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go/internal/lsp/tests/tests.go
Suzy Mueller f80f67146e internal/lsp: support renaming import specs
Support the renaming of the imported name of a package within a file.
This case needs to be special cased because the ident may be added or
removed.

Change-Id: I333bc2b2ca5ce81c4a2afb8b10035f525dfad464
Reviewed-on: https://go-review.googlesource.com/c/tools/+/184199
Run-TryBot: Suzy Mueller <suzmue@golang.org>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Rebecca Stambler <rstambler@golang.org>
2019-07-02 14:51:11 +00:00

529 lines
15 KiB
Go

// Copyright 2019 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/token"
"io/ioutil"
"path/filepath"
"sort"
"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"
"golang.org/x/tools/internal/txtar"
)
// 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 = 138
ExpectedCompletionSnippetCount = 15
ExpectedDiagnosticsCount = 17
ExpectedFormatCount = 5
ExpectedImportCount = 2
ExpectedDefinitionsCount = 38
ExpectedTypeDefinitionsCount = 2
ExpectedHighlightsCount = 2
ExpectedReferencesCount = 4
ExpectedRenamesCount = 11
ExpectedSymbolsCount = 1
ExpectedSignaturesCount = 20
ExpectedLinksCount = 2
)
const (
overlayFileSuffix = ".overlay"
goldenFileSuffix = ".golden"
inFileSuffix = ".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 CompletionSnippets map[span.Span]CompletionSnippet
type Formats []span.Span
type Imports []span.Span
type Definitions map[span.Span]Definition
type Highlights map[string][]span.Span
type References map[span.Span][]span.Span
type Renames map[span.Span]string
type Symbols map[span.URI][]source.Symbol
type SymbolsChildren map[string][]source.Symbol
type Signatures map[span.Span]source.SignatureInformation
type Links map[span.URI][]Link
type Data struct {
Config packages.Config
Exported *packagestest.Exported
Diagnostics Diagnostics
CompletionItems CompletionItems
Completions Completions
CompletionSnippets CompletionSnippets
Formats Formats
Imports Imports
Definitions Definitions
Highlights Highlights
References References
Renames Renames
Symbols Symbols
symbolsChildren SymbolsChildren
Signatures Signatures
Links Links
t testing.TB
fragments map[string]string
dir string
golden map[string]*Golden
}
type Tests interface {
Diagnostics(*testing.T, Diagnostics)
Completion(*testing.T, Completions, CompletionSnippets, CompletionItems)
Format(*testing.T, Formats)
Import(*testing.T, Imports)
Definition(*testing.T, Definitions)
Highlight(*testing.T, Highlights)
Reference(*testing.T, References)
Rename(*testing.T, Renames)
Symbol(*testing.T, Symbols)
SignatureHelp(*testing.T, Signatures)
Link(*testing.T, Links)
}
type Definition struct {
Name string
Src span.Span
IsType bool
OnlyHover bool
Def span.Span
}
type CompletionSnippet struct {
CompletionItem token.Pos
PlainSnippet string
PlaceholderSnippet string
}
type Link struct {
Src span.Span
Target string
}
type Golden struct {
Filename string
Archive *txtar.Archive
Modified bool
}
func Load(t testing.TB, exporter packagestest.Exporter, dir string) *Data {
t.Helper()
data := &Data{
Diagnostics: make(Diagnostics),
CompletionItems: make(CompletionItems),
Completions: make(Completions),
CompletionSnippets: make(CompletionSnippets),
Definitions: make(Definitions),
Highlights: make(Highlights),
References: make(References),
Renames: make(Renames),
Symbols: make(Symbols),
symbolsChildren: make(SymbolsChildren),
Signatures: make(Signatures),
Links: make(Links),
t: t,
dir: dir,
fragments: map[string]string{},
golden: map[string]*Golden{},
}
files := packagestest.MustCopyFileTree(dir)
overlays := map[string][]byte{}
for fragment, operation := range files {
if trimmed := strings.TrimSuffix(fragment, goldenFileSuffix); trimmed != fragment {
delete(files, fragment)
goldFile := filepath.Join(dir, fragment)
archive, err := txtar.ParseFile(goldFile)
if err != nil {
t.Fatalf("could not read golden file %v: %v", fragment, err)
}
data.golden[trimmed] = &Golden{
Filename: goldFile,
Archive: archive,
}
} else if trimmed := strings.TrimSuffix(fragment, inFileSuffix); trimmed != fragment {
delete(files, fragment)
files[trimmed] = operation
} else if index := strings.Index(fragment, overlayFileSuffix); index >= 0 {
delete(files, fragment)
partial := fragment[:index] + fragment[index+len(overlayFileSuffix):]
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) {
panic("ParseFile should not be called")
}
// 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,
"import": data.collectImports,
"godef": data.collectDefinitions,
"typdef": data.collectTypeDefinitions,
"hover": data.collectHoverDefinitions,
"highlight": data.collectHighlights,
"refs": data.collectReferences,
"rename": data.collectRenames,
"symbol": data.collectSymbols,
"signature": data.collectSignatures,
"snippet": data.collectCompletionSnippets,
"link": data.collectLinks,
}); err != nil {
t.Fatal(err)
}
for _, symbols := range data.Symbols {
for i := range symbols {
children := data.symbolsChildren[symbols[i].Name]
symbols[i].Children = children
}
}
// Collect names for the entries that require golden files.
if err := data.Exported.Expect(map[string]interface{}{
"godef": data.collectDefinitionNames,
"hover": data.collectDefinitionNames,
}); err != nil {
t.Fatal(err)
}
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)
}
if len(data.CompletionSnippets) != ExpectedCompletionSnippetCount {
t.Errorf("got %v snippets expected %v", len(data.CompletionSnippets), ExpectedCompletionSnippetCount)
}
tests.Completion(t, data.Completions, data.CompletionSnippets, 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 len(data.Formats) != ExpectedFormatCount {
t.Errorf("got %v formats expected %v", len(data.Formats), ExpectedFormatCount)
}
tests.Format(t, data.Formats)
})
t.Run("Import", func(t *testing.T) {
t.Helper()
if len(data.Imports) != ExpectedImportCount {
t.Errorf("got %v imports expected %v", len(data.Imports), ExpectedImportCount)
}
tests.Import(t, data.Imports)
})
t.Run("Definition", 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("Highlight", 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("References", func(t *testing.T) {
t.Helper()
if len(data.References) != ExpectedReferencesCount {
t.Errorf("got %v references expected %v", len(data.References), ExpectedReferencesCount)
}
tests.Reference(t, data.References)
})
t.Run("Renames", func(t *testing.T) {
t.Helper()
if len(data.Renames) != ExpectedRenamesCount {
t.Errorf("got %v renames expected %v", len(data.Renames), ExpectedRenamesCount)
}
tests.Rename(t, data.Renames)
})
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("SignatureHelp", func(t *testing.T) {
t.Helper()
if len(data.Signatures) != ExpectedSignaturesCount {
t.Errorf("got %v signatures expected %v", len(data.Signatures), ExpectedSignaturesCount)
}
tests.SignatureHelp(t, data.Signatures)
})
t.Run("Link", func(t *testing.T) {
t.Helper()
linksCount := 0
for _, want := range data.Links {
linksCount += len(want)
}
if linksCount != ExpectedLinksCount {
t.Errorf("got %v links expected %v", linksCount, ExpectedLinksCount)
}
tests.Link(t, data.Links)
})
if *updateGolden {
for _, golden := range data.golden {
if !golden.Modified {
continue
}
sort.Slice(golden.Archive.Files, func(i, j int) bool {
return golden.Archive.Files[i].Name < golden.Archive.Files[j].Name
})
if err := ioutil.WriteFile(golden.Filename, txtar.Format(golden.Archive), 0666); err != nil {
t.Fatal(err)
}
}
}
}
func (data *Data) Golden(tag string, target string, update func() ([]byte, 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
}
golden := data.golden[fragment]
if golden == nil {
if !*updateGolden {
data.t.Fatalf("could not find golden file %v: %v", fragment, tag)
}
golden = &Golden{
Filename: filepath.Join(data.dir, fragment+goldenFileSuffix),
Archive: &txtar.Archive{},
Modified: true,
}
data.golden[fragment] = golden
}
var file *txtar.File
for i := range golden.Archive.Files {
f := &golden.Archive.Files[i]
if f.Name == tag {
file = f
break
}
}
if *updateGolden {
if file == nil {
golden.Archive.Files = append(golden.Archive.Files, txtar.File{
Name: tag,
})
file = &golden.Archive.Files[len(golden.Archive.Files)-1]
}
contents, err := update()
if err != nil {
data.t.Fatalf("could not update golden file %v: %v", fragment, err)
}
file.Data = append(contents, '\n') // add trailing \n for txtar
golden.Modified = true
}
if file == nil {
data.t.Fatalf("could not find golden contents %v: %v", fragment, tag)
}
return file.Data[:len(file.Data)-1] // drop the trailing \n
}
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) collectImports(spn span.Span) {
data.Imports = append(data.Imports, spn)
}
func (data *Data) collectDefinitions(src, target span.Span) {
data.Definitions[src] = Definition{
Src: src,
Def: target,
}
}
func (data *Data) collectHoverDefinitions(src, target span.Span) {
data.Definitions[src] = Definition{
Src: src,
Def: target,
OnlyHover: true,
}
}
func (data *Data) collectTypeDefinitions(src, target span.Span) {
data.Definitions[src] = Definition{
Src: src,
Def: target,
IsType: true,
}
}
func (data *Data) collectDefinitionNames(src span.Span, name string) {
d := data.Definitions[src]
d.Name = name
data.Definitions[src] = d
}
func (data *Data) collectHighlights(name string, rng span.Span) {
data.Highlights[name] = append(data.Highlights[name], rng)
}
func (data *Data) collectReferences(src span.Span, expected []span.Span) {
data.References[src] = expected
}
func (data *Data) collectRenames(src span.Span, newText string) {
data.Renames[src] = newText
}
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),
}
}
func (data *Data) collectCompletionSnippets(spn span.Span, item token.Pos, plain, placeholder string) {
data.CompletionSnippets[spn] = CompletionSnippet{
CompletionItem: item,
PlainSnippet: plain,
PlaceholderSnippet: placeholder,
}
}
func (data *Data) collectLinks(spn span.Span, link string) {
uri := spn.URI()
data.Links[uri] = append(data.Links[uri], Link{
Src: spn,
Target: link,
})
}