// Copyright 2019q 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 tests import ( "context" "flag" "go/ast" "go/parser" "go/token" "io/ioutil" "os/exec" "path" "path/filepath" "runtime" "strings" "testing" "golang.org/x/tools/go/packages" "golang.org/x/tools/go/packages/packagestest" "golang.org/x/tools/internal/lsp/source" "golang.org/x/tools/internal/span" ) // We hardcode the expected number of test cases to ensure that all tests // are being executed. If a test is added, this number must be changed. const ( ExpectedCompletionsCount = 75 ExpectedDiagnosticsCount = 16 ExpectedFormatCount = 4 ExpectedDefinitionsCount = 21 ExpectedTypeDefinitionsCount = 2 ExpectedHighlightsCount = 2 ExpectedSymbolsCount = 1 ExpectedSignaturesCount = 19 ) const ( overlayFile = ".overlay" goldenFile = ".golden" inFile = ".in" testModule = "golang.org/x/tools/internal/lsp" ) var updateGolden = flag.Bool("golden", false, "Update golden files") type Diagnostics map[span.URI][]source.Diagnostic type CompletionItems map[token.Pos]*source.CompletionItem type Completions map[span.Span][]token.Pos type Formats []span.Span type Definitions map[span.Span]Definition type Highlights map[string][]span.Span type Symbols map[span.URI][]source.Symbol type SymbolsChildren map[string][]source.Symbol type Signatures map[span.Span]source.SignatureInformation type Data struct { Config packages.Config Exported *packagestest.Exported Diagnostics Diagnostics CompletionItems CompletionItems Completions Completions Formats Formats Definitions Definitions Highlights Highlights Symbols Symbols symbolsChildren SymbolsChildren Signatures Signatures t testing.TB fragments map[string]string dir string } type Tests interface { Diagnostics(*testing.T, Diagnostics) Completion(*testing.T, Completions, CompletionItems) Format(*testing.T, Formats) Definition(*testing.T, Definitions) Highlight(*testing.T, Highlights) Symbol(*testing.T, Symbols) Signature(*testing.T, Signatures) } type Definition struct { Src span.Span IsType bool Flags string Def span.Span Match string } func Load(t testing.TB, exporter packagestest.Exporter, dir string) *Data { t.Helper() data := &Data{ Diagnostics: make(Diagnostics), CompletionItems: make(CompletionItems), Completions: make(Completions), Definitions: make(Definitions), Highlights: make(Highlights), Symbols: make(Symbols), symbolsChildren: make(SymbolsChildren), Signatures: make(Signatures), t: t, dir: dir, fragments: map[string]string{}, } files := packagestest.MustCopyFileTree(dir) overlays := map[string][]byte{} for fragment, operation := range files { if strings.Contains(fragment, goldenFile) { delete(files, fragment) } else if trimmed := strings.TrimSuffix(fragment, inFile); trimmed != fragment { delete(files, fragment) files[trimmed] = operation } else if index := strings.Index(fragment, overlayFile); index >= 0 { delete(files, fragment) partial := fragment[:index] + fragment[index+len(overlayFile):] contents, err := ioutil.ReadFile(filepath.Join(dir, fragment)) if err != nil { t.Fatal(err) } overlays[partial] = contents } } modules := []packagestest.Module{ { Name: testModule, Files: files, Overlay: overlays, }, } data.Exported = packagestest.Export(t, exporter, modules) for fragment, _ := range files { filename := data.Exported.File(testModule, fragment) data.fragments[filename] = fragment } // Merge the exported.Config with the view.Config. data.Config = *data.Exported.Config data.Config.Fset = token.NewFileSet() data.Config.Context = context.Background() data.Config.ParseFile = func(fset *token.FileSet, filename string, src []byte) (*ast.File, error) { return parser.ParseFile(fset, filename, src, parser.AllErrors|parser.ParseComments) } // Do a first pass to collect special markers for completion. if err := data.Exported.Expect(map[string]interface{}{ "item": func(name string, r packagestest.Range, _, _ string) { data.Exported.Mark(name, r) }, }); err != nil { t.Fatal(err) } // Collect any data that needs to be used by subsequent tests. if err := data.Exported.Expect(map[string]interface{}{ "diag": data.collectDiagnostics, "item": data.collectCompletionItems, "complete": data.collectCompletions, "format": data.collectFormats, "godef": data.collectDefinitions, "typdef": data.collectTypeDefinitions, "highlight": data.collectHighlights, "symbol": data.collectSymbols, "signature": data.collectSignatures, }); err != nil { t.Fatal(err) } for _, symbols := range data.Symbols { for i := range symbols { children := data.symbolsChildren[symbols[i].Name] symbols[i].Children = children } } return data } func Run(t *testing.T, tests Tests, data *Data) { t.Helper() t.Run("Completion", func(t *testing.T) { t.Helper() if len(data.Completions) != ExpectedCompletionsCount { t.Errorf("got %v completions expected %v", len(data.Completions), ExpectedCompletionsCount) } tests.Completion(t, data.Completions, data.CompletionItems) }) t.Run("Diagnostics", func(t *testing.T) { t.Helper() diagnosticsCount := 0 for _, want := range data.Diagnostics { diagnosticsCount += len(want) } if diagnosticsCount != ExpectedDiagnosticsCount { t.Errorf("got %v diagnostics expected %v", diagnosticsCount, ExpectedDiagnosticsCount) } tests.Diagnostics(t, data.Diagnostics) }) t.Run("Format", func(t *testing.T) { t.Helper() if _, err := exec.LookPath("gofmt"); err != nil { switch runtime.GOOS { case "android": t.Skip("gofmt is not installed") default: t.Fatal(err) } } if len(data.Formats) != ExpectedFormatCount { t.Errorf("got %v formats expected %v", len(data.Formats), ExpectedFormatCount) } tests.Format(t, data.Formats) }) t.Run("Definitions", func(t *testing.T) { t.Helper() if len(data.Definitions) != ExpectedDefinitionsCount { t.Errorf("got %v definitions expected %v", len(data.Definitions), ExpectedDefinitionsCount) } tests.Definition(t, data.Definitions) }) t.Run("Highlights", func(t *testing.T) { t.Helper() if len(data.Highlights) != ExpectedHighlightsCount { t.Errorf("got %v highlights expected %v", len(data.Highlights), ExpectedHighlightsCount) } tests.Highlight(t, data.Highlights) }) t.Run("Symbols", func(t *testing.T) { t.Helper() if len(data.Symbols) != ExpectedSymbolsCount { t.Errorf("got %v symbols expected %v", len(data.Symbols), ExpectedSymbolsCount) } tests.Symbol(t, data.Symbols) }) t.Run("Signatures", func(t *testing.T) { t.Helper() if len(data.Signatures) != ExpectedSignaturesCount { t.Errorf("got %v signatures expected %v", len(data.Signatures), ExpectedSignaturesCount) } tests.Signature(t, data.Signatures) }) } func (data *Data) Golden(tag string, target string, update func(golden string) error) []byte { data.t.Helper() fragment, found := data.fragments[target] if !found { if filepath.IsAbs(target) { data.t.Fatalf("invalid golden file fragment %v", target) } fragment = target } dir, file := path.Split(fragment) prefix, suffix := file, "" // we deliberately use the first . not the last if dot := strings.IndexRune(file, '.'); dot >= 0 { prefix = file[:dot] suffix = file[dot:] } golden := path.Join(data.dir, dir, prefix) + "." + tag + goldenFile + suffix if *updateGolden { if err := update(golden); err != nil { data.t.Fatalf("could not update golden file %v: %v", golden, err) } } contents, err := ioutil.ReadFile(golden) if err != nil { data.t.Fatalf("could not read golden file %v: %v", golden, err) } return contents } func (data *Data) collectDiagnostics(spn span.Span, msgSource, msg string) { if _, ok := data.Diagnostics[spn.URI()]; !ok { data.Diagnostics[spn.URI()] = []source.Diagnostic{} } // If a file has an empty diagnostic message, return. This allows us to // avoid testing diagnostics in files that may have a lot of them. if msg == "" { return } severity := source.SeverityError if strings.Contains(string(spn.URI()), "analyzer") { severity = source.SeverityWarning } want := source.Diagnostic{ Span: spn, Severity: severity, Source: msgSource, Message: msg, } data.Diagnostics[spn.URI()] = append(data.Diagnostics[spn.URI()], want) } func (data *Data) collectCompletions(src span.Span, expected []token.Pos) { data.Completions[src] = expected } func (data *Data) collectCompletionItems(pos token.Pos, label, detail, kind string) { data.CompletionItems[pos] = &source.CompletionItem{ Label: label, Detail: detail, Kind: source.ParseCompletionItemKind(kind), } } func (data *Data) collectFormats(spn span.Span) { data.Formats = append(data.Formats, spn) } func (data *Data) collectDefinitions(src, target span.Span) { data.Definitions[src] = Definition{ Src: src, Def: target, } } func (data *Data) collectTypeDefinitions(src, target span.Span) { data.Definitions[src] = Definition{ Src: src, Def: target, IsType: true, } } func (data *Data) collectHighlights(name string, rng span.Span) { data.Highlights[name] = append(data.Highlights[name], rng) } func (data *Data) collectSymbols(name string, spn span.Span, kind string, parentName string) { sym := source.Symbol{ Name: name, Kind: source.ParseSymbolKind(kind), SelectionSpan: spn, } if parentName == "" { data.Symbols[spn.URI()] = append(data.Symbols[spn.URI()], sym) } else { data.symbolsChildren[parentName] = append(data.symbolsChildren[parentName], sym) } } func (data *Data) collectSignatures(spn span.Span, signature string, activeParam int64) { data.Signatures[spn] = source.SignatureInformation{ Label: signature, ActiveParameter: int(activeParam), } }