gopls/internal/lsp/regtest/wrappers.go - tools - Git at Google

 // Copyright 2020 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 regtest

 import (
 	"encoding/json"
 	"path"

 	"golang.org/x/tools/gopls/internal/lsp/command"
 	"golang.org/x/tools/gopls/internal/lsp/fake"
 	"golang.org/x/tools/gopls/internal/lsp/protocol"
 )

 // RemoveWorkspaceFile deletes a file on disk but does nothing in the
 // editor. It calls t.Fatal on any error.
 func (e *Env) RemoveWorkspaceFile(name string) {
 	e.T.Helper()
 	if err := e.Sandbox.Workdir.RemoveFile(e.Ctx, name); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // ReadWorkspaceFile reads a file from the workspace, calling t.Fatal on any
 // error.
 func (e *Env) ReadWorkspaceFile(name string) string {
 	e.T.Helper()
 	content, err := e.Sandbox.Workdir.ReadFile(name)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return string(content)
 }

 // WriteWorkspaceFile writes a file to disk but does nothing in the editor.
 // It calls t.Fatal on any error.
 func (e *Env) WriteWorkspaceFile(name, content string) {
 	e.T.Helper()
 	if err := e.Sandbox.Workdir.WriteFile(e.Ctx, name, content); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // WriteWorkspaceFiles deletes a file on disk but does nothing in the
 // editor. It calls t.Fatal on any error.
 func (e *Env) WriteWorkspaceFiles(files map[string]string) {
 	e.T.Helper()
 	if err := e.Sandbox.Workdir.WriteFiles(e.Ctx, files); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // ListFiles lists relative paths to files in the given directory.
 // It calls t.Fatal on any error.
 func (e *Env) ListFiles(dir string) []string {
 	e.T.Helper()
 	paths, err := e.Sandbox.Workdir.ListFiles(dir)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return paths
 }

 // OpenFile opens a file in the editor, calling t.Fatal on any error.
 func (e *Env) OpenFile(name string) {
 	e.T.Helper()
 	if err := e.Editor.OpenFile(e.Ctx, name); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // CreateBuffer creates a buffer in the editor, calling t.Fatal on any error.
 func (e *Env) CreateBuffer(name string, content string) {
 	e.T.Helper()
 	if err := e.Editor.CreateBuffer(e.Ctx, name, content); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // BufferText returns the current buffer contents for the file with the given
 // relative path, calling t.Fatal if the file is not open in a buffer.
 func (e *Env) BufferText(name string) string {
 	e.T.Helper()
 	text, ok := e.Editor.BufferText(name)
 	if !ok {
 		e.T.Fatalf("buffer %q is not open", name)
 	}
 	return text
 }

 // CloseBuffer closes an editor buffer without saving, calling t.Fatal on any
 // error.
 func (e *Env) CloseBuffer(name string) {
 	e.T.Helper()
 	if err := e.Editor.CloseBuffer(e.Ctx, name); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // EditBuffer applies edits to an editor buffer, calling t.Fatal on any error.
 func (e *Env) EditBuffer(name string, edits ...protocol.TextEdit) {
 	e.T.Helper()
 	if err := e.Editor.EditBuffer(e.Ctx, name, edits); err != nil {
 		e.T.Fatal(err)
 	}
 }

 func (e *Env) SetBufferContent(name string, content string) {
 	e.T.Helper()
 	if err := e.Editor.SetBufferContent(e.Ctx, name, content); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // RegexpRange returns the range of the first match for re in the buffer
 // specified by name, calling t.Fatal on any error. It first searches for the
 // position in open buffers, then in workspace files.
 func (e *Env) RegexpRange(name, re string) protocol.Range {
 	e.T.Helper()
 	rng, err := e.Editor.RegexpRange(name, re)
 	if err == fake.ErrUnknownBuffer {
 		rng, err = e.Sandbox.Workdir.RegexpRange(name, re)
 	}
 	if err != nil {
 		e.T.Fatalf("RegexpRange: %v, %v", name, err)
 	}
 	return rng
 }

 // RegexpSearch returns the starting position of the first match for re in the
 // buffer specified by name, calling t.Fatal on any error. It first searches
 // for the position in open buffers, then in workspace files.
 //
 // TODO(rfindley): RegexpSearch should return a protocol.Location (but that is
 // a large change).
 func (e *Env) RegexpSearch(name, re string) protocol.Position {
 	e.T.Helper()
 	pos, err := e.Editor.RegexpSearch(name, re)
 	if err == fake.ErrUnknownBuffer {
 		pos, err = e.Sandbox.Workdir.RegexpSearch(name, re)
 	}
 	if err != nil {
 		e.T.Fatalf("RegexpSearch: %v, %v for %q", name, err, re)
 	}
 	return pos
 }

 // RegexpReplace replaces the first group in the first match of regexpStr with
 // the replace text, calling t.Fatal on any error.
 func (e *Env) RegexpReplace(name, regexpStr, replace string) {
 	e.T.Helper()
 	if err := e.Editor.RegexpReplace(e.Ctx, name, regexpStr, replace); err != nil {
 		e.T.Fatalf("RegexpReplace: %v", err)
 	}
 }

 // SaveBuffer saves an editor buffer, calling t.Fatal on any error.
 func (e *Env) SaveBuffer(name string) {
 	e.T.Helper()
 	if err := e.Editor.SaveBuffer(e.Ctx, name); err != nil {
 		e.T.Fatal(err)
 	}
 }

 func (e *Env) SaveBufferWithoutActions(name string) {
 	e.T.Helper()
 	if err := e.Editor.SaveBufferWithoutActions(e.Ctx, name); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // GoToDefinition goes to definition in the editor, calling t.Fatal on any
 // error. It returns the path and position of the resulting jump.
 func (e *Env) GoToDefinition(name string, pos protocol.Position) (string, protocol.Position) {
 	e.T.Helper()
 	n, p, err := e.Editor.GoToDefinition(e.Ctx, name, pos)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return n, p
 }

 // FormatBuffer formats the editor buffer, calling t.Fatal on any error.
 func (e *Env) FormatBuffer(name string) {
 	e.T.Helper()
 	if err := e.Editor.FormatBuffer(e.Ctx, name); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // OrganizeImports processes the source.organizeImports codeAction, calling
 // t.Fatal on any error.
 func (e *Env) OrganizeImports(name string) {
 	e.T.Helper()
 	if err := e.Editor.OrganizeImports(e.Ctx, name); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // ApplyQuickFixes processes the quickfix codeAction, calling t.Fatal on any error.
 func (e *Env) ApplyQuickFixes(path string, diagnostics []protocol.Diagnostic) {
 	e.T.Helper()
 	if err := e.Editor.ApplyQuickFixes(e.Ctx, path, nil, diagnostics); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // ApplyCodeAction applies the given code action.
 func (e *Env) ApplyCodeAction(action protocol.CodeAction) {
 	e.T.Helper()
 	if err := e.Editor.ApplyCodeAction(e.Ctx, action); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // GetQuickFixes returns the available quick fix code actions.
 func (e *Env) GetQuickFixes(path string, diagnostics []protocol.Diagnostic) []protocol.CodeAction {
 	e.T.Helper()
 	actions, err := e.Editor.GetQuickFixes(e.Ctx, path, nil, diagnostics)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return actions
 }

 // Hover in the editor, calling t.Fatal on any error.
 func (e *Env) Hover(name string, pos protocol.Position) (*protocol.MarkupContent, protocol.Position) {
 	e.T.Helper()
 	c, p, err := e.Editor.Hover(e.Ctx, name, pos)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return c, p
 }

 func (e *Env) DocumentLink(name string) []protocol.DocumentLink {
 	e.T.Helper()
 	links, err := e.Editor.DocumentLink(e.Ctx, name)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return links
 }

 func (e *Env) DocumentHighlight(name string, pos protocol.Position) []protocol.DocumentHighlight {
 	e.T.Helper()
 	highlights, err := e.Editor.DocumentHighlight(e.Ctx, name, pos)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return highlights
 }

 // RunGenerate runs go:generate on the given dir, calling t.Fatal on any error.
 // It waits for the generate command to complete and checks for file changes
 // before returning.
 func (e *Env) RunGenerate(dir string) {
 	e.T.Helper()
 	if err := e.Editor.RunGenerate(e.Ctx, dir); err != nil {
 		e.T.Fatal(err)
 	}
 	e.Await(NoOutstandingWork())
 	// Ideally the fake.Workspace would handle all synthetic file watching, but
 	// we help it out here as we need to wait for the generate command to
 	// complete before checking the filesystem.
 	e.CheckForFileChanges()
 }

 // RunGoCommand runs the given command in the sandbox's default working
 // directory.
 func (e *Env) RunGoCommand(verb string, args ...string) {
 	e.T.Helper()
 	if err := e.Sandbox.RunGoCommand(e.Ctx, "", verb, args, true); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // RunGoCommandInDir is like RunGoCommand, but executes in the given
 // relative directory of the sandbox.
 func (e *Env) RunGoCommandInDir(dir, verb string, args ...string) {
 	e.T.Helper()
 	if err := e.Sandbox.RunGoCommand(e.Ctx, dir, verb, args, true); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // GoVersion checks the version of the go command.
 // It returns the X in Go 1.X.
 func (e *Env) GoVersion() int {
 	e.T.Helper()
 	v, err := e.Sandbox.GoVersion(e.Ctx)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return v
 }

 // DumpGoSum prints the correct go.sum contents for dir in txtar format,
 // for use in creating regtests.
 func (e *Env) DumpGoSum(dir string) {
 	e.T.Helper()

 	if err := e.Sandbox.RunGoCommand(e.Ctx, dir, "list", []string{"-mod=mod", "..."}, true); err != nil {
 		e.T.Fatal(err)
 	}
 	sumFile := path.Join(dir, "/go.sum")
 	e.T.Log("\n\n-- " + sumFile + " --\n" + e.ReadWorkspaceFile(sumFile))
 	e.T.Fatal("see contents above")
 }

 // CheckForFileChanges triggers a manual poll of the workspace for any file
 // changes since creation, or since last polling. It is a workaround for the
 // lack of true file watching support in the fake workspace.
 func (e *Env) CheckForFileChanges() {
 	e.T.Helper()
 	if err := e.Sandbox.Workdir.CheckForFileChanges(e.Ctx); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // CodeLens calls textDocument/codeLens for the given path, calling t.Fatal on
 // any error.
 func (e *Env) CodeLens(path string) []protocol.CodeLens {
 	e.T.Helper()
 	lens, err := e.Editor.CodeLens(e.Ctx, path)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return lens
 }

 // ExecuteCodeLensCommand executes the command for the code lens matching the
 // given command name.
 func (e *Env) ExecuteCodeLensCommand(path string, cmd command.Command, result interface{}) {
 	e.T.Helper()
 	lenses := e.CodeLens(path)
 	var lens protocol.CodeLens
 	var found bool
 	for _, l := range lenses {
 		if l.Command.Command == cmd.ID() {
 			lens = l
 			found = true
 		}
 	}
 	if !found {
 		e.T.Fatalf("found no command with the ID %s", cmd.ID())
 	}
 	e.ExecuteCommand(&protocol.ExecuteCommandParams{
 		Command:   lens.Command.Command,
 		Arguments: lens.Command.Arguments,
 	}, result)
 }

 func (e *Env) ExecuteCommand(params *protocol.ExecuteCommandParams, result interface{}) {
 	e.T.Helper()
 	response, err := e.Editor.ExecuteCommand(e.Ctx, params)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	if result == nil {
 		return
 	}
 	// Hack: The result of an executeCommand request will be unmarshaled into
 	// maps. Re-marshal and unmarshal into the type we expect.
 	//
 	// This could be improved by generating a jsonrpc2 command client from the
 	// command.Interface, but that should only be done if we're consolidating
 	// this part of the tsprotocol generation.
 	data, err := json.Marshal(response)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	if err := json.Unmarshal(data, result); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // InlayHints calls textDocument/inlayHints for the given path, calling t.Fatal on
 // any error.
 func (e *Env) InlayHints(path string) []protocol.InlayHint {
 	e.T.Helper()
 	hints, err := e.Editor.InlayHint(e.Ctx, path)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return hints
 }

 // Symbol calls workspace/symbol
 func (e *Env) Symbol(query string) []protocol.SymbolInformation {
 	e.T.Helper()
 	ans, err := e.Editor.Symbols(e.Ctx, query)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return ans
 }

 // References wraps Editor.References, calling t.Fatal on any error.
 func (e *Env) References(path string, pos protocol.Position) []protocol.Location {
 	e.T.Helper()
 	locations, err := e.Editor.References(e.Ctx, path, pos)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return locations
 }

 // Rename wraps Editor.Rename, calling t.Fatal on any error.
 func (e *Env) Rename(path string, pos protocol.Position, newName string) {
 	e.T.Helper()
 	if err := e.Editor.Rename(e.Ctx, path, pos, newName); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // Implementations wraps Editor.Implementations, calling t.Fatal on any error.
 func (e *Env) Implementations(path string, pos protocol.Position) []protocol.Location {
 	e.T.Helper()
 	locations, err := e.Editor.Implementations(e.Ctx, path, pos)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return locations
 }

 // RenameFile wraps Editor.RenameFile, calling t.Fatal on any error.
 func (e *Env) RenameFile(oldPath, newPath string) {
 	e.T.Helper()
 	if err := e.Editor.RenameFile(e.Ctx, oldPath, newPath); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // Completion executes a completion request on the server.
 func (e *Env) Completion(path string, pos protocol.Position) *protocol.CompletionList {
 	e.T.Helper()
 	completions, err := e.Editor.Completion(e.Ctx, path, pos)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return completions
 }

 // AcceptCompletion accepts a completion for the given item at the given
 // position.
 func (e *Env) AcceptCompletion(path string, pos protocol.Position, item protocol.CompletionItem) {
 	e.T.Helper()
 	if err := e.Editor.AcceptCompletion(e.Ctx, path, pos, item); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // CodeAction calls testDocument/codeAction for the given path, and calls
 // t.Fatal if there are errors.
 func (e *Env) CodeAction(path string, diagnostics []protocol.Diagnostic) []protocol.CodeAction {
 	e.T.Helper()
 	actions, err := e.Editor.CodeAction(e.Ctx, path, nil, diagnostics)
 	if err != nil {
 		e.T.Fatal(err)
 	}
 	return actions
 }

 // ChangeConfiguration updates the editor config, calling t.Fatal on any error.
 func (e *Env) ChangeConfiguration(newConfig fake.EditorConfig) {
 	e.T.Helper()
 	if err := e.Editor.ChangeConfiguration(e.Ctx, newConfig); err != nil {
 		e.T.Fatal(err)
 	}
 }

 // ChangeWorkspaceFolders updates the editor workspace folders, calling t.Fatal
 // on any error.
 func (e *Env) ChangeWorkspaceFolders(newFolders ...string) {
 	e.T.Helper()
 	if err := e.Editor.ChangeWorkspaceFolders(e.Ctx, newFolders); err != nil {
 		e.T.Fatal(err)
 	}
 }
	// Copyright 2020 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 regtest

	import (
	"encoding/json"
	"path"

	"golang.org/x/tools/gopls/internal/lsp/command"
	"golang.org/x/tools/gopls/internal/lsp/fake"
	"golang.org/x/tools/gopls/internal/lsp/protocol"
	)

	// RemoveWorkspaceFile deletes a file on disk but does nothing in the
	// editor. It calls t.Fatal on any error.
	func (e *Env) RemoveWorkspaceFile(name string) {
	e.T.Helper()
	if err := e.Sandbox.Workdir.RemoveFile(e.Ctx, name); err != nil {
	e.T.Fatal(err)
	}
	}

	// ReadWorkspaceFile reads a file from the workspace, calling t.Fatal on any
	// error.
	func (e *Env) ReadWorkspaceFile(name string) string {
	e.T.Helper()
	content, err := e.Sandbox.Workdir.ReadFile(name)
	if err != nil {
	e.T.Fatal(err)
	}
	return string(content)
	}

	// WriteWorkspaceFile writes a file to disk but does nothing in the editor.
	// It calls t.Fatal on any error.
	func (e *Env) WriteWorkspaceFile(name, content string) {
	e.T.Helper()
	if err := e.Sandbox.Workdir.WriteFile(e.Ctx, name, content); err != nil {
	e.T.Fatal(err)
	}
	}

	// WriteWorkspaceFiles deletes a file on disk but does nothing in the
	// editor. It calls t.Fatal on any error.
	func (e *Env) WriteWorkspaceFiles(files map[string]string) {
	e.T.Helper()
	if err := e.Sandbox.Workdir.WriteFiles(e.Ctx, files); err != nil {
	e.T.Fatal(err)
	}
	}

	// ListFiles lists relative paths to files in the given directory.
	// It calls t.Fatal on any error.
	func (e *Env) ListFiles(dir string) []string {
	e.T.Helper()
	paths, err := e.Sandbox.Workdir.ListFiles(dir)
	if err != nil {
	e.T.Fatal(err)
	}
	return paths
	}

	// OpenFile opens a file in the editor, calling t.Fatal on any error.
	func (e *Env) OpenFile(name string) {
	e.T.Helper()
	if err := e.Editor.OpenFile(e.Ctx, name); err != nil {
	e.T.Fatal(err)
	}
	}

	// CreateBuffer creates a buffer in the editor, calling t.Fatal on any error.
	func (e *Env) CreateBuffer(name string, content string) {
	e.T.Helper()
	if err := e.Editor.CreateBuffer(e.Ctx, name, content); err != nil {
	e.T.Fatal(err)
	}
	}

	// BufferText returns the current buffer contents for the file with the given
	// relative path, calling t.Fatal if the file is not open in a buffer.
	func (e *Env) BufferText(name string) string {
	e.T.Helper()
	text, ok := e.Editor.BufferText(name)
	if !ok {
	e.T.Fatalf("buffer %q is not open", name)
	}
	return text
	}

	// CloseBuffer closes an editor buffer without saving, calling t.Fatal on any
	// error.
	func (e *Env) CloseBuffer(name string) {
	e.T.Helper()
	if err := e.Editor.CloseBuffer(e.Ctx, name); err != nil {
	e.T.Fatal(err)
	}
	}

	// EditBuffer applies edits to an editor buffer, calling t.Fatal on any error.
	func (e *Env) EditBuffer(name string, edits ...protocol.TextEdit) {
	e.T.Helper()
	if err := e.Editor.EditBuffer(e.Ctx, name, edits); err != nil {
	e.T.Fatal(err)
	}
	}

	func (e *Env) SetBufferContent(name string, content string) {
	e.T.Helper()
	if err := e.Editor.SetBufferContent(e.Ctx, name, content); err != nil {
	e.T.Fatal(err)
	}
	}

	// RegexpRange returns the range of the first match for re in the buffer
	// specified by name, calling t.Fatal on any error. It first searches for the
	// position in open buffers, then in workspace files.
	func (e *Env) RegexpRange(name, re string) protocol.Range {
	e.T.Helper()
	rng, err := e.Editor.RegexpRange(name, re)
	if err == fake.ErrUnknownBuffer {
	rng, err = e.Sandbox.Workdir.RegexpRange(name, re)
	}
	if err != nil {
	e.T.Fatalf("RegexpRange: %v, %v", name, err)
	}
	return rng
	}

	// RegexpSearch returns the starting position of the first match for re in the
	// buffer specified by name, calling t.Fatal on any error. It first searches
	// for the position in open buffers, then in workspace files.
	//
	// TODO(rfindley): RegexpSearch should return a protocol.Location (but that is
	// a large change).
	func (e *Env) RegexpSearch(name, re string) protocol.Position {
	e.T.Helper()
	pos, err := e.Editor.RegexpSearch(name, re)
	if err == fake.ErrUnknownBuffer {
	pos, err = e.Sandbox.Workdir.RegexpSearch(name, re)
	}
	if err != nil {
	e.T.Fatalf("RegexpSearch: %v, %v for %q", name, err, re)
	}
	return pos
	}

	// RegexpReplace replaces the first group in the first match of regexpStr with
	// the replace text, calling t.Fatal on any error.
	func (e *Env) RegexpReplace(name, regexpStr, replace string) {
	e.T.Helper()
	if err := e.Editor.RegexpReplace(e.Ctx, name, regexpStr, replace); err != nil {
	e.T.Fatalf("RegexpReplace: %v", err)
	}
	}

	// SaveBuffer saves an editor buffer, calling t.Fatal on any error.
	func (e *Env) SaveBuffer(name string) {
	e.T.Helper()
	if err := e.Editor.SaveBuffer(e.Ctx, name); err != nil {
	e.T.Fatal(err)
	}
	}

	func (e *Env) SaveBufferWithoutActions(name string) {
	e.T.Helper()
	if err := e.Editor.SaveBufferWithoutActions(e.Ctx, name); err != nil {
	e.T.Fatal(err)
	}
	}

	// GoToDefinition goes to definition in the editor, calling t.Fatal on any
	// error. It returns the path and position of the resulting jump.
	func (e *Env) GoToDefinition(name string, pos protocol.Position) (string, protocol.Position) {
	e.T.Helper()
	n, p, err := e.Editor.GoToDefinition(e.Ctx, name, pos)
	if err != nil {
	e.T.Fatal(err)
	}
	return n, p
	}

	// FormatBuffer formats the editor buffer, calling t.Fatal on any error.
	func (e *Env) FormatBuffer(name string) {
	e.T.Helper()
	if err := e.Editor.FormatBuffer(e.Ctx, name); err != nil {
	e.T.Fatal(err)
	}
	}

	// OrganizeImports processes the source.organizeImports codeAction, calling
	// t.Fatal on any error.
	func (e *Env) OrganizeImports(name string) {
	e.T.Helper()
	if err := e.Editor.OrganizeImports(e.Ctx, name); err != nil {
	e.T.Fatal(err)
	}
	}

	// ApplyQuickFixes processes the quickfix codeAction, calling t.Fatal on any error.
	func (e *Env) ApplyQuickFixes(path string, diagnostics []protocol.Diagnostic) {
	e.T.Helper()
	if err := e.Editor.ApplyQuickFixes(e.Ctx, path, nil, diagnostics); err != nil {
	e.T.Fatal(err)
	}
	}

	// ApplyCodeAction applies the given code action.
	func (e *Env) ApplyCodeAction(action protocol.CodeAction) {
	e.T.Helper()
	if err := e.Editor.ApplyCodeAction(e.Ctx, action); err != nil {
	e.T.Fatal(err)
	}
	}

	// GetQuickFixes returns the available quick fix code actions.
	func (e *Env) GetQuickFixes(path string, diagnostics []protocol.Diagnostic) []protocol.CodeAction {
	e.T.Helper()
	actions, err := e.Editor.GetQuickFixes(e.Ctx, path, nil, diagnostics)
	if err != nil {
	e.T.Fatal(err)
	}
	return actions
	}

	// Hover in the editor, calling t.Fatal on any error.
	func (e Env) Hover(name string, pos protocol.Position) (protocol.MarkupContent, protocol.Position) {
	e.T.Helper()
	c, p, err := e.Editor.Hover(e.Ctx, name, pos)
	if err != nil {
	e.T.Fatal(err)
	}
	return c, p
	}

	func (e *Env) DocumentLink(name string) []protocol.DocumentLink {
	e.T.Helper()
	links, err := e.Editor.DocumentLink(e.Ctx, name)
	if err != nil {
	e.T.Fatal(err)
	}
	return links
	}

	func (e *Env) DocumentHighlight(name string, pos protocol.Position) []protocol.DocumentHighlight {
	e.T.Helper()
	highlights, err := e.Editor.DocumentHighlight(e.Ctx, name, pos)
	if err != nil {
	e.T.Fatal(err)
	}
	return highlights
	}

	// RunGenerate runs go:generate on the given dir, calling t.Fatal on any error.
	// It waits for the generate command to complete and checks for file changes
	// before returning.
	func (e *Env) RunGenerate(dir string) {
	e.T.Helper()
	if err := e.Editor.RunGenerate(e.Ctx, dir); err != nil {
	e.T.Fatal(err)
	}
	e.Await(NoOutstandingWork())
	// Ideally the fake.Workspace would handle all synthetic file watching, but
	// we help it out here as we need to wait for the generate command to
	// complete before checking the filesystem.
	e.CheckForFileChanges()
	}

	// RunGoCommand runs the given command in the sandbox's default working
	// directory.
	func (e *Env) RunGoCommand(verb string, args ...string) {
	e.T.Helper()
	if err := e.Sandbox.RunGoCommand(e.Ctx, "", verb, args, true); err != nil {
	e.T.Fatal(err)
	}
	}

	// RunGoCommandInDir is like RunGoCommand, but executes in the given
	// relative directory of the sandbox.
	func (e *Env) RunGoCommandInDir(dir, verb string, args ...string) {
	e.T.Helper()
	if err := e.Sandbox.RunGoCommand(e.Ctx, dir, verb, args, true); err != nil {
	e.T.Fatal(err)
	}
	}

	// GoVersion checks the version of the go command.
	// It returns the X in Go 1.X.
	func (e *Env) GoVersion() int {
	e.T.Helper()
	v, err := e.Sandbox.GoVersion(e.Ctx)
	if err != nil {
	e.T.Fatal(err)
	}
	return v
	}

	// DumpGoSum prints the correct go.sum contents for dir in txtar format,
	// for use in creating regtests.
	func (e *Env) DumpGoSum(dir string) {
	e.T.Helper()

	if err := e.Sandbox.RunGoCommand(e.Ctx, dir, "list", []string{"-mod=mod", "..."}, true); err != nil {
	e.T.Fatal(err)
	}
	sumFile := path.Join(dir, "/go.sum")
	e.T.Log("\n\n-- " + sumFile + " --\n" + e.ReadWorkspaceFile(sumFile))
	e.T.Fatal("see contents above")
	}

	// CheckForFileChanges triggers a manual poll of the workspace for any file
	// changes since creation, or since last polling. It is a workaround for the
	// lack of true file watching support in the fake workspace.
	func (e *Env) CheckForFileChanges() {
	e.T.Helper()
	if err := e.Sandbox.Workdir.CheckForFileChanges(e.Ctx); err != nil {
	e.T.Fatal(err)
	}
	}

	// CodeLens calls textDocument/codeLens for the given path, calling t.Fatal on
	// any error.
	func (e *Env) CodeLens(path string) []protocol.CodeLens {
	e.T.Helper()
	lens, err := e.Editor.CodeLens(e.Ctx, path)
	if err != nil {
	e.T.Fatal(err)
	}
	return lens
	}

	// ExecuteCodeLensCommand executes the command for the code lens matching the
	// given command name.
	func (e *Env) ExecuteCodeLensCommand(path string, cmd command.Command, result interface{}) {
	e.T.Helper()
	lenses := e.CodeLens(path)
	var lens protocol.CodeLens
	var found bool
	for _, l := range lenses {
	if l.Command.Command == cmd.ID() {
	lens = l
	found = true
	}
	}
	if !found {
	e.T.Fatalf("found no command with the ID %s", cmd.ID())
	}
	e.ExecuteCommand(&protocol.ExecuteCommandParams{
	Command: lens.Command.Command,
	Arguments: lens.Command.Arguments,
	}, result)
	}

	func (e Env) ExecuteCommand(params protocol.ExecuteCommandParams, result interface{}) {
	e.T.Helper()
	response, err := e.Editor.ExecuteCommand(e.Ctx, params)
	if err != nil {
	e.T.Fatal(err)
	}
	if result == nil {
	return
	}
	// Hack: The result of an executeCommand request will be unmarshaled into
	// maps. Re-marshal and unmarshal into the type we expect.
	//
	// This could be improved by generating a jsonrpc2 command client from the
	// command.Interface, but that should only be done if we're consolidating
	// this part of the tsprotocol generation.
	data, err := json.Marshal(response)
	if err != nil {
	e.T.Fatal(err)
	}
	if err := json.Unmarshal(data, result); err != nil {
	e.T.Fatal(err)
	}
	}

	// InlayHints calls textDocument/inlayHints for the given path, calling t.Fatal on
	// any error.
	func (e *Env) InlayHints(path string) []protocol.InlayHint {
	e.T.Helper()
	hints, err := e.Editor.InlayHint(e.Ctx, path)
	if err != nil {
	e.T.Fatal(err)
	}
	return hints
	}

	// Symbol calls workspace/symbol
	func (e *Env) Symbol(query string) []protocol.SymbolInformation {
	e.T.Helper()
	ans, err := e.Editor.Symbols(e.Ctx, query)
	if err != nil {
	e.T.Fatal(err)
	}
	return ans
	}

	// References wraps Editor.References, calling t.Fatal on any error.
	func (e *Env) References(path string, pos protocol.Position) []protocol.Location {
	e.T.Helper()
	locations, err := e.Editor.References(e.Ctx, path, pos)
	if err != nil {
	e.T.Fatal(err)
	}
	return locations
	}

	// Rename wraps Editor.Rename, calling t.Fatal on any error.
	func (e *Env) Rename(path string, pos protocol.Position, newName string) {
	e.T.Helper()
	if err := e.Editor.Rename(e.Ctx, path, pos, newName); err != nil {
	e.T.Fatal(err)
	}
	}

	// Implementations wraps Editor.Implementations, calling t.Fatal on any error.
	func (e *Env) Implementations(path string, pos protocol.Position) []protocol.Location {
	e.T.Helper()
	locations, err := e.Editor.Implementations(e.Ctx, path, pos)
	if err != nil {
	e.T.Fatal(err)
	}
	return locations
	}

	// RenameFile wraps Editor.RenameFile, calling t.Fatal on any error.
	func (e *Env) RenameFile(oldPath, newPath string) {
	e.T.Helper()
	if err := e.Editor.RenameFile(e.Ctx, oldPath, newPath); err != nil {
	e.T.Fatal(err)
	}
	}

	// Completion executes a completion request on the server.
	func (e Env) Completion(path string, pos protocol.Position) protocol.CompletionList {
	e.T.Helper()
	completions, err := e.Editor.Completion(e.Ctx, path, pos)
	if err != nil {
	e.T.Fatal(err)
	}
	return completions
	}

	// AcceptCompletion accepts a completion for the given item at the given
	// position.
	func (e *Env) AcceptCompletion(path string, pos protocol.Position, item protocol.CompletionItem) {
	e.T.Helper()
	if err := e.Editor.AcceptCompletion(e.Ctx, path, pos, item); err != nil {
	e.T.Fatal(err)
	}
	}

	// CodeAction calls testDocument/codeAction for the given path, and calls
	// t.Fatal if there are errors.
	func (e *Env) CodeAction(path string, diagnostics []protocol.Diagnostic) []protocol.CodeAction {
	e.T.Helper()
	actions, err := e.Editor.CodeAction(e.Ctx, path, nil, diagnostics)
	if err != nil {
	e.T.Fatal(err)
	}
	return actions
	}

	// ChangeConfiguration updates the editor config, calling t.Fatal on any error.
	func (e *Env) ChangeConfiguration(newConfig fake.EditorConfig) {
	e.T.Helper()
	if err := e.Editor.ChangeConfiguration(e.Ctx, newConfig); err != nil {
	e.T.Fatal(err)
	}
	}

	// ChangeWorkspaceFolders updates the editor workspace folders, calling t.Fatal
	// on any error.
	func (e *Env) ChangeWorkspaceFolders(newFolders ...string) {
	e.T.Helper()
	if err := e.Editor.ChangeWorkspaceFolders(e.Ctx, newFolders); err != nil {
	e.T.Fatal(err)
	}
	}