Buckets:
| import { Subject } from './Subject'; | |
| import { TimestampProvider } from './types'; | |
| import { Subscriber } from './Subscriber'; | |
| import { Subscription } from './Subscription'; | |
| import { dateTimestampProvider } from './scheduler/dateTimestampProvider'; | |
| /** | |
| * A variant of {@link Subject} that "replays" old values to new subscribers by emitting them when they first subscribe. | |
| * | |
| * `ReplaySubject` has an internal buffer that will store a specified number of values that it has observed. Like `Subject`, | |
| * `ReplaySubject` "observes" values by having them passed to its `next` method. When it observes a value, it will store that | |
| * value for a time determined by the configuration of the `ReplaySubject`, as passed to its constructor. | |
| * | |
| * When a new subscriber subscribes to the `ReplaySubject` instance, it will synchronously emit all values in its buffer in | |
| * a First-In-First-Out (FIFO) manner. The `ReplaySubject` will also complete, if it has observed completion; and it will | |
| * error if it has observed an error. | |
| * | |
| * There are two main configuration items to be concerned with: | |
| * | |
| * 1. `bufferSize` - This will determine how many items are stored in the buffer, defaults to infinite. | |
| * 2. `windowTime` - The amount of time to hold a value in the buffer before removing it from the buffer. | |
| * | |
| * Both configurations may exist simultaneously. So if you would like to buffer a maximum of 3 values, as long as the values | |
| * are less than 2 seconds old, you could do so with a `new ReplaySubject(3, 2000)`. | |
| * | |
| * ### Differences with BehaviorSubject | |
| * | |
| * `BehaviorSubject` is similar to `new ReplaySubject(1)`, with a couple of exceptions: | |
| * | |
| * 1. `BehaviorSubject` comes "primed" with a single value upon construction. | |
| * 2. `ReplaySubject` will replay values, even after observing an error, where `BehaviorSubject` will not. | |
| * | |
| * @see {@link Subject} | |
| * @see {@link BehaviorSubject} | |
| * @see {@link shareReplay} | |
| */ | |
| export class ReplaySubject<T> extends Subject<T> { | |
| private _buffer: (T | number)[] = []; | |
| private _infiniteTimeWindow = true; | |
| /** | |
| * @param _bufferSize The size of the buffer to replay on subscription | |
| * @param _windowTime The amount of time the buffered items will stay buffered | |
| * @param _timestampProvider An object with a `now()` method that provides the current timestamp. This is used to | |
| * calculate the amount of time something has been buffered. | |
| */ | |
| constructor( | |
| private _bufferSize = Infinity, | |
| private _windowTime = Infinity, | |
| private _timestampProvider: TimestampProvider = dateTimestampProvider | |
| ) { | |
| super(); | |
| this._infiniteTimeWindow = _windowTime === Infinity; | |
| this._bufferSize = Math.max(1, _bufferSize); | |
| this._windowTime = Math.max(1, _windowTime); | |
| } | |
| next(value: T): void { | |
| const { isStopped, _buffer, _infiniteTimeWindow, _timestampProvider, _windowTime } = this; | |
| if (!isStopped) { | |
| _buffer.push(value); | |
| !_infiniteTimeWindow && _buffer.push(_timestampProvider.now() + _windowTime); | |
| } | |
| this._trimBuffer(); | |
| super.next(value); | |
| } | |
| /** @internal */ | |
| protected _subscribe(subscriber: Subscriber<T>): Subscription { | |
| this._throwIfClosed(); | |
| this._trimBuffer(); | |
| const subscription = this._innerSubscribe(subscriber); | |
| const { _infiniteTimeWindow, _buffer } = this; | |
| // We use a copy here, so reentrant code does not mutate our array while we're | |
| // emitting it to a new subscriber. | |
| const copy = _buffer.slice(); | |
| for (let i = 0; i < copy.length && !subscriber.closed; i += _infiniteTimeWindow ? 1 : 2) { | |
| subscriber.next(copy[i] as T); | |
| } | |
| this._checkFinalizedStatuses(subscriber); | |
| return subscription; | |
| } | |
| private _trimBuffer() { | |
| const { _bufferSize, _timestampProvider, _buffer, _infiniteTimeWindow } = this; | |
| // If we don't have an infinite buffer size, and we're over the length, | |
| // use splice to truncate the old buffer values off. Note that we have to | |
| // double the size for instances where we're not using an infinite time window | |
| // because we're storing the values and the timestamps in the same array. | |
| const adjustedBufferSize = (_infiniteTimeWindow ? 1 : 2) * _bufferSize; | |
| _bufferSize < Infinity && adjustedBufferSize < _buffer.length && _buffer.splice(0, _buffer.length - adjustedBufferSize); | |
| // Now, if we're not in an infinite time window, remove all values where the time is | |
| // older than what is allowed. | |
| if (!_infiniteTimeWindow) { | |
| const now = _timestampProvider.now(); | |
| let last = 0; | |
| // Search the array for the first timestamp that isn't expired and | |
| // truncate the buffer up to that point. | |
| for (let i = 1; i < _buffer.length && (_buffer[i] as number) <= now; i += 2) { | |
| last = i; | |
| } | |
| last && _buffer.splice(0, last + 1); | |
| } | |
| } | |
| } | |
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- Xet hash:
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