docs/content/guide/di.ngdoc
@ngdoc overview
@name Dependency Injection
@sortOrder 250
@description
# Dependency Injection
Dependency Injection (DI) is a software design pattern that deals with how components get hold of
their dependencies.
The AngularJS injector subsystem is in charge of creating components, resolving their dependencies,
and providing them to other components as requested.
## Using Dependency Injection
Dependency Injection is pervasive throughout AngularJS. You can use it when defining components
or when providing `run` and `config` blocks for a module.
- {@link angular.Module#service Services}, {@link angular.Module#directive directives},
{@link angular.Module#filter filters}, and {@link angular.Module#animation animations} are
defined by an injectable factory method or constructor function, and can be injected with
"services", "values", and "constants" as dependencies.
- {@link ng.$controller Controllers} are defined by a constructor function, which can be injected
with any of the "service" and "value" as dependencies, but they can also be provided with
"special dependencies". See {@link di#controllers Controllers} below for a list of these
special dependencies.
- The {@link angular.Module#run `run`} method accepts a function, which can be injected with
"services", "values" and, "constants" as dependencies. Note that you cannot inject "providers"
into `run` blocks.
- The {@link angular.Module#config `config`} method accepts a function, which can be injected with
"providers" and "constants" as dependencies. Note that you cannot inject "services" or
"values" into configuration.
- The {@link angular.Module#provider `provider`} method can only be injected with other "providers".
However, only those that have been **registered beforehand** can be injected. This is different
from services, where the order of registration does not matter.
See {@link module#module-loading Modules} for more details about `run` and `config`
blocks and {@link guide/providers Providers} for more information about the different provider
types.
### Factory Methods
The way you define a directive, service, or filter is with a factory function.
The factory methods are registered with modules. The recommended way of declaring factories is:
```js
angular.module('myModule', [])
.factory('serviceId', ['depService', function(depService) {
// ...
}])
.directive('directiveName', ['depService', function(depService) {
// ...
}])
.filter('filterName', ['depService', function(depService) {
// ...
}]);
```
### Module Methods
We can specify functions to run at configuration and run time for a module by calling the `config`
and `run` methods. These functions are injectable with dependencies just like the factory functions
above.
```js
angular.module('myModule', [])
.config(['depProvider', function(depProvider) {
// ...
}])
.run(['depService', function(depService) {
// ...
}]);
```
### Controllers
Controllers are "classes" or "constructor functions" that are responsible for providing the
application behavior that supports the declarative markup in the template. The recommended way of
declaring Controllers is using the array notation:
```js
someModule.controller('MyController', ['$scope', 'dep1', 'dep2', function($scope, dep1, dep2) {
...
$scope.aMethod = function() {
...
}
...
}]);
```
Unlike services, there can be many instances of the same type of controller in an application.
Moreover, additional dependencies are made available to Controllers:
* {@link scope `$scope`}: Controllers are associated with an element in the DOM and so are
provided with access to the {@link scope scope}. Other components (like services) only have
access to the {@link $rootScope `$rootScope`} service.
* {@link ngRoute.$routeProvider#when resolves}: If a controller is instantiated as part of a route,
then any values that are resolved as part of the route are made available for injection into the
controller.
## Dependency Annotation
AngularJS invokes certain functions (like service factories and controllers) via the injector.
You need to annotate these functions so that the injector knows what services to inject into
the function. There are three ways of annotating your code with service name information:
- Using the inline array annotation (preferred)
- Using the `$inject` property annotation
- Implicitly from the function parameter names (has caveats)
### Inline Array Annotation
This is the preferred way to annotate application components. This is how the examples in the
documentation are written.
For example:
```js
someModule.controller('MyController', ['$scope', 'greeter', function($scope, greeter) {
// ...
}]);
```
Here we pass an array whose elements consist of a list of strings (the names of the dependencies)
followed by the function itself.
When using this type of annotation, take care to keep the annotation array in sync with the
parameters in the function declaration.
### `$inject` Property Annotation
To allow the minifiers to rename the function parameters and still be able to inject the right services,
the function needs to be annotated with the `$inject` property. The `$inject` property is an array
of service names to inject.
```js
var MyController = function($scope, greeter) {
// ...
}
MyController.$inject = ['$scope', 'greeter'];
someModule.controller('MyController', MyController);
```
In this scenario the ordering of the values in the `$inject` array must match the ordering of the
parameters in `MyController`.
Just like with the array annotation, you'll need to take care to keep the `$inject` in sync with
the parameters in the function declaration.
### Implicit Annotation
<div class="alert alert-danger">
**Careful:** If you plan to [minify](http://en.wikipedia.org/wiki/Minification_(programming))
your code, your service names will get renamed and break your app.
</div>
The simplest way to get hold of the dependencies is to assume that the function parameter names
are the names of the dependencies.
```js
someModule.controller('MyController', function($scope, greeter) {
// ...
});
```
Given a function, the injector can infer the names of the services to inject by examining the
function declaration and extracting the parameter names. In the above example, `$scope` and
`greeter` are two services which need to be injected into the function.
One advantage of this approach is that there's no array of names to keep in sync with the
function parameters. You can also freely reorder dependencies.
However this method will not work with JavaScript minifiers/obfuscators because of how they
rename parameters.
Tools like [ng-annotate](https://github.com/olov/ng-annotate) let you use implicit dependency
annotations in your app and automatically add inline array annotations prior to minifying.
If you decide to take this approach, you probably want to use `ng-strict-di`.
Because of these caveats, we recommend avoiding this style of annotation.
## Using Strict Dependency Injection
You can add an `ng-strict-di` directive on the same element as `ng-app` to opt into strict DI mode:
```html
<!doctype html>
<html ng-app="myApp" ng-strict-di>
<body>
I can add: {{ 1 + 2 }}.
<script src="angular.js"></script>
</body>
</html>
```
Strict mode throws an error whenever a service tries to use implicit annotations.
Consider this module, which includes a `willBreak` service that uses implicit DI:
```js
angular.module('myApp', [])
.factory('willBreak', function($rootScope) {
// $rootScope is implicitly injected
})
.run(['willBreak', function(willBreak) {
// AngularJS will throw when this runs
}]);
```
When the `willBreak` service is instantiated, AngularJS will throw an error because of strict mode.
This is useful when using a tool like [ng-annotate](https://github.com/olov/ng-annotate) to
ensure that all of your application components have annotations.
If you're using manual bootstrapping, you can also use strict DI by providing `strictDi: true` in
the optional config argument:
```js
angular.bootstrap(document, ['myApp'], {
strictDi: true
});
```
## Why Dependency Injection?
This section motivates and explains AngularJS's use of DI. For how to use DI, see above.
For in-depth discussion about DI, see
[Dependency Injection](http://en.wikipedia.org/wiki/Dependency_injection) at Wikipedia,
[Inversion of Control](http://martinfowler.com/articles/injection.html) by Martin Fowler,
or read about DI in your favorite software design pattern book.
There are only three ways a component (object or function) can get a hold of its dependencies:
1. The component can create the dependency, typically using the `new` operator.
2. The component can look up the dependency, by referring to a global variable.
3. The component can have the dependency passed to it where it is needed.
The first two options of creating or looking up dependencies are not optimal because they hard
code the dependency to the component. This makes it difficult, if not impossible, to modify the
dependencies. This is especially problematic in tests, where it is often desirable to provide mock
dependencies for test isolation.
The third option is the most viable, since it removes the responsibility of locating the
dependency from the component. The dependency is simply handed to the component.
```js
function SomeClass(greeter) {
this.greeter = greeter;
}
SomeClass.prototype.doSomething = function(name) {
this.greeter.greet(name);
}
```
In the above example `SomeClass` is not concerned with creating or locating the `greeter`
dependency, it is simply handed the `greeter` when it is instantiated.
This is desirable, but it puts the responsibility of getting hold of the dependency on the
code that constructs `SomeClass`.
<img class="pull-right" style="padding-left: 3em; padding-bottom: 1em;" src="img/guide/concepts-module-injector.png">
To manage the responsibility of dependency creation, each AngularJS application has an {@link
angular.injector injector}. The injector is a
[service locator](http://en.wikipedia.org/wiki/Service_locator_pattern) that is responsible for
construction and lookup of dependencies.
Here is an example of using the injector service:
First create an AngularJS module that will hold the service definition. (The empty array passed as
the second parameter means that this module does not depend on any other modules.)
```js
// Create a module to hold the service definition
var myModule = angular.module('myModule', []);
```
Teach the injector how to build a `greeter` service, which is just an object that contains a `greet`
method. Notice that `greeter` is dependent on the `$window` service, which will be provided
(injected into `greeter`) by the injector.
```js
// Define the `greeter` service
myModule.factory('greeter', function($window) {
return {
greet: function(text) {
$window.alert(text);
}
};
});
```
Create a new injector that can provide components defined in our `myModule` module and request our
`greeter` service from the injector. (This is usually done automatically by AngularJS bootstrap).
```js
var injector = angular.injector(['ng', 'myModule']);
var greeter = injector.get('greeter');
```
Asking for dependencies solves the issue of hard coding, but it also means that the injector needs
to be passed throughout the application. Passing the injector breaks the
[Law of Demeter](http://en.wikipedia.org/wiki/Law_of_Demeter). To remedy this, we use a declarative
notation in our HTML templates, to hand the responsibility of creating components over to the
injector, as in this example:
```html
<div ng-controller="MyController">
<button ng-click="sayHello()">Hello</button>
</div>
```
```js
function MyController($scope, greeter) {
$scope.sayHello = function() {
greeter.greet('Hello World');
};
}
```
When AngularJS compiles the HTML, it processes the `ng-controller` directive, which in turn
asks the injector to create an instance of the controller and its dependencies.
```js
injector.instantiate(MyController);
```
This is all done behind the scenes. Notice that by having the `ng-controller` ask the injector to
instantiate the class, it can satisfy all of the dependencies of `MyController` without the
controller ever knowing about the injector.
This is the best outcome. The application code simply declares the dependencies it needs, without
having to deal with the injector. This setup does not break the Law of Demeter.
<div class="alert alert-info">
**Note:** AngularJS uses
[**constructor injection**](http://misko.hevery.com/2009/02/19/constructor-injection-vs-setter-injection/).
</div>