import { Observable } from '../Observable'; import { ScalarObservable } from './ScalarObservable'; import { EmptyObservable } from './EmptyObservable'; import { isScheduler } from '../util/isScheduler'; /** * We need this JSDoc comment for affecting ESDoc. * @extends {Ignored} * @hide true */ export class ArrayObservable extends Observable { constructor(array, scheduler) { super(); this.array = array; this.scheduler = scheduler; if (!scheduler && array.length === 1) { this._isScalar = true; this.value = array[0]; } } static create(array, scheduler) { return new ArrayObservable(array, scheduler); } /** * Creates an Observable that emits some values you specify as arguments, * immediately one after the other, and then emits a complete notification. * * Emits the arguments you provide, then completes. * * * * * This static operator is useful for creating a simple Observable that only * emits the arguments given, and the complete notification thereafter. It can * be used for composing with other Observables, such as with {@link concat}. * By default, it uses a `null` IScheduler, which means the `next` * notifications are sent synchronously, although with a different IScheduler * it is possible to determine when those notifications will be delivered. * * @example Emit 10, 20, 30, then 'a', 'b', 'c', then start ticking every second. * var numbers = Rx.Observable.of(10, 20, 30); * var letters = Rx.Observable.of('a', 'b', 'c'); * var interval = Rx.Observable.interval(1000); * var result = numbers.concat(letters).concat(interval); * result.subscribe(x => console.log(x)); * * @see {@link create} * @see {@link empty} * @see {@link never} * @see {@link throw} * * @param {...T} values Arguments that represent `next` values to be emitted. * @param {Scheduler} [scheduler] A {@link IScheduler} to use for scheduling * the emissions of the `next` notifications. * @return {Observable} An Observable that emits each given input value. * @static true * @name of * @owner Observable */ static of(...array) { let scheduler = array[array.length - 1]; if (isScheduler(scheduler)) { array.pop(); } else { scheduler = null; } const len = array.length; if (len > 1) { return new ArrayObservable(array, scheduler); } else if (len === 1) { return new ScalarObservable(array[0], scheduler); } else { return new EmptyObservable(scheduler); } } static dispatch(state) { const { array, index, count, subscriber } = state; if (index >= count) { subscriber.complete(); return; } subscriber.next(array[index]); if (subscriber.closed) { return; } state.index = index + 1; this.schedule(state); } /** @deprecated internal use only */ _subscribe(subscriber) { let index = 0; const array = this.array; const count = array.length; const scheduler = this.scheduler; if (scheduler) { return scheduler.schedule(ArrayObservable.dispatch, 0, { array, index, count, subscriber }); } else { for (let i = 0; i < count && !subscriber.closed; i++) { subscriber.next(array[i]); } subscriber.complete(); } } } //# sourceMappingURL=ArrayObservable.js.map