Security News
RubyGems.org Adds New Maintainer Role
RubyGems.org has added a new "maintainer" role that allows for publishing new versions of gems. This new permission type is aimed at improving security for gem owners and the service overall.
The 'rsvp' npm package is a lightweight library for handling asynchronous operations in JavaScript. It provides a set of tools for working with Promises, which are a way to handle asynchronous operations more gracefully than traditional callback-based approaches.
Creating Promises
This feature allows you to create a new Promise. The Promise constructor takes a function with two arguments: resolve and reject. You can perform asynchronous operations inside this function and call resolve when the operation is successful or reject if it fails.
const RSVP = require('rsvp');
let promise = new RSVP.Promise(function(resolve, reject) {
// Asynchronous operation
setTimeout(function() {
resolve('Success!');
}, 1000);
});
promise.then(function(value) {
console.log(value); // 'Success!'
});
Chaining Promises
This feature allows you to chain multiple Promises together. Each .then() method returns a new Promise, which can be used to perform further asynchronous operations.
const RSVP = require('rsvp');
let promise = new RSVP.Promise(function(resolve, reject) {
setTimeout(function() {
resolve(1);
}, 1000);
});
promise.then(function(value) {
return value * 2;
}).then(function(value) {
console.log(value); // 2
});
Handling Multiple Promises
This feature allows you to handle multiple Promises concurrently. The RSVP.all() method takes an array of Promises and returns a new Promise that resolves when all of the input Promises have resolved.
const RSVP = require('rsvp');
let promise1 = new RSVP.Promise(function(resolve, reject) {
setTimeout(function() {
resolve('First');
}, 1000);
});
let promise2 = new RSVP.Promise(function(resolve, reject) {
setTimeout(function() {
resolve('Second');
}, 2000);
});
RSVP.all([promise1, promise2]).then(function(values) {
console.log(values); // ['First', 'Second']
});
Handling Promise Rejection
This feature allows you to handle errors in Promises. The .catch() method is used to specify a callback function that will be called if the Promise is rejected.
const RSVP = require('rsvp');
let promise = new RSVP.Promise(function(resolve, reject) {
setTimeout(function() {
reject('Error!');
}, 1000);
});
promise.then(function(value) {
console.log(value);
}).catch(function(error) {
console.error(error); // 'Error!'
});
Bluebird is a fully-featured Promise library for JavaScript. It offers a wide range of features including Promise cancellation, iteration methods, and more. Compared to RSVP, Bluebird is more feature-rich and has better performance in some cases.
Q is another popular Promise library that provides a way to manage asynchronous operations. It offers features like deferred objects and a variety of utility methods for working with Promises. Q is similar to RSVP but has a different API and additional features.
When is a lightweight Promise library that focuses on performance and small size. It provides a set of tools for working with Promises and asynchronous operations. When is similar to RSVP but is designed to be more lightweight and performant.
RSVP.js provides simple tools for organizing asynchronous code.
Specifically, it is a tiny implementation of Promises/A+.
It works in node and the browser (IE9+, all the popular evergreen ones).
<script src="https://cdn.jsdelivr.net/npm/rsvp@4/dist/rsvp.min.js"></script>
Although RSVP is ES6 compliant, it does bring along some extra toys. If you would prefer a strict ES6 subset, I would suggest checking out our sibling project https://github.com/stefanpenner/es6-promise, It is RSVP but stripped down to the ES6 spec features.
yarn add --save rsvp
# or ...
npm install --save rsvp
RSVP.Promise
is an implementation of
Promises/A+ that passes the
test suite.
It delivers all promises asynchronously, even if the value is already available, to help you write consistent code that doesn't change if the underlying data provider changes from synchronous to asynchronous.
It is compatible with TaskJS, a library by Dave Herman of Mozilla that uses ES6 generators to allow you to write synchronous code with promises. It currently works in Firefox, and will work in any browser that adds support for ES6 generators. See the section below on TaskJS for more information.
var RSVP = require('rsvp');
var promise = new RSVP.Promise(function(resolve, reject) {
// succeed
resolve(value);
// or reject
reject(error);
});
promise.then(function(value) {
// success
}).catch(function(error) {
// failure
});
Once a promise has been resolved or rejected, it cannot be resolved or rejected again.
Here is an example of a simple XHR2 wrapper written using RSVP.js:
var getJSON = function(url) {
var promise = new RSVP.Promise(function(resolve, reject){
var client = new XMLHttpRequest();
client.open("GET", url);
client.onreadystatechange = handler;
client.responseType = "json";
client.setRequestHeader("Accept", "application/json");
client.send();
function handler() {
if (this.readyState === this.DONE) {
if (this.status === 200) { resolve(this.response); }
else { reject(this); }
}
};
});
return promise;
};
getJSON("/posts.json").then(function(json) {
// continue
}).catch(function(error) {
// handle errors
});
One of the really awesome features of Promises/A+ promises are that they can be chained together. In other words, the return value of the first resolve handler will be passed to the second resolve handler.
If you return a regular value, it will be passed, as is, to the next handler.
getJSON("/posts.json").then(function(json) {
return json.post;
}).then(function(post) {
// proceed
});
The really awesome part comes when you return a promise from the first handler:
getJSON("/post/1.json").then(function(post) {
// save off post
return getJSON(post.commentURL);
}).then(function(comments) {
// proceed with access to post and comments
});
This allows you to flatten out nested callbacks, and is the main feature of promises that prevents "rightward drift" in programs with a lot of asynchronous code.
Errors also propagate:
getJSON("/posts.json").then(function(posts) {
}).catch(function(error) {
// since no rejection handler was passed to the
// first `.then`, the error propagates.
});
You can use this to emulate try/catch
logic in synchronous code. Simply chain
as many resolve callbacks as you want, and add a failure handler at the end to
catch errors.
getJSON("/post/1.json").then(function(post) {
return getJSON(post.commentURL);
}).then(function(comments) {
// proceed with access to posts and comments
}).catch(function(error) {
// handle errors in either of the two requests
});
There are times when dealing with promises that it seems like any errors are
being 'swallowed', and not properly raised. This makes it extremely difficult
to track down where a given issue is coming from. Thankfully, RSVP
has a
solution for this problem built in.
You can register functions to be called when an uncaught error occurs within
your promises. These callback functions can be anything, but a common practice
is to call console.assert
to dump the error to the console.
RSVP.on('error', function(reason) {
console.assert(false, reason);
});
RSVP
allows Promises to be labeled: Promise.resolve(value, 'I AM A LABEL')
If provided, this label is passed as the second argument to RSVP.on('error')
RSVP.on('error', function(reason, label) {
if (label) {
console.error(label);
}
console.assert(false, reason);
});
NOTE: promises do allow for errors to be handled asynchronously, so this callback may result in false positives.
finally
will be invoked regardless of the promise's fate, just as native
try/catch/finally behaves.
findAuthor().catch(function(reason){
return findOtherAuthor();
}).finally(function(){
// author was either found, or not
});
Sometimes you might want to work with many promises at once. If you pass an
array of promises to the all()
method it will return a new promise that will
be fulfilled when all of the promises in the array have been fulfilled; or
rejected immediately if any promise in the array is rejected.
var promises = [2, 3, 5, 7, 11, 13].map(function(id){
return getJSON("/post/" + id + ".json");
});
RSVP.all(promises).then(function(posts) {
// posts contains an array of results for the given promises
}).catch(function(reason){
// if any of the promises fails.
});
If you need to reference many promises at once (like all()
), but would like
to avoid encoding the actual promise order you can use hash()
. If you pass an
object literal (where the values are promises) to the hash()
method it will
return a new promise that will be fulfilled when all of the promises have been
fulfilled; or rejected immediately if any promise is rejected.
The key difference to the all()
function is that both the fulfillment value
and the argument to the hash()
function are object literals. This allows you
to simply reference the results directly off the returned object without having
to remember the initial order like you would with all()
.
var promises = {
posts: getJSON("/posts.json"),
users: getJSON("/users.json")
};
RSVP.hash(promises).then(function(results) {
console.log(results.users) // print the users.json results
console.log(results.posts) // print the posts.json results
});
Sometimes you want to work with several promises at once, but instead of
rejecting immediately if any promise is rejected, as with all()
or hash()
,
you want to be able to inspect the results of all your promises, whether they
fulfill or reject. For this purpose, you can use allSettled()
and
hashSettled()
. These work exactly like all()
and hash()
, except that they
fulfill with an array or hash (respectively) of the constituent promises'
result states. Each state object will either indicate fulfillment or rejection,
and provide the corresponding value or reason. The states will take
one of the following formats:
{ state: 'fulfilled', value: value }
or
{ state: 'rejected', reason: reason }
The
RSVP.Promise
constructor is generally a better, less error-prone choice thanRSVP.defer()
. Promises are recommended unless the specific properties of deferred are needed.
Sometimes one needs to create a deferred object, without immediately specifying
how it will be resolved. These deferred objects are essentially a wrapper
around a promise, whilst providing late access to the resolve()
and
reject()
methods.
A deferred object has this form: { promise, resolve(x), reject(r) }
.
var deferred = RSVP.defer();
// ...
deferred.promise // access the promise
// ...
deferred.resolve();
The TaskJS library makes it possible to take promises-oriented code and make it synchronous using ES6 generators.
Let's review an earlier example:
getJSON("/post/1.json").then(function(post) {
return getJSON(post.commentURL);
}).then(function(comments) {
// proceed with access to posts and comments
}).catch(function(reason) {
// handle errors in either of the two requests
});
Without any changes to the implementation of getJSON
, you could write
the following code with TaskJS:
spawn(function *() {
try {
var post = yield getJSON("/post/1.json");
var comments = yield getJSON(post.commentURL);
} catch(error) {
// handle errors
}
});
In the above example, function *
is new syntax in ES6 for
generators. Inside
a generator, yield
pauses the generator, returning control to the function
that invoked the generator. In this case, the invoker is a special function
that understands the semantics of Promises/A, and will automatically resume the
generator as soon as the promise is resolved.
The cool thing here is the same promises that work with current
JavaScript using .then
will work seamlessly with TaskJS once a browser
has implemented it!
function listener (event) {
event.guid // guid of promise. Must be globally unique, not just within the implementation
event.childGuid // child of child promise (for chained via `then`)
event.eventName // one of ['created', 'chained', 'fulfilled', 'rejected']
event.detail // fulfillment value or rejection reason, if applicable
event.label // label passed to promise's constructor
event.timeStamp // milliseconds elapsed since 1 January 1970 00:00:00 UTC up until now
event.stack // stack at the time of the event. (if 'instrument-with-stack' is true)
}
RSVP.configure('instrument', true | false);
// capturing the stacks is slow, so you also have to opt in
RSVP.configure('instrument-with-stack', true | false);
// events
RSVP.on('created', listener);
RSVP.on('chained', listener);
RSVP.on('fulfilled', listener);
RSVP.on('rejected', listener);
Events are only triggered when RSVP.configure('instrument')
is true, although
listeners can be registered at any time.
Custom tasks:
npm test
- build & testnpm test:node
- build & test just nodenpm test:server
- build/watch & testnpm run build
- Buildnpm run build:production
- Build production (with minified output)npm start
- build, watch and run interactive server at http://localhost:4200'Check what release-it will do by running npm run-script dry-run-release
.
To actually release, run node_modules/.bin/release-it
.
4.8.5
FAQs
A lightweight library that provides tools for organizing asynchronous code
The npm package rsvp receives a total of 3,358,937 weekly downloads. As such, rsvp popularity was classified as popular.
We found that rsvp demonstrated a not healthy version release cadence and project activity because the last version was released a year ago. It has 6 open source maintainers collaborating on the project.
Did you know?
Socket for GitHub automatically highlights issues in each pull request and monitors the health of all your open source dependencies. Discover the contents of your packages and block harmful activity before you install or update your dependencies.
Security News
RubyGems.org has added a new "maintainer" role that allows for publishing new versions of gems. This new permission type is aimed at improving security for gem owners and the service overall.
Security News
Node.js will be enforcing stricter semver-major PR policies a month before major releases to enhance stability and ensure reliable release candidates.
Security News
Research
Socket's threat research team has detected five malicious npm packages targeting Roblox developers, deploying malware to steal credentials and personal data.