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diff --git a/amd.html.markdown b/amd.html.markdown new file mode 100644 index 00000000..36210d03 --- /dev/null +++ b/amd.html.markdown @@ -0,0 +1,207 @@ +---
+category: tool
+tool: amd
+contributors:
+ - ["Frederik Ring", "https://github.com/m90"]
+filename: learnamd.js
+---
+
+## Getting Started with AMD
+
+The **Asynchronous Module Definition** API specifies a mechanism for defining
+JavaScript modules such that the module and its dependencies can be asynchronously
+loaded. This is particularly well suited for the browser environment where
+synchronous loading of modules incurs performance, usability, debugging, and
+cross-domain access problems.
+
+### Basic concept
+```javascript
+// The basic AMD API consists of nothing but two methods: `define` and `require`
+// and is all about module definition and consumption:
+// `define(id?, dependencies?, factory)` defines a module
+// `require(dependencies, callback)` imports a set of dependencies and
+// consumes them in the passed callback
+
+// Let's start by using define to define a new named module
+// that has no dependencies. We'll do so by passing a name
+// and a factory function to define:
+define('awesomeAMD', function(){
+ var isAMDAwesome = function(){
+ return true;
+ };
+ // The return value of a module's factory function is
+ // what other modules or require calls will receive when
+ // requiring our `awesomeAMD` module.
+ // The exported value can be anything, (constructor) functions,
+ // objects, primitives, even undefined (although that won't help too much).
+ return isAMDAwesome;
+});
+
+// Now, let's define another module that depends upon our `awesomeAMD` module.
+// Notice that there's an additional argument defining our
+// module's dependencies now:
+define('loudmouth', ['awesomeAMD'], function(awesomeAMD){
+ // dependencies will be passed to the factory's arguments
+ // in the order they are specified
+ var tellEveryone = function(){
+ if (awesomeAMD()){
+ alert('This is sOoOo rad!');
+ } else {
+ alert('Pretty dull, isn\'t it?');
+ }
+ };
+ return tellEveryone;
+});
+
+// As we do know how to use define now, let's use `require` to
+// kick off our program. `require`'s signature is `(arrayOfDependencies, callback)`.
+require(['loudmouth'], function(loudmouth){
+ loudmouth();
+});
+
+// To make this tutorial run code, let's implement a very basic
+// (non-asynchronous) version of AMD right here on the spot:
+function define(name, deps, factory){
+ // notice how modules without dependencies are handled
+ define[name] = require(factory ? deps : [], factory || deps);
+}
+
+function require(deps, callback){
+ var args = [];
+ // first let's retrieve all the dependencies needed
+ // by the require call
+ for (var i = 0; i < deps.length; i++){
+ args[i] = define[deps[i]];
+ }
+ // satisfy all the callback's dependencies
+ return callback.apply(null, args);
+}
+// you can see this code in action here: http://jsfiddle.net/qap949pd/
+```
+
+### Real-world usage with require.js
+
+In contrast to the introductory example, `require.js` (the most popular AMD library) actually implements the **A** in **AMD**, enabling you to load modules and their dependencies asynchronously via XHR:
+
+```javascript
+/* file: app/main.js */
+require(['modules/someClass'], function(SomeClass){
+ // the callback is deferred until the dependency is loaded
+ var thing = new SomeClass();
+});
+console.log('So here we are, waiting!'); // this will run first
+```
+
+By convention, you usually store one module in one file. `require.js` can resolve module names based on file paths, so you don't have to name your modules, but can simply reference them using their location. In the example `someClass` is assumed to be in the `modules` folder, relative to your configuration's `baseUrl`:
+
+* app/
+ * main.js
+ * modules/
+ * someClass.js
+ * someHelpers.js
+ * ...
+ * daos/
+ * things.js
+ * ...
+
+This means we can define `someClass` without specifying a module id:
+
+```javascript
+/* file: app/modules/someClass.js */
+define(['daos/things', 'modules/someHelpers'], function(thingsDao, helpers){
+ // module definition, of course, will also happen asynchronously
+ function SomeClass(){
+ this.method = function(){/**/};
+ // ...
+ }
+ return SomeClass;
+});
+```
+To alter the default path mapping behavior use `requirejs.config(configObj)` in your `main.js`:
+
+```javascript
+/* file: main.js */
+requirejs.config({
+ baseUrl : 'app',
+ paths : {
+ // you can also load modules from other locations
+ jquery : '//ajax.googleapis.com/ajax/libs/jquery/1.11.1/jquery.min',
+ coolLibFromBower : '../bower_components/cool-lib/coollib'
+ }
+});
+require(['jquery', 'coolLibFromBower', 'modules/someHelpers'], function($, coolLib, helpers){
+ // a `main` file needs to call require at least once,
+ // otherwise no code will ever run
+ coolLib.doFancyStuffWith(helpers.transform($('#foo')));
+});
+```
+`require.js`-based apps will usually have a single entry point (`main.js`) that is passed to the `require.js` script tag as a data-attribute. It will be automatically loaded and executed on pageload:
+```html
+<!DOCTYPE html>
+<html>
+<head>
+ <title>A hundred script tags? Never again!</title>
+</head>
+<body>
+ <script src="require.js" data-main="app/main"></script>
+</body>
+</html>
+```
+
+### Optimizing a whole project using r.js
+
+Many people prefer using AMD for sane code organization during development, but still want to ship a single script file in production instead of performing hundreds of XHRs on page load.
+
+`require.js` comes with a script called `r.js` (that you will probably run in node.js, although Rhino is supported too) that can analyse your project's dependency graph, and build a single file containing all your modules (properly named), minified and ready for consumption.
+
+Install it using `npm`:
+```sh
+$ npm install requirejs -g
+```
+Now you can feed it with a configuration file:
+```sh
+$ r.js -o app.build.js
+```
+For our above example the configuration might look like:
+```javascript
+/* file : app.build.js */
+({
+ name : 'main', // name of the entry point
+ out : 'main-built.js', // name of the file to write the output to
+ baseUrl : 'app',
+ paths : {
+ // `empty:` tells r.js that this should still be loaded from the CDN, using
+ // the location specified in `main.js`
+ jquery : 'empty:',
+ coolLibFromBower : '../bower_components/cool-lib/coollib'
+ }
+})
+```
+To use the built file in production, simply swap `data-main`:
+```html
+<script src="require.js" data-main="app/main-built"></script>
+```
+An incredibly detailed [overview of build options](https://github.com/jrburke/r.js/blob/master/build/example.build.js) is available in the GitHub repo.
+
+### Topics not covered in this tutorial
+* [Loader plugins / transforms](http://requirejs.org/docs/plugins.html)
+* [CommonJS style loading and exporting](http://requirejs.org/docs/commonjs.html)
+* [Advanced configuration](http://requirejs.org/docs/api.html#config)
+* [Shim configuration (loading non-AMD modules)](http://requirejs.org/docs/api.html#config-shim)
+* [CSS loading and optimizing with require.js](http://requirejs.org/docs/optimization.html#onecss)
+* [Using almond.js for builds](https://github.com/jrburke/almond)
+
+### Further reading:
+
+* [Official Spec](https://github.com/amdjs/amdjs-api/wiki/AMD)
+* [Why AMD?](http://requirejs.org/docs/whyamd.html)
+* [Universal Module Definition](https://github.com/umdjs/umd)
+
+### Implementations:
+
+* [require.js](http://requirejs.org)
+* [dojo toolkit](http://dojotoolkit.org/documentation/tutorials/1.9/modules/)
+* [cujo.js](http://cujojs.com/)
+* [curl.js](https://github.com/cujojs/curl)
+* [lsjs](https://github.com/zazl/lsjs)
+* [mmd](https://github.com/alexlawrence/mmd)
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