Class Engine
publicimport Engine from '@ember/engine';
The Engine
class contains core functionality for both applications and
engines.
Each engine manages a registry that's used for dependency injection and
exposed through RegistryProxy
.
Engines also manage initializers and instance initializers.
Engines can spawn EngineInstance
instances via buildInstance()
.
buildInstance EngineInstance public
Defined in packages/@ember/engine/index.ts:359
- returns
- EngineInstance
the engine instance
Create an EngineInstance for this engine.
initializer (initializer) public
Defined in packages/@ember/engine/index.ts:62
- initializer
- Object
The goal of initializers should be to register dependencies and injections. This phase runs once. Because these initializers may load code, they are allowed to defer application readiness and advance it. If you need to access the container or store you should use an InstanceInitializer that will be run after all initializers and therefore after all code is loaded and the app is ready.
Initializer receives an object which has the following attributes:
name
, before
, after
, initialize
. The only required attribute is
initialize
, all others are optional.
name
allows you to specify under which name the initializer is registered. This must be a unique name, as trying to register two initializers with the same name will result in an error.
import { debug } from '@ember/debug';
export function initialize() {
debug('Running namedInitializer!');
}
export default {
name: 'named-initializer',
initialize
};
before
andafter
are used to ensure that this initializer is ran prior or after the one identified by the value. This value can be a single string or an array of strings, referencing thename
of other initializers.
An example of ordering initializers, we create an initializer named first
:
import { debug } from '@ember/debug';
export function initialize() {
debug('First initializer!');
}
export default {
name: 'first',
initialize
};
// DEBUG: First initializer!
We add another initializer named second
, specifying that it should run
after the initializer named first
:
import { debug } from '@ember/debug';
export function initialize() {
debug('Second initializer!');
}
export default {
name: 'second',
after: 'first',
initialize
};
// DEBUG: First initializer!
// DEBUG: Second initializer!
Afterwards we add a further initializer named pre
, this time specifying
that it should run before the initializer named first
:
import { debug } from '@ember/debug';
export function initialize() {
debug('Pre initializer!');
}
export default {
name: 'pre',
before: 'first',
initialize
};
// DEBUG: Pre initializer!
// DEBUG: First initializer!
// DEBUG: Second initializer!
Finally we add an initializer named post
, specifying it should run after
both the first
and the second
initializers:
import { debug } from '@ember/debug';
export function initialize() {
debug('Post initializer!');
}
export default {
name: 'post',
after: ['first', 'second'],
initialize
};
// DEBUG: Pre initializer!
// DEBUG: First initializer!
// DEBUG: Second initializer!
// DEBUG: Post initializer!
initialize
is a callback function that receives one argument,application
, on which you can operate.
Example of using application
to register an adapter:
import ApiAdapter from '../utils/api-adapter';
export function initialize(application) {
application.register('api-adapter:main', ApiAdapter);
}
export default {
name: 'post',
after: ['first', 'second'],
initialize
};
instanceInitializer (instanceInitializer) public
Defined in packages/@ember/engine/index.ts:209
- instanceInitializer
Instance initializers run after all initializers have run. Because instance initializers run after the app is fully set up. We have access to the store, container, and other items. However, these initializers run after code has loaded and are not allowed to defer readiness.
Instance initializer receives an object which has the following attributes:
name
, before
, after
, initialize
. The only required attribute is
initialize
, all others are optional.
name
allows you to specify under which name the instanceInitializer is registered. This must be a unique name, as trying to register two instanceInitializer with the same name will result in an error.
import { debug } from '@ember/debug';
export function initialize() {
debug('Running named-instance-initializer!');
}
export default {
name: 'named-instance-initializer',
initialize
};
before
andafter
are used to ensure that this initializer is ran prior or after the one identified by the value. This value can be a single string or an array of strings, referencing thename
of other initializers.See Application.initializer for discussion on the usage of before and after.
Example instanceInitializer to preload data into the store.
export function initialize(application) {
var userConfig, userConfigEncoded, store;
// We have a HTML escaped JSON representation of the user's basic
// configuration generated server side and stored in the DOM of the main
// index.html file. This allows the app to have access to a set of data
// without making any additional remote calls. Good for basic data that is
// needed for immediate rendering of the page. Keep in mind, this data,
// like all local models and data can be manipulated by the user, so it
// should not be relied upon for security or authorization.
// Grab the encoded data from the meta tag
userConfigEncoded = document.querySelector('head meta[name=app-user-config]').attr('content');
// Unescape the text, then parse the resulting JSON into a real object
userConfig = JSON.parse(unescape(userConfigEncoded));
// Lookup the store
store = application.lookup('service:store');
// Push the encoded JSON into the store
store.pushPayload(userConfig);
}
export default {
name: 'named-instance-initializer',
initialize
};
register (fullName, factory, options) public
Inherited from BasicRegistry packages/@ember/-internals/owner/index.ts:98
- fullName
- String
type:name (e.g., 'model:user')
- factory
- Factory|object
(e.g., App.Person)
- options
- Object
(optional) disable instantiation or singleton usage
Registers a factory that can be used for dependency injection (with
inject
) or for service lookup. Each factory is registered with
a full name including two parts: type:name
.
A simple example:
import Application from '@ember/application';
import EmberObject from '@ember/object';
let App = Application.create();
App.Orange = EmberObject.extend();
App.register('fruit:favorite', App.Orange);
Ember will resolve factories from the App
namespace automatically.
For example App.CarsController
will be discovered and returned if
an application requests controller:cars
.
An example of registering a controller with a non-standard name:
import Application from '@ember/application';
import Controller from '@ember/controller';
let App = Application.create();
let Session = Controller.extend();
App.register('controller:session', Session);
// The Session controller can now be treated like a normal controller,
// despite its non-standard name.
App.ApplicationController = Controller.extend({
needs: ['session']
});
Registered factories are instantiated by having create
called on them. Additionally they are singletons, each time
they are looked up they return the same instance.
Some examples modifying that default behavior:
import Application from '@ember/application';
import EmberObject from '@ember/object';
let App = Application.create();
App.Person = EmberObject.extend();
App.Orange = EmberObject.extend();
App.Email = EmberObject.extend();
App.session = EmberObject.create();
App.register('model:user', App.Person, { singleton: false });
App.register('fruit:favorite', App.Orange);
App.register('communication:main', App.Email, { singleton: false });
App.register('session', App.session, { instantiate: false });