import {
DEFAULT_WORKER_CHOICE_STRATEGY_OPTIONS,
EMPTY_FUNCTION,
+ isPlainObject,
median
} from '../utils'
import { KillBehaviors, isKillBehavior } from '../worker/worker-options'
+import { CircularArray } from '../circular-array'
+import { Queue } from '../queue'
import {
+ type IPool,
PoolEmitter,
PoolEvents,
- type IPool,
type PoolOptions,
- type TasksQueueOptions,
- PoolType
+ PoolType,
+ type TasksQueueOptions
} from './pool'
import type { IWorker, Task, TasksUsage, WorkerNode } from './worker'
import {
type WorkerChoiceStrategyOptions
} from './selection-strategies/selection-strategies-types'
import { WorkerChoiceStrategyContext } from './selection-strategies/worker-choice-strategy-context'
-import { CircularArray } from '../circular-array'
/**
* Base class that implements some shared logic for all poolifier pools.
)
} else if (!Number.isSafeInteger(numberOfWorkers)) {
throw new TypeError(
- 'Cannot instantiate a pool with a non integer number of workers'
+ 'Cannot instantiate a pool with a non safe integer number of workers'
)
} else if (numberOfWorkers < 0) {
throw new RangeError(
}
private checkPoolOptions (opts: PoolOptions<Worker>): void {
- this.opts.workerChoiceStrategy =
- opts.workerChoiceStrategy ?? WorkerChoiceStrategies.ROUND_ROBIN
- this.checkValidWorkerChoiceStrategy(this.opts.workerChoiceStrategy)
- this.opts.workerChoiceStrategyOptions =
- opts.workerChoiceStrategyOptions ?? DEFAULT_WORKER_CHOICE_STRATEGY_OPTIONS
- this.opts.enableEvents = opts.enableEvents ?? true
- this.opts.enableTasksQueue = opts.enableTasksQueue ?? false
- if (this.opts.enableTasksQueue) {
- this.checkValidTasksQueueOptions(
- opts.tasksQueueOptions as TasksQueueOptions
- )
- this.opts.tasksQueueOptions = this.buildTasksQueueOptions(
- opts.tasksQueueOptions as TasksQueueOptions
+ if (isPlainObject(opts)) {
+ this.opts.workerChoiceStrategy =
+ opts.workerChoiceStrategy ?? WorkerChoiceStrategies.ROUND_ROBIN
+ this.checkValidWorkerChoiceStrategy(this.opts.workerChoiceStrategy)
+ this.opts.workerChoiceStrategyOptions =
+ opts.workerChoiceStrategyOptions ??
+ DEFAULT_WORKER_CHOICE_STRATEGY_OPTIONS
+ this.checkValidWorkerChoiceStrategyOptions(
+ this.opts.workerChoiceStrategyOptions
)
+ this.opts.enableEvents = opts.enableEvents ?? true
+ this.opts.enableTasksQueue = opts.enableTasksQueue ?? false
+ if (this.opts.enableTasksQueue) {
+ this.checkValidTasksQueueOptions(
+ opts.tasksQueueOptions as TasksQueueOptions
+ )
+ this.opts.tasksQueueOptions = this.buildTasksQueueOptions(
+ opts.tasksQueueOptions as TasksQueueOptions
+ )
+ }
+ } else {
+ throw new TypeError('Invalid pool options: must be a plain object')
}
}
}
}
+ private checkValidWorkerChoiceStrategyOptions (
+ workerChoiceStrategyOptions: WorkerChoiceStrategyOptions
+ ): void {
+ if (!isPlainObject(workerChoiceStrategyOptions)) {
+ throw new TypeError(
+ 'Invalid worker choice strategy options: must be a plain object'
+ )
+ }
+ if (
+ workerChoiceStrategyOptions.weights != null &&
+ Object.keys(workerChoiceStrategyOptions.weights).length !== this.size
+ ) {
+ throw new Error(
+ 'Invalid worker choice strategy options: must have a weight for each worker node'
+ )
+ }
+ }
+
private checkValidTasksQueueOptions (
tasksQueueOptions: TasksQueueOptions
): void {
+ if (tasksQueueOptions != null && !isPlainObject(tasksQueueOptions)) {
+ throw new TypeError('Invalid tasks queue options: must be a plain object')
+ }
if ((tasksQueueOptions?.concurrency as number) <= 0) {
throw new Error(
`Invalid worker tasks concurrency '${
/** @inheritDoc */
public abstract get type (): PoolType
+ /** @inheritDoc */
+ public abstract get size (): number
+
/**
* Number of tasks running in the pool.
*/
return 0
}
return this.workerNodes.reduce(
- (accumulator, workerNode) => accumulator + workerNode.tasksQueue.length,
+ (accumulator, workerNode) => accumulator + workerNode.tasksQueue.size,
0
)
}
public setWorkerChoiceStrategyOptions (
workerChoiceStrategyOptions: WorkerChoiceStrategyOptions
): void {
+ this.checkValidWorkerChoiceStrategyOptions(workerChoiceStrategyOptions)
this.opts.workerChoiceStrategyOptions = workerChoiceStrategyOptions
this.workerChoiceStrategyContext.setOptions(
this.opts.workerChoiceStrategyOptions
protected internalBusy (): boolean {
return (
this.workerNodes.findIndex(workerNode => {
- return workerNode.tasksUsage?.running === 0
+ return workerNode.tasksUsage.running === 0
}) === -1
)
}
/** @inheritDoc */
- public async execute (data?: Data): Promise<Response> {
- const [workerNodeKey, workerNode] = this.chooseWorkerNode()
+ public async execute (data?: Data, name?: string): Promise<Response> {
+ const workerNodeKey = this.chooseWorkerNode()
const submittedTask: Task<Data> = {
+ name,
// eslint-disable-next-line @typescript-eslint/consistent-type-assertions
data: data ?? ({} as Data),
id: crypto.randomUUID()
this.promiseResponseMap.set(submittedTask.id as string, {
resolve,
reject,
- worker: workerNode.worker
+ worker: this.workerNodes[workerNodeKey].worker
})
})
if (
} else {
this.executeTask(workerNodeKey, submittedTask)
}
+ this.workerChoiceStrategyContext.update(workerNodeKey)
this.checkAndEmitEvents()
// eslint-disable-next-line @typescript-eslint/return-await
return res
worker: Worker,
message: MessageValue<Response>
): void {
- const workerTasksUsage = this.getWorkerTasksUsage(worker)
+ const workerNodeKey = this.getWorkerNodeKey(worker)
+ const workerTasksUsage = this.workerNodes[workerNodeKey].tasksUsage
--workerTasksUsage.running
++workerTasksUsage.run
if (message.error != null) {
workerTasksUsage.avgRunTime =
workerTasksUsage.runTime / workerTasksUsage.run
}
- if (this.workerChoiceStrategyContext.getRequiredStatistics().medRunTime) {
- workerTasksUsage.runTimeHistory.push(message.runTime ?? 0)
+ if (
+ this.workerChoiceStrategyContext.getRequiredStatistics().medRunTime &&
+ message.runTime != null
+ ) {
+ workerTasksUsage.runTimeHistory.push(message.runTime)
workerTasksUsage.medRunTime = median(workerTasksUsage.runTimeHistory)
}
}
/**
* Chooses a worker node for the next task.
*
- * The default uses a round robin algorithm to distribute the load.
+ * The default worker choice strategy uses a round robin algorithm to distribute the load.
*
- * @returns [worker node key, worker node].
+ * @returns The worker node key
*/
- protected chooseWorkerNode (): [number, WorkerNode<Worker, Data>] {
+ protected chooseWorkerNode (): number {
let workerNodeKey: number
if (this.type === PoolType.DYNAMIC && !this.full && this.internalBusy()) {
const workerCreated = this.createAndSetupWorker()
this.registerWorkerMessageListener(workerCreated, message => {
+ const currentWorkerNodeKey = this.getWorkerNodeKey(workerCreated)
if (
isKillBehavior(KillBehaviors.HARD, message.kill) ||
(message.kill != null &&
- this.getWorkerTasksUsage(workerCreated)?.running === 0)
+ this.workerNodes[currentWorkerNodeKey].tasksUsage.running === 0)
) {
// Kill message received from the worker: no new tasks are submitted to that worker for a while ( > maxInactiveTime)
- this.flushTasksQueueByWorker(workerCreated)
+ this.flushTasksQueue(currentWorkerNodeKey)
void (this.destroyWorker(workerCreated) as Promise<void>)
}
})
} else {
workerNodeKey = this.workerChoiceStrategyContext.execute()
}
- return [workerNodeKey, this.workerNodes[workerNodeKey]]
+ return workerNodeKey
}
/**
workerNode.tasksUsage = tasksUsage
}
- /**
- * Gets the given worker its tasks usage in the pool.
- *
- * @param worker - The worker.
- * @throws Error if the worker is not found in the pool worker nodes.
- * @returns The worker tasks usage.
- */
- private getWorkerTasksUsage (worker: Worker): TasksUsage {
- const workerNodeKey = this.getWorkerNodeKey(worker)
- if (workerNodeKey !== -1) {
- return this.workerNodes[workerNodeKey].tasksUsage
- }
- throw new Error('Worker could not be found in the pool worker nodes')
- }
-
/**
* Pushes the given worker in the pool worker nodes.
*
medRunTime: 0,
error: 0
},
- tasksQueue: []
+ tasksQueue: new Queue<Task<Data>>()
})
}
workerNodeKey: number,
worker: Worker,
tasksUsage: TasksUsage,
- tasksQueue: Array<Task<Data>>
+ tasksQueue: Queue<Task<Data>>
): void {
this.workerNodes[workerNodeKey] = {
worker,
}
private enqueueTask (workerNodeKey: number, task: Task<Data>): number {
- return this.workerNodes[workerNodeKey].tasksQueue.push(task)
+ return this.workerNodes[workerNodeKey].tasksQueue.enqueue(task)
}
private dequeueTask (workerNodeKey: number): Task<Data> | undefined {
- return this.workerNodes[workerNodeKey].tasksQueue.shift()
+ return this.workerNodes[workerNodeKey].tasksQueue.dequeue()
}
private tasksQueueSize (workerNodeKey: number): number {
- return this.workerNodes[workerNodeKey].tasksQueue.length
+ return this.workerNodes[workerNodeKey].tasksQueue.size
}
private flushTasksQueue (workerNodeKey: number): void {
if (this.tasksQueueSize(workerNodeKey) > 0) {
- for (const task of this.workerNodes[workerNodeKey].tasksQueue) {
- this.executeTask(workerNodeKey, task)
+ for (let i = 0; i < this.tasksQueueSize(workerNodeKey); i++) {
+ this.executeTask(
+ workerNodeKey,
+ this.dequeueTask(workerNodeKey) as Task<Data>
+ )
}
}
}
- private flushTasksQueueByWorker (worker: Worker): void {
- const workerNodeKey = this.getWorkerNodeKey(worker)
- this.flushTasksQueue(workerNodeKey)
- }
-
private flushTasksQueues (): void {
for (const [workerNodeKey] of this.workerNodes.entries()) {
this.flushTasksQueue(workerNodeKey)