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874 lines
25 KiB
[![Build Status](https://secure.travis-ci.org/kriskowal/q.svg?branch=master)](http://travis-ci.org/kriskowal/q) |
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[![CDNJS](https://img.shields.io/cdnjs/v/q.js.svg)](https://cdnjs.com/libraries/q.js) |
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<a href="http://promises-aplus.github.com/promises-spec"> |
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<img src="http://kriskowal.github.io/q/q.png" align="right" alt="Q logo" /> |
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</a> |
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If a function cannot return a value or throw an exception without |
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blocking, it can return a promise instead. A promise is an object |
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that represents the return value or the thrown exception that the |
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function may eventually provide. A promise can also be used as a |
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proxy for a [remote object][Q-Connection] to overcome latency. |
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[Q-Connection]: https://github.com/kriskowal/q-connection |
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On the first pass, promises can mitigate the “[Pyramid of |
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Doom][POD]”: the situation where code marches to the right faster |
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than it marches forward. |
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[POD]: http://calculist.org/blog/2011/12/14/why-coroutines-wont-work-on-the-web/ |
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```javascript |
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step1(function (value1) { |
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step2(value1, function(value2) { |
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step3(value2, function(value3) { |
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step4(value3, function(value4) { |
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// Do something with value4 |
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}); |
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}); |
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}); |
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}); |
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``` |
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With a promise library, you can flatten the pyramid. |
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```javascript |
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Q.fcall(promisedStep1) |
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.then(promisedStep2) |
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.then(promisedStep3) |
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.then(promisedStep4) |
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.then(function (value4) { |
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// Do something with value4 |
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}) |
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.catch(function (error) { |
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// Handle any error from all above steps |
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}) |
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.done(); |
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``` |
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With this approach, you also get implicit error propagation, just like `try`, |
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`catch`, and `finally`. An error in `promisedStep1` will flow all the way to |
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the `catch` function, where it’s caught and handled. (Here `promisedStepN` is |
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a version of `stepN` that returns a promise.) |
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The callback approach is called an “inversion of control”. |
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A function that accepts a callback instead of a return value |
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is saying, “Don’t call me, I’ll call you.”. Promises |
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[un-invert][IOC] the inversion, cleanly separating the input |
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arguments from control flow arguments. This simplifies the |
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use and creation of API’s, particularly variadic, |
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rest and spread arguments. |
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[IOC]: http://www.slideshare.net/domenicdenicola/callbacks-promises-and-coroutines-oh-my-the-evolution-of-asynchronicity-in-javascript |
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## Getting Started |
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The Q module can be loaded as: |
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- A ``<script>`` tag (creating a ``Q`` global variable): ~2.5 KB minified and |
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gzipped. |
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- A Node.js and CommonJS module, available in [npm](https://npmjs.org/) as |
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the [q](https://npmjs.org/package/q) package |
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- An AMD module |
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- A [component](https://github.com/component/component) as ``microjs/q`` |
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- Using [bower](http://bower.io/) as `q#^1.4.1` |
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- Using [NuGet](http://nuget.org/) as [Q](https://nuget.org/packages/q) |
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Q can exchange promises with jQuery, Dojo, When.js, WinJS, and more. |
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## Resources |
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Our [wiki][] contains a number of useful resources, including: |
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- A method-by-method [Q API reference][reference]. |
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- A growing [examples gallery][examples], showing how Q can be used to make |
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everything better. From XHR to database access to accessing the Flickr API, |
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Q is there for you. |
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- There are many libraries that produce and consume Q promises for everything |
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from file system/database access or RPC to templating. For a list of some of |
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the more popular ones, see [Libraries][]. |
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- If you want materials that introduce the promise concept generally, and the |
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below tutorial isn't doing it for you, check out our collection of |
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[presentations, blog posts, and podcasts][resources]. |
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- A guide for those [coming from jQuery's `$.Deferred`][jquery]. |
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We'd also love to have you join the Q-Continuum [mailing list][]. |
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[wiki]: https://github.com/kriskowal/q/wiki |
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[reference]: https://github.com/kriskowal/q/wiki/API-Reference |
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[examples]: https://github.com/kriskowal/q/wiki/Examples-Gallery |
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[Libraries]: https://github.com/kriskowal/q/wiki/Libraries |
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[resources]: https://github.com/kriskowal/q/wiki/General-Promise-Resources |
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[jquery]: https://github.com/kriskowal/q/wiki/Coming-from-jQuery |
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[mailing list]: https://groups.google.com/forum/#!forum/q-continuum |
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## Tutorial |
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Promises have a ``then`` method, which you can use to get the eventual |
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return value (fulfillment) or thrown exception (rejection). |
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```javascript |
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promiseMeSomething() |
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.then(function (value) { |
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}, function (reason) { |
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}); |
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``` |
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If ``promiseMeSomething`` returns a promise that gets fulfilled later |
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with a return value, the first function (the fulfillment handler) will be |
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called with the value. However, if the ``promiseMeSomething`` function |
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gets rejected later by a thrown exception, the second function (the |
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rejection handler) will be called with the exception. |
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Note that resolution of a promise is always asynchronous: that is, the |
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fulfillment or rejection handler will always be called in the next turn of the |
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event loop (i.e. `process.nextTick` in Node). This gives you a nice |
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guarantee when mentally tracing the flow of your code, namely that |
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``then`` will always return before either handler is executed. |
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In this tutorial, we begin with how to consume and work with promises. We'll |
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talk about how to create them, and thus create functions like |
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`promiseMeSomething` that return promises, [below](#the-beginning). |
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### Propagation |
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The ``then`` method returns a promise, which in this example, I’m |
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assigning to ``outputPromise``. |
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```javascript |
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var outputPromise = getInputPromise() |
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.then(function (input) { |
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}, function (reason) { |
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}); |
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``` |
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The ``outputPromise`` variable becomes a new promise for the return |
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value of either handler. Since a function can only either return a |
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value or throw an exception, only one handler will ever be called and it |
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will be responsible for resolving ``outputPromise``. |
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- If you return a value in a handler, ``outputPromise`` will get |
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fulfilled. |
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- If you throw an exception in a handler, ``outputPromise`` will get |
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rejected. |
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- If you return a **promise** in a handler, ``outputPromise`` will |
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“become” that promise. Being able to become a new promise is useful |
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for managing delays, combining results, or recovering from errors. |
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If the ``getInputPromise()`` promise gets rejected and you omit the |
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rejection handler, the **error** will go to ``outputPromise``: |
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```javascript |
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var outputPromise = getInputPromise() |
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.then(function (value) { |
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}); |
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``` |
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If the input promise gets fulfilled and you omit the fulfillment handler, the |
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**value** will go to ``outputPromise``: |
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```javascript |
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var outputPromise = getInputPromise() |
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.then(null, function (error) { |
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}); |
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``` |
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Q promises provide a ``fail`` shorthand for ``then`` when you are only |
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interested in handling the error: |
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```javascript |
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var outputPromise = getInputPromise() |
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.fail(function (error) { |
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}); |
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``` |
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If you are writing JavaScript for modern engines only or using |
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CoffeeScript, you may use `catch` instead of `fail`. |
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Promises also have a ``fin`` function that is like a ``finally`` clause. |
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The final handler gets called, with no arguments, when the promise |
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returned by ``getInputPromise()`` either returns a value or throws an |
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error. The value returned or error thrown by ``getInputPromise()`` |
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passes directly to ``outputPromise`` unless the final handler fails, and |
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may be delayed if the final handler returns a promise. |
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```javascript |
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var outputPromise = getInputPromise() |
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.fin(function () { |
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// close files, database connections, stop servers, conclude tests |
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}); |
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``` |
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- If the handler returns a value, the value is ignored |
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- If the handler throws an error, the error passes to ``outputPromise`` |
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- If the handler returns a promise, ``outputPromise`` gets postponed. The |
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eventual value or error has the same effect as an immediate return |
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value or thrown error: a value would be ignored, an error would be |
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forwarded. |
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If you are writing JavaScript for modern engines only or using |
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CoffeeScript, you may use `finally` instead of `fin`. |
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### Chaining |
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There are two ways to chain promises. You can chain promises either |
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inside or outside handlers. The next two examples are equivalent. |
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```javascript |
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return getUsername() |
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.then(function (username) { |
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return getUser(username) |
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.then(function (user) { |
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// if we get here without an error, |
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// the value returned here |
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// or the exception thrown here |
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// resolves the promise returned |
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// by the first line |
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}) |
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}); |
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``` |
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```javascript |
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return getUsername() |
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.then(function (username) { |
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return getUser(username); |
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}) |
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.then(function (user) { |
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// if we get here without an error, |
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// the value returned here |
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// or the exception thrown here |
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// resolves the promise returned |
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// by the first line |
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}); |
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``` |
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The only difference is nesting. It’s useful to nest handlers if you |
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need to capture multiple input values in your closure. |
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```javascript |
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function authenticate() { |
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return getUsername() |
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.then(function (username) { |
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return getUser(username); |
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}) |
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// chained because we will not need the user name in the next event |
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.then(function (user) { |
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return getPassword() |
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// nested because we need both user and password next |
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.then(function (password) { |
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if (user.passwordHash !== hash(password)) { |
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throw new Error("Can't authenticate"); |
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} |
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}); |
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}); |
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} |
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``` |
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### Combination |
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You can turn an array of promises into a promise for the whole, |
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fulfilled array using ``all``. |
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```javascript |
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return Q.all([ |
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eventualAdd(2, 2), |
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eventualAdd(10, 20) |
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]); |
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``` |
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If you have a promise for an array, you can use ``spread`` as a |
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replacement for ``then``. The ``spread`` function “spreads” the |
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values over the arguments of the fulfillment handler. The rejection handler |
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will get called at the first sign of failure. That is, whichever of |
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the received promises fails first gets handled by the rejection handler. |
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```javascript |
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function eventualAdd(a, b) { |
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return Q.spread([a, b], function (a, b) { |
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return a + b; |
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}) |
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} |
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``` |
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But ``spread`` calls ``all`` initially, so you can skip it in chains. |
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```javascript |
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return getUsername() |
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.then(function (username) { |
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return [username, getUser(username)]; |
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}) |
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.spread(function (username, user) { |
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}); |
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``` |
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The ``all`` function returns a promise for an array of values. When this |
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promise is fulfilled, the array contains the fulfillment values of the original |
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promises, in the same order as those promises. If one of the given promises |
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is rejected, the returned promise is immediately rejected, not waiting for the |
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rest of the batch. If you want to wait for all of the promises to either be |
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fulfilled or rejected, you can use ``allSettled``. |
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```javascript |
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Q.allSettled(promises) |
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.then(function (results) { |
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results.forEach(function (result) { |
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if (result.state === "fulfilled") { |
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var value = result.value; |
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} else { |
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var reason = result.reason; |
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} |
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}); |
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}); |
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``` |
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The ``any`` function accepts an array of promises and returns a promise that is |
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fulfilled by the first given promise to be fulfilled, or rejected if all of the |
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given promises are rejected. |
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```javascript |
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Q.any(promises) |
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.then(function (first) { |
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// Any of the promises was fulfilled. |
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}, function (error) { |
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// All of the promises were rejected. |
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}); |
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``` |
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### Sequences |
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If you have a number of promise-producing functions that need |
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to be run sequentially, you can of course do so manually: |
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```javascript |
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return foo(initialVal).then(bar).then(baz).then(qux); |
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``` |
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However, if you want to run a dynamically constructed sequence of |
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functions, you'll want something like this: |
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```javascript |
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var funcs = [foo, bar, baz, qux]; |
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var result = Q(initialVal); |
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funcs.forEach(function (f) { |
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result = result.then(f); |
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}); |
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return result; |
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``` |
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You can make this slightly more compact using `reduce`: |
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```javascript |
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return funcs.reduce(function (soFar, f) { |
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return soFar.then(f); |
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}, Q(initialVal)); |
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``` |
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Or, you could use the ultra-compact version: |
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```javascript |
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return funcs.reduce(Q.when, Q(initialVal)); |
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``` |
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### Handling Errors |
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One sometimes-unintuitive aspect of promises is that if you throw an |
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exception in the fulfillment handler, it will not be caught by the error |
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handler. |
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```javascript |
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return foo() |
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.then(function (value) { |
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throw new Error("Can't bar."); |
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}, function (error) { |
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// We only get here if "foo" fails |
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}); |
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``` |
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To see why this is, consider the parallel between promises and |
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``try``/``catch``. We are ``try``-ing to execute ``foo()``: the error |
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handler represents a ``catch`` for ``foo()``, while the fulfillment handler |
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represents code that happens *after* the ``try``/``catch`` block. |
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That code then needs its own ``try``/``catch`` block. |
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In terms of promises, this means chaining your rejection handler: |
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```javascript |
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return foo() |
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.then(function (value) { |
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throw new Error("Can't bar."); |
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}) |
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.fail(function (error) { |
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// We get here with either foo's error or bar's error |
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}); |
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``` |
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### Progress Notification |
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It's possible for promises to report their progress, e.g. for tasks that take a |
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long time like a file upload. Not all promises will implement progress |
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notifications, but for those that do, you can consume the progress values using |
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a third parameter to ``then``: |
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```javascript |
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return uploadFile() |
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.then(function () { |
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// Success uploading the file |
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}, function (err) { |
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// There was an error, and we get the reason for error |
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}, function (progress) { |
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// We get notified of the upload's progress as it is executed |
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}); |
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``` |
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Like `fail`, Q also provides a shorthand for progress callbacks |
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called `progress`: |
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```javascript |
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return uploadFile().progress(function (progress) { |
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// We get notified of the upload's progress |
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}); |
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``` |
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### The End |
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When you get to the end of a chain of promises, you should either |
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return the last promise or end the chain. Since handlers catch |
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errors, it’s an unfortunate pattern that the exceptions can go |
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unobserved. |
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So, either return it, |
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```javascript |
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return foo() |
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.then(function () { |
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return "bar"; |
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}); |
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``` |
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Or, end it. |
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```javascript |
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foo() |
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.then(function () { |
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return "bar"; |
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}) |
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.done(); |
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``` |
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Ending a promise chain makes sure that, if an error doesn’t get |
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handled before the end, it will get rethrown and reported. |
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This is a stopgap. We are exploring ways to make unhandled errors |
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visible without any explicit handling. |
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### The Beginning |
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Everything above assumes you get a promise from somewhere else. This |
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is the common case. Every once in a while, you will need to create a |
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promise from scratch. |
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#### Using ``Q.fcall`` |
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You can create a promise from a value using ``Q.fcall``. This returns a |
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promise for 10. |
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```javascript |
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return Q.fcall(function () { |
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return 10; |
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}); |
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``` |
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You can also use ``fcall`` to get a promise for an exception. |
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```javascript |
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return Q.fcall(function () { |
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throw new Error("Can't do it"); |
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}); |
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``` |
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As the name implies, ``fcall`` can call functions, or even promised |
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functions. This uses the ``eventualAdd`` function above to add two |
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numbers. |
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```javascript |
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return Q.fcall(eventualAdd, 2, 2); |
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``` |
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#### Using Deferreds |
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If you have to interface with asynchronous functions that are callback-based |
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instead of promise-based, Q provides a few shortcuts (like ``Q.nfcall`` and |
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friends). But much of the time, the solution will be to use *deferreds*. |
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```javascript |
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var deferred = Q.defer(); |
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FS.readFile("foo.txt", "utf-8", function (error, text) { |
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if (error) { |
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deferred.reject(new Error(error)); |
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} else { |
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deferred.resolve(text); |
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} |
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}); |
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return deferred.promise; |
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``` |
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Note that a deferred can be resolved with a value or a promise. The |
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``reject`` function is a shorthand for resolving with a rejected |
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promise. |
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```javascript |
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// this: |
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deferred.reject(new Error("Can't do it")); |
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|
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// is shorthand for: |
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var rejection = Q.fcall(function () { |
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throw new Error("Can't do it"); |
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}); |
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deferred.resolve(rejection); |
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``` |
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This is a simplified implementation of ``Q.delay``. |
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```javascript |
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function delay(ms) { |
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var deferred = Q.defer(); |
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setTimeout(deferred.resolve, ms); |
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return deferred.promise; |
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} |
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``` |
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This is a simplified implementation of ``Q.timeout`` |
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```javascript |
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function timeout(promise, ms) { |
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var deferred = Q.defer(); |
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Q.when(promise, deferred.resolve); |
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delay(ms).then(function () { |
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deferred.reject(new Error("Timed out")); |
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}); |
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return deferred.promise; |
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} |
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``` |
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Finally, you can send a progress notification to the promise with |
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``deferred.notify``. |
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For illustration, this is a wrapper for XML HTTP requests in the browser. Note |
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that a more [thorough][XHR] implementation would be in order in practice. |
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[XHR]: https://github.com/montagejs/mr/blob/71e8df99bb4f0584985accd6f2801ef3015b9763/browser.js#L29-L73 |
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```javascript |
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function requestOkText(url) { |
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var request = new XMLHttpRequest(); |
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var deferred = Q.defer(); |
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request.open("GET", url, true); |
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request.onload = onload; |
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request.onerror = onerror; |
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request.onprogress = onprogress; |
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request.send(); |
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function onload() { |
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if (request.status === 200) { |
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deferred.resolve(request.responseText); |
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} else { |
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deferred.reject(new Error("Status code was " + request.status)); |
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} |
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} |
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function onerror() { |
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deferred.reject(new Error("Can't XHR " + JSON.stringify(url))); |
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} |
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function onprogress(event) { |
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deferred.notify(event.loaded / event.total); |
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} |
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return deferred.promise; |
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} |
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``` |
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Below is an example of how to use this ``requestOkText`` function: |
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```javascript |
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requestOkText("http://localhost:3000") |
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.then(function (responseText) { |
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// If the HTTP response returns 200 OK, log the response text. |
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console.log(responseText); |
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}, function (error) { |
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// If there's an error or a non-200 status code, log the error. |
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console.error(error); |
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}, function (progress) { |
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// Log the progress as it comes in. |
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console.log("Request progress: " + Math.round(progress * 100) + "%"); |
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}); |
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``` |
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|
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#### Using `Q.Promise` |
|
|
|
This is an alternative promise-creation API that has the same power as |
|
the deferred concept, but without introducing another conceptual entity. |
|
|
|
Rewriting the `requestOkText` example above using `Q.Promise`: |
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|
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```javascript |
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function requestOkText(url) { |
|
return Q.Promise(function(resolve, reject, notify) { |
|
var request = new XMLHttpRequest(); |
|
|
|
request.open("GET", url, true); |
|
request.onload = onload; |
|
request.onerror = onerror; |
|
request.onprogress = onprogress; |
|
request.send(); |
|
|
|
function onload() { |
|
if (request.status === 200) { |
|
resolve(request.responseText); |
|
} else { |
|
reject(new Error("Status code was " + request.status)); |
|
} |
|
} |
|
|
|
function onerror() { |
|
reject(new Error("Can't XHR " + JSON.stringify(url))); |
|
} |
|
|
|
function onprogress(event) { |
|
notify(event.loaded / event.total); |
|
} |
|
}); |
|
} |
|
``` |
|
|
|
If `requestOkText` were to throw an exception, the returned promise would be |
|
rejected with that thrown exception as the rejection reason. |
|
|
|
### The Middle |
|
|
|
If you are using a function that may return a promise, but just might |
|
return a value if it doesn’t need to defer, you can use the “static” |
|
methods of the Q library. |
|
|
|
The ``when`` function is the static equivalent for ``then``. |
|
|
|
```javascript |
|
return Q.when(valueOrPromise, function (value) { |
|
}, function (error) { |
|
}); |
|
``` |
|
|
|
All of the other methods on a promise have static analogs with the |
|
same name. |
|
|
|
The following are equivalent: |
|
|
|
```javascript |
|
return Q.all([a, b]); |
|
``` |
|
|
|
```javascript |
|
return Q.fcall(function () { |
|
return [a, b]; |
|
}) |
|
.all(); |
|
``` |
|
|
|
When working with promises provided by other libraries, you should |
|
convert it to a Q promise. Not all promise libraries make the same |
|
guarantees as Q and certainly don’t provide all of the same methods. |
|
Most libraries only provide a partially functional ``then`` method. |
|
This thankfully is all we need to turn them into vibrant Q promises. |
|
|
|
```javascript |
|
return Q($.ajax(...)) |
|
.then(function () { |
|
}); |
|
``` |
|
|
|
If there is any chance that the promise you receive is not a Q promise |
|
as provided by your library, you should wrap it using a Q function. |
|
You can even use ``Q.invoke`` as a shorthand. |
|
|
|
```javascript |
|
return Q.invoke($, 'ajax', ...) |
|
.then(function () { |
|
}); |
|
``` |
|
|
|
|
|
### Over the Wire |
|
|
|
A promise can serve as a proxy for another object, even a remote |
|
object. There are methods that allow you to optimistically manipulate |
|
properties or call functions. All of these interactions return |
|
promises, so they can be chained. |
|
|
|
``` |
|
direct manipulation using a promise as a proxy |
|
-------------------------- ------------------------------- |
|
value.foo promise.get("foo") |
|
value.foo = value promise.put("foo", value) |
|
delete value.foo promise.del("foo") |
|
value.foo(...args) promise.post("foo", [args]) |
|
value.foo(...args) promise.invoke("foo", ...args) |
|
value(...args) promise.fapply([args]) |
|
value(...args) promise.fcall(...args) |
|
``` |
|
|
|
If the promise is a proxy for a remote object, you can shave |
|
round-trips by using these functions instead of ``then``. To take |
|
advantage of promises for remote objects, check out [Q-Connection][]. |
|
|
|
[Q-Connection]: https://github.com/kriskowal/q-connection |
|
|
|
Even in the case of non-remote objects, these methods can be used as |
|
shorthand for particularly-simple fulfillment handlers. For example, you |
|
can replace |
|
|
|
```javascript |
|
return Q.fcall(function () { |
|
return [{ foo: "bar" }, { foo: "baz" }]; |
|
}) |
|
.then(function (value) { |
|
return value[0].foo; |
|
}); |
|
``` |
|
|
|
with |
|
|
|
```javascript |
|
return Q.fcall(function () { |
|
return [{ foo: "bar" }, { foo: "baz" }]; |
|
}) |
|
.get(0) |
|
.get("foo"); |
|
``` |
|
|
|
|
|
### Adapting Node |
|
|
|
If you're working with functions that make use of the Node.js callback pattern, |
|
where callbacks are in the form of `function(err, result)`, Q provides a few |
|
useful utility functions for converting between them. The most straightforward |
|
are probably `Q.nfcall` and `Q.nfapply` ("Node function call/apply") for calling |
|
Node.js-style functions and getting back a promise: |
|
|
|
```javascript |
|
return Q.nfcall(FS.readFile, "foo.txt", "utf-8"); |
|
return Q.nfapply(FS.readFile, ["foo.txt", "utf-8"]); |
|
``` |
|
|
|
If you are working with methods, instead of simple functions, you can easily |
|
run in to the usual problems where passing a method to another function—like |
|
`Q.nfcall`—"un-binds" the method from its owner. To avoid this, you can either |
|
use `Function.prototype.bind` or some nice shortcut methods we provide: |
|
|
|
```javascript |
|
return Q.ninvoke(redisClient, "get", "user:1:id"); |
|
return Q.npost(redisClient, "get", ["user:1:id"]); |
|
``` |
|
|
|
You can also create reusable wrappers with `Q.denodeify` or `Q.nbind`: |
|
|
|
```javascript |
|
var readFile = Q.denodeify(FS.readFile); |
|
return readFile("foo.txt", "utf-8"); |
|
|
|
var redisClientGet = Q.nbind(redisClient.get, redisClient); |
|
return redisClientGet("user:1:id"); |
|
``` |
|
|
|
Finally, if you're working with raw deferred objects, there is a |
|
`makeNodeResolver` method on deferreds that can be handy: |
|
|
|
```javascript |
|
var deferred = Q.defer(); |
|
FS.readFile("foo.txt", "utf-8", deferred.makeNodeResolver()); |
|
return deferred.promise; |
|
``` |
|
|
|
### Long Stack Traces |
|
|
|
Q comes with optional support for “long stack traces,” wherein the `stack` |
|
property of `Error` rejection reasons is rewritten to be traced along |
|
asynchronous jumps instead of stopping at the most recent one. As an example: |
|
|
|
```js |
|
function theDepthsOfMyProgram() { |
|
Q.delay(100).done(function explode() { |
|
throw new Error("boo!"); |
|
}); |
|
} |
|
|
|
theDepthsOfMyProgram(); |
|
``` |
|
|
|
usually would give a rather unhelpful stack trace looking something like |
|
|
|
``` |
|
Error: boo! |
|
at explode (/path/to/test.js:3:11) |
|
at _fulfilled (/path/to/test.js:q:54) |
|
at resolvedValue.promiseDispatch.done (/path/to/q.js:823:30) |
|
at makePromise.promise.promiseDispatch (/path/to/q.js:496:13) |
|
at pending (/path/to/q.js:397:39) |
|
at process.startup.processNextTick.process._tickCallback (node.js:244:9) |
|
``` |
|
|
|
But, if you turn this feature on by setting |
|
|
|
```js |
|
Q.longStackSupport = true; |
|
``` |
|
|
|
then the above code gives a nice stack trace to the tune of |
|
|
|
``` |
|
Error: boo! |
|
at explode (/path/to/test.js:3:11) |
|
From previous event: |
|
at theDepthsOfMyProgram (/path/to/test.js:2:16) |
|
at Object.<anonymous> (/path/to/test.js:7:1) |
|
``` |
|
|
|
Note how you can see the function that triggered the async operation in the |
|
stack trace! This is very helpful for debugging, as otherwise you end up getting |
|
only the first line, plus a bunch of Q internals, with no sign of where the |
|
operation started. |
|
|
|
In node.js, this feature can also be enabled through the Q_DEBUG environment |
|
variable: |
|
|
|
``` |
|
Q_DEBUG=1 node server.js |
|
``` |
|
|
|
This will enable long stack support in every instance of Q. |
|
|
|
This feature does come with somewhat-serious performance and memory overhead, |
|
however. If you're working with lots of promises, or trying to scale a server |
|
to many users, you should probably keep it off. But in development, go for it! |
|
|
|
## Tests |
|
|
|
You can view the results of the Q test suite [in your browser][tests]! |
|
|
|
[tests]: https://rawgithub.com/kriskowal/q/v1/spec/q-spec.html |
|
|
|
## License |
|
|
|
Copyright 2009–2017 Kristopher Michael Kowal and contributors |
|
MIT License (enclosed) |
|
|
|
|