node-v4.8.6-linux-armv7l.tar.gz

# Async.js [](https://travis-ci.org/caolan/async) [](https://www.npmjs.org/package/async) [](https://coveralls.io/r/caolan/async?branch=master) [](https://gitter.im/caolan/async?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge&utm_content=badge) Async is a utility module which provides straight-forward, powerful functions for working with asynchronous JavaScript. Although originally designed for use with [Node.js](http://nodejs.org) and installable via `npm install async`, it can also be used directly in the browser. Async is also installable via: - [bower](http://bower.io/): `bower install async` - [component](https://github.com/component/component): `component install caolan/async` - [jam](http://jamjs.org/): `jam install async` - [spm](http://spmjs.io/): `spm install async` Async provides around 20 functions that include the usual 'functional' suspects (`map`, `reduce`, `filter`, `each`…) as well as some common patterns for asynchronous control flow (`parallel`, `series`, `waterfall`…). All these functions assume you follow the Node.js convention of providing a single callback as the last argument of your `async` function. ## Quick Examples ```javascript async.map(['file1','file2','file3'], fs.stat, function(err, results){ // results is now an array of stats for each file }); async.filter(['file1','file2','file3'], fs.exists, function(results){ // results now equals an array of the existing files }); async.parallel([ function(){ ... }, function(){ ... } ], callback); async.series([ function(){ ... }, function(){ ... } ]); ``` There are many more functions available so take a look at the docs below for a full list. This module aims to be comprehensive, so if you feel anything is missing please create a GitHub issue for it. ## Common Pitfalls _{[(StackOverflow)](http://stackoverflow.com/questions/tagged/async.js)} ### Synchronous iteration functions If you get an error like `RangeError: Maximum call stack size exceeded.` or other stack overflow issues when using async, you are likely using a synchronous iterator. By *synchronous* we mean a function that calls its callback on the same tick in the javascript event loop, without doing any I/O or using any timers. Calling many callbacks iteratively will quickly overflow the stack. If you run into this issue, just defer your callback with `async.setImmediate` to start a new call stack on the next tick of the event loop. This can also arise by accident if you callback early in certain cases: ```js async.eachSeries(hugeArray, function iterator(item, callback) { if (inCache(item)) { callback(null, cache[item]); // if many items are cached, you'll overflow } else { doSomeIO(item, callback); } }, function done() { //... }); ``` Just change it to: ```js async.eachSeries(hugeArray, function iterator(item, callback) { if (inCache(item)) { async.setImmediate(function () { callback(null, cache[item]); }); } else { doSomeIO(item, callback); //... ``` Async guards against synchronous functions in some, but not all, cases. If you are still running into stack overflows, you can defer as suggested above, or wrap functions with [`async.ensureAsync`](#ensureAsync) Functions that are asynchronous by their nature do not have this problem and don't need the extra callback deferral. If JavaScript's event loop is still a bit nebulous, check out [this article](http://blog.carbonfive.com/2013/10/27/the-javascript-event-loop-explained/) or [this talk](http://2014.jsconf.eu/speakers/philip-roberts-what-the-heck-is-the-event-loop-anyway.html) for more detailed information about how it works. ### Multiple callbacks Make sure to always `return` when calling a callback early, otherwise you will cause multiple callbacks and unpredictable behavior in many cases. ```js async.waterfall([ function (callback) { getSomething(options, function (err, result) { if (err) { callback(new Error("failed getting something:" + err.message)); // we should return here } // since we did not return, this callback still will be called and // `processData` will be called twice callback(null, result); }); }, processData ], done) ``` It is always good practice to `return callback(err, result)` whenever a callback call is not the last statement of a function. ### Binding a context to an iterator This section is really about `bind`, not about `async`. If you are wondering how to make `async` execute your iterators in a given context, or are confused as to why a method of another library isn't working as an iterator, study this example: ```js // Here is a simple object with an (unnecessarily roundabout) squaring method var AsyncSquaringLibrary = { squareExponent: 2, square: function(number, callback){ var result = Math.pow(number, this.squareExponent); setTimeout(function(){ callback(null, result); }, 200); } }; async.map([1, 2, 3], AsyncSquaringLibrary.square, function(err, result){ // result is [NaN, NaN, NaN] // This fails because the `this.squareExponent` expression in the square // function is not evaluated in the context of AsyncSquaringLibrary, and is // therefore undefined. }); async.map([1, 2, 3], AsyncSquaringLibrary.square.bind(AsyncSquaringLibrary), function(err, result){ // result is [1, 4, 9] // With the help of bind we can attach a context to the iterator before // passing it to async. Now the square function will be executed in its // 'home' AsyncSquaringLibrary context and the value of `this.squareExponent` // will be as expected. }); ``` ## Download The source is available for download from [GitHub](https://github.com/caolan/async/blob/master/lib/async.js). Alternatively, you can install using Node Package Manager (`npm`): npm install async As well as using Bower: bower install async __Development:__ [async.js](https://github.com/caolan/async/raw/master/lib/async.js) - 29.6kb Uncompressed ## In the Browser So far it's been tested in IE6, IE7, IE8, FF3.6 and Chrome 5. Usage: ```html <script type="text/javascript" src="async.js"></script> <script type="text/javascript"> async.map(data, asyncProcess, function(err, results){ alert(results); }); </script> ``` ## Documentation Some functions are also available in the following forms: * `<name>Series` - the same as `<name>` but runs only a single async operation at a time * `<name>Limit` - the same as `<name>` but runs a maximum of `limit` async operations at a time ### Collections * [`each`](#each), `eachSeries`, `eachLimit` * [`forEachOf`](#forEachOf), `forEachOfSeries`, `forEachOfLimit` * [`map`](#map), `mapSeries`, `mapLimit` * [`filter`](#filter), `filterSeries`, `filterLimit` * [`reject`](#reject), `rejectSeries`, `rejectLimit` * [`reduce`](#reduce), [`reduceRight`](#reduceRight) * [`detect`](#detect), `detectSeries`, `detectLimit` * [`sortBy`](#sortBy) * [`some`](#some), `someLimit` * [`every`](#every), `everyLimit` * [`concat`](#concat), `concatSeries` ### Control Flow * [`series`](#seriestasks-callback) * [`parallel`](#parallel), `parallelLimit` * [`whilst`](#whilst), [`doWhilst`](#doWhilst) * [`until`](#until), [`doUntil`](#doUntil) * [`during`](#during), [`doDuring`](#doDuring) * [`forever`](#forever) * [`waterfall`](#waterfall) * [`compose`](#compose) * [`seq`](#seq) * [`applyEach`](#applyEach), `applyEachSeries` * [`queue`](#queue), [`priorityQueue`](#priorityQueue) * [`cargo`](#cargo) * [`auto`](#auto) * [`retry`](#retry) * [`iterator`](#iterator) * [`times`](#times), `timesSeri