import type { KillBehavior, WorkerOptions } from './worker-options'
import { KillBehaviors } from './worker-options'
-const DEFAULT_MAX_INACTIVE_TIME = 1000 * 60
+const DEFAULT_MAX_INACTIVE_TIME = 60000
const DEFAULT_KILL_BEHAVIOR: KillBehavior = KillBehaviors.SOFT
/**
- * Base class containing some shared logic for all poolifier workers.
+ * Base class that implements some shared logic for all poolifier workers.
*
- * @template MainWorker Type of main worker.
- * @template Data Type of data this worker receives from pool's execution. This can only be serializable data.
- * @template Response Type of response the worker sends back to the main worker. This can only be serializable data.
+ * @typeParam MainWorker - Type of main worker.
+ * @typeParam Data - Type of data this worker receives from pool's execution. This can only be serializable data.
+ * @typeParam Response - Type of response the worker sends back to the main worker. This can only be serializable data.
*/
export abstract class AbstractWorker<
MainWorker extends Worker | MessagePort,
* Handler Id of the `aliveInterval` worker alive check.
*/
protected readonly aliveInterval?: NodeJS.Timeout
-
+ /**
+ * Options for the worker.
+ */
+ public readonly opts: WorkerOptions
/**
* Constructs a new poolifier worker.
*
- * @param type The type of async event.
- * @param isMain Whether this is the main worker or not.
- * @param fn Function processed by the worker when the pool's `execution` function is invoked.
- * @param mainWorker Reference to main worker.
- * @param opts Options for the worker.
+ * @param type - The type of async event.
+ * @param isMain - Whether this is the main worker or not.
+ * @param fn - Function processed by the worker when the pool's `execution` function is invoked.
+ * @param mainWorker - Reference to main worker.
+ * @param opts - Options for the worker.
*/
public constructor (
type: string,
isMain: boolean,
fn: (data: Data) => Response,
- protected mainWorker?: MainWorker | null,
- public readonly opts: WorkerOptions = {
+ protected mainWorker: MainWorker | undefined | null,
+ opts: WorkerOptions = {
/**
* The kill behavior option on this Worker or its default value.
*/
}
) {
super(type)
+ this.opts = opts
this.checkFunctionInput(fn)
this.checkWorkerOptions(this.opts)
this.lastTaskTimestamp = Date.now()
}
this.mainWorker?.on('message', (value: MessageValue<Data, MainWorker>) => {
- if (value?.data && value.id) {
- // Here you will receive messages
- if (this.opts.async) {
- this.runInAsyncScope(this.runAsync.bind(this), this, fn, value)
- } else {
- this.runInAsyncScope(this.run.bind(this), this, fn, value)
- }
- } else if (value.parent) {
- // Save a reference of the main worker to communicate with it
- // This will be received once
- this.mainWorker = value.parent
- } else if (value.kill) {
- // Here is time to kill this worker, just clearing the interval
- if (this.aliveInterval) clearInterval(this.aliveInterval)
- this.emitDestroy()
- }
+ this.messageListener(value, fn)
})
}
- private checkWorkerOptions (opts: WorkerOptions) {
+ protected messageListener (
+ value: MessageValue<Data, MainWorker>,
+ fn: (data: Data) => Response
+ ): void {
+ if (value.data !== undefined && value.id !== undefined) {
+ // Here you will receive messages
+ if (this.opts.async === true) {
+ this.runInAsyncScope(this.runAsync.bind(this), this, fn, value)
+ } else {
+ this.runInAsyncScope(this.run.bind(this), this, fn, value)
+ }
+ } else if (value.parent !== undefined) {
+ // Save a reference of the main worker to communicate with it
+ // This will be received once
+ this.mainWorker = value.parent
+ } else if (value.kill !== undefined) {
+ // Here is time to kill this worker, just clearing the interval
+ if (this.aliveInterval != null) clearInterval(this.aliveInterval)
+ this.emitDestroy()
+ }
+ }
+
+ private checkWorkerOptions (opts: WorkerOptions): void {
this.opts.killBehavior = opts.killBehavior ?? DEFAULT_KILL_BEHAVIOR
this.opts.maxInactiveTime =
opts.maxInactiveTime ?? DEFAULT_MAX_INACTIVE_TIME
- /**
- * Whether the worker is working asynchronously or not.
- */
- this.opts.async = !!opts.async
+ this.opts.async = opts.async ?? false
}
/**
- * Check if the `fn` parameter is passed to the constructor.
+ * Checks if the `fn` parameter is passed to the constructor.
*
- * @param fn The function that should be defined.
+ * @param fn - The function that should be defined.
*/
private checkFunctionInput (fn: (data: Data) => Response): void {
- if (!fn) throw new Error('fn parameter is mandatory')
+ if (fn == null) throw new Error('fn parameter is mandatory')
+ if (typeof fn !== 'function') {
+ throw new TypeError('fn parameter is not a function')
+ }
}
/**
* @returns Reference to the main worker.
*/
protected getMainWorker (): MainWorker {
- if (!this.mainWorker) {
+ if (this.mainWorker == null) {
throw new Error('Main worker was not set')
}
return this.mainWorker
}
/**
- * Send a message to the main worker.
+ * Sends a message to the main worker.
*
- * @param message The response message.
+ * @param message - The response message.
*/
protected abstract sendToMainWorker (message: MessageValue<Response>): void
/**
- * Check to see if the worker should be terminated, because its living too long.
+ * Checks if the worker should be terminated, because its living too long.
*/
protected checkAlive (): void {
if (
}
/**
- * Handle an error and convert it to a string so it can be sent back to the main worker.
+ * Handles an error and convert it to a string so it can be sent back to the main worker.
*
- * @param e The error raised by the worker.
+ * @param e - The error raised by the worker.
* @returns Message of the error.
*/
protected handleError (e: Error | string): string {
- return (e as unknown) as string
+ return e as string
}
/**
- * Run the given function synchronously.
+ * Runs the given function synchronously.
*
- * @param fn Function that will be executed.
- * @param value Input data for the given function.
+ * @param fn - Function that will be executed.
+ * @param value - Input data for the given function.
*/
protected run (
fn: (data?: Data) => Response,
value: MessageValue<Data>
): void {
try {
+ const startTaskTimestamp = Date.now()
const res = fn(value.data)
- this.sendToMainWorker({ data: res, id: value.id })
+ const taskRunTime = Date.now() - startTaskTimestamp
+ this.sendToMainWorker({ data: res, id: value.id, taskRunTime })
} catch (e) {
- const err = this.handleError(e)
+ const err = this.handleError(e as Error)
this.sendToMainWorker({ error: err, id: value.id })
} finally {
this.lastTaskTimestamp = Date.now()
}
/**
- * Run the given function asynchronously.
+ * Runs the given function asynchronously.
*
- * @param fn Function that will be executed.
- * @param value Input data for the given function.
+ * @param fn - Function that will be executed.
+ * @param value - Input data for the given function.
*/
protected runAsync (
fn: (data?: Data) => Promise<Response>,
value: MessageValue<Data>
): void {
+ const startTaskTimestamp = Date.now()
fn(value.data)
.then(res => {
- this.sendToMainWorker({ data: res, id: value.id })
+ const taskRunTime = Date.now() - startTaskTimestamp
+ this.sendToMainWorker({ data: res, id: value.id, taskRunTime })
return null
})
.catch(e => {
- const err = this.handleError(e)
+ const err = this.handleError(e as Error)
this.sendToMainWorker({ error: err, id: value.id })
})
.finally(() => {