blob: 6c41dc35397d8e89bf1ad778f28dcb6292ee47c2 [file] [log] [blame]
// 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 lsp
import (
"context"
"fmt"
"sort"
"strings"
"golang.org/x/tools/go/analysis"
"golang.org/x/tools/internal/event"
"golang.org/x/tools/internal/imports"
"golang.org/x/tools/internal/lsp/command"
"golang.org/x/tools/internal/lsp/debug/tag"
"golang.org/x/tools/internal/lsp/mod"
"golang.org/x/tools/internal/lsp/protocol"
"golang.org/x/tools/internal/lsp/source"
"golang.org/x/tools/internal/span"
errors "golang.org/x/xerrors"
)
func (s *Server) codeAction(ctx context.Context, params *protocol.CodeActionParams) ([]protocol.CodeAction, error) {
snapshot, fh, ok, release, err := s.beginFileRequest(ctx, params.TextDocument.URI, source.UnknownKind)
defer release()
if !ok {
return nil, err
}
uri := fh.URI()
// Determine the supported actions for this file kind.
supportedCodeActions, ok := snapshot.View().Options().SupportedCodeActions[fh.Kind()]
if !ok {
return nil, fmt.Errorf("no supported code actions for %v file kind", fh.Kind())
}
// The Only field of the context specifies which code actions the client wants.
// If Only is empty, assume that the client wants all of the non-explicit code actions.
var wanted map[protocol.CodeActionKind]bool
// Explicit Code Actions are opt-in and shouldn't be returned to the client unless
// requested using Only.
// TODO: Add other CodeLenses such as GoGenerate, RegenerateCgo, etc..
explicit := map[protocol.CodeActionKind]bool{
protocol.GoTest: true,
}
if len(params.Context.Only) == 0 {
wanted = supportedCodeActions
} else {
wanted = make(map[protocol.CodeActionKind]bool)
for _, only := range params.Context.Only {
wanted[only] = supportedCodeActions[only] || explicit[only]
}
}
if len(wanted) == 0 {
return nil, fmt.Errorf("no supported code action to execute for %s, wanted %v", uri, params.Context.Only)
}
var codeActions []protocol.CodeAction
switch fh.Kind() {
case source.Mod:
if diagnostics := params.Context.Diagnostics; len(diagnostics) > 0 {
modQuickFixes, err := moduleQuickFixes(ctx, snapshot, fh, diagnostics)
if source.IsNonFatalGoModError(err) {
return nil, nil
}
if err != nil {
return nil, err
}
codeActions = append(codeActions, modQuickFixes...)
}
case source.Go:
// Don't suggest fixes for generated files, since they are generally
// not useful and some editors may apply them automatically on save.
if source.IsGenerated(ctx, snapshot, uri) {
return nil, nil
}
diagnostics := params.Context.Diagnostics
// First, process any missing imports and pair them with the
// diagnostics they fix.
if wantQuickFixes := wanted[protocol.QuickFix] && len(diagnostics) > 0; wantQuickFixes || wanted[protocol.SourceOrganizeImports] {
importEdits, importEditsPerFix, err := source.AllImportsFixes(ctx, snapshot, fh)
if err != nil {
event.Error(ctx, "imports fixes", err, tag.File.Of(fh.URI().Filename()))
}
// Separate this into a set of codeActions per diagnostic, where
// each action is the addition, removal, or renaming of one import.
if wantQuickFixes {
for _, importFix := range importEditsPerFix {
fixes := importDiagnostics(importFix.Fix, diagnostics)
if len(fixes) == 0 {
continue
}
codeActions = append(codeActions, protocol.CodeAction{
Title: importFixTitle(importFix.Fix),
Kind: protocol.QuickFix,
Edit: protocol.WorkspaceEdit{
DocumentChanges: documentChanges(fh, importFix.Edits),
},
Diagnostics: fixes,
})
}
}
// Send all of the import edits as one code action if the file is
// being organized.
if wanted[protocol.SourceOrganizeImports] && len(importEdits) > 0 {
codeActions = append(codeActions, protocol.CodeAction{
Title: "Organize Imports",
Kind: protocol.SourceOrganizeImports,
Edit: protocol.WorkspaceEdit{
DocumentChanges: documentChanges(fh, importEdits),
},
})
}
}
if ctx.Err() != nil {
return nil, ctx.Err()
}
pkg, err := snapshot.PackageForFile(ctx, fh.URI(), source.TypecheckFull, source.WidestPackage)
if err != nil {
return nil, err
}
if (wanted[protocol.QuickFix] || wanted[protocol.SourceFixAll]) && len(diagnostics) > 0 {
pkgQuickFixes, err := quickFixesForDiagnostics(ctx, snapshot, diagnostics, pkg.GetDiagnostics())
if err != nil {
return nil, err
}
codeActions = append(codeActions, pkgQuickFixes...)
analysisQuickFixes, highConfidenceEdits, err := analysisFixes(ctx, snapshot, pkg, diagnostics)
if err != nil {
return nil, err
}
if wanted[protocol.QuickFix] {
// Add the quick fixes reported by go/analysis.
codeActions = append(codeActions, analysisQuickFixes...)
// If there are any diagnostics relating to the go.mod file,
// add their corresponding quick fixes.
modQuickFixes, err := moduleQuickFixes(ctx, snapshot, fh, diagnostics)
if source.IsNonFatalGoModError(err) {
// Not a fatal error.
event.Error(ctx, "module suggested fixes failed", err, tag.Directory.Of(snapshot.View().Folder()))
}
codeActions = append(codeActions, modQuickFixes...)
}
if wanted[protocol.SourceFixAll] && len(highConfidenceEdits) > 0 {
codeActions = append(codeActions, protocol.CodeAction{
Title: "Simplifications",
Kind: protocol.SourceFixAll,
Edit: protocol.WorkspaceEdit{
DocumentChanges: highConfidenceEdits,
},
})
}
}
if ctx.Err() != nil {
return nil, ctx.Err()
}
// Add any suggestions that do not necessarily fix any diagnostics.
if wanted[protocol.RefactorRewrite] {
fixes, err := convenienceFixes(ctx, snapshot, pkg, uri, params.Range)
if err != nil {
return nil, err
}
codeActions = append(codeActions, fixes...)
}
if wanted[protocol.RefactorExtract] {
fixes, err := extractionFixes(ctx, snapshot, pkg, uri, params.Range)
if err != nil {
return nil, err
}
codeActions = append(codeActions, fixes...)
}
if wanted[protocol.GoTest] {
fixes, err := goTest(ctx, snapshot, uri, params.Range)
if err != nil {
return nil, err
}
codeActions = append(codeActions, fixes...)
}
default:
// Unsupported file kind for a code action.
return nil, nil
}
return codeActions, nil
}
func (s *Server) getSupportedCodeActions() []protocol.CodeActionKind {
allCodeActionKinds := make(map[protocol.CodeActionKind]struct{})
for _, kinds := range s.session.Options().SupportedCodeActions {
for kind := range kinds {
allCodeActionKinds[kind] = struct{}{}
}
}
var result []protocol.CodeActionKind
for kind := range allCodeActionKinds {
result = append(result, kind)
}
sort.Slice(result, func(i, j int) bool {
return result[i] < result[j]
})
return result
}
func importFixTitle(fix *imports.ImportFix) string {
var str string
switch fix.FixType {
case imports.AddImport:
str = fmt.Sprintf("Add import: %s %q", fix.StmtInfo.Name, fix.StmtInfo.ImportPath)
case imports.DeleteImport:
str = fmt.Sprintf("Delete import: %s %q", fix.StmtInfo.Name, fix.StmtInfo.ImportPath)
case imports.SetImportName:
str = fmt.Sprintf("Rename import: %s %q", fix.StmtInfo.Name, fix.StmtInfo.ImportPath)
}
return str
}
func importDiagnostics(fix *imports.ImportFix, diagnostics []protocol.Diagnostic) (results []protocol.Diagnostic) {
for _, diagnostic := range diagnostics {
switch {
// "undeclared name: X" may be an unresolved import.
case strings.HasPrefix(diagnostic.Message, "undeclared name: "):
ident := strings.TrimPrefix(diagnostic.Message, "undeclared name: ")
if ident == fix.IdentName {
results = append(results, diagnostic)
}
// "could not import: X" may be an invalid import.
case strings.HasPrefix(diagnostic.Message, "could not import: "):
ident := strings.TrimPrefix(diagnostic.Message, "could not import: ")
if ident == fix.IdentName {
results = append(results, diagnostic)
}
// "X imported but not used" is an unused import.
// "X imported but not used as Y" is an unused import.
case strings.Contains(diagnostic.Message, " imported but not used"):
idx := strings.Index(diagnostic.Message, " imported but not used")
importPath := diagnostic.Message[:idx]
if importPath == fmt.Sprintf("%q", fix.StmtInfo.ImportPath) {
results = append(results, diagnostic)
}
}
}
return results
}
func analysisFixes(ctx context.Context, snapshot source.Snapshot, pkg source.Package, diagnostics []protocol.Diagnostic) ([]protocol.CodeAction, []protocol.TextDocumentEdit, error) {
if len(diagnostics) == 0 {
return nil, nil, nil
}
var (
codeActions []protocol.CodeAction
sourceFixAllEdits []protocol.TextDocumentEdit
)
for _, diag := range diagnostics {
srcErr, analyzer, ok := findDiagnostic(ctx, snapshot, pkg.ID(), diag)
if !ok {
continue
}
// If the suggested fix for the diagnostic is expected to be separate,
// see if there are any supported commands available.
if analyzer.Fix != "" {
action, err := diagnosticToCommandCodeAction(ctx, snapshot, srcErr, &diag, protocol.QuickFix)
if err != nil {
return nil, nil, err
}
codeActions = append(codeActions, *action)
continue
}
for _, fix := range srcErr.SuggestedFixes {
action := protocol.CodeAction{
Title: fix.Title,
Kind: protocol.QuickFix,
Diagnostics: []protocol.Diagnostic{diag},
Edit: protocol.WorkspaceEdit{},
}
for uri, edits := range fix.Edits {
fh, err := snapshot.GetVersionedFile(ctx, uri)
if err != nil {
return nil, nil, err
}
docChanges := documentChanges(fh, edits)
if analyzer.HighConfidence {
sourceFixAllEdits = append(sourceFixAllEdits, docChanges...)
}
action.Edit.DocumentChanges = append(action.Edit.DocumentChanges, docChanges...)
}
codeActions = append(codeActions, action)
}
}
return codeActions, sourceFixAllEdits, nil
}
func findDiagnostic(ctx context.Context, snapshot source.Snapshot, pkgID string, diag protocol.Diagnostic) (*source.Diagnostic, source.Analyzer, bool) {
analyzer := diagnosticToAnalyzer(snapshot, diag.Source, diag.Message)
if analyzer == nil {
return nil, source.Analyzer{}, false
}
analysisErrors, err := snapshot.Analyze(ctx, pkgID, analyzer.Analyzer)
if err != nil {
return nil, source.Analyzer{}, false
}
for _, err := range analysisErrors {
if err.Message != diag.Message {
continue
}
if protocol.CompareRange(err.Range, diag.Range) != 0 {
continue
}
if string(err.Source) != analyzer.Analyzer.Name {
continue
}
// The error matches.
return err, *analyzer, true
}
return nil, source.Analyzer{}, false
}
// diagnosticToAnalyzer return the analyzer associated with a given diagnostic.
// It assumes that the diagnostic's source will be the name of the analyzer.
// If this changes, this approach will need to be reworked.
func diagnosticToAnalyzer(snapshot source.Snapshot, src, msg string) (analyzer *source.Analyzer) {
// Make sure that the analyzer we found is enabled.
defer func() {
if analyzer != nil && !analyzer.IsEnabled(snapshot.View()) {
analyzer = nil
}
}()
if a, ok := snapshot.View().Options().DefaultAnalyzers[src]; ok {
return &a
}
if a, ok := snapshot.View().Options().StaticcheckAnalyzers[src]; ok {
return &a
}
if a, ok := snapshot.View().Options().ConvenienceAnalyzers[src]; ok {
return &a
}
// Hack: We publish diagnostics with the source "compiler" for type errors,
// but these analyzers have different names. Try both possibilities.
if a, ok := snapshot.View().Options().TypeErrorAnalyzers[src]; ok {
return &a
}
if src != "compiler" {
return nil
}
for _, a := range snapshot.View().Options().TypeErrorAnalyzers {
if a.FixesError(msg) {
return &a
}
}
return nil
}
func convenienceFixes(ctx context.Context, snapshot source.Snapshot, pkg source.Package, uri span.URI, rng protocol.Range) ([]protocol.CodeAction, error) {
var analyzers []*analysis.Analyzer
for _, a := range snapshot.View().Options().ConvenienceAnalyzers {
if !a.IsEnabled(snapshot.View()) {
continue
}
if a.Fix == "" {
event.Error(ctx, "convenienceFixes", fmt.Errorf("no suggested fixes for convenience analyzer %s", a.Analyzer.Name))
continue
}
analyzers = append(analyzers, a.Analyzer)
}
diagnostics, err := snapshot.Analyze(ctx, pkg.ID(), analyzers...)
if err != nil {
return nil, err
}
var codeActions []protocol.CodeAction
for _, d := range diagnostics {
// For now, only show diagnostics for matching lines. Maybe we should
// alter this behavior in the future, depending on the user experience.
if d.URI != uri {
continue
}
if !protocol.Intersect(d.Range, rng) {
continue
}
action, err := diagnosticToCommandCodeAction(ctx, snapshot, d, nil, protocol.RefactorRewrite)
if err != nil {
return nil, err
}
codeActions = append(codeActions, *action)
}
return codeActions, nil
}
func diagnosticToCommandCodeAction(ctx context.Context, snapshot source.Snapshot, sd *source.Diagnostic, pd *protocol.Diagnostic, kind protocol.CodeActionKind) (*protocol.CodeAction, error) {
// The fix depends on the category of the analyzer. The diagnostic may be
// nil, so use the error's category.
analyzer := diagnosticToAnalyzer(snapshot, string(sd.Source), sd.Message)
if analyzer == nil {
return nil, fmt.Errorf("no convenience analyzer for source %s", sd.Source)
}
if analyzer.Fix == "" {
return nil, fmt.Errorf("no fix for convenience analyzer %s", analyzer.Analyzer.Name)
}
cmd, err := command.NewApplyFixCommand(sd.Message, command.ApplyFixArgs{
URI: protocol.URIFromSpanURI(sd.URI),
Range: sd.Range,
Fix: analyzer.Fix,
})
if err != nil {
return nil, err
}
var diagnostics []protocol.Diagnostic
if pd != nil {
diagnostics = append(diagnostics, *pd)
}
return &protocol.CodeAction{
Title: sd.Message,
Kind: kind,
Diagnostics: diagnostics,
Command: &cmd,
}, nil
}
func extractionFixes(ctx context.Context, snapshot source.Snapshot, pkg source.Package, uri span.URI, rng protocol.Range) ([]protocol.CodeAction, error) {
if rng.Start == rng.End {
return nil, nil
}
fh, err := snapshot.GetFile(ctx, uri)
if err != nil {
return nil, err
}
_, pgf, err := source.GetParsedFile(ctx, snapshot, fh, source.NarrowestPackage)
if err != nil {
return nil, errors.Errorf("getting file for Identifier: %w", err)
}
srng, err := pgf.Mapper.RangeToSpanRange(rng)
if err != nil {
return nil, err
}
puri := protocol.URIFromSpanURI(uri)
var commands []protocol.Command
if _, ok, _ := source.CanExtractFunction(snapshot.FileSet(), srng, pgf.Src, pgf.File); ok {
cmd, err := command.NewApplyFixCommand("Extract to function", command.ApplyFixArgs{
URI: puri,
Fix: source.ExtractFunction,
Range: rng,
})
if err != nil {
return nil, err
}
commands = append(commands, cmd)
}
if _, _, ok, _ := source.CanExtractVariable(srng, pgf.File); ok {
cmd, err := command.NewApplyFixCommand("Extract variable", command.ApplyFixArgs{
URI: puri,
Fix: source.ExtractVariable,
Range: rng,
})
if err != nil {
return nil, err
}
commands = append(commands, cmd)
}
var actions []protocol.CodeAction
for _, cmd := range commands {
actions = append(actions, protocol.CodeAction{
Title: cmd.Title,
Kind: protocol.RefactorExtract,
Command: &cmd,
})
}
return actions, nil
}
func documentChanges(fh source.VersionedFileHandle, edits []protocol.TextEdit) []protocol.TextDocumentEdit {
return []protocol.TextDocumentEdit{
{
TextDocument: protocol.OptionalVersionedTextDocumentIdentifier{
Version: fh.Version(),
TextDocumentIdentifier: protocol.TextDocumentIdentifier{
URI: protocol.URIFromSpanURI(fh.URI()),
},
},
Edits: edits,
},
}
}
func moduleQuickFixes(ctx context.Context, snapshot source.Snapshot, fh source.VersionedFileHandle, pdiags []protocol.Diagnostic) ([]protocol.CodeAction, error) {
var modFH source.VersionedFileHandle
switch fh.Kind() {
case source.Mod:
modFH = fh
case source.Go:
modURI := snapshot.GoModForFile(fh.URI())
if modURI == "" {
return nil, nil
}
var err error
modFH, err = snapshot.GetVersionedFile(ctx, modURI)
if err != nil {
return nil, err
}
}
diags, err := mod.DiagnosticsForMod(ctx, snapshot, modFH)
if err != nil {
return nil, err
}
return quickFixesForDiagnostics(ctx, snapshot, pdiags, diags)
}
func quickFixesForDiagnostics(ctx context.Context, snapshot source.Snapshot, pdiags []protocol.Diagnostic, sdiags []*source.Diagnostic) ([]protocol.CodeAction, error) {
var quickFixes []protocol.CodeAction
for _, e := range sdiags {
var diag *protocol.Diagnostic
for _, d := range pdiags {
if sameDiagnostic(d, e) {
diag = &d
break
}
}
if diag == nil {
continue
}
for _, fix := range e.SuggestedFixes {
action := protocol.CodeAction{
Title: fix.Title,
Kind: protocol.QuickFix,
Diagnostics: []protocol.Diagnostic{*diag},
Edit: protocol.WorkspaceEdit{},
Command: fix.Command,
}
for uri, edits := range fix.Edits {
fh, err := snapshot.GetVersionedFile(ctx, uri)
if err != nil {
return nil, err
}
action.Edit.DocumentChanges = append(action.Edit.DocumentChanges, protocol.TextDocumentEdit{
TextDocument: protocol.OptionalVersionedTextDocumentIdentifier{
Version: fh.Version(),
TextDocumentIdentifier: protocol.TextDocumentIdentifier{
URI: protocol.URIFromSpanURI(uri),
},
},
Edits: edits,
})
}
quickFixes = append(quickFixes, action)
}
}
return quickFixes, nil
}
func sameDiagnostic(pd protocol.Diagnostic, sd *source.Diagnostic) bool {
return pd.Message == sd.Message && protocol.CompareRange(pd.Range, sd.Range) == 0 && pd.Source == string(sd.Source)
}
func goTest(ctx context.Context, snapshot source.Snapshot, uri span.URI, rng protocol.Range) ([]protocol.CodeAction, error) {
fh, err := snapshot.GetFile(ctx, uri)
if err != nil {
return nil, err
}
fns, err := source.TestsAndBenchmarks(ctx, snapshot, fh)
if err != nil {
return nil, err
}
var tests, benchmarks []string
for _, fn := range fns.Tests {
if !protocol.Intersect(fn.Rng, rng) {
continue
}
tests = append(tests, fn.Name)
}
for _, fn := range fns.Benchmarks {
if !protocol.Intersect(fn.Rng, rng) {
continue
}
benchmarks = append(benchmarks, fn.Name)
}
if len(tests) == 0 && len(benchmarks) == 0 {
return nil, nil
}
cmd, err := command.NewTestCommand("Run tests and benchmarks", protocol.URIFromSpanURI(uri), tests, benchmarks)
if err != nil {
return nil, err
}
return []protocol.CodeAction{{
Title: cmd.Title,
Kind: protocol.GoTest,
Command: &cmd,
}}, nil
}