-const WorkerFunctions = {
- jsonIntegerSerialization: 'jsonIntegerSerialization',
- fibonacci: 'fibonacci',
- factorial: 'factorial'
+const crypto = require('node:crypto')
+const assert = require('node:assert')
+const fs = require('node:fs')
+const Benchmark = require('benchmark')
+const {
+ DynamicClusterPool,
+ DynamicThreadPool,
+ FixedClusterPool,
+ FixedThreadPool,
+ Measurements,
+ PoolTypes,
+ WorkerChoiceStrategies,
+ WorkerTypes
+} = require('../lib/index.js')
+const { TaskFunctions } = require('./benchmarks-types.js')
+
+const buildPoolifierPool = (workerType, poolType, poolSize, poolOptions) => {
+ switch (poolType) {
+ case PoolTypes.fixed:
+ switch (workerType) {
+ case WorkerTypes.thread:
+ return new FixedThreadPool(
+ poolSize,
+ './benchmarks/internal/thread-worker.mjs',
+ poolOptions
+ )
+ case WorkerTypes.cluster:
+ return new FixedClusterPool(
+ poolSize,
+ './benchmarks/internal/cluster-worker.js',
+ poolOptions
+ )
+ }
+ break
+ case PoolTypes.dynamic:
+ switch (workerType) {
+ case WorkerTypes.thread:
+ return new DynamicThreadPool(
+ Math.floor(poolSize / 2),
+ poolSize,
+ './benchmarks/internal/thread-worker.mjs',
+ poolOptions
+ )
+ case WorkerTypes.cluster:
+ return new DynamicClusterPool(
+ Math.floor(poolSize / 2),
+ poolSize,
+ './benchmarks/internal/cluster-worker.js',
+ poolOptions
+ )
+ }
+ break
+ }
}
-async function runPoolifierTest (pool, { tasks, workerData }) {
- return new Promise((resolve, reject) => {
+const runPoolifierPool = async (pool, { taskExecutions, workerData }) => {
+ return await new Promise((resolve, reject) => {
let executions = 0
- for (let i = 1; i <= tasks; i++) {
+ for (let i = 1; i <= taskExecutions; i++) {
pool
.execute(workerData)
.then(() => {
- executions++
- if (executions === tasks) {
- return resolve('FINISH')
+ ++executions
+ if (executions === taskExecutions) {
+ resolve({ ok: 1 })
}
- return null
+ return undefined
})
.catch(err => {
console.error(err)
- return reject(err)
+ reject(err)
})
}
})
}
-function jsonIntegerSerialization (n) {
- for (let i = 0; i < n; i++) {
- const o = {
- a: i
+const runPoolifierPoolBenchmark = async (
+ name,
+ workerType,
+ poolType,
+ poolSize,
+ { taskExecutions, workerData }
+) => {
+ const pool = buildPoolifierPool(workerType, poolType, poolSize)
+ const suite = new Benchmark.Suite(name)
+ return await new Promise((resolve, reject) => {
+ try {
+ for (const workerChoiceStrategy of Object.values(
+ WorkerChoiceStrategies
+ )) {
+ for (const enableTasksQueue of [false, true]) {
+ if (workerChoiceStrategy === WorkerChoiceStrategies.FAIR_SHARE) {
+ for (const measurement of [
+ Measurements.runTime,
+ Measurements.elu
+ ]) {
+ suite.add(
+ `${name} with ${workerChoiceStrategy}, with ${measurement} and ${
+ enableTasksQueue ? 'with' : 'without'
+ } tasks queue`,
+ async () => {
+ pool.setWorkerChoiceStrategy(workerChoiceStrategy, {
+ measurement
+ })
+ pool.enableTasksQueue(enableTasksQueue)
+ assert.strictEqual(
+ pool.opts.workerChoiceStrategy,
+ workerChoiceStrategy
+ )
+ assert.strictEqual(
+ pool.opts.enableTasksQueue,
+ enableTasksQueue
+ )
+ assert.strictEqual(
+ pool.opts.workerChoiceStrategyOptions.measurement,
+ measurement
+ )
+ await runPoolifierPool(pool, {
+ taskExecutions,
+ workerData
+ })
+ }
+ )
+ }
+ } else {
+ suite.add(
+ `${name} with ${workerChoiceStrategy} and ${
+ enableTasksQueue ? 'with' : 'without'
+ } tasks queue`,
+ async () => {
+ pool.setWorkerChoiceStrategy(workerChoiceStrategy)
+ pool.enableTasksQueue(enableTasksQueue)
+ assert.strictEqual(
+ pool.opts.workerChoiceStrategy,
+ workerChoiceStrategy
+ )
+ assert.strictEqual(pool.opts.enableTasksQueue, enableTasksQueue)
+ await runPoolifierPool(pool, {
+ taskExecutions,
+ workerData
+ })
+ }
+ )
+ }
+ }
+ }
+ suite
+ .on('cycle', event => {
+ console.info(event.target.toString())
+ })
+ .on('complete', async function () {
+ console.info(
+ 'Fastest is ' +
+ LIST_FORMATTER.format(this.filter('fastest').map('name'))
+ )
+ await pool.destroy()
+ resolve()
+ })
+ .run({ async: true })
+ } catch (error) {
+ pool
+ .destroy()
+ .then(() => {
+ return reject(error)
+ })
+ .catch(() => {})
}
- JSON.stringify(o)
- }
+ })
}
-function generateRandomInteger (max = Number.MAX_SAFE_INTEGER, min = 0) {
+const LIST_FORMATTER = new Intl.ListFormat('en-US', {
+ style: 'long',
+ type: 'conjunction'
+})
+
+const generateRandomInteger = (max = Number.MAX_SAFE_INTEGER, min = 0) => {
+ if (max < min || max < 0 || min < 0) {
+ throw new RangeError('Invalid interval')
+ }
max = Math.floor(max)
- if (min) {
+ if (min != null && min !== 0) {
min = Math.ceil(min)
return Math.floor(Math.random() * (max - min + 1)) + min
}
return Math.floor(Math.random() * (max + 1))
}
+const jsonIntegerSerialization = n => {
+ for (let i = 0; i < n; i++) {
+ const o = {
+ a: i
+ }
+ JSON.stringify(o)
+ }
+ return { ok: 1 }
+}
+
/**
* Intentionally inefficient implementation.
- *
* @param {number} n - The number of fibonacci numbers to generate.
* @returns {number} - The nth fibonacci number.
*/
-function fibonacci (n) {
- if (n <= 1) return 1
+const fibonacci = n => {
+ if (n <= 1) return n
return fibonacci(n - 1) + fibonacci(n - 2)
}
/**
* Intentionally inefficient implementation.
- *
* @param {number} n - The number to calculate the factorial of.
* @returns {number} - The factorial of n.
*/
-function factorial (n) {
+const factorial = n => {
if (n === 0) {
return 1
- } else {
- return factorial(n - 1) * n
}
+ return factorial(n - 1) * n
}
-function executeWorkerFunction (data) {
+const readWriteFiles = (
+ n,
+ baseDirectory = `/tmp/poolifier-benchmarks/${crypto.randomInt(
+ 281474976710655
+ )}`
+) => {
+ if (fs.existsSync(baseDirectory) === true) {
+ fs.rmSync(baseDirectory, { recursive: true })
+ }
+ fs.mkdirSync(baseDirectory, { recursive: true })
+ for (let i = 0; i < n; i++) {
+ const filePath = `${baseDirectory}/${i}`
+ fs.writeFileSync(filePath, i.toString(), {
+ encoding: 'utf8',
+ flag: 'a'
+ })
+ fs.readFileSync(filePath, 'utf8')
+ }
+ fs.rmSync(baseDirectory, { recursive: true })
+ return { ok: 1 }
+}
+
+const executeTaskFunction = data => {
switch (data.function) {
- case WorkerFunctions.jsonIntegerSerialization:
+ case TaskFunctions.jsonIntegerSerialization:
return jsonIntegerSerialization(data.taskSize || 1000)
- case WorkerFunctions.fibonacci:
+ case TaskFunctions.fibonacci:
return fibonacci(data.taskSize || 1000)
- case WorkerFunctions.factorial:
+ case TaskFunctions.factorial:
return factorial(data.taskSize || 1000)
+ case TaskFunctions.readWriteFiles:
+ return readWriteFiles(data.taskSize || 1000)
default:
- throw new Error('Unknown worker function')
+ throw new Error('Unknown task function')
}
}
-const LIST_FORMATTER = new Intl.ListFormat('en-US', {
- style: 'long',
- type: 'conjunction'
-})
-
module.exports = {
LIST_FORMATTER,
- WorkerFunctions,
- executeWorkerFunction,
+ executeTaskFunction,
generateRandomInteger,
- runPoolifierTest
+ runPoolifierPoolBenchmark
}