import {COMMON_DIRECTIVES, COMMON_PIPES} from '@angular/common'; import {COMPILER_PROVIDERS, CompilerConfig, XHR} from '@angular/compiler'; import {ApplicationRef, ComponentRef, PLATFORM_DIRECTIVES, PLATFORM_PIPES, ReflectiveInjector, Type, coreLoadAndBootstrap} from '@angular/core'; import {BROWSER_APP_PROVIDERS, WORKER_APP_APPLICATION_PROVIDERS, WORKER_SCRIPT, WORKER_UI_APPLICATION_PROVIDERS, browserPlatform, workerAppPlatform, workerUiPlatform} from '@angular/platform-browser'; import {ReflectionCapabilities, reflector} from './core_private'; import {PromiseWrapper} from './src/facade/async'; import {isPresent} from './src/facade/lang'; import {CachedXHR} from './src/xhr/xhr_cache'; import {XHRImpl} from './src/xhr/xhr_impl'; export const BROWSER_APP_COMPILER_PROVIDERS: Array = [ COMPILER_PROVIDERS, { provide: CompilerConfig, useFactory: (platformDirectives: any[], platformPipes: any[]) => { return new CompilerConfig({platformDirectives, platformPipes}); }, deps: [PLATFORM_DIRECTIVES, PLATFORM_PIPES] }, {provide: XHR, useClass: XHRImpl}, {provide: PLATFORM_DIRECTIVES, useValue: COMMON_DIRECTIVES, multi: true}, {provide: PLATFORM_PIPES, useValue: COMMON_PIPES, multi: true} ]; export const CACHED_TEMPLATE_PROVIDER: Array = [{provide: XHR, useClass: CachedXHR}]; /** * Bootstrapping for Angular applications. * * You instantiate an Angular application by explicitly specifying a component to use * as the root component for your application via the `bootstrap()` method. * * ## Simple Example * * Assuming this `index.html`: * * ```html * * * * loading... * * * ``` * * An application is bootstrapped inside an existing browser DOM, typically `index.html`. * Unlike Angular 1, Angular 2 does not compile/process providers in `index.html`. This is * mainly for security reasons, as well as architectural changes in Angular 2. This means * that `index.html` can safely be processed using server-side technologies such as * providers. Bindings can thus use double-curly `{{ syntax }}` without collision from * Angular 2 component double-curly `{{ syntax }}`. * * We can use this script code: * * {@example core/ts/bootstrap/bootstrap.ts region='bootstrap'} * * When the app developer invokes `bootstrap()` with the root component `MyApp` as its * argument, Angular performs the following tasks: * * 1. It uses the component's `selector` property to locate the DOM element which needs * to be upgraded into the angular component. * 2. It creates a new child injector (from the platform injector). Optionally, you can * also override the injector configuration for an app by invoking `bootstrap` with the * `componentInjectableBindings` argument. * 3. It creates a new `Zone` and connects it to the angular application's change detection * domain instance. * 4. It creates an emulated or shadow DOM on the selected component's host element and loads the * template into it. * 5. It instantiates the specified component. * 6. Finally, Angular performs change detection to apply the initial data providers for the * application. * * * ## Bootstrapping Multiple Applications * * When working within a browser window, there are many singleton resources: cookies, title, * location, and others. Angular services that represent these resources must likewise be * shared across all Angular applications that occupy the same browser window. For this * reason, Angular creates exactly one global platform object which stores all shared * services, and each angular application injector has the platform injector as its parent. * * Each application has its own private injector as well. When there are multiple * applications on a page, Angular treats each application injector's services as private * to that application. * * ## API * * - `appComponentType`: The root component which should act as the application. This is * a reference to a `Type` which is annotated with `@Component(...)`. * - `customProviders`: An additional set of providers that can be added to the * app injector to override default injection behavior. * * Returns a `Promise` of {@link ComponentRef}. */ export function bootstrap( appComponentType: Type, customProviders?: Array): Promise> { reflector.reflectionCapabilities = new ReflectionCapabilities(); let providers = [ BROWSER_APP_PROVIDERS, BROWSER_APP_COMPILER_PROVIDERS, isPresent(customProviders) ? customProviders : [] ]; var appInjector = ReflectiveInjector.resolveAndCreate(providers, browserPlatform().injector); return coreLoadAndBootstrap(appComponentType, appInjector); } export function bootstrapWorkerUi( workerScriptUri: string, customProviders?: Array): Promise { var app = ReflectiveInjector.resolveAndCreate( [ WORKER_UI_APPLICATION_PROVIDERS, BROWSER_APP_COMPILER_PROVIDERS, {provide: WORKER_SCRIPT, useValue: workerScriptUri}, isPresent(customProviders) ? customProviders : [] ], workerUiPlatform().injector); // Return a promise so that we keep the same semantics as Dart, // and we might want to wait for the app side to come up // in the future... return PromiseWrapper.resolve(app.get(ApplicationRef)); } const WORKER_APP_COMPILER_PROVIDERS: Array = [ COMPILER_PROVIDERS, { provide: CompilerConfig, useFactory: (platformDirectives: any[], platformPipes: any[]) => { return new CompilerConfig({platformDirectives, platformPipes}); }, deps: [PLATFORM_DIRECTIVES, PLATFORM_PIPES] }, {provide: XHR, useClass: XHRImpl}, {provide: PLATFORM_DIRECTIVES, useValue: COMMON_DIRECTIVES, multi: true}, {provide: PLATFORM_PIPES, useValue: COMMON_PIPES, multi: true} ]; export function bootstrapWorkerApp( appComponentType: Type, customProviders?: Array): Promise> { var appInjector = ReflectiveInjector.resolveAndCreate( [ WORKER_APP_APPLICATION_PROVIDERS, WORKER_APP_COMPILER_PROVIDERS, isPresent(customProviders) ? customProviders : [] ], workerAppPlatform().injector); return coreLoadAndBootstrap(appComponentType, appInjector); }