X-Git-Url: https://git.piment-noir.org/?a=blobdiff_plain;f=src%2Futils.ts;h=33ec019db92c46688615be01bd8a59573c0b2457;hb=56ea99c2ba591a9797a21e317d666b0f8bce8a66;hp=efd1f124084776667bd60495f202cec32c7e04a9;hpb=1079e6ed099b03189005b33702c1e9fa912c74d1;p=poolifier.git diff --git a/src/utils.ts b/src/utils.ts index efd1f124..33ec019d 100644 --- a/src/utils.ts +++ b/src/utils.ts @@ -1,4 +1,5 @@ import * as os from 'node:os' +import * as crypto from 'node:crypto' import type { MeasurementStatisticsRequirements, WorkerChoiceStrategyOptions @@ -44,6 +45,7 @@ export const DEFAULT_MEASUREMENT_STATISTICS_REQUIREMENTS: MeasurementStatisticsR * Always returns a value greater than zero. * * @returns The host OS optimized maximum pool size. + * @internal */ export const availableParallelism = (): number => { let availableParallelism = 1 @@ -58,27 +60,61 @@ export const availableParallelism = (): number => { return availableParallelism } -// /** -// * Computes the retry delay in milliseconds using an exponential back off algorithm. -// * -// * @param retryNumber - The number of retries that have already been attempted -// * @param maxDelayRatio - The maximum ratio of the delay that can be randomized -// * @returns Delay in milliseconds -// */ -// export const exponentialDelay = ( -// retryNumber = 0, -// maxDelayRatio = 0.2 -// ): number => { -// const delay = Math.pow(2, retryNumber) * 100 -// const randomSum = delay * maxDelayRatio * Math.random() // 0-(maxDelayRatio*100)% of the delay -// return delay + randomSum -// } +/** + * Sleeps for the given amount of milliseconds. + * + * @param ms - The amount of milliseconds to sleep. + * @returns A promise that resolves after the given amount of milliseconds. + */ +export const sleep = async (ms: number): Promise => { + await new Promise((resolve) => { + setTimeout(resolve, ms) + }) +} + +/** + * Computes the retry delay in milliseconds using an exponential back off algorithm. + * + * @param retryNumber - The number of retries that have already been attempted + * @param delayFactor - The base delay factor in milliseconds + * @returns Delay in milliseconds + * @internal + */ +export const exponentialDelay = ( + retryNumber = 0, + delayFactor = 100 +): number => { + const delay = Math.pow(2, retryNumber) * delayFactor + const randomSum = delay * 0.2 * secureRandom() // 0-20% of the delay + return delay + randomSum +} + +/** + * Computes the average of the given data set. + * + * @param dataSet - Data set. + * @returns The average of the given data set. + * @internal + */ +export const average = (dataSet: number[]): number => { + if (Array.isArray(dataSet) && dataSet.length === 0) { + return 0 + } + if (Array.isArray(dataSet) && dataSet.length === 1) { + return dataSet[0] + } + return ( + dataSet.reduce((accumulator, number) => accumulator + number, 0) / + dataSet.length + ) +} /** * Computes the median of the given data set. * * @param dataSet - Data set. * @returns The median of the given data set. + * @internal */ export const median = (dataSet: number[]): number => { if (Array.isArray(dataSet) && dataSet.length === 0) { @@ -127,6 +163,7 @@ export const isPlainObject = (obj: unknown): boolean => * @param killBehavior - Which kind of kill behavior to detect. * @param value - Any value. * @returns `true` if `value` was strictly equals to `killBehavior`, otherwise `false`. + * @internal */ export const isKillBehavior = ( killBehavior: KB, @@ -154,12 +191,12 @@ export const isAsyncFunction = ( * @param measurementRequirements - The measurement statistics requirements. * @param measurementValue - The measurement value. * @param numberOfMeasurements - The number of measurements. + * @internal */ export const updateMeasurementStatistics = ( measurementStatistics: MeasurementStatistics, measurementRequirements: MeasurementStatisticsRequirements, - measurementValue: number, - numberOfMeasurements: number + measurementValue: number ): void => { if (measurementRequirements.aggregate) { measurementStatistics.aggregate = @@ -172,13 +209,50 @@ export const updateMeasurementStatistics = ( measurementValue, measurementStatistics.maximum ?? -Infinity ) - if (measurementRequirements.average && numberOfMeasurements !== 0) { - measurementStatistics.average = - measurementStatistics.aggregate / numberOfMeasurements - } - if (measurementRequirements.median && measurementValue != null) { + if ( + (measurementRequirements.average || measurementRequirements.median) && + measurementValue != null + ) { measurementStatistics.history.push(measurementValue) - measurementStatistics.median = median(measurementStatistics.history) + if (measurementRequirements.average) { + measurementStatistics.average = average(measurementStatistics.history) + } + if (measurementRequirements.median) { + measurementStatistics.median = median(measurementStatistics.history) + } + } + } +} + +/** + * Executes a function once at a time. + * + * @param fn - The function to execute. + * @param context - The context to bind the function to. + * @returns The function to execute. + */ +export const once = ( + // eslint-disable-next-line @typescript-eslint/no-explicit-any + fn: (...args: any[]) => void, + context: unknown + // eslint-disable-next-line @typescript-eslint/no-explicit-any +): ((...args: any[]) => void) => { + let called = false + // eslint-disable-next-line @typescript-eslint/no-explicit-any + return function (...args: any[]): void { + if (!called) { + called = true + fn.apply(context, args) + called = false } } } + +/** + * Generate a cryptographically secure random number in the [0,1[ range + * + * @returns A number in the [0,1[ range + */ +export const secureRandom = (): number => { + return crypto.getRandomValues(new Uint32Array(1))[0] / 0x100000000 +}