/** * @license * Copyright Google Inc. 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 {ListWrapper} from '../src/facade/collection'; import {BaseException, ExceptionHandler, unimplemented} from '../src/facade/exceptions'; import {isBlank, isPresent, isPromise, stringify} from '../src/facade/lang'; import {ApplicationInitStatus} from './application_init'; import {APP_BOOTSTRAP_LISTENER, PLATFORM_INITIALIZER} from './application_tokens'; import {ChangeDetectorRef} from './change_detection/change_detector_ref'; import {Console} from './console'; import {Injectable, Injector, OpaqueToken, Optional, Provider, ReflectiveInjector} from './di'; import {CompilerFactory, CompilerOptions} from './linker/compiler'; import {ComponentFactory, ComponentRef} from './linker/component_factory'; import {ComponentFactoryResolver} from './linker/component_factory_resolver'; import {NgModuleFactory, NgModuleInjector, NgModuleRef} from './linker/ng_module_factory'; import {WtfScopeFn, wtfCreateScope, wtfLeave} from './profile/profile'; import {Testability, TestabilityRegistry} from './testability/testability'; import {Type} from './type'; import {NgZone} from './zone/ng_zone'; var _devMode: boolean = true; var _runModeLocked: boolean = false; var _platform: PlatformRef; /** * Disable Angular's development mode, which turns off assertions and other * checks within the framework. * * One important assertion this disables verifies that a change detection pass * does not result in additional changes to any bindings (also known as * unidirectional data flow). * * @stable */ export function enableProdMode(): void { if (_runModeLocked) { // Cannot use BaseException as that ends up importing from facade/lang. throw new BaseException('Cannot enable prod mode after platform setup.'); } _devMode = false; } /** * Returns whether Angular is in development mode. After called once, * the value is locked and won't change any more. * * By default, this is true, unless a user calls `enableProdMode` before calling this. * * @experimental APIs related to application bootstrap are currently under review. */ export function isDevMode(): boolean { _runModeLocked = true; return _devMode; } /** * Creates a platform. * Platforms have to be eagerly created via this function. * * @experimental APIs related to application bootstrap are currently under review. */ export function createPlatform(injector: Injector): PlatformRef { if (isPresent(_platform) && !_platform.destroyed) { throw new BaseException( 'There can be only one platform. Destroy the previous one to create a new one.'); } _platform = injector.get(PlatformRef); const inits: Function[] = injector.get(PLATFORM_INITIALIZER, null); if (isPresent(inits)) inits.forEach(init => init()); return _platform; } /** * Factory for a platform. * * @experimental */ export type PlatformFactory = (extraProviders?: Provider[]) => PlatformRef; /** * Creates a factory for a platform * * @experimental APIs related to application bootstrap are currently under review. */ export function createPlatformFactory( parentPlaformFactory: PlatformFactory, name: string, providers: Provider[] = []): PlatformFactory { const marker = new OpaqueToken(`Platform: ${name}`); return (extraProviders: Provider[] = []) => { if (!getPlatform()) { if (parentPlaformFactory) { parentPlaformFactory( providers.concat(extraProviders).concat({provide: marker, useValue: true})); } else { createPlatform(ReflectiveInjector.resolveAndCreate( providers.concat(extraProviders).concat({provide: marker, useValue: true}))); } } return assertPlatform(marker); }; } /** * Checks that there currently is a platform * which contains the given token as a provider. * * @experimental APIs related to application bootstrap are currently under review. */ export function assertPlatform(requiredToken: any): PlatformRef { var platform = getPlatform(); if (isBlank(platform)) { throw new BaseException('No platform exists!'); } if (isPresent(platform) && isBlank(platform.injector.get(requiredToken, null))) { throw new BaseException( 'A platform with a different configuration has been created. Please destroy it first.'); } return platform; } /** * Destroy the existing platform. * * @experimental APIs related to application bootstrap are currently under review. */ export function destroyPlatform(): void { if (isPresent(_platform) && !_platform.destroyed) { _platform.destroy(); } } /** * Returns the current platform. * * @experimental APIs related to application bootstrap are currently under review. */ export function getPlatform(): PlatformRef { return isPresent(_platform) && !_platform.destroyed ? _platform : null; } /** * The Angular platform is the entry point for Angular on a web page. Each page * has exactly one platform, and services (such as reflection) which are common * to every Angular application running on the page are bound in its scope. * * A page's platform is initialized implicitly when {@link bootstrap}() is called, or * explicitly by calling {@link createPlatform}(). * * @stable */ export abstract class PlatformRef { /** * Creates an instance of an `@NgModule` for the given platform * for offline compilation. * * ## Simple Example * * ```typescript * my_module.ts: * * @NgModule({ * imports: [BrowserModule] * }) * class MyModule {} * * main.ts: * import {MyModuleNgFactory} from './my_module.ngfactory'; * import {platformBrowser} from '@angular/platform-browser'; * * let moduleRef = platformBrowser().bootstrapModuleFactory(MyModuleNgFactory); * ``` * * @experimental APIs related to application bootstrap are currently under review. */ bootstrapModuleFactory(moduleFactory: NgModuleFactory): Promise> { throw unimplemented(); } /** * Creates an instance of an `@NgModule` for a given platform using the given runtime compiler. * * ## Simple Example * * ```typescript * @NgModule({ * imports: [BrowserModule] * }) * class MyModule {} * * let moduleRef = platformBrowser().bootstrapModule(MyModule); * ``` * @stable */ bootstrapModule(moduleType: Type, compilerOptions: CompilerOptions|CompilerOptions[] = []): Promise> { throw unimplemented(); } /** * Register a listener to be called when the platform is disposed. */ abstract onDestroy(callback: () => void): void; /** * Retrieve the platform {@link Injector}, which is the parent injector for * every Angular application on the page and provides singleton providers. */ get injector(): Injector { throw unimplemented(); }; /** * Destroy the Angular platform and all Angular applications on the page. */ abstract destroy(): void; get destroyed(): boolean { throw unimplemented(); } } function _callAndReportToExceptionHandler( exceptionHandler: ExceptionHandler, callback: () => any): any { try { const result = callback(); if (isPromise(result)) { return result.catch((e: any) => { exceptionHandler.call(e); // rethrow as the exception handler might not do it throw e; }); } else { return result; } } catch (e) { exceptionHandler.call(e); // rethrow as the exception handler might not do it throw e; } } @Injectable() export class PlatformRef_ extends PlatformRef { private _modules: NgModuleRef[] = []; private _destroyListeners: Function[] = []; private _destroyed: boolean = false; constructor(private _injector: Injector) { super(); } onDestroy(callback: () => void): void { this._destroyListeners.push(callback); } get injector(): Injector { return this._injector; } get destroyed() { return this._destroyed; } destroy() { if (this._destroyed) { throw new BaseException('The platform has already been destroyed!'); } ListWrapper.clone(this._modules).forEach((app) => app.destroy()); this._destroyListeners.forEach((dispose) => dispose()); this._destroyed = true; } bootstrapModuleFactory(moduleFactory: NgModuleFactory): Promise> { return this._bootstrapModuleFactoryWithZone(moduleFactory, null); } private _bootstrapModuleFactoryWithZone(moduleFactory: NgModuleFactory, ngZone: NgZone): Promise> { // Note: We need to create the NgZone _before_ we instantiate the module, // as instantiating the module creates some providers eagerly. // So we create a mini parent injector that just contains the new NgZone and // pass that as parent to the NgModuleFactory. if (!ngZone) ngZone = new NgZone({enableLongStackTrace: isDevMode()}); // Attention: Don't use ApplicationRef.run here, // as we want to be sure that all possible constructor calls are inside `ngZone.run`! return ngZone.run(() => { const ngZoneInjector = ReflectiveInjector.resolveAndCreate([{provide: NgZone, useValue: ngZone}], this.injector); const moduleRef = >moduleFactory.create(ngZoneInjector); const exceptionHandler: ExceptionHandler = moduleRef.injector.get(ExceptionHandler, null); if (!exceptionHandler) { throw new Error('No ExceptionHandler. Is platform module (BrowserModule) included?'); } moduleRef.onDestroy(() => ListWrapper.remove(this._modules, moduleRef)); ngZone.onError.subscribe( {next: (error: any) => { exceptionHandler.call(error, error ? error.stack : null); }}); return _callAndReportToExceptionHandler(exceptionHandler, () => { const initStatus: ApplicationInitStatus = moduleRef.injector.get(ApplicationInitStatus); return initStatus.donePromise.then(() => { this._moduleDoBootstrap(moduleRef); return moduleRef; }); }); }); } bootstrapModule(moduleType: Type, compilerOptions: CompilerOptions|CompilerOptions[] = []): Promise> { return this._bootstrapModuleWithZone(moduleType, compilerOptions, null); } private _bootstrapModuleWithZone( moduleType: Type, compilerOptions: CompilerOptions|CompilerOptions[] = [], ngZone: NgZone, componentFactoryCallback?: any): Promise> { const compilerFactory: CompilerFactory = this.injector.get(CompilerFactory); const compiler = compilerFactory.createCompiler( compilerOptions instanceof Array ? compilerOptions : [compilerOptions]); // ugly internal api hack: generate host component factories for all declared components and // pass the factories into the callback - this is used by UpdateAdapter to get hold of all // factories. if (componentFactoryCallback) { return compiler.compileModuleAndAllComponentsAsync(moduleType) .then(({ngModuleFactory, componentFactories}) => { componentFactoryCallback(componentFactories); return this._bootstrapModuleFactoryWithZone(ngModuleFactory, ngZone); }); } return compiler.compileModuleAsync(moduleType) .then((moduleFactory) => this._bootstrapModuleFactoryWithZone(moduleFactory, ngZone)); } private _moduleDoBootstrap(moduleRef: NgModuleInjector) { const appRef = moduleRef.injector.get(ApplicationRef); if (moduleRef.bootstrapFactories.length > 0) { moduleRef.bootstrapFactories.forEach((compFactory) => appRef.bootstrap(compFactory)); } else if (moduleRef.instance.ngDoBootstrap) { moduleRef.instance.ngDoBootstrap(appRef); } else { throw new BaseException( `The module ${stringify(moduleRef.instance.constructor)} was bootstrapped, but it does not declare "@NgModule.bootstrap" components nor a "ngDoBootstrap" method. ` + `Please define one of these.`); } } } /** * A reference to an Angular application running on a page. * * For more about Angular applications, see the documentation for {@link bootstrap}. * * @stable */ export abstract class ApplicationRef { /** * Bootstrap a new component at the root level of the application. * * ### Bootstrap process * * When bootstrapping a new root component into an application, Angular mounts the * specified application component onto DOM elements identified by the [componentType]'s * selector and kicks off automatic change detection to finish initializing the component. * * ### Example * {@example core/ts/platform/platform.ts region='longform'} */ abstract bootstrap(componentFactory: ComponentFactory|Type): ComponentRef; /** * Invoke this method to explicitly process change detection and its side-effects. * * In development mode, `tick()` also performs a second change detection cycle to ensure that no * further changes are detected. If additional changes are picked up during this second cycle, * bindings in the app have side-effects that cannot be resolved in a single change detection * pass. * In this case, Angular throws an error, since an Angular application can only have one change * detection pass during which all change detection must complete. */ abstract tick(): void; /** * Get a list of component types registered to this application. * This list is populated even before the component is created. */ get componentTypes(): Type[] { return []>unimplemented(); }; /** * Get a list of components registered to this application. */ get components(): ComponentRef[] { return []>unimplemented(); }; } @Injectable() export class ApplicationRef_ extends ApplicationRef { /** @internal */ static _tickScope: WtfScopeFn = wtfCreateScope('ApplicationRef#tick()'); private _bootstrapListeners: Function[] = []; private _rootComponents: ComponentRef[] = []; private _rootComponentTypes: Type[] = []; private _changeDetectorRefs: ChangeDetectorRef[] = []; private _runningTick: boolean = false; private _enforceNoNewChanges: boolean = false; constructor( private _zone: NgZone, private _console: Console, private _injector: Injector, private _exceptionHandler: ExceptionHandler, private _componentFactoryResolver: ComponentFactoryResolver, private _initStatus: ApplicationInitStatus, @Optional() private _testabilityRegistry: TestabilityRegistry, @Optional() private _testability: Testability) { super(); this._enforceNoNewChanges = isDevMode(); this._zone.onMicrotaskEmpty.subscribe( {next: () => { this._zone.run(() => { this.tick(); }); }}); } registerChangeDetector(changeDetector: ChangeDetectorRef): void { this._changeDetectorRefs.push(changeDetector); } unregisterChangeDetector(changeDetector: ChangeDetectorRef): void { ListWrapper.remove(this._changeDetectorRefs, changeDetector); } bootstrap(componentOrFactory: ComponentFactory|Type): ComponentRef { if (!this._initStatus.done) { throw new BaseException( 'Cannot bootstrap as there are still asynchronous initializers running. Bootstrap components in the `ngDoBootstrap` method of the root module.'); } let componentFactory: ComponentFactory; if (componentOrFactory instanceof ComponentFactory) { componentFactory = componentOrFactory; } else { componentFactory = this._componentFactoryResolver.resolveComponentFactory(componentOrFactory); } this._rootComponentTypes.push(componentFactory.componentType); var compRef = componentFactory.create(this._injector, [], componentFactory.selector); compRef.onDestroy(() => { this._unloadComponent(compRef); }); var testability = compRef.injector.get(Testability, null); if (isPresent(testability)) { compRef.injector.get(TestabilityRegistry) .registerApplication(compRef.location.nativeElement, testability); } this._loadComponent(compRef); if (isDevMode()) { this._console.log( `Angular 2 is running in the development mode. Call enableProdMode() to enable the production mode.`); } return compRef; } /** @internal */ _loadComponent(componentRef: ComponentRef): void { this._changeDetectorRefs.push(componentRef.changeDetectorRef); this.tick(); this._rootComponents.push(componentRef); // Get the listeners lazily to prevent DI cycles. const listeners = <((compRef: ComponentRef) => void)[]>this._injector.get(APP_BOOTSTRAP_LISTENER, []) .concat(this._bootstrapListeners); listeners.forEach((listener) => listener(componentRef)); } /** @internal */ _unloadComponent(componentRef: ComponentRef): void { if (!ListWrapper.contains(this._rootComponents, componentRef)) { return; } this.unregisterChangeDetector(componentRef.changeDetectorRef); ListWrapper.remove(this._rootComponents, componentRef); } tick(): void { if (this._runningTick) { throw new BaseException('ApplicationRef.tick is called recursively'); } var s = ApplicationRef_._tickScope(); try { this._runningTick = true; this._changeDetectorRefs.forEach((detector) => detector.detectChanges()); if (this._enforceNoNewChanges) { this._changeDetectorRefs.forEach((detector) => detector.checkNoChanges()); } } finally { this._runningTick = false; wtfLeave(s); } } ngOnDestroy() { // TODO(alxhub): Dispose of the NgZone. ListWrapper.clone(this._rootComponents).forEach((ref) => ref.destroy()); } get componentTypes(): Type[] { return this._rootComponentTypes; } get components(): ComponentRef[] { return this._rootComponents; } }