/** * @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.dev/license */ import ts from 'typescript'; import { ExtendedTsCompilerHost, NgCompilerOptions } from '../ngtsc/core/api'; export declare const DEFAULT_ERROR_CODE = 100; export declare const UNKNOWN_ERROR_CODE = 500; export declare const SOURCE: "angular"; export declare function isTsDiagnostic(diagnostic: any): diagnostic is ts.Diagnostic; export interface CompilerOptions extends NgCompilerOptions, ts.CompilerOptions { genDir?: string; basePath?: string; skipMetadataEmit?: boolean; strictMetadataEmit?: boolean; skipTemplateCodegen?: boolean; flatModulePrivateSymbolPrefix?: string; generateCodeForLibraries?: boolean; annotationsAs?: 'decorators' | 'static fields'; trace?: boolean; disableExpressionLowering?: boolean; i18nInFormat?: string; i18nInFile?: string; i18nInMissingTranslations?: 'error' | 'warning' | 'ignore'; /** * Whether to replace the `templateUrl` and `styleUrls` property in all * @Component decorators with inlined contents in `template` and `styles` * properties. * When enabled, the .js output of ngc will have no lazy-loaded `templateUrl` * or `styleUrl`s. Note that this requires that resources be available to * load statically at compile-time. */ enableResourceInlining?: boolean; /** * Whether NGC should generate re-exports for external symbols which are referenced * in Angular metadata (e.g. @Component, @Inject, @ViewChild). This can be enabled in * order to avoid dynamically generated module dependencies which can break strict * dependency enforcements. This is not enabled by default. * Read more about this here: https://github.com/angular/angular/issues/25644. */ createExternalSymbolFactoryReexports?: boolean; } export interface CompilerHost extends ts.CompilerHost, ExtendedTsCompilerHost { /** * Converts a module name that is used in an `import` to a file path. * I.e. `path/to/containingFile.ts` containing `import {...} from 'module-name'`. */ moduleNameToFileName?(moduleName: string, containingFile: string): string | null; /** * Converts a file name into a representation that should be stored in a summary file. * This has to include changing the suffix as well. * E.g. * `some_file.ts` -> `some_file.d.ts` * * @param referringSrcFileName the source file that refers to fileName */ toSummaryFileName?(fileName: string, referringSrcFileName: string): string; /** * Converts a fileName that was processed by `toSummaryFileName` back into a real fileName * given the fileName of the library that is referring to it. */ fromSummaryFileName?(fileName: string, referringLibFileName: string): string; /** * Produce an AMD module name for the source file. Used in Bazel. * * An AMD module can have an arbitrary name, so that it is require'd by name * rather than by path. See https://requirejs.org/docs/whyamd.html#namedmodules */ amdModuleName?(sf: ts.SourceFile): string | undefined; } export declare enum EmitFlags { DTS = 1, JS = 2, Metadata = 4, I18nBundle = 8, Codegen = 16, Default = 19, All = 31 } export interface CustomTransformers { beforeTs?: ts.TransformerFactory[]; afterTs?: ts.TransformerFactory[]; } export interface TsEmitArguments { program: ts.Program; host: CompilerHost; options: CompilerOptions; targetSourceFile?: ts.SourceFile; writeFile?: ts.WriteFileCallback; cancellationToken?: ts.CancellationToken; emitOnlyDtsFiles?: boolean; customTransformers?: ts.CustomTransformers; } export interface TsEmitCallback { (args: TsEmitArguments): T; } export interface TsMergeEmitResultsCallback { (results: T[]): T; } export interface LazyRoute { route: string; module: { name: string; filePath: string; }; referencedModule: { name: string; filePath: string; }; } export interface EmitOptions { emitFlags?: EmitFlags; forceEmit?: boolean; cancellationToken?: ts.CancellationToken; customTransformers?: CustomTransformers; emitCallback?: TsEmitCallback; mergeEmitResultsCallback?: TsMergeEmitResultsCallback; } export interface Program { /** * Retrieve the TypeScript program used to produce semantic diagnostics and emit the sources. * * Angular structural information is required to produce the program. */ getTsProgram(): ts.Program; /** * Retrieve options diagnostics for the TypeScript options used to create the program. This is * faster than calling `getTsProgram().getOptionsDiagnostics()` since it does not need to * collect Angular structural information to produce the errors. */ getTsOptionDiagnostics(cancellationToken?: ts.CancellationToken): ReadonlyArray; /** * Retrieve options diagnostics for the Angular options used to create the program. */ getNgOptionDiagnostics(cancellationToken?: ts.CancellationToken): ReadonlyArray; /** * Retrieve the syntax diagnostics from TypeScript. This is faster than calling * `getTsProgram().getSyntacticDiagnostics()` since it does not need to collect Angular structural * information to produce the errors. */ getTsSyntacticDiagnostics(sourceFile?: ts.SourceFile, cancellationToken?: ts.CancellationToken): ReadonlyArray; /** * Retrieve the diagnostics for the structure of an Angular application is correctly formed. * This includes validating Angular annotations and the syntax of referenced and imbedded HTML * and CSS. * * Note it is important to displaying TypeScript semantic diagnostics along with Angular * structural diagnostics as an error in the program structure might cause errors detected in * semantic analysis and a semantic error might cause errors in specifying the program structure. * * Angular structural information is required to produce these diagnostics. */ getNgStructuralDiagnostics(cancellationToken?: ts.CancellationToken): ReadonlyArray; /** * Retrieve the semantic diagnostics from TypeScript. This is equivalent to calling * `getTsProgram().getSemanticDiagnostics()` directly and is included for completeness. */ getTsSemanticDiagnostics(sourceFile?: ts.SourceFile, cancellationToken?: ts.CancellationToken): ReadonlyArray; /** * Retrieve the Angular semantic diagnostics. * * Angular structural information is required to produce these diagnostics. */ getNgSemanticDiagnostics(fileName?: string, cancellationToken?: ts.CancellationToken): ReadonlyArray; /** * Load Angular structural information asynchronously. If this method is not called then the * Angular structural information, including referenced HTML and CSS files, are loaded * synchronously. If the supplied Angular compiler host returns a promise from `loadResource()` * will produce a diagnostic error message or, `getTsProgram()` or `emit` to throw. */ loadNgStructureAsync(): Promise; /** * This method is obsolete and always returns an empty array. */ listLazyRoutes(entryRoute?: string): LazyRoute[]; /** * Emit the files requested by emitFlags implied by the program. * * Angular structural information is required to emit files. */ emit(opts?: EmitOptions | undefined): ts.EmitResult; }