Promises are a tactic for deferred computing, suitable for several styles of concurrency: thread and event loop concurrency for local computation, and both synchronous and asynchronous remote messaging. A promise represents the eventual result of an asynchronous operation. The primary way of working with promises is through a method which registers callbacks to receive the promise's eventual value or the reason why the promise cannot be fulfilled.
In computer science, future, promise, and delay refer to constructs used for synchronizing in some concurrent programming languages. They describe an object that acts as a proxy for a result that is initially unknown, usually because the computation of its value is yet incomplete.
- How do I convert an existing callback API to promises?
- Aren't promises just callbacks?
- Promises in AngularJS and where to use them?
- How is a Promise library implemented?
- How do clojure promises and futures differ?
- Why are callbacks more 'tightly coupled' than promises?
- Wikipedia: Futures and promises
- You're missing the point of promises - an introduction to promises.
- What are promises and why should I use them discusses the advantages of promises.
- Why I am switching to promises - analysis of performance of promises and other patterns.
- The promise Promises/A+ specification.
- What is the deferred antipattern? - a verbose, error prone, but all too common way to use promises
- Bluebird - Bluebird is a full featured promise library with unmatched performance.
- Promise - A promise library that closely follows the ES6 spec with a few extensions for node.js
- When - A solid, fast Promises/A+ and when() implementation, plus other async goodies.
- RSVP - A lightweight library that provides tools for organizing asynchronous code
- Promises in npm