Buckets:
| import { Action } from './Action'; | |
| import { SchedulerAction } from '../types'; | |
| import { Subscription } from '../Subscription'; | |
| import { AsyncScheduler } from './AsyncScheduler'; | |
| import { intervalProvider } from './intervalProvider'; | |
| import { arrRemove } from '../util/arrRemove'; | |
| import { TimerHandle } from './timerHandle'; | |
| export class AsyncAction<T> extends Action<T> { | |
| public id: TimerHandle | undefined; | |
| public state?: T; | |
| // @ts-ignore: Property has no initializer and is not definitely assigned | |
| public delay: number; | |
| protected pending: boolean = false; | |
| constructor(protected scheduler: AsyncScheduler, protected work: (this: SchedulerAction<T>, state?: T) => void) { | |
| super(scheduler, work); | |
| } | |
| public schedule(state?: T, delay: number = 0): Subscription { | |
| if (this.closed) { | |
| return this; | |
| } | |
| // Always replace the current state with the new state. | |
| this.state = state; | |
| const id = this.id; | |
| const scheduler = this.scheduler; | |
| // | |
| // Important implementation note: | |
| // | |
| // Actions only execute once by default, unless rescheduled from within the | |
| // scheduled callback. This allows us to implement single and repeat | |
| // actions via the same code path, without adding API surface area, as well | |
| // as mimic traditional recursion but across asynchronous boundaries. | |
| // | |
| // However, JS runtimes and timers distinguish between intervals achieved by | |
| // serial `setTimeout` calls vs. a single `setInterval` call. An interval of | |
| // serial `setTimeout` calls can be individually delayed, which delays | |
| // scheduling the next `setTimeout`, and so on. `setInterval` attempts to | |
| // guarantee the interval callback will be invoked more precisely to the | |
| // interval period, regardless of load. | |
| // | |
| // Therefore, we use `setInterval` to schedule single and repeat actions. | |
| // If the action reschedules itself with the same delay, the interval is not | |
| // canceled. If the action doesn't reschedule, or reschedules with a | |
| // different delay, the interval will be canceled after scheduled callback | |
| // execution. | |
| // | |
| if (id != null) { | |
| this.id = this.recycleAsyncId(scheduler, id, delay); | |
| } | |
| // Set the pending flag indicating that this action has been scheduled, or | |
| // has recursively rescheduled itself. | |
| this.pending = true; | |
| this.delay = delay; | |
| // If this action has already an async Id, don't request a new one. | |
| this.id = this.id ?? this.requestAsyncId(scheduler, this.id, delay); | |
| return this; | |
| } | |
| protected requestAsyncId(scheduler: AsyncScheduler, _id?: TimerHandle, delay: number = 0): TimerHandle { | |
| return intervalProvider.setInterval(scheduler.flush.bind(scheduler, this), delay); | |
| } | |
| protected recycleAsyncId(_scheduler: AsyncScheduler, id?: TimerHandle, delay: number | null = 0): TimerHandle | undefined { | |
| // If this action is rescheduled with the same delay time, don't clear the interval id. | |
| if (delay != null && this.delay === delay && this.pending === false) { | |
| return id; | |
| } | |
| // Otherwise, if the action's delay time is different from the current delay, | |
| // or the action has been rescheduled before it's executed, clear the interval id | |
| if (id != null) { | |
| intervalProvider.clearInterval(id); | |
| } | |
| return undefined; | |
| } | |
| /** | |
| * Immediately executes this action and the `work` it contains. | |
| */ | |
| public execute(state: T, delay: number): any { | |
| if (this.closed) { | |
| return new Error('executing a cancelled action'); | |
| } | |
| this.pending = false; | |
| const error = this._execute(state, delay); | |
| if (error) { | |
| return error; | |
| } else if (this.pending === false && this.id != null) { | |
| // Dequeue if the action didn't reschedule itself. Don't call | |
| // unsubscribe(), because the action could reschedule later. | |
| // For example: | |
| // ``` | |
| // scheduler.schedule(function doWork(counter) { | |
| // /* ... I'm a busy worker bee ... */ | |
| // var originalAction = this; | |
| // /* wait 100ms before rescheduling the action */ | |
| // setTimeout(function () { | |
| // originalAction.schedule(counter + 1); | |
| // }, 100); | |
| // }, 1000); | |
| // ``` | |
| this.id = this.recycleAsyncId(this.scheduler, this.id, null); | |
| } | |
| } | |
| protected _execute(state: T, _delay: number): any { | |
| let errored: boolean = false; | |
| let errorValue: any; | |
| try { | |
| this.work(state); | |
| } catch (e) { | |
| errored = true; | |
| // HACK: Since code elsewhere is relying on the "truthiness" of the | |
| // return here, we can't have it return "" or 0 or false. | |
| // TODO: Clean this up when we refactor schedulers mid-version-8 or so. | |
| errorValue = e ? e : new Error('Scheduled action threw falsy error'); | |
| } | |
| if (errored) { | |
| this.unsubscribe(); | |
| return errorValue; | |
| } | |
| } | |
| unsubscribe() { | |
| if (!this.closed) { | |
| const { id, scheduler } = this; | |
| const { actions } = scheduler; | |
| this.work = this.state = this.scheduler = null!; | |
| this.pending = false; | |
| arrRemove(actions, this); | |
| if (id != null) { | |
| this.id = this.recycleAsyncId(scheduler, id, null); | |
| } | |
| this.delay = null!; | |
| super.unsubscribe(); | |
| } | |
| } | |
| } | |
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