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>;
}
/** @deprecated */
export declare interface CollectionChangeRecord<V> extends IterableChangeRecord<V> {
}
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> | Function | string, opts?: {
read?: any;
static?: boolean;
}): any;
new (selector: Type<any> | 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> | Function | string, opts?: {
descendants?: boolean;
read?: any;
}): any;
new (selector: Type<any> | 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 extends any = 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 class EventEmitter<T extends any> extends Subject<T> {
constructor(isAsync?: boolean);
emit(value?: T): void;
subscribe(generatorOrNext?: any, error?: any, complete?: any): Subscription;
}
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 = any /** TODO(alxhub): remove default when callers pass explicit type param */> {
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 }: {
enableLongStackTrace?: boolean | undefined;
shouldCoalesceEventChangeDetection?: 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;
}
export declare function ɵɵadvance(delta: number): void;
export declare function ɵɵattribute(name: string, value: any, sanitizer?: SanitizerFn | null, namespace?: string): typeof ɵɵattribute;
export declare function ɵɵattributeInterpolate1(attrName: string, prefix: string, v0: any, suffix: string, sanitizer?: SanitizerFn, namespace?: string): typeof ɵɵattributeInterpolate1;
export declare function ɵɵattributeInterpolate2(attrName: string, prefix: string, v0: any, i0: string, v1: any, suffix: string, sanitizer?: SanitizerFn, namespace?: string): typeof ɵɵattributeInterpolate2;
export declare function ɵɵattributeInterpolate3(attrName: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, suffix: string, sanitizer?: SanitizerFn, namespace?: string): typeof ɵɵattributeInterpolate3;
export declare function ɵɵattributeInterpolate4(attrName: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, suffix: string, sanitizer?: SanitizerFn, namespace?: string): typeof ɵɵattributeInterpolate4;
export declare function ɵɵattributeInterpolate5(attrName: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, suffix: string, sanitizer?: SanitizerFn, namespace?: string): typeof ɵɵattributeInterpolate5;
export declare function ɵɵattributeInterpolate6(attrName: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, suffix: string, sanitizer?: SanitizerFn, namespace?: string): typeof ɵɵattributeInterpolate6;
export declare function ɵɵattributeInterpolate7(attrName: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, i5: string, v6: any, suffix: string, sanitizer?: SanitizerFn, namespace?: string): typeof ɵɵattributeInterpolate7;
export declare function ɵɵattributeInterpolate8(attrName: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, i5: string, v6: any, i6: string, v7: any, suffix: string, sanitizer?: SanitizerFn, namespace?: string): typeof ɵɵattributeInterpolate8;
export declare function ɵɵattributeInterpolateV(attrName: string, values: any[], sanitizer?: SanitizerFn, namespace?: string): typeof ɵɵattributeInterpolateV;
export declare function ɵɵclassMap(classes: {
[className: string]: boolean | undefined | null;
} | string | undefined | null): void;
export declare function ɵɵclassMapInterpolate1(prefix: string, v0: any, suffix: string): void;
export declare function ɵɵclassMapInterpolate2(prefix: string, v0: any, i0: string, v1: any, suffix: string): void;
export declare function ɵɵclassMapInterpolate3(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, suffix: string): void;
export declare function ɵɵclassMapInterpolate4(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, suffix: string): void;
export declare function ɵɵclassMapInterpolate5(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, suffix: string): void;
export declare function ɵɵclassMapInterpolate6(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, suffix: string): void;
export declare function ɵɵclassMapInterpolate7(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, i5: string, v6: any, suffix: string): void;
export declare function ɵɵclassMapInterpolate8(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, i5: string, v6: any, i6: string, v7: any, suffix: string): void;
export declare function ɵɵclassMapInterpolateV(values: any[]): void;
export declare function ɵɵclassProp(className: string, value: boolean | undefined | null): typeof ɵɵclassProp;
export declare type ɵɵComponentDefWithMeta<T, Selector extends String, ExportAs extends string[], InputMap extends {
[key: string]: string;
}, OutputMap extends {
[key: string]: string;
feat(compiler): add dependency info and ng-content selectors to metadata (#35695) This commit augments the `FactoryDef` declaration of Angular decorated classes to contain information about the parameter decorators used in the constructor. If no constructor is present, or none of the parameters have any Angular decorators, then this will be represented using the `null` type. Otherwise, a tuple type is used where the entry at index `i` corresponds with parameter `i`. Each tuple entry can be one of two types: 1. If the associated parameter does not have any Angular decorators, the tuple entry will be the `null` type. 2. Otherwise, a type literal is used that may declare at least one of the following properties: - "attribute": if `@Attribute` is present. The injected attribute's name is used as string literal type, or the `unknown` type if the attribute name is not a string literal. - "self": if `@Self` is present, always of type `true`. - "skipSelf": if `@SkipSelf` is present, always of type `true`. - "host": if `@Host` is present, always of type `true`. - "optional": if `@Optional` is present, always of type `true`. A property is only present if the corresponding decorator is used. Note that the `@Inject` decorator is currently not included, as it's non-trivial to properly convert the token's value expression to a type that is valid in a declaration file. Additionally, the `ComponentDefWithMeta` declaration that is created for Angular components has been extended to include all selectors on `ng-content` elements within the component's template. This additional metadata is useful for tooling such as the Angular Language Service, as it provides the ability to offer suggestions for directives/components defined in libraries. At the moment, such tooling extracts the necessary information from the _metadata.json_ manifest file as generated by ngc, however this metadata representation is being replaced by the information emitted into the declaration files. Resolves FW-1870 PR Close #35695
2020-02-26 16:05:44 -05:00
}, QueryFields extends string[], NgContentSelectors extends string[]> = ɵComponentDef<T>;
export declare function ɵɵcomponentHostSyntheticListener(eventName: string, listenerFn: (e?: any) => any, useCapture?: boolean, eventTargetResolver?: GlobalTargetResolver): typeof ɵɵcomponentHostSyntheticListener;
export declare function ɵɵcontainer(index: number): void;
export declare function ɵɵcontainerRefreshEnd(): void;
export declare function ɵɵcontainerRefreshStart(index: number): void;
export declare function ɵɵcontentQuery<T>(directiveIndex: number, predicate: Type<any> | string[], descend: boolean, read?: any): void;
export declare function ɵɵCopyDefinitionFeature(definition: ɵDirectiveDef<any> | ɵComponentDef<any>): void;
export declare const ɵɵdefaultStyleSanitizer: StyleSanitizeFn;
export declare function ɵɵdefineComponent<T>(componentDefinition: {
type: Type<T>;
selectors?: ɵCssSelectorList;
decls: number;
vars: number;
inputs?: {
[P in keyof T]?: string | [string, string];
};
outputs?: {
[P in keyof T]?: string;
};
hostBindings?: HostBindingsFunction<T>;
refactor(ivy): move `hostVars`/`hostAttrs` from instruction to `DirectiveDef` (#34683) This change moves information from instructions to declarative position: - `ɵɵallocHostVars(vars)` => `DirectiveDef.hostVars` - `ɵɵelementHostAttrs(attrs)` => `DirectiveDef.hostAttrs` When merging directives it is necessary to know about `hostVars` and `hostAttrs`. Before this change the information was stored in the `hostBindings` function. This was problematic, because in order to get to the information the `hostBindings` would have to be executed. In order for `hostBindings` to be executed the directives would have to be instantiated. This means that the directive instantiation would happen before we had knowledge about the `hostAttrs` and as a result the directive could observe in the constructor that not all of the `hostAttrs` have been applied. This further complicates the runtime as we have to apply `hostAttrs` in parts over many invocations. `ɵɵallocHostVars` was unnecessarily complicated because it would have to update the `LView` (and Blueprint) while existing directives are already executing. By moving it out of `hostBindings` function we can access it statically and we can create correct `LView` (and Blueprint) in a single pass. This change only changes how the instructions are generated, but does not change the runtime much. (We cheat by emulating the old behavior by calling `ɵɵallocHostVars` and `ɵɵelementHostAttrs`) Subsequent change will refactor the runtime to take advantage of the static information. PR Close #34683
2020-01-08 14:32:33 -05:00
hostVars?: number;
hostAttrs?: TAttributes;
contentQueries?: ContentQueriesFunction<T>;
exportAs?: string[];
template: ComponentTemplate<T>;
consts?: TConstants;
ngContentSelectors?: string[];
viewQuery?: ViewQueriesFunction<T> | null;
features?: ComponentDefFeature[];
encapsulation?: ViewEncapsulation;
data?: {
[kind: string]: any;
};
styles?: string[];
changeDetection?: ChangeDetectionStrategy;
directives?: DirectiveTypesOrFactory | null;
pipes?: PipeTypesOrFactory | null;
schemas?: SchemaMetadata[] | null;
}): never;
export declare const ɵɵdefineDirective: <T>(directiveDefinition: {
type: Type<T>;
selectors?: ɵCssSelectorList | undefined;
inputs?: { [P in keyof T]?: string | [string, string] | undefined; } | undefined;
outputs?: { [P_1 in keyof T]?: string | undefined; } | undefined;
features?: DirectiveDefFeature[] | undefined;
hostBindings?: HostBindingsFunction<T> | undefined;
refactor(ivy): move `hostVars`/`hostAttrs` from instruction to `DirectiveDef` (#34683) This change moves information from instructions to declarative position: - `ɵɵallocHostVars(vars)` => `DirectiveDef.hostVars` - `ɵɵelementHostAttrs(attrs)` => `DirectiveDef.hostAttrs` When merging directives it is necessary to know about `hostVars` and `hostAttrs`. Before this change the information was stored in the `hostBindings` function. This was problematic, because in order to get to the information the `hostBindings` would have to be executed. In order for `hostBindings` to be executed the directives would have to be instantiated. This means that the directive instantiation would happen before we had knowledge about the `hostAttrs` and as a result the directive could observe in the constructor that not all of the `hostAttrs` have been applied. This further complicates the runtime as we have to apply `hostAttrs` in parts over many invocations. `ɵɵallocHostVars` was unnecessarily complicated because it would have to update the `LView` (and Blueprint) while existing directives are already executing. By moving it out of `hostBindings` function we can access it statically and we can create correct `LView` (and Blueprint) in a single pass. This change only changes how the instructions are generated, but does not change the runtime much. (We cheat by emulating the old behavior by calling `ɵɵallocHostVars` and `ɵɵelementHostAttrs`) Subsequent change will refactor the runtime to take advantage of the static information. PR Close #34683
2020-01-08 14:32:33 -05:00
hostVars?: number | undefined;
hostAttrs?: TAttributes | undefined;
contentQueries?: ContentQueriesFunction<T> | undefined;
viewQuery?: ViewQueriesFunction<T> | null | undefined;
exportAs?: string[] | undefined;
}) => never;
export declare function ɵɵdefineInjectable<T>(opts: {
token: unknown;
providedIn?: Type<any> | 'root' | 'platform' | 'any' | null;
factory: () => T;
}): never;
export declare function ɵɵdefineInjector(options: {
factory: () => any;
providers?: any[];
imports?: any[];
}): never;
export declare function ɵɵdefineNgModule<T>(def: {
type: T;
bootstrap?: Type<any>[] | (() => Type<any>[]);
declarations?: Type<any>[] | (() => Type<any>[]);
imports?: Type<any>[] | (() => Type<any>[]);
exports?: Type<any>[] | (() => Type<any>[]);
schemas?: SchemaMetadata[] | null;
id?: string | null;
}): never;
export declare function ɵɵdefinePipe<T>(pipeDef: {
name: string;
type: Type<T>;
pure?: boolean;
}): never;
export declare type ɵɵDirectiveDefWithMeta<T, Selector extends string, ExportAs extends string[], InputMap extends {
[key: string]: string;
}, OutputMap extends {
[key: string]: string;
}, QueryFields extends string[]> = ɵDirectiveDef<T>;
export declare function ɵɵdirectiveInject<T>(token: Type<T> | InjectionToken<T>): T;
export declare function ɵɵdirectiveInject<T>(token: Type<T> | InjectionToken<T>, flags: InjectFlags): T;
export declare function ɵɵdisableBindings(): void;
export declare function ɵɵelement(index: number, name: string, attrsIndex?: number | null, localRefsIndex?: number): void;
export declare function ɵɵelementContainer(index: number, attrsIndex?: number | null, localRefsIndex?: number): void;
export declare function ɵɵelementContainerEnd(): void;
export declare function ɵɵelementContainerStart(index: number, attrsIndex?: number | null, localRefsIndex?: number): void;
export declare function ɵɵelementEnd(): void;
export declare function ɵɵelementStart(index: number, name: string, attrsIndex?: number | null, localRefsIndex?: number): void;
export declare function ɵɵembeddedViewEnd(): void;
export declare function ɵɵembeddedViewStart(viewBlockId: number, decls: number, vars: number): ɵRenderFlags;
export declare function ɵɵenableBindings(): void;
feat(compiler): add dependency info and ng-content selectors to metadata (#35695) This commit augments the `FactoryDef` declaration of Angular decorated classes to contain information about the parameter decorators used in the constructor. If no constructor is present, or none of the parameters have any Angular decorators, then this will be represented using the `null` type. Otherwise, a tuple type is used where the entry at index `i` corresponds with parameter `i`. Each tuple entry can be one of two types: 1. If the associated parameter does not have any Angular decorators, the tuple entry will be the `null` type. 2. Otherwise, a type literal is used that may declare at least one of the following properties: - "attribute": if `@Attribute` is present. The injected attribute's name is used as string literal type, or the `unknown` type if the attribute name is not a string literal. - "self": if `@Self` is present, always of type `true`. - "skipSelf": if `@SkipSelf` is present, always of type `true`. - "host": if `@Host` is present, always of type `true`. - "optional": if `@Optional` is present, always of type `true`. A property is only present if the corresponding decorator is used. Note that the `@Inject` decorator is currently not included, as it's non-trivial to properly convert the token's value expression to a type that is valid in a declaration file. Additionally, the `ComponentDefWithMeta` declaration that is created for Angular components has been extended to include all selectors on `ng-content` elements within the component's template. This additional metadata is useful for tooling such as the Angular Language Service, as it provides the ability to offer suggestions for directives/components defined in libraries. At the moment, such tooling extracts the necessary information from the _metadata.json_ manifest file as generated by ngc, however this metadata representation is being replaced by the information emitted into the declaration files. Resolves FW-1870 PR Close #35695
2020-02-26 16:05:44 -05:00
export declare type ɵɵFactoryDef<T, CtorDependencies extends CtorDependency[]> = () => T;
export declare function ɵɵgetCurrentView(): OpaqueViewState;
export declare function ɵɵgetFactoryOf<T>(type: Type<any>): FactoryFn<T> | null;
export declare function ɵɵgetInheritedFactory<T>(type: Type<any>): (type: Type<T>) => T;
export declare function ɵɵhostProperty<T>(propName: string, value: T, sanitizer?: SanitizerFn | null): typeof ɵɵhostProperty;
export declare function ɵɵi18n(index: number, message: string, subTemplateIndex?: number): void;
export declare function ɵɵi18nApply(index: number): void;
export declare function ɵɵi18nAttributes(index: number, values: string[]): void;
export declare function ɵɵi18nEnd(): void;
export declare function ɵɵi18nExp<T>(value: T): typeof ɵɵi18nExp;
export declare function ɵɵi18nPostprocess(message: string, replacements?: {
[key: string]: (string | string[]);
}): string;
export declare function ɵɵi18nStart(index: number, message: string, subTemplateIndex?: number): void;
export declare function ɵɵInheritDefinitionFeature(definition: ɵDirectiveDef<any> | ɵComponentDef<any>): void;
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;
export declare interface ɵɵInjectableDef<T> {
factory: (t?: Type<any>) => T;
providedIn: InjectorType<any> | 'root' | 'platform' | 'any' | null;
token: unknown;
value: T | undefined;
}
export declare function ɵɵinjectAttribute(attrNameToInject: string): string | null;
export declare interface ɵɵInjectorDef<T> {
factory: () => T;
imports: (InjectorType<any> | InjectorTypeWithProviders<any>)[];
providers: (Type<any> | ValueProvider | ExistingProvider | FactoryProvider | ConstructorProvider | StaticClassProvider | ClassProvider | any[])[];
}
export declare function ɵɵinjectPipeChangeDetectorRef(flags?: InjectFlags): ChangeDetectorRef | null;
export declare function ɵɵinvalidFactory(): never;
export declare function ɵɵinvalidFactoryDep(index: number): never;
export declare function ɵɵlistener(eventName: string, listenerFn: (e?: any) => any, useCapture?: boolean, eventTargetResolver?: GlobalTargetResolver): typeof ɵɵlistener;
export declare function ɵɵloadQuery<T>(): QueryList<T>;
export declare function ɵɵnamespaceHTML(): void;
export declare function ɵɵnamespaceMathML(): void;
export declare function ɵɵnamespaceSVG(): void;
export declare function ɵɵnextContext<T = any>(level?: number): T;
export declare type ɵɵNgModuleDefWithMeta<T, Declarations, Imports, Exports> = ɵNgModuleDef<T>;
export declare function ɵɵNgOnChangesFeature<T>(definition: ɵDirectiveDef<T>): void;
export declare function ɵɵpipe(index: number, pipeName: string): any;
export declare function ɵɵpipeBind1(index: number, slotOffset: number, v1: any): any;
export declare function ɵɵpipeBind2(index: number, slotOffset: number, v1: any, v2: any): any;
export declare function ɵɵpipeBind3(index: number, slotOffset: number, v1: any, v2: any, v3: any): any;
export declare function ɵɵpipeBind4(index: number, slotOffset: number, v1: any, v2: any, v3: any, v4: any): any;
export declare function ɵɵpipeBindV(index: number, slotOffset: number, values: [any, ...any[]]): any;
export declare type ɵɵPipeDefWithMeta<T, Name extends string> = ɵPipeDef<T>;
export declare function ɵɵprojection(nodeIndex: number, selectorIndex?: number, attrs?: TAttributes): void;
export declare function ɵɵprojectionDef(projectionSlots?: ProjectionSlots): void;
export declare function ɵɵproperty<T>(propName: string, value: T, sanitizer?: SanitizerFn | null): typeof ɵɵproperty;
export declare function ɵɵpropertyInterpolate(propName: string, v0: any, sanitizer?: SanitizerFn): typeof ɵɵpropertyInterpolate;
export declare function ɵɵpropertyInterpolate1(propName: string, prefix: string, v0: any, suffix: string, sanitizer?: SanitizerFn): typeof ɵɵpropertyInterpolate1;
export declare function ɵɵpropertyInterpolate2(propName: string, prefix: string, v0: any, i0: string, v1: any, suffix: string, sanitizer?: SanitizerFn): typeof ɵɵpropertyInterpolate2;
export declare function ɵɵpropertyInterpolate3(propName: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, suffix: string, sanitizer?: SanitizerFn): typeof ɵɵpropertyInterpolate3;
export declare function ɵɵpropertyInterpolate4(propName: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, suffix: string, sanitizer?: SanitizerFn): typeof ɵɵpropertyInterpolate4;
export declare function ɵɵpropertyInterpolate5(propName: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, suffix: string, sanitizer?: SanitizerFn): typeof ɵɵpropertyInterpolate5;
export declare function ɵɵpropertyInterpolate6(propName: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, suffix: string, sanitizer?: SanitizerFn): typeof ɵɵpropertyInterpolate6;
export declare function ɵɵpropertyInterpolate7(propName: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, i5: string, v6: any, suffix: string, sanitizer?: SanitizerFn): typeof ɵɵpropertyInterpolate7;
export declare function ɵɵpropertyInterpolate8(propName: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, i5: string, v6: any, i6: string, v7: any, suffix: string, sanitizer?: SanitizerFn): typeof ɵɵpropertyInterpolate8;
export declare function ɵɵpropertyInterpolateV(propName: string, values: any[], sanitizer?: SanitizerFn): typeof ɵɵpropertyInterpolateV;
export declare function ɵɵProvidersFeature<T>(providers: Provider[], viewProviders?: Provider[]): (definition: ɵDirectiveDef<T>) => void;
export declare function ɵɵpureFunction0<T>(slotOffset: number, pureFn: () => T, thisArg?: any): T;
export declare function ɵɵpureFunction1(slotOffset: number, pureFn: (v: any) => any, exp: any, thisArg?: any): any;
export declare function ɵɵpureFunction2(slotOffset: number, pureFn: (v1: any, v2: any) => any, exp1: any, exp2: any, thisArg?: any): any;
export declare function ɵɵpureFunction3(slotOffset: number, pureFn: (v1: any, v2: any, v3: any) => any, exp1: any, exp2: any, exp3: any, thisArg?: any): any;
export declare function ɵɵpureFunction4(slotOffset: number, pureFn: (v1: any, v2: any, v3: any, v4: any) => any, exp1: any, exp2: any, exp3: any, exp4: any, thisArg?: any): any;
export declare function ɵɵpureFunction5(slotOffset: number, pureFn: (v1: any, v2: any, v3: any, v4: any, v5: any) => any, exp1: any, exp2: any, exp3: any, exp4: any, exp5: any, thisArg?: any): any;
export declare function ɵɵpureFunction6(slotOffset: number, pureFn: (v1: any, v2: any, v3: any, v4: any, v5: any, v6: any) => any, exp1: any, exp2: any, exp3: any, exp4: any, exp5: any, exp6: any, thisArg?: any): any;
export declare function ɵɵpureFunction7(slotOffset: number, pureFn: (v1: any, v2: any, v3: any, v4: any, v5: any, v6: any, v7: any) => any, exp1: any, exp2: any, exp3: any, exp4: any, exp5: any, exp6: any, exp7: any, thisArg?: any): any;
export declare function ɵɵpureFunction8(slotOffset: number, pureFn: (v1: any, v2: any, v3: any, v4: any, v5: any, v6: any, v7: any, v8: any) => any, exp1: any, exp2: any, exp3: any, exp4: any, exp5: any, exp6: any, exp7: any, exp8: any, thisArg?: any): any;
export declare function ɵɵpureFunctionV(slotOffset: number, pureFn: (...v: any[]) => any, exps: any[], thisArg?: any): any;
export declare function ɵɵqueryRefresh(queryList: QueryList<any>): boolean;
export declare function ɵɵreference<T>(index: number): T;
export declare function ɵɵresolveBody(element: RElement & {
ownerDocument: Document;
}): {
name: string;
target: HTMLElement;
};
export declare function ɵɵresolveDocument(element: RElement & {
ownerDocument: Document;
}): {
name: string;
target: Document;
};
export declare function ɵɵresolveWindow(element: RElement & {
ownerDocument: Document;
}): {
name: string;
target: Window | null;
};
export declare function ɵɵrestoreView(viewToRestore: OpaqueViewState): void;
export declare function ɵɵsanitizeHtml(unsafeHtml: any): string;
export declare function ɵɵsanitizeResourceUrl(unsafeResourceUrl: any): string;
export declare function ɵɵsanitizeScript(unsafeScript: any): string;
export declare function ɵɵsanitizeStyle(unsafeStyle: any): string;
export declare function ɵɵsanitizeUrl(unsafeUrl: any): string;
export declare function ɵɵsanitizeUrlOrResourceUrl(unsafeUrl: any, tag: string, prop: string): any;
/** @deprecated */
export declare function ɵɵselect(index: number): void;
export declare function ɵɵsetComponentScope(type: ɵComponentType<any>, directives: Type<any>[], pipes: Type<any>[]): void;
export declare function ɵɵsetNgModuleScope(type: any, scope: {
declarations?: Type<any>[] | (() => Type<any>[]);
imports?: Type<any>[] | (() => Type<any>[]);
exports?: Type<any>[] | (() => Type<any>[]);
}): void;
export declare function ɵɵstaticContentQuery<T>(directiveIndex: number, predicate: Type<any> | string[], descend: boolean, read?: any): void;
export declare function ɵɵstaticViewQuery<T>(predicate: Type<any> | string[], descend: boolean, read?: any): void;
export declare function ɵɵstyleMap(styles: {
[styleName: string]: any;
} | string | undefined | null): void;
export declare function ɵɵstyleMapInterpolate1(prefix: string, v0: any, suffix: string): void;
export declare function ɵɵstyleMapInterpolate2(prefix: string, v0: any, i0: string, v1: any, suffix: string): void;
export declare function ɵɵstyleMapInterpolate3(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, suffix: string): void;
export declare function ɵɵstyleMapInterpolate4(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, suffix: string): void;
export declare function ɵɵstyleMapInterpolate5(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, suffix: string): void;
export declare function ɵɵstyleMapInterpolate6(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, suffix: string): void;
export declare function ɵɵstyleMapInterpolate7(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, i5: string, v6: any, suffix: string): void;
export declare function ɵɵstyleMapInterpolate8(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, i5: string, v6: any, i6: string, v7: any, suffix: string): void;
export declare function ɵɵstyleMapInterpolateV(values: any[]): void;
export declare function ɵɵstyleProp(prop: string, value: string | number | ɵSafeValue | undefined | null, suffix?: string | null): typeof ɵɵstyleProp;
export declare function ɵɵstylePropInterpolate1(prop: string, prefix: string, v0: any, suffix: string, valueSuffix?: string | null): typeof ɵɵstylePropInterpolate1;
export declare function ɵɵstylePropInterpolate2(prop: string, prefix: string, v0: any, i0: string, v1: any, suffix: string, valueSuffix?: string | null): typeof ɵɵstylePropInterpolate2;
export declare function ɵɵstylePropInterpolate3(prop: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, suffix: string, valueSuffix?: string | null): typeof ɵɵstylePropInterpolate3;
export declare function ɵɵstylePropInterpolate4(prop: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, suffix: string, valueSuffix?: string | null): typeof ɵɵstylePropInterpolate4;
export declare function ɵɵstylePropInterpolate5(prop: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, suffix: string, valueSuffix?: string | null): typeof ɵɵstylePropInterpolate5;
export declare function ɵɵstylePropInterpolate6(prop: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, suffix: string, valueSuffix?: string | null): typeof ɵɵstylePropInterpolate6;
export declare function ɵɵstylePropInterpolate7(prop: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, i5: string, v6: any, suffix: string, valueSuffix?: string | null): typeof ɵɵstylePropInterpolate7;
export declare function ɵɵstylePropInterpolate8(prop: string, prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, i5: string, v6: any, i6: string, v7: any, suffix: string, valueSuffix?: string | null): typeof ɵɵstylePropInterpolate8;
export declare function ɵɵstylePropInterpolateV(prop: string, values: any[], valueSuffix?: string | null): typeof ɵɵstylePropInterpolateV;
export declare function ɵɵstyleSanitizer(sanitizer: StyleSanitizeFn | null): void;
export declare function ɵɵtemplate(index: number, templateFn: ComponentTemplate<any> | null, decls: number, vars: number, tagName?: string | null, attrsIndex?: number | null, localRefsIndex?: number | null, localRefExtractor?: LocalRefExtractor): void;
export declare function ɵɵtemplateRefExtractor(tNode: TNode, currentView: ɵangular_packages_core_core_bo): TemplateRef<unknown> | null;
export declare function ɵɵtext(index: number, value?: string): void;
export declare function ɵɵtextInterpolate(v0: any): typeof ɵɵtextInterpolate;
export declare function ɵɵtextInterpolate1(prefix: string, v0: any, suffix: string): typeof ɵɵtextInterpolate1;
export declare function ɵɵtextInterpolate2(prefix: string, v0: any, i0: string, v1: any, suffix: string): typeof ɵɵtextInterpolate2;
export declare function ɵɵtextInterpolate3(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, suffix: string): typeof ɵɵtextInterpolate3;
export declare function ɵɵtextInterpolate4(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, suffix: string): typeof ɵɵtextInterpolate4;
export declare function ɵɵtextInterpolate5(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, suffix: string): typeof ɵɵtextInterpolate5;
export declare function ɵɵtextInterpolate6(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, suffix: string): typeof ɵɵtextInterpolate6;
export declare function ɵɵtextInterpolate7(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, i5: string, v6: any, suffix: string): typeof ɵɵtextInterpolate7;
export declare function ɵɵtextInterpolate8(prefix: string, v0: any, i0: string, v1: any, i1: string, v2: any, i2: string, v3: any, i3: string, v4: any, i4: string, v5: any, i5: string, v6: any, i6: string, v7: any, suffix: string): typeof ɵɵtextInterpolate8;
export declare function ɵɵtextInterpolateV(values: any[]): typeof ɵɵtextInterpolateV;
export declare function ɵɵupdateSyntheticHostBinding<T>(propName: string, value: T | ɵNO_CHANGE, sanitizer?: SanitizerFn | null): typeof ɵɵupdateSyntheticHostBinding;
export declare function ɵɵviewQuery<T>(predicate: Type<any> | string[], descend: boolean, read?: 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
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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;
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abstract insertBefore(parent: any, newChild: any, refChild: any): 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
2017-01-03 19:54:46 -05:00
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
2017-01-03 19:54:46 -05:00
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> | Function | string, opts?: {
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read?: any;
static?: boolean;
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}): any;
new (selector: Type<any> | 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> | Function | string, opts?: {
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read?: any;
}): any;
new (selector: Type<any> | 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,
Native = 1,
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 */;
}
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;
}