import { AsyncAction } from './AsyncAction'; import { AsapScheduler } from './AsapScheduler'; import { SchedulerAction } from '../types'; import { immediateProvider } from './immediateProvider'; import { TimerHandle } from './timerHandle'; export class AsapAction extends AsyncAction { constructor(protected scheduler: AsapScheduler, protected work: (this: SchedulerAction, state?: T) => void) { super(scheduler, work); } protected requestAsyncId(scheduler: AsapScheduler, id?: TimerHandle, delay: number = 0): TimerHandle { // If delay is greater than 0, request as an async action. if (delay !== null && delay > 0) { return super.requestAsyncId(scheduler, id, delay); } // Push the action to the end of the scheduler queue. scheduler.actions.push(this); // If a microtask has already been scheduled, don't schedule another // one. If a microtask hasn't been scheduled yet, schedule one now. Return // the current scheduled microtask id. return scheduler._scheduled || (scheduler._scheduled = immediateProvider.setImmediate(scheduler.flush.bind(scheduler, undefined))); } protected recycleAsyncId(scheduler: AsapScheduler, id?: TimerHandle, delay: number = 0): TimerHandle | undefined { // If delay exists and is greater than 0, or if the delay is null (the // action wasn't rescheduled) but was originally scheduled as an async // action, then recycle as an async action. if (delay != null ? delay > 0 : this.delay > 0) { return super.recycleAsyncId(scheduler, id, delay); } // If the scheduler queue has no remaining actions with the same async id, // cancel the requested microtask and set the scheduled flag to undefined // so the next AsapAction will request its own. const { actions } = scheduler; if (id != null && actions[actions.length - 1]?.id !== id) { immediateProvider.clearImmediate(id); if (scheduler._scheduled === id) { scheduler._scheduled = undefined; } } // Return undefined so the action knows to request a new async id if it's rescheduled. return undefined; } }