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import { ReplaySubject } from '../ReplaySubject';
import { MonoTypeOperatorFunction, SchedulerLike } from '../types';
import { share } from './share';
export interface ShareReplayConfig {
bufferSize?: number;
windowTime?: number;
refCount: boolean;
scheduler?: SchedulerLike;
}
export function shareReplay<T>(config: ShareReplayConfig): MonoTypeOperatorFunction<T>;
export function shareReplay<T>(bufferSize?: number, windowTime?: number, scheduler?: SchedulerLike): MonoTypeOperatorFunction<T>;
/**
* Share source and replay specified number of emissions on subscription.
*
* This operator is a specialization of `replay` that connects to a source observable
* and multicasts through a `ReplaySubject` constructed with the specified arguments.
* A successfully completed source will stay cached in the `shareReplay`ed observable forever,
* but an errored source can be retried.
*
* ## Why use `shareReplay`?
*
* You generally want to use `shareReplay` when you have side-effects or taxing computations
* that you do not wish to be executed amongst multiple subscribers.
* It may also be valuable in situations where you know you will have late subscribers to
* a stream that need access to previously emitted values.
* This ability to replay values on subscription is what differentiates {@link share} and `shareReplay`.
*
* ## Reference counting
*
* By default `shareReplay` will use `refCount` of false, meaning that it will _not_ unsubscribe the
* source when the reference counter drops to zero, i.e. the inner `ReplaySubject` will _not_ be unsubscribed
* (and potentially run for ever).
* This is the default as it is expected that `shareReplay` is often used to keep around expensive to setup
* observables which we want to keep running instead of having to do the expensive setup again.
*
* As of RXJS version 6.4.0 a new overload signature was added to allow for manual control over what
* happens when the operators internal reference counter drops to zero.
* If `refCount` is true, the source will be unsubscribed from once the reference count drops to zero, i.e.
* the inner `ReplaySubject` will be unsubscribed. All new subscribers will receive value emissions from a
* new `ReplaySubject` which in turn will cause a new subscription to the source observable.
*
* ## Examples
*
* Example with a third subscriber coming late to the party
*
* ```ts
* import { interval, take, shareReplay } from 'rxjs';
*
* const shared$ = interval(2000).pipe(
* take(6),
* shareReplay(3)
* );
*
* shared$.subscribe(x => console.log('sub A: ', x));
* shared$.subscribe(y => console.log('sub B: ', y));
*
* setTimeout(() => {
* shared$.subscribe(y => console.log('sub C: ', y));
* }, 11000);
*
* // Logs:
* // (after ~2000 ms)
* // sub A: 0
* // sub B: 0
* // (after ~4000 ms)
* // sub A: 1
* // sub B: 1
* // (after ~6000 ms)
* // sub A: 2
* // sub B: 2
* // (after ~8000 ms)
* // sub A: 3
* // sub B: 3
* // (after ~10000 ms)
* // sub A: 4
* // sub B: 4
* // (after ~11000 ms, sub C gets the last 3 values)
* // sub C: 2
* // sub C: 3
* // sub C: 4
* // (after ~12000 ms)
* // sub A: 5
* // sub B: 5
* // sub C: 5
* ```
*
* Example for `refCount` usage
*
* ```ts
* import { Observable, tap, interval, shareReplay, take } from 'rxjs';
*
* const log = <T>(name: string, source: Observable<T>) => source.pipe(
* tap({
* subscribe: () => console.log(`${ name }: subscribed`),
* next: value => console.log(`${ name }: ${ value }`),
* complete: () => console.log(`${ name }: completed`),
* finalize: () => console.log(`${ name }: unsubscribed`)
* })
* );
*
* const obs$ = log('source', interval(1000));
*
* const shared$ = log('shared', obs$.pipe(
* shareReplay({ bufferSize: 1, refCount: true }),
* take(2)
* ));
*
* shared$.subscribe(x => console.log('sub A: ', x));
* shared$.subscribe(y => console.log('sub B: ', y));
*
* // PRINTS:
* // shared: subscribed <-- reference count = 1
* // source: subscribed
* // shared: subscribed <-- reference count = 2
* // source: 0
* // shared: 0
* // sub A: 0
* // shared: 0
* // sub B: 0
* // source: 1
* // shared: 1
* // sub A: 1
* // shared: completed <-- take(2) completes the subscription for sub A
* // shared: unsubscribed <-- reference count = 1
* // shared: 1
* // sub B: 1
* // shared: completed <-- take(2) completes the subscription for sub B
* // shared: unsubscribed <-- reference count = 0
* // source: unsubscribed <-- replaySubject unsubscribes from source observable because the reference count dropped to 0 and refCount is true
*
* // In case of refCount being false, the unsubscribe is never called on the source and the source would keep on emitting, even if no subscribers
* // are listening.
* // source: 2
* // source: 3
* // source: 4
* // ...
* ```
*
* @see {@link publish}
* @see {@link share}
* @see {@link publishReplay}
*
* @param configOrBufferSize Maximum element count of the replay buffer or {@link ShareReplayConfig configuration}
* object.
* @param windowTime Maximum time length of the replay buffer in milliseconds.
* @param scheduler Scheduler where connected observers within the selector function
* will be invoked on.
* @return A function that returns an Observable sequence that contains the
* elements of a sequence produced by multicasting the source sequence within a
* selector function.
*/
export function shareReplay<T>(
configOrBufferSize?: ShareReplayConfig | number,
windowTime?: number,
scheduler?: SchedulerLike
): MonoTypeOperatorFunction<T> {
let bufferSize: number;
let refCount = false;
if (configOrBufferSize && typeof configOrBufferSize === 'object') {
({ bufferSize = Infinity, windowTime = Infinity, refCount = false, scheduler } = configOrBufferSize);
} else {
bufferSize = (configOrBufferSize ?? Infinity) as number;
}
return share<T>({
connector: () => new ReplaySubject(bufferSize, windowTime, scheduler),
resetOnError: true,
resetOnComplete: false,
resetOnRefCountZero: refCount,
});
}