angular-docs-cn/goldens/public-api/core/core.d.ts

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export declare interface AbstractType<T> extends Function {
prototype: T;
}
export declare interface AfterContentChecked {
ngAfterContentChecked(): void;
}
export declare interface AfterContentInit {
ngAfterContentInit(): void;
}
export declare interface AfterViewChecked {
ngAfterViewChecked(): void;
}
export declare interface AfterViewInit {
ngAfterViewInit(): void;
}
/** @deprecated */
feat(core): Add type information to injector.get() (#13785) - Introduce `InjectionToken<T>` which is a parameterized and type-safe version of `OpaqueToken`. DEPRECATION: - `OpaqueToken` is now deprecated, use `InjectionToken<T>` instead. - `Injector.get(token: any, notFoundValue?: any): any` is now deprecated use the same method which is now overloaded as `Injector.get<T>(token: Type<T>|InjectionToken<T>, notFoundValue?: T): T;`. Migration - Replace `OpaqueToken` with `InjectionToken<?>` and parameterize it. - Migrate your code to only use `Type<?>` or `InjectionToken<?>` as injection tokens. Using other tokens will not be supported in the future. BREAKING CHANGE: - Because `injector.get()` is now parameterize it is possible that code which used to work no longer type checks. Example would be if one injects `Foo` but configures it as `{provide: Foo, useClass: MockFoo}`. The injection instance will be that of `MockFoo` but the type will be `Foo` instead of `any` as in the past. This means that it was possible to call a method on `MockFoo` in the past which now will fail type check. See this example: ``` class Foo {} class MockFoo extends Foo { setupMock(); } var PROVIDERS = [ {provide: Foo, useClass: MockFoo} ]; ... function myTest(injector: Injector) { var foo = injector.get(Foo); // This line used to work since `foo` used to be `any` before this // change, it will now be `Foo`, and `Foo` does not have `setUpMock()`. // The fix is to downcast: `injector.get(Foo) as MockFoo`. foo.setUpMock(); } ``` PR Close #13785
2017-01-03 19:54:46 -05:00
export declare const ANALYZE_FOR_ENTRY_COMPONENTS: InjectionToken<any>;
export declare const APP_BOOTSTRAP_LISTENER: InjectionToken<((compRef: ComponentRef<any>) => void)[]>;
feat(core): Add type information to injector.get() (#13785) - Introduce `InjectionToken<T>` which is a parameterized and type-safe version of `OpaqueToken`. DEPRECATION: - `OpaqueToken` is now deprecated, use `InjectionToken<T>` instead. - `Injector.get(token: any, notFoundValue?: any): any` is now deprecated use the same method which is now overloaded as `Injector.get<T>(token: Type<T>|InjectionToken<T>, notFoundValue?: T): T;`. Migration - Replace `OpaqueToken` with `InjectionToken<?>` and parameterize it. - Migrate your code to only use `Type<?>` or `InjectionToken<?>` as injection tokens. Using other tokens will not be supported in the future. BREAKING CHANGE: - Because `injector.get()` is now parameterize it is possible that code which used to work no longer type checks. Example would be if one injects `Foo` but configures it as `{provide: Foo, useClass: MockFoo}`. The injection instance will be that of `MockFoo` but the type will be `Foo` instead of `any` as in the past. This means that it was possible to call a method on `MockFoo` in the past which now will fail type check. See this example: ``` class Foo {} class MockFoo extends Foo { setupMock(); } var PROVIDERS = [ {provide: Foo, useClass: MockFoo} ]; ... function myTest(injector: Injector) { var foo = injector.get(Foo); // This line used to work since `foo` used to be `any` before this // change, it will now be `Foo`, and `Foo` does not have `setUpMock()`. // The fix is to downcast: `injector.get(Foo) as MockFoo`. foo.setUpMock(); } ``` PR Close #13785
2017-01-03 19:54:46 -05:00
export declare const APP_ID: InjectionToken<string>;
feat(core): Add type information to injector.get() (#13785) - Introduce `InjectionToken<T>` which is a parameterized and type-safe version of `OpaqueToken`. DEPRECATION: - `OpaqueToken` is now deprecated, use `InjectionToken<T>` instead. - `Injector.get(token: any, notFoundValue?: any): any` is now deprecated use the same method which is now overloaded as `Injector.get<T>(token: Type<T>|InjectionToken<T>, notFoundValue?: T): T;`. Migration - Replace `OpaqueToken` with `InjectionToken<?>` and parameterize it. - Migrate your code to only use `Type<?>` or `InjectionToken<?>` as injection tokens. Using other tokens will not be supported in the future. BREAKING CHANGE: - Because `injector.get()` is now parameterize it is possible that code which used to work no longer type checks. Example would be if one injects `Foo` but configures it as `{provide: Foo, useClass: MockFoo}`. The injection instance will be that of `MockFoo` but the type will be `Foo` instead of `any` as in the past. This means that it was possible to call a method on `MockFoo` in the past which now will fail type check. See this example: ``` class Foo {} class MockFoo extends Foo { setupMock(); } var PROVIDERS = [ {provide: Foo, useClass: MockFoo} ]; ... function myTest(injector: Injector) { var foo = injector.get(Foo); // This line used to work since `foo` used to be `any` before this // change, it will now be `Foo`, and `Foo` does not have `setUpMock()`. // The fix is to downcast: `injector.get(Foo) as MockFoo`. foo.setUpMock(); } ``` PR Close #13785
2017-01-03 19:54:46 -05:00
export declare const APP_INITIALIZER: InjectionToken<(() => void)[]>;
export declare class ApplicationInitStatus {
readonly done = false;
readonly donePromise: Promise<any>;
constructor(appInits: (() => any)[]);
}
export declare class ApplicationModule {
constructor(appRef: ApplicationRef);
}
export declare class ApplicationRef {
readonly componentTypes: Type<any>[];
readonly components: ComponentRef<any>[];
readonly isStable: Observable<boolean>;
get viewCount(): number;
attachView(viewRef: ViewRef): void;
bootstrap<C>(componentOrFactory: ComponentFactory<C> | Type<C>, rootSelectorOrNode?: string | any): ComponentRef<C>;
detachView(viewRef: ViewRef): void;
tick(): void;
}
export declare function asNativeElements(debugEls: DebugElement[]): any;
export declare function assertPlatform(requiredToken: any): PlatformRef;
export declare interface Attribute {
attributeName: string;
}
export declare const Attribute: AttributeDecorator;
export declare interface AttributeDecorator {
(name: string): any;
new (name: string): Attribute;
}
export declare enum ChangeDetectionStrategy {
OnPush = 0,
Default = 1
}
export declare abstract class ChangeDetectorRef {
abstract checkNoChanges(): void;
abstract detach(): void;
abstract detectChanges(): void;
abstract markForCheck(): void;
abstract reattach(): void;
}
export declare interface ClassProvider extends ClassSansProvider {
multi?: boolean;
provide: any;
}
export declare interface ClassSansProvider {
useClass: Type<any>;
}
export declare class Compiler {
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>;
clearCache(): void;
clearCacheFor(type: Type<any>): void;
getModuleId(moduleType: Type<any>): string | undefined;
}
export declare const COMPILER_OPTIONS: InjectionToken<CompilerOptions[]>;
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
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
}
export declare type CompilerOptions = {
useJit?: boolean;
defaultEncapsulation?: ViewEncapsulation;
providers?: StaticProvider[];
missingTranslation?: MissingTranslationStrategy;
preserveWhitespaces?: boolean;
};
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
export declare interface Component extends Directive {
animations?: any[];
changeDetection?: ChangeDetectionStrategy;
encapsulation?: ViewEncapsulation;
/** @deprecated */ entryComponents?: Array<Type<any> | any[]>;
interpolation?: [string, string];
moduleId?: string;
preserveWhitespaces?: boolean;
styleUrls?: string[];
styles?: string[];
template?: string;
templateUrl?: string;
viewProviders?: Provider[];
}
export declare const Component: ComponentDecorator;
export declare interface ComponentDecorator {
(obj: Component): TypeDecorator;
new (obj: Component): Component;
2016-09-14 18:12:25 -04:00
}
export declare abstract class ComponentFactoryResolver {
abstract resolveComponentFactory<T>(component: Type<T>): ComponentFactory<T>;
static NULL: ComponentFactoryResolver;
}
export declare abstract class ComponentRef<C> {
abstract get changeDetectorRef(): ChangeDetectorRef;
abstract get componentType(): Type<any>;
abstract get hostView(): ViewRef;
abstract get injector(): Injector;
abstract get instance(): C;
abstract get location(): ElementRef;
abstract destroy(): void;
abstract onDestroy(callback: Function): void;
}
export declare interface ConstructorProvider extends ConstructorSansProvider {
multi?: boolean;
provide: Type<any>;
}
export declare interface ConstructorSansProvider {
deps?: any[];
}
export declare type ContentChild = Query;
export declare interface ContentChildDecorator {
(selector: Type<any> | InjectionToken<unknown> | Function | string, opts?: {
read?: any;
static?: boolean;
}): any;
new (selector: Type<any> | InjectionToken<unknown> | Function | string, opts?: {
read?: any;
static?: boolean;
}): ContentChild;
2016-09-14 14:51:26 -04:00
}
export declare type ContentChildren = Query;
export declare interface ContentChildrenDecorator {
(selector: Type<any> | InjectionToken<unknown> | Function | string, opts?: {
descendants?: boolean;
read?: any;
}): any;
new (selector: Type<any> | InjectionToken<unknown> | Function | string, opts?: {
descendants?: boolean;
read?: any;
}): Query;
2016-09-14 14:51:26 -04:00
}
export declare function createPlatform(injector: Injector): PlatformRef;
export declare function createPlatformFactory(parentPlatformFactory: ((extraProviders?: StaticProvider[]) => PlatformRef) | null, name: string, providers?: StaticProvider[]): (extraProviders?: StaticProvider[]) => PlatformRef;
export declare const CUSTOM_ELEMENTS_SCHEMA: SchemaMetadata;
export declare interface DebugElement extends DebugNode {
readonly attributes: {
[key: string]: string | null;
};
readonly childNodes: DebugNode[];
readonly children: DebugElement[];
readonly classes: {
[key: string]: boolean;
};
readonly name: string;
readonly nativeElement: any;
readonly properties: {
[key: string]: any;
};
readonly styles: {
[key: string]: string | null;
};
query(predicate: Predicate<DebugElement>): DebugElement;
queryAll(predicate: Predicate<DebugElement>): DebugElement[];
queryAllNodes(predicate: Predicate<DebugNode>): DebugNode[];
triggerEventHandler(eventName: string, eventObj: any): void;
}
export declare const DebugElement: {
new (...args: any[]): DebugElement;
};
export declare class DebugEventListener {
callback: Function;
name: string;
constructor(name: string, callback: Function);
}
export declare interface DebugNode {
readonly componentInstance: any;
readonly context: any;
readonly injector: Injector;
readonly listeners: DebugEventListener[];
readonly nativeNode: any;
readonly parent: DebugElement | null;
readonly providerTokens: any[];
readonly references: {
[key: string]: any;
};
}
export declare const DebugNode: {
new (...args: any[]): DebugNode;
};
export declare const DEFAULT_CURRENCY_CODE: InjectionToken<string>;
/** @deprecated */
export declare class DefaultIterableDiffer<V> implements IterableDiffer<V>, IterableChanges<V> {
readonly collection: V[] | Iterable<V> | null;
get isDirty(): boolean;
readonly length: number;
constructor(trackByFn?: TrackByFunction<V>);
check(collection: NgIterable<V>): boolean;
diff(collection: NgIterable<V> | null | undefined): DefaultIterableDiffer<V> | null;
forEachAddedItem(fn: (record: IterableChangeRecord_<V>) => void): void;
forEachIdentityChange(fn: (record: IterableChangeRecord_<V>) => void): void;
forEachItem(fn: (record: IterableChangeRecord_<V>) => void): void;
forEachMovedItem(fn: (record: IterableChangeRecord_<V>) => void): void;
forEachOperation(fn: (item: IterableChangeRecord<V>, previousIndex: number | null, currentIndex: number | null) => void): void;
forEachPreviousItem(fn: (record: IterableChangeRecord_<V>) => void): void;
forEachRemovedItem(fn: (record: IterableChangeRecord_<V>) => void): void;
onDestroy(): void;
}
/** @deprecated */
export declare const defineInjectable: typeof ɵɵdefineInjectable;
export declare function destroyPlatform(): void;
export declare interface Directive {
exportAs?: string;
host?: {
[key: string]: string;
};
inputs?: string[];
jit?: true;
outputs?: string[];
providers?: Provider[];
queries?: {
[key: string]: any;
};
selector?: string;
}
export declare const Directive: DirectiveDecorator;
export declare interface DirectiveDecorator {
(obj?: Directive): TypeDecorator;
new (obj?: Directive): Directive;
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}
export declare interface DoBootstrap {
ngDoBootstrap(appRef: ApplicationRef): void;
}
export declare interface DoCheck {
ngDoCheck(): void;
}
export declare class ElementRef<T = any> {
nativeElement: T;
constructor(nativeElement: T);
}
export declare abstract class EmbeddedViewRef<C> extends ViewRef {
abstract get context(): C;
abstract get rootNodes(): any[];
}
export declare function enableProdMode(): void;
export declare class ErrorHandler {
handleError(error: any): void;
}
export declare interface EventEmitter<T> extends Subject<T> {
new (isAsync?: boolean): EventEmitter<T>;
emit(value?: T): void;
subscribe(generatorOrNext?: any, error?: any, complete?: any): Subscription;
}
export declare const EventEmitter: {
new (isAsync?: boolean): EventEmitter<any>;
new <T>(isAsync?: boolean): EventEmitter<T>;
readonly prototype: EventEmitter<any>;
};
export declare interface ExistingProvider extends ExistingSansProvider {
multi?: boolean;
provide: any;
}
export declare interface ExistingSansProvider {
useExisting: any;
}
export declare interface FactoryProvider extends FactorySansProvider {
multi?: boolean;
provide: any;
}
export declare interface FactorySansProvider {
deps?: any[];
useFactory: Function;
}
export declare function forwardRef(forwardRefFn: ForwardRefFn): Type<any>;
export declare interface ForwardRefFn {
(): any;
}
export declare const getDebugNode: (nativeNode: any) => DebugNode | null;
export declare const getModuleFactory: (id: string) => NgModuleFactory<any>;
export declare function getPlatform(): PlatformRef | null;
export declare interface GetTestability {
addToWindow(registry: TestabilityRegistry): void;
findTestabilityInTree(registry: TestabilityRegistry, elem: any, findInAncestors: boolean): Testability | null;
}
export declare interface Host {
}
export declare const Host: HostDecorator;
export declare interface HostBinding {
hostPropertyName?: string;
}
export declare const HostBinding: HostBindingDecorator;
export declare interface HostBindingDecorator {
(hostPropertyName?: string): any;
new (hostPropertyName?: string): any;
}
export declare interface HostDecorator {
(): any;
new (): Host;
}
export declare interface HostListener {
args?: string[];
eventName?: string;
}
export declare const HostListener: HostListenerDecorator;
export declare interface HostListenerDecorator {
(eventName: string, args?: string[]): any;
new (eventName: string, args?: string[]): any;
}
export declare const inject: typeof ɵɵinject;
export declare interface Inject {
token: any;
}
export declare const Inject: InjectDecorator;
export declare interface Injectable {
providedIn?: Type<any> | 'root' | 'platform' | 'any' | null;
}
export declare const Injectable: InjectableDecorator;
export declare interface InjectableDecorator {
(): TypeDecorator;
(options?: {
providedIn: Type<any> | 'root' | 'platform' | 'any' | null;
} & InjectableProvider): TypeDecorator;
new (): Injectable;
new (options?: {
providedIn: Type<any> | 'root' | 'platform' | 'any' | null;
} & InjectableProvider): Injectable;
}
export declare type InjectableProvider = ValueSansProvider | ExistingSansProvider | StaticClassSansProvider | ConstructorSansProvider | FactorySansProvider | ClassSansProvider;
export declare interface InjectableType<T> extends Type<T> {
ɵprov: never;
}
export declare interface InjectDecorator {
(token: any): any;
new (token: any): Inject;
}
export declare enum InjectFlags {
Default = 0,
Host = 1,
Self = 2,
SkipSelf = 4,
Optional = 8
}
export declare class InjectionToken<T> {
protected _desc: string;
readonly ɵprov: never | undefined;
constructor(_desc: string, options?: {
providedIn?: Type<any> | 'root' | 'platform' | 'any' | null;
factory: () => T;
});
toString(): string;
feat(core): Add type information to injector.get() (#13785) - Introduce `InjectionToken<T>` which is a parameterized and type-safe version of `OpaqueToken`. DEPRECATION: - `OpaqueToken` is now deprecated, use `InjectionToken<T>` instead. - `Injector.get(token: any, notFoundValue?: any): any` is now deprecated use the same method which is now overloaded as `Injector.get<T>(token: Type<T>|InjectionToken<T>, notFoundValue?: T): T;`. Migration - Replace `OpaqueToken` with `InjectionToken<?>` and parameterize it. - Migrate your code to only use `Type<?>` or `InjectionToken<?>` as injection tokens. Using other tokens will not be supported in the future. BREAKING CHANGE: - Because `injector.get()` is now parameterize it is possible that code which used to work no longer type checks. Example would be if one injects `Foo` but configures it as `{provide: Foo, useClass: MockFoo}`. The injection instance will be that of `MockFoo` but the type will be `Foo` instead of `any` as in the past. This means that it was possible to call a method on `MockFoo` in the past which now will fail type check. See this example: ``` class Foo {} class MockFoo extends Foo { setupMock(); } var PROVIDERS = [ {provide: Foo, useClass: MockFoo} ]; ... function myTest(injector: Injector) { var foo = injector.get(Foo); // This line used to work since `foo` used to be `any` before this // change, it will now be `Foo`, and `Foo` does not have `setUpMock()`. // The fix is to downcast: `injector.get(Foo) as MockFoo`. foo.setUpMock(); } ``` PR Close #13785
2017-01-03 19:54:46 -05:00
}
export declare abstract class Injector {
abstract get<T>(token: Type<T> | InjectionToken<T> | AbstractType<T>, notFoundValue?: T, flags?: InjectFlags): T;
/** @deprecated */ abstract get(token: any, notFoundValue?: any): any;
static NULL: Injector;
static THROW_IF_NOT_FOUND: {};
static ɵprov: never;
/** @deprecated */ static create(providers: StaticProvider[], parent?: Injector): Injector;
static create(options: {
providers: StaticProvider[];
parent?: Injector;
name?: string;
}): Injector;
}
export declare const INJECTOR: InjectionToken<Injector>;
export declare interface InjectorType<T> extends Type<T> {
ɵinj: never;
}
export declare interface Input {
bindingPropertyName?: string;
}
export declare const Input: InputDecorator;
export declare interface InputDecorator {
(bindingPropertyName?: string): any;
new (bindingPropertyName?: string): any;
}
export declare function isDevMode(): boolean;
export declare interface IterableChangeRecord<V> {
readonly currentIndex: number | null;
readonly item: V;
readonly previousIndex: number | null;
readonly trackById: any;
}
export declare interface IterableChanges<V> {
forEachAddedItem(fn: (record: IterableChangeRecord<V>) => void): void;
forEachIdentityChange(fn: (record: IterableChangeRecord<V>) => void): void;
forEachItem(fn: (record: IterableChangeRecord<V>) => void): void;
forEachMovedItem(fn: (record: IterableChangeRecord<V>) => void): void;
forEachOperation(fn: (record: IterableChangeRecord<V>, previousIndex: number | null, currentIndex: number | null) => void): void;
forEachPreviousItem(fn: (record: IterableChangeRecord<V>) => void): void;
forEachRemovedItem(fn: (record: IterableChangeRecord<V>) => void): void;
}
export declare interface IterableDiffer<V> {
diff(object: NgIterable<V> | undefined | null): IterableChanges<V> | null;
}
export declare interface IterableDifferFactory {
create<V>(trackByFn?: TrackByFunction<V>): IterableDiffer<V>;
supports(objects: any): boolean;
}
export declare class IterableDiffers {
/** @deprecated */ factories: IterableDifferFactory[];
constructor(factories: IterableDifferFactory[]);
find(iterable: any): IterableDifferFactory;
static ɵprov: never;
static create(factories: IterableDifferFactory[], parent?: IterableDiffers): IterableDiffers;
static extend(factories: IterableDifferFactory[]): StaticProvider;
}
export declare interface KeyValueChangeRecord<K, V> {
readonly currentValue: V | null;
readonly key: K;
readonly previousValue: V | null;
}
export declare interface KeyValueChanges<K, V> {
forEachAddedItem(fn: (r: KeyValueChangeRecord<K, V>) => void): void;
forEachChangedItem(fn: (r: KeyValueChangeRecord<K, V>) => void): void;
forEachItem(fn: (r: KeyValueChangeRecord<K, V>) => void): void;
forEachPreviousItem(fn: (r: KeyValueChangeRecord<K, V>) => void): void;
forEachRemovedItem(fn: (r: KeyValueChangeRecord<K, V>) => void): void;
}
export declare interface KeyValueDiffer<K, V> {
diff(object: Map<K, V>): KeyValueChanges<K, V> | null;
diff(object: {
[key: string]: V;
}): KeyValueChanges<string, V> | null;
}
export declare interface KeyValueDifferFactory {
create<K, V>(): KeyValueDiffer<K, V>;
supports(objects: any): boolean;
}
export declare class KeyValueDiffers {
/** @deprecated */ factories: KeyValueDifferFactory[];
constructor(factories: KeyValueDifferFactory[]);
find(kv: any): KeyValueDifferFactory;
static ɵprov: never;
static create<S>(factories: KeyValueDifferFactory[], parent?: KeyValueDiffers): KeyValueDiffers;
static extend<S>(factories: KeyValueDifferFactory[]): StaticProvider;
}
feat(core): Add type information to injector.get() (#13785) - Introduce `InjectionToken<T>` which is a parameterized and type-safe version of `OpaqueToken`. DEPRECATION: - `OpaqueToken` is now deprecated, use `InjectionToken<T>` instead. - `Injector.get(token: any, notFoundValue?: any): any` is now deprecated use the same method which is now overloaded as `Injector.get<T>(token: Type<T>|InjectionToken<T>, notFoundValue?: T): T;`. Migration - Replace `OpaqueToken` with `InjectionToken<?>` and parameterize it. - Migrate your code to only use `Type<?>` or `InjectionToken<?>` as injection tokens. Using other tokens will not be supported in the future. BREAKING CHANGE: - Because `injector.get()` is now parameterize it is possible that code which used to work no longer type checks. Example would be if one injects `Foo` but configures it as `{provide: Foo, useClass: MockFoo}`. The injection instance will be that of `MockFoo` but the type will be `Foo` instead of `any` as in the past. This means that it was possible to call a method on `MockFoo` in the past which now will fail type check. See this example: ``` class Foo {} class MockFoo extends Foo { setupMock(); } var PROVIDERS = [ {provide: Foo, useClass: MockFoo} ]; ... function myTest(injector: Injector) { var foo = injector.get(Foo); // This line used to work since `foo` used to be `any` before this // change, it will now be `Foo`, and `Foo` does not have `setUpMock()`. // The fix is to downcast: `injector.get(Foo) as MockFoo`. foo.setUpMock(); } ``` PR Close #13785
2017-01-03 19:54:46 -05:00
export declare const LOCALE_ID: InjectionToken<string>;
export declare enum MissingTranslationStrategy {
Error = 0,
Warning = 1,
Ignore = 2
}
2016-07-29 07:19:02 -04:00
export declare class ModuleWithComponentFactories<T> {
componentFactories: ComponentFactory<any>[];
ngModuleFactory: NgModuleFactory<T>;
constructor(ngModuleFactory: NgModuleFactory<T>, componentFactories: ComponentFactory<any>[]);
2016-07-29 07:19:02 -04:00
}
export declare interface ModuleWithProviders<T> {
ngModule: Type<T>;
providers?: Provider[];
}
export declare type NgIterable<T> = Array<T> | Iterable<T>;
export declare interface NgModule {
bootstrap?: Array<Type<any> | any[]>;
declarations?: Array<Type<any> | any[]>;
/** @deprecated */ entryComponents?: Array<Type<any> | any[]>;
exports?: Array<Type<any> | any[]>;
id?: string;
imports?: Array<Type<any> | ModuleWithProviders<{}> | any[]>;
jit?: true;
providers?: Provider[];
schemas?: Array<SchemaMetadata | any[]>;
}
export declare const NgModule: NgModuleDecorator;
export declare interface NgModuleDecorator {
(obj?: NgModule): TypeDecorator;
new (obj?: NgModule): NgModule;
}
export declare abstract class NgModuleFactory<T> {
abstract get moduleType(): Type<T>;
abstract create(parentInjector: Injector | null): NgModuleRef<T>;
}
feat(router): deprecate loadChildren:string (#30073) The proposed ES dynamic import() is now supported by the Angular CLI and the larger toolchain. This renders the `loadChildren: string` API largely redundant, as import() is far more natural, is less error-prone, and is standards compliant. This commit deprecates the `string` form of `loadChildren` in favor of dynamic import(). DEPRECATION: When defining lazy-loaded route, Angular previously offered two options for configuring the module to be loaded, both via the `loadChildren` parameter of the route. Most Angular developers are familiar withthe `string` form of this API. For example, the following route definition configures Angular to load a `LazyModule` NgModule from `lazy-route/lazy.module.ts`: ``` [{ path: 'lazy', loadChildren: 'lazy-route/lazy.module#LazyModule', }] ``` This "magic string" configuration was previously necessary as there was no dynamic module loading standard on the web. This has changed with the pending standardization of dynamic `import()` expressions, which are now supported in the Angular CLI and in web tooling in general. `import()` offers a more natural and robust solution to dynamic module loading. The above example can be rewritten to use dynamic `import()`: ``` [{ path: 'lazy', loadChildren: () => import('./lazy-route/lazy.module').then(mod => mod.LazyModule), }] ``` This form of lazy loading offers significant advantages in terms of: * type checking via TypeScript * simplicity of generated code * future potential to run natively in supporting browsers (see: [caniuse: dynamic import()](https://caniuse.com/#feat=es6-module-dynamic-import)) As a result, Angular is deprecating the `loadChildren: string` syntax in favor of ES dynamic `import()`. An automatic migration will run during `ng upgrade` to convert your existing Angular code to the new syntax. PR Close #30073
2019-04-23 17:30:09 -04:00
/** @deprecated */
export declare abstract class NgModuleFactoryLoader {
abstract load(path: string): Promise<NgModuleFactory<any>>;
}
export declare abstract class NgModuleRef<T> {
abstract get componentFactoryResolver(): ComponentFactoryResolver;
abstract get injector(): Injector;
abstract get instance(): T;
abstract destroy(): void;
abstract onDestroy(callback: () => void): void;
}
export declare class NgProbeToken {
name: string;
token: any;
constructor(name: string, token: any);
}
export declare class NgZone {
readonly hasPendingMacrotasks: boolean;
readonly hasPendingMicrotasks: boolean;
readonly isStable: boolean;
readonly onError: EventEmitter<any>;
readonly onMicrotaskEmpty: EventEmitter<any>;
readonly onStable: EventEmitter<any>;
readonly onUnstable: EventEmitter<any>;
constructor({ enableLongStackTrace, shouldCoalesceEventChangeDetection, shouldCoalesceRunChangeDetection }: {
enableLongStackTrace?: boolean | undefined;
shouldCoalesceEventChangeDetection?: boolean | undefined;
shouldCoalesceRunChangeDetection?: boolean | undefined;
});
run<T>(fn: (...args: any[]) => T, applyThis?: any, applyArgs?: any[]): T;
runGuarded<T>(fn: (...args: any[]) => T, applyThis?: any, applyArgs?: any[]): T;
runOutsideAngular<T>(fn: (...args: any[]) => T): T;
runTask<T>(fn: (...args: any[]) => T, applyThis?: any, applyArgs?: any[], name?: string): T;
static assertInAngularZone(): void;
static assertNotInAngularZone(): void;
static isInAngularZone(): boolean;
}
export declare const NO_ERRORS_SCHEMA: SchemaMetadata;
export declare interface OnChanges {
ngOnChanges(changes: SimpleChanges): void;
}
export declare interface OnDestroy {
ngOnDestroy(): void;
}
export declare interface OnInit {
ngOnInit(): void;
}
export declare interface Optional {
}
export declare const Optional: OptionalDecorator;
export declare interface OptionalDecorator {
(): any;
new (): Optional;
}
export declare interface Output {
bindingPropertyName?: string;
}
export declare const Output: OutputDecorator;
export declare interface OutputDecorator {
(bindingPropertyName?: string): any;
new (bindingPropertyName?: string): any;
}
/** @codeGenApi */
export declare function ɵɵdefineInjectable<T>(opts: {
token: unknown;
providedIn?: Type<any> | 'root' | 'platform' | 'any' | null;
factory: () => T;
}): never;
/** @codeGenApi */
export declare function ɵɵinject<T>(token: Type<T> | InjectionToken<T>): T;
export declare function ɵɵinject<T>(token: Type<T> | InjectionToken<T>, flags?: InjectFlags): T | null;
/** @codeGenApi */
export declare interface ɵɵInjectableDef<T> {
factory: (t?: Type<any>) => T;
providedIn: InjectorType<any> | 'root' | 'platform' | 'any' | null;
token: unknown;
value: T | undefined;
}
/** @codeGenApi */
export declare function ɵɵinjectAttribute(attrNameToInject: string): string | null;
/** @codeGenApi */
export declare function ɵɵinjectPipeChangeDetectorRef(flags?: InjectFlags): ChangeDetectorRef | null;
feat(core): Add type information to injector.get() (#13785) - Introduce `InjectionToken<T>` which is a parameterized and type-safe version of `OpaqueToken`. DEPRECATION: - `OpaqueToken` is now deprecated, use `InjectionToken<T>` instead. - `Injector.get(token: any, notFoundValue?: any): any` is now deprecated use the same method which is now overloaded as `Injector.get<T>(token: Type<T>|InjectionToken<T>, notFoundValue?: T): T;`. Migration - Replace `OpaqueToken` with `InjectionToken<?>` and parameterize it. - Migrate your code to only use `Type<?>` or `InjectionToken<?>` as injection tokens. Using other tokens will not be supported in the future. BREAKING CHANGE: - Because `injector.get()` is now parameterize it is possible that code which used to work no longer type checks. Example would be if one injects `Foo` but configures it as `{provide: Foo, useClass: MockFoo}`. The injection instance will be that of `MockFoo` but the type will be `Foo` instead of `any` as in the past. This means that it was possible to call a method on `MockFoo` in the past which now will fail type check. See this example: ``` class Foo {} class MockFoo extends Foo { setupMock(); } var PROVIDERS = [ {provide: Foo, useClass: MockFoo} ]; ... function myTest(injector: Injector) { var foo = injector.get(Foo); // This line used to work since `foo` used to be `any` before this // change, it will now be `Foo`, and `Foo` does not have `setUpMock()`. // The fix is to downcast: `injector.get(Foo) as MockFoo`. foo.setUpMock(); } ``` PR Close #13785
2017-01-03 19:54:46 -05:00
export declare const PACKAGE_ROOT_URL: InjectionToken<string>;
export declare interface Pipe {
name: string;
pure?: boolean;
}
export declare const Pipe: PipeDecorator;
export declare interface PipeDecorator {
(obj: Pipe): TypeDecorator;
new (obj: Pipe): Pipe;
}
export declare interface PipeTransform {
transform(value: any, ...args: any[]): any;
}
export declare const PLATFORM_ID: InjectionToken<Object>;
feat(core): Add type information to injector.get() (#13785) - Introduce `InjectionToken<T>` which is a parameterized and type-safe version of `OpaqueToken`. DEPRECATION: - `OpaqueToken` is now deprecated, use `InjectionToken<T>` instead. - `Injector.get(token: any, notFoundValue?: any): any` is now deprecated use the same method which is now overloaded as `Injector.get<T>(token: Type<T>|InjectionToken<T>, notFoundValue?: T): T;`. Migration - Replace `OpaqueToken` with `InjectionToken<?>` and parameterize it. - Migrate your code to only use `Type<?>` or `InjectionToken<?>` as injection tokens. Using other tokens will not be supported in the future. BREAKING CHANGE: - Because `injector.get()` is now parameterize it is possible that code which used to work no longer type checks. Example would be if one injects `Foo` but configures it as `{provide: Foo, useClass: MockFoo}`. The injection instance will be that of `MockFoo` but the type will be `Foo` instead of `any` as in the past. This means that it was possible to call a method on `MockFoo` in the past which now will fail type check. See this example: ``` class Foo {} class MockFoo extends Foo { setupMock(); } var PROVIDERS = [ {provide: Foo, useClass: MockFoo} ]; ... function myTest(injector: Injector) { var foo = injector.get(Foo); // This line used to work since `foo` used to be `any` before this // change, it will now be `Foo`, and `Foo` does not have `setUpMock()`. // The fix is to downcast: `injector.get(Foo) as MockFoo`. foo.setUpMock(); } ``` PR Close #13785
2017-01-03 19:54:46 -05:00
export declare const PLATFORM_INITIALIZER: InjectionToken<(() => void)[]>;
export declare const platformCore: (extraProviders?: StaticProvider[] | undefined) => PlatformRef;
export declare class PlatformRef {
get destroyed(): boolean;
get injector(): Injector;
bootstrapModule<M>(moduleType: Type<M>, compilerOptions?: (CompilerOptions & BootstrapOptions) | Array<CompilerOptions & BootstrapOptions>): Promise<NgModuleRef<M>>;
bootstrapModuleFactory<M>(moduleFactory: NgModuleFactory<M>, options?: BootstrapOptions): Promise<NgModuleRef<M>>;
destroy(): void;
onDestroy(callback: () => void): void;
}
export declare interface Predicate<T> {
(value: T): boolean;
}
export declare type Provider = TypeProvider | ValueProvider | ClassProvider | ConstructorProvider | ExistingProvider | FactoryProvider | any[];
export declare interface Query {
descendants: boolean;
first: boolean;
isViewQuery: boolean;
read: any;
selector: any;
static?: boolean;
}
export declare abstract class Query {
}
export declare class QueryList<T> implements Iterable<T> {
[Symbol.iterator]: () => Iterator<T>;
readonly changes: Observable<any>;
readonly dirty = true;
readonly first: T;
readonly last: T;
readonly length: number;
constructor();
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destroy(): void;
filter(fn: (item: T, index: number, array: T[]) => boolean): T[];
find(fn: (item: T, index: number, array: T[]) => boolean): T | undefined;
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(resultsTree: Array<T | any[]>): void;
setDirty(): void;
some(fn: (value: T, index: number, array: T[]) => boolean): boolean;
toArray(): T[];
toString(): string;
}
/** @deprecated */
export declare abstract class ReflectiveInjector implements Injector {
abstract get parent(): Injector | null;
abstract createChildFromResolved(providers: ResolvedReflectiveProvider[]): ReflectiveInjector;
abstract get(token: any, notFoundValue?: any): any;
abstract instantiateResolved(provider: ResolvedReflectiveProvider): any;
abstract resolveAndCreateChild(providers: Provider[]): ReflectiveInjector;
abstract resolveAndInstantiate(provider: Provider): any;
static fromResolvedProviders(providers: ResolvedReflectiveProvider[], parent?: Injector): ReflectiveInjector;
static resolve(providers: Provider[]): ResolvedReflectiveProvider[];
static resolveAndCreate(providers: Provider[], parent?: Injector): ReflectiveInjector;
}
/** @deprecated */
export declare class ReflectiveKey {
readonly displayName: string;
id: number;
token: Object;
constructor(token: Object, id: number);
static get numberOfKeys(): number;
static get(token: Object): ReflectiveKey;
}
export declare abstract class Renderer2 {
abstract get data(): {
[key: string]: any;
};
destroyNode: ((node: any) => void) | null;
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abstract addClass(el: any, name: string): void;
abstract appendChild(parent: any, newChild: any): void;
abstract createComment(value: string): any;
abstract createElement(name: string, namespace?: string | null): any;
abstract createText(value: string): any;
abstract destroy(): void;
abstract insertBefore(parent: any, newChild: any, refChild: any, isMove?: boolean): void;
abstract listen(target: 'window' | 'document' | 'body' | any, eventName: string, callback: (event: any) => boolean | void): () => void;
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abstract nextSibling(node: any): any;
abstract parentNode(node: any): any;
abstract removeAttribute(el: any, name: string, namespace?: string | null): void;
abstract removeChild(parent: any, oldChild: any, isHostElement?: boolean): void;
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abstract removeClass(el: any, name: string): void;
abstract removeStyle(el: any, style: string, flags?: RendererStyleFlags2): void;
abstract selectRootElement(selectorOrNode: string | any, preserveContent?: boolean): any;
abstract setAttribute(el: any, name: string, value: string, namespace?: string | null): void;
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abstract setProperty(el: any, name: string, value: any): void;
abstract setStyle(el: any, style: string, value: any, flags?: RendererStyleFlags2): void;
abstract setValue(node: any, value: string): void;
2017-02-15 00:03:18 -05:00
}
export declare abstract class RendererFactory2 {
abstract begin?(): void;
abstract createRenderer(hostElement: any, type: RendererType2 | null): Renderer2;
abstract end?(): void;
abstract whenRenderingDone?(): Promise<any>;
}
export declare enum RendererStyleFlags2 {
Important = 1,
DashCase = 2
}
export declare interface RendererType2 {
data: {
[kind: string]: any;
};
encapsulation: ViewEncapsulation;
id: string;
styles: (string | any[])[];
}
export declare class ResolvedReflectiveFactory {
dependencies: ɵangular_packages_core_core_e[];
factory: Function;
constructor(
factory: Function,
dependencies: ɵangular_packages_core_core_e[]);
}
export declare interface ResolvedReflectiveProvider {
key: ReflectiveKey;
multiProvider: boolean;
resolvedFactories: ResolvedReflectiveFactory[];
}
export declare function resolveForwardRef<T>(type: T): T;
export declare abstract class Sanitizer {
abstract sanitize(context: SecurityContext, value: {} | string | null): string | null;
static ɵprov: never;
}
export declare interface SchemaMetadata {
name: string;
}
export declare enum SecurityContext {
NONE = 0,
HTML = 1,
STYLE = 2,
SCRIPT = 3,
URL = 4,
RESOURCE_URL = 5
}
export declare interface Self {
}
export declare const Self: SelfDecorator;
export declare interface SelfDecorator {
(): any;
new (): Self;
}
export declare function setTestabilityGetter(getter: GetTestability): void;
export declare class SimpleChange {
currentValue: any;
firstChange: boolean;
previousValue: any;
constructor(previousValue: any, currentValue: any, firstChange: boolean);
isFirstChange(): boolean;
}
export declare interface SimpleChanges {
[propName: string]: SimpleChange;
}
export declare interface SkipSelf {
}
export declare const SkipSelf: SkipSelfDecorator;
export declare interface SkipSelfDecorator {
(): any;
new (): SkipSelf;
}
export declare interface StaticClassProvider extends StaticClassSansProvider {
multi?: boolean;
provide: any;
}
export declare interface StaticClassSansProvider {
deps: any[];
useClass: Type<any>;
}
export declare type StaticProvider = ValueProvider | ExistingProvider | StaticClassProvider | ConstructorProvider | FactoryProvider | any[];
feat(router): deprecate loadChildren:string (#30073) The proposed ES dynamic import() is now supported by the Angular CLI and the larger toolchain. This renders the `loadChildren: string` API largely redundant, as import() is far more natural, is less error-prone, and is standards compliant. This commit deprecates the `string` form of `loadChildren` in favor of dynamic import(). DEPRECATION: When defining lazy-loaded route, Angular previously offered two options for configuring the module to be loaded, both via the `loadChildren` parameter of the route. Most Angular developers are familiar withthe `string` form of this API. For example, the following route definition configures Angular to load a `LazyModule` NgModule from `lazy-route/lazy.module.ts`: ``` [{ path: 'lazy', loadChildren: 'lazy-route/lazy.module#LazyModule', }] ``` This "magic string" configuration was previously necessary as there was no dynamic module loading standard on the web. This has changed with the pending standardization of dynamic `import()` expressions, which are now supported in the Angular CLI and in web tooling in general. `import()` offers a more natural and robust solution to dynamic module loading. The above example can be rewritten to use dynamic `import()`: ``` [{ path: 'lazy', loadChildren: () => import('./lazy-route/lazy.module').then(mod => mod.LazyModule), }] ``` This form of lazy loading offers significant advantages in terms of: * type checking via TypeScript * simplicity of generated code * future potential to run natively in supporting browsers (see: [caniuse: dynamic import()](https://caniuse.com/#feat=es6-module-dynamic-import)) As a result, Angular is deprecating the `loadChildren: string` syntax in favor of ES dynamic `import()`. An automatic migration will run during `ng upgrade` to convert your existing Angular code to the new syntax. PR Close #30073
2019-04-23 17:30:09 -04:00
/** @deprecated */
export declare class SystemJsNgModuleLoader implements NgModuleFactoryLoader {
constructor(_compiler: Compiler, config?: SystemJsNgModuleLoaderConfig);
load(path: string): Promise<NgModuleFactory<any>>;
}
feat(router): deprecate loadChildren:string (#30073) The proposed ES dynamic import() is now supported by the Angular CLI and the larger toolchain. This renders the `loadChildren: string` API largely redundant, as import() is far more natural, is less error-prone, and is standards compliant. This commit deprecates the `string` form of `loadChildren` in favor of dynamic import(). DEPRECATION: When defining lazy-loaded route, Angular previously offered two options for configuring the module to be loaded, both via the `loadChildren` parameter of the route. Most Angular developers are familiar withthe `string` form of this API. For example, the following route definition configures Angular to load a `LazyModule` NgModule from `lazy-route/lazy.module.ts`: ``` [{ path: 'lazy', loadChildren: 'lazy-route/lazy.module#LazyModule', }] ``` This "magic string" configuration was previously necessary as there was no dynamic module loading standard on the web. This has changed with the pending standardization of dynamic `import()` expressions, which are now supported in the Angular CLI and in web tooling in general. `import()` offers a more natural and robust solution to dynamic module loading. The above example can be rewritten to use dynamic `import()`: ``` [{ path: 'lazy', loadChildren: () => import('./lazy-route/lazy.module').then(mod => mod.LazyModule), }] ``` This form of lazy loading offers significant advantages in terms of: * type checking via TypeScript * simplicity of generated code * future potential to run natively in supporting browsers (see: [caniuse: dynamic import()](https://caniuse.com/#feat=es6-module-dynamic-import)) As a result, Angular is deprecating the `loadChildren: string` syntax in favor of ES dynamic `import()`. An automatic migration will run during `ng upgrade` to convert your existing Angular code to the new syntax. PR Close #30073
2019-04-23 17:30:09 -04:00
/** @deprecated */
export declare abstract class SystemJsNgModuleLoaderConfig {
factoryPathPrefix: string;
factoryPathSuffix: string;
}
export declare abstract class TemplateRef<C> {
abstract get elementRef(): ElementRef;
abstract createEmbeddedView(context: C): EmbeddedViewRef<C>;
}
export declare class Testability implements PublicTestability {
constructor(_ngZone: NgZone);
/** @deprecated */ decreasePendingRequestCount(): number;
findProviders(using: any, provider: string, exactMatch: boolean): any[];
/** @deprecated */ getPendingRequestCount(): number;
/** @deprecated */ increasePendingRequestCount(): number;
isStable(): boolean;
whenStable(doneCb: Function, timeout?: number, updateCb?: Function): void;
}
export declare class TestabilityRegistry {
constructor();
findTestabilityInTree(elem: Node, findInAncestors?: boolean): Testability | null;
getAllRootElements(): any[];
getAllTestabilities(): Testability[];
getTestability(elem: any): Testability | null;
registerApplication(token: any, testability: Testability): void;
unregisterAllApplications(): void;
unregisterApplication(token: any): void;
}
export declare interface TrackByFunction<T> {
(index: number, item: T): any;
}
feat(core): Add type information to injector.get() (#13785) - Introduce `InjectionToken<T>` which is a parameterized and type-safe version of `OpaqueToken`. DEPRECATION: - `OpaqueToken` is now deprecated, use `InjectionToken<T>` instead. - `Injector.get(token: any, notFoundValue?: any): any` is now deprecated use the same method which is now overloaded as `Injector.get<T>(token: Type<T>|InjectionToken<T>, notFoundValue?: T): T;`. Migration - Replace `OpaqueToken` with `InjectionToken<?>` and parameterize it. - Migrate your code to only use `Type<?>` or `InjectionToken<?>` as injection tokens. Using other tokens will not be supported in the future. BREAKING CHANGE: - Because `injector.get()` is now parameterize it is possible that code which used to work no longer type checks. Example would be if one injects `Foo` but configures it as `{provide: Foo, useClass: MockFoo}`. The injection instance will be that of `MockFoo` but the type will be `Foo` instead of `any` as in the past. This means that it was possible to call a method on `MockFoo` in the past which now will fail type check. See this example: ``` class Foo {} class MockFoo extends Foo { setupMock(); } var PROVIDERS = [ {provide: Foo, useClass: MockFoo} ]; ... function myTest(injector: Injector) { var foo = injector.get(Foo); // This line used to work since `foo` used to be `any` before this // change, it will now be `Foo`, and `Foo` does not have `setUpMock()`. // The fix is to downcast: `injector.get(Foo) as MockFoo`. foo.setUpMock(); } ``` PR Close #13785
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export declare const TRANSLATIONS: InjectionToken<string>;
feat(core): Add type information to injector.get() (#13785) - Introduce `InjectionToken<T>` which is a parameterized and type-safe version of `OpaqueToken`. DEPRECATION: - `OpaqueToken` is now deprecated, use `InjectionToken<T>` instead. - `Injector.get(token: any, notFoundValue?: any): any` is now deprecated use the same method which is now overloaded as `Injector.get<T>(token: Type<T>|InjectionToken<T>, notFoundValue?: T): T;`. Migration - Replace `OpaqueToken` with `InjectionToken<?>` and parameterize it. - Migrate your code to only use `Type<?>` or `InjectionToken<?>` as injection tokens. Using other tokens will not be supported in the future. BREAKING CHANGE: - Because `injector.get()` is now parameterize it is possible that code which used to work no longer type checks. Example would be if one injects `Foo` but configures it as `{provide: Foo, useClass: MockFoo}`. The injection instance will be that of `MockFoo` but the type will be `Foo` instead of `any` as in the past. This means that it was possible to call a method on `MockFoo` in the past which now will fail type check. See this example: ``` class Foo {} class MockFoo extends Foo { setupMock(); } var PROVIDERS = [ {provide: Foo, useClass: MockFoo} ]; ... function myTest(injector: Injector) { var foo = injector.get(Foo); // This line used to work since `foo` used to be `any` before this // change, it will now be `Foo`, and `Foo` does not have `setUpMock()`. // The fix is to downcast: `injector.get(Foo) as MockFoo`. foo.setUpMock(); } ``` PR Close #13785
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export declare const TRANSLATIONS_FORMAT: InjectionToken<string>;
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export declare const Type: FunctionConstructor;
export declare interface TypeDecorator {
(target: Object, propertyKey?: string | symbol, parameterIndex?: number): void;
<T extends Type<any>>(type: T): T;
}
export declare interface TypeProvider extends Type<any> {
}
export declare interface ValueProvider extends ValueSansProvider {
multi?: boolean;
provide: any;
}
export declare interface ValueSansProvider {
useValue: any;
}
export declare class Version {
full: string;
readonly major: string;
readonly minor: string;
readonly patch: string;
constructor(full: string);
}
export declare const VERSION: Version;
export declare type ViewChild = Query;
export declare interface ViewChildDecorator {
(selector: Type<any> | InjectionToken<unknown> | Function | string, opts?: {
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read?: any;
static?: boolean;
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}): any;
new (selector: Type<any> | InjectionToken<unknown> | Function | string, opts?: {
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read?: any;
static?: boolean;
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}): ViewChild;
}
export declare type ViewChildren = Query;
export declare interface ViewChildrenDecorator {
(selector: Type<any> | InjectionToken<unknown> | Function | string, opts?: {
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read?: any;
}): any;
new (selector: Type<any> | InjectionToken<unknown> | Function | string, opts?: {
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read?: any;
}): ViewChildren;
}
export declare abstract class ViewContainerRef {
abstract get element(): ElementRef;
abstract get injector(): Injector;
abstract get length(): number;
/** @deprecated */ abstract get parentInjector(): Injector;
abstract clear(): void;
abstract createComponent<C>(componentFactory: ComponentFactory<C>, index?: number, injector?: Injector, projectableNodes?: any[][], ngModule?: NgModuleRef<any>): ComponentRef<C>;
abstract createEmbeddedView<C>(templateRef: TemplateRef<C>, context?: C, index?: number): EmbeddedViewRef<C>;
abstract detach(index?: number): ViewRef | null;
abstract get(index: number): ViewRef | null;
abstract indexOf(viewRef: ViewRef): number;
abstract insert(viewRef: ViewRef, index?: number): ViewRef;
abstract move(viewRef: ViewRef, currentIndex: number): ViewRef;
abstract remove(index?: number): void;
}
export declare enum ViewEncapsulation {
Emulated = 0,
None = 2,
ShadowDom = 3
}
export declare abstract class ViewRef extends ChangeDetectorRef {
abstract get destroyed(): boolean;
abstract destroy(): void;
abstract onDestroy(callback: Function): any /** TODO #9100 */;
}
/** @deprecated */
export declare class WrappedValue {
/** @deprecated */ wrapped: any;
constructor(value: any);
static isWrapped(value: any): value is WrappedValue;
static unwrap(value: any): any;
static wrap(value: any): WrappedValue;
}