src/third_party/devtools/node_modules/rxjs/src/internal/operators/subscribeOn.ts - cobalt - Git at Google

 import { Operator } from '../Operator';
 import { Subscriber } from '../Subscriber';
 import { Observable } from '../Observable';
 import { SubscribeOnObservable } from '../observable/SubscribeOnObservable';
 import { MonoTypeOperatorFunction, SchedulerLike, TeardownLogic } from '../types';

 /**
  * Asynchronously subscribes Observers to this Observable on the specified {@link SchedulerLike}.
  *
  * With `subscribeOn` you can decide what type of scheduler a specific Observable will be using when it is subscribed to.
  *
  * Schedulers control the speed and order of emissions to observers from an Observable stream.
  *
  * ![](subscribeOn.png)
  *
  * ## Example
  * Given the following code:
  * ```javascript
  * import { of, merge } from 'rxjs';
  *
  * const a = of(1, 2, 3, 4);
  * const b = of(5, 6, 7, 8, 9);
  * merge(a, b).subscribe(console.log);
  * ```
  *
  * Both Observable `a` and `b` will emit their values directly and synchronously once they are subscribed to.
  * This will result in the output of `1 2 3 4 5 6 7 8 9`.
  *
  * But if we instead us the `subscribeOn` operator declaring that we want to use the {@link asyncScheduler} for values emited by Observable `a`:
  * ```javascript
  * import { of, merge, asyncScheduler } from 'rxjs';
  * import { subscribeOn } from 'rxjs/operators';
  *
  * const a = of(1, 2, 3, 4).pipe(subscribeOn(asyncScheduler));
  * const b = of(5, 6, 7, 8, 9);
  * merge(a, b).subscribe(console.log);
  * ```
  *
  * The output will instead be `5 6 7 8 9 1 2 3 4`.
  * The reason for this is that Observable `b` emits its values directly and synchronously like before
  * but the emissions from `a` are scheduled on the event loop because we are now using the {@link asyncScheduler} for that specific Observable.
  *
  * @param {SchedulerLike} scheduler - The {@link SchedulerLike} to perform subscription actions on.
  * @return {Observable<T>} The source Observable modified so that its subscriptions happen on the specified {@link SchedulerLike}.
  .
  * @method subscribeOn
  * @owner Observable
  */
 export function subscribeOn<T>(scheduler: SchedulerLike, delay: number = 0): MonoTypeOperatorFunction<T> {
   return function subscribeOnOperatorFunction(source: Observable<T>): Observable<T> {
     return source.lift(new SubscribeOnOperator<T>(scheduler, delay));
   };
 }

 class SubscribeOnOperator<T> implements Operator<T, T> {
   constructor(private scheduler: SchedulerLike,
               private delay: number) {
   }
   call(subscriber: Subscriber<T>, source: any): TeardownLogic {
     return new SubscribeOnObservable<T>(
       source, this.delay, this.scheduler
     ).subscribe(subscriber);
   }
 }
	import { Operator } from '../Operator';
	import { Subscriber } from '../Subscriber';
	import { Observable } from '../Observable';
	import { SubscribeOnObservable } from '../observable/SubscribeOnObservable';
	import { MonoTypeOperatorFunction, SchedulerLike, TeardownLogic } from '../types';

	/**
	* Asynchronously subscribes Observers to this Observable on the specified {@link SchedulerLike}.
	*
	* With `subscribeOn` you can decide what type of scheduler a specific Observable will be using when it is subscribed to.
	*
	* Schedulers control the speed and order of emissions to observers from an Observable stream.
	*
	* ![](subscribeOn.png)
	*
	* ## Example
	* Given the following code:
	* ```javascript
	* import { of, merge } from 'rxjs';
	*
	* const a = of(1, 2, 3, 4);
	* const b = of(5, 6, 7, 8, 9);
	* merge(a, b).subscribe(console.log);
	* ```
	*
	* Both Observable `a` and `b` will emit their values directly and synchronously once they are subscribed to.
	* This will result in the output of `1 2 3 4 5 6 7 8 9`.
	*
	* But if we instead us the `subscribeOn` operator declaring that we want to use the {@link asyncScheduler} for values emited by Observable `a`:
	* ```javascript
	* import { of, merge, asyncScheduler } from 'rxjs';
	* import { subscribeOn } from 'rxjs/operators';
	*
	* const a = of(1, 2, 3, 4).pipe(subscribeOn(asyncScheduler));
	* const b = of(5, 6, 7, 8, 9);
	* merge(a, b).subscribe(console.log);
	* ```
	*
	* The output will instead be `5 6 7 8 9 1 2 3 4`.
	* The reason for this is that Observable `b` emits its values directly and synchronously like before
	* but the emissions from `a` are scheduled on the event loop because we are now using the {@link asyncScheduler} for that specific Observable.
	*
	* @param {SchedulerLike} scheduler - The {@link SchedulerLike} to perform subscription actions on.
	* @return {Observable<T>} The source Observable modified so that its subscriptions happen on the specified {@link SchedulerLike}.
	.
	* @method subscribeOn
	* @owner Observable
	*/
	export function subscribeOn<T>(scheduler: SchedulerLike, delay: number = 0): MonoTypeOperatorFunction<T> {
	return function subscribeOnOperatorFunction(source: Observable<T>): Observable<T> {
	return source.lift(new SubscribeOnOperator<T>(scheduler, delay));
	};
	}

	class SubscribeOnOperator<T> implements Operator<T, T> {
	constructor(private scheduler: SchedulerLike,
	private delay: number) {
	}
	call(subscriber: Subscriber<T>, source: any): TeardownLogic {
	return new SubscribeOnObservable<T>(
	source, this.delay, this.scheduler
	).subscribe(subscriber);
	}
	}