@ngdoc overview @name Developer Guide: About MVC in Angular: Understanding the Controller Component @description In angular, a controller is a JavaScript function(type/class) that is used to augment instances of angular {@link scope Scope}, excluding the root scope. When you or angular create a new child scope object via the {@link api/ng.$rootScope.Scope#$new scope.$new} API , there is an option to pass in a controller as a method argument. This will tell angular to associate the controller with the new scope and to augment its behavior. Use controllers to: - Set up the initial state of a scope object. - Add behavior to the scope object. # Setting up the initial state of a scope object Typically, when you create an application you need to set up an initial state for an angular scope. Angular applies (in the sense of JavaScript's `Function#apply`) the controller constructor function to a new angular scope object, which sets up an initial scope state. This means that angular never creates instances of the controller type (by invoking the `new` operator on the controller constructor). Constructors are always applied to an existing scope object. You set up the initial state of a scope by creating model properties. For example: function GreetingCtrl($scope) { $scope.greeting = 'Hola!'; } The `GreetingCtrl` controller creates a `greeting` model which can be referred to in a template. # Adding Behavior to a Scope Object Behavior on an angular scope object is in the form of scope method properties available to the template/view. This behavior interacts with and modifies the application model. As discussed in the {@link dev_guide.mvc.understanding_model Model} section of this guide, any objects (or primitives) assigned to the scope become model properties. Any functions assigned to the scope are available in the template/view, and can be invoked via angular expressions and `ng` event handler directives (e.g. {@link api/ng.directive:ngClick ngClick}). # Using Controllers Correctly In general, a controller shouldn't try to do too much. It should contain only the business logic needed for a single view. The most common way to keep controllers slim is by encapsulating work that doesn't belong to controllers into services and then using these services in controllers via dependency injection. This is discussed in the {@link di Dependency Injection} {@link dev_guide.services Services} sections of this guide. Do not use controllers for: - Any kind of DOM manipulation — Controllers should contain only business logic. DOM manipulation—the presentation logic of an application—is well known for being hard to test. Putting any presentation logic into controllers significantly affects testability of the business logic. Angular offers {@link dev_guide.templates.databinding} for automatic DOM manipulation. If you have to perform your own manual DOM manipulation, encapsulate the presentation logic in {@link guide/directive directives}. - Input formatting — Use {@link forms angular form controls} instead. - Output filtering — Use {@link dev_guide.templates.filters angular filters} instead. - Run stateless or stateful code shared across controllers — Use {@link dev_guide.services angular services} instead. - Instantiate or manage the life-cycle of other components (for example, to create service instances). # Associating Controllers with Angular Scope Objects You can associate controllers with scope objects explicitly via the {@link api/ng.$rootScope.Scope#$new scope.$new} api or implicitly via the {@link api/ng.directive:ngController ngController directive} or {@link api/ng.$route $route service}. ## Controller Constructor and Methods Example To illustrate how the controller component works in angular, let's create a little app with the following components: - A {@link dev_guide.templates template} with two buttons and a simple message - A model consisting of a string named `spice` - A controller with two functions that set the value of `spice` The message in our template contains a binding to the `spice` model, which by default is set to the string "very". Depending on which button is clicked, the `spice` model is set to `chili` or `jalapeño`, and the message is automatically updated by data-binding. ## A Spicy Controller Example 

 
 
 
The food is {{spice}} spicy!



function SpicyCtrl($scope) {
 $scope.spice = 'very';
 $scope.chiliSpicy = function() {
   $scope.spice = 'chili';
 }
 $scope.jalapenoSpicy = function() {
  $scope.spice = 'jalapeño';
 }
}
Things to notice in the example above: - The `ngController` directive is used to (implicitly) create a scope for our template, and the scope is augmented (managed) by the `SpicyCtrl` controller. - `SpicyCtrl` is just a plain JavaScript function. As an (optional) naming convention the name starts with capital letter and ends with "Ctrl" or "Controller". - Assigning a property to `$scope` creates or updates the model. - Controller methods can be created through direct assignment to scope (the `chiliSpicy` method) - Both controller methods are available in the template (for the `body` element and and its children). - NB: Previous versions of Angular (pre 1.0 RC) allowed you to use `this` interchangeably with the $scope method, but this is no longer the case. Inside of methods defined on the scope `this` and $scope are interchangeable (angular sets `this` to $scope), but not otherwise inside your controller constructor. - NB: Previous versions of Angular (pre 1.0 RC) added prototype methods into the scope automatically, but this is no longer the case; all methods need to be added manually to the scope. Controller methods can also take arguments, as demonstrated in the following variation of the previous example. ## Controller Method Arguments Example 

 
 
 
 
The food is {{spice}} spicy!



function SpicyCtrl($scope) {
 $scope.spice = 'very';
 $scope.spicy = function(spice) {
   $scope.spice = spice;
 }
}
Notice that the `SpicyCtrl` controller now defines just one method called `spicy`, which takes one argument called `spice`. The template then refers to this controller method and passes in a string constant `'chili'` in the binding for the first button and a model property `spice` (bound to an input box) in the second button. ## Controller Inheritance Example Controller inheritance in angular is based on {@link api/ng.$rootScope.Scope Scope} inheritance. Let's have a look at an example: 

 
Good {{timeOfDay}}, {{name}}!

 

   
Good {{timeOfDay}}, {{name}}!

   
Good {{timeOfDay}}, {{name}}!



function MainCtrl($scope) {
 $scope.timeOfDay = 'morning';
 $scope.name = 'Nikki';
}

function ChildCtrl($scope) {
 $scope.name = 'Mattie';
}

function BabyCtrl($scope) {
 $scope.timeOfDay = 'evening';
 $scope.name = 'Gingerbreak Baby';
}
Notice how we nested three `ngController` directives in our template. This template construct will result in 4 scopes being created for our view: - The root scope - The `MainCtrl` scope, which contains `timeOfDay` and `name` models - The `ChildCtrl` scope, which shadows the `name` model from the previous scope and inherits the `timeOfDay` model - The `BabyCtrl` scope, which shadows both the `timeOfDay` model defined in `MainCtrl` and `name` model defined in the ChildCtrl Inheritance works between controllers in the same way as it does with models. So in our previous examples, all of the models could be replaced with controller methods that return string values. Note: Standard prototypical inheritance between two controllers doesn't work as one might expect, because as we mentioned earlier, controllers are not instantiated directly by angular, but rather are applied to the scope object. ## Testing Controllers Although there are many ways to test a controller, one of the best conventions, shown below, involves injecting the `$rootScope` and `$controller` Controller Function: 
function myController($scope) {
   $scope.spices = [{"name":"pasilla", "spiciness":"mild"},
                  {"name":"jalapeno", "spiceiness":"hot hot hot!"},
                  {"name":"habanero", "spiceness":"LAVA HOT!!"}];

   $scope.spice = "habanero";
}
Controller Test: 
describe('myController function', function() {

  describe('myController', function() {
    var scope;

    beforeEach(inject(function($rootScope, $controller) {
      scope = $rootScope.$new();
      var ctrl = $controller(myController, {$scope: scope});
    }));

    it('should create "spices" model with 3 spices', function() {
      expect(scope.spices.length).toBe(3);
    });

    it('should set the default value of spice', function() {
      expect(scope.spice).toBe('habanero');
    });
  });
});
If you need to test a nested controller one needs to create the same scope hierarchy in your test as exist in the DOM. 
describe('state', function() {
    var mainScope, childScope, babyScope;

    beforeEach(inject(function($rootScope, $controller) {
        mainScope = $rootScope.$new();
        var mainCtrl = $controller(MainCtrl, {$scope: mainScope});
        childScope = mainScope.$new();
        var childCtrl = $controller(ChildCtrl, {$scope: childScope});
        babyScope = childCtrl.$new();
        var babyCtrl = $controller(BabyCtrl, {$scope: babyScope});
    }));

    it('should have over and selected', function() {
        expect(mainScope.timeOfDay).toBe('morning');
        expect(mainScope.name).toBe('Nikki');
        expect(childScope.timeOfDay).toBe('morning');
        expect(childScope.name).toBe('Mattie');
        expect(babyScope.timeOfDay).toBe('evening');
        expect(babyScope.name).toBe('Gingerbreak Baby');
    });
});
## Related Topics * {@link dev_guide.mvc About MVC in Angular} * {@link dev_guide.mvc.understanding_model Understanding the Model Component} * {@link dev_guide.mvc.understanding_view Understanding the View Component}