angular-cn/tools/public_api_guard/core/index.d.ts

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/** @stable */
export declare class AbstractProviderError extends BaseException {
context: any;
constructor(injector: ReflectiveInjector, key: ReflectiveKey, constructResolvingMessage: Function);
addKey(injector: ReflectiveInjector, key: ReflectiveKey): void;
}
/** @stable */
export declare abstract class AfterContentChecked {
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abstract ngAfterContentChecked(): void;
}
/** @stable */
export declare abstract class AfterContentInit {
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abstract ngAfterContentInit(): void;
}
/** @stable */
export declare abstract class AfterViewChecked {
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abstract ngAfterViewChecked(): void;
}
/** @stable */
export declare abstract class AfterViewInit {
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abstract ngAfterViewInit(): void;
}
/** @experimental */
export declare const ANALYZE_FOR_ENTRY_COMPONENTS: OpaqueToken;
/** @experimental */
export declare function animate(timing: string | number, styles?: AnimationStyleMetadata | AnimationKeyframesSequenceMetadata): AnimationAnimateMetadata;
/** @experimental */
export declare class AnimationAnimateMetadata extends AnimationMetadata {
styles: AnimationStyleMetadata | AnimationKeyframesSequenceMetadata;
timings: string | number;
constructor(timings: string | number, styles: AnimationStyleMetadata | AnimationKeyframesSequenceMetadata);
}
/** @experimental */
export declare class AnimationEntryMetadata {
definitions: AnimationStateMetadata[];
name: string;
constructor(name: string, definitions: AnimationStateMetadata[]);
}
/** @experimental */
export declare class AnimationGroupMetadata extends AnimationWithStepsMetadata {
steps: AnimationMetadata[];
constructor(_steps: AnimationMetadata[]);
}
/** @experimental */
export declare class AnimationKeyframesSequenceMetadata extends AnimationMetadata {
steps: AnimationStyleMetadata[];
constructor(steps: AnimationStyleMetadata[]);
}
/** @experimental */
export declare abstract class AnimationMetadata {
}
/** @experimental */
export declare abstract class AnimationPlayer {
parentPlayer: AnimationPlayer;
abstract destroy(): void;
abstract finish(): void;
abstract getPosition(): number;
abstract hasStarted(): boolean;
abstract init(): void;
abstract onDone(fn: () => void): void;
abstract onStart(fn: () => void): void;
abstract pause(): void;
abstract play(): void;
abstract reset(): void;
abstract restart(): void;
abstract setPosition(p: any): void;
}
/** @experimental */
export declare class AnimationSequenceMetadata extends AnimationWithStepsMetadata {
steps: AnimationMetadata[];
constructor(_steps: AnimationMetadata[]);
}
/** @experimental */
export declare class AnimationStateDeclarationMetadata extends AnimationStateMetadata {
stateNameExpr: string;
styles: AnimationStyleMetadata;
constructor(stateNameExpr: string, styles: AnimationStyleMetadata);
}
/** @experimental */
export declare abstract class AnimationStateMetadata {
}
/** @experimental */
export declare class AnimationStateTransitionMetadata extends AnimationStateMetadata {
stateChangeExpr: string;
steps: AnimationMetadata;
constructor(stateChangeExpr: string, steps: AnimationMetadata);
}
/** @experimental */
export declare class AnimationStyleMetadata extends AnimationMetadata {
offset: number;
styles: Array<string | {
[key: string]: string | number;
}>;
constructor(styles: Array<string | {
[key: string]: string | number;
}>, offset?: number);
}
/** @experimental */
export declare class AnimationTransitionEvent {
fromState: string;
toState: string;
totalTime: number;
constructor({fromState, toState, totalTime}: {
fromState: string;
toState: string;
totalTime: number;
});
}
/** @experimental */
export declare abstract class AnimationWithStepsMetadata extends AnimationMetadata {
steps: AnimationMetadata[];
constructor();
}
/** @experimental */
export declare const APP_BOOTSTRAP_LISTENER: OpaqueToken;
/** @experimental */
export declare const APP_ID: any;
/** @experimental */
export declare const APP_INITIALIZER: any;
/** @experimental */
export declare class ApplicationInitStatus {
done: boolean;
donePromise: Promise<any>;
constructor(appInits: (() => any)[]);
}
/** @experimental */
export declare class ApplicationModule {
}
/** @stable */
export declare abstract class ApplicationRef {
componentTypes: Type<any>[];
components: ComponentRef<any>[];
abstract bootstrap<C>(componentFactory: ComponentFactory<C> | Type<C>): ComponentRef<C>;
abstract tick(): void;
}
/** @experimental */
export declare function asNativeElements(debugEls: DebugElement[]): any;
/** @experimental */
export declare function assertPlatform(requiredToken: any): PlatformRef;
/** @stable */
export declare var Attribute: AttributeMetadataFactory;
/** @stable */
export declare class AttributeMetadata extends DependencyMetadata {
attributeName: string;
token: AttributeMetadata;
constructor(attributeName: string);
toString(): string;
}
/** @stable */
export interface AttributeMetadataFactory {
(name: string): TypeDecorator;
new (name: string): AttributeMetadata;
}
/** @experimental */
export declare const AUTO_STYLE: string;
/** @stable */
export declare class BaseException extends Error {
message: string;
stack: any;
constructor(message?: string);
toString(): string;
}
/** @stable */
export declare enum ChangeDetectionStrategy {
OnPush = 0,
Default = 1,
}
/** @stable */
export declare abstract class ChangeDetectorRef {
abstract checkNoChanges(): void;
abstract detach(): void;
abstract detectChanges(): void;
abstract markForCheck(): void;
abstract reattach(): void;
}
/** @stable */
export declare function Class(clsDef: ClassDefinition): Type<any>;
/** @stable */
export interface ClassDefinition {
constructor: Function | any[];
extends?: Type<any>;
[x: string]: Type<any> | Function | any[];
}
/** @stable */
export interface ClassProvider {
multi?: boolean;
provide: any;
useClass: Type<any>;
}
/** @stable */
export declare class CollectionChangeRecord {
currentIndex: number;
item: any;
previousIndex: number;
trackById: any;
constructor(item: any, trackById: any);
toString(): string;
}
/** @stable */
export declare class Compiler {
clearCache(): void;
clearCacheFor(type: Type<any>): void;
compileModuleAndAllComponentsAsync<T>(moduleType: Type<T>): Promise<ModuleWithComponentFactories<T>>;
compileModuleAndAllComponentsSync<T>(moduleType: Type<T>): ModuleWithComponentFactories<T>;
compileModuleAsync<T>(moduleType: Type<T>): Promise<NgModuleFactory<T>>;
compileModuleSync<T>(moduleType: Type<T>): NgModuleFactory<T>;
}
/** @experimental */
export declare const COMPILER_OPTIONS: OpaqueToken;
refactor(core): clean up platform bootstrap and initTestEnvironment - Introduces `CompilerFactory` which can be part of a `PlatformRef`. - Introduces `WorkerAppModule`, `WorkerUiModule`, `ServerModule` - Introduces `serverDynamicPlatform` for applications using runtime compilation on the server. - Changes browser bootstrap for runtime and offline compilation (see below for an example). * introduces `bootstrapModule` and `bootstrapModuleFactory` in `@angular/core` * introduces new `browserDynamicPlatform` in `@angular/platform-browser-dynamic - Changes `initTestEnvironment` (which used to be `setBaseTestProviders`) to not take a compiler factory any more (see below for an example). BREAKING CHANGE: ## Migration from `setBaseTestProviders` to `initTestEnvironment`: - For the browser platform: BEFORE: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {TEST_BROWSER_DYNAMIC_PLATFORM_PROVIDERS, TEST_BROWSER_DYNAMIC_APPLICATION_PROVIDERS} from ‘@angular/platform-browser-dynamic/testing’; setBaseTestProviders(TEST_BROWSER_DYNAMIC_PLATFORM_PROVIDERS, TEST_BROWSER_DYNAMIC_APPLICATION_PROVIDERS); ``` AFTER: ``` import {initTestEnvironment} from ‘@angular/core/testing’; import {browserDynamicTestPlatform, BrowserDynamicTestModule} from ‘@angular/platform-browser-dynamic/testing’; initTestEnvironment( BrowserDynamicTestModule, browserDynamicTestPlatform()); ``` - For the server platform: BEFORE: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {TEST_SERVER_PLATFORM_PROVIDERS, TEST_SERVER_APPLICATION_PROVIDERS} from ‘@angular/platform-server/testing/server’; setBaseTestProviders(TEST_SERVER_PLATFORM_PROVIDERS, TEST_SERVER_APPLICATION_PROVIDERS); ``` AFTER: ``` import {initTestEnvironment} from ‘@angular/core/testing’; import {serverTestPlatform, ServerTestModule} from ‘@angular/platform-browser-dynamic/testing’; initTestEnvironment( ServerTestModule, serverTestPlatform()); ``` ## Bootstrap changes ``` @AppModule({ modules: [BrowserModule], precompile: [MainComponent], providers: […], // additional providers directives: […], // additional platform directives pipes: […] // additional platform pipes }) class MyModule { constructor(appRef: ApplicationRef) { appRef.bootstrap(MainComponent); } } // offline compile import {browserPlatform} from ‘@angular/platform-browser’; import {bootstrapModuleFactory} from ‘@angular/core’; bootstrapModuleFactory(MyModuleNgFactory, browserPlatform()); // runtime compile long form import {browserDynamicPlatform} from ‘@angular/platform-browser-dynamic’; import {bootstrapModule} from ‘@angular/core’; bootstrapModule(MyModule, browserDynamicPlatform()); ``` Closes #9922 Part of #9726
2016-07-08 13:47:17 -04:00
/** @experimental */
export declare abstract class CompilerFactory {
abstract createCompiler(options?: CompilerOptions[]): Compiler;
refactor(core): clean up platform bootstrap and initTestEnvironment - Introduces `CompilerFactory` which can be part of a `PlatformRef`. - Introduces `WorkerAppModule`, `WorkerUiModule`, `ServerModule` - Introduces `serverDynamicPlatform` for applications using runtime compilation on the server. - Changes browser bootstrap for runtime and offline compilation (see below for an example). * introduces `bootstrapModule` and `bootstrapModuleFactory` in `@angular/core` * introduces new `browserDynamicPlatform` in `@angular/platform-browser-dynamic - Changes `initTestEnvironment` (which used to be `setBaseTestProviders`) to not take a compiler factory any more (see below for an example). BREAKING CHANGE: ## Migration from `setBaseTestProviders` to `initTestEnvironment`: - For the browser platform: BEFORE: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {TEST_BROWSER_DYNAMIC_PLATFORM_PROVIDERS, TEST_BROWSER_DYNAMIC_APPLICATION_PROVIDERS} from ‘@angular/platform-browser-dynamic/testing’; setBaseTestProviders(TEST_BROWSER_DYNAMIC_PLATFORM_PROVIDERS, TEST_BROWSER_DYNAMIC_APPLICATION_PROVIDERS); ``` AFTER: ``` import {initTestEnvironment} from ‘@angular/core/testing’; import {browserDynamicTestPlatform, BrowserDynamicTestModule} from ‘@angular/platform-browser-dynamic/testing’; initTestEnvironment( BrowserDynamicTestModule, browserDynamicTestPlatform()); ``` - For the server platform: BEFORE: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {TEST_SERVER_PLATFORM_PROVIDERS, TEST_SERVER_APPLICATION_PROVIDERS} from ‘@angular/platform-server/testing/server’; setBaseTestProviders(TEST_SERVER_PLATFORM_PROVIDERS, TEST_SERVER_APPLICATION_PROVIDERS); ``` AFTER: ``` import {initTestEnvironment} from ‘@angular/core/testing’; import {serverTestPlatform, ServerTestModule} from ‘@angular/platform-browser-dynamic/testing’; initTestEnvironment( ServerTestModule, serverTestPlatform()); ``` ## Bootstrap changes ``` @AppModule({ modules: [BrowserModule], precompile: [MainComponent], providers: […], // additional providers directives: […], // additional platform directives pipes: […] // additional platform pipes }) class MyModule { constructor(appRef: ApplicationRef) { appRef.bootstrap(MainComponent); } } // offline compile import {browserPlatform} from ‘@angular/platform-browser’; import {bootstrapModuleFactory} from ‘@angular/core’; bootstrapModuleFactory(MyModuleNgFactory, browserPlatform()); // runtime compile long form import {browserDynamicPlatform} from ‘@angular/platform-browser-dynamic’; import {bootstrapModule} from ‘@angular/core’; bootstrapModule(MyModule, browserDynamicPlatform()); ``` Closes #9922 Part of #9726
2016-07-08 13:47:17 -04:00
}
/** @experimental */
export declare type CompilerOptions = {
useDebug?: boolean;
useJit?: boolean;
defaultEncapsulation?: ViewEncapsulation;
providers?: any[];
};
refactor(core): clean up platform bootstrap and initTestEnvironment - Introduces `CompilerFactory` which can be part of a `PlatformRef`. - Introduces `WorkerAppModule`, `WorkerUiModule`, `ServerModule` - Introduces `serverDynamicPlatform` for applications using runtime compilation on the server. - Changes browser bootstrap for runtime and offline compilation (see below for an example). * introduces `bootstrapModule` and `bootstrapModuleFactory` in `@angular/core` * introduces new `browserDynamicPlatform` in `@angular/platform-browser-dynamic - Changes `initTestEnvironment` (which used to be `setBaseTestProviders`) to not take a compiler factory any more (see below for an example). BREAKING CHANGE: ## Migration from `setBaseTestProviders` to `initTestEnvironment`: - For the browser platform: BEFORE: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {TEST_BROWSER_DYNAMIC_PLATFORM_PROVIDERS, TEST_BROWSER_DYNAMIC_APPLICATION_PROVIDERS} from ‘@angular/platform-browser-dynamic/testing’; setBaseTestProviders(TEST_BROWSER_DYNAMIC_PLATFORM_PROVIDERS, TEST_BROWSER_DYNAMIC_APPLICATION_PROVIDERS); ``` AFTER: ``` import {initTestEnvironment} from ‘@angular/core/testing’; import {browserDynamicTestPlatform, BrowserDynamicTestModule} from ‘@angular/platform-browser-dynamic/testing’; initTestEnvironment( BrowserDynamicTestModule, browserDynamicTestPlatform()); ``` - For the server platform: BEFORE: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {TEST_SERVER_PLATFORM_PROVIDERS, TEST_SERVER_APPLICATION_PROVIDERS} from ‘@angular/platform-server/testing/server’; setBaseTestProviders(TEST_SERVER_PLATFORM_PROVIDERS, TEST_SERVER_APPLICATION_PROVIDERS); ``` AFTER: ``` import {initTestEnvironment} from ‘@angular/core/testing’; import {serverTestPlatform, ServerTestModule} from ‘@angular/platform-browser-dynamic/testing’; initTestEnvironment( ServerTestModule, serverTestPlatform()); ``` ## Bootstrap changes ``` @AppModule({ modules: [BrowserModule], precompile: [MainComponent], providers: […], // additional providers directives: […], // additional platform directives pipes: […] // additional platform pipes }) class MyModule { constructor(appRef: ApplicationRef) { appRef.bootstrap(MainComponent); } } // offline compile import {browserPlatform} from ‘@angular/platform-browser’; import {bootstrapModuleFactory} from ‘@angular/core’; bootstrapModuleFactory(MyModuleNgFactory, browserPlatform()); // runtime compile long form import {browserDynamicPlatform} from ‘@angular/platform-browser-dynamic’; import {bootstrapModule} from ‘@angular/core’; bootstrapModule(MyModule, browserDynamicPlatform()); ``` Closes #9922 Part of #9726
2016-07-08 13:47:17 -04:00
/** @stable */
export declare var Component: ComponentMetadataFactory;
/** @stable */
export interface ComponentDecorator extends TypeDecorator {
}
/** @stable */
export declare class ComponentFactory<C> {
componentType: Type<any>;
selector: string;
constructor(selector: string, _viewFactory: Function, _componentType: Type<any>);
create(injector: Injector, projectableNodes?: any[][], rootSelectorOrNode?: string | any): ComponentRef<C>;
}
/** @stable */
export declare abstract class ComponentFactoryResolver {
abstract resolveComponentFactory<T>(component: Type<T>): ComponentFactory<T>;
static NULL: ComponentFactoryResolver;
}
/** @stable */
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export declare class ComponentMetadata extends DirectiveMetadata implements ComponentMetadataType {
animations: AnimationEntryMetadata[];
changeDetection: ChangeDetectionStrategy;
encapsulation: ViewEncapsulation;
entryComponents: Array<Type<any> | any[]>;
interpolation: [string, string];
moduleId: string;
styleUrls: string[];
styles: string[];
template: string;
templateUrl: string;
viewProviders: Provider[];
constructor({selector, inputs, outputs, host, exportAs, moduleId, providers, viewProviders, changeDetection, queries, templateUrl, template, styleUrls, styles, animations, encapsulation, interpolation, entryComponents}?: ComponentMetadataType);
}
/** @stable */
export interface ComponentMetadataFactory {
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(obj: ComponentMetadataType): ComponentDecorator;
new (obj: ComponentMetadataType): ComponentMetadata;
}
/** @stable */
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export interface ComponentMetadataType extends DirectiveMetadataType {
animations?: AnimationEntryMetadata[];
changeDetection?: ChangeDetectionStrategy;
encapsulation?: ViewEncapsulation;
entryComponents?: Array<Type<any> | any[]>;
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interpolation?: [string, string];
moduleId?: string;
styleUrls?: string[];
styles?: string[];
template?: string;
templateUrl?: string;
viewProviders?: any[];
}
/** @stable */
export declare abstract class ComponentRef<C> {
changeDetectorRef: ChangeDetectorRef;
componentType: Type<any>;
hostView: ViewRef;
injector: Injector;
instance: C;
location: ElementRef;
abstract destroy(): void;
abstract onDestroy(callback: Function): void;
}
feat(testing): add implicit test module Every test now has an implicit module. It can be configured via `configureModule` (from @angular/core/testing) to add providers, directives, pipes, ... The compiler now has to be configured separately via `configureCompiler` (from @angular/core/testing) to add providers or define whether to use jit. BREAKING CHANGE: - Application providers can no longer inject compiler internals (i.e. everything from `@angular/compiler). Inject `Compiler` instead. This reflects the changes to `bootstrap` for module support (3f55aa609f60f130f1d69188ed057214b1267cb3). - Compiler providers can no longer be added via `addProviders` / `withProviders`. Use the new method `configureCompiler` instead. - Platform directives / pipes need to be provided via `configureModule` and can no longer be provided via the `PLATFORM_PIPES` / `PLATFORM_DIRECTIVES` tokens. - `setBaseTestProviders()` was renamed into `initTestEnvironment` and now takes a `PlatformRef` and a factory for a `Compiler`. - E.g. for the browser platform: BEFORE: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {TEST_BROWSER_DYNAMIC_PLATFORM_PROVIDERS, TEST_BROWSER_DYNAMIC_APPLICATION_PROVIDERS} from ‘@angular/platform-browser-dynamic/testing’; setBaseTestProviders(TEST_BROWSER_DYNAMIC_PLATFORM_PROVIDERS, TEST_BROWSER_DYNAMIC_APPLICATION_PROVIDERS); ``` AFTER: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {browserTestCompiler, browserDynamicTestPlatform, BrowserDynamicTestModule} from ‘@angular/platform-browser-dynamic/testing’; initTestEnvironment( browserTestCompiler, browserDynamicTestPlatform(), BrowserDynamicTestModule); ``` - E.g. for the server platform: BEFORE: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {TEST_SERVER_PLATFORM_PROVIDERS, TEST_SERVER_APPLICATION_PROVIDERS} from ‘@angular/platform-server/testing/server’; setBaseTestProviders(TEST_SERVER_PLATFORM_PROVIDERS, TEST_SERVER_APPLICATION_PROVIDERS); ``` AFTER: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {serverTestCompiler, serverTestPlatform, ServerTestModule} from ‘@angular/platform-browser-dynamic/testing’; initTestEnvironment( serverTestCompiler, serverTestPlatform(), ServerTestModule); ``` Related to #9726 Closes #9846
2016-07-04 12:37:30 -04:00
/** @stable */
export declare class ComponentStillLoadingError extends BaseException {
compType: Type<any>;
constructor(compType: Type<any>);
feat(testing): add implicit test module Every test now has an implicit module. It can be configured via `configureModule` (from @angular/core/testing) to add providers, directives, pipes, ... The compiler now has to be configured separately via `configureCompiler` (from @angular/core/testing) to add providers or define whether to use jit. BREAKING CHANGE: - Application providers can no longer inject compiler internals (i.e. everything from `@angular/compiler). Inject `Compiler` instead. This reflects the changes to `bootstrap` for module support (3f55aa609f60f130f1d69188ed057214b1267cb3). - Compiler providers can no longer be added via `addProviders` / `withProviders`. Use the new method `configureCompiler` instead. - Platform directives / pipes need to be provided via `configureModule` and can no longer be provided via the `PLATFORM_PIPES` / `PLATFORM_DIRECTIVES` tokens. - `setBaseTestProviders()` was renamed into `initTestEnvironment` and now takes a `PlatformRef` and a factory for a `Compiler`. - E.g. for the browser platform: BEFORE: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {TEST_BROWSER_DYNAMIC_PLATFORM_PROVIDERS, TEST_BROWSER_DYNAMIC_APPLICATION_PROVIDERS} from ‘@angular/platform-browser-dynamic/testing’; setBaseTestProviders(TEST_BROWSER_DYNAMIC_PLATFORM_PROVIDERS, TEST_BROWSER_DYNAMIC_APPLICATION_PROVIDERS); ``` AFTER: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {browserTestCompiler, browserDynamicTestPlatform, BrowserDynamicTestModule} from ‘@angular/platform-browser-dynamic/testing’; initTestEnvironment( browserTestCompiler, browserDynamicTestPlatform(), BrowserDynamicTestModule); ``` - E.g. for the server platform: BEFORE: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {TEST_SERVER_PLATFORM_PROVIDERS, TEST_SERVER_APPLICATION_PROVIDERS} from ‘@angular/platform-server/testing/server’; setBaseTestProviders(TEST_SERVER_PLATFORM_PROVIDERS, TEST_SERVER_APPLICATION_PROVIDERS); ``` AFTER: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {serverTestCompiler, serverTestPlatform, ServerTestModule} from ‘@angular/platform-browser-dynamic/testing’; initTestEnvironment( serverTestCompiler, serverTestPlatform(), ServerTestModule); ``` Related to #9726 Closes #9846
2016-07-04 12:37:30 -04:00
}
/** @stable */
export declare var ContentChild: ContentChildMetadataFactory;
/** @stable */
export declare class ContentChildMetadata extends QueryMetadata {
constructor(_selector: Type<any> | string, {read}?: {
read?: any;
});
}
/** @stable */
export interface ContentChildMetadataFactory {
(selector: Type<any> | Function | string, {read}?: {
read?: any;
}): any;
new (selector: Type<any> | Function | string, {read}?: {
read?: any;
}): ContentChildMetadataFactory;
}
/** @stable */
export declare var ContentChildren: ContentChildrenMetadataFactory;
/** @stable */
export declare class ContentChildrenMetadata extends QueryMetadata {
constructor(_selector: Type<any> | string, {descendants, read}?: {
descendants?: boolean;
read?: any;
});
}
/** @stable */
export interface ContentChildrenMetadataFactory {
(selector: Type<any> | Function | string, {descendants, read}?: {
descendants?: boolean;
read?: any;
}): any;
new (selector: Type<any> | Function | string, {descendants, read}?: {
descendants?: boolean;
read?: any;
}): ContentChildrenMetadata;
}
/** @experimental */
export declare function createPlatform(injector: Injector): PlatformRef;
refactor(core): clean up platform bootstrap and initTestEnvironment - Introduces `CompilerFactory` which can be part of a `PlatformRef`. - Introduces `WorkerAppModule`, `WorkerUiModule`, `ServerModule` - Introduces `serverDynamicPlatform` for applications using runtime compilation on the server. - Changes browser bootstrap for runtime and offline compilation (see below for an example). * introduces `bootstrapModule` and `bootstrapModuleFactory` in `@angular/core` * introduces new `browserDynamicPlatform` in `@angular/platform-browser-dynamic - Changes `initTestEnvironment` (which used to be `setBaseTestProviders`) to not take a compiler factory any more (see below for an example). BREAKING CHANGE: ## Migration from `setBaseTestProviders` to `initTestEnvironment`: - For the browser platform: BEFORE: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {TEST_BROWSER_DYNAMIC_PLATFORM_PROVIDERS, TEST_BROWSER_DYNAMIC_APPLICATION_PROVIDERS} from ‘@angular/platform-browser-dynamic/testing’; setBaseTestProviders(TEST_BROWSER_DYNAMIC_PLATFORM_PROVIDERS, TEST_BROWSER_DYNAMIC_APPLICATION_PROVIDERS); ``` AFTER: ``` import {initTestEnvironment} from ‘@angular/core/testing’; import {browserDynamicTestPlatform, BrowserDynamicTestModule} from ‘@angular/platform-browser-dynamic/testing’; initTestEnvironment( BrowserDynamicTestModule, browserDynamicTestPlatform()); ``` - For the server platform: BEFORE: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {TEST_SERVER_PLATFORM_PROVIDERS, TEST_SERVER_APPLICATION_PROVIDERS} from ‘@angular/platform-server/testing/server’; setBaseTestProviders(TEST_SERVER_PLATFORM_PROVIDERS, TEST_SERVER_APPLICATION_PROVIDERS); ``` AFTER: ``` import {initTestEnvironment} from ‘@angular/core/testing’; import {serverTestPlatform, ServerTestModule} from ‘@angular/platform-browser-dynamic/testing’; initTestEnvironment( ServerTestModule, serverTestPlatform()); ``` ## Bootstrap changes ``` @AppModule({ modules: [BrowserModule], precompile: [MainComponent], providers: […], // additional providers directives: […], // additional platform directives pipes: […] // additional platform pipes }) class MyModule { constructor(appRef: ApplicationRef) { appRef.bootstrap(MainComponent); } } // offline compile import {browserPlatform} from ‘@angular/platform-browser’; import {bootstrapModuleFactory} from ‘@angular/core’; bootstrapModuleFactory(MyModuleNgFactory, browserPlatform()); // runtime compile long form import {browserDynamicPlatform} from ‘@angular/platform-browser-dynamic’; import {bootstrapModule} from ‘@angular/core’; bootstrapModule(MyModule, browserDynamicPlatform()); ``` Closes #9922 Part of #9726
2016-07-08 13:47:17 -04:00
/** @experimental */
export declare function createPlatformFactory(parentPlaformFactory: PlatformFactory, name: string, providers?: Provider[]): PlatformFactory;
refactor(core): clean up platform bootstrap and initTestEnvironment - Introduces `CompilerFactory` which can be part of a `PlatformRef`. - Introduces `WorkerAppModule`, `WorkerUiModule`, `ServerModule` - Introduces `serverDynamicPlatform` for applications using runtime compilation on the server. - Changes browser bootstrap for runtime and offline compilation (see below for an example). * introduces `bootstrapModule` and `bootstrapModuleFactory` in `@angular/core` * introduces new `browserDynamicPlatform` in `@angular/platform-browser-dynamic - Changes `initTestEnvironment` (which used to be `setBaseTestProviders`) to not take a compiler factory any more (see below for an example). BREAKING CHANGE: ## Migration from `setBaseTestProviders` to `initTestEnvironment`: - For the browser platform: BEFORE: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {TEST_BROWSER_DYNAMIC_PLATFORM_PROVIDERS, TEST_BROWSER_DYNAMIC_APPLICATION_PROVIDERS} from ‘@angular/platform-browser-dynamic/testing’; setBaseTestProviders(TEST_BROWSER_DYNAMIC_PLATFORM_PROVIDERS, TEST_BROWSER_DYNAMIC_APPLICATION_PROVIDERS); ``` AFTER: ``` import {initTestEnvironment} from ‘@angular/core/testing’; import {browserDynamicTestPlatform, BrowserDynamicTestModule} from ‘@angular/platform-browser-dynamic/testing’; initTestEnvironment( BrowserDynamicTestModule, browserDynamicTestPlatform()); ``` - For the server platform: BEFORE: ``` import {setBaseTestProviders} from ‘@angular/core/testing’; import {TEST_SERVER_PLATFORM_PROVIDERS, TEST_SERVER_APPLICATION_PROVIDERS} from ‘@angular/platform-server/testing/server’; setBaseTestProviders(TEST_SERVER_PLATFORM_PROVIDERS, TEST_SERVER_APPLICATION_PROVIDERS); ``` AFTER: ``` import {initTestEnvironment} from ‘@angular/core/testing’; import {serverTestPlatform, ServerTestModule} from ‘@angular/platform-browser-dynamic/testing’; initTestEnvironment( ServerTestModule, serverTestPlatform()); ``` ## Bootstrap changes ``` @AppModule({ modules: [BrowserModule], precompile: [MainComponent], providers: […], // additional providers directives: […], // additional platform directives pipes: […] // additional platform pipes }) class MyModule { constructor(appRef: ApplicationRef) { appRef.bootstrap(MainComponent); } } // offline compile import {browserPlatform} from ‘@angular/platform-browser’; import {bootstrapModuleFactory} from ‘@angular/core’; bootstrapModuleFactory(MyModuleNgFactory, browserPlatform()); // runtime compile long form import {browserDynamicPlatform} from ‘@angular/platform-browser-dynamic’; import {bootstrapModule} from ‘@angular/core’; bootstrapModule(MyModule, browserDynamicPlatform()); ``` Closes #9922 Part of #9726
2016-07-08 13:47:17 -04:00
/** @stable */
export declare const CUSTOM_ELEMENTS_SCHEMA: SchemaMetadata;
/** @stable */
export declare class CyclicDependencyError extends AbstractProviderError {
constructor(injector: ReflectiveInjector, key: ReflectiveKey);
}
/** @experimental */
export declare class DebugElement extends DebugNode {
attributes: {
[key: string]: string;
};
childNodes: DebugNode[];
children: DebugElement[];
classes: {
[key: string]: boolean;
};
name: string;
nativeElement: any;
properties: {
[key: string]: any;
};
styles: {
[key: string]: string;
};
constructor(nativeNode: any, parent: any, _debugInfo: RenderDebugInfo);
addChild(child: DebugNode): void;
insertChildrenAfter(child: DebugNode, newChildren: DebugNode[]): void;
query(predicate: Predicate<DebugElement>): DebugElement;
queryAll(predicate: Predicate<DebugElement>): DebugElement[];
queryAllNodes(predicate: Predicate<DebugNode>): DebugNode[];
removeChild(child: DebugNode): void;
triggerEventHandler(eventName: string, eventObj: any): void;
}
/** @experimental */
export declare class DebugNode {
componentInstance: any;
context: any;
injector: Injector;
listeners: EventListener[];
nativeNode: any;
parent: DebugElement;
providerTokens: any[];
references: {
[key: string]: any;
};
source: string;
constructor(nativeNode: any, parent: DebugNode, _debugInfo: RenderDebugInfo);
}
/** @stable */
export declare class DefaultIterableDiffer implements IterableDiffer {
collection: any;
isDirty: boolean;
length: number;
constructor(_trackByFn?: TrackByFn);
check(collection: any): boolean;
diff(collection: any): DefaultIterableDiffer;
forEachAddedItem(fn: Function): void;
forEachIdentityChange(fn: Function): void;
forEachItem(fn: Function): void;
forEachMovedItem(fn: Function): void;
forEachOperation(fn: (item: CollectionChangeRecord, previousIndex: number, currentIndex: number) => void): void;
forEachPreviousItem(fn: Function): void;
forEachRemovedItem(fn: Function): void;
onDestroy(): void;
toString(): string;
}
/** @experimental */
export declare function destroyPlatform(): void;
/** @stable */
export declare var Directive: DirectiveMetadataFactory;
/** @stable */
export interface DirectiveDecorator extends TypeDecorator {
}
/** @stable */
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export declare class DirectiveMetadata extends InjectableMetadata implements DirectiveMetadataType {
exportAs: string;
host: {
[key: string]: string;
};
inputs: string[];
outputs: string[];
providers: Provider[];
queries: {
[key: string]: any;
};
selector: string;
constructor({selector, inputs, outputs, host, providers, exportAs, queries}?: DirectiveMetadataType);
}
/** @stable */
export interface DirectiveMetadataFactory {
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(obj: DirectiveMetadataType): DirectiveDecorator;
new (obj: DirectiveMetadataType): DirectiveMetadata;
}
/** @stable */
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export interface DirectiveMetadataType {
exportAs?: string;
host?: {
[key: string]: string;
};
inputs?: string[];
outputs?: string[];
providers?: any[];
queries?: {
[key: string]: any;
};
selector?: string;
}
/** @stable */
export declare abstract class DoCheck {
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abstract ngDoCheck(): void;
}
/** @stable */
export declare class ElementRef {
/** @stable */ nativeElement: any;
constructor(nativeElement: any);
}
/** @experimental */
export declare abstract class EmbeddedViewRef<C> extends ViewRef {
context: C;
rootNodes: any[];
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abstract destroy(): void;
}
/** @stable */
export declare function enableProdMode(): void;
/** @stable */
export declare class EventEmitter<T> extends Subject<T> {
__isAsync: boolean;
constructor(isAsync?: boolean);
emit(value?: T): void;
subscribe(generatorOrNext?: any, error?: any, complete?: any): any;
}
/** @stable */
export declare class ExceptionHandler {
constructor(_logger: any, _rethrowException?: boolean);
call(exception: any, stackTrace?: any, reason?: string): void;
static exceptionToString(exception: any, stackTrace?: any, reason?: string): string;
}
/** @stable */
export interface ExistingProvider {
multi?: boolean;
provide: any;
useExisting: any;
}
/** @stable */
export declare class ExpressionChangedAfterItHasBeenCheckedException extends BaseException {
constructor(oldValue: any, currValue: any, context: any);
}
/** @stable */
export interface FactoryProvider {
deps?: any[];
multi?: boolean;
provide: any;
useFactory: Function;
}
/** @experimental */
export declare function forwardRef(forwardRefFn: ForwardRefFn): Type<any>;
/** @experimental */
export interface ForwardRefFn {
(): any;
}
/** @experimental */
export declare function getDebugNode(nativeNode: any): DebugNode;
/** @experimental */
export declare function getPlatform(): PlatformRef;
/** @experimental */
export interface GetTestability {
addToWindow(registry: TestabilityRegistry): void;
findTestabilityInTree(registry: TestabilityRegistry, elem: any, findInAncestors: boolean): Testability;
}
/** @experimental */
export declare function group(steps: AnimationMetadata[]): AnimationGroupMetadata;
/** @stable */
export declare var Host: HostMetadataFactory;
/** @stable */
export declare var HostBinding: HostBindingMetadataFactory;
/** @stable */
export declare class HostBindingMetadata {
hostPropertyName: string;
constructor(hostPropertyName?: string);
}
/** @stable */
export interface HostBindingMetadataFactory {
(hostPropertyName?: string): any;
new (hostPropertyName?: string): any;
}
/** @stable */
export declare var HostListener: HostListenerMetadataFactory;
/** @stable */
export declare class HostListenerMetadata {
args: string[];
eventName: string;
constructor(eventName: string, args?: string[]);
}
/** @stable */
export interface HostListenerMetadataFactory {
(eventName: string, args?: string[]): any;
new (eventName: string, args?: string[]): any;
}
/** @stable */
export declare class HostMetadata {
toString(): string;
}
/** @stable */
export interface HostMetadataFactory {
(): any;
new (): HostMetadata;
}
/** @stable */
export declare var Inject: InjectMetadataFactory;
/** @stable */
export declare var Injectable: InjectableMetadataFactory;
/** @stable */
export declare class InjectableMetadata {
constructor();
}
/** @stable */
export interface InjectableMetadataFactory {
(): any;
new (): InjectableMetadata;
}
/** @stable */
export declare class InjectMetadata {
token: any;
constructor(token: any);
toString(): string;
}
/** @stable */
export interface InjectMetadataFactory {
(token: any): any;
new (token: any): InjectMetadata;
}
/** @stable */
export declare abstract class Injector {
get(token: any, notFoundValue?: any): any;
static NULL: Injector;
static THROW_IF_NOT_FOUND: Object;
}
/** @stable */
export declare var Input: InputMetadataFactory;
/** @stable */
export declare class InputMetadata {
bindingPropertyName: string;
constructor(
bindingPropertyName?: string);
}
/** @stable */
export interface InputMetadataFactory {
(bindingPropertyName?: string): any;
new (bindingPropertyName?: string): any;
}
/** @stable */
export declare class InstantiationError extends WrappedException {
causeKey: ReflectiveKey;
context: any;
wrapperMessage: string;
constructor(injector: ReflectiveInjector, originalException: any, originalStack: any, key: ReflectiveKey);
addKey(injector: ReflectiveInjector, key: ReflectiveKey): void;
}
/** @stable */
export declare class InvalidProviderError extends BaseException {
constructor(provider: any);
}
/** @experimental */
export declare function isDevMode(): boolean;
/** @stable */
export interface IterableDiffer {
diff(object: any): any;
onDestroy(): any;
}
/** @stable */
export interface IterableDifferFactory {
create(cdRef: ChangeDetectorRef, trackByFn?: TrackByFn): IterableDiffer;
supports(objects: any): boolean;
}
/** @stable */
export declare class IterableDiffers {
factories: IterableDifferFactory[];
constructor(factories: IterableDifferFactory[]);
find(iterable: any): IterableDifferFactory;
static create(factories: IterableDifferFactory[], parent?: IterableDiffers): IterableDiffers;
static extend(factories: IterableDifferFactory[]): Provider;
}
/** @experimental */
export declare function keyframes(steps: AnimationStyleMetadata[]): AnimationKeyframesSequenceMetadata;
/** @stable */
export declare class KeyValueChangeRecord {
currentValue: any;
key: any;
previousValue: any;
constructor(key: any);
toString(): string;
}
/** @stable */
export interface KeyValueDiffer {
diff(object: any): any;
onDestroy(): any;
}
/** @stable */
export interface KeyValueDifferFactory {
create(cdRef: ChangeDetectorRef): KeyValueDiffer;
supports(objects: any): boolean;
}
/** @stable */
export declare class KeyValueDiffers {
factories: KeyValueDifferFactory[];
constructor(factories: KeyValueDifferFactory[]);
find(kv: Object): KeyValueDifferFactory;
static create(factories: KeyValueDifferFactory[], parent?: KeyValueDiffers): KeyValueDiffers;
static extend(factories: KeyValueDifferFactory[]): Provider;
}
/** @experimental */
export declare const LOCALE_ID: OpaqueToken;
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/** @experimental */
export declare class ModuleWithComponentFactories<T> {
componentFactories: ComponentFactory<any>[];
ngModuleFactory: NgModuleFactory<T>;
constructor(ngModuleFactory: NgModuleFactory<T>, componentFactories: ComponentFactory<any>[]);
}
/** @stable */
export interface ModuleWithProviders {
ngModule: Type<any>;
providers?: Provider[];
}
/** @stable */
export declare var NgModule: NgModuleMetadataFactory;
/** @stable */
export interface NgModuleDecorator extends TypeDecorator {
}
/** @experimental */
export declare class NgModuleFactory<T> {
moduleType: Type<T>;
constructor(_injectorClass: {
new (parentInjector: Injector): NgModuleInjector<T>;
}, _moduleType: Type<T>);
create(parentInjector: Injector): NgModuleRef<T>;
}
/** @stable */
export declare abstract class NgModuleFactoryLoader {
abstract load(path: string): Promise<NgModuleFactory<any>>;
}
/** @stable */
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export declare class NgModuleMetadata extends InjectableMetadata implements NgModuleMetadataType {
bootstrap: Array<Type<any> | any[]>;
declarations: Array<Type<any> | any[]>;
entryComponents: Array<Type<any> | any[]>;
exports: Array<Type<any> | any[]>;
imports: Array<Type<any> | ModuleWithProviders | any[]>;
providers: Provider[];
schemas: Array<SchemaMetadata | any[]>;
constructor(options?: NgModuleMetadataType);
}
/** @stable */
export interface NgModuleMetadataFactory {
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(obj?: NgModuleMetadataType): NgModuleDecorator;
new (obj?: NgModuleMetadataType): NgModuleMetadata;
}
/** @stable */
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export interface NgModuleMetadataType {
bootstrap?: Array<Type<any> | any[]>;
declarations?: Array<Type<any> | any[]>;
entryComponents?: Array<Type<any> | any[]>;
exports?: Array<Type<any> | any[]>;
imports?: Array<Type<any> | ModuleWithProviders | any[]>;
providers?: Provider[];
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schemas?: Array<SchemaMetadata | any[]>;
}
/** @stable */
export declare abstract class NgModuleRef<T> {
componentFactoryResolver: ComponentFactoryResolver;
injector: Injector;
instance: T;
abstract destroy(): void;
abstract onDestroy(callback: () => void): void;
}
/** @experimental */
export declare class NgZone {
hasPendingMacrotasks: boolean;
hasPendingMicrotasks: boolean;
isStable: boolean;
onError: EventEmitter<any>;
onMicrotaskEmpty: EventEmitter<any>;
onStable: EventEmitter<any>;
onUnstable: EventEmitter<any>;
constructor({enableLongStackTrace}: {
enableLongStackTrace?: boolean;
});
run(fn: () => any): any;
runGuarded(fn: () => any): any;
runOutsideAngular(fn: () => any): any;
static assertInAngularZone(): void;
static assertNotInAngularZone(): void;
static isInAngularZone(): boolean;
}
/** @experimental */
export declare const NO_ERRORS_SCHEMA: SchemaMetadata;
/** @stable */
export declare class NoAnnotationError extends BaseException {
constructor(typeOrFunc: Type<any> | Function, params: any[][]);
}
/** @stable */
export declare class NoComponentFactoryError extends BaseException {
component: Function;
constructor(component: Function);
}
/** @stable */
export declare class NoProviderError extends AbstractProviderError {
constructor(injector: ReflectiveInjector, key: ReflectiveKey);
}
/** @stable */
export declare abstract class OnChanges {
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abstract ngOnChanges(changes: SimpleChanges): void;
}
/** @stable */
export declare abstract class OnDestroy {
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abstract ngOnDestroy(): void;
}
/** @stable */
export declare abstract class OnInit {
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abstract ngOnInit(): void;
}
/** @stable */
export declare class OpaqueToken {
constructor(_desc: string);
toString(): string;
}
/** @stable */
export declare var Optional: OptionalMetadataFactory;
/** @stable */
export declare class OptionalMetadata {
toString(): string;
}
/** @stable */
export interface OptionalMetadataFactory {
(): any;
new (): OptionalMetadata;
}
/** @stable */
export declare class OutOfBoundsError extends BaseException {
constructor(index: number);
}
/** @stable */
export declare var Output: OutputMetadataFactory;
/** @stable */
export declare class OutputMetadata {
bindingPropertyName: string;
constructor(bindingPropertyName?: string);
}
/** @stable */
export interface OutputMetadataFactory {
(bindingPropertyName?: string): any;
new (bindingPropertyName?: string): any;
}
/** @experimental */
export declare const PACKAGE_ROOT_URL: any;
/** @stable */
export declare var Pipe: PipeMetadataFactory;
/** @stable */
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export declare class PipeMetadata extends InjectableMetadata implements PipeMetadataType {
name: string;
pure: boolean;
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constructor({name, pure}: PipeMetadataType);
}
/** @stable */
export interface PipeMetadataFactory {
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(obj: PipeMetadataType): any;
new (obj: PipeMetadataType): any;
}
/** @stable */
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export interface PipeMetadataType {
name: string;
pure?: boolean;
}
/** @stable */
export interface PipeTransform {
transform(value: any, ...args: any[]): any;
}
/** @experimental */
export declare const PLATFORM_INITIALIZER: any;
/** @experimental */
export declare const platformCore: (extraProviders?: (TypeProvider | ValueProvider | ClassProvider | ExistingProvider | FactoryProvider | any[])[]) => PlatformRef;
/** @stable */
export declare abstract class PlatformRef {
destroyed: boolean;
injector: Injector;
/** @stable */ bootstrapModule<M>(moduleType: Type<M>, compilerOptions?: CompilerOptions | CompilerOptions[]): Promise<NgModuleRef<M>>;
/** @experimental */ bootstrapModuleFactory<M>(moduleFactory: NgModuleFactory<M>): Promise<NgModuleRef<M>>;
abstract destroy(): void;
abstract onDestroy(callback: () => void): void;
}
/** @stable */
export declare type Provider = TypeProvider | ValueProvider | ClassProvider | ExistingProvider | FactoryProvider | any[];
/** @stable */
export declare class QueryList<T> {
changes: Observable<any>;
dirty: boolean;
first: T;
last: T;
length: number;
filter(fn: (item: T, index: number, array: T[]) => boolean): T[];
forEach(fn: (item: T, index: number, array: T[]) => void): void;
map<U>(fn: (item: T, index: number, array: T[]) => U): U[];
notifyOnChanges(): void;
reduce<U>(fn: (prevValue: U, curValue: T, curIndex: number, array: T[]) => U, init: U): U;
reset(res: Array<T | any[]>): void;
setDirty(): void;
some(fn: (value: T, index: number, array: T[]) => boolean): boolean;
toArray(): T[];
toString(): string;
}
/** @stable */
export declare class QueryMetadata extends DependencyMetadata {
descendants: boolean;
first: boolean;
isVarBindingQuery: boolean;
isViewQuery: boolean;
read: any;
selector: any;
varBindings: string[];
constructor(_selector: Type<any> | string, {descendants, first, read}?: {
descendants?: boolean;
first?: boolean;
read?: any;
});
toString(): string;
}
/** @stable */
export declare abstract class ReflectiveInjector implements Injector {
parent: Injector;
createChildFromResolved(providers: ResolvedReflectiveProvider[]): ReflectiveInjector;
abstract get(token: any, notFoundValue?: any): any;
instantiateResolved(provider: ResolvedReflectiveProvider): any;
resolveAndCreateChild(providers: Provider[]): ReflectiveInjector;
resolveAndInstantiate(provider: Provider): any;
/** @experimental */ static fromResolvedProviders(providers: ResolvedReflectiveProvider[], parent?: Injector): ReflectiveInjector;
static resolve(providers: Provider[]): ResolvedReflectiveProvider[];
static resolveAndCreate(providers: Provider[], parent?: Injector): ReflectiveInjector;
}
/** @experimental */
export declare class ReflectiveKey {
displayName: string;
id: number;
token: Object;
constructor(token: Object, id: number);
static numberOfKeys: number;
static get(token: Object): ReflectiveKey;
}
/** @experimental */
export declare class RenderComponentType {
animations: {
[key: string]: Function;
};
encapsulation: ViewEncapsulation;
id: string;
slotCount: number;
styles: Array<string | any[]>;
templateUrl: string;
constructor(id: string, templateUrl: string, slotCount: number, encapsulation: ViewEncapsulation, styles: Array<string | any[]>, animations: {
[key: string]: Function;
});
}
/** @experimental */
export declare abstract class Renderer {
abstract animate(element: any, startingStyles: AnimationStyles, keyframes: AnimationKeyframe[], duration: number, delay: number, easing: string): AnimationPlayer;
abstract attachViewAfter(node: any, viewRootNodes: any[]): void;
abstract createElement(parentElement: any, name: string, debugInfo?: RenderDebugInfo): any;
abstract createTemplateAnchor(parentElement: any, debugInfo?: RenderDebugInfo): any;
abstract createText(parentElement: any, value: string, debugInfo?: RenderDebugInfo): any;
abstract createViewRoot(hostElement: any): any;
abstract destroyView(hostElement: any, viewAllNodes: any[]): void;
abstract detachView(viewRootNodes: any[]): void;
abstract invokeElementMethod(renderElement: any, methodName: string, args?: any[]): void;
abstract listen(renderElement: any, name: string, callback: Function): Function;
abstract listenGlobal(target: string, name: string, callback: Function): Function;
abstract projectNodes(parentElement: any, nodes: any[]): void;
abstract selectRootElement(selectorOrNode: string | any, debugInfo?: RenderDebugInfo): any;
abstract setBindingDebugInfo(renderElement: any, propertyName: string, propertyValue: string): void;
abstract setElementAttribute(renderElement: any, attributeName: string, attributeValue: string): void;
abstract setElementClass(renderElement: any, className: string, isAdd: boolean): void;
abstract setElementProperty(renderElement: any, propertyName: string, propertyValue: any): void;
abstract setElementStyle(renderElement: any, styleName: string, styleValue: string): void;
abstract setText(renderNode: any, text: string): void;
}
/** @experimental */
export declare class ResolvedReflectiveFactory {
dependencies: ReflectiveDependency[];
factory: Function;
constructor(
factory: Function,
dependencies: ReflectiveDependency[]);
}
/** @experimental */
export interface ResolvedReflectiveProvider {
key: ReflectiveKey;
multiProvider: boolean;
resolvedFactories: ResolvedReflectiveFactory[];
}
/** @experimental */
export declare function resolveForwardRef(type: any): any;
/** @experimental */
export declare abstract class RootRenderer {
abstract renderComponent(componentType: RenderComponentType): Renderer;
}
/** @stable */
export declare abstract class SanitizationService {
abstract sanitize(context: SecurityContext, value: string): string;
}
/** @experimental */
export interface SchemaMetadata {
name: string;
}
/** @stable */
export declare enum SecurityContext {
NONE = 0,
HTML = 1,
STYLE = 2,
SCRIPT = 3,
URL = 4,
RESOURCE_URL = 5,
}
/** @stable */
export declare var Self: SelfMetadataFactory;
/** @stable */
export declare class SelfMetadata {
toString(): string;
}
/** @stable */
export interface SelfMetadataFactory {
(): any;
new (): SelfMetadata;
}
/** @experimental */
export declare function sequence(steps: AnimationMetadata[]): AnimationSequenceMetadata;
/** @experimental */
export declare function setTestabilityGetter(getter: GetTestability): void;
/** @stable */
export declare class SimpleChange {
currentValue: any;
previousValue: any;
constructor(previousValue: any, currentValue: any);
isFirstChange(): boolean;
}
/** @stable */
export interface SimpleChanges {
[propName: string]: SimpleChange;
}
/** @stable */
export declare var SkipSelf: SkipSelfMetadataFactory;
/** @stable */
export declare class SkipSelfMetadata {
toString(): string;
}
/** @stable */
export interface SkipSelfMetadataFactory {
(): any;
new (): SkipSelfMetadata;
}
/** @experimental */
export declare function state(stateNameExpr: string, styles: AnimationStyleMetadata): AnimationStateDeclarationMetadata;
/** @experimental */
export declare function style(tokens: string | {
[key: string]: string | number;
} | Array<string | {
[key: string]: string | number;
}>): AnimationStyleMetadata;
/** @experimental */
export declare class SystemJsNgModuleLoader implements NgModuleFactoryLoader {
constructor(_compiler: Compiler, config?: SystemJsNgModuleLoaderConfig);
load(path: string): Promise<NgModuleFactory<any>>;
}
/** @experimental */
export declare abstract class SystemJsNgModuleLoaderConfig {
factoryPathPrefix: string;
factoryPathSuffix: string;
}
/** @stable */
export declare abstract class TemplateRef<C> {
elementRef: ElementRef;
abstract createEmbeddedView(context: C): EmbeddedViewRef<C>;
}
/** @experimental */
export declare class Testability {
constructor(_ngZone: NgZone);
decreasePendingRequestCount(): number;
findBindings(using: any, provider: string, exactMatch: boolean): any[];
findProviders(using: any, provider: string, exactMatch: boolean): any[];
getPendingRequestCount(): number;
increasePendingRequestCount(): number;
isStable(): boolean;
whenStable(callback: Function): void;
}
/** @experimental */
export declare class TestabilityRegistry {
constructor();
findTestabilityInTree(elem: Node, findInAncestors?: boolean): Testability;
getAllRootElements(): any[];
getAllTestabilities(): Testability[];
getTestability(elem: any): Testability;
registerApplication(token: any, testability: Testability): void;
}
/** @stable */
export interface TrackByFn {
(index: number, item: any): any;
}
/** @experimental */
export declare function transition(stateChangeExpr: string, steps: AnimationMetadata | AnimationMetadata[]): AnimationStateTransitionMetadata;
/** @experimental */
export declare const TRANSLATIONS: OpaqueToken;
/** @experimental */
export declare const TRANSLATIONS_FORMAT: OpaqueToken;
/** @experimental */
export declare function trigger(name: string, animation: AnimationMetadata[]): AnimationEntryMetadata;
/** @stable */
export declare var Type: FunctionConstructor;
/** @stable */
export interface TypeDecorator {
annotations: any[];
(target: Object, propertyKey?: string | symbol, parameterIndex?: number): void;
<T extends Type<any>>(type: T): T;
Class(obj: ClassDefinition): Type<any>;
}
/** @stable */
export interface TypeProvider extends Type<any> {
}
/** @stable */
export interface ValueProvider {
multi?: boolean;
provide: any;
useValue: any;
}
/** @stable */
export declare var ViewChild: ViewChildMetadataFactory;
/** @stable */
export declare class ViewChildMetadata extends ViewQueryMetadata {
constructor(_selector: Type<any> | string, {read}?: {
read?: any;
});
}
/** @stable */
export interface ViewChildMetadataFactory {
(selector: Type<any> | Function | string, {read}?: {
read?: any;
}): any;
new (selector: Type<any> | Function | string, {read}?: {
read?: any;
}): ViewChildMetadataFactory;
}
/** @stable */
export declare var ViewChildren: ViewChildrenMetadataFactory;
/** @stable */
export declare class ViewChildrenMetadata extends ViewQueryMetadata {
constructor(_selector: Type<any> | string, {read}?: {
read?: any;
});
toString(): string;
}
/** @stable */
export interface ViewChildrenMetadataFactory {
(selector: Type<any> | Function | string, {read}?: {
read?: any;
}): any;
new (selector: Type<any> | Function | string, {read}?: {
read?: any;
}): ViewChildrenMetadata;
}
/** @stable */
export declare abstract class ViewContainerRef {
element: ElementRef;
injector: Injector;
length: number;
parentInjector: Injector;
abstract clear(): void;
abstract createComponent<C>(componentFactory: ComponentFactory<C>, index?: number, injector?: Injector, projectableNodes?: any[][]): ComponentRef<C>;
abstract createEmbeddedView<C>(templateRef: TemplateRef<C>, context?: C, index?: number): EmbeddedViewRef<C>;
abstract detach(index?: number): ViewRef;
abstract get(index: number): ViewRef;
abstract indexOf(viewRef: ViewRef): number;
abstract insert(viewRef: ViewRef, index?: number): ViewRef;
abstract move(viewRef: ViewRef, currentIndex: number): ViewRef;
abstract remove(index?: number): void;
}
/** @stable */
export declare enum ViewEncapsulation {
Emulated = 0,
Native = 1,
None = 2,
}
/** @stable */
export declare class ViewQueryMetadata extends QueryMetadata {
isViewQuery: boolean;
constructor(_selector: Type<any> | string, {descendants, first, read}?: {
descendants?: boolean;
first?: boolean;
read?: any;
});
}
/** @stable */
export declare abstract class ViewRef {
destroyed: boolean;
abstract onDestroy(callback: Function): any;
}
/** @stable */
export declare class WrappedException extends BaseWrappedException {
context: any;
message: string;
originalException: any;
originalStack: any;
wrapperMessage: string;
wrapperStack: any;
constructor(_wrapperMessage: string, _originalException: any, _originalStack?: any, _context?: any);
toString(): string;
}
/** @stable */
export declare class WrappedValue {
wrapped: any;
constructor(wrapped: any);
static wrap(value: any): WrappedValue;
}
/** @experimental */
export declare var wtfCreateScope: (signature: string, flags?: any) => WtfScopeFn;
/** @experimental */
export declare var wtfEndTimeRange: (range: any) => void;
/** @experimental */
export declare var wtfLeave: <T>(scope: any, returnValue?: T) => T;
/** @experimental */
export interface WtfScopeFn {
(arg0?: any, arg1?: any): any;
}
/** @experimental */
export declare var wtfStartTimeRange: (rangeType: string, action: string) => any;