angular-cn/packages/language-service/ivy/language_service.ts

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/**
* @license
* Copyright Google LLC All Rights Reserved.
*
* Use of this source code is governed by an MIT-style license that can be
* found in the LICENSE file at https://angular.io/license
*/
import {AbsoluteSourceSpan, AST, ParseSourceSpan, TmplAstBoundEvent, TmplAstNode} from '@angular/compiler';
import {CompilerOptions, ConfigurationHost, readConfiguration} from '@angular/compiler-cli';
import {NgCompiler} from '@angular/compiler-cli/src/ngtsc/core';
import {ErrorCode, ngErrorCode} from '@angular/compiler-cli/src/ngtsc/diagnostics';
import {absoluteFrom, absoluteFromSourceFile, AbsoluteFsPath} from '@angular/compiler-cli/src/ngtsc/file_system';
import {PerfPhase} from '@angular/compiler-cli/src/ngtsc/perf';
import {isNamedClassDeclaration} from '@angular/compiler-cli/src/ngtsc/reflection';
import {TypeCheckShimGenerator} from '@angular/compiler-cli/src/ngtsc/typecheck';
import {OptimizeFor, TypeCheckingProgramStrategy} from '@angular/compiler-cli/src/ngtsc/typecheck/api';
import {findFirstMatchingNode} from '@angular/compiler-cli/src/ngtsc/typecheck/src/comments';
import * as ts from 'typescript/lib/tsserverlibrary';
import {GetComponentLocationsForTemplateResponse, GetTcbResponse} from '../api';
import {LanguageServiceAdapter, LSParseConfigHost} from './adapters';
import {CompilerFactory} from './compiler_factory';
import {CompletionBuilder, CompletionNodeContext} from './completions';
import {DefinitionBuilder} from './definitions';
import {QuickInfoBuilder} from './quick_info';
import {ReferencesAndRenameBuilder} from './references';
import {getTargetAtPosition, TargetContext, TargetNodeKind} from './template_target';
import {findTightestNode, getClassDeclFromDecoratorProp, getPropertyAssignmentFromValue} from './ts_utils';
import {getTemplateInfoAtPosition, isTypeScriptFile} from './utils';
interface LanguageServiceConfig {
/**
* If true, enable `strictTemplates` in Angular compiler options regardless
* of its value in tsconfig.json.
*/
forceStrictTemplates?: true;
}
export class LanguageService {
private options: CompilerOptions;
test(language-service): introduce new virtual testing environment (#39594) This commit adds new language service testing infrastructure which allows for in-memory testing. It solves a number of issues with the previous testing infrastructure that relied on a single integration project across all of the tests, and also provides for much faster builds by using the compiler-cli's mock versions of @angular/core and @angular/common. A new `LanguageServiceTestEnvironment` class (conceptually mirroring the compiler-cli `NgtscTestEnvironment`) controls setup and execution of tests. The `FileSystem` abstraction is used to drive a `ts.server.ServerHost`, which backs the language service infrastructure. Since many language service tests revolve around the template, the API is currently optimized to spin up a "skeleton" project and then override its template for each test. The existing Quick Info tests (quick_info_spec.ts) were ported to the new infrastructure for validation. The tests were cleaned up a bit to remove unnecessary initializations as well as correct legitimate template errors which did not affect the test outcome, but caused additional validation of test correctness to fail. They still utilize a shared project with all fields required for each individual unit test, which is an anti-pattern, but new tests can now easily be written independently without relying on the shared project, which was extremely difficult previously. Future cleanup work might refactor these tests to be more independent. PR Close #39594
2020-11-04 15:28:59 -05:00
readonly compilerFactory: CompilerFactory;
private readonly strategy: TypeCheckingProgramStrategy;
private readonly adapter: LanguageServiceAdapter;
private readonly parseConfigHost: LSParseConfigHost;
constructor(
private readonly project: ts.server.Project,
private readonly tsLS: ts.LanguageService,
private readonly config: LanguageServiceConfig,
) {
this.parseConfigHost = new LSParseConfigHost(project.projectService.host);
this.options = parseNgCompilerOptions(project, this.parseConfigHost, config);
logCompilerOptions(project, this.options);
this.strategy = createTypeCheckingProgramStrategy(project);
this.adapter = new LanguageServiceAdapter(project);
test(language-service): introduce new virtual testing environment (#39594) This commit adds new language service testing infrastructure which allows for in-memory testing. It solves a number of issues with the previous testing infrastructure that relied on a single integration project across all of the tests, and also provides for much faster builds by using the compiler-cli's mock versions of @angular/core and @angular/common. A new `LanguageServiceTestEnvironment` class (conceptually mirroring the compiler-cli `NgtscTestEnvironment`) controls setup and execution of tests. The `FileSystem` abstraction is used to drive a `ts.server.ServerHost`, which backs the language service infrastructure. Since many language service tests revolve around the template, the API is currently optimized to spin up a "skeleton" project and then override its template for each test. The existing Quick Info tests (quick_info_spec.ts) were ported to the new infrastructure for validation. The tests were cleaned up a bit to remove unnecessary initializations as well as correct legitimate template errors which did not affect the test outcome, but caused additional validation of test correctness to fail. They still utilize a shared project with all fields required for each individual unit test, which is an anti-pattern, but new tests can now easily be written independently without relying on the shared project, which was extremely difficult previously. Future cleanup work might refactor these tests to be more independent. PR Close #39594
2020-11-04 15:28:59 -05:00
this.compilerFactory = new CompilerFactory(this.adapter, this.strategy, this.options);
this.watchConfigFile(project);
}
getCompilerOptions(): CompilerOptions {
return this.options;
}
getSemanticDiagnostics(fileName: string): ts.Diagnostic[] {
return this.withCompilerAndPerfTracing(PerfPhase.LsDiagnostics, (compiler) => {
const ttc = compiler.getTemplateTypeChecker();
const diagnostics: ts.Diagnostic[] = [];
if (isTypeScriptFile(fileName)) {
const program = compiler.getNextProgram();
const sourceFile = program.getSourceFile(fileName);
if (sourceFile) {
const ngDiagnostics = compiler.getDiagnosticsForFile(sourceFile, OptimizeFor.SingleFile);
// There are several kinds of diagnostics returned by `NgCompiler` for a source file:
//
// 1. Angular-related non-template diagnostics from decorated classes within that
// file.
// 2. Template diagnostics for components with direct inline templates (a string
// literal).
// 3. Template diagnostics for components with indirect inline templates (templates
// computed
// by expression).
// 4. Template diagnostics for components with external templates.
//
// When showing diagnostics for a TS source file, we want to only include kinds 1 and
// 2 - those diagnostics which are reported at a location within the TS file itself.
// Diagnostics for external templates will be shown when editing that template file
// (the `else` block) below.
//
// Currently, indirect inline template diagnostics (kind 3) are not shown at all by
// the Language Service, because there is no sensible location in the user's code for
// them. Such templates are an edge case, though, and should not be common.
//
// TODO(alxhub): figure out a good user experience for indirect template diagnostics
// and show them from within the Language Service.
diagnostics.push(...ngDiagnostics.filter(
diag => diag.file !== undefined && diag.file.fileName === sourceFile.fileName));
}
} else {
const components = compiler.getComponentsWithTemplateFile(fileName);
for (const component of components) {
if (ts.isClassDeclaration(component)) {
diagnostics.push(...ttc.getDiagnosticsForComponent(component));
}
}
}
return diagnostics;
});
}
getDefinitionAndBoundSpan(fileName: string, position: number): ts.DefinitionInfoAndBoundSpan
|undefined {
return this.withCompilerAndPerfTracing(PerfPhase.LsDefinition, (compiler) => {
if (!isInAngularContext(compiler.getNextProgram(), fileName, position)) {
return undefined;
}
return new DefinitionBuilder(this.tsLS, compiler)
.getDefinitionAndBoundSpan(fileName, position);
});
}
getTypeDefinitionAtPosition(fileName: string, position: number):
readonly ts.DefinitionInfo[]|undefined {
return this.withCompilerAndPerfTracing(PerfPhase.LsDefinition, (compiler) => {
if (!isTemplateContext(compiler.getNextProgram(), fileName, position)) {
return undefined;
}
return new DefinitionBuilder(this.tsLS, compiler)
.getTypeDefinitionsAtPosition(fileName, position);
});
}
getQuickInfoAtPosition(fileName: string, position: number): ts.QuickInfo|undefined {
return this.withCompilerAndPerfTracing(PerfPhase.LsQuickInfo, (compiler) => {
return this.getQuickInfoAtPositionImpl(fileName, position, compiler);
});
}
private getQuickInfoAtPositionImpl(
fileName: string,
position: number,
compiler: NgCompiler,
): ts.QuickInfo|undefined {
if (!isTemplateContext(compiler.getNextProgram(), fileName, position)) {
return undefined;
}
const templateInfo = getTemplateInfoAtPosition(fileName, position, compiler);
if (templateInfo === undefined) {
return undefined;
}
const positionDetails = getTargetAtPosition(templateInfo.template, position);
if (positionDetails === null) {
return undefined;
}
// Because we can only show 1 quick info, just use the bound attribute if the target is a two
// way binding. We may consider concatenating additional display parts from the other target
// nodes or representing the two way binding in some other manner in the future.
const node = positionDetails.context.kind === TargetNodeKind.TwoWayBindingContext ?
positionDetails.context.nodes[0] :
positionDetails.context.node;
return new QuickInfoBuilder(this.tsLS, compiler, templateInfo.component, node).get();
}
getReferencesAtPosition(fileName: string, position: number): ts.ReferenceEntry[]|undefined {
return this.withCompilerAndPerfTracing(PerfPhase.LsReferencesAndRenames, (compiler) => {
return new ReferencesAndRenameBuilder(this.strategy, this.tsLS, compiler)
.getReferencesAtPosition(fileName, position);
});
}
getRenameInfo(fileName: string, position: number): ts.RenameInfo {
return this.withCompilerAndPerfTracing(PerfPhase.LsReferencesAndRenames, (compiler) => {
const renameInfo = new ReferencesAndRenameBuilder(this.strategy, this.tsLS, compiler)
.getRenameInfo(absoluteFrom(fileName), position);
if (!renameInfo.canRename) {
return renameInfo;
}
const quickInfo = this.getQuickInfoAtPositionImpl(fileName, position, compiler) ??
this.tsLS.getQuickInfoAtPosition(fileName, position);
const kind = quickInfo?.kind ?? ts.ScriptElementKind.unknown;
const kindModifiers = quickInfo?.kindModifiers ?? ts.ScriptElementKind.unknown;
return {...renameInfo, kind, kindModifiers};
});
}
findRenameLocations(fileName: string, position: number): readonly ts.RenameLocation[]|undefined {
return this.withCompilerAndPerfTracing(PerfPhase.LsReferencesAndRenames, (compiler) => {
return new ReferencesAndRenameBuilder(this.strategy, this.tsLS, compiler)
.findRenameLocations(fileName, position);
});
}
private getCompletionBuilder(fileName: string, position: number, compiler: NgCompiler):
CompletionBuilder<TmplAstNode|AST>|null {
const templateInfo = getTemplateInfoAtPosition(fileName, position, compiler);
if (templateInfo === undefined) {
return null;
}
const positionDetails = getTargetAtPosition(templateInfo.template, position);
if (positionDetails === null) {
return null;
}
// For two-way bindings, we actually only need to be concerned with the bound attribute because
// the bindings in the template are written with the attribute name, not the event name.
const node = positionDetails.context.kind === TargetNodeKind.TwoWayBindingContext ?
positionDetails.context.nodes[0] :
positionDetails.context.node;
return new CompletionBuilder(
this.tsLS, compiler, templateInfo.component, node, positionDetails,
isTypeScriptFile(fileName));
}
getCompletionsAtPosition(
fileName: string, position: number, options: ts.GetCompletionsAtPositionOptions|undefined):
ts.WithMetadata<ts.CompletionInfo>|undefined {
return this.withCompilerAndPerfTracing(PerfPhase.LsCompletions, (compiler) => {
return this.getCompletionsAtPositionImpl(fileName, position, options, compiler);
});
}
private getCompletionsAtPositionImpl(
fileName: string, position: number, options: ts.GetCompletionsAtPositionOptions|undefined,
compiler: NgCompiler): ts.WithMetadata<ts.CompletionInfo>|undefined {
if (!isTemplateContext(compiler.getNextProgram(), fileName, position)) {
return undefined;
}
const builder = this.getCompletionBuilder(fileName, position, compiler);
if (builder === null) {
return undefined;
}
return builder.getCompletionsAtPosition(options);
}
getCompletionEntryDetails(
fileName: string, position: number, entryName: string,
formatOptions: ts.FormatCodeOptions|ts.FormatCodeSettings|undefined,
preferences: ts.UserPreferences|undefined): ts.CompletionEntryDetails|undefined {
return this.withCompilerAndPerfTracing(PerfPhase.LsCompletions, (compiler) => {
if (!isTemplateContext(compiler.getNextProgram(), fileName, position)) {
return undefined;
}
const builder = this.getCompletionBuilder(fileName, position, compiler);
if (builder === null) {
return undefined;
}
return builder.getCompletionEntryDetails(entryName, formatOptions, preferences);
});
}
getCompletionEntrySymbol(fileName: string, position: number, entryName: string): ts.Symbol
|undefined {
return this.withCompilerAndPerfTracing(PerfPhase.LsCompletions, (compiler) => {
if (!isTemplateContext(compiler.getNextProgram(), fileName, position)) {
return undefined;
}
const builder = this.getCompletionBuilder(fileName, position, compiler);
if (builder === null) {
return undefined;
}
const result = builder.getCompletionEntrySymbol(entryName);
this.compilerFactory.registerLastKnownProgram();
return result;
});
}
getComponentLocationsForTemplate(fileName: string): GetComponentLocationsForTemplateResponse {
return this.withCompilerAndPerfTracing<GetComponentLocationsForTemplateResponse>(
PerfPhase.LsComponentLocations, (compiler) => {
const components = compiler.getComponentsWithTemplateFile(fileName);
const componentDeclarationLocations: ts.DocumentSpan[] =
Array.from(components.values()).map(c => {
let contextSpan: ts.TextSpan|undefined = undefined;
let textSpan: ts.TextSpan;
if (isNamedClassDeclaration(c)) {
textSpan = ts.createTextSpanFromBounds(c.name.getStart(), c.name.getEnd());
contextSpan = ts.createTextSpanFromBounds(c.getStart(), c.getEnd());
} else {
textSpan = ts.createTextSpanFromBounds(c.getStart(), c.getEnd());
}
return {
fileName: c.getSourceFile().fileName,
textSpan,
contextSpan,
};
});
return componentDeclarationLocations;
});
}
getTcb(fileName: string, position: number): GetTcbResponse|undefined {
return this.withCompilerAndPerfTracing<GetTcbResponse|undefined>(PerfPhase.LsTcb, compiler => {
const templateInfo = getTemplateInfoAtPosition(fileName, position, compiler);
if (templateInfo === undefined) {
return undefined;
}
const tcb = compiler.getTemplateTypeChecker().getTypeCheckBlock(templateInfo.component);
if (tcb === null) {
return undefined;
}
const sf = tcb.getSourceFile();
let selections: ts.TextSpan[] = [];
const target = getTargetAtPosition(templateInfo.template, position);
if (target !== null) {
let selectionSpans: Array<ParseSourceSpan|AbsoluteSourceSpan>;
if ('nodes' in target.context) {
selectionSpans = target.context.nodes.map(n => n.sourceSpan);
} else {
selectionSpans = [target.context.node.sourceSpan];
}
const selectionNodes: ts.Node[] =
selectionSpans
.map(s => findFirstMatchingNode(tcb, {
withSpan: s,
filter: (node: ts.Node): node is ts.Node => true,
}))
.filter((n): n is ts.Node => n !== null);
selections = selectionNodes.map(n => {
return {
start: n.getStart(sf),
length: n.getEnd() - n.getStart(sf),
};
});
}
return {
fileName: sf.fileName,
content: sf.getFullText(),
selections,
};
});
}
/**
* Provides an instance of the `NgCompiler` and traces perf results. Perf results are logged only
* if the log level is verbose or higher. This method is intended to be called once per public
* method call.
*
* Here is an example of the log output.
*
* Perf 245 [16:16:39.353] LanguageService#getQuickInfoAtPosition(): {"events":{},"phases":{
* "Unaccounted":379,"TtcSymbol":4},"memory":{}}
*
* Passing name of caller instead of using `arguments.caller` because 'caller', 'callee', and
* 'arguments' properties may not be accessed in strict mode.
*
* @param phase the `PerfPhase` to execute the `p` callback in
* @param p callback to be run synchronously with an instance of the `NgCompiler` as argument
* @return the result of running the `p` callback
*/
private withCompilerAndPerfTracing<T>(phase: PerfPhase, p: (compiler: NgCompiler) => T): T {
const compiler = this.compilerFactory.getOrCreate();
const result = compiler.perfRecorder.inPhase(phase, () => p(compiler));
this.compilerFactory.registerLastKnownProgram();
const logger = this.project.projectService.logger;
if (logger.hasLevel(ts.server.LogLevel.verbose)) {
logger.perftrc(`LanguageService#${PerfPhase[phase]}: ${
JSON.stringify(compiler.perfRecorder.finalize())}`);
}
return result;
}
getCompilerOptionsDiagnostics(): ts.Diagnostic[] {
const project = this.project;
if (!(project instanceof ts.server.ConfiguredProject)) {
return [];
}
return this.withCompilerAndPerfTracing(PerfPhase.LsDiagnostics, (compiler) => {
const diagnostics: ts.Diagnostic[] = [];
const configSourceFile = ts.readJsonConfigFile(
project.getConfigFilePath(), (path: string) => project.readFile(path));
if (!this.options.strictTemplates && !this.options.fullTemplateTypeCheck) {
diagnostics.push({
messageText: 'Some language features are not available. ' +
'To access all features, enable `strictTemplates` in `angularCompilerOptions`.',
category: ts.DiagnosticCategory.Suggestion,
code: ngErrorCode(ErrorCode.SUGGEST_STRICT_TEMPLATES),
file: configSourceFile,
start: undefined,
length: undefined,
});
}
diagnostics.push(...compiler.getOptionDiagnostics());
return diagnostics;
});
}
private watchConfigFile(project: ts.server.Project) {
// TODO: Check the case when the project is disposed. An InferredProject
// could be disposed when a tsconfig.json is added to the workspace,
// in which case it becomes a ConfiguredProject (or vice-versa).
// We need to make sure that the FileWatcher is closed.
if (!(project instanceof ts.server.ConfiguredProject)) {
return;
}
const {host} = project.projectService;
host.watchFile(
project.getConfigFilePath(), (fileName: string, eventKind: ts.FileWatcherEventKind) => {
project.log(`Config file changed: ${fileName}`);
if (eventKind === ts.FileWatcherEventKind.Changed) {
this.options = parseNgCompilerOptions(project, this.parseConfigHost, this.config);
logCompilerOptions(project, this.options);
}
});
}
}
function logCompilerOptions(project: ts.server.Project, options: CompilerOptions) {
const {logger} = project.projectService;
const projectName = project.getProjectName();
logger.info(`Angular compiler options for ${projectName}: ` + JSON.stringify(options, null, 2));
}
function parseNgCompilerOptions(
project: ts.server.Project, host: ConfigurationHost,
config: LanguageServiceConfig): CompilerOptions {
if (!(project instanceof ts.server.ConfiguredProject)) {
return {};
}
const {options, errors} =
readConfiguration(project.getConfigFilePath(), /* existingOptions */ undefined, host);
if (errors.length > 0) {
project.setProjectErrors(errors);
}
// Projects loaded into the Language Service often include test files which are not part of the
// app's main compilation unit, and these test files often include inline NgModules that declare
// components from the app. These declarations conflict with the main declarations of such
// components in the app's NgModules. This conflict is not normally present during regular
// compilation because the app and the tests are part of separate compilation units.
//
// As a temporary mitigation of this problem, we instruct the compiler to ignore classes which
// are not exported. In many cases, this ensures the test NgModules are ignored by the compiler
// and only the real component declaration is used.
options.compileNonExportedClasses = false;
// If `forceStrictTemplates` is true, always enable `strictTemplates`
// regardless of its value in tsconfig.json.
if (config.forceStrictTemplates === true) {
options.strictTemplates = true;
}
return options;
}
function createTypeCheckingProgramStrategy(project: ts.server.Project):
TypeCheckingProgramStrategy {
return {
supportsInlineOperations: false,
shimPathForComponent(component: ts.ClassDeclaration): AbsoluteFsPath {
return TypeCheckShimGenerator.shimFor(absoluteFromSourceFile(component.getSourceFile()));
},
getProgram(): ts.Program {
const program = project.getLanguageService().getProgram();
if (!program) {
throw new Error('Language service does not have a program!');
}
return program;
},
updateFiles(contents: Map<AbsoluteFsPath, string>) {
for (const [fileName, newText] of contents) {
const scriptInfo = getOrCreateTypeCheckScriptInfo(project, fileName);
const snapshot = scriptInfo.getSnapshot();
const length = snapshot.getLength();
scriptInfo.editContent(0, length, newText);
}
},
};
}
function getOrCreateTypeCheckScriptInfo(
project: ts.server.Project, tcf: string): ts.server.ScriptInfo {
// First check if there is already a ScriptInfo for the tcf
const {projectService} = project;
let scriptInfo = projectService.getScriptInfo(tcf);
if (!scriptInfo) {
// ScriptInfo needs to be opened by client to be able to set its user-defined
// content. We must also provide file content, otherwise the service will
// attempt to fetch the content from disk and fail.
scriptInfo = projectService.getOrCreateScriptInfoForNormalizedPath(
ts.server.toNormalizedPath(tcf),
true, // openedByClient
'', // fileContent
// script info added by plugins should be marked as external, see
// https://github.com/microsoft/TypeScript/blob/b217f22e798c781f55d17da72ed099a9dee5c650/src/compiler/program.ts#L1897-L1899
ts.ScriptKind.External, // scriptKind
);
if (!scriptInfo) {
throw new Error(`Failed to create script info for ${tcf}`);
}
}
// Add ScriptInfo to project if it's missing. A ScriptInfo needs to be part of
// the project so that it becomes part of the program.
if (!project.containsScriptInfo(scriptInfo)) {
project.addRoot(scriptInfo);
}
return scriptInfo;
}
function isTemplateContext(program: ts.Program, fileName: string, position: number): boolean {
if (!isTypeScriptFile(fileName)) {
// If we aren't in a TS file, we must be in an HTML file, which we treat as template context
return true;
}
const node = findTightestNodeAtPosition(program, fileName, position);
if (node === undefined) {
return false;
}
let asgn = getPropertyAssignmentFromValue(node, 'template');
if (asgn === null) {
return false;
}
return getClassDeclFromDecoratorProp(asgn) !== null;
}
function isInAngularContext(program: ts.Program, fileName: string, position: number) {
if (!isTypeScriptFile(fileName)) {
return true;
}
const node = findTightestNodeAtPosition(program, fileName, position);
if (node === undefined) {
return false;
}
const asgn = getPropertyAssignmentFromValue(node, 'template') ??
getPropertyAssignmentFromValue(node, 'templateUrl') ??
getPropertyAssignmentFromValue(node.parent, 'styleUrls');
return asgn !== null && getClassDeclFromDecoratorProp(asgn) !== null;
}
function findTightestNodeAtPosition(program: ts.Program, fileName: string, position: number) {
const sourceFile = program.getSourceFile(fileName);
if (sourceFile === undefined) {
return undefined;
}
return findTightestNode(sourceFile, position);
}