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

 import { Subject } from './Subject';
 import { SchedulerLike } from './types';
 import { queue } from './scheduler/queue';
 import { Subscriber } from './Subscriber';
 import { Subscription } from './Subscription';
 import { ObserveOnSubscriber } from './operators/observeOn';
 import { ObjectUnsubscribedError } from './util/ObjectUnsubscribedError';
 import { SubjectSubscription } from './SubjectSubscription';
 /**
  * A variant of Subject that "replays" or emits old values to new subscribers.
  * It buffers a set number of values and will emit those values immediately to
  * any new subscribers in addition to emitting new values to existing subscribers.
  *
  * @class ReplaySubject<T>
  */
 export class ReplaySubject<T> extends Subject<T> {
   private _events: (ReplayEvent<T> | T)[] = [];
   private _bufferSize: number;
   private _windowTime: number;
   private _infiniteTimeWindow: boolean = false;

   constructor(bufferSize: number = Number.POSITIVE_INFINITY,
               windowTime: number = Number.POSITIVE_INFINITY,
               private scheduler?: SchedulerLike) {
     super();
     this._bufferSize = bufferSize < 1 ? 1 : bufferSize;
     this._windowTime = windowTime < 1 ? 1 : windowTime;

     if (windowTime === Number.POSITIVE_INFINITY) {
       this._infiniteTimeWindow = true;
       this.next = this.nextInfiniteTimeWindow;
     } else {
       this.next = this.nextTimeWindow;
     }
   }

   private nextInfiniteTimeWindow(value: T): void {
     const _events = this._events;
     _events.push(value);
     // Since this method is invoked in every next() call than the buffer
     // can overgrow the max size only by one item
     if (_events.length > this._bufferSize) {
       _events.shift();
     }

     super.next(value);
   }

   private nextTimeWindow(value: T): void {
     this._events.push(new ReplayEvent(this._getNow(), value));
     this._trimBufferThenGetEvents();

     super.next(value);
   }

   /** @deprecated This is an internal implementation detail, do not use. */
   _subscribe(subscriber: Subscriber<T>): Subscription {
     // When `_infiniteTimeWindow === true` then the buffer is already trimmed
     const _infiniteTimeWindow = this._infiniteTimeWindow;
     const _events = _infiniteTimeWindow ? this._events : this._trimBufferThenGetEvents();
     const scheduler = this.scheduler;
     const len = _events.length;
     let subscription: Subscription;

     if (this.closed) {
       throw new ObjectUnsubscribedError();
     } else if (this.isStopped || this.hasError) {
       subscription = Subscription.EMPTY;
     } else {
       this.observers.push(subscriber);
       subscription = new SubjectSubscription(this, subscriber);
     }

     if (scheduler) {
       subscriber.add(subscriber = new ObserveOnSubscriber<T>(subscriber, scheduler));
     }

     if (_infiniteTimeWindow) {
       for (let i = 0; i < len && !subscriber.closed; i++) {
         subscriber.next(<T>_events[i]);
       }
     } else {
       for (let i = 0; i < len && !subscriber.closed; i++) {
         subscriber.next((<ReplayEvent<T>>_events[i]).value);
       }
     }

     if (this.hasError) {
       subscriber.error(this.thrownError);
     } else if (this.isStopped) {
       subscriber.complete();
     }

     return subscription;
   }

   _getNow(): number {
     return (this.scheduler || queue).now();
   }

   private _trimBufferThenGetEvents(): ReplayEvent<T>[] {
     const now = this._getNow();
     const _bufferSize = this._bufferSize;
     const _windowTime = this._windowTime;
     const _events = <ReplayEvent<T>[]>this._events;

     const eventsCount = _events.length;
     let spliceCount = 0;

     // Trim events that fall out of the time window.
     // Start at the front of the list. Break early once
     // we encounter an event that falls within the window.
     while (spliceCount < eventsCount) {
       if ((now - _events[spliceCount].time) < _windowTime) {
         break;
       }
       spliceCount++;
     }

     if (eventsCount > _bufferSize) {
       spliceCount = Math.max(spliceCount, eventsCount - _bufferSize);
     }

     if (spliceCount > 0) {
       _events.splice(0, spliceCount);
     }

     return _events;
   }

 }

 class ReplayEvent<T> {
   constructor(public time: number, public value: T) {
   }
 }
	import { Subject } from './Subject';
	import { SchedulerLike } from './types';
	import { queue } from './scheduler/queue';
	import { Subscriber } from './Subscriber';
	import { Subscription } from './Subscription';
	import { ObserveOnSubscriber } from './operators/observeOn';
	import { ObjectUnsubscribedError } from './util/ObjectUnsubscribedError';
	import { SubjectSubscription } from './SubjectSubscription';
	/**
	* A variant of Subject that "replays" or emits old values to new subscribers.
	* It buffers a set number of values and will emit those values immediately to
	* any new subscribers in addition to emitting new values to existing subscribers.
	*
	* @class ReplaySubject<T>
	*/
	export class ReplaySubject<T> extends Subject<T> {
	private _events: (ReplayEvent<T> \| T)[] = [];
	private _bufferSize: number;
	private _windowTime: number;
	private _infiniteTimeWindow: boolean = false;

	constructor(bufferSize: number = Number.POSITIVE_INFINITY,
	windowTime: number = Number.POSITIVE_INFINITY,
	private scheduler?: SchedulerLike) {
	super();
	this._bufferSize = bufferSize < 1 ? 1 : bufferSize;
	this._windowTime = windowTime < 1 ? 1 : windowTime;

	if (windowTime === Number.POSITIVE_INFINITY) {
	this._infiniteTimeWindow = true;
	this.next = this.nextInfiniteTimeWindow;
	} else {
	this.next = this.nextTimeWindow;
	}
	}

	private nextInfiniteTimeWindow(value: T): void {
	const _events = this._events;
	_events.push(value);
	// Since this method is invoked in every next() call than the buffer
	// can overgrow the max size only by one item
	if (_events.length > this._bufferSize) {
	_events.shift();
	}

	super.next(value);
	}

	private nextTimeWindow(value: T): void {
	this._events.push(new ReplayEvent(this._getNow(), value));
	this._trimBufferThenGetEvents();

	super.next(value);
	}

	/** @deprecated This is an internal implementation detail, do not use. */
	_subscribe(subscriber: Subscriber<T>): Subscription {
	// When `_infiniteTimeWindow === true` then the buffer is already trimmed
	const _infiniteTimeWindow = this._infiniteTimeWindow;
	const _events = _infiniteTimeWindow ? this._events : this._trimBufferThenGetEvents();
	const scheduler = this.scheduler;
	const len = _events.length;
	let subscription: Subscription;

	if (this.closed) {
	throw new ObjectUnsubscribedError();
	} else if (this.isStopped \|\| this.hasError) {
	subscription = Subscription.EMPTY;
	} else {
	this.observers.push(subscriber);
	subscription = new SubjectSubscription(this, subscriber);
	}

	if (scheduler) {
	subscriber.add(subscriber = new ObserveOnSubscriber<T>(subscriber, scheduler));
	}

	if (_infiniteTimeWindow) {
	for (let i = 0; i < len && !subscriber.closed; i++) {
	subscriber.next(<T>_events[i]);
	}
	} else {
	for (let i = 0; i < len && !subscriber.closed; i++) {
	subscriber.next((<ReplayEvent<T>>_events[i]).value);
	}
	}

	if (this.hasError) {
	subscriber.error(this.thrownError);
	} else if (this.isStopped) {
	subscriber.complete();
	}

	return subscription;
	}

	_getNow(): number {
	return (this.scheduler \|\| queue).now();
	}

	private _trimBufferThenGetEvents(): ReplayEvent<T>[] {
	const now = this._getNow();
	const _bufferSize = this._bufferSize;
	const _windowTime = this._windowTime;
	const _events = <ReplayEvent<T>[]>this._events;

	const eventsCount = _events.length;
	let spliceCount = 0;

	// Trim events that fall out of the time window.
	// Start at the front of the list. Break early once
	// we encounter an event that falls within the window.
	while (spliceCount < eventsCount) {
	if ((now - _events[spliceCount].time) < _windowTime) {
	break;
	}
	spliceCount++;
	}

	if (eventsCount > _bufferSize) {
	spliceCount = Math.max(spliceCount, eventsCount - _bufferSize);
	}

	if (spliceCount > 0) {
	_events.splice(0, spliceCount);
	}

	return _events;
	}

	}

	class ReplayEvent<T> {
	constructor(public time: number, public value: T) {
	}
	}