import { IScheduler } from '../Scheduler';
import { Operator } from '../Operator';
import { PartialObserver } from '../Observer';
import { Subscriber } from '../Subscriber';
import { Notification } from '../Notification';
import { TeardownLogic } from '../Subscription';
import { Action } from '../scheduler/Action';
import { MonoTypeOperatorFunction } from '../interfaces';
/**
*
* Re-emits all notifications from source Observable with specified scheduler.
*
* Ensure a specific scheduler is used, from outside of an Observable.
*
* `observeOn` is an operator that accepts a scheduler as a first parameter, which will be used to reschedule
* notifications emitted by the source Observable. It might be useful, if you do not have control over
* internal scheduler of a given Observable, but want to control when its values are emitted nevertheless.
*
* Returned Observable emits the same notifications (nexted values, complete and error events) as the source Observable,
* but rescheduled with provided scheduler. Note that this doesn't mean that source Observables internal
* scheduler will be replaced in any way. Original scheduler still will be used, but when the source Observable emits
* notification, it will be immediately scheduled again - this time with scheduler passed to `observeOn`.
* An anti-pattern would be calling `observeOn` on Observable that emits lots of values synchronously, to split
* that emissions into asynchronous chunks. For this to happen, scheduler would have to be passed into the source
* Observable directly (usually into the operator that creates it). `observeOn` simply delays notifications a
* little bit more, to ensure that they are emitted at expected moments.
*
* As a matter of fact, `observeOn` accepts second parameter, which specifies in milliseconds with what delay notifications
* will be emitted. The main difference between {@link delay} operator and `observeOn` is that `observeOn`
* will delay all notifications - including error notifications - while `delay` will pass through error
* from source Observable immediately when it is emitted. In general it is highly recommended to use `delay` operator
* for any kind of delaying of values in the stream, while using `observeOn` to specify which scheduler should be used
* for notification emissions in general.
*
* @example Ensure values in subscribe are called just before browser repaint.
* const intervals = Rx.Observable.interval(10); // Intervals are scheduled
* // with async scheduler by default...
*
* intervals
* .observeOn(Rx.Scheduler.animationFrame) // ...but we will observe on animationFrame
* .subscribe(val => { // scheduler to ensure smooth animation.
* someDiv.style.height = val + 'px';
* });
*
* @see {@link delay}
*
* @param {IScheduler} scheduler Scheduler that will be used to reschedule notifications from source Observable.
* @param {number} [delay] Number of milliseconds that states with what delay every notification should be rescheduled.
* @return {Observable} Observable that emits the same notifications as the source Observable,
* but with provided scheduler.
*
* @method observeOn
* @owner Observable
*/
export declare function observeOn(scheduler: IScheduler, delay?: number): MonoTypeOperatorFunction;
export declare class ObserveOnOperator implements Operator {
private scheduler;
private delay;
constructor(scheduler: IScheduler, delay?: number);
call(subscriber: Subscriber, source: any): TeardownLogic;
}
/**
* We need this JSDoc comment for affecting ESDoc.
* @ignore
* @extends {Ignored}
*/
export declare class ObserveOnSubscriber extends Subscriber {
private scheduler;
private delay;
static dispatch(this: Action, arg: ObserveOnMessage): void;
constructor(destination: Subscriber, scheduler: IScheduler, delay?: number);
private scheduleMessage(notification);
protected _next(value: T): void;
protected _error(err: any): void;
protected _complete(): void;
}
export declare class ObserveOnMessage {
notification: Notification;
destination: PartialObserver;
constructor(notification: Notification, destination: PartialObserver);
}