node_modules/rxjs/_esm5/operator/multicast.js - nifi-fds - Git at Google

 /** PURE_IMPORTS_START .._operators_multicast PURE_IMPORTS_END */
 import { multicast as higherOrder } from '../operators/multicast';
 /* tslint:enable:max-line-length */
 /**
  * Allows source Observable to be subscribed only once with a Subject of choice,
  * while still sharing its values between multiple subscribers.
  *
  * <span class="informal">Subscribe to Observable once, but send its values to multiple subscribers.</span>
  *
  * <img src="./img/multicast.png" width="100%">
  *
  * `multicast` is an operator that works in two modes.
  *
  * In the first mode you provide a single argument to it, which can be either an initialized Subject or a Subject
  * factory. As a result you will get a special kind of an Observable - a {@link ConnectableObservable}. It can be
  * subscribed multiple times, just as regular Observable, but it won't subscribe to the source Observable at that
  * moment. It will do it only if you call its `connect` method. This means you can essentially control by hand, when
  * source Observable will be actually subscribed. What is more, ConnectableObservable will share this one subscription
  * between all of its subscribers. This means that, for example, `ajax` Observable will only send a request once,
  * even though usually it would send a request per every subscriber. Since it sends a request at the moment of
  * subscription, here request would be sent when the `connect` method of a ConnectableObservable is called.
  *
  * The most common pattern of using ConnectableObservable is calling `connect` when the first consumer subscribes,
  * keeping the subscription alive while several consumers come and go and finally unsubscribing from the source
  * Observable, when the last consumer unsubscribes. To not implement that logic over and over again,
  * ConnectableObservable has a special operator, `refCount`. When called, it returns an Observable, which will count
  * the number of consumers subscribed to it and keep ConnectableObservable connected as long as there is at least
  * one consumer. So if you don't actually need to decide yourself when to connect and disconnect a
  * ConnectableObservable, use `refCount`.
  *
  * The second mode is invoked by calling `multicast` with an additional, second argument - selector function.
  * This function accepts an Observable - which basically mirrors the source Observable - and returns Observable
  * as well, which should be the input stream modified by any operators you want. Note that in this
  * mode you cannot provide initialized Subject as a first argument - it has to be a Subject factory. If
  * you provide selector function, `multicast` returns just a regular Observable, instead of ConnectableObservable.
  * Thus, as usual, each subscription to this stream triggers subscription to the source Observable. However,
  * if inside the selector function you subscribe to the input Observable multiple times, actual source stream
  * will be subscribed only once. So if you have a chain of operators that use some Observable many times,
  * but you want to subscribe to that Observable only once, this is the mode you would use.
  *
  * Subject provided as a first parameter of `multicast` is used as a proxy for the single subscription to the
  * source Observable. It means that all values from the source stream go through that Subject. Thus, if a Subject
  * has some special properties, Observable returned by `multicast` will have them as well. If you want to use
  * `multicast` with a Subject that is one of the ones included in RxJS by default - {@link Subject},
  * {@link AsyncSubject}, {@link BehaviorSubject}, or {@link ReplaySubject} - simply use {@link publish},
  * {@link publishLast}, {@link publishBehavior} or {@link publishReplay} respectively. These are actually
  * just wrappers around `multicast`, with a specific Subject hardcoded inside.
  *
  * Also, if you use {@link publish} or {@link publishReplay} with a ConnectableObservables `refCount` operator,
  * you can simply use {@link share} and {@link shareReplay} respectively, which chain these two.
  *
  * @example <caption>Use ConnectableObservable</caption>
  * const seconds = Rx.Observable.interval(1000);
  * const connectableSeconds = seconds.multicast(new Subject());
  *
  * connectableSeconds.subscribe(value => console.log('first: ' + value));
  * connectableSeconds.subscribe(value => console.log('second: ' + value));
  *
  * // At this point still nothing happens, even though we subscribed twice.
  *
  * connectableSeconds.connect();
  *
  * // From now on `seconds` are being logged to the console,
  * // twice per every second. `seconds` Observable was however only subscribed once,
  * // so under the hood Observable.interval had only one clock started.
  *
  * @example <caption>Use selector</caption>
  * const seconds = Rx.Observable.interval(1000);
  *
  * seconds
  *     .multicast(
  *         () => new Subject(),
  *         seconds => seconds.zip(seconds) // Usually zip would subscribe to `seconds` twice.
  *                                         // Because we are inside selector, `seconds` is subscribed once,
  *     )                                   // thus starting only one clock used internally by Observable.interval.
  *     .subscribe();
  *
  * @see {@link publish}
  * @see {@link publishLast}
  * @see {@link publishBehavior}
  * @see {@link publishReplay}
  * @see {@link share}
  * @see {@link shareReplay}
  *
  * @param {Function|Subject} subjectOrSubjectFactory - Factory function to create an intermediate Subject through
  * which the source sequence's elements will be multicast to the selector function input Observable or
  * ConnectableObservable returned by the operator.
  * @param {Function} [selector] - Optional selector function that can use the input stream
  * as many times as needed, without causing multiple subscriptions to the source stream.
  * Subscribers to the input source will receive all notifications of the source from the
  * time of the subscription forward.
  * @return {Observable<T>|ConnectableObservable<T>} An Observable that emits the results of invoking the selector
  * on the source stream or a special {@link ConnectableObservable}, if selector was not provided.
  *
  * @method multicast
  * @owner Observable
  */
 export function multicast(subjectOrSubjectFactory, selector) {
     return higherOrder(subjectOrSubjectFactory, selector)(this);
 }
 //# sourceMappingURL=multicast.js.map
	/** PURE_IMPORTS_START .._operators_multicast PURE_IMPORTS_END */
	import { multicast as higherOrder } from '../operators/multicast';
	/* tslint:enable:max-line-length */
	/**
	* Allows source Observable to be subscribed only once with a Subject of choice,
	* while still sharing its values between multiple subscribers.
	*
	* <span class="informal">Subscribe to Observable once, but send its values to multiple subscribers.</span>
	*
	* <img src="./img/multicast.png" width="100%">
	*
	* `multicast` is an operator that works in two modes.
	*
	* In the first mode you provide a single argument to it, which can be either an initialized Subject or a Subject
	* factory. As a result you will get a special kind of an Observable - a {@link ConnectableObservable}. It can be
	* subscribed multiple times, just as regular Observable, but it won't subscribe to the source Observable at that
	* moment. It will do it only if you call its `connect` method. This means you can essentially control by hand, when
	* source Observable will be actually subscribed. What is more, ConnectableObservable will share this one subscription
	* between all of its subscribers. This means that, for example, `ajax` Observable will only send a request once,
	* even though usually it would send a request per every subscriber. Since it sends a request at the moment of
	* subscription, here request would be sent when the `connect` method of a ConnectableObservable is called.
	*
	* The most common pattern of using ConnectableObservable is calling `connect` when the first consumer subscribes,
	* keeping the subscription alive while several consumers come and go and finally unsubscribing from the source
	* Observable, when the last consumer unsubscribes. To not implement that logic over and over again,
	* ConnectableObservable has a special operator, `refCount`. When called, it returns an Observable, which will count
	* the number of consumers subscribed to it and keep ConnectableObservable connected as long as there is at least
	* one consumer. So if you don't actually need to decide yourself when to connect and disconnect a
	* ConnectableObservable, use `refCount`.
	*
	* The second mode is invoked by calling `multicast` with an additional, second argument - selector function.
	* This function accepts an Observable - which basically mirrors the source Observable - and returns Observable
	* as well, which should be the input stream modified by any operators you want. Note that in this
	* mode you cannot provide initialized Subject as a first argument - it has to be a Subject factory. If
	* you provide selector function, `multicast` returns just a regular Observable, instead of ConnectableObservable.
	* Thus, as usual, each subscription to this stream triggers subscription to the source Observable. However,
	* if inside the selector function you subscribe to the input Observable multiple times, actual source stream
	* will be subscribed only once. So if you have a chain of operators that use some Observable many times,
	* but you want to subscribe to that Observable only once, this is the mode you would use.
	*
	* Subject provided as a first parameter of `multicast` is used as a proxy for the single subscription to the
	* source Observable. It means that all values from the source stream go through that Subject. Thus, if a Subject
	* has some special properties, Observable returned by `multicast` will have them as well. If you want to use
	* `multicast` with a Subject that is one of the ones included in RxJS by default - {@link Subject},
	* {@link AsyncSubject}, {@link BehaviorSubject}, or {@link ReplaySubject} - simply use {@link publish},
	* {@link publishLast}, {@link publishBehavior} or {@link publishReplay} respectively. These are actually
	* just wrappers around `multicast`, with a specific Subject hardcoded inside.
	*
	* Also, if you use {@link publish} or {@link publishReplay} with a ConnectableObservables `refCount` operator,
	* you can simply use {@link share} and {@link shareReplay} respectively, which chain these two.
	*
	* @example <caption>Use ConnectableObservable</caption>
	* const seconds = Rx.Observable.interval(1000);
	* const connectableSeconds = seconds.multicast(new Subject());
	*
	* connectableSeconds.subscribe(value => console.log('first: ' + value));
	* connectableSeconds.subscribe(value => console.log('second: ' + value));
	*
	* // At this point still nothing happens, even though we subscribed twice.
	*
	* connectableSeconds.connect();
	*
	* // From now on `seconds` are being logged to the console,
	* // twice per every second. `seconds` Observable was however only subscribed once,
	* // so under the hood Observable.interval had only one clock started.
	*
	* @example <caption>Use selector</caption>
	* const seconds = Rx.Observable.interval(1000);
	*
	* seconds
	* .multicast(
	* () => new Subject(),
	* seconds => seconds.zip(seconds) // Usually zip would subscribe to `seconds` twice.
	* // Because we are inside selector, `seconds` is subscribed once,
	* ) // thus starting only one clock used internally by Observable.interval.
	* .subscribe();
	*
	* @see {@link publish}
	* @see {@link publishLast}
	* @see {@link publishBehavior}
	* @see {@link publishReplay}
	* @see {@link share}
	* @see {@link shareReplay}
	*
	* @param {Function\|Subject} subjectOrSubjectFactory - Factory function to create an intermediate Subject through
	* which the source sequence's elements will be multicast to the selector function input Observable or
	* ConnectableObservable returned by the operator.
	* @param {Function} [selector] - Optional selector function that can use the input stream
	* as many times as needed, without causing multiple subscriptions to the source stream.
	* Subscribers to the input source will receive all notifications of the source from the
	* time of the subscription forward.
	* @return {Observable<T>\|ConnectableObservable<T>} An Observable that emits the results of invoking the selector
	* on the source stream or a special {@link ConnectableObservable}, if selector was not provided.
	*
	* @method multicast
	* @owner Observable
	*/
	export function multicast(subjectOrSubjectFactory, selector) {
	return higherOrder(subjectOrSubjectFactory, selector)(this);
	}
	//# sourceMappingURL=multicast.js.map