// Copyright 2018 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 source_test import ( "context" "fmt" "os" "os/exec" "path/filepath" "sort" "strings" "testing" "golang.org/x/tools/go/packages/packagestest" "golang.org/x/tools/internal/lsp/cache" "golang.org/x/tools/internal/lsp/diff" "golang.org/x/tools/internal/lsp/diff/myers" "golang.org/x/tools/internal/lsp/fuzzy" "golang.org/x/tools/internal/lsp/protocol" "golang.org/x/tools/internal/lsp/source" "golang.org/x/tools/internal/lsp/tests" "golang.org/x/tools/internal/span" "golang.org/x/tools/internal/testenv" errors "golang.org/x/xerrors" ) func TestMain(m *testing.M) { testenv.ExitIfSmallMachine() os.Exit(m.Run()) } func TestSource(t *testing.T) { packagestest.TestAll(t, testSource) } type runner struct { view source.View data *tests.Data ctx context.Context } func testSource(t *testing.T, exporter packagestest.Exporter) { ctx := tests.Context(t) data := tests.Load(t, exporter, "../testdata") for _, datum := range data { defer datum.Exported.Cleanup() cache := cache.New(ctx, nil) session := cache.NewSession(ctx) options := tests.DefaultOptions() options.Env = datum.Config.Env view, snapshot, err := session.NewView(ctx, "source_test", span.URIFromPath(datum.Config.Dir), options) if err != nil { t.Fatal(err) } defer view.Shutdown(ctx) // Enable type error analyses for tests. // TODO(golang/go#38212): Delete this once they are enabled by default. tests.EnableAllAnalyzers(snapshot, &options) view.SetOptions(ctx, options) r := &runner{ view: view, data: datum, ctx: ctx, } var modifications []source.FileModification for filename, content := range datum.Config.Overlay { kind := source.DetectLanguage("", filename) if kind != source.Go { continue } modifications = append(modifications, source.FileModification{ URI: span.URIFromPath(filename), Action: source.Open, Version: -1, Text: content, LanguageID: "go", }) } if _, err := session.DidModifyFiles(ctx, modifications); err != nil { t.Fatal(err) } t.Run(tests.FormatFolderName(datum.Folder), func(t *testing.T) { t.Helper() tests.Run(t, r, datum) }) } } func (r *runner) Diagnostics(t *testing.T, uri span.URI, want []*source.Diagnostic) { snapshot := r.view.Snapshot() fileID, got, err := source.FileDiagnostics(r.ctx, snapshot, uri) if err != nil { t.Fatal(err) } // A special case to test that there are no diagnostics for a file. if len(want) == 1 && want[0].Source == "no_diagnostics" { if len(got) != 0 { t.Errorf("expected no diagnostics for %s, got %v", uri, got) } return } if diff := tests.DiffDiagnostics(fileID.URI, want, got); diff != "" { t.Error(diff) } } func (r *runner) Completion(t *testing.T, src span.Span, test tests.Completion, items tests.CompletionItems) { var want []protocol.CompletionItem for _, pos := range test.CompletionItems { want = append(want, tests.ToProtocolCompletionItem(*items[pos])) } _, got := r.callCompletion(t, src, func(opts *source.Options) { opts.Matcher = source.CaseInsensitive opts.DeepCompletion = false opts.UnimportedCompletion = false opts.InsertTextFormat = protocol.SnippetTextFormat if !strings.Contains(string(src.URI()), "literal") { opts.LiteralCompletions = false } }) got = tests.FilterBuiltins(src, got) if diff := tests.DiffCompletionItems(want, got); diff != "" { t.Errorf("%s: %s", src, diff) } } func (r *runner) CompletionSnippet(t *testing.T, src span.Span, expected tests.CompletionSnippet, placeholders bool, items tests.CompletionItems) { _, list := r.callCompletion(t, src, func(opts *source.Options) { opts.Placeholders = placeholders opts.DeepCompletion = true opts.UnimportedCompletion = false }) got := tests.FindItem(list, *items[expected.CompletionItem]) want := expected.PlainSnippet if placeholders { want = expected.PlaceholderSnippet } if diff := tests.DiffSnippets(want, got); diff != "" { t.Errorf("%s: %s", src, diff) } } func (r *runner) UnimportedCompletion(t *testing.T, src span.Span, test tests.Completion, items tests.CompletionItems) { var want []protocol.CompletionItem for _, pos := range test.CompletionItems { want = append(want, tests.ToProtocolCompletionItem(*items[pos])) } _, got := r.callCompletion(t, src, func(opts *source.Options) {}) got = tests.FilterBuiltins(src, got) if diff := tests.CheckCompletionOrder(want, got, false); diff != "" { t.Errorf("%s: %s", src, diff) } } func (r *runner) DeepCompletion(t *testing.T, src span.Span, test tests.Completion, items tests.CompletionItems) { var want []protocol.CompletionItem for _, pos := range test.CompletionItems { want = append(want, tests.ToProtocolCompletionItem(*items[pos])) } prefix, list := r.callCompletion(t, src, func(opts *source.Options) { opts.DeepCompletion = true opts.Matcher = source.CaseInsensitive opts.UnimportedCompletion = false }) list = tests.FilterBuiltins(src, list) fuzzyMatcher := fuzzy.NewMatcher(prefix) var got []protocol.CompletionItem for _, item := range list { if fuzzyMatcher.Score(item.Label) <= 0 { continue } got = append(got, item) } if msg := tests.DiffCompletionItems(want, got); msg != "" { t.Errorf("%s: %s", src, msg) } } func (r *runner) FuzzyCompletion(t *testing.T, src span.Span, test tests.Completion, items tests.CompletionItems) { var want []protocol.CompletionItem for _, pos := range test.CompletionItems { want = append(want, tests.ToProtocolCompletionItem(*items[pos])) } _, got := r.callCompletion(t, src, func(opts *source.Options) { opts.DeepCompletion = true opts.Matcher = source.Fuzzy opts.UnimportedCompletion = false }) got = tests.FilterBuiltins(src, got) if msg := tests.DiffCompletionItems(want, got); msg != "" { t.Errorf("%s: %s", src, msg) } } func (r *runner) CaseSensitiveCompletion(t *testing.T, src span.Span, test tests.Completion, items tests.CompletionItems) { var want []protocol.CompletionItem for _, pos := range test.CompletionItems { want = append(want, tests.ToProtocolCompletionItem(*items[pos])) } _, list := r.callCompletion(t, src, func(opts *source.Options) { opts.Matcher = source.CaseSensitive opts.UnimportedCompletion = false }) list = tests.FilterBuiltins(src, list) if diff := tests.DiffCompletionItems(want, list); diff != "" { t.Errorf("%s: %s", src, diff) } } func (r *runner) RankCompletion(t *testing.T, src span.Span, test tests.Completion, items tests.CompletionItems) { var want []protocol.CompletionItem for _, pos := range test.CompletionItems { want = append(want, tests.ToProtocolCompletionItem(*items[pos])) } _, got := r.callCompletion(t, src, func(opts *source.Options) { opts.DeepCompletion = true opts.Matcher = source.Fuzzy }) if msg := tests.CheckCompletionOrder(want, got, true); msg != "" { t.Errorf("%s: %s", src, msg) } } func (r *runner) callCompletion(t *testing.T, src span.Span, options func(*source.Options)) (string, []protocol.CompletionItem) { fh, err := r.view.Snapshot().GetFile(r.ctx, src.URI()) if err != nil { t.Fatal(err) } original := r.view.Options() modified := original options(&modified) view, err := r.view.SetOptions(r.ctx, modified) if err != nil { t.Fatal(err) } defer r.view.SetOptions(r.ctx, original) list, surrounding, err := source.Completion(r.ctx, view.Snapshot(), fh, protocol.Position{ Line: float64(src.Start().Line() - 1), Character: float64(src.Start().Column() - 1), }) if err != nil && !errors.As(err, &source.ErrIsDefinition{}) { t.Fatalf("failed for %v: %v", src, err) } var prefix string if surrounding != nil { prefix = strings.ToLower(surrounding.Prefix()) } var numDeepCompletionsSeen int var items []source.CompletionItem // Apply deep completion filtering. for _, item := range list { if item.Depth > 0 { if !modified.DeepCompletion { continue } if numDeepCompletionsSeen >= source.MaxDeepCompletions { continue } numDeepCompletionsSeen++ } items = append(items, item) } return prefix, tests.ToProtocolCompletionItems(items) } func (r *runner) FoldingRanges(t *testing.T, spn span.Span) { uri := spn.URI() fh, err := r.view.Snapshot().GetFile(r.ctx, spn.URI()) if err != nil { t.Fatal(err) } data, err := fh.Read() if err != nil { t.Error(err) return } // Test all folding ranges. ranges, err := source.FoldingRange(r.ctx, r.view.Snapshot(), fh, false) if err != nil { t.Error(err) return } r.foldingRanges(t, "foldingRange", uri, string(data), ranges) // Test folding ranges with lineFoldingOnly ranges, err = source.FoldingRange(r.ctx, r.view.Snapshot(), fh, true) if err != nil { t.Error(err) return } r.foldingRanges(t, "foldingRange-lineFolding", uri, string(data), ranges) } func (r *runner) foldingRanges(t *testing.T, prefix string, uri span.URI, data string, ranges []*source.FoldingRangeInfo) { t.Helper() // Fold all ranges. nonOverlapping := nonOverlappingRanges(t, ranges) for i, rngs := range nonOverlapping { got, err := foldRanges(string(data), rngs) if err != nil { t.Error(err) continue } tag := fmt.Sprintf("%s-%d", prefix, i) want := string(r.data.Golden(tag, uri.Filename(), func() ([]byte, error) { return []byte(got), nil })) if want != got { t.Errorf("%s: foldingRanges failed for %s, expected:\n%v\ngot:\n%v", tag, uri.Filename(), want, got) } } // Filter by kind. kinds := []protocol.FoldingRangeKind{protocol.Imports, protocol.Comment} for _, kind := range kinds { var kindOnly []*source.FoldingRangeInfo for _, fRng := range ranges { if fRng.Kind == kind { kindOnly = append(kindOnly, fRng) } } nonOverlapping := nonOverlappingRanges(t, kindOnly) for i, rngs := range nonOverlapping { got, err := foldRanges(string(data), rngs) if err != nil { t.Error(err) continue } tag := fmt.Sprintf("%s-%s-%d", prefix, kind, i) want := string(r.data.Golden(tag, uri.Filename(), func() ([]byte, error) { return []byte(got), nil })) if want != got { t.Errorf("%s: failed for %s, expected:\n%v\ngot:\n%v", tag, uri.Filename(), want, got) } } } } func nonOverlappingRanges(t *testing.T, ranges []*source.FoldingRangeInfo) (res [][]*source.FoldingRangeInfo) { for _, fRng := range ranges { setNum := len(res) for i := 0; i < len(res); i++ { canInsert := true for _, rng := range res[i] { if conflict(t, rng, fRng) { canInsert = false break } } if canInsert { setNum = i break } } if setNum == len(res) { res = append(res, []*source.FoldingRangeInfo{}) } res[setNum] = append(res[setNum], fRng) } return res } func conflict(t *testing.T, a, b *source.FoldingRangeInfo) bool { arng, err := a.Range() if err != nil { t.Fatal(err) } brng, err := b.Range() if err != nil { t.Fatal(err) } // a start position is <= b start positions return protocol.ComparePosition(arng.Start, brng.Start) <= 0 && protocol.ComparePosition(arng.End, brng.Start) > 0 } func foldRanges(contents string, ranges []*source.FoldingRangeInfo) (string, error) { foldedText := "<>" res := contents // Apply the folds from the end of the file forward // to preserve the offsets. for i := len(ranges) - 1; i >= 0; i-- { fRange := ranges[i] spn, err := fRange.Span() if err != nil { return "", err } start := spn.Start().Offset() end := spn.End().Offset() tmp := res[0:start] + foldedText res = tmp + res[end:] } return res, nil } func (r *runner) Format(t *testing.T, spn span.Span) { gofmted := string(r.data.Golden("gofmt", spn.URI().Filename(), func() ([]byte, error) { cmd := exec.Command("gofmt", spn.URI().Filename()) out, _ := cmd.Output() // ignore error, sometimes we have intentionally ungofmt-able files return out, nil })) fh, err := r.view.Snapshot().GetFile(r.ctx, spn.URI()) if err != nil { t.Fatal(err) } edits, err := source.Format(r.ctx, r.view.Snapshot(), fh) if err != nil { if gofmted != "" { t.Error(err) } return } data, err := fh.Read() if err != nil { t.Fatal(err) } m, err := r.data.Mapper(spn.URI()) if err != nil { t.Fatal(err) } diffEdits, err := source.FromProtocolEdits(m, edits) if err != nil { t.Error(err) } got := diff.ApplyEdits(string(data), diffEdits) if gofmted != got { t.Errorf("format failed for %s, expected:\n%v\ngot:\n%v", spn.URI().Filename(), gofmted, got) } } func (r *runner) Import(t *testing.T, spn span.Span) { fh, err := r.view.Snapshot().GetFile(r.ctx, spn.URI()) if err != nil { t.Fatal(err) } edits, _, err := source.AllImportsFixes(r.ctx, r.view.Snapshot(), fh) if err != nil { t.Error(err) } data, err := fh.Read() if err != nil { t.Fatal(err) } m, err := r.data.Mapper(fh.URI()) if err != nil { t.Fatal(err) } diffEdits, err := source.FromProtocolEdits(m, edits) if err != nil { t.Error(err) } got := diff.ApplyEdits(string(data), diffEdits) want := string(r.data.Golden("goimports", spn.URI().Filename(), func() ([]byte, error) { return []byte(got), nil })) if want != got { d := myers.ComputeEdits(spn.URI(), want, got) t.Errorf("import failed for %s: %s", spn.URI().Filename(), diff.ToUnified("want", "got", want, d)) } } func (r *runner) Definition(t *testing.T, spn span.Span, d tests.Definition) { _, srcRng, err := spanToRange(r.data, d.Src) if err != nil { t.Fatal(err) } fh, err := r.view.Snapshot().GetFile(r.ctx, spn.URI()) if err != nil { t.Fatal(err) } ident, err := source.Identifier(r.ctx, r.view.Snapshot(), fh, srcRng.Start) if err != nil { t.Fatalf("failed for %v: %v", d.Src, err) } h, err := source.HoverIdentifier(r.ctx, ident) if err != nil { t.Fatalf("failed for %v: %v", d.Src, err) } hover, err := source.FormatHover(h, r.view.Options()) if err != nil { t.Fatal(err) } rng, err := ident.Declaration.MappedRange[0].Range() if err != nil { t.Fatal(err) } if d.IsType { rng, err = ident.Type.Range() if err != nil { t.Fatal(err) } hover = "" } didSomething := false if hover != "" { didSomething = true tag := fmt.Sprintf("%s-hover", d.Name) expectHover := string(r.data.Golden(tag, d.Src.URI().Filename(), func() ([]byte, error) { return []byte(hover), nil })) if hover != expectHover { t.Errorf("for %v got %q want %q", d.Src, hover, expectHover) } } if !d.OnlyHover { didSomething = true if _, defRng, err := spanToRange(r.data, d.Def); err != nil { t.Fatal(err) } else if rng != defRng { t.Errorf("for %v got %v want %v", d.Src, rng, defRng) } } if !didSomething { t.Errorf("no tests ran for %s", d.Src.URI()) } } func (r *runner) Implementation(t *testing.T, spn span.Span, impls []span.Span) { sm, err := r.data.Mapper(spn.URI()) if err != nil { t.Fatal(err) } loc, err := sm.Location(spn) if err != nil { t.Fatalf("failed for %v: %v", spn, err) } fh, err := r.view.Snapshot().GetFile(r.ctx, spn.URI()) if err != nil { t.Fatal(err) } locs, err := source.Implementation(r.ctx, r.view.Snapshot(), fh, loc.Range.Start) if err != nil { t.Fatalf("failed for %v: %v", spn, err) } if len(locs) != len(impls) { t.Fatalf("got %d locations for implementation, expected %d", len(locs), len(impls)) } var results []span.Span for i := range locs { locURI := locs[i].URI.SpanURI() lm, err := r.data.Mapper(locURI) if err != nil { t.Fatal(err) } imp, err := lm.Span(locs[i]) if err != nil { t.Fatalf("failed for %v: %v", locs[i], err) } results = append(results, imp) } // Sort results and expected to make tests deterministic. sort.SliceStable(results, func(i, j int) bool { return span.Compare(results[i], results[j]) == -1 }) sort.SliceStable(impls, func(i, j int) bool { return span.Compare(impls[i], impls[j]) == -1 }) for i := range results { if results[i] != impls[i] { t.Errorf("for %dth implementation of %v got %v want %v", i, spn, results[i], impls[i]) } } } func (r *runner) Highlight(t *testing.T, src span.Span, locations []span.Span) { ctx := r.ctx m, srcRng, err := spanToRange(r.data, src) if err != nil { t.Fatal(err) } fh, err := r.view.Snapshot().GetFile(r.ctx, src.URI()) if err != nil { t.Fatal(err) } highlights, err := source.Highlight(ctx, r.view.Snapshot(), fh, srcRng.Start) if err != nil { t.Errorf("highlight failed for %s: %v", src.URI(), err) } if len(highlights) != len(locations) { t.Fatalf("got %d highlights for highlight at %v:%v:%v, expected %d", len(highlights), src.URI().Filename(), src.Start().Line(), src.Start().Column(), len(locations)) } // Check to make sure highlights have a valid range. var results []span.Span for i := range highlights { h, err := m.RangeSpan(highlights[i]) if err != nil { t.Fatalf("failed for %v: %v", highlights[i], err) } results = append(results, h) } // Sort results to make tests deterministic since DocumentHighlight uses a map. sort.SliceStable(results, func(i, j int) bool { return span.Compare(results[i], results[j]) == -1 }) // Check to make sure all the expected highlights are found. for i := range results { if results[i] != locations[i] { t.Errorf("want %v, got %v\n", locations[i], results[i]) } } } func (r *runner) References(t *testing.T, src span.Span, itemList []span.Span) { ctx := r.ctx _, srcRng, err := spanToRange(r.data, src) if err != nil { t.Fatal(err) } snapshot := r.view.Snapshot() fh, err := snapshot.GetFile(r.ctx, src.URI()) if err != nil { t.Fatal(err) } for _, includeDeclaration := range []bool{true, false} { t.Run(fmt.Sprintf("refs-declaration-%v", includeDeclaration), func(t *testing.T) { want := make(map[span.Span]bool) for i, pos := range itemList { // We don't want the first result if we aren't including the declaration. if i == 0 && !includeDeclaration { continue } want[pos] = true } refs, err := source.References(ctx, snapshot, fh, srcRng.Start, includeDeclaration) if err != nil { t.Fatalf("failed for %s: %v", src, err) } got := make(map[span.Span]bool) for _, refInfo := range refs { refSpan, err := refInfo.Span() if err != nil { t.Fatal(err) } got[refSpan] = true } if len(got) != len(want) { t.Errorf("references failed: different lengths got %v want %v", len(got), len(want)) } for spn := range got { if !want[spn] { t.Errorf("references failed: incorrect references got %v want locations %v", got, want) } } }) } } func (r *runner) Rename(t *testing.T, spn span.Span, newText string) { tag := fmt.Sprintf("%s-rename", newText) _, srcRng, err := spanToRange(r.data, spn) if err != nil { t.Fatal(err) } fh, err := r.view.Snapshot().GetFile(r.ctx, spn.URI()) if err != nil { t.Fatal(err) } changes, err := source.Rename(r.ctx, r.view.Snapshot(), fh, srcRng.Start, newText) if err != nil { renamed := string(r.data.Golden(tag, spn.URI().Filename(), func() ([]byte, error) { return []byte(err.Error()), nil })) if err.Error() != renamed { t.Errorf("rename failed for %s, expected:\n%v\ngot:\n%v\n", newText, renamed, err) } return } var res []string for editURI, edits := range changes { fh, err := r.view.Snapshot().GetFile(r.ctx, editURI) if err != nil { t.Fatal(err) } data, err := fh.Read() if err != nil { t.Fatal(err) } m, err := r.data.Mapper(fh.URI()) if err != nil { t.Fatal(err) } diffEdits, err := source.FromProtocolEdits(m, edits) if err != nil { t.Fatal(err) } contents := applyEdits(string(data), diffEdits) if len(changes) > 1 { filename := filepath.Base(editURI.Filename()) contents = fmt.Sprintf("%s:\n%s", filename, contents) } res = append(res, contents) } // Sort on filename sort.Strings(res) var got string for i, val := range res { if i != 0 { got += "\n" } got += val } renamed := string(r.data.Golden(tag, spn.URI().Filename(), func() ([]byte, error) { return []byte(got), nil })) if renamed != got { t.Errorf("rename failed for %s, expected:\n%v\ngot:\n%v", newText, renamed, got) } } func applyEdits(contents string, edits []diff.TextEdit) string { res := contents // Apply the edits from the end of the file forward // to preserve the offsets for i := len(edits) - 1; i >= 0; i-- { edit := edits[i] start := edit.Span.Start().Offset() end := edit.Span.End().Offset() tmp := res[0:start] + edit.NewText res = tmp + res[end:] } return res } func (r *runner) PrepareRename(t *testing.T, src span.Span, want *source.PrepareItem) { _, srcRng, err := spanToRange(r.data, src) if err != nil { t.Fatal(err) } // Find the identifier at the position. fh, err := r.view.Snapshot().GetFile(r.ctx, src.URI()) if err != nil { t.Fatal(err) } item, err := source.PrepareRename(r.ctx, r.view.Snapshot(), fh, srcRng.Start) if err != nil { if want.Text != "" { // expected an ident. t.Errorf("prepare rename failed for %v: got error: %v", src, err) } return } if item == nil { if want.Text != "" { t.Errorf("prepare rename failed for %v: got nil", src) } return } if want.Text == "" { t.Errorf("prepare rename failed for %v: expected nil, got %v", src, item) return } if item.Range.Start == item.Range.End { // Special case for 0-length ranges. Marks can't specify a 0-length range, // so just compare the start. if item.Range.Start != want.Range.Start { t.Errorf("prepare rename failed: incorrect point, got %v want %v", item.Range.Start, want.Range.Start) } } else { if protocol.CompareRange(item.Range, want.Range) != 0 { t.Errorf("prepare rename failed: incorrect range got %v want %v", item.Range, want.Range) } } } func (r *runner) Symbols(t *testing.T, uri span.URI, expectedSymbols []protocol.DocumentSymbol) { fh, err := r.view.Snapshot().GetFile(r.ctx, uri) if err != nil { t.Fatal(err) } symbols, err := source.DocumentSymbols(r.ctx, r.view.Snapshot(), fh) if err != nil { t.Errorf("symbols failed for %s: %v", uri, err) } if len(symbols) != len(expectedSymbols) { t.Errorf("want %d top-level symbols in %v, got %d", len(expectedSymbols), uri, len(symbols)) return } if diff := tests.DiffSymbols(t, uri, expectedSymbols, symbols); diff != "" { t.Error(diff) } } func (r *runner) WorkspaceSymbols(t *testing.T, query string, expectedSymbols []protocol.SymbolInformation, dirs map[string]struct{}) { r.callWorkspaceSymbols(t, query, source.SymbolCaseInsensitive, dirs, expectedSymbols) } func (r *runner) FuzzyWorkspaceSymbols(t *testing.T, query string, expectedSymbols []protocol.SymbolInformation, dirs map[string]struct{}) { r.callWorkspaceSymbols(t, query, source.SymbolFuzzy, dirs, expectedSymbols) } func (r *runner) CaseSensitiveWorkspaceSymbols(t *testing.T, query string, expectedSymbols []protocol.SymbolInformation, dirs map[string]struct{}) { r.callWorkspaceSymbols(t, query, source.SymbolCaseSensitive, dirs, expectedSymbols) } func (r *runner) callWorkspaceSymbols(t *testing.T, query string, matcher source.SymbolMatcher, dirs map[string]struct{}, expectedSymbols []protocol.SymbolInformation) { t.Helper() got, err := source.WorkspaceSymbols(r.ctx, matcher, source.PackageQualifiedSymbols, []source.View{r.view}, query) if err != nil { t.Fatal(err) } got = tests.FilterWorkspaceSymbols(got, dirs) if len(got) != len(expectedSymbols) { t.Errorf("want %d symbols, got %d", len(expectedSymbols), len(got)) return } if diff := tests.DiffWorkspaceSymbols(expectedSymbols, got); diff != "" { t.Error(diff) } } func (r *runner) SignatureHelp(t *testing.T, spn span.Span, want *protocol.SignatureHelp) { _, rng, err := spanToRange(r.data, spn) if err != nil { t.Fatal(err) } fh, err := r.view.Snapshot().GetFile(r.ctx, spn.URI()) if err != nil { t.Fatal(err) } gotSignature, gotActiveParameter, err := source.SignatureHelp(r.ctx, r.view.Snapshot(), fh, rng.Start) if err != nil { // Only fail if we got an error we did not expect. if want != nil { t.Fatalf("failed for %v: %v", spn, err) } return } if gotSignature == nil { if want != nil { t.Fatalf("got nil signature, but expected %v", want) } return } got := &protocol.SignatureHelp{ Signatures: []protocol.SignatureInformation{*gotSignature}, ActiveParameter: float64(gotActiveParameter), } if diff := tests.DiffSignatures(spn, want, got); diff != "" { t.Error(diff) } } // These are pure LSP features, no source level functionality to be tested. func (r *runner) Link(t *testing.T, uri span.URI, wantLinks []tests.Link) {} func (r *runner) SuggestedFix(t *testing.T, spn span.Span, actionKinds []string) {} func (r *runner) FunctionExtraction(t *testing.T, start span.Span, end span.Span) {} func (r *runner) CodeLens(t *testing.T, uri span.URI, want []protocol.CodeLens) { fh, err := r.view.Snapshot().GetFile(r.ctx, uri) if err != nil { t.Fatal(err) } got, err := source.CodeLens(r.ctx, r.view.Snapshot(), fh) if err != nil { t.Fatal(err) } if diff := tests.DiffCodeLens(uri, want, got); diff != "" { t.Error(diff) } } func spanToRange(data *tests.Data, spn span.Span) (*protocol.ColumnMapper, protocol.Range, error) { m, err := data.Mapper(spn.URI()) if err != nil { return nil, protocol.Range{}, err } srcRng, err := m.Range(spn) if err != nil { return nil, protocol.Range{}, err } return m, srcRng, nil }