import { Action } from '../scheduler/Action'; import { Operator } from '../Operator'; import { Subscriber } from '../Subscriber'; import { IScheduler } from '../Scheduler'; import { async } from '../scheduler/async'; import { TeardownLogic } from '../Subscription'; import { Observable, ObservableInput } from '../Observable'; import { isDate } from '../util/isDate'; import { OuterSubscriber } from '../OuterSubscriber'; import { subscribeToResult } from '../util/subscribeToResult'; import { OperatorFunction, MonoTypeOperatorFunction } from '../interfaces'; /* tslint:disable:max-line-length */ export function timeoutWith(due: number | Date, withObservable: ObservableInput, scheduler?: IScheduler): MonoTypeOperatorFunction; export function timeoutWith(due: number | Date, withObservable: ObservableInput, scheduler?: IScheduler): OperatorFunction; /* tslint:enable:max-line-length */ /** * * Errors if Observable does not emit a value in given time span, in case of which * subscribes to the second Observable. * * It's a version of `timeout` operator that let's you specify fallback Observable. * * * * `timeoutWith` is a variation of `timeout` operator. It behaves exactly the same, * still accepting as a first argument either a number or a Date, which control - respectively - * when values of source Observable should be emitted or when it should complete. * * The only difference is that it accepts a second, required parameter. This parameter * should be an Observable which will be subscribed when source Observable fails any timeout check. * So whenever regular `timeout` would emit an error, `timeoutWith` will instead start re-emitting * values from second Observable. Note that this fallback Observable is not checked for timeouts * itself, so it can emit values and complete at arbitrary points in time. From the moment of a second * subscription, Observable returned from `timeoutWith` simply mirrors fallback stream. When that * stream completes, it completes as well. * * Scheduler, which in case of `timeout` is provided as as second argument, can be still provided * here - as a third, optional parameter. It still is used to schedule timeout checks and - * as a consequence - when second Observable will be subscribed, since subscription happens * immediately after failing check. * * @example Add fallback observable * const seconds = Rx.Observable.interval(1000); * const minutes = Rx.Observable.interval(60 * 1000); * * seconds.timeoutWith(900, minutes) * .subscribe( * value => console.log(value), // After 900ms, will start emitting `minutes`, * // since first value of `seconds` will not arrive fast enough. * err => console.log(err) // Would be called after 900ms in case of `timeout`, * // but here will never be called. * ); * * @param {number|Date} due Number specifying period within which Observable must emit values * or Date specifying before when Observable should complete * @param {Observable} withObservable Observable which will be subscribed if source fails timeout check. * @param {Scheduler} [scheduler] Scheduler controlling when timeout checks occur. * @return {Observable} Observable that mirrors behaviour of source or, when timeout check fails, of an Observable * passed as a second parameter. * @method timeoutWith * @owner Observable */ export function timeoutWith(due: number | Date, withObservable: ObservableInput, scheduler: IScheduler = async): OperatorFunction { return (source: Observable) => { let absoluteTimeout = isDate(due); let waitFor = absoluteTimeout ? (+due - scheduler.now()) : Math.abs(due); return source.lift(new TimeoutWithOperator(waitFor, absoluteTimeout, withObservable, scheduler)); }; } class TimeoutWithOperator implements Operator { constructor(private waitFor: number, private absoluteTimeout: boolean, private withObservable: ObservableInput, private scheduler: IScheduler) { } call(subscriber: Subscriber, source: any): TeardownLogic { return source.subscribe(new TimeoutWithSubscriber( subscriber, this.absoluteTimeout, this.waitFor, this.withObservable, this.scheduler )); } } /** * We need this JSDoc comment for affecting ESDoc. * @ignore * @extends {Ignored} */ class TimeoutWithSubscriber extends OuterSubscriber { private action: Action> = null; constructor(destination: Subscriber, private absoluteTimeout: boolean, private waitFor: number, private withObservable: ObservableInput, private scheduler: IScheduler) { super(destination); this.scheduleTimeout(); } private static dispatchTimeout(subscriber: TimeoutWithSubscriber): void { const { withObservable } = subscriber; ( subscriber)._unsubscribeAndRecycle(); subscriber.add(subscribeToResult(subscriber, withObservable)); } private scheduleTimeout(): void { const { action } = this; if (action) { // Recycle the action if we've already scheduled one. All the production // Scheduler Actions mutate their state/delay time and return themeselves. // VirtualActions are immutable, so they create and return a clone. In this // case, we need to set the action reference to the most recent VirtualAction, // to ensure that's the one we clone from next time. this.action = (>> action.schedule(this, this.waitFor)); } else { this.add(this.action = (>> this.scheduler.schedule( TimeoutWithSubscriber.dispatchTimeout, this.waitFor, this ))); } } protected _next(value: T): void { if (!this.absoluteTimeout) { this.scheduleTimeout(); } super._next(value); } /** @deprecated internal use only */ _unsubscribe() { this.action = null; this.scheduler = null; this.withObservable = null; } }