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promise-toolbox
Advanced tools
Essential utils for promises.
Features:
Table of contents:
Installation of the npm package:
> npm install --save promise-toolbox
You can directly use the build provided at unpkg.com:
<script src="https://unpkg.com/promise-toolbox@0.8/dist/umd.js"></script>
If your environment may not natively support promises, you should use a polyfill such as native-promise-only.
On Node, if you want to use a specific promise implementation, Bluebird for instance to have better performance, you can override the global Promise variable:
global.Promise = require('bluebird')
Note that it should only be done at the application level, never in a library!
You can either import all the tools directly:
import * as PT from 'promise-toolbox'
console.log(PT.isPromise(value))
Or import individual tools from the main module:
import { isPromise } from 'promise-toolbox'
console.log(isPromise(value))
Each tool is also exported with a p
prefix to work around reserved keywords
and to help differentiate with other tools (like lodash.map
):
import { pCatch, pMap } from 'promise-toolbox'
If you are bundling your application (Browserify, Rollup, Webpack, etc.), you can cherry-pick the tools directly:
import isPromise from 'promise-toolbox/isPromise'
import pCatch from 'promise-toolbox/catch'
This library provides an implementation of CancelToken
from the
cancelable promises specification.
A cancel token is an object which can be passed to asynchronous functions to represent cancelation state.
import { CancelToken } from 'promise-toolbox'
A cancel token is created by the initiator of the async work and its cancelation state may be requested at any time.
// Create a token which requests cancelation when a button is clicked.
const token = new CancelToken(cancel => {
$('#some-button').on('click', () => cancel('button clicked'))
})
const { cancel, token } = CancelToken.source()
A list of existing tokens can be passed to source()
to make the created token
follow their cancelation:
// `source.token` will be canceled (synchronously) as soon as `token1` or
// `token2` or token3` is, with the same reason.
const { cancel, token } = CancelToken.source([token1, token2, token3])
The receiver of the token (the function doing the async work) can:
// 1.
if (token.reason) {
console.log('cancelation has been requested', token.reason.message)
}
// 2.
try {
token.throwIfRequested()
} catch (reason) {
console.log('cancelation has been requested', reason.message)
}
// 3.
token.promise.then(reason => {
console.log('cancelation has been requested', reason.message)
})
// 4.
subtask(token)
Asynchronous handlers are executed on token cancelation and the promise returned by the
cancel
function will wait for all handlers to settle.
function httpRequest (cancelToken, opts) {
const req = http.request(opts)
req.end()
cancelToken.addHandler(() => {
req.abort()
// waits for the socket to really close for the cancelation to be
// complete
return fromEvent(req, 'close')
})
return fromEvent(req, 'response')
}
const { cancel, token } = CancelToken.source()
httpRequest(token, {
hostname: 'example.org',
}).then(response => {
// do something with the response of the request
})
// wraps with Promise.resolve() because cancel only returns a promise
// if a handler has returned a promise
Promise.resolve(cancel()).then(() => {
// the request has been properly canceled
})
if (CancelToken.isCancelToken(value)) {
console.log('value is a cancel token')
}
Make your async functions cancelable.
If the first argument passed to the cancelable function is not a
cancel token, a new one is created and injected and the returned
promise will have a cancel()
method.
import { cancelable, CancelToken } from 'promise-toolbox'
const asyncFunction = cancelable(async ($cancelToken, a, b) => {
$cancelToken.promise.then(() => {
// do stuff regarding the cancelation request.
})
// do other stuff.
})
// Either a cancel token is passed:
const source = CancelToken.source()
const promise1 = asyncFunction(source.token, 'foo', 'bar')
source.cancel('reason')
// Or the returned promise will have a cancel() method:
const promise2 = asyncFunction('foo', 'bar')
promise2.cancel('reason')
If the function is a method of a class or an object, you can use
cancelable
as a decorator:
class MyClass {
@cancelable
async asyncMethod ($cancelToken, a, b) {
// ...
}
}
See Bluebird documentation for a good explanation.
import { disposer, using } from 'promise-toolbox'
const getConnection = () =>
// disposer() is used to associate a disposer to a resource
//
// The returned resource can only be used with using()
db.connect()::disposer(connection =>
connection.close()
)
using(getConnection(), getConnection(), (connection1, connection2) => {
// So something with connection1 and connection2
})).then(() => {
// Both connections are now closed
})
Create an async function from a generator function
Similar to
Bluebird.coroutine
.
import { asyncFn } from 'promise-toolbox'
const getUserName = asyncFn(function * (db, userId)) {
const user = yield db.getRecord(userId)
return user.name
})
Like
asyncFn(generator)
but the created async function supports cancelation.Similar to CAF.
import { asyncFn, CancelToken } from 'promise-toolbox'
const getUserName = asyncFn.cancelable(function * (cancelToken, db, userId)) {
// this yield will throw if the cancelToken is activated
const user = yield db.getRecord(userId)
return user.name
})
const source = CancelToken.source()
getUserName(source.token, db, userId).then(
name => {
console.log('user name is', name)
},
error => {
console.error(error)
}
)
// only wait 5 seconds to fetch the user from the database
setTimeout(source.cancel, 5e3)
Discouraged but sometimes necessary way to create a promise.
import { defer } from 'promise-toolbox'
const { promise, resolve } = defer()
promise.then(value => {
console.log(value)
})
resolve(3)
Easiest and most efficient way to promisify a function call.
import { fromCallback } from 'promise-toolbox'
fromCallback(cb => fs.readFile('foo.txt', cb)).then(content => {
console.log(content)
})
Wait for one event. The first parameter of the emitted event is used to resolve/reject the promise.
const promise = fromEvent(emitter, 'foo', {
// whether the promise resolves to an array of all the event args
// instead of simply the first arg
array: false,
// whether the error event can reject the promise
ignoreErrors: false,
// name of the error event
error: 'error',
})
promise.then(
value => {
console.log('foo event was emitted with value', value)
},
reason => {
console.error('an error has been emitted', reason)
}
)
Wait for one of multiple events. The array of all the parameters of the emitted event is used to resolve/reject the promise.
The array also has an
event
property indicating which event has been emitted.
fromEvents(emitter, ['foo', 'bar'], ['error1', 'error2']).then(
values => {
console.log('event %s have been emitted with values', values.event, values)
},
reasons => {
console.error(
'error event %s has been emitted with errors',
reasons.event,
reasons
)
}
)
import { isPromise } from 'promise-toolbox'
if (isPromise(foo())) {
console.log('foo() returns a promise')
}
Creates async functions taking node-style callbacks, create new ones returning promises.
import fs from 'fs'
import { promisify, promisifyAll } from 'promise-toolbox'
// Promisify a single function.
//
// If possible, the function name is kept and the new length is set.
const readFile = promisify(fs.readFile)
// Or all functions (own or inherited) exposed on a object.
const fsPromise = promisifyAll(fs)
readFile(__filename).then(content => console.log(content))
fsPromise.readFile(__filename).then(content => console.log(content))
Starts a chain of promises.
import PromiseToolbox from 'promise-toolbox'
const getUserById = id =>
PromiseToolbox.try(() => {
if (typeof id !== 'number') {
throw new Error('id must be a number')
}
return db.getUserById(id)
})
Note: similar to
Promise.resolve().then(fn)
but callsfn()
synchronously.
Wrap a call to a function to always return a promise.
function getUserById (id) {
if (typeof id !== 'number') {
throw new TypeError('id must be a number')
}
return db.getUser(id)
}
wrapCall(getUserById, 'foo').catch(error => {
// id must be a number
})
This function can be used as if they were methods, i.e. by passing the promise (or promises) as the context.
This is extremely easy using ES2016's bind syntax.
const promises = [Promise.resolve('foo'), Promise.resolve('bar')]
promises::all().then(values => {
console.log(values)
})
// → [ 'foo', 'bar' ]
If you are still an older version of ECMAScript, fear not: simply pass
the promise (or promises) as the first argument of the .call()
method:
const promises = [Promise.resolve('foo'), Promise.resolve('bar')]
all.call(promises).then(function(values) {
console.log(values)
})
// → [ 'foo', 'bar' ]
Waits for all promises of a collection to be resolved.
Contrary to the standard
Promise.all()
, this function works also with objects.
import { all } from 'promise-toolbox'
[
Promise.resolve('foo'),
Promise.resolve('bar')
]::all().then(value => {
console.log(value)
// → ['foo', 'bar']
})
{
foo: Promise.resolve('foo'),
bar: Promise.resolve('bar')
}::all().then(value => {
console.log(value)
// → {
// foo: 'foo',
// bar: 'bar'
// }
})
Register a node-style callback on this promise.
import { asCallback } from 'promise-toolbox'
// This function can be used either with node-style callbacks or with
// promises.
function getDataFor (input, callback) {
return dataFromDataBase(input)::asCallback(callback)
}
Similar to
Promise#catch()
but:
- support predicates
- do not catch
ReferenceError
,SyntaxError
orTypeError
unless they match a predicate because they are usually programmer errors and should be handled separately.
somePromise
.then(() => {
return a.b.c.d()
})
::pCatch(TypeError, ReferenceError, reason => {
// Will end up here on programmer error
})
::pCatch(NetworkError, TimeoutError, reason => {
// Will end up here on expected everyday network errors
})
::pCatch(reason => {
// Catch any unexpected errors
})
Delays the resolution of a promise by
ms
milliseconds.Note: the rejection is not delayed.
console.log(await Promise.resolve('500ms passed')::delay(500))
// → 500 ms passed
Also works with a value:
console.log(await delay(500, '500ms passed'))
// → 500 ms passed
Iterates in order over a collection, or promise of collection, which contains a mix of promises and values, waiting for each call of cb to be resolved before the next one.
The returned promise will resolve to undefined
when the iteration is
complete.
['foo', Promise.resolve('bar')]::forEach(value => {
console.log(value)
// Wait for the promise to be resolve before the next item.
return new Promise(resolve => setTimeout(resolve, 10))
})
// →
// foo
// bar
Ignore (operational) errors for this promise.
import { ignoreErrors } from 'promise-toolbox'
// will not emit an unhandled rejection error if the file does not
// exist
readFileAsync('foo.txt')
.then(content => {
console.log(content)
})
::ignoreErrors()
// will emit an unhandled rejection error due to the typo
readFileAsync('foo.txt')
.then(content => {
console.lgo(content) // typo
})
::ignoreErrors()
Execute a handler regardless of the promise fate. Similar to the
finally
block in synchronous codes.The resolution value or rejection reason of the initial promise is forwarded unless the callback rejects.
import { pFinally } from 'promise-toolbox'
function ajaxGetAsync (url) {
return new Promise((resolve, reject) => {
const xhr = new XMLHttpRequest()
xhr.addEventListener('error', reject)
xhr.addEventListener('load', resolve)
xhr.open('GET', url)
xhr.send(null)
})::pFinally(() => {
$('#ajax-loader-animation').hide()
})
}
Returns a promise which resolves to an objects which reflects the resolution of this promise.
import { reflect } from 'promise-toolbox'
const inspection = await promise::reflect()
if (inspection.isFulfilled()) {
console.log(inspection.value())
} else {
console.error(inspection.reason())
}
Waits for
count
promises in a collection to be resolved.
import { some } from 'promise-toolbox'
const [first, seconds] = await [
ping('ns1.example.org'),
ping('ns2.example.org'),
ping('ns3.example.org'),
ping('ns4.example.org'),
]::some(2)
Suppress unhandled rejections, needed when error handlers are attached asynchronously after the promise has rejected.
Similar to
Bluebird#suppressUnhandledRejections()
.
const promise = getUser()::suppressUnhandledRejections()
$(document).on('ready', () => {
promise.catch(error => {
console.error('error while getting user', error)
})
})
Like
.then()
but the original resolution/rejection is forwarded.Like
::finally()
, if the callback rejects, it takes over the original resolution/rejection.
import { tap } from 'promise-toolbox'
// Contrary to .then(), using ::tap() does not change the resolution
// value.
const promise1 = Promise.resolve(42)::tap(value => {
console.log(value)
})
// Like .then, the second param is used in case of rejection.
const promise2 = Promise.reject(42)::tap(null, reason => {
console.error(reason)
})
Alias to
promise:tap(null, onRejected)
.
Call a callback if the promise is still pending after
ms
milliseconds. Its resolution/rejection is forwarded.If the callback is omitted, the returned promise is rejected with a
Timeout
error.
import { timeout } from 'promise-toolbox'
await doLongOperation()::timeout(100, () => {
return doFallbackOperation()
})
await doLongOperation()::timeout(100)
await doLongOperation()::timeout(
100,
new Error('the long operation has failed')
)
# Install dependencies
> npm install
# Run the tests
> npm test
# Continuously compile
> npm run dev
# Continuously run the tests
> npm run dev-test
# Build for production
> npm run build
Contributions are very welcomed, either on the documentation or on the code.
You may:
ISC © Julien Fontanet
FAQs
Essential utils for promises
The npm package promise-toolbox receives a total of 31,380 weekly downloads. As such, promise-toolbox popularity was classified as popular.
We found that promise-toolbox demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 3 open source maintainers collaborating on the project.
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