[poolifier.git] / src / utils.ts

import { getRandomValues } from 'node:crypto'
import * as os from 'node:os'

import type { KillBehavior } from './worker/worker-options.js'

/**
 * Default task name.
 */
export const DEFAULT_TASK_NAME = 'default'

/**
 * An intentional empty function.
 */
export const EMPTY_FUNCTION: () => void = Object.freeze(() => {
  /* Intentionally empty */
})

/**
 * Returns safe host OS optimized estimate of the default amount of parallelism a pool should use.
 * Always returns a value greater than zero.
 *
 * @returns The host OS optimized maximum pool size.
 */
export const availableParallelism = (): number => {
  let availableParallelism = 1
  try {
    availableParallelism = os.availableParallelism()
  } catch {
    const cpus = os.cpus()
    if (Array.isArray(cpus) && cpus.length > 0) {
      availableParallelism = cpus.length
    }
  }
  return availableParallelism
}

/**
 * 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.
 * @internal
 */
export const sleep = async (ms: number): Promise<void> => {
  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
  } else 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) {
    return 0
  } else if (Array.isArray(dataSet) && dataSet.length === 1) {
    return dataSet[0]
  }
  const sortedDataSet = dataSet.slice().sort((a, b) => a - b)
  return (
    (sortedDataSet[(sortedDataSet.length - 1) >> 1] +
      sortedDataSet[sortedDataSet.length >> 1]) /
    2
  )
}

/**
 * Rounds the given number to the given scale.
 * The rounding is done using the "round half away from zero" method.
 *
 * @param num - The number to round.
 * @param scale - The scale to round to.
 * @returns The rounded number.
 * @internal
 */
export const round = (num: number, scale = 2): number => {
  const rounder = Math.pow(10, scale)
  return Math.round(num * rounder * (1 + Number.EPSILON)) / rounder
}

/**
 * Is the given value a plain object?
 *
 * @param value - The value to check.
 * @returns `true` if the given value is a plain object, `false` otherwise.
 * @internal
 */
export const isPlainObject = (value: unknown): value is object =>
  typeof value === 'object' &&
  value !== null &&
  value.constructor === Object &&
  Object.prototype.toString.call(value) === '[object Object]'

/**
 * Detects whether the given value is a kill behavior or not.
 *
 * @typeParam KB - Which specific KillBehavior type to test against.
 * @param killBehavior - Which kind of kill behavior to detect.
 * @param value - Unknown value.
 * @returns `true` if `value` was strictly equals to `killBehavior`, otherwise `false`.
 * @internal
 */
export const isKillBehavior = <KB extends KillBehavior>(
  killBehavior: KB,
  value: unknown
): value is KB => {
  return value === killBehavior
}

/**
 * Detects whether the given value is an asynchronous function or not.
 *
 * @param fn - Unknown value.
 * @returns `true` if `fn` was an asynchronous function, otherwise `false`.
 * @internal
 */
export const isAsyncFunction = (
  fn: unknown
): fn is (...args: unknown[]) => Promise<unknown> => {
  return typeof fn === 'function' && fn.constructor.name === 'AsyncFunction'
}

/**
 * Generates a cryptographically secure random number in the [0,1[ range
 *
 * @returns A number in the [0,1[ range
 * @internal
 */
export const secureRandom = (): number => {
  return getRandomValues(new Uint32Array(1))[0] / 0x100000000
}

/**
 * Returns the minimum of the given numbers.
 * If no numbers are given, `Infinity` is returned.
 *
 * @param args - The numbers to get the minimum of.
 * @returns The minimum of the given numbers.
 * @internal
 */
export const min = (...args: number[]): number =>
  args.reduce((minimum, num) => (minimum < num ? minimum : num), Infinity)

/**
 * Returns the maximum of the given numbers.
 * If no numbers are given, `-Infinity` is returned.
 *
 * @param args - The numbers to get the maximum of.
 * @returns The maximum of the given numbers.
 * @internal
 */
export const max = (...args: number[]): number =>
  args.reduce((maximum, num) => (maximum > num ? maximum : num), -Infinity)

/**
 * Wraps a function so that it can only be called once.
 *
 * @param fn - The function to wrap.
 * @param context - The context to bind the function to.
 * @returns The wrapped function.
 *
 * @typeParam A - The function's arguments.
 * @typeParam R - The function's return value.
 * @typeParam C - The function's context.
 * @internal
 */
// eslint-disable-next-line @typescript-eslint/no-explicit-any
export const once = <A extends any[], R, C>(
  fn: (...args: A) => R,
  context: C
): ((...args: A) => R) => {
  let result: R
  return (...args: A) => {
    // eslint-disable-next-line @typescript-eslint/no-unnecessary-condition
    if (fn != null) {
      result = fn.apply<C, A, R>(context, args)
      ;(fn as unknown as undefined) = (context as unknown as undefined) =
        undefined
    }
    return result
  }
}
Commit	Line	Data
	1	import { getRandomValues } from 'node:crypto'
	2	import * as os from 'node:os'
	3
	4	import type { KillBehavior } from './worker/worker-options.js'
	5
	6	/**
	7	* Default task name.
	8	*/
	9	export const DEFAULT_TASK_NAME = 'default'
	10
	11	/**
	12	* An intentional empty function.
	13	*/
	14	export const EMPTY_FUNCTION: () => void = Object.freeze(() => {
	15	/* Intentionally empty */
	16	})
	17
	18	/**
	19	* Returns safe host OS optimized estimate of the default amount of parallelism a pool should use.
	20	* Always returns a value greater than zero.
	21	*
	22	* @returns The host OS optimized maximum pool size.
	23	*/
	24	export const availableParallelism = (): number => {
	25	let availableParallelism = 1
	26	try {
	27	availableParallelism = os.availableParallelism()
	28	} catch {
	29	const cpus = os.cpus()
	30	if (Array.isArray(cpus) && cpus.length > 0) {
	31	availableParallelism = cpus.length
	32	}
	33	}
	34	return availableParallelism
	35	}
	36
	37	/**
	38	* Sleeps for the given amount of milliseconds.
	39	*
	40	* @param ms - The amount of milliseconds to sleep.
	41	* @returns A promise that resolves after the given amount of milliseconds.
	42	* @internal
	43	*/
	44	export const sleep = async (ms: number): Promise<void> => {
	45	await new Promise(resolve => {
	46	setTimeout(resolve, ms)
	47	})
	48	}
	49
	50	/**
	51	* Computes the retry delay in milliseconds using an exponential back off algorithm.
	52	*
	53	* @param retryNumber - The number of retries that have already been attempted
	54	* @param delayFactor - The base delay factor in milliseconds
	55	* @returns Delay in milliseconds
	56	* @internal
	57	*/
	58	export const exponentialDelay = (
	59	retryNumber = 0,
	60	delayFactor = 100
	61	): number => {
	62	const delay = Math.pow(2, retryNumber) * delayFactor
	63	const randomSum = delay * 0.2 * secureRandom() // 0-20% of the delay
	64	return delay + randomSum
	65	}
	66
	67	/**
	68	* Computes the average of the given data set.
	69	*
	70	* @param dataSet - Data set.
	71	* @returns The average of the given data set.
	72	* @internal
	73	*/
	74	export const average = (dataSet: number[]): number => {
	75	if (Array.isArray(dataSet) && dataSet.length === 0) {
	76	return 0
	77	} else if (Array.isArray(dataSet) && dataSet.length === 1) {
	78	return dataSet[0]
	79	}
	80	return (
	81	dataSet.reduce((accumulator, number) => accumulator + number, 0) /
	82	dataSet.length
	83	)
	84	}
	85
	86	/**
	87	* Computes the median of the given data set.
	88	*
	89	* @param dataSet - Data set.
	90	* @returns The median of the given data set.
	91	* @internal
	92	*/
	93	export const median = (dataSet: number[]): number => {
	94	if (Array.isArray(dataSet) && dataSet.length === 0) {
	95	return 0
	96	} else if (Array.isArray(dataSet) && dataSet.length === 1) {
	97	return dataSet[0]
	98	}
	99	const sortedDataSet = dataSet.slice().sort((a, b) => a - b)
	100	return (
	101	(sortedDataSet[(sortedDataSet.length - 1) >> 1] +
	102	sortedDataSet[sortedDataSet.length >> 1]) /
	103	2
	104	)
	105	}
	106
	107	/**
	108	* Rounds the given number to the given scale.
	109	* The rounding is done using the "round half away from zero" method.
	110	*
	111	* @param num - The number to round.
	112	* @param scale - The scale to round to.
	113	* @returns The rounded number.
	114	* @internal
	115	*/
	116	export const round = (num: number, scale = 2): number => {
	117	const rounder = Math.pow(10, scale)
	118	return Math.round(num * rounder * (1 + Number.EPSILON)) / rounder
	119	}
	120
	121	/**
	122	* Is the given value a plain object?
	123	*
	124	* @param value - The value to check.
	125	* @returns `true` if the given value is a plain object, `false` otherwise.
	126	* @internal
	127	*/
	128	export const isPlainObject = (value: unknown): value is object =>
	129	typeof value === 'object' &&
	130	value !== null &&
	131	value.constructor === Object &&
	132	Object.prototype.toString.call(value) === '[object Object]'
	133
	134	/**
	135	* Detects whether the given value is a kill behavior or not.
	136	*
	137	* @typeParam KB - Which specific KillBehavior type to test against.
	138	* @param killBehavior - Which kind of kill behavior to detect.
	139	* @param value - Unknown value.
	140	* @returns `true` if `value` was strictly equals to `killBehavior`, otherwise `false`.
	141	* @internal
	142	*/
	143	export const isKillBehavior = <KB extends KillBehavior>(
	144	killBehavior: KB,
	145	value: unknown
	146	): value is KB => {
	147	return value === killBehavior
	148	}
	149
	150	/**
	151	* Detects whether the given value is an asynchronous function or not.
	152	*
	153	* @param fn - Unknown value.
	154	* @returns `true` if `fn` was an asynchronous function, otherwise `false`.
	155	* @internal
	156	*/
	157	export const isAsyncFunction = (
	158	fn: unknown
	159	): fn is (...args: unknown[]) => Promise<unknown> => {
	160	return typeof fn === 'function' && fn.constructor.name === 'AsyncFunction'
	161	}
	162
	163	/**
	164	* Generates a cryptographically secure random number in the [0,1[ range
	165	*
	166	* @returns A number in the [0,1[ range
	167	* @internal
	168	*/
	169	export const secureRandom = (): number => {
	170	return getRandomValues(new Uint32Array(1))[0] / 0x100000000
	171	}
	172
	173	/**
	174	* Returns the minimum of the given numbers.
	175	* If no numbers are given, `Infinity` is returned.
	176	*
	177	* @param args - The numbers to get the minimum of.
	178	* @returns The minimum of the given numbers.
	179	* @internal
	180	*/
	181	export const min = (...args: number[]): number =>
	182	args.reduce((minimum, num) => (minimum < num ? minimum : num), Infinity)
	183
	184	/**
	185	* Returns the maximum of the given numbers.
	186	* If no numbers are given, `-Infinity` is returned.
	187	*
	188	* @param args - The numbers to get the maximum of.
	189	* @returns The maximum of the given numbers.
	190	* @internal
	191	*/
	192	export const max = (...args: number[]): number =>
	193	args.reduce((maximum, num) => (maximum > num ? maximum : num), -Infinity)
	194
	195	/**
	196	* Wraps a function so that it can only be called once.
	197	*
	198	* @param fn - The function to wrap.
	199	* @param context - The context to bind the function to.
	200	* @returns The wrapped function.
	201	*
	202	* @typeParam A - The function's arguments.
	203	* @typeParam R - The function's return value.
	204	* @typeParam C - The function's context.
	205	* @internal
	206	*/
	207	// eslint-disable-next-line @typescript-eslint/no-explicit-any
	208	export const once = <A extends any[], R, C>(
	209	fn: (...args: A) => R,
	210	context: C
	211	): ((...args: A) => R) => {
	212	let result: R
	213	return (...args: A) => {
	214	// eslint-disable-next-line @typescript-eslint/no-unnecessary-condition
	215	if (fn != null) {
	216	result = fn.apply<C, A, R>(context, args)
	217	;(fn as unknown as undefined) = (context as unknown as undefined) =
	218	undefined
	219	}
	220	return result
	221	}
	222	}