PoolTypes,
type TasksQueueOptions
} from './pool'
-import {
- type IWorker,
- type IWorkerNode,
- type WorkerInfo,
- type WorkerType,
- WorkerTypes,
- type WorkerUsage
+import type {
+ IWorker,
+ IWorkerNode,
+ WorkerInfo,
+ WorkerType,
+ WorkerUsage
} from './worker'
import {
type MeasurementStatisticsRequirements,
* The start timestamp of the pool.
*/
private readonly startTimestamp
+ /**
+ * The task function names.
+ */
+ private taskFunctions!: string[]
/**
* Constructs a new poolifier pool.
protected readonly opts: PoolOptions<Worker>
) {
if (!this.isMain()) {
- throw new Error('Cannot start a pool from a worker!')
+ throw new Error(
+ 'Cannot start a pool from a worker with the same type as the pool'
+ )
}
this.checkNumberOfWorkers(this.numberOfWorkers)
this.checkFilePath(this.filePath)
minimum: round(
Math.min(
...this.workerNodes.map(
- workerNode => workerNode.usage.runTime?.minimum ?? Infinity
+ (workerNode) => workerNode.usage.runTime?.minimum ?? Infinity
)
)
),
maximum: round(
Math.max(
...this.workerNodes.map(
- workerNode => workerNode.usage.runTime?.maximum ?? -Infinity
+ (workerNode) => workerNode.usage.runTime?.maximum ?? -Infinity
)
)
),
median: round(
median(
this.workerNodes.map(
- workerNode => workerNode.usage.runTime?.median ?? 0
+ (workerNode) => workerNode.usage.runTime?.median ?? 0
)
)
)
minimum: round(
Math.min(
...this.workerNodes.map(
- workerNode => workerNode.usage.waitTime?.minimum ?? Infinity
+ (workerNode) => workerNode.usage.waitTime?.minimum ?? Infinity
)
)
),
maximum: round(
Math.max(
...this.workerNodes.map(
- workerNode => workerNode.usage.waitTime?.maximum ?? -Infinity
+ (workerNode) => workerNode.usage.waitTime?.maximum ?? -Infinity
)
)
),
median: round(
median(
this.workerNodes.map(
- workerNode => workerNode.usage.waitTime?.median ?? 0
+ (workerNode) => workerNode.usage.waitTime?.median ?? 0
)
)
)
*/
private getWorkerNodeKeyByWorker (worker: Worker): number {
return this.workerNodes.findIndex(
- workerNode => workerNode.worker === worker
+ (workerNode) => workerNode.worker === worker
)
}
*/
private getWorkerNodeKeyByWorkerId (workerId: number): number {
return this.workerNodes.findIndex(
- workerNode => workerNode.info.id === workerId
+ (workerNode) => workerNode.info.id === workerId
)
}
}
for (const [workerNodeKey, workerNode] of this.workerNodes.entries()) {
workerNode.resetUsage()
- this.sendWorkerStatisticsMessageToWorker(workerNodeKey)
+ this.sendStatisticsMessageToWorker(workerNodeKey)
}
}
if (this.opts.enableTasksQueue === true) {
return (
this.workerNodes.findIndex(
- workerNode =>
+ (workerNode) =>
workerNode.info.ready &&
workerNode.usage.tasks.executing <
(this.opts.tasksQueueOptions?.concurrency as number)
} else {
return (
this.workerNodes.findIndex(
- workerNode =>
+ (workerNode) =>
workerNode.info.ready && workerNode.usage.tasks.executing === 0
) === -1
)
}
}
+ /** @inheritDoc */
+ public listTaskFunctions (): string[] {
+ if (this.taskFunctions != null) {
+ return this.taskFunctions
+ } else {
+ return []
+ }
+ }
+
/** @inheritDoc */
public async execute (
data?: Data,
if (name != null && typeof name !== 'string') {
reject(new TypeError('name argument must be a string'))
}
+ if (
+ name != null &&
+ typeof name === 'string' &&
+ name.trim().length === 0
+ ) {
+ reject(new TypeError('name argument must not be an empty string'))
+ }
+ if (
+ name != null &&
+ this.taskFunctions != null &&
+ !this.taskFunctions.includes(name)
+ ) {
+ reject(
+ new Error(`Task function '${name}' is not registered in the pool`)
+ )
+ }
if (transferList != null && !Array.isArray(transferList)) {
reject(new TypeError('transferList argument must be an array'))
}
)
}
+ protected async sendKillMessageToWorker (
+ workerNodeKey: number,
+ workerId: number
+ ): Promise<void> {
+ await new Promise<void>((resolve, reject) => {
+ this.registerWorkerMessageListener(workerNodeKey, (message) => {
+ if (message.kill === 'success') {
+ resolve()
+ } else if (message.kill === 'failure') {
+ reject(new Error(`Worker ${workerId} kill message handling failed`))
+ }
+ })
+ this.sendToWorker(workerNodeKey, { kill: true, workerId })
+ })
+ }
+
/**
* Terminates the worker node given its worker node key.
*
worker.on('message', this.opts.messageHandler ?? EMPTY_FUNCTION)
worker.on('error', this.opts.errorHandler ?? EMPTY_FUNCTION)
- worker.on('error', error => {
+ worker.on('error', (error) => {
const workerNodeKey = this.getWorkerNodeKeyByWorker(worker)
const workerInfo = this.getWorkerInfo(workerNodeKey)
workerInfo.ready = false
*/
protected createAndSetupDynamicWorkerNode (): number {
const workerNodeKey = this.createAndSetupWorkerNode()
- this.registerWorkerMessageListener(workerNodeKey, message => {
+ this.registerWorkerMessageListener(workerNodeKey, (message) => {
const localWorkerNodeKey = this.getWorkerNodeKeyByWorkerId(
message.workerId
)
// Kill message received from worker
if (
isKillBehavior(KillBehaviors.HARD, message.kill) ||
- (message.kill != null &&
+ (isKillBehavior(KillBehaviors.SOFT, message.kill) &&
((this.opts.enableTasksQueue === false &&
workerUsage.tasks.executing === 0) ||
(this.opts.enableTasksQueue === true &&
workerUsage.tasks.executing === 0 &&
this.tasksQueueSize(localWorkerNodeKey) === 0)))
) {
- this.destroyWorkerNode(localWorkerNodeKey).catch(EMPTY_FUNCTION)
+ this.destroyWorkerNode(localWorkerNodeKey).catch((error) => {
+ this.emitter?.emit(PoolEvents.error, error)
+ })
}
})
const workerInfo = this.getWorkerInfo(workerNodeKey)
this.registerWorkerMessageListener(workerNodeKey, this.workerListener())
// Send the startup message to worker.
this.sendStartupMessageToWorker(workerNodeKey)
- // Send the worker statistics message to worker.
- this.sendWorkerStatisticsMessageToWorker(workerNodeKey)
+ // Send the statistics message to worker.
+ this.sendStatisticsMessageToWorker(workerNodeKey)
}
/**
protected abstract sendStartupMessageToWorker (workerNodeKey: number): void
/**
- * Sends the worker statistics message to worker given its worker node key.
+ * Sends the statistics message to worker given its worker node key.
*
* @param workerNodeKey - The worker node key.
*/
- private sendWorkerStatisticsMessageToWorker (workerNodeKey: number): void {
+ private sendStatisticsMessageToWorker (workerNodeKey: number): void {
this.sendToWorker(workerNodeKey, {
statistics: {
runTime:
* @returns The listener function to execute when a message is received from a worker.
*/
protected workerListener (): (message: MessageValue<Response>) => void {
- return message => {
+ return (message) => {
this.checkMessageWorkerId(message)
if (message.ready != null) {
// Worker ready response received from worker
} else if (message.taskId != null) {
// Task execution response received from worker
this.handleTaskExecutionResponse(message)
+ } else if (message.taskFunctions != null) {
+ // Task functions message received from worker
+ this.taskFunctions = message.taskFunctions
}
}
}
*/
private executeTask (workerNodeKey: number, task: Task<Data>): void {
this.beforeTaskExecutionHook(workerNodeKey, task)
- this.sendToWorker(
- workerNodeKey,
- task,
- this.worker === WorkerTypes.thread && task.transferList != null
- ? task.transferList
- : undefined
- )
+ this.sendToWorker(workerNodeKey, task, task.transferList)
}
private enqueueTask (workerNodeKey: number, task: Task<Data>): number {