"use strict"; var __extends = (this && this.__extends) || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); }; var isNumeric_1 = require('../util/isNumeric'); var Observable_1 = require('../Observable'); var async_1 = require('../scheduler/async'); var isScheduler_1 = require('../util/isScheduler'); var isDate_1 = require('../util/isDate'); /** * We need this JSDoc comment for affecting ESDoc. * @extends {Ignored} * @hide true */ var TimerObservable = (function (_super) { __extends(TimerObservable, _super); function TimerObservable(dueTime, period, scheduler) { if (dueTime === void 0) { dueTime = 0; } _super.call(this); this.period = -1; this.dueTime = 0; if (isNumeric_1.isNumeric(period)) { this.period = Number(period) < 1 && 1 || Number(period); } else if (isScheduler_1.isScheduler(period)) { scheduler = period; } if (!isScheduler_1.isScheduler(scheduler)) { scheduler = async_1.async; } this.scheduler = scheduler; this.dueTime = isDate_1.isDate(dueTime) ? (+dueTime - this.scheduler.now()) : dueTime; } /** * Creates an Observable that starts emitting after an `initialDelay` and * emits ever increasing numbers after each `period` of time thereafter. * * Its like {@link interval}, but you can specify when * should the emissions start. * *

* * `timer` returns an Observable that emits an infinite sequence of ascending * integers, with a constant interval of time, `period` of your choosing * between those emissions. The first emission happens after the specified * `initialDelay`. The initial delay may be a {@link Date}. By default, this * operator uses the `async` IScheduler to provide a notion of time, but you * may pass any IScheduler to it. If `period` is not specified, the output * Observable emits only one value, `0`. Otherwise, it emits an infinite * sequence. * * @example Emits ascending numbers, one every second (1000ms), starting after 3 seconds * var numbers = Rx.Observable.timer(3000, 1000); * numbers.subscribe(x => console.log(x)); * * @example Emits one number after five seconds * var numbers = Rx.Observable.timer(5000); * numbers.subscribe(x => console.log(x)); * * @see {@link interval} * @see {@link delay} * * @param {number|Date} initialDelay The initial delay time to wait before * emitting the first value of `0`. * @param {number} [period] The period of time between emissions of the * subsequent numbers. * @param {Scheduler} [scheduler=async] The IScheduler to use for scheduling * the emission of values, and providing a notion of "time". * @return {Observable} An Observable that emits a `0` after the * `initialDelay` and ever increasing numbers after each `period` of time * thereafter. * @static true * @name timer * @owner Observable */ TimerObservable.create = function (initialDelay, period, scheduler) { if (initialDelay === void 0) { initialDelay = 0; } return new TimerObservable(initialDelay, period, scheduler); }; TimerObservable.dispatch = function (state) { var index = state.index, period = state.period, subscriber = state.subscriber; var action = this; subscriber.next(index); if (subscriber.closed) { return; } else if (period === -1) { return subscriber.complete(); } state.index = index + 1; action.schedule(state, period); }; /** @deprecated internal use only */ TimerObservable.prototype._subscribe = function (subscriber) { var index = 0; var _a = this, period = _a.period, dueTime = _a.dueTime, scheduler = _a.scheduler; return scheduler.schedule(TimerObservable.dispatch, dueTime, { index: index, period: period, subscriber: subscriber }); }; return TimerObservable; }(Observable_1.Observable)); exports.TimerObservable = TimerObservable; //# sourceMappingURL=TimerObservable.js.map