angular-cn/goldens/public-api/router/router.d.ts

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export declare class ActivatedRoute {
get children(): ActivatedRoute[];
component: Type<any> | string | null;
data: Observable<Data>;
get firstChild(): ActivatedRoute | null;
fragment: Observable<string>;
outlet: string;
get paramMap(): Observable<ParamMap>;
params: Observable<Params>;
get parent(): ActivatedRoute | null;
get pathFromRoot(): ActivatedRoute[];
get queryParamMap(): Observable<ParamMap>;
queryParams: Observable<Params>;
get root(): ActivatedRoute;
get routeConfig(): Route | null;
snapshot: ActivatedRouteSnapshot;
url: Observable<UrlSegment[]>;
toString(): string;
}
export declare class ActivatedRouteSnapshot {
get children(): ActivatedRouteSnapshot[];
component: Type<any> | string | null;
data: Data;
get firstChild(): ActivatedRouteSnapshot | null;
fragment: string;
outlet: string;
get paramMap(): ParamMap;
params: Params;
get parent(): ActivatedRouteSnapshot | null;
get pathFromRoot(): ActivatedRouteSnapshot[];
get queryParamMap(): ParamMap;
queryParams: Params;
get root(): ActivatedRouteSnapshot;
readonly routeConfig: Route | null;
url: UrlSegment[];
toString(): string;
}
export declare class ActivationEnd {
snapshot: ActivatedRouteSnapshot;
constructor(
snapshot: ActivatedRouteSnapshot);
toString(): string;
}
export declare class ActivationStart {
snapshot: ActivatedRouteSnapshot;
constructor(
snapshot: ActivatedRouteSnapshot);
toString(): string;
}
export declare abstract class BaseRouteReuseStrategy implements RouteReuseStrategy {
retrieve(route: ActivatedRouteSnapshot): DetachedRouteHandle | null;
shouldAttach(route: ActivatedRouteSnapshot): boolean;
shouldDetach(route: ActivatedRouteSnapshot): boolean;
shouldReuseRoute(future: ActivatedRouteSnapshot, curr: ActivatedRouteSnapshot): boolean;
store(route: ActivatedRouteSnapshot, detachedTree: DetachedRouteHandle): void;
}
export declare interface CanActivate {
canActivate(route: ActivatedRouteSnapshot, state: RouterStateSnapshot): Observable<boolean | UrlTree> | Promise<boolean | UrlTree> | boolean | UrlTree;
}
export declare interface CanActivateChild {
canActivateChild(childRoute: ActivatedRouteSnapshot, state: RouterStateSnapshot): Observable<boolean | UrlTree> | Promise<boolean | UrlTree> | boolean | UrlTree;
}
export declare interface CanDeactivate<T> {
canDeactivate(component: T, currentRoute: ActivatedRouteSnapshot, currentState: RouterStateSnapshot, nextState?: RouterStateSnapshot): Observable<boolean | UrlTree> | Promise<boolean | UrlTree> | boolean | UrlTree;
}
export declare interface CanLoad {
canLoad(route: Route, segments: UrlSegment[]): Observable<boolean | UrlTree> | Promise<boolean | UrlTree> | boolean | UrlTree;
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}
export declare class ChildActivationEnd {
snapshot: ActivatedRouteSnapshot;
constructor(
snapshot: ActivatedRouteSnapshot);
toString(): string;
}
export declare class ChildActivationStart {
snapshot: ActivatedRouteSnapshot;
constructor(
snapshot: ActivatedRouteSnapshot);
toString(): string;
}
export declare class ChildrenOutletContexts {
getContext(childName: string): OutletContext | null;
getOrCreateContext(childName: string): OutletContext;
onChildOutletCreated(childName: string, outlet: RouterOutlet): void;
onChildOutletDestroyed(childName: string): void;
onOutletDeactivated(): Map<string, OutletContext>;
onOutletReAttached(contexts: Map<string, OutletContext>): void;
}
export declare function convertToParamMap(params: Params): ParamMap;
export declare type Data = {
[name: string]: any;
};
export declare class DefaultUrlSerializer implements UrlSerializer {
parse(url: string): UrlTree;
serialize(tree: UrlTree): string;
}
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 type DeprecatedLoadChildren = string;
export declare type DetachedRouteHandle = {};
export declare type Event = RouterEvent | RouteConfigLoadStart | RouteConfigLoadEnd | ChildActivationStart | ChildActivationEnd | ActivationStart | ActivationEnd | Scroll;
export declare interface ExtraOptions {
anchorScrolling?: 'disabled' | 'enabled';
enableTracing?: boolean;
errorHandler?: ErrorHandler;
initialNavigation?: InitialNavigation;
malformedUriErrorHandler?: (error: URIError, urlSerializer: UrlSerializer, url: string) => UrlTree;
onSameUrlNavigation?: 'reload' | 'ignore';
paramsInheritanceStrategy?: 'emptyOnly' | 'always';
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preloadingStrategy?: any;
relativeLinkResolution?: 'legacy' | 'corrected';
scrollOffset?: [number, number] | (() => [number, number]);
scrollPositionRestoration?: 'disabled' | 'enabled' | 'top';
urlUpdateStrategy?: 'deferred' | 'eager';
useHash?: boolean;
}
export declare class GuardsCheckEnd extends RouterEvent {
shouldActivate: boolean;
state: RouterStateSnapshot;
urlAfterRedirects: string;
constructor(
id: number,
url: string,
urlAfterRedirects: string,
state: RouterStateSnapshot,
shouldActivate: boolean);
toString(): string;
}
export declare class GuardsCheckStart extends RouterEvent {
state: RouterStateSnapshot;
urlAfterRedirects: string;
constructor(
id: number,
url: string,
urlAfterRedirects: string,
state: RouterStateSnapshot);
toString(): string;
}
export declare type InitialNavigation = 'disabled' | 'enabled' | 'enabledBlocking' | 'enabledNonBlocking';
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
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export declare type LoadChildren = LoadChildrenCallback | DeprecatedLoadChildren;
export declare type LoadChildrenCallback = () => Type<any> | NgModuleFactory<any> | Observable<Type<any>> | Promise<NgModuleFactory<any> | Type<any> | any>;
export declare type Navigation = {
id: number;
initialUrl: string | UrlTree;
extractedUrl: UrlTree;
finalUrl?: UrlTree;
trigger: 'imperative' | 'popstate' | 'hashchange';
extras: NavigationExtras;
previousNavigation: Navigation | null;
};
export declare interface NavigationBehaviorOptions {
replaceUrl?: boolean;
skipLocationChange?: boolean;
state?: {
[k: string]: any;
};
}
export declare class NavigationCancel extends RouterEvent {
reason: string;
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constructor(
id: number,
url: string,
reason: string);
toString(): string;
}
export declare class NavigationEnd extends RouterEvent {
urlAfterRedirects: string;
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constructor(
id: number,
url: string,
urlAfterRedirects: string);
toString(): string;
}
export declare class NavigationError extends RouterEvent {
error: any;
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constructor(
id: number,
url: string,
error: any);
toString(): string;
}
export declare interface NavigationExtras extends UrlCreationOptions, NavigationBehaviorOptions {
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}
export declare class NavigationStart extends RouterEvent {
navigationTrigger?: 'imperative' | 'popstate' | 'hashchange';
restoredState?: {
[k: string]: any;
navigationId: number;
} | null;
constructor(
id: number,
url: string,
navigationTrigger?: 'imperative' | 'popstate' | 'hashchange',
restoredState?: {
[k: string]: any;
navigationId: number;
} | null);
toString(): string;
}
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export declare class NoPreloading implements PreloadingStrategy {
preload(route: Route, fn: () => Observable<any>): Observable<any>;
}
export declare class OutletContext {
attachRef: ComponentRef<any> | null;
children: ChildrenOutletContexts;
outlet: RouterOutlet | null;
resolver: ComponentFactoryResolver | null;
route: ActivatedRoute | null;
}
export declare interface ParamMap {
readonly keys: string[];
feat(router): introduce `ParamMap` to access parameters The Router use the type `Params` for all of: - position parameters, - matrix parameters, - query parameters. `Params` is defined as follow `type Params = {[key: string]: any}` Because parameters can either have single or multiple values, the type should actually be `type Params = {[key: string]: string | string[]}`. The client code often assumes that parameters have single values, as in the following exemple: ``` class MyComponent { sessionId: Observable<string>; constructor(private route: ActivatedRoute) {} ngOnInit() { this.sessionId = this.route .queryParams .map(params => params['session_id'] || 'None'); } } ``` The problem here is that `params['session_id']` could be `string` or `string[]` but the error is not caught at build time because of the `any` type. Fixing the type as describe above would break the build because `sessionId` would becomes an `Observable<string | string[]>`. However the client code knows if it expects a single or multiple values. By using the new `ParamMap` interface the user code can decide when it needs a single value (calling `ParamMap.get(): string`) or multiple values (calling `ParamMap.getAll(): string[]`). The above exemple should be rewritten as: ``` class MyComponent { sessionId: Observable<string>; constructor(private route: ActivatedRoute) {} ngOnInit() { this.sessionId = this.route .queryParamMap .map(paramMap => paramMap.get('session_id') || 'None'); } } ``` Added APIs: - `interface ParamMap`, - `ActivatedRoute.paramMap: ParamMap`, - `ActivatedRoute.queryParamMap: ParamMap`, - `ActivatedRouteSnapshot.paramMap: ParamMap`, - `ActivatedRouteSnapshot.queryParamMap: ParamMap`, - `UrlSegment.parameterMap: ParamMap`
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get(name: string): string | null;
getAll(name: string): string[];
has(name: string): boolean;
}
export declare type Params = {
[key: string]: any;
};
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export declare class PreloadAllModules implements PreloadingStrategy {
preload(route: Route, fn: () => Observable<any>): Observable<any>;
}
export declare abstract class PreloadingStrategy {
abstract preload(route: Route, fn: () => Observable<any>): Observable<any>;
}
export declare const PRIMARY_OUTLET = "primary";
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export declare function provideRoutes(routes: Routes): any;
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export declare type QueryParamsHandling = 'merge' | 'preserve' | '';
export declare interface Resolve<T> {
resolve(route: ActivatedRouteSnapshot, state: RouterStateSnapshot): Observable<T> | Promise<T> | T;
}
export declare type ResolveData = {
[name: string]: any;
};
export declare class ResolveEnd extends RouterEvent {
state: RouterStateSnapshot;
urlAfterRedirects: string;
constructor(
id: number,
url: string,
urlAfterRedirects: string,
state: RouterStateSnapshot);
toString(): string;
}
export declare class ResolveStart extends RouterEvent {
state: RouterStateSnapshot;
urlAfterRedirects: string;
constructor(
id: number,
url: string,
urlAfterRedirects: string,
state: RouterStateSnapshot);
toString(): string;
}
export declare interface Route {
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canActivate?: any[];
canActivateChild?: any[];
canDeactivate?: any[];
canLoad?: any[];
children?: Routes;
component?: Type<any>;
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data?: Data;
loadChildren?: LoadChildren;
matcher?: UrlMatcher;
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outlet?: string;
path?: string;
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pathMatch?: string;
redirectTo?: string;
resolve?: ResolveData;
runGuardsAndResolvers?: RunGuardsAndResolvers;
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}
export declare class RouteConfigLoadEnd {
route: Route;
constructor(
route: Route);
toString(): string;
}
export declare class RouteConfigLoadStart {
route: Route;
constructor(
route: Route);
toString(): string;
}
export declare class Router {
config: Routes;
errorHandler: ErrorHandler;
readonly events: Observable<Event>;
malformedUriErrorHandler: (error: URIError, urlSerializer: UrlSerializer, url: string) => UrlTree;
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navigated: boolean;
onSameUrlNavigation: 'reload' | 'ignore';
paramsInheritanceStrategy: 'emptyOnly' | 'always';
relativeLinkResolution: 'legacy' | 'corrected';
routeReuseStrategy: RouteReuseStrategy;
readonly routerState: RouterState;
get url(): string;
urlHandlingStrategy: UrlHandlingStrategy;
urlUpdateStrategy: 'deferred' | 'eager';
constructor(rootComponentType: Type<any> | null, urlSerializer: UrlSerializer, rootContexts: ChildrenOutletContexts, location: Location, injector: Injector, loader: NgModuleFactoryLoader, compiler: Compiler, config: Routes);
createUrlTree(commands: any[], navigationExtras?: NavigationExtras): UrlTree;
dispose(): void;
getCurrentNavigation(): Navigation | null;
initialNavigation(): void;
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isActive(url: string | UrlTree, exact: boolean): boolean;
navigate(commands: any[], extras?: NavigationExtras): Promise<boolean>;
navigateByUrl(url: string | UrlTree, extras?: NavigationBehaviorOptions): Promise<boolean>;
ngOnDestroy(): void;
parseUrl(url: string): UrlTree;
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resetConfig(config: Routes): void;
serializeUrl(url: UrlTree): string;
setUpLocationChangeListener(): 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 ROUTER_CONFIGURATION: InjectionToken<ExtraOptions>;
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 ROUTER_INITIALIZER: InjectionToken<(compRef: ComponentRef<any>) => void>;
export declare abstract class RouteReuseStrategy {
abstract retrieve(route: ActivatedRouteSnapshot): DetachedRouteHandle | null;
abstract shouldAttach(route: ActivatedRouteSnapshot): boolean;
abstract shouldDetach(route: ActivatedRouteSnapshot): boolean;
abstract shouldReuseRoute(future: ActivatedRouteSnapshot, curr: ActivatedRouteSnapshot): boolean;
abstract store(route: ActivatedRouteSnapshot, handle: DetachedRouteHandle | null): void;
}
export declare class RouterEvent {
id: number;
url: string;
constructor(
id: number,
url: string);
}
export declare class RouterLink implements OnChanges {
fragment?: string;
preserveFragment: boolean;
queryParams?: Params | null;
queryParamsHandling?: QueryParamsHandling | null;
replaceUrl: boolean;
set routerLink(commands: any[] | string | null | undefined);
skipLocationChange: boolean;
state?: {
[k: string]: any;
};
get urlTree(): UrlTree;
constructor(router: Router, route: ActivatedRoute, tabIndex: string, renderer: Renderer2, el: ElementRef);
ngOnChanges(changes: SimpleChanges): void;
onClick(): boolean;
}
export declare class RouterLinkActive implements OnChanges, OnDestroy, AfterContentInit {
readonly isActive: boolean;
links: QueryList<RouterLink>;
linksWithHrefs: QueryList<RouterLinkWithHref>;
set routerLinkActive(data: string[] | string);
routerLinkActiveOptions: {
exact: boolean;
};
constructor(router: Router, element: ElementRef, renderer: Renderer2, cdr: ChangeDetectorRef, link?: RouterLink | undefined, linkWithHref?: RouterLinkWithHref | undefined);
ngAfterContentInit(): void;
ngOnChanges(changes: SimpleChanges): void;
ngOnDestroy(): void;
}
export declare class RouterLinkWithHref implements OnChanges, OnDestroy {
fragment?: string;
href: string;
preserveFragment: boolean;
queryParams?: Params | null;
queryParamsHandling?: QueryParamsHandling | null;
replaceUrl: boolean;
set routerLink(commands: any[] | string | null | undefined);
skipLocationChange: boolean;
state?: {
[k: string]: any;
};
target: string;
get urlTree(): UrlTree;
constructor(router: Router, route: ActivatedRoute, locationStrategy: LocationStrategy);
ngOnChanges(changes: SimpleChanges): any;
ngOnDestroy(): any;
onClick(button: number, ctrlKey: boolean, shiftKey: boolean, altKey: boolean, metaKey: boolean): boolean;
}
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export declare class RouterModule {
constructor(guard: any, router: Router);
static forChild(routes: Routes): ModuleWithProviders<RouterModule>;
static forRoot(routes: Routes, config?: ExtraOptions): ModuleWithProviders<RouterModule>;
}
export declare class RouterOutlet implements OnDestroy, OnInit {
activateEvents: EventEmitter<any>;
get activatedRoute(): ActivatedRoute;
get activatedRouteData(): Data;
get component(): Object;
deactivateEvents: EventEmitter<any>;
get isActivated(): boolean;
constructor(parentContexts: ChildrenOutletContexts, location: ViewContainerRef, resolver: ComponentFactoryResolver, name: string, changeDetector: ChangeDetectorRef);
activateWith(activatedRoute: ActivatedRoute, resolver: ComponentFactoryResolver | null): void;
attach(ref: ComponentRef<any>, activatedRoute: ActivatedRoute): void;
deactivate(): void;
detach(): ComponentRef<any>;
ngOnDestroy(): void;
ngOnInit(): void;
}
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export declare class RouterPreloader implements OnDestroy {
constructor(router: Router, moduleLoader: NgModuleFactoryLoader, compiler: Compiler, injector: Injector, preloadingStrategy: PreloadingStrategy);
ngOnDestroy(): void;
preload(): Observable<any>;
setUpPreloading(): void;
}
export declare class RouterState extends ɵangular_packages_router_router_m<ActivatedRoute> {
snapshot: RouterStateSnapshot;
toString(): string;
}
export declare class RouterStateSnapshot extends ɵangular_packages_router_router_m<ActivatedRouteSnapshot> {
url: string;
toString(): string;
}
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export declare type Routes = Route[];
export declare const ROUTES: InjectionToken<Route[][]>;
export declare class RoutesRecognized extends RouterEvent {
state: RouterStateSnapshot;
urlAfterRedirects: string;
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constructor(
id: number,
url: string,
urlAfterRedirects: string,
state: RouterStateSnapshot);
toString(): string;
}
export declare type RunGuardsAndResolvers = 'pathParamsChange' | 'pathParamsOrQueryParamsChange' | 'paramsChange' | 'paramsOrQueryParamsChange' | 'always' | ((from: ActivatedRouteSnapshot, to: ActivatedRouteSnapshot) => boolean);
export declare class Scroll {
readonly anchor: string | null;
readonly position: [number, number] | null;
readonly routerEvent: NavigationEnd;
constructor(
routerEvent: NavigationEnd,
position: [number, number] | null,
anchor: string | null);
toString(): string;
}
export declare interface UrlCreationOptions {
fragment?: string;
preserveFragment?: boolean;
queryParams?: Params | null;
queryParamsHandling?: QueryParamsHandling | null;
relativeTo?: ActivatedRoute | null;
}
export declare abstract class UrlHandlingStrategy {
abstract extract(url: UrlTree): UrlTree;
abstract merge(newUrlPart: UrlTree, rawUrl: UrlTree): UrlTree;
abstract shouldProcessUrl(url: UrlTree): boolean;
}
export declare type UrlMatcher = (segments: UrlSegment[], group: UrlSegmentGroup, route: Route) => UrlMatchResult | null;
export declare type UrlMatchResult = {
consumed: UrlSegment[];
posParams?: {
[name: string]: UrlSegment;
};
};
export declare class UrlSegment {
get parameterMap(): ParamMap;
parameters: {
[name: string]: string;
};
path: string;
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constructor(
path: string,
parameters: {
[name: string]: string;
});
toString(): string;
}
export declare class UrlSegmentGroup {
children: {
[key: string]: UrlSegmentGroup;
};
get numberOfChildren(): number;
parent: UrlSegmentGroup | null;
segments: UrlSegment[];
constructor(
segments: UrlSegment[],
children: {
[key: string]: UrlSegmentGroup;
});
hasChildren(): boolean;
toString(): string;
}
export declare abstract class UrlSerializer {
abstract parse(url: string): UrlTree;
abstract serialize(tree: UrlTree): string;
}
export declare class UrlTree {
fragment: string | null;
get queryParamMap(): ParamMap;
queryParams: Params;
root: UrlSegmentGroup;
toString(): string;
}
export declare const VERSION: Version;