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go/internal/lsp/code_action.go
pjw 5091d647ee internal/lsp: reorganize the generated Go code for the lsp protocol 
Code generation has been unified, so that tsprotocol.go and tsserver.go
are produced by the same program. tsprotocol.go is about 900 lines shorter,
partly from removing boilerplate comments that golint no longer requires.
(And partly by generating fewer unneeded types.)

The choice made for a union type is commented with the set of types. There
is no Go equivalent for union types, but making themn all interface{}
would replace type checking at unmarshalling with checking runtime
conversions.

Intersection types (A&B) are sometimes embedded (struct{A;B;}, and
sometimes expanded, as they have to be if A and B have fields with the
same names.

There are fewer embedded structs, which had been verbose and confusing to
initialize. They have been replaced by types whose names end in Gn.

Essentially all the generated *structs have been removed. This makes
no difference in what the client sends, and the server may send a {}
where it previously might have sent nothing. The benefit is that some
nil tests can be removed. Thus 'omitempty' in json tags is just
documentation that the element is optional in the protocol.

The files that generate this code will be submitted later, but soon.

Change-Id: I52b997d9c58de3d733fc8c6ce061e47ce2bdb100
Reviewed-on: https://go-review.googlesource.com/c/tools/+/207598
Run-TryBot: Peter Weinberger <pjw@google.com>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Ian Cottrell <iancottrell@google.com>
2019-11-18 19:51:19 +00:00

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// 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/internal/imports"
"golang.org/x/tools/internal/lsp/protocol"
"golang.org/x/tools/internal/lsp/source"
"golang.org/x/tools/internal/lsp/telemetry"
"golang.org/x/tools/internal/span"
"golang.org/x/tools/internal/telemetry/log"
errors "golang.org/x/xerrors"
)
func (s *Server) codeAction(ctx context.Context, params *protocol.CodeActionParams) ([]protocol.CodeAction, error) {
uri := span.NewURI(params.TextDocument.URI)
view, err := s.session.ViewOf(uri)
if err != nil {
return nil, err
}
f, err := view.GetFile(ctx, uri)
if err != nil {
return nil, err
}
snapshot := view.Snapshot()
fh := snapshot.Handle(ctx, f)
// Determine the supported actions for this file kind.
supportedCodeActions, ok := view.Options().SupportedCodeActions[fh.Identity().Kind]
if !ok {
return nil, fmt.Errorf("no supported code actions for %v file kind", fh.Identity().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 possible code actions.
var wanted map[protocol.CodeActionKind]bool
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]
}
}
if len(wanted) == 0 {
return nil, errors.Errorf("no supported code action to execute for %s, wanted %v", uri, params.Context.Only)
}
var codeActions []protocol.CodeAction
switch fh.Identity().Kind {
case source.Mod:
if !wanted[protocol.SourceOrganizeImports] {
return nil, nil
}
codeActions = append(codeActions, protocol.CodeAction{
Title: "Tidy",
Kind: protocol.SourceOrganizeImports,
Command: protocol.Command{
Title: "Tidy",
Command: "tidy",
Arguments: []interface{}{
f.URI(),
},
},
})
case source.Go:
edits, editsPerFix, err := source.AllImportsFixes(ctx, view, f)
if err != nil {
return nil, err
}
if diagnostics := params.Context.Diagnostics; wanted[protocol.QuickFix] && len(diagnostics) > 0 {
// First, add the quick fixes reported by go/analysis.
qf, err := quickFixes(ctx, snapshot, f, diagnostics)
if err != nil {
log.Error(ctx, "quick fixes failed", err, telemetry.File.Of(uri))
}
codeActions = append(codeActions, qf...)
// If we also have diagnostics for missing imports, we can associate them with quick fixes.
if findImportErrors(diagnostics) {
// Separate this into a set of codeActions per diagnostic, where
// each action is the addition, removal, or renaming of one import.
for _, importFix := range editsPerFix {
// Get the diagnostics this fix would affect.
if fixDiagnostics := importDiagnostics(importFix.Fix, diagnostics); len(fixDiagnostics) > 0 {
codeActions = append(codeActions, protocol.CodeAction{
Title: importFixTitle(importFix.Fix),
Kind: protocol.QuickFix,
Edit: protocol.WorkspaceEdit{
DocumentChanges: documentChanges(fh, importFix.Edits),
},
Diagnostics: fixDiagnostics,
})
}
}
}
}
if wanted[protocol.SourceOrganizeImports] && len(edits) > 0 {
codeActions = append(codeActions, protocol.CodeAction{
Title: "Organize Imports",
Kind: protocol.SourceOrganizeImports,
Edit: protocol.WorkspaceEdit{
DocumentChanges: documentChanges(fh, edits),
},
})
}
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
}
type protocolImportFix struct {
fix *imports.ImportFix
edits []protocol.TextEdit
}
// findImports determines if a given diagnostic represents an error that could
// be fixed by organizing imports.
// TODO(rstambler): We need a better way to check this than string matching.
func findImportErrors(diagnostics []protocol.Diagnostic) bool {
for _, diagnostic := range diagnostics {
// "undeclared name: X" may be an unresolved import.
if strings.HasPrefix(diagnostic.Message, "undeclared name: ") {
return true
}
// "could not import: X" may be an invalid import.
if strings.HasPrefix(diagnostic.Message, "could not import: ") {
return true
}
// "X imported but not used" is an unused import.
// "X imported but not used as Y" is an unused import.
if strings.Contains(diagnostic.Message, " imported but not used") {
return true
}
}
return false
}
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 quickFixes(ctx context.Context, s source.Snapshot, f source.File, diagnostics []protocol.Diagnostic) ([]protocol.CodeAction, error) {
var codeActions []protocol.CodeAction
cphs, err := s.CheckPackageHandles(ctx, f)
if err != nil {
return nil, err
}
// We get the package that source.Diagnostics would've used. This is hack.
// TODO(golang/go#32443): The correct solution will be to cache diagnostics per-file per-snapshot.
cph, err := source.WidestCheckPackageHandle(cphs)
if err != nil {
return nil, err
}
for _, diag := range diagnostics {
srcErr, err := s.FindAnalysisError(ctx, cph.ID(), diag)
if err != nil {
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 {
f, err := s.View().GetFile(ctx, uri)
if err != nil {
log.Error(ctx, "no file", err, telemetry.URI.Of(uri))
continue
}
fh := s.Handle(ctx, f)
action.Edit.DocumentChanges = append(action.Edit.DocumentChanges, documentChanges(fh, edits)...)
}
codeActions = append(codeActions, action)
}
}
return codeActions, nil
}
func documentChanges(fh source.FileHandle, edits []protocol.TextEdit) []protocol.TextDocumentEdit {
return []protocol.TextDocumentEdit{
{
TextDocument: protocol.VersionedTextDocumentIdentifier{
Version: fh.Identity().Version,
TextDocumentIdentifier: protocol.TextDocumentIdentifier{
URI: protocol.NewURI(fh.Identity().URI),
},
},
Edits: edits,
},
}
}
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