match.Prefix{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexityPrefixSuffix(b *testing.B) { // m := match.PrefixSuffix{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexityRange(b *testing.B) { // m := match.Range{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexityRow(b *testing.B) { // m := match.Row{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexitySingle(b *testing.B) { // m := match.Single{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexitySuffix(b *testing.B) { // m := match.Suffix{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexitySuper(b *testing.B) { // m := match.Super{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexityText(b *testing.B) { // m := match.Text{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexityAnyOf(b *testing.B) { // m := match.AnyOf{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexityBTree(b *testing.B) { // m := match.NewBTree(match.NewText("abc"), match.NewText("d"), match.NewText("e")) // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //} //func BenchmarkComplexityEveryOf(b *testing.B) { // m := match.EveryOf{} // for i := 0; i < b.N; i++ { // _ = m.Match(complexityString) // _, _ = m.Index(complexityString) // } //}