promise_mtd
Set of methods allowing to simplify work with promises in cycle: forEach, map, find, filter, reduce, while, transform
. Besides there are methods for comfortable work with promises or asynchronous operations: all, retry, timeout
.
The library supports TypeScript.
Methods:
Methods:
- forEach
- forEachParallel
- map
- mapParallel
- reduce
- filter
- filterParallel
- find
- findParallel
- transform
- transformParallel
- while
- all
- retry
- timeout
The library has no dependencies 😀
Install:
npm i promise_mtd -S
How to import:
const promiseMtd = require('promise_mtd');
import promiseMtd from 'promise_mtd';
forEach
forEach(Array, function(el, index))
It's analog of standard method forEach
of array, but for asynchronous sequent actions based on promises.
await promiseMtd.forEach([ 300, 200, 100], async function (el, i) {
await promiseMtd.timeout(el); // inbuilt promifisified version for setTimeout
console.log(el); // 300 then 200 then 100
});
forEachParallel
forEachParallel(Array, { pool: number }, function(el, index))
It's the same method as forEach
, but actions are executed in parallel. The pool
is the maximum number of promises executed in parallel. In other words, number of promises which may be executed simutalneously is equal or less than value of pool
.
await promiseMtd.forEach([ 300, 200, 100], { pool: 2 }, async function (el, i) {
await promiseMtd.timeout(el); // inbuilt promifisified version for setTimeout
console.log(el); // 300 then 200 then 100
});
map
map(Array<any>, function(el, index): Promise<any>): Promise<Array<any>>
It's analog of standard method map
of array, but for asynchronous sequent actions based on promises.
const result = await promiseMtd.map([ 300, 200, 100 ], async function (el, i) {
await promiseMtd.timeout(el); // inbuilt promifisified version for setTimeout
return el*2;
});
console.log(result); // [ 600, 400, 200 ]
mapParallel
mapParallel(Array<any>, { pool: number }, function(el, index): Promise<any>): Promise<Array>
It's the same method as map
, but actions are executed in parallel. The pool
is the maximum number of promises executed in parallel. In other words, number of promises which may be executed simutalneously is equal or less than value of pool
.
const result = await promiseMtd.mapParallel([ 300, 200, 100 ], { pool: 2 }, async function (el, i) {
await promiseMtd.timeout(el); // inbuilt promifisified version for setTimeout
return el*2;
});
console.log(result); // [ 600, 400, 200 ]
reduce
reduce(Array, function(previousValue, currentValue, index, array): Promise)
It's analog of standard method reduce
of array, but for asynchronous sequent actions based on promises.
const result = await promiseMtd.reduce([0, 1, 2, 3, 4], async function (previousValue, currentValue, index, array) {
await promiseMtd.timeout(currentValue * 1000); // inbuilt promifisified version for setTimeout
return previousValue + currentValue;
}, 0);
console.log(result); // 10
filter
filter(Array<any>, function(el, index): Promise<Boolean>): Array<any>
It's analog of standard method filter
of array, but for asynchronous sequent actions based on promises.
const result = await promiseMtd.filter([ 1, 2, 3, 4 ], async function(el, i) {
await promiseMtd.timeout(el * 1000); // inbuilt promifisified version for setTimeout
return i % 2 === 0;
});
console.log(result); // [ 2, 4 ]
filterParallel
filterParallel(Array, { pool: number }, function(el, index): Promise<Boolean>): Array<any>
It's the same method as filter
, but actions are executed in parallel. The pool
is the maximum number of promises executed in parallel. In other words, number of promises which may be executed simutalneously is equal or less than value of pool
.
const result = await promiseMtd.filterParallel([ 1, 2, 3, 4 ], { pool: 2 }, async function(el, i) {
await promiseMtd.timeout(el * 1000); // inbuilt promifisified version for setTimeout
return i % 2 === 0;
});
console.log(result); // [ 2, 4 ]
find
find(Array, function(el, index): Promise): any
It's analog of standard method find
of array, but for asynchronous sequent actions based on promises.
const result = await promiseMtd.find([0, 1, 2, 3, 4], async function (el, i) {
await promiseMtd.timeout(el * 1000); // inbuilt promifisified version for setTimeout
return el === 2;
});
console.log(result); // 2
findParallel
findParallel(Array, { pool: number }, function(el, index): Promise): any
It's the same method as find
, but actions are executed in parallel. The pool
is the maximum number of promises executed in parallel. In other words, number of promises which may be executed simutalneously is equal or less than value of pool
.
const result = await promiseMtd.findParallel([0, 1, 2, 3, 4], { pool: 2 }, async function (el, i) {
await promiseMtd.timeout(el * 1000); // inbuilt promifisified version for setTimeout
return el === 2;
});
console.log(result); // 2
transform
transform(Array, function(el, index): Promise): Array
Method transform
allows to iterate asynchronously over an array similarly to map
, but also it can skip unnecessary data.
const res = await promiseMtd.transform([ 1, 2, 3, 4 ], async function (el, i) {
if (el <= 2) {
await promiseMtd.timeout(i*1000); // inbuilt promifisified version for setTimeout
return { el, i };
}
});
console.log(res); // [ { el: 1, i: 0 }, { el: 2, i: 1 } ]
transformParallel
transformParallel(Array, { pool: number }, function(el, index): Promise): Array
It's the same method as transform
, but actions are executed in parallel. The pool
is the maximum number of promises executed in parallel. In other words, number of promises which may be executed simutalneously is equal or less than value of pool
.
const res = await promiseMtd.transformParallel([ 1, 2, 3, 4 ], { pool: 2 }, async function (el, i) {
if (el <= 2) {
await promiseMtd.timeout(i*1000); // inbuilt promifisified version for setTimeout
return { el, i };
}
});
console.log(res); // [ { el: 1, i: 0 }, { el: 2, i: 1 } ]
while
while_(condition: () => boolean, function(), params?: { limit: number }) | while_(condition: () => Promise<boolean>, params?: { limit: number })
Implementation of cycle while
as while_
(while
is reserved word in JavaScript) for using with promise.
while_
iterates over promises sequentially. This method supports limit of iterations (protection from forever cycle) via third parameter.
Example with two arguments: the first argument is function which returns result of condition, the second is asynchronous action.
let i = 0;
let result = [];
await promiseMtd.while_(() => i < 10, async function () {
await promiseMtd.timeout(i*1000); // inbuilt promifisified version for setTimeout
result.push(i++);
});
console.log(result); // [0,1,2,3,4,5,5,6,7,8,9]
Example with one argument, asynchronous function is executed until it returns false
.
let i = 0
let result = [];
await promiseMtd.while_(async function () {
await promiseMtd.timeout(i*1000); // inbuilt promifisified version for setTimeout
result.push(i++);
return i < 10;
});
console.log(result); // [0,1,2,3,4,5,5,6,7,8,9]
Protection from forever cycle with the help of set limit
. This code will throw error after 100 iterations.
await promiseMtd.while_(() => true, async function () {
await promiseMtd.timeout(i*1000); // inbuilt promifisified version for setTimeout
}, { limit: 100 }); // protection from forever cycle
all
all(data: Array | Object<{ key: Promise }>): Array<any> | Object<{ key: any }>
Method all
allows to run concurrently promises similarly to method Promise.all
, but supports receipt of parameter such as object { k1: Promise, k2: Promise }
not only as array.
const t1 = promiseMtd.timeout(2000).then(() => 2000);
const t2 = promiseMtd.timeout(1000).then(() => 1000);
// { t1: 2000, t2: 1000 }
console.log(await promiseMtd.all({ t1, t2 }));
// as Promise.all
// [ 2000, 1000 ]
console.log(await promiseMtd.all([ t1, t2 ]));
retry
retry(fn: Function, { attempt: number, delay?: { ms: number }, ifError: Error }): Function
This method allows to create wrapper for asynchronous function which repeats calling if the function returns an error.
-
attempt
is parameter which sets number of attempts for executing. -
delay.ms
is parameter which sets number of milliseconds for delaying between attempts. -
ifError
is parameter which sets class of errors because of which function must be called repeatedly. In other words, if your function throw error which is not instance ofifError
then it will throw error immediately.
function req() {
return axios.get('http://example.com/inreliable-path');
}
const request = promiseMtd.retry(req, { attempt: 3 });
// throw error after 3 attempts
await request();
This code throws error after 3 attempts and makes 300 ms delay before every attempt.
const request = promiseMtd.retry(req, { attempt: 3, delay: { ms: 300 } });
await request();
This code makes retry if error type instance of RateLimitError
otherwise throws error immediately.
class RateLimitError extends Error {}
function req() {
return axios.get('http://example.com/auth').then(result => {
if (result === 'rate-limit') {
throw new RateLimitError();
}
}).then(() => axios.get('http://example.com/inreliable-path'));
}
const request = promiseMtd.retry(req, { attempt: 3, delay: { ms: 300 }, ifError: RateLimitError });
await request();
timeout
timeout(ms: number)
It's promifisified version for setTimeout
.
await promiseMtd.timeout(2000);
Tests
npm test