Merge pull request #39 from angular/api-branch

Api branch
This commit is contained in:
Alex Wolfe 2015-04-23 08:39:43 -07:00
commit dee489683e
297 changed files with 14071 additions and 91 deletions

1
.gitignore vendored
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@ -1,3 +1,4 @@
node_modules
www
.DS_Store
.idea

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@ -7,7 +7,7 @@ Angular.io is currently the preview site for Angular 2. This site also includes
## Development Setup
1. Install Harp `sudo npm install -g harp`
1. Install Harp `sudo npm install -g harp@v0.15.2`
2. cd into root directory `angular.io/`
3. run `harp server`
4. Open this url in the browser: [http://localhost:9000/](http://localhost:9000/)

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@ -1,2 +1,4 @@
.banner.is-centered
p.text-body !{banner}
content = banner ? banner : intro
.banner
p.text-body !{content}

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@ -3,7 +3,7 @@ nav.side-nav.l-pinned-left.l-layer-4.l-offset-nav
form.st-input-inner
label(for="search-io" class="is-hidden") Search Docs
input(type="search" id="search-io" placeholder="SEARCH DOCS...")
button(class="mobile-trigger button" aria-label="View Docs Menu" ng-click="toggleDocsMenu($event)" md-button) Docs <span class="icon icon-arrow-drop-down"></span>
button(aria-label="Docs Menu" class="mobile-trigger button" aria-label="View Docs Menu" ng-click="toggleDocsMenu($event)" md-button) Docs <span class="icon icon-arrow-drop-down"></span>
ul(class="side-nav-primary" ng-class="showDocsNav ? 'is-visible' : ''")
if current.path[2]
@ -11,4 +11,45 @@ nav.side-nav.l-pinned-left.l-layer-4.l-offset-nav
name = page.menuTitle || page.title
selected = current.path[3] == slug ? 'is-selected':''
li <a class="#{selected}" href="/docs/#{current.path[1]}/#{current.path[2]}/#{slug}.html" md-button><span class="side-nav-icon icon-#{page.icon}"></span> #{name}</a>
// PRIMARY NAVIGATION
if public.docs[current.path[1]][current.path[2]][slug]
li(class="#{selected}") <a href="/docs/#{current.path[1]}/#{current.path[2]}/#{slug}/" md-button><span class="side-nav-icon icon-#{page.icon}"></span> #{name}</a>
else
li(class="#{selected}") <a href="/docs/#{current.path[1]}/#{current.path[2]}/#{slug}.html" md-button><span class="side-nav-icon icon-#{page.icon}"></span> #{name}</a>
// SECONDARY NAVIGATION
if selected
secondarySection = public.docs[current.path[1]][current.path[2]][current.path[3]]
if secondarySection
listType = public.docs[current.path[1]][current.path[2]][current.path[3]]._data._listtype || 'unordered'
ordered = listType == "ordered" ? "is-ordered" : ""
number = 0
ul(class="side-nav-secondary #{ordered}")
for page, slug in public.docs[current.path[1]][current.path[2]][current.path[3]]._data
if slug != "index"
name = page.menuTitle || page.title
selected = current.path[4] == slug ? 'is-selected':''
num = (listType == "ordered") ? number++ : ''
if slug != "_listtype"
if num
li(class="#{selected}") <a href="/docs/#{current.path[1]}/#{current.path[2]}/#{current.path[3]}/#{slug}.html" md-button>#{num}. #{page.title}</a>
else
li(class="#{selected}") <a href="/docs/#{current.path[1]}/#{current.path[2]}/#{current.path[3]}/#{slug}.html" md-button>#{page.title}</a>
// TERTIARY NAVIGATION
if selected
tertiarySection = public.docs[current.path[1]][current.path[2]][current.path[3]][current.path[4]]
if tertiarySection
ul.side-nav-tertiary
for page, slug in public.docs[current.path[1]][current.path[2]][current.path[3]][current.path[4]]._data
name = page.menuTitle || page.title
selected = current.path[5] == slug ? 'is-selected':''
li(class="#{selected}")<a href="/docs/#{current.path[1]}/#{current.path[2]}/#{current.path[3]}/#{current.path[4]}/#{slug}.html" md-button>#{name}</a>

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@ -43,5 +43,5 @@
footer(class="background-steel")
small.text-caption Powered by Google ©2010-2015. Code licensed under the <a href="http://www.apache.org/licenses/LICENSE-2.0" class="text-snow">Apache License, Version 2.0</a>. Documentation licensed under <a class="text-snow" href="http://creativecommons.org/licenses/by/3.0/">CC BY 3.0</a>.
a(href="/docs/styleguide.html" title="Style Guide" class="styleguide-trigger text-snow" md-button)
a(aria-label="View Style Guide" href="/docs/styleguide.html" title="Style Guide" class="styleguide-trigger text-snow" md-button)
span.icon-favorite

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@ -34,9 +34,10 @@ meta(itemprop="description" content="#{description}")
meta(itemprop="image" content="https://angular.io/resources/images/logos/standard/shield-large.png")
link(rel="icon" type="image/x-icon" href="/resources/images/icons/favicon.ico")
link(rel="stylesheet" href="https://ajax.googleapis.com/ajax/libs/angular_material/0.7.1/angular-material.min.css")
link(rel="stylesheet" href="https://ajax.googleapis.com/ajax/libs/angular_material/0.8.3/angular-material.min.css")
link(href='https://fonts.googleapis.com/css?family=Roboto:400,300,500,400italic,700' rel='stylesheet' type='text/css')
link(rel="stylesheet" href="/resources/css/vendor/icomoon/style.css")
link(rel="stylesheet" href="/resources/css/vendor/animate.css")
link(rel="stylesheet" href="/resources/css/main.css")
<!-- MOBILE ICONS -->

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@ -0,0 +1,12 @@
hasIcon = icon ? 'has-icon' : ''
iconNumber = number ? number : ''
a(class="hover-card is-button #{hasIcon}" href="#{url}" md-button)
if icon
span(class="hover-card-icon #{icon}") #{iconNumber}
h3 #{name}
if cta
p #{cta}
else
p View #{name} Docs

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@ -0,0 +1,22 @@
currentPage = false
nextPage = false
data = public.docs[current.path[1]][current.path[2]][current.path[3]]._data
for page, slug in data
if slug != "index"
// CHECK IF CURRENT PAGE IS SET, THEN SET NEXT PAGE
if currentPage
if !nextPage
.l-sub-section
h3 Next Step
a(href="/docs/#{current.path[1]}/#{current.path[2]}/#{current.path[3]}/#{slug}.html") #{page.title}
//NEXT PAGE HAS NOW BEEN SET
nextPage = true
// SET CURRENT PAGE FLAG WHEN YOU PASS IT
if current.path[4] == slug
currentPage = true

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@ -1,13 +1,16 @@
<!-- Angular Material Dependencies -->
script(src="https://ajax.googleapis.com/ajax/libs/angularjs/1.3.6/angular.js")
script(src="https://ajax.googleapis.com/ajax/libs/angularjs/1.3.6/angular-animate.js")
script(src="https://ajax.googleapis.com/ajax/libs/angularjs/1.3.6/angular-aria.js")
script(src="https://ajax.googleapis.com/ajax/libs/angular_material/0.8.2/angular-material.min.js")
<!-- VENDORS -->
script(src="/resources/js/vendor/prettify.js")
script(src="/resources/js/vendor/lang-basic.js")
script(src="/resources/js/vendor/lang-dart.js")
script(src="/resources/js/vendor/jquery.js")
<!-- Angular Material Dependencies -->
script(src="https://ajax.googleapis.com/ajax/libs/angularjs/1.3.6/angular.js")
script(src="https://ajax.googleapis.com/ajax/libs/angularjs/1.3.6/angular-animate.js")
script(src="https://ajax.googleapis.com/ajax/libs/angularjs/1.3.6/angular-aria.js")
script(src="https://ajax.googleapis.com/ajax/libs/angular_material/0.8.3/angular-material.min.js")
script(src="/resources/js/site.js")

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@ -11,8 +11,10 @@ if current.path[2]
<!-- Replace _ undscores with . dots -->
if current.path[3]
page = current.path[3] + '.html'
if public.docs[current.path[1]][current.path[2]][current.path[3]]
page = current.path[3] + '/'
else
page = current.path[3] + '.html'
<!-- VERSION TREE CREATOR MIXIN -->
mixin tree(directory, urlPrefix, name, latest)

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@ -11,9 +11,9 @@
"title": "5 Min Quickstart"
},
"resources": {
"icon": "play-circle-fill",
"title": "Angular Resources",
"guide": {
"icon": "list",
"title": "Step By Step Guide",
"banner": "Angular 2 is currently in Alpha Preview. For AngularDart 1.X resources, visit <a href='https://angulardart.org/'>angulardart.org</a>."
},
@ -22,6 +22,12 @@
"title": "API Proposal"
},
"resources": {
"icon": "play-circle-fill",
"title": "Angular Resources",
"banner": "Angular 2 is currently in Alpha Preview. For <a href='https://docs.angularjs.org/guide'>Angular 1.X Resources</a> please visit <a href='https://angularjs.org/'>Angularjs.org</a>."
},
"help": {
"icon": "chat",
"title": "Help & Support"

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@ -0,0 +1,20 @@
{
"_listtype": "ordered",
"setup": {
"title": "Getting Started"
},
"index": {
"title": "Step By Step Guide"
},
"displaying-data": {
"title": "Displaying Data"
},
"user-input": {
"title": "User Input"
},
"making-components": {
"title": "Making Components"
}
}

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@ -0,0 +1,19 @@
doctype
html(lang="en" ng-app="angularIOApp")
head
!= partial("../../../../_includes/_head-include")
body(class="l-offset-nav l-offset-side-nav" ng-controller="AppCtrl")
!= partial("../../../../_includes/_main-nav")
!= partial("../../../../_includes/_docs-nav")
!= partial("../../../../_includes/_hero")
if banner
!= partial("../../../../_includes/_banner")
article.l-content-small.grid-fluid.docs-content(ng-non-bindable)
!= yield
!= partial("../../../../_includes/_next-item")
!= partial("../../../../_includes/_footer")
!= partial("../../../../_includes/_scripts-include")

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@ -0,0 +1,448 @@
.l-main-section
p.
Displaying data is job number one for any good application.
In Angular, you bind data to elements in HTML
templates, and Angular automatically updates the UI as data changes.
p.
Let's walk through how to display a property and a list of properties,
and then to conditionally show content
based on state.
p.
The final UI looks like this:
figure.image-display
img(src='displaying-data-example1.png')
.l-main-section
h2#section-create-an-entry-point Create entry points and pubspec
p.
Open your favorite editor and create a directory with
a <code>web/main.dart</code> file,
a <code>web/index.html</code> file, and
a <code>pubspec.yaml</code> file:
.code-box
pre.prettyprint.lang-dart(data-name="dart")
code.
// web/main.dart
library displaying_data;
import 'package:angular2/angular2.dart';
import 'package:angular2/src/reflection/reflection.dart' show reflector;
import 'package:angular2/src/reflection/reflection_capabilities.dart' show ReflectionCapabilities;
part 'show_properties.dart';
main() {
reflector.reflectionCapabilities = new ReflectionCapabilities();
bootstrap(DisplayComponent);
}
pre.prettyprint.lang-html(data-name="html")
code.
&lt;!-- web/index.html --&gt;
&lt;!DOCTYPE html&gt;
&lt;html&gt;
&lt;head&gt;
&lt;link rel=&quot;stylesheet&quot; href=&quot;style.css&quot;&gt;
&lt;/head&gt;
&lt;body&gt;
&lt;display&gt;&lt;/display&gt;
&lt;script type=&quot;application/dart&quot; src=&quot;main.dart&quot;&gt;&lt;/script&gt;
&lt;script src=&quot;packages/browser/dart.js&quot;&gt;&lt;/script&gt;
&lt;/body&gt;
&lt;/html&gt;
pre.prettyprint.lang-yaml(data-name="yaml")
code.
# pubspec.yaml
name: displaying_data
description: Dart version of Angular 2 example, Displaying Data
version: 0.0.1
dependencies:
angular2: 2.0.0-alpha.20
browser: any
p.
All of this code should look familiar from the previous page,
except for the <code>library</code> and <code>part</code> statements
in <code>main.dart</code>.
Those statements let you implement part of the app in a different Dart file.
All three of these files remain similar in the rest of the examples,
so we'll just focus on what's different.
.l-main-section
h2#section-showing-properties-with-interpolation Showing properties with interpolation
p.
The simple method for binding text into templates is through interpolation,
where you put the name of a property
inside <strong>{{ }}</strong>.
p.
To see this working, create a Dart file under <code>web</code>
named <code>show_properties.dart</code>,
and add the following:
pre.prettyprint.lang-dart
code.
// web/show_properties.dart
part of displaying_data;
@Component(
selector: 'display'
)
@View(
template: '''
&lt;p>My name: {{ myName }}&lt/p>
'''
)
class DisplayComponent {
String myName = 'Alice';
}
p.
You've just defined a component that encompasses a view and controller for the app. The view
defines a template:
pre.prettyprint.lang-html
code.
&lt;p&gt;My name: {{ myName }}&lt;/p&gt;
p.
Angular will automatically pull the value of <code>myName</code> and
insert it into the browser,
automatically updating it whenever it changes.
.callout.is-helpful
header Note
p.
While you've used <code>template:</code> to specify an inline view, for larger templates you'd
want to move them to a separate file and load them with <code>templateUrl:</code> instead.
p.
One thing to notice is that although you've written
your <code>DisplayComponent</code> class, you haven't
used <code>new</code> to instantiate it.
Because your class is associated with <code>&lt;display&gt;</code> elements in
the DOM, Angular automatically calls <code>new</code> on
<code>DisplayComponent</code> and bind its properties to
that part of the template.
p.
When you're building templates, data bindings like these have access to
the same scope of
properties as your controller class does.
Here your class is <code>DisplayComponent</code>, which has
just one property, <code>myName</code>.
p.
Add a second line to the template,
so you can see Angular dynamically update content:
pre.prettyprint.lang-html
code.
&lt;p&gt;Current time: {{ time }}&lt;/p&gt;
p.
Then give the <code>DisplayComponent</code> a starting value for time and
a call to update time
via <code>setInterval</code>:
pre.prettyprint.lang-dart
code.
class DisplayComponent {
String myName = 'Alice';
String time;
Timer _timer;
DisplayComponent() {
_updateTime(null);
_timer = new Timer.periodic(new Duration(seconds: 1), _updateTime);
}
_updateTime(Timer _) {
time = new DateTime.now().toString();
}
}
p Reload the app, and you'll now see the seconds updating automatically.
.l-main-section
h2#Create-an-array Display an iterable using *for
p Moving up from a single value, create a property that's a list of values.
pre.prettyprint.lang-dart
code.
class DisplayComponent {
String myName = 'Alice';
List&lt;String&gt; friendNames = ['Aarav', 'Martín', 'Shannon', 'Ariana', 'Kai'];
}
p.
You can then use this list in your template with the <code>for</code> directive to create copies of DOM elements
with one for each item in the list.
pre.prettyprint.lang-dart
code.
@View(
template: '''
&lt;p>My name: {{ myName }}&lt;/p>
&lt;p>Friends:&lt;/p>
&lt;ul>
&lt;li *for="#name of friendNames">
{{ name }}
&lt;/li>
&lt;/ul>
'''
)
p.
To make this work, you'll also need to add the Angular <code>For</code> directive used by
the template to <code>show_properties.dart</code>, so that Angular knows to include it.
Add <code>For</code> using the optional <code>directives</code> parameter,
which contains a list of directives:
pre.prettyprint.lang-dart
code.
@View(
template: '''
// ...HTML...
''',
directives: const[For]
)
p Reload and you've got your list of friends!
p.
Again, Angular will mirror changes you make to this list over in the DOM. Add a new item and it appears in your
list. Delete one and Angular deletes the &lt;li&gt;. Reorder items and Angular makes the corresponding reorder of
the DOM list.
p Let's look at the few lines that do the work again:
pre.prettyprint.lang-html
code.
&lt;li *for=&quot;#name of friendNames&quot;&gt;
{{ name }}
&lt;/li&gt;
p The way to read this is:
ul
li.
<code>*for</code>: Create a DOM element for each item in an
<a href="https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Iteration_protocols">iterable</a>
such as a list.
li <code>#name</code>: Refer to individual values of the iterable as <code>name</code>.
li <code>of friendNames</code>: The iterable to use is called <code>friendNames</code> in the current controller.
p Using this syntax, you can build UI lists from any iterable object.
.l-main-section
h2#Create-a-class Create a model and inject it
p.
Before we get too much further, we should mention that putting the model (list) directly into the controller isn't
proper form. We should separate the concerns by having another class serve the role of model and inject it into
the controller.
p.
Make a <code>FriendsService</code> class to implement a model containing a list of friends. We'll put this in a new
<code>friends_service.dart</code> under <code>web/</code>. Here's what the class looks like:
pre.prettyprint.lang-dart
code.
// web/friends_service.dart
part of displaying_data;
class FriendsService {
List&lt;String&gt; friendNames = ['Aarav', 'Martín', 'Shannon', 'Ariana', 'Kai'];
}
.callout.is-helpful
header Note
p.
Remember to tie <code>friends_service.dart</code> into the library's main file:
add <code>part friends_service.dart</code> to <code>main.dart</code>.
p.
Now you can replace the current list of friends in DisplayComponent.
First add a FriendsService parameter to the constructor.
Then set <code>friendNames</code> to the names provided by the service.
pre.prettyprint.lang-dart
code.
// In web/show_properties.dart
class DisplayComponent {
String myName = 'Alice';
List<String> friendNames;
DisplayComponent(FriendsService friendsService) {
friendNames = friendsService.names;
}
}
p.
Next, make FriendsService available to dependency injection
by adding an <code>injectables</code> parameter to DisplayComponent's
<code>@Component</code> annotation:
pre.prettyprint.lang-dart
code.
@Component(
selector: 'display',
injectables: const[FriendsService]
)
.l-main-section
h2#Conditionally-displaying-data-with-If Conditionally display data using *if
p.
Lastly, before we move on, let's handle showing parts of our UI conditionally with <code>*if</code>. The
<code>If</code> directive adds or removes elements from the DOM based on the expression you provide.
p See it in action by adding a paragraph at the end of your template:
pre.prettyprint.lang-html
code.
&lt;p *if=&quot;names.length &gt; 3&quot;&gt;You have many friends!&lt;/p&gt;
p.
Also add <code>If</code> to the list of directives,
so Angular knows to include it:
pre.prettyprint.lang-dart
code.
directives: const[For, If]
p.
The list current has 5 items, so if you run the app you'll see the message
congratulating you on your many friends.
Remove two items from the list, reload your browser,
and see that the message no longer displays.
<!-- PENDING: mention somewhere that once you start a web server,
you can just refresh the browser to see your changes. -->
p Here's the final code.
.code-box
pre.prettyprint.lang-dart(data-name="show_properties.dart")
code.
// web/show_properties.dart
part of displaying_data;
@Component(
selector: 'display',
injectables: const[FriendsService]
)
@View(
template: '''
&lt;p>My name: {{ myName }}&lt;/p>
&lt;p>Friends:&lt;/p>
&lt;ul>
&lt;li *for="#name of friendNames">
{{ name }}
&lt;/li>
&lt;/ul>
''',
directives: const[For]
)
class DisplayComponent {
String myName = 'Alice';
List&lt;String> friendNames;
DisplayComponent(FriendsService friendsService) {
friendNames = friendsService.names;
}
}
pre.prettyprint.lang-dart(data-name="friends_service.dart")
code.
// web/friends_service.dart
part of displaying_data;
class FriendsService {
List&lt;String> names = ['Aarav', 'Martín', 'Shannon', 'Ariana', 'Kai'];
}
pre.prettyprint.lang-dart(data-name="main.dart")
code.
// web/main.dart
library displaying_data;
import 'dart:async';
import 'package:angular2/angular2.dart';
import 'package:angular2/src/reflection/reflection.dart' show reflector;
import 'package:angular2/src/reflection/reflection_capabilities.dart' show ReflectionCapabilities;
part 'show_properties.dart';
part 'friends_service.dart';
main() {
reflector.reflectionCapabilities = new ReflectionCapabilities();
bootstrap(DisplayComponent);
}
pre.prettyprint.lang-html(data-name="html")
code.
&lt;!-- web/index.html --&gt;
&lt;!DOCTYPE html&gt;
&lt;html&gt;
&lt;head&gt;
&lt;link rel=&quot;stylesheet&quot; href=&quot;style.css&quot;&gt;
&lt;/head&gt;
&lt;body&gt;
&lt;display&gt;&lt;/display&gt;
&lt;script type=&quot;application/dart&quot; src=&quot;main.dart&quot;&gt;&lt;/script&gt;
&lt;script src=&quot;packages/browser/dart.js&quot;&gt;&lt;/script&gt;
&lt;/body&gt;
&lt;/html&gt;
pre.prettyprint.lang-yaml(data-name="yaml")
code.
# pubspec.yaml
name: displaying_data
description: Dart version of Angular 2 example, Displaying Data
version: 0.0.1
dependencies:
angular2: 2.0.0-alpha.20
browser: any
.l-main-section
h2#section-explanations Explanations
.l-sub-section
h3 Using multiple Dart files in an Angular app
p.
Dart offers a few ways to implement an app in multiple files.
In this guide, all the code for each example is in a single library;
each Dart file under <code>web</code> is part of that library.
p.
To let the code in <code>main.dart</code>
use the code in <code>show_properties.dart</code>,
declare a library in <code>main.dart</code>.
Then make <code>show_properties.dart</code> part of that library.
.code-box
pre.prettyprint.lang-dart(data-name="main library file")
code.
// web/main.dart
library displaying_data;
// imports...
part 'show_properties.dart';
// Code goes here...
pre.prettyprint.lang-dart(data-name="additional library file")
code.
// web/show_properties.dart
part of displaying_data;
// Code goes here...
p.
Another way to split Dart code is to
define multiple libraries in a single package.
The additional libraries go under a <code>lib</code> directory
parallel to <code>web</code>.
<!-- PENDING: show or point to an example -->
p.
Yet another approach, often used when some of the code is highly reusable,
is to split the code into libraries in two or more packages.
p.
For more information on implementing Dart libraries, see
<a href="https://www.dartlang.org/docs/dart-up-and-running/ch02.html#libraries-and-visibility">Libraries and visibility</a>
in the
<a href="https://www.dartlang.org/docs/dart-up-and-running/ch02.html">Dart language tour</a>.

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number = 1;
ul
for page, slug in public.docs[current.path[1]][current.path[2]].guide._data
if slug != '_listtype' && slug != 'index'
url = "/docs/" + current.path[1] + "/" + current.path[2] + "/" + current.path[3] + "/" + slug + ".html"
num = number++
li.c8
!= partial("../../../../_includes/_hover-card", { icon: "icon-number", number: num, name: page.title, url: url })

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@ -0,0 +1,50 @@
.l-main-section
p.
As mentioned earlier, you build Angular applications as a tree of nested components. You've seen how to create
a top-level component. You add child components to a parent component by using them in the parent component's
template.
p.
Given a bootstrapping template with a <code>&lt;parent&gt;</code> tag in the body, you can create a parent
component that uses a <code>&lt;child&gt;</code> component like so:
pre.prettyprint.linenums.lang-dart
code.
part of making_components;
@Component(
selector: 'parent'
)
@View(
template: '''
&lt;h1&gt;{{ message }}&lt;/h1&gt;
&lt;child&gt;&lt;/child&gt;
''',
directives: const[ChildComponent]
)
class ParentComponent {
String message = "I'm the parent";
}
p You then just need to write the <code>ChildComponent</code> class to make it work:
pre.prettyprint.linenums.lang-dart
code.
part of making_components;
@Component(
selector: 'child'
)
@View(
template: '''
&lt;p&gt; {{ message }} &lt;/p&gt;
'''
)
class ChildComponent {
String message = "I'm the child";
}
p.
Notice that in addition to using the <code>&lt;child&gt;</code> element in the parent template, you also need to
add <code>ChildComponent</code> in <code>ParentComponent</code>'s list of directives
//p.
[TODO: Motivate communication between components with iterator example that passes index to the child]

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.l-main-section
p.
As long as you already
<a href="https://www.dartlang.org/downloads/">have the Dart SDK</a>,
getting started with Angular 2 is simple:
ol
li Depend on the <b>angular2</b> pub package.
li Create a Dart file that defines (directly or indirectly) a
<b>root component</b> and <b>bootstraps</b> Angular.
li Create an HTML file that uses the root component and points to the Dart file
p.
You can use whichever editor or IDE you like,
or just use the command-line tools that the Dart SDK provides.
See <a href="http://www.dartlang.org/tools/">Dart Tools</a>
for more information.
h2#section-install Depend on angular2
p.
To use Angular2 in your app, include angular2 as a dependency in
your app's <b>pubspec.yaml</b> file. For example:
pre.prettyprint.lang-yaml
code.
# pubspec.yaml
name: getting_started
description: Dart version of Angular 2 example, Getting Started
version: 0.0.1
dependencies:
angular2: 2.0.0-alpha.20
browser: any
p.
Run <b>pub get</b> to download the packages your app depends on.
(<a href="https://www.dartlang.org/tools/">Dart-savvy editors and IDEs</a>
typically run <code>pub get</code> for you.)
.l-main-section
h2#section-set-up-the-starting-component Write the Dart code
p.
Next to your <code>pubspec.yaml</code> file,
create a <code>web</code> subdirectory containing a Dart file
(<code>main.dart</code>).
Edit <code>main.dart</code>, adding a component class (<b>AppComponent</b>),
configuring it to bind to the <code>&lt;my-app&gt;</code> element,
and creating a top-level <code>main()</code> function that calls
Angular's <code>bootstrap()</code> function.
pre.prettyprint.lang-dart
code.
// web/main.dart
import 'package:angular2/angular2.dart';
import 'package:angular2/src/reflection/reflection.dart' show reflector;
import 'package:angular2/src/reflection/reflection_capabilities.dart' show ReflectionCapabilities;
@Component(
selector: 'my-app'
)
@View(
template: '&lt;h1&gt;My first Angular 2 App&lt;/h1&gt;'
)
class AppComponent {
}
main() {
reflector.reflectionCapabilities = new ReflectionCapabilities();
bootstrap(AppComponent);
}
.l-main-section
h2#section-create-an-entry-point Create an HTML file
p.
In the <code>web/</code> directoryapp, create an HTML file (<code>index.html</code>).
Edit <code>index.html</code> to add a <code>&lt;my-app&gt;</code> element
and call <code>main.dart</code>.
pre.prettyprint.lang-html
code.
&lt;!-- web/index.html -->
&lt;!DOCTYPE html&gt;
&lt;html&gt;
&lt;head&gt;
&lt;link rel=&quot;stylesheet&quot; href=&quot;style.css&quot;&gt;
&lt;/head&gt;
&lt;body&gt;
&lt;my-app&gt;&lt;/my-app&gt;
&lt;script type=&quot;application/dart&quot; src=&quot;main.dart&quot;&gt;&lt;/script&gt;
&lt;script src=&quot;packages/browser/dart.js&quot;&gt;&lt;/script&gt;
&lt;/body&gt;
&lt;/html&gt
.l-main-section
h2#section-run-it Run the app!
p.
Now run the app. How you do this depends on your tools.
ul
li.
If you're using <b>Dart Editor</b>,
right-click <b>web/index.html</b>,
and choose <b>Open in Dartium</b>.
This starts a web server
and opens your app in Dartium,
an experimental version of the Chromium browser that contains the Dart VM.
li.
If you're using <b>WebStorm</b> or <b>IntelliJ IDEA</b>,
right-click <b>web/index.html</b>,
and choose <b>Run 'index.html'</b>.
li.
If you're using the command line and don't have Dartium,
serve the app using <code>pub serve</code>,
and then run it by visiting <b>http://localhost:8080</b> in a browser.
Generating the JavaScript takes a few seconds when you first visit the page,
and the generated JavaScript is currently large.
The generated JavaScript will be smaller once
Angular's transformer becomes available.
p.
You should see something like this:
figure.image-display
img(src='setup-example1.png')
.l-main-section
h2#section-explanations Explanations
p This basic Angular app contains the structure for any app you'll build.
.l-sub-section
h3 It's all a tree
p.
You can think of an Angular app as a tree of components.
The root component acts as the top-level container for the rest of your application.
You've named this one <code>AppComponent</code>, but there's
nothing special about the name; you can use whatever makes sense to you.
p.
The root component's job is to give a location in the HTML file where
your application can
render through its element—in this case, <code>&lt;my-app&gt;</code>.
There's nothing special about the HTML filename or the element name;
you can pick whatever you like.
p.
The root component loads the initial template for the application,
which loads other components to perform
whatever functions your application needs—menu bars, views, forms, and so on.
We'll walk through examples of all of
these in the following pages.
.l-sub-section
h3 @Component and @View annotations
p.
A component annotation describes details about the component.
An annotation can be identified by its at-sign (<code>@</code>).
p.
The <code>@Component</code> annotation defines the HTML tag for
the component by specifying the component's CSS selector.
p.
The <code>@View</code> annotation defines the HTML that
represents the component.
The component you wrote uses an inline template,
but you can also have an external template.
To use an external template,
specify a <code>templateUrl</code> property and
give it the path to the HTML file.
p.
Exciting! Not excited yet?
Let's move on to <a href="displaying-data.html">Displaying Data</a>.

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.l-main-section
p.
You can make your application respond to user input by associating events with functions in your controller
using the event syntax using <strong>()</strong> to surround the name of an event.
p.
For a particular control like an input you can have it call methods on your controller on keyup event like so:
pre.prettyprint.lang-html
code.
&lt;input (keyup)="myControllerMethod()"&gt;
p.
As in previous examples, you can make element references available to other parts of the template as a local
variable using the # syntax. With this and events, we can do the old "update text as you type" example:
pre.prettyprint.lang-html
code.
&lt;input #my-name (keyup)&gt;
&lt;p&gt;{{my-name.value}}&lt;/p&gt;
p.text-body(ng-non-bindable).
The <code>#my-name</code> creates a local variable in the template that we'll refer to below in the
<code>&lt;p&gt;</code> element. The <code>(keyup)</code> tells Angular to trigger updates when it gets a keyup
event. And the <code>{{my-name.value}}</code> binds the text node of the <code>&lt;p&gt;</code> element to the
input's value property.
p Let's do something a little more complex where users enter items and add them to a list like this:
figure.image-display
img(src='user-input-example1.png')
.l-main-section
h2#section-create-an-array-property Create an array property
p.
With the default bootstrapping in place, create a TodoController class that will manage interactions with the
list. Inside TodoController, add an array with an initial list of items. Then add a method that pushes new items
on the array when called.
pre.prettyprint.linenums.lang-dart
code.
class TodoList {
List&lt;String&gt; todos =
['Eat breakfast', 'Walk dog', 'Breathe', 'Learn Angular'];
addTodo(String todo) {
todos.add(todo);
}
.callout.is-helpful
header Production Best Practice
p.
As with the previous example, in a production application you will separate your model out into another class
and inject it into <code>TodoController</code>. We've omitted it here for brevity.
.l-main-section
h2#section-display-the-list-of-todos Display the list of todos
p.
Using the <code>*for</code> iterator, create an <code>&lt;li&gt;</code> for each item in the todos array and set
its text to the value.
pre.prettyprint.linenums.lang-html
code.
&lt;ul&gt;
&lt;li *for=&quot;#todo of todos&quot;&gt;
{{ todo }}
&lt;/li&gt;
&lt;/ul&gt;
.l-main-section
h2#section-add-todos-to-the-list Add todos to the list via button click
p.
Now, add a text input and a button for users to add items to the list. As you saw above, you can create a local
variable reference in your template with <code>#varname</code>. Call it <code>#todotext</code> here.
pre.prettyprint.lang-html
code.
&lt;input #todotext&gt;
p.
Lastly, specify the target of the click event binding as your controller's <code>addTodo()</code> method and pass
it the value. Since you created a reference called <code>todotext</code>, you can get the value with
<code>todotext.value.</code>
pre.prettyprint.lang-html
code.
&lt;button (click)="addTodo(todotext.value)"&gt;Add Todo&lt;/button&gt;
p And then create the doneTyping() method on TodoList and handle adding the todo text.
pre.prettyprint.lang-dart
code.
doneTyping(KeyboardEvent event) {
if (event.which == 13) {
InputElement e = event.target;
addTodo(e.value);
e.value = null;
}
}
.l-main-section
h2#section-final-code Final Code
p Here's the final <code>todo_list.dart</code>
pre.prettyprint.lang-dart
code.
part of user_input;
@Component(
selector: 'todo-list'
)
@View(
// Without r before ''' (a raw string), $event breaks Angular!
// An alternative is to use \$event instead.
template: '''
&lt;ul&gt;
&lt;li *for=&quot;#todo of todos&quot;&gt;
{{ todo }}
&lt;/li&gt;
&lt;/ul&gt;
&lt;input #todotext (keyup)="doneTyping($event)"&gt;
&lt;button (click)="addTodo(todotext.value)"&gt;Add Todo&lt;/button&gt;
''',
directives: const[For]
)
class TodoList {
List&lt;String&gt; todos =
['Eat breakfast', 'Walk dog', 'Breathe', 'Learn Angular'];
addTodo(String todo) {
todos.add(todo);
}
doneTyping(KeyboardEvent event) {
if (event.which == 13) {
InputElement e = event.target;
addTodo(e.value);
e.value = null;
}
}
}

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@ -1,6 +1,6 @@
div.c4
md-card
md-card.card
md-card-content
h3.text-headline.text-uppercase <span class="icon-query-builder"></span> Quickstart
p.text-body Learn in 5 minutes
@ -10,21 +10,21 @@ div.c4
div.c4
md-card
md-card.card
md-card-content
h3.text-headline.text-uppercase <span class="icon-play-circle-outline"></span> Resources
p.text-body Preview of v2.0
h3.text-headline.text-uppercase <span class="icon-list"></span> Guide
p.text-body Step by Step Guide
footer
a(href="/docs/#{current.path[1]}/#{current.path[2]}/resources.html" class="button button-primary" md-button) View Resources
a(href="/docs/#{current.path[1]}/#{current.path[2]}/guide/" class="button button-primary" md-button) View Guide
div.c4
md-card
md-card.card
md-card-content
h3.text-headline.text-uppercase <span class="icon-book"></span> API Preview
p.text-body Proposal for v2.0 API
h3.text-headline.text-uppercase <span class="icon-book"></span> API
p.text-body API 2.0 Preview
footer
a(href="/docs/#{current.path[1]}/#{current.path[2]}/api.html" class="button" md-button) View API
a(href="/docs/#{current.path[1]}/#{current.path[2]}/api/" class="button" md-button) View API

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@ -1 +1,12 @@
h1 path #{current.path[0]}
.l-main-section
.l-sub-section
h3 JavaScript
ul
li <a href="/docs/js/latest">Angular 2 JS - Latest Version</a>
h3 Dart
ul
li <a href="/docs/dart/latest">Angular 2 Dart - Latest Version</a>

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@ -11,15 +11,21 @@
"title": "5 Min Quickstart"
},
"resources": {
"icon": "play-circle-fill",
"title": "Angular Resources",
"guide": {
"icon": "list",
"title": "Step By Step Guide",
"banner": "Angular 2 is currently in Alpha Preview. For <a href='https://docs.angularjs.org/guide'>Angular 1.X Resources</a> please visit <a href='https://angularjs.org/'>Angularjs.org</a>."
},
"api": {
"icon": "book",
"title": "API Proposal"
"title": "API Preview"
},
"resources": {
"icon": "play-circle-fill",
"title": "Angular Resources",
"banner": "Angular 2 is currently in Alpha Preview. For <a href='https://docs.angularjs.org/guide'>Angular 1.X Resources</a> please visit <a href='https://angularjs.org/'>Angularjs.org</a>."
},
"help": {

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@ -1,14 +0,0 @@
.l-main-section
h2 Developer Preview
p.
The Angular 2.0 API is currently in active development and not production ready.
This page will showcase a preview of proposed methods to help further the discussion
in the development community.
.l-sub-section
h3 Angular 1.X for Production
p.
If you're building a production app today, please
<a href="https://docs.angularjs.org/api">use Angular 1.X</a>.
These versions of Angular are production ready and available today.

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{
"index" : {
"title" : "API 2.0 Preview"
},
"annotations" : {
"title" : "Annotations"
},
"change_detection" : {
"title" : "Change Detection"
},
"core" : {
"title" : "Core"
},
"di" : {
"title" : "Di"
},
"di_annotations" : {
"title" : "Di Annotations"
},
"di_errors" : {
"title" : "Di Errors"
},
"directives" : {
"title" : "Directives"
},
"forms" : {
"title" : "Forms"
},
"pipes" : {
"title" : "Pipes"
},
"test" : {
"title" : "Test"
},
"view" : {
"title" : "View"
}
}

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ul
for page, slug in public.docs[current.path[1]][current.path[2]][current.path[3]][current.path[4]]._data
if slug != 'index'
url = "/docs/" + current.path[1] + "/" + current.path[2] + "/" + current.path[3] + "/" + current.path[4] + "/" + slug + ".html"
li.c8
!= partial("../../../../_includes/_hover-card", {name: page.title, url: url })

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p.location-badge.
exported from <a href="/angular2/annotations.html">angular2/annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/annotations/visibility.js#L105">angular2/src/core/annotations/visibility.js (line 105)</a>
:markdown
Specifies that an injector should retrieve a dependency from any ancestor element.
An ancestor is any element between the parent element and shadow root.
## Example
Here is a simple directive that retrieves a dependency from an ancestor element.
```
@Decorator({
selector: '[dependency]',
properties: {
'id':'dependency'
}
})
class Dependency {
id:string;
}
@Decorator({
selector: '[my-directive]'
})
class Dependency {
constructor(@Ancestor() dependency:Dependency) {
expect(dependency.id).toEqual(2);
};
}
```
We use this with the following HTML template:
```
<div dependency="1">
<div dependency="2">
<div>
<div dependency="3" my-directive></div>
</div>
</div>
</div>
```
The `@Ancestor()` annotation in our constructor forces the injector to retrieve the dependency from the
nearest ancestor element:
- The current element `dependency="3"` is skipped because it is not an ancestor.
- Next parent has no directives `<div>`
- Next parent has the `Dependency` directive and so the dependency is satisfied.
Angular injects `dependency=2`.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor()
:markdown

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p.location-badge.
exported from <a href="/angular2/annotations.html">angular2/annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/annotations/di.js#L53">angular2/src/core/annotations/di.js (line 53)</a>
:markdown
Specifies that a constant attribute value should be injected.
The directive can inject constant string literals of host element attributes.
## Example
Suppose we have an `<input>` element and want to know its `type`.
```html
<input type="text">
```
A decorator can inject string literal `text` like so:
```javascript
@Decorator({
selector: `input'
})
class InputDecorator {
constructor(@Attribute('type') type) {
// type would be `text` in this example
}
}
```
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(attributeName)
:markdown
.l-sub-section
h3 attributeName
:markdown
.l-sub-section
h3 token
:markdown

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p.location-badge.
exported from <a href="/angular2/annotations.html">angular2/annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/annotations/annotations.js#L755">angular2/src/core/annotations/annotations.js (line 755)</a>
:markdown
Directive that attaches behavior to DOM elements.
A decorator directive attaches behavior to a DOM element in a composable manner.
(see: http://en.wikipedia.org/wiki/Composition_over_inheritance)
Decorators:
- are simplest form of <a href="Directive-class.html"><code>Directive</code></a>s.
- are best used as a composition pattern ()
Decorators differ from <a href="Component-class.html"><code>Component</code></a>s in that they:
- can have multiple decorators per element
- do not create their own evaluation context
- do not have a template (and therefor do not create Shadow DOM)
## Example
Here we use a decorator directive to simply define basic tool-tip behavior.
```
@Decorator({
selector: '[tooltip]',
properties: {
'text': 'tooltip'
},
hostListeners: {
'onmouseenter': 'onMouseEnter()',
'onmouseleave': 'onMouseLeave()'
}
})
class Tooltip{
text:string;
overlay:Overlay; // NOT YET IMPLEMENTED
overlayManager:OverlayManager; // NOT YET IMPLEMENTED
constructor(overlayManager:OverlayManager) {
this.overlay = overlay;
}
onMouseEnter() {
// exact signature to be determined
this.overlay = this.overlayManager.open(text, ...);
}
onMouseLeave() {
this.overlay.close();
this.overlay = null;
}
}
```
In our HTML template, we can then add this behavior to a `<div>` or any other element with the `tooltip` selector,
like so:
```
<div tooltip="some text here"></div>
```
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor({
selector,
properties,
events,
hostListeners,
lifecycle,
compileChildren = true,
}:{
selector:string,
properties:any,
events:List,
hostListeners:any,
lifecycle:List,
compileChildren:boolean
}={})
:markdown
.l-sub-section
h3 compileChildren
:markdown
If set to true the compiler does not compile the children of this directive.

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p.location-badge.
exported from <a href="/angular2/annotations.html">angular2/annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/annotations/annotations.js#L660">angular2/src/core/annotations/annotations.js (line 660)</a>
:markdown
Directive used for dynamically loading components.
Regular Angular components are statically resolved. DynamicComponent allows to you resolve a component at runtime
instead by providing a placeholder into which a regular Angular component can be dynamically loaded. Once loaded,
the dynamically-loaded component becomes permanent and cannot be changed.
## Example
Here we have `DynamicComp` which acts as the placeholder for `HelloCmp`. At runtime, the dynamic component
`DynamicComp` requests loading of the `HelloCmp` component.
There is nothing special about `HelloCmp`, which is a regular Angular component. It can also be used in other static
locations.
```
@DynamicComponent({
selector: 'dynamic-comp'
})
class DynamicComp {
helloCmp:HelloCmp;
constructor(loader:DynamicComponentLoader, location:PrivateComponentLocation) {
loader.load(HelloCmp, location).then((helloCmp) => {
this.helloCmp = helloCmp;
});
}
}
@Component({
selector: 'hello-cmp'
})
@View({
template: "{{greeting}}"
})
class HelloCmp {
greeting:string;
constructor() {
this.greeting = "hello";
}
}
```
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor({
selector,
properties,
events,
hostListeners,
injectables,
lifecycle
}:{
selector:string,
properties:Object,
events:List,
hostListeners:Object,
injectables:List,
lifecycle:List
}={})
:markdown
.l-sub-section
h3 injectables
:markdown
Same as `injectables` in the <a href="Component-class.html"><code>Component</code></a>.

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p.location-badge.
exported from <a href="/angular2/annotations.html">angular2/annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/annotations/visibility.js#L44">angular2/src/core/annotations/visibility.js (line 44)</a>
:markdown
Specifies that an injector should retrieve a dependency from the direct parent.
## Example
Here is a simple directive that retrieves a dependency from its parent element.
```
@Decorator({
selector: '[dependency]',
properties: {
'id':'dependency'
}
})
class Dependency {
id:string;
}
@Decorator({
selector: '[my-directive]'
})
class Dependency {
constructor(@Parent() dependency:Dependency) {
expect(dependency.id).toEqual(1);
};
}
```
We use this with the following HTML template:
```
<div dependency="1">
<div dependency="2" my-directive></div>
</div>
```
The `@Parent()` annotation in our constructor forces the injector to retrieve the dependency from the
parent element (even thought the current element could resolve it): Angular injects `dependency=1`.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor()
:markdown

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p.location-badge.
exported from <a href="/angular2/annotations.html">angular2/annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/annotations/di.js#L12">angular2/src/core/annotations/di.js (line 12)</a>
:markdown
Specifies that a function for setting host properties should be injected.
NOTE: This is changing pre 1.0.
The directive can inject a property setter that would allow setting this property on the host element.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(propName)
:markdown
.l-sub-section
h3 propName
:markdown
.l-sub-section
h3 token
:markdown

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p.location-badge.
exported from <a href="/angular2/annotations.html">angular2/annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/annotations/di.js#L77">angular2/src/core/annotations/di.js (line 77)</a>
:markdown
Specifies that a <a href="../view/QueryList-class.html"><code>QueryList</code></a> should be injected.
See <a href="../view/QueryList-class.html"><code>QueryList</code></a> for usage and example.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(directive)
:markdown
.l-sub-section
h3 directive
:markdown

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p.location-badge.
exported from <a href="/angular2/annotations.html">angular2/annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/annotations/view.js#L34">angular2/src/core/annotations/view.js (line 34)</a>
:markdown
Declares the available HTML templates for an application.
Each angular component requires a single `@Component` and at least one `@View` annotation. The @View
annotation specifies the HTML template to use, and lists the directives that are active within the template.
When a component is instantiated, the template is loaded into the component's shadow root, and the
expressions and statements in the template are evaluated against the component.
For details on the `@Component` annotation, see <a href="Component-class.html"><code>Component</code></a>.
## Example
```
@Component({
selector: 'greet'
})
@View({
template: 'Hello {{name}}!',
directives: [GreetUser, Bold]
})
class Greet {
name: string;
constructor() {
this.name = 'World';
}
}
```
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor({
templateUrl,
template,
directives,
renderer
}: {
templateUrl: string,
template: string,
directives: List&lt;Type&gt;,
renderer: string
})
:markdown
.l-sub-section
h3 directives
:markdown
Specifies a list of directives that can be used within a template.
Directives must be listed explicitly to provide proper component encapsulation.
```javascript
@Component({
selector: 'my-component'
})
@View({
directives: [For]
template: '
<ul>
<li *for="item in items">{{item}}</li>
</ul>'
})
class MyComponent {
}
```
.l-sub-section
h3 renderer
:markdown
Specify a custom renderer for this View.
If this is set, neither `template`, `templateURL` nor `directives` are used.
.l-sub-section
h3 template
:markdown
Specifies an inline template for an angular component.
NOTE: either `templateURL` or `template` should be used, but not both.
.l-sub-section
h3 templateUrl
:markdown
Specifies a template URL for an angular component.
NOTE: either `templateURL` or `template` should be used, but not both.

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p.location-badge.
exported from <a href="/angular2/annotations.html">angular2/annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/annotations/annotations.js#L884">angular2/src/core/annotations/annotations.js (line 884)</a>
:markdown
Directive that controls the instantiation, destruction, and positioning of inline template elements.
A viewport directive uses a <a href="../view/ViewContainer-class.html"><code>ViewContainer</code></a> to instantiate, insert, move, and destroy views at runtime.
The <a href="../view/ViewContainer-class.html"><code>ViewContainer</code></a> is created as a result of `<template>` element, and represents a location in the current view
where these actions are performed.
Views are always created as children of the current <a href="View-class.html"><code>View</code></a>, and as siblings of the `<template>` element. Thus a
directive in a child view cannot inject the viewport directive that created it.
Since viewport directives are common in Angular, and using the full `<template>` element syntax is wordy, Angular
also supports a shorthand notation: `<li *foo="bar">` and `<li template="foo: bar">` are equivalent.
Thus,
```
<ul>
<li *foo="bar" title="text"></li>
</ul>
```
Expands in use to:
```
<ul>
<template [foo]="bar">
<li title="text"></li>
</template>
</ul>
```
Notice that although the shorthand places `*foo="bar"` within the `<li>` element, the binding for the `Viewport`
controller is correctly instantiated on the `<template>` element rather than the `<li>` element.
## Example
Let's suppose we want to implement the `unless` behavior, to conditionally include a template.
Here is a simple viewport directive that triggers on an `unless` selector:
```
@Viewport({
selector: '[unless]',
properties: {
'unless': 'unless'
}
})
export class Unless {
viewContainer: ViewContainer;
prevCondition: boolean;
constructor(viewContainer: ViewContainer) {
this.viewContainer = viewContainer;
this.prevCondition = null;
}
set unless(newCondition) {
if (newCondition && (isBlank(this.prevCondition) || !this.prevCondition)) {
this.prevCondition = true;
this.viewContainer.clear();
} else if (!newCondition && (isBlank(this.prevCondition) || this.prevCondition)) {
this.prevCondition = false;
this.viewContainer.create();
}
}
}
```
We can then use this `unless` selector in a template:
```
<ul>
<li *unless="expr"></li>
</ul>
```
Once the viewport instantiates the child view, the shorthand notation for the template expands and the result is:
```
<ul>
<template [unless]="exp">
<li></li>
</template>
<li></li>
</ul>
```
Note also that although the `<li></li>` template still exists inside the `<template></template>`, the instantiated
view occurs on the second `<li></li>` which is a sibling to the `<template>` element.
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h2 Members
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h3 constructor
pre.prettyprint
code.
constructor({
selector,
properties,
events,
hostListeners,
lifecycle
}:{
selector:string,
properties:any,
events:List,
lifecycle:List
}={})
:markdown

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{
"Directive-class" : {
"title" : "Directive Class"
},
"Component-class" : {
"title" : "Component Class"
},
"DynamicComponent-class" : {
"title" : "DynamicComponent Class"
},
"Decorator-class" : {
"title" : "Decorator Class"
},
"Viewport-class" : {
"title" : "Viewport Class"
},
"onDestroy-var" : {
"title" : "onDestroy Var"
},
"onChange-var" : {
"title" : "onChange Var"
},
"onAllChangesDone-var" : {
"title" : "onAllChangesDone Var"
},
"PropertySetter-class" : {
"title" : "PropertySetter Class"
},
"Attribute-class" : {
"title" : "Attribute Class"
},
"Query-class" : {
"title" : "Query Class"
},
"View-class" : {
"title" : "View Class"
},
"Parent-class" : {
"title" : "Parent Class"
},
"Ancestor-class" : {
"title" : "Ancestor Class"
}
}

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p.location-badge.
exported from <a href="/angular2/annotations.html">angular2/annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/annotations/annotations.js#L521">angular2/src/core/annotations/annotations.js (line 521)</a>
:markdown
Declare reusable UI building blocks for an application.
Each Angular component requires a single `@Component` and at least one `@View` annotation. The `@Component`
annotation specifies when a component is instantiated, and which properties and hostListeners it binds to.
When a component is instantiated, Angular
- creates a shadow DOM for the component.
- loads the selected template into the shadow DOM.
- creates a child <a href="../di/Injector-class.html"><code>Injector</code></a> which is configured with the `injectables` for the <a href="Component-class.html"><code>Component</code></a>.
All template expressions and statements are then evaluated against the component instance.
For details on the `@View` annotation, see <a href="View-class.html"><code>View</code></a>.
## Example
```
@Component({
selector: 'greet'
})
@View({
template: 'Hello {{name}}!'
})
class Greet {
name: string;
constructor() {
this.name = 'World';
}
}
```
.l-main-section
h2 Members
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h3 constructor
pre.prettyprint
code.
constructor({
selector,
properties,
events,
hostListeners,
injectables,
lifecycle,
changeDetection = DEFAULT
}:{
selector:string,
properties:Object,
events:List,
hostListeners:Object,
injectables:List,
lifecycle:List,
changeDetection:string
}={})
:markdown
.l-sub-section
h3 changeDetection
:markdown
Defines the used change detection strategy.
When a component is instantiated, Angular creates a change detector, which is responsible for propagating
the component's bindings.
The `changeDetection` property defines, whether the change detection will be checked every time or only when the component
tells it to do so.
.l-sub-section
h3 injectables
:markdown
Defines the set of injectable objects that are visible to a Component and its children.
The `injectables` defined in the Component annotation allow you to configure a set of bindings for the component's
injector.
When a component is instantiated, Angular creates a new child Injector, which is configured with the bindings in
the Component `injectables` annotation. The injectable objects then become available for injection to the component
itself and any of the directives in the component's template, i.e. they are not available to the directives which
are children in the component's light DOM.
The syntax for configuring the `injectables` injectable is identical to <a href="../di/Injector-class.html"><code>Injector</code></a> injectable configuration.
See <a href="../di/Injector-class.html"><code>Injector</code></a> for additional detail.
## Simple Example
Here is an example of a class that can be injected:
```
class Greeter {
greet(name:string) {
return 'Hello ' + name + '!';
}
}
@Component({
selector: 'greet',
injectables: [
Greeter
]
})
@View({
template: `{{greeter.greet('world')}}!`,
directives: Child
})
class HelloWorld {
greeter:Greeter;
constructor(greeter:Greeter) {
this.greeter = greeter;
}
}
```

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p.location-badge.
exported from <a href="/angular2/annotations.html">angular2/annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/annotations/annotations.js#L240">angular2/src/core/annotations/annotations.js (line 240)</a>
:markdown
Directives allow you to attach behavior to elements in the DOM.
Directive is an abstract concept, instead use concrete directives: <a href="Component-class.html"><code>Component</code></a>, <a href="DynamicComponent-class.html"><code>DynamicComponent</code></a>, <a href="Decorator-class.html"><code>Decorator</code></a>
or <a href="Viewport-class.html"><code>Viewport</code></a>.
A directive consists of a single directive annotation and a controller class. When the directive's `selector` matches
elements in the DOM, the following steps occur:
1. For each directive, the `ElementInjector` attempts to resolve the directive's constructor arguments.
2. Angular instantiates directives for each matched element using `ElementInjector` in a depth-first order,
as declared in the HTML.
## Understanding How Injection Works
There are three stages of injection resolution.
- *Pre-existing Injectors*:
- The terminal <a href="../di/Injector-class.html"><code>Injector</code></a> cannot resolve dependencies. It either throws an error or, if the dependency was
specified as `@Optional`, returns `null`.
- The platform injector resolves browser singleton resources, such as: cookies, title, location, and others.
- *Component Injectors*: Each `@Component` has its own <a href="../di/Injector-class.html"><code>Injector</code></a>, and they follow the same parent-child hierarchy
as the components in the DOM.
- *Element Injectors*: Each component has a Shadow DOM. Within the Shadow DOM each element has an `ElementInjector`
which follow the same parent-child hierarchy as the DOM elements themselves.
When a template is instantiated, it also must instantiate the corresponding directives in a depth-first order. The
current `ElementInjector` resolves the constructor dependencies for each directive.
Angular then resolves dependencies as follows, according to the order in which they appear in the <a href="View-class.html"><code>View</code></a>:
1. Dependencies on the current element
2. Dependencies on element injectors and their parents until it encounters a Shadow DOM boundary
3. Dependencies on component injectors and their parents until it encounters the root component
4. Dependencies on pre-existing injectors
The `ElementInjector` can inject other directives, element-specific special objects, or it can delegate to the parent
injector.
To inject other directives, declare the constructor parameter as:
- `directive:DirectiveType`: a directive on the current element only
- `@Ancestor() directive:DirectiveType`: any directive that matches the type between the current element and the
Shadow DOM root. Current element is not included in the resolution, therefore even if it could resolve it, it will
be ignored.
- `@Parent() directive:DirectiveType`: any directive that matches the type on a direct parent element only.
- `@Children query:Query<DirectiveType>`: A live collection of direct child directives (will be implemented in later release).
- `@Descendants query:Query<DirectiveType>`: A live collection of any child directives (will be implemented in later relaese).
To inject element-specific special objects, declare the constructor parameter as:
- `element: NgElement` to obtain a DOM element (DEPRECATED: replacement coming)
- `viewContainer: ViewContainer` to control child template instantiation, for <a href="Viewport-class.html"><code>Viewport</code></a> directives only
- `bindingPropagation: BindingPropagation` to control change detection in a more granular way.
## Example
The following example demonstrates how dependency injection resolves constructor arguments in practice.
Assume this HTML template:
```
<div dependency="1">
<div dependency="2">
<div dependency="3" my-directive>
<div dependency="4">
<div dependency="5"></div>
</div>
<div dependency="6"></div>
</div>
</div>
</div>
```
With the following `dependency` decorator and `SomeService` injectable class.
```
@Injectable()
class SomeService {
}
@Decorator({
selector: '[dependency]',
properties: {
'id':'dependency'
}
})
class Dependency {
id:string;
}
```
Let's step through the different ways in which `MyDirective` could be declared...
### No injection
Here the constructor is declared with no arguments, therefore nothing is injected into `MyDirective`.
```
@Decorator({ selector: '[my-directive]' })
class MyDirective {
constructor() {
}
}
```
This directive would be instantiated with no dependencies.
### Component-level injection
Directives can inject any injectable instance from the closest component injector or any of its parents.
Here, the constructor declares a parameter, `someService`, and injects the `SomeService` type from the parent
component's injector.
```
@Decorator({ selector: '[my-directive]' })
class MyDirective {
constructor(someService: SomeService) {
}
}
```
This directive would be instantiated with a dependency on `SomeService`.
### Injecting a directive from the current element
Directives can inject other directives declared on the current element.
```
@Decorator({ selector: '[my-directive]' })
class MyDirective {
constructor(dependency: Dependency) {
expect(dependency.id).toEqual(3);
}
}
```
This directive would be instantiated with `Dependency` declared at the same element, in this case `dependency="3"`.
### Injecting a directive from a direct parent element
Directives can inject other directives declared on a direct parent element. By definition, a directive with a
`@Parent` annotation does not attempt to resolve dependencies for the current element, even if this would satisfy
the dependency.
```
@Decorator({ selector: '[my-directive]' })
class MyDirective {
constructor(@Parent() dependency: Dependency) {
expect(dependency.id).toEqual(2);
}
}
```
This directive would be instantiated with `Dependency` declared at the parent element, in this case `dependency="2"`.
### Injecting a directive from any ancestor elements
Directives can inject other directives declared on any ancestor element (in the current Shadow DOM), i.e. on the
parent element and its parents. By definition, a directive with an `@Ancestor` annotation does not attempt to
resolve dependencies for the current element, even if this would satisfy the dependency.
```
@Decorator({ selector: '[my-directive]' })
class MyDirective {
constructor(@Ancestor() dependency: Dependency) {
expect(dependency.id).toEqual(2);
}
}
```
Unlike the `@Parent` which only checks the parent, `@Ancestor` checks the parent, as well as its
parents recursively. If `dependency="2"` didn't exist on the direct parent, this injection would have returned
`dependency="1"`.
### Injecting a live collection of direct child directives
A directive can also query for other child directives. Since parent directives are instantiated before child
directives, a directive can't simply inject the list of child directives. Instead, the directive
injects a <a href="../view/QueryList-class.html"><code>QueryList</code></a>, which updates its contents as children are added, removed, or moved by any
<a href="Viewport-class.html"><code>Viewport</code></a> directive such as a `for`, an `if`, or a `switch`.
```
@Decorator({ selector: '[my-directive]' })
class MyDirective {
constructor(@Query(Marker) dependencies:QueryList<Maker>) {
}
}
```
This directive would be instantiated with a <a href="../view/QueryList-class.html"><code>QueryList</code></a> which contains `Dependency` 4 and 6. Here, `Dependency`
5 would not be included, because it is not a direct child.
### Injecting a live collection of descendant directives
Note: This is will be implemented in later release. ()
Similar to `@Children` above, but also includes the children of the child elements.
```
@Decorator({ selector: '[my-directive]' })
class MyDirective {
constructor(@QueryDescendents(Marker) dependencies:QueryList<Maker>) {
}
}
```
This directive would be instantiated with a Query which would contain `Dependency` 4, 5 and 6.
### Optional injection
The normal behavior of directives is to return an error when a specified dependency cannot be resolved. If you
would like to inject `null` on unresolved dependency instead, you can annotate that dependency with `@Optional()`.
This explicitly permits the author of a template to treat some of the surrounding directives as optional.
```
@Decorator({ selector: '[my-directive]' })
class MyDirective {
constructor(@Optional() dependency:Dependency) {
}
}
```
This directive would be instantiated with a `Dependency` directive found on the current element. If none can be
found, the injector supplies `null` instead of throwing an error.
.l-main-section
h2 Members
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h3 constructor
pre.prettyprint
code.
constructor({
selector,
properties,
events,
hostListeners,
lifecycle
}:{
selector:string,
properties:any,
events:List,
hostListeners: any,
lifecycle:List
}={})
:markdown
.l-sub-section
h3 events
:markdown
Enumerates the set of emitted events.
## Syntax
```
@Component({
events: ['statusChange']
})
class TaskComponent {
statusChange:EventEmitter;
constructor() {
this.statusChange = new EventEmitter();
}
onComplete() {
this.statusChange.next('completed');
}
}
```
.l-sub-section
h3 hasLifecycleHook
pre.prettyprint
code.
hasLifecycleHook(hook:string)
:markdown
Returns true if a directive participates in a given `LifecycleEvent`.
See <a href="onChange-var.html"><code>onChange</code></a>, <a href="onDestroy-var.html"><code>onDestroy</code></a>, <a href="onAllChangesDone-var.html"><code>onAllChangesDone</code></a> for details.
.l-sub-section
h3 hostListeners
:markdown
Specifies which DOM hostListeners a directive listens to.
The `hostListeners` property defines a set of `event` to `method` key-value pairs:
- `event1`: the DOM event that the directive listens to.
- `statement`: the statement to execute when the event occurs.
If the evalutation of the statement returns `false`, then `preventDefault`is applied on the DOM event.
To listen to global events, a target must be added to the event name.
The target can be `window`, `document` or `body`.
When writing a directive event binding, you can also refer to the following local variables:
- `$event`: Current event object which triggered the event.
- `$target`: The source of the event. This will be either a DOM element or an Angular directive.
(will be implemented in later release)
## Syntax
```
@Directive({
hostListeners: {
'event1': 'onMethod1(arguments)',
'target:event2': 'onMethod2(arguments)',
...
}
}
```
## Basic Event Binding:
Suppose you want to write a directive that triggers on `change` events in the DOM and on `resize` events in window.
You would define the event binding as follows:
```
@Decorator({
selector: 'input',
hostListeners: {
'change': 'onChange($event)',
'window:resize': 'onResize($event)'
}
})
class InputDecorator {
onChange(event:Event) {
}
onResize(event:Event) {
}
}
```
Here the `onChange` method of `InputDecorator` is invoked whenever the DOM element fires the 'change' event.
.l-sub-section
h3 lifecycle
:markdown
Specifies a set of lifecycle hostListeners in which the directive participates.
See <a href="onChange-var.html"><code>onChange</code></a>, <a href="onDestroy-var.html"><code>onDestroy</code></a>, <a href="onAllChangesDone-var.html"><code>onAllChangesDone</code></a> for details.
.l-sub-section
h3 properties
:markdown
Enumerates the set of properties that accept data binding for a directive.
The `properties` property defines a set of `directiveProperty` to `bindingProperty`
key-value pairs:
- `directiveProperty` specifies the component property where the value is written.
- `bindingProperty` specifies the DOM property where the value is read from.
You can include a <a href="../pipes/Pipe-class.html"><code>Pipe</code></a> when specifying a `bindingProperty` to allow for data transformation and structural
change detection of the value. These pipes will be evaluated in the context of this component.
## Syntax
```
@Directive({
properties: {
'directiveProperty1': 'bindingProperty1',
'directiveProperty2': 'bindingProperty2 | pipe1 | ...',
...
}
}
```
## Basic Property Binding
We can easily build a simple `Tooltip` directive that exposes a `tooltip` property, which can be used in templates
with standard Angular syntax. For example:
```
@Decorator({
selector: '[tooltip]',
properties: {
'text': 'tooltip'
}
})
class Tooltip {
set text(text) {
// This will get called every time the 'tooltip' binding changes with the new value.
}
}
```
We can then bind to the `tooltip' property as either an expression (`someExpression`) or as a string literal, as
shown in the HTML template below:
```html
<div [tooltip]="someExpression">...</div>
<div tooltip="Some Text">...</div>
```
Whenever the `someExpression` expression changes, the `properties` declaration instructs
Angular to update the `Tooltip`'s `text` property.
## Bindings With Pipes
You can also use pipes when writing binding definitions for a directive.
For example, we could write a binding that updates the directive on structural changes, rather than on reference
changes, as normally occurs in change detection.
See <a href="../pipes/Pipe-class.html"><code>Pipe</code></a> and <a href="../pipes/keyValDiff-var.html"><code>keyValDiff</code></a> documentation for more details.
```
@Decorator({
selector: '[class-set]',
properties: {
'classChanges': 'classSet | keyValDiff'
}
})
class ClassSet {
set classChanges(changes:KeyValueChanges) {
// This will get called every time the `class-set` expressions changes its structure.
}
}
```
The template that this directive is used in may also contain its own pipes. For example:
```html
<div [class-set]="someExpression | somePipe">
```
In this case, the two pipes compose as if they were inlined: `someExpression | somePipe | keyValDiff`.
.l-sub-section
h3 selector
:markdown
The CSS selector that triggers the instantiation of a directive.
Angular only allows directives to trigger on CSS selectors that do not cross element boundaries.
`selector` may be declared as one of the following:
- `element-name`: select by element name.
- `.class`: select by class name.
- `[attribute]`: select by attribute name.
- `[attribute=value]`: select by attribute name and value.
- `:not(sub_selector)`: select only if the element does not match the `sub_selector`.
- `selector1, selector2`: select if either `selector1` or `selector2` matches.
Suppose we have a directive with an `input[type=text]` selector.
And the following HTML:
```html
<form>
<input type="text">
<input type="radio">
<form>
```
The directive would only be instantiated on the `<input type="text">` element.

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h2 onAllChangesDone <span class="type">variable</span>
p.location-badge.
exported from <a href="/angular2/annotations.html">angular2/annotations</a>
:markdown
Notify a directive when the bindings of all its children have been changed.
## Example:
```
@Decorator({
selector: '[class-set]',
lifecycle: [onAllChangesDone]
})
class ClassSet {
onAllChangesDone() {
}
}
```

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.l-main-section
h2 onChange <span class="type">variable</span>
p.location-badge.
exported from <a href="/angular2/annotations.html">angular2/annotations</a>
:markdown
Notify a directive when any of its bindings have changed.
This method is called right after the directive's bindings have been checked,
and before any of its children's bindings have been checked.
It is invoked only if at least one of the directive's bindings has changed.
## Example:
```
@Decorator({
selector: '[class-set]',
properties: {
'propA': 'propA'
'propB': 'propB'
},
lifecycle: [onChange]
})
class ClassSet {
propA;
propB;
onChange(changes:{[idx: string, PropertyUpdate]}) {
// This will get called after any of the properties have been updated.
if (changes['propA']) {
// if propA was updated
}
if (changes['propA']) {
// if propB was updated
}
}
}
```

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.l-main-section
h2 onDestroy <span class="type">variable</span>
p.location-badge.
exported from <a href="/angular2/annotations.html">angular2/annotations</a>
:markdown
Notify a directive whenever a <a href="View-class.html"><code>View</code></a> that contains it is destroyed.
## Example
```
@Decorator({
...,
lifecycle: [onDestroy]
})
class ClassSet {
onDestroy() {
// invoked to notify directive of the containing view destruction.
}
}
```

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ul
for page, slug in public.docs[current.path[1]][current.path[2]][current.path[3]][current.path[4]]._data
if slug != 'index'
url = "/docs/" + current.path[1] + "/" + current.path[2] + "/" + current.path[3] + "/" + current.path[4] + "/" + slug + ".html"
li.c8
!= partial("../../../../_includes/_hover-card", {name: page.title, url: url })

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p.location-badge.
exported from <a href="/angular2/change_detection.html">angular2/change_detection</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/change_detection/interfaces.js#L34">angular2/src/change_detection/interfaces.js (line 34)</a>
:markdown
Interface used by Angular to control the change detection strategy for an application.
Angular implements the following change detection strategies by default:
- <a href="DynamicChangeDetection-class.html"><code>DynamicChangeDetection</code></a>: slower, but does not require `eval()`.
- <a href="JitChangeDetection-class.html"><code>JitChangeDetection</code></a>: faster, but requires `eval()`.
In JavaScript, you should always use `JitChangeDetection`, unless you are in an environment that has
[CSP](https://developer.mozilla.org/en-US/docs/Web/Security/CSP), such as a Chrome Extension.
In Dart, use `DynamicChangeDetection` during development. The Angular transformer generates an analog to the
`JitChangeDetection` strategy at compile time.
See: <a href="DynamicChangeDetection-class.html"><code>DynamicChangeDetection</code></a>, <a href="JitChangeDetection-class.html"><code>JitChangeDetection</code></a>
# Example
```javascript
bootstrap(MyApp, [bind(ChangeDetection).toValue(dynamicChangeDetection)]);
```
.l-main-section
h2 Members
.l-sub-section
h3 createProtoChangeDetector
pre.prettyprint
code.
createProtoChangeDetector(name:string, changeControlStrategy:string=DEFAULT)
:markdown

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p.location-badge.
exported from <a href="/angular2/change_detection.html">angular2/change_detection</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/change_detection/change_detector_ref.js#L11">angular2/src/change_detection/change_detector_ref.js (line 11)</a>
:markdown
Controls change detection.
<a href="ChangeDetectorRef-class.html"><code>ChangeDetectorRef</code></a> allows requesting checks for detectors that rely on observables. It also allows detaching and
attaching change detector subtrees.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(cd:ChangeDetector)
:markdown
.l-sub-section
h3 detach
pre.prettyprint
code.
detach()
:markdown
Detaches the change detector from the change detector tree.
The detached change detector will not be checked until it is reattached.
.l-sub-section
h3 reattach
pre.prettyprint
code.
reattach()
:markdown
Reattach the change detector to the change detector tree.
This also requests a check of this change detector. This reattached change detector will be checked during the
next change detection run.
.l-sub-section
h3 requestCheck
pre.prettyprint
code.
requestCheck()
:markdown
Request to check all ON_PUSH ancestors.

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p.location-badge.
exported from <a href="/angular2/change_detection.html">angular2/change_detection</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/change_detection/change_detection.js#L51">angular2/src/change_detection/change_detection.js (line 51)</a>
:markdown
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(registry:PipeRegistry)
:markdown
.l-sub-section
h3 createProtoChangeDetector
pre.prettyprint
code.
createProtoChangeDetector(name:string, changeControlStrategy:string = DEFAULT)
:markdown
.l-sub-section
h3 registry
:markdown

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p.location-badge.
exported from <a href="/angular2/change_detection.html">angular2/change_detection</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/change_detection/change_detection.js#L68">angular2/src/change_detection/change_detection.js (line 68)</a>
:markdown
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(registry:PipeRegistry)
:markdown
.l-sub-section
h3 createProtoChangeDetector
pre.prettyprint
code.
createProtoChangeDetector(name:string, changeControlStrategy:string = DEFAULT)
:markdown
.l-sub-section
h3 registry
:markdown

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p.location-badge.
exported from <a href="/angular2/change_detection.html">angular2/change_detection</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/life_cycle/life_cycle.js#L31">angular2/src/core/life_cycle/life_cycle.js (line 31)</a>
:markdown
Provides access to explicitly trigger change detection in an application.
By default, `Zone` triggers change detection in Angular on each virtual machine (VM) turn. When testing, or in some
limited application use cases, a developer can also trigger change detection with the `lifecycle.tick()` method.
Each Angular application has a single `LifeCycle` instance.
# Example
This is a contrived example, since the bootstrap automatically runs inside of the `Zone`, which invokes
`lifecycle.tick()` on your behalf.
```javascript
bootstrap(MyApp).then((ref:ComponentRef) => {
var lifeCycle = ref.injector.get(LifeCycle);
var myApp = ref.instance;
ref.doSomething();
lifecycle.tick();
});
```
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(exceptionHandler:ExceptionHandler, changeDetector:ChangeDetector = null, enforceNoNewChanges:boolean = false)
:markdown
.l-sub-section
h3 registerWith
pre.prettyprint
code.
registerWith(zone:VmTurnZone, changeDetector:ChangeDetector = null)
:markdown
.l-sub-section
h3 tick
pre.prettyprint
code.
tick()
:markdown
Invoke this method to explicitly process change detection and its side-effects.
In development mode, `tick()` also performs a second change detection cycle to ensure that no further
changes are detected. If additional changes are picked up during this second cycle, bindings in the app have
side-effects that cannot be resolved in a single change detection pass. In this case, Angular throws an error,
since an Angular application can only have one change detection pass during which all change detection must
complete.

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{
"DynamicChangeDetection-class" : {
"title" : "DynamicChangeDetection Class"
},
"JitChangeDetection-class" : {
"title" : "JitChangeDetection Class"
},
"ChangeDetectorRef-class" : {
"title" : "ChangeDetectorRef Class"
},
"ChangeDetection-class" : {
"title" : "ChangeDetection Class"
},
"LifeCycle-class" : {
"title" : "LifeCycle Class"
}
}

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ul
for page, slug in public.docs[current.path[1]][current.path[2]][current.path[3]][current.path[4]]._data
if slug != 'index'
url = "/docs/" + current.path[1] + "/" + current.path[2] + "/" + current.path[3] + "/" + current.path[4] + "/" + slug + ".html"
li.c8
!= partial("../../../../_includes/_hover-card", {name: page.title, url: url })

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p.location-badge.
exported from <a href="/angular2/core.html">angular2/core</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/exception_handler.js#L34">angular2/src/core/exception_handler.js (line 34)</a>
:markdown
Provides a hook for centralized exception handling.
The default implementation of `ExceptionHandler` prints error messages to the `Console`. To intercept error handling,
write a custom exception handler that replaces this default as appropriate for your app.
# Example
```javascript
@Component({
selector: 'my-app',
injectables: [
bind(ExceptionHandler).toClass(MyExceptionHandler)
]
})
@View(...)
class MyApp { ... }
class MyExceptionHandler implements ExceptionHandler {
call(error, stackTrace = null, reason = null) {
// do something with the exception
}
}
```
.l-main-section
h2 Members
.l-sub-section
h3 call
pre.prettyprint
code.
call(error, stackTrace = null, reason = null)
:markdown

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p.location-badge.
exported from <a href="/angular2/core.html">angular2/core</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/compiler/ng_element.js#L13">angular2/src/core/compiler/ng_element.js (line 13)</a>
:markdown
Allows direct access to the underlying DOM element.
Attention: NgElement will be replaced by a different concept
for accessing an element in a way that is compatible with the render layer.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(view, boundElementIndex)
:markdown
.l-sub-section
h3 domElement
:markdown
.l-sub-section
h3 getAttribute
pre.prettyprint
code.
getAttribute(name:string)
:markdown

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p.location-badge.
exported from <a href="/angular2/core.html">angular2/core</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/core/zone/vm_turn_zone.js#L14">angular2/src/core/zone/vm_turn_zone.js (line 14)</a>
:markdown
A wrapper around zones that lets you schedule tasks after it has executed a task.
The wrapper maintains an "inner" and "outer" `Zone`. The application code will executes
in the "inner" zone unless `runOutsideAngular` is explicitely called.
A typical application will create a singleton `VmTurnZone` whose outer `Zone` is the root `Zone`
and whose default `onTurnDone` runs the Angular digest.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor({enableLongStackTrace}, [object Object])
:markdown
Associates with this
- an "outer" zone, which is the one that created this.
- an "inner" zone, which is a child of the outer zone.
.l-sub-section
h3 initCallbacks
pre.prettyprint
code.
initCallbacks({onTurnStart, onTurnDone, onScheduleMicrotask, onErrorHandler} = {}, [object Object], [object Object], [object Object], [object Object])
:markdown
Initializes the zone hooks.
.l-sub-section
h3 run
pre.prettyprint
code.
run(fn)
:markdown
Runs `fn` in the inner zone and returns whatever it returns.
In a typical app where the inner zone is the Angular zone, this allows one to make use of the
Angular's auto digest mechanism.
```
var zone: VmTurnZone = <ref to the application zone>;
zone.run(() => {
// auto-digest will run after this function is called from JS
});
```
.l-sub-section
h3 runOutsideAngular
pre.prettyprint
code.
runOutsideAngular(fn)
:markdown
Runs `fn` in the outer zone and returns whatever it returns.
In a typical app where the inner zone is the Angular zone, this allows one to escape Angular's
auto-digest mechanism.
```
var zone: VmTurnZone = <ref to the application zone>;
zone.runOusideAngular(() => {
element.onClick(() => {
// Clicking on the element would not trigger the change detection
});
});
```

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{
"bootstrap-function" : {
"title" : "bootstrap Function"
},
"NgElement-class" : {
"title" : "NgElement Class"
},
"ExceptionHandler-class" : {
"title" : "ExceptionHandler Class"
},
"VmTurnZone-class" : {
"title" : "VmTurnZone Class"
}
}

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.l-main-section
h2(class="function export") bootstrap
p <code>(appComponentType: Type, componentInjectableBindings: List&lt;Binding&gt; = null, errorReporter: Function = null)</code>
p.location-badge.
exported from <a href="/angular2/core.html">angular2/core</a>
:markdown
Bootstrapping for Angular applications.
You instantiate an Angular application by explicitly specifying a component to use as the root component for your
application via the `bootstrap()` method.
## Simple Example
Assuming this `index.html`:
```html
<html>
<!-- load Angular script tags here. -->
<body>
<my-app>loading...</my-app>
</body>
</html>
```
An application is bootstrapped inside an existing browser DOM, typically `index.html`. Unlike Angular 1, Angular 2
does not compile/process bindings in `index.html`. This is mainly for security reasons, as well as architectural
changes in Angular 2. This means that `index.html` can safely be processed using server-side technologies such as
bindings. Bindings can thus use double-curly `{{ syntax }}` without collision from Angular 2 component double-curly
`{{ syntax }}`.
We can use this script code:
```
@Component({
selector: 'my-app'
})
@View({
template: 'Hello {{ name }}!'
})
class MyApp {
name:string;
constructor() {
this.name = 'World';
}
}
main() {
return bootstrap(MyApp);
}
```
When the app developer invokes `bootstrap()` with the root component `MyApp` as its argument, Angular performs the
following tasks:
1. It uses the component's `selector` property to locate the DOM element which needs to be upgraded into
the angular component.
2. It creates a new child injector (from the platform injector) and configures the injector with the component's
`injectables`. Optionally, you can also override the injector configuration for an app by invoking
`bootstrap` with the `componentInjectableBindings` argument.
3. It creates a new `Zone` and connects it to the angular application's change detection domain instance.
4. It creates a shadow DOM on the selected component's host element and loads the template into it.
5. It instantiates the specified component.
6. Finally, Angular performs change detection to apply the initial data bindings for the application.
## Instantiating Multiple Applications on a Single Page
There are two ways to do this.
### Isolated Applications
Angular creates a new application each time that the `bootstrap()` method is invoked. When multiple applications
are created for a page, Angular treats each application as independent within an isolated change detection and
`Zone` domain. If you need to share data between applications, use the strategy described in the next
section, "Applications That Share Change Detection."
### Applications That Share Change Detection
If you need to bootstrap multiple applications that share common data, the applications must share a common
change detection and zone. To do that, create a meta-component that lists the application components in its template.
By only invoking the `bootstrap()` method once, with the meta-component as its argument, you ensure that only a
single change detection zone is created and therefore data can be shared across the applications.
## Platform Injector
When working within a browser window, there are many singleton resources: cookies, title, location, and others.
Angular services that represent these resources must likewise be shared across all Angular applications that
occupy the same browser window. For this reason, Angular creates exactly one global platform injector which stores
all shared services, and each angular application injector has the platform injector as its parent.
Each application has its own private injector as well. When there are multiple applications on a page, Angular treats
each application injector's services as private to that application.
# API
- `appComponentType`: The root component which should act as the application. This is a reference to a `Type`
which is annotated with `@Component(...)`.
- `componentInjectableBindings`: An additional set of bindings that can be added to `injectables` for the
<a href="../annotations/Component-class.html"><code>Component</code></a> to override default injection behavior.
- `errorReporter`: `function(exception:any, stackTrace:string)` a default error reporter for unhandled exceptions.
Returns a `Promise` with the application`s private <a href="../di/Injector-class.html"><code>Injector</code></a>.

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ul
for page, slug in public.docs[current.path[1]][current.path[2]][current.path[3]][current.path[4]]._data
if slug != 'index'
url = "/docs/" + current.path[1] + "/" + current.path[2] + "/" + current.path[3] + "/" + current.path[4] + "/" + slug + ".html"
li.c8
!= partial("../../../../_includes/_hover-card", {name: page.title, url: url })

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p.location-badge.
exported from <a href="/angular2/di.html">angular2/di</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/binding.js#L49">angular2/src/di/binding.js (line 49)</a>
:markdown
Describes how the <a href="Injector-class.html"><code>Injector</code></a> should instantiate a given token.
See <a href="bind-function.html"><code>bind</code></a>.
## Example
```javascript
var injector = Injector.resolveAndCreate([
new Binding(String, { toValue: 'Hello' })
]);
expect(injector.get(String)).toEqual('Hello');
```
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(token, {
toClass,
toValue,
toAlias,
toFactory,
toAsyncFactory,
deps
})
:markdown
.l-sub-section
h3 dependencies
:markdown
Used in conjunction with `toFactory` or `toAsyncFactory` and specifies a set of dependencies (as `token`s) which
should be injected into the factory function.
```javascript
var injector = Injector.resolveAndCreate([
new Binding(Number, { toFactory: () => { return 1+2; }}),
new Binding(String, { toFactory: (value) => { return "Value: " + value; },
dependencies: [String] })
]);
expect(injector.get(Number)).toEqual(3);
expect(injector.get(String)).toEqual('Value: 3');
```
.l-sub-section
h3 resolve
pre.prettyprint
code.
resolve()
:markdown
Converts the <a href="Binding-class.html"><code>Binding</code></a> into <a href="ResolvedBinding-class.html"><code>ResolvedBinding</code></a>.
<a href="Injector-class.html"><code>Injector</code></a> internally only uses <a href="ResolvedBinding-class.html"><code>ResolvedBinding</code></a>, <a href="Binding-class.html"><code>Binding</code></a> contains convenience binding syntax.
.l-sub-section
h3 toAlias
:markdown
Binds a key to the alias for an existing key.
An alias means that <a href="Injector-class.html"><code>Injector</code></a> returns the same instance as if the alias token was used. This is in contrast to
`toClass` where a separate instance of `toClass` is returned.
Becuse `toAlias` and `toClass` are often confused the example contains both use cases for easy comparison.
```javascript
class Vehicle {}
class Car extends Vehicle {}
var injectorAlias = Injector.resolveAndCreate([
Car,
new Binding(Vehicle, { toAlias: Car })
]);
var injectorClass = Injector.resolveAndCreate([
Car,
new Binding(Vehicle, { toClass: Car })
]);
expect(injectorAlias.get(Vehicle)).toBe(injectorAlias.get(Car));
expect(injectorAlias.get(Vehicle) instanceof Car).toBe(true);
expect(injectorClass.get(Vehicle)).not.toBe(injectorClass.get(Car));
expect(injectorClass.get(Vehicle) instanceof Car).toBe(true);
```
.l-sub-section
h3 toAsyncFactory
:markdown
Binds a key to a function which computes the value asynchronously.
```javascript
var injector = Injector.resolveAndCreate([
new Binding(Number, { toAsyncFactory: () => {
return new Promise((resolve) => resolve(1 + 2));
}}),
new Binding(String, { toFactory: (value) => { return "Value: " + value; },
dependencies: [String]})
]);
injector.asyncGet(Number).then((v) => expect(v).toBe(3));
injector.asyncGet(String).then((v) => expect(v).toBe('Value: 3'));
```
The interesting thing to note is that event though `Number` has an async factory, the `String` factory
function takes the resolved value. This shows that the <a href="Injector-class.html"><code>Injector</code></a> delays executing the `String` factory
until after the `Number` is resolved. This can only be done if the `token` is retrieved using the
`asyncGet` API in the <a href="Injector-class.html"><code>Injector</code></a>.
.l-sub-section
h3 toClass
:markdown
Binds an interface to an implementation / subclass.
Becuse `toAlias` and `toClass` are often confused, the example contains both use cases for easy comparison.
```javascript
class Vehicle {}
class Car extends Vehicle {}
var injectorClass = Injector.resolveAndCreate([
Car,
new Binding(Vehicle, { toClass: Car })
]);
var injectorAlias = Injector.resolveAndCreate([
Car,
new Binding(Vehicle, { toAlias: Car })
]);
expect(injectorClass.get(Vehicle)).not.toBe(injectorClass.get(Car));
expect(injectorClass.get(Vehicle) instanceof Car).toBe(true);
expect(injectorAlias.get(Vehicle)).toBe(injectorAlias.get(Car));
expect(injectorAlias.get(Vehicle) instanceof Car).toBe(true);
```
.l-sub-section
h3 toFactory
:markdown
Binds a key to a function which computes the value.
```javascript
var injector = Injector.resolveAndCreate([
new Binding(Number, { toFactory: () => { return 1+2; }}),
new Binding(String, { toFactory: (value) => { return "Value: " + value; },
dependencies: [String] })
]);
expect(injector.get(Number)).toEqual(3);
expect(injector.get(String)).toEqual('Value: 3');
```
.l-sub-section
h3 toValue
:markdown
Binds a key to a value.
```javascript
var injector = Injector.resolveAndCreate([
new Binding(String, { toValue: 'Hello' })
]);
expect(injector.get(String)).toEqual('Hello');
```
.l-sub-section
h3 token
:markdown
Token used when retrieving this binding. Usually the `Type`.

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p.location-badge.
exported from <a href="/angular2/di.html">angular2/di</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/binding.js#L315">angular2/src/di/binding.js (line 315)</a>
:markdown
Helper class for the <a href="bind-function.html"><code>bind</code></a> function.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(token)
:markdown
.l-sub-section
h3 toAlias
pre.prettyprint
code.
toAlias(aliasToken)
:markdown
Binds a key to the alias for an existing key.
An alias means that we will return the same instance as if the alias token was used. (This is in contrast to
`toClass` where a separet instance of `toClass` will be returned.)
Becuse `toAlias` and `toClass` are often confused, the example contains both use cases for easy comparison.
```javascript
class Vehicle {}
class Car extends Vehicle {}
var injectorAlias = Injector.resolveAndCreate([
Car,
bind(Vehicle).toAlias(Car)
]);
var injectorClass = Injector.resolveAndCreate([
Car,
bind(Vehicle).toClass(Car)
]);
expect(injectorAlias.get(Vehicle)).toBe(injectorAlias.get(Car));
expect(injectorAlias.get(Vehicle) instanceof Car).toBe(true);
expect(injectorClass.get(Vehicle)).not.toBe(injectorClass.get(Car));
expect(injectorClass.get(Vehicle) instanceof Car).toBe(true);
```
.l-sub-section
h3 toAsyncFactory
pre.prettyprint
code.
toAsyncFactory(factoryFunction:Function, dependencies:List = null)
:markdown
Binds a key to a function which computes the value asynchronously.
```javascript
var injector = Injector.resolveAndCreate([
bind(Number).toAsyncFactory(() => {
return new Promise((resolve) => resolve(1 + 2));
}),
bind(String).toFactory((v) => { return "Value: " + v; }, [String])
]);
injector.asyncGet(Number).then((v) => expect(v).toBe(3));
injector.asyncGet(String).then((v) => expect(v).toBe('Value: 3'));
```
The interesting thing to note is that event though `Number` has an async factory, the `String` factory
function takes the resolved value. This shows that the <a href="Injector-class.html"><code>Injector</code></a> delays executing of the `String` factory
until after the `Number` is resolved. This can only be done if the `token` is retrieved using the
the `asyncGet` API in the <a href="Injector-class.html"><code>Injector</code></a>.
.l-sub-section
h3 toClass
pre.prettyprint
code.
toClass(type:Type)
:markdown
Binds an interface to an implementation / subclass.
Because `toAlias` and `toClass` are often confused, the example contains both use cases for easy comparison.
```javascript
class Vehicle {}
class Car extends Vehicle {}
var injectorClass = Injector.resolveAndCreate([
Car,
bind(Vehicle).toClass(Car)
]);
var injectorAlias = Injector.resolveAndCreate([
Car,
bind(Vehicle).toAlias(Car)
]);
expect(injectorClass.get(Vehicle)).not.toBe(injectorClass.get(Car));
expect(injectorClass.get(Vehicle) instanceof Car).toBe(true);
expect(injectorAlias.get(Vehicle)).toBe(injectorAlias.get(Car));
expect(injectorAlias.get(Vehicle) instanceof Car).toBe(true);
```
.l-sub-section
h3 toFactory
pre.prettyprint
code.
toFactory(factoryFunction:Function, dependencies:List = null)
:markdown
Binds a key to a function which computes the value.
```javascript
var injector = Injector.resolveAndCreate([
bind(Number).toFactory(() => { return 1+2; }}),
bind(String).toFactory((v) => { return "Value: " + v; }, [String] })
]);
expect(injector.get(Number)).toEqual(3);
expect(injector.get(String)).toEqual('Value: 3');
```
.l-sub-section
h3 toValue
pre.prettyprint
code.
toValue(value)
:markdown
Binds a key to a value.
```javascript
var injector = Injector.resolveAndCreate([
bind(String).toValue('Hello')
]);
expect(injector.get(String)).toEqual('Hello');
```
.l-sub-section
h3 token
:markdown

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p.location-badge.
exported from <a href="/angular2/di.html">angular2/di</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/injector.js#L60">angular2/src/di/injector.js (line 60)</a>
:markdown
A dependency injection container used for resolving dependencies.
An `Injector` is a replacement for a `new` operator, which can automatically resolve the constructor dependencies.
In typical use, application code asks for the dependencies in the constructor and they are resolved by the
`Injector`.
## Example:
Suppose that we want to inject an `Engine` into class `Car`, we would define it like this:
```javascript
class Engine {
}
class Car {
constructor(@Inject(Engine) engine) {
}
}
```
Next we need to write the code that creates and instantiates the `Injector`. We then ask for the `root` object,
`Car`, so that the `Injector` can recursively build all of that object's dependencies.
```javascript
main() {
var injector = Injector.resolveAndCreate([Car, Engine]);
// Get a reference to the `root` object, which will recursively instantiate the tree.
var car = injector.get(Car);
}
```
Notice that we don't use the `new` operator because we explicitly want to have the `Injector` resolve all of the
object's dependencies automatically.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(bindings:List&lt;ResolvedBinding&gt;, parent:Injector, defaultBindings:boolean, [object Object], [object Object], [object Object])
:markdown
.l-sub-section
h3 asyncGet
pre.prettyprint
code.
asyncGet(token, [object Object])
:markdown
Retrieves an instance from the injector asynchronously. Used with asynchronous bindings.
.l-sub-section
h3 createChildFromResolved
pre.prettyprint
code.
createChildFromResolved(bindings:List&lt;ResolvedBinding&gt;, [object Object])
:markdown
Creates a child injector and loads a new set of <a href="ResolvedBinding-class.html"><code>ResolvedBinding</code></a>s into it.
.l-sub-section
h3 fromResolvedBindings
pre.prettyprint
code.
fromResolvedBindings(bindings:List&lt;ResolvedBinding&gt;, {defaultBindings=false}={}, [object Object], [object Object])
:markdown
Creates an injector from previously resolved bindings. This bypasses resolution and flattening. This API is the
recommended way to construct injectors in performance-sensitive parts.
.l-sub-section
h3 get
pre.prettyprint
code.
get(token, [object Object])
:markdown
Retrieves an instance from the injector.
.l-sub-section
h3 getOptional
pre.prettyprint
code.
getOptional(token, [object Object])
:markdown
Retrieves an instance from the injector.
.l-sub-section
h3 resolve
pre.prettyprint
code.
resolve(bindings:List, [object Object])
:markdown
Turns a list of binding definitions into an internal resolved list of resolved bindings.
A resolution is a process of flattening multiple nested lists and converting individual bindings into a
list of <a href="ResolvedBinding-class.html"><code>ResolvedBinding</code></a>s. The resolution can be cached by `resolve` for the <a href="Injector-class.html"><code>Injector</code></a> for
performance-sensitive code.
.l-sub-section
h3 resolveAndCreate
pre.prettyprint
code.
resolveAndCreate(bindings:List, {defaultBindings=false}={}, [object Object], [object Object])
:markdown
Resolves bindings and creates an injector based on those bindings. This function is slower than the
corresponding `fromResolvedBindings` because it needs to resolve bindings first. See `resolve` for the
<a href="Injector-class.html"><code>Injector</code></a>.
Prefer `fromResolvedBindings` in performance-critical code that creates lots of injectors.
.l-sub-section
h3 resolveAndCreateChild
pre.prettyprint
code.
resolveAndCreateChild(bindings:List, [object Object])
:markdown
Creates a child injector and loads a new set of bindings into it.
A resolution is a process of flattening multiple nested lists and converting individual bindings into a
list of <a href="ResolvedBinding-class.html"><code>ResolvedBinding</code></a>s. The resolution can be cached by `resolve` for the <a href="Injector-class.html"><code>Injector</code></a> for
performance-sensitive code.

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p.location-badge.
exported from <a href="/angular2/di.html">angular2/di</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/key.js#L17">angular2/src/di/key.js (line 17)</a>
:markdown
A unique object used for retrieving items from the <a href="Injector-class.html"><code>Injector</code></a>.
Keys have:
- a system-wide unique `id`.
- a `token`, usually the `Type` of the instance.
Keys are used internally by the <a href="Injector-class.html"><code>Injector</code></a> because their system-wide unique `id`s allow the
injector to index in arrays rather than looking up items in maps.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(token, id)
:markdown
.l-sub-section
h3 get
pre.prettyprint
code.
get(token)
:markdown
Retrieves a `Key` for a token.
.l-sub-section
h3 id
:markdown
.l-sub-section
h3 metadata
:markdown
.l-sub-section
h3 numberOfKeys
:markdown
.l-sub-section
h3 token
:markdown

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p.location-badge.
exported from <a href="/angular2/di.html">angular2/di</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/binding.js#L263">angular2/src/di/binding.js (line 263)</a>
:markdown
An internal resolved representation of a <a href="Binding-class.html"><code>Binding</code></a> used by the <a href="Injector-class.html"><code>Injector</code></a>.
A <a href="Binding-class.html"><code>Binding</code></a> is resolved when it has a factory function. Binding to a class, alias, or value, are just convenience
methods, as <a href="Injector-class.html"><code>Injector</code></a> only operates on calling factory functions.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(key:Key, factory:Function, dependencies:List&lt;Dependency&gt;, providedAsPromise:boolean)
:markdown
.l-sub-section
h3 dependencies
:markdown
Arguments (dependencies) to the `factory` function.
.l-sub-section
h3 factory
:markdown
Factory function which can return an instance of an object represented by a key.
.l-sub-section
h3 key
:markdown
A key, usually a `Type`.
.l-sub-section
h3 providedAsPromise
:markdown
Specifies whether the `factory` function returns a `Promise`.

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@ -0,0 +1,25 @@
{
"Binding-class" : {
"title" : "Binding Class"
},
"ResolvedBinding-class" : {
"title" : "ResolvedBinding Class"
},
"bind-function" : {
"title" : "bind Function"
},
"BindingBuilder-class" : {
"title" : "BindingBuilder Class"
},
"Injector-class" : {
"title" : "Injector Class"
},
"Key-class" : {
"title" : "Key Class"
}
}

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@ -0,0 +1,23 @@
.l-main-section
h2(class="function export") bind
p <code>(token)</code>
p.location-badge.
exported from <a href="/angular2/di.html">angular2/di</a>
:markdown
Provides an API for imperatively constructing <a href="Binding-class.html"><code>Binding</code></a>s.
This is only relevant for JavaScript. See <a href="BindingBuilder-class.html"><code>BindingBuilder</code></a>.
## Example
```javascript
bind(MyInterface).toClass(MyClass)
```

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@ -0,0 +1,8 @@
ul
for page, slug in public.docs[current.path[1]][current.path[2]][current.path[3]][current.path[4]]._data
if slug != 'index'
url = "/docs/" + current.path[1] + "/" + current.path[2] + "/" + current.path[3] + "/" + current.path[4] + "/" + slug + ".html"
li.c8
!= partial("../../../../_includes/_hover-card", {name: page.title, url: url })

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@ -0,0 +1,56 @@
p.location-badge.
exported from <a href="/angular2/di_annotations.html">angular2/di_annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/annotations.js#L110">angular2/src/di/annotations.js (line 110)</a>
:markdown
`DependencyAnnotation` is used by the framework to extend DI.
Only annotations implementing `DependencyAnnotation` are added to the list of dependency properties.
For example:
```
class Parent extends DependencyAnnotation {}
class NotDependencyProperty {}
class AComponent {
constructor(@Parent @NotDependencyProperty aService:AService) {}
}
```
will create the following dependency:
```
new Dependency(Key.get(AService), [new Parent()])
```
The framework can use `new Parent()` to handle the `aService` dependency
in a specific way.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor()
:markdown
.l-sub-section
h3 token
:markdown

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@ -0,0 +1,40 @@
p.location-badge.
exported from <a href="/angular2/di_annotations.html">angular2/di_annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/annotations.js#L13">angular2/src/di/annotations.js (line 13)</a>
:markdown
A parameter annotation that specifies a dependency.
```
class AComponent {
constructor(@Inject(MyService) aService:MyService) {}
}
```
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(token)
:markdown
.l-sub-section
h3 token
:markdown

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@ -0,0 +1,42 @@
p.location-badge.
exported from <a href="/angular2/di_annotations.html">angular2/di_annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/annotations.js#L55">angular2/src/di/annotations.js (line 55)</a>
:markdown
A parameter annotation that creates a synchronous lazy dependency.
```
class AComponent {
constructor(@InjectLazy(MyService) aServiceFn:Function) {
var aService:MyService = aServiceFn();
}
}
```
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(token)
:markdown
.l-sub-section
h3 token
:markdown

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@ -0,0 +1,42 @@
p.location-badge.
exported from <a href="/angular2/di_annotations.html">angular2/di_annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/annotations.js#L34">angular2/src/di/annotations.js (line 34)</a>
:markdown
A parameter annotation that specifies a `Promise` of a dependency.
```
class AComponent {
constructor(@InjectPromise(MyService) aServicePromise:Promise<MyService>) {
aServicePromise.then(aService:MyService => ...);
}
}
```
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(token)
:markdown
.l-sub-section
h3 token
:markdown

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@ -0,0 +1,32 @@
p.location-badge.
exported from <a href="/angular2/di_annotations.html">angular2/di_annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/annotations.js#L134">angular2/src/di/annotations.js (line 134)</a>
:markdown
A marker annotation that marks a class as available to `Injector` for creation. Used by tooling for
generating constructor stubs.
```
class NeedsService {
constructor(svc:UsefulService) {}
}
@Injectable
class UsefulService {}
```
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor()
:markdown

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@ -0,0 +1,32 @@
p.location-badge.
exported from <a href="/angular2/di_annotations.html">angular2/di_annotations</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/annotations.js#L77">angular2/src/di/annotations.js (line 77)</a>
:markdown
A parameter annotation that marks a dependency as optional. <a href="../di/Injector-class.html"><code>Injector</code></a> provides `null` if the dependency is not
found.
```
class AComponent {
constructor(@Optional() aService:MyService) {
this.aService = aService;
}
}
```
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor()
:markdown

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@ -0,0 +1,25 @@
{
"Inject-class" : {
"title" : "Inject Class"
},
"InjectPromise-class" : {
"title" : "InjectPromise Class"
},
"InjectLazy-class" : {
"title" : "InjectLazy Class"
},
"Optional-class" : {
"title" : "Optional Class"
},
"DependencyAnnotation-class" : {
"title" : "DependencyAnnotation Class"
},
"Injectable-class" : {
"title" : "Injectable Class"
}
}

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@ -0,0 +1,8 @@
ul
for page, slug in public.docs[current.path[1]][current.path[2]][current.path[3]][current.path[4]]._data
if slug != 'index'
url = "/docs/" + current.path[1] + "/" + current.path[2] + "/" + current.path[3] + "/" + current.path[4] + "/" + slug + ".html"
li.c8
!= partial("../../../../_includes/_hover-card", {name: page.title, url: url })

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@ -0,0 +1,86 @@
p.location-badge.
exported from <a href="/angular2/di_errors.html">angular2/di_errors</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/exceptions.js#L32">angular2/src/di/exceptions.js (line 32)</a>
:markdown
Base class for all errors arising from misconfigured bindings.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(key, constructResolvingMessage:Function)
:markdown
.l-sub-section
h3 addKey
pre.prettyprint
code.
addKey(key)
:markdown
.l-sub-section
h3 constructResolvingMessage
:markdown
.l-sub-section
h3 keys
:markdown
.l-sub-section
h3 message
:markdown
.l-sub-section
h3 toString
pre.prettyprint
code.
toString()
:markdown

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@ -0,0 +1,42 @@
p.location-badge.
exported from <a href="/angular2/di_errors.html">angular2/di_errors</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/exceptions.js#L95">angular2/src/di/exceptions.js (line 95)</a>
:markdown
Thrown when trying to retrieve an async <a href="../di/Binding-class.html"><code>Binding</code></a> using the sync API.
## Example
```javascript
var injector = Injector.resolveAndCreate([
bind(Number).toAsyncFactory(() => {
return new Promise((resolve) => resolve(1 + 2));
}),
bind(String).toFactory((v) => { return "Value: " + v; }, [String])
]);
injector.asyncGet(String).then((v) => expect(v).toBe('Value: 3'));
expect(() => {
injector.get(String);
}).toThrowError(AsycBindingError);
```
The above example throws because `String` depends on `Number` which is async. If any binding in the dependency
graph is async then the graph can only be retrieved using the `asyncGet` API.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(key)
:markdown

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@ -0,0 +1,36 @@
p.location-badge.
exported from <a href="/angular2/di_errors.html">angular2/di_errors</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/exceptions.js#L124">angular2/src/di/exceptions.js (line 124)</a>
:markdown
Thrown when dependencies form a cycle.
## Example:
```javascript
class A {
constructor(b:B) {}
}
class B {
constructor(a:A) {}
}
```
Retrieving `A` or `B` throws a `CyclicDependencyError` as the graph above cannot be constructed.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(key)
:markdown

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@ -0,0 +1,48 @@
p.location-badge.
exported from <a href="/angular2/di_errors.html">angular2/di_errors</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/exceptions.js#L141">angular2/src/di/exceptions.js (line 141)</a>
:markdown
Thrown when a constructing type returns with an Error.
The `InstantiationError` class contains the original error plus the dependency graph which caused this object to be
instantiated.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(cause, key)
:markdown
.l-sub-section
h3 cause
:markdown
.l-sub-section
h3 causeKey
:markdown

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@ -0,0 +1,49 @@
p.location-badge.
exported from <a href="/angular2/di_errors.html">angular2/di_errors</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/exceptions.js#L161">angular2/src/di/exceptions.js (line 161)</a>
:markdown
Thrown when an object other then <a href="../di/Binding-class.html"><code>Binding</code></a> (or `Type`) is passed to <a href="../di/Injector-class.html"><code>Injector</code></a> creation.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(binding)
:markdown
.l-sub-section
h3 message
:markdown
.l-sub-section
h3 toString
pre.prettyprint
code.
toString()
:markdown

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@ -0,0 +1,52 @@
p.location-badge.
exported from <a href="/angular2/di_errors.html">angular2/di_errors</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/exceptions.js#L181">angular2/src/di/exceptions.js (line 181)</a>
:markdown
Thrown when the class has no annotation information.
Lack of annotation information prevents the <a href="../di/Injector-class.html"><code>Injector</code></a> from determining which dependencies need to be injected into
the constructor.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(typeOrFunc)
:markdown
.l-sub-section
h3 message
:markdown
.l-sub-section
h3 toString
pre.prettyprint
code.
toString()
:markdown

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@ -0,0 +1,24 @@
p.location-badge.
exported from <a href="/angular2/di_errors.html">angular2/di_errors</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/di/exceptions.js#L61">angular2/src/di/exceptions.js (line 61)</a>
:markdown
Thrown when trying to retrieve a dependency by `Key` from <a href="../di/Injector-class.html"><code>Injector</code></a>, but the <a href="../di/Injector-class.html"><code>Injector</code></a> does not have a
<a href="../di/Binding-class.html"><code>Binding</code></a> for <a href="../di/Key-class.html"><code>Key</code></a>.
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(key)
:markdown

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@ -0,0 +1,29 @@
{
"AbstractBindingError-class" : {
"title" : "AbstractBindingError Class"
},
"NoBindingError-class" : {
"title" : "NoBindingError Class"
},
"AsyncBindingError-class" : {
"title" : "AsyncBindingError Class"
},
"CyclicDependencyError-class" : {
"title" : "CyclicDependencyError Class"
},
"InstantiationError-class" : {
"title" : "InstantiationError Class"
},
"InvalidBindingError-class" : {
"title" : "InvalidBindingError Class"
},
"NoAnnotationError-class" : {
"title" : "NoAnnotationError Class"
}
}

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@ -0,0 +1,8 @@
ul
for page, slug in public.docs[current.path[1]][current.path[2]][current.path[3]][current.path[4]]._data
if slug != 'index'
url = "/docs/" + current.path[1] + "/" + current.path[2] + "/" + current.path[3] + "/" + current.path[4] + "/" + slug + ".html"
li.c8
!= partial("../../../../_includes/_hover-card", {name: page.title, url: url })

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@ -0,0 +1,121 @@
p.location-badge.
exported from <a href="/angular2/directives.html">angular2/directives</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/directives/for.js#L44">angular2/src/directives/for.js (line 44)</a>
:markdown
The `For` directive instantiates a template once per item from an iterable. The context for each
instantiated template inherits from the outer context with the given loop variable set to the
current item from the iterable.
It is possible to alias the `index` to a local variable that will be set to the current loop
iteration in the template context.
When the contents of the iterator changes, `For` makes the corresponding changes to the DOM:
* When an item is added, a new instance of the template is added to the DOM.
* When an item is removed, its template instance is removed from the DOM.
* When items are reordered, their respective templates are reordered in the DOM.
# Example
```
<ul>
<li *for="#error in errors; #i = index">
Error {{i}} of {{errors.length}}: {{error.message}}
</li>
</ul>
```
# Syntax
- `<li *for="#item of items; #i = index">...</li>`
- `<li template="for #item of items; #i=index">...</li>`
- `<template [for]="#item" [of]="items" #i="index"><li>...</li></template>`
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(viewContainer:ViewContainer)
:markdown
.l-sub-section
h3 bulkInsert
pre.prettyprint
code.
bulkInsert(tuples, viewContainer)
:markdown
.l-sub-section
h3 bulkRemove
pre.prettyprint
code.
bulkRemove(tuples, viewContainer)
:markdown
.l-sub-section
h3 iterableChanges
pre.prettyprint
code.
iterableChanges(changes)
:markdown
.l-sub-section
h3 perViewChange
pre.prettyprint
code.
perViewChange(view, record)
:markdown
.l-sub-section
h3 viewContainer
:markdown

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p.location-badge.
exported from <a href="/angular2/directives.html">angular2/directives</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/directives/if.js#L33">angular2/src/directives/if.js (line 33)</a>
:markdown
Removes or recreates a portion of the DOM tree based on an {expression}.
If the expression assigned to `if` evaluates to a false value then the element is removed from the
DOM, otherwise a clone of the element is reinserted into the DOM.
# Example:
```
<div *if="errorCount > 0" class="error">
<!-- Error message displayed when the errorCount property on the current context is greater than 0. -->
{{errorCount}} errors detected
</div>
```
# Syntax
- `<div *if="condition">...</div>`
- `<div template="if condition">...</div>`
- `<template [if]="condition"><div>...</div></template>`
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(viewContainer: ViewContainer)
:markdown
.l-sub-section
h3 condition
pre.prettyprint
code.
condition(newCondition)
:markdown
.l-sub-section
h3 prevCondition
:markdown
.l-sub-section
h3 viewContainer
:markdown

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p.location-badge.
exported from <a href="/angular2/directives.html">angular2/directives</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/directives/non_bindable.js#L21">angular2/src/directives/non_bindable.js (line 21)</a>
:markdown
The `NonBindable` directive tells Angular not to compile or bind the contents of the current
DOM element. This is useful if the element contains what appears to be Angular directives and
bindings but which should be ignored by Angular. This could be the case if you have a site that
displays snippets of code, for instance.
Example:
```
<div>Normal: {{1 + 2}}</div> // output "Normal: 3"
<div non-bindable>Ignored: {{1 + 2}}</div> // output "Ignored: {{1 + 2}}"
```

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@ -0,0 +1,60 @@
p.location-badge.
exported from <a href="/angular2/directives.html">angular2/directives</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/directives/switch.js#L39">angular2/src/directives/switch.js (line 39)</a>
:markdown
The `Switch` directive is used to conditionally swap DOM structure on your template based on a
scope expression.
Elements within `Switch` but without `SwitchWhen` or `SwitchDefault` directives will be
preserved at the location as specified in the template.
`Switch` simply chooses nested elements and makes them visible based on which element matches
the value obtained from the evaluated expression. In other words, you define a container element
(where you place the directive), place an expression on the **`[switch]="..."` attribute**),
define any inner elements inside of the directive and place a `[switch-when]` attribute per
element.
The when attribute is used to inform Switch which element to display when the expression is
evaluated. If a matching expression is not found via a when attribute then an element with the
default attribute is displayed.
# Example:
```
<ANY [switch]="expression">
<template [switch-when]="whenExpression1">...</template>
<template [switch-when]="whenExpression1">...</template>
<template [switch-default]>...</template>
</ANY>
```
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor()
:markdown
.l-sub-section
h3 value
pre.prettyprint
code.
value(value)
:markdown

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@ -0,0 +1,31 @@
p.location-badge.
exported from <a href="/angular2/directives.html">angular2/directives</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/directives/switch.js#L187">angular2/src/directives/switch.js (line 187)</a>
:markdown
Defines a default case statement.
Default case statements are displayed when no `SwitchWhen` match the `switch` value.
Example:
```
<template [switch-default]>...</template>
```
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h2 Members
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h3 constructor
pre.prettyprint
code.
constructor(viewContainer: ViewContainer, sswitch: Switch)
:markdown

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p.location-badge.
exported from <a href="/angular2/directives.html">angular2/directives</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/directives/switch.js#L152">angular2/src/directives/switch.js (line 152)</a>
:markdown
Defines a case statement as an expression.
If multiple `SwitchWhen` match the `Switch` value, all of them are displayed.
Example:
```
// match against a context variable
<template [switch-when]="contextVariable">...</template>
// match against a constant string
<template [switch-when]="'stringValue'">...</template>
```
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h2 Members
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h3 constructor
pre.prettyprint
code.
constructor(viewContainer: ViewContainer, sswitch: Switch)
:markdown
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h3 when
pre.prettyprint
code.
when(value)
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{
"For-class" : {
"title" : "For Class"
},
"If-class" : {
"title" : "If Class"
},
"NonBindable-class" : {
"title" : "NonBindable Class"
},
"Switch-class" : {
"title" : "Switch Class"
},
"SwitchWhen-class" : {
"title" : "SwitchWhen Class"
},
"SwitchDefault-class" : {
"title" : "SwitchDefault Class"
}
}

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ul
for page, slug in public.docs[current.path[1]][current.path[2]][current.path[3]][current.path[4]]._data
if slug != 'index'
url = "/docs/" + current.path[1] + "/" + current.path[2] + "/" + current.path[3] + "/" + current.path[4] + "/" + slug + ".html"
li.c8
!= partial("../../../../_includes/_hover-card", {name: page.title, url: url })

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p.location-badge.
exported from <a href="/angular2/forms.html">angular2/forms</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/forms/directives.js#L62">angular2/src/forms/directives.js (line 62)</a>
:markdown
The accessor for writing a value and listening to changes on a checkbox input element.
# Example
```
<input type="checkbox" [control]="rememberLogin">
```
.l-main-section
h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(cd:ControlDirective, setCheckedProperty:Function)
:markdown
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h3 onChange
:markdown
.l-sub-section
h3 writeValue
pre.prettyprint
code.
writeValue(value)
:markdown

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p.location-badge.
exported from <a href="/angular2/forms.html">angular2/forms</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/forms/model.js#L96">angular2/src/forms/model.js (line 96)</a>
:markdown
Defines a part of a form that cannot be divided into other controls.
`Control` is one of the three fundamental building blocks used to define forms in Angular, along with
<a href="ControlGroup-class.html"><code>ControlGroup</code></a> and <a href="ControlArray-class.html"><code>ControlArray</code></a>.
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h2 Members
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h3 constructor
pre.prettyprint
code.
constructor(value:any, validator:Function = Validators.nullValidator)
:markdown
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h3 updateValue
pre.prettyprint
code.
updateValue(value:any)
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p.location-badge.
exported from <a href="/angular2/forms.html">angular2/forms</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/forms/model.js#L219">angular2/src/forms/model.js (line 219)</a>
:markdown
Defines a part of a form, of variable length, that can contain other controls.
A `ControlArray` aggregates the values and errors of each <a href="Control-class.html"><code>Control</code></a> in the group. Thus, if one of the controls
in a group is invalid, the entire group is invalid. Similarly, if a control changes its value, the entire group
changes as well.
`ControlArray` is one of the three fundamental building blocks used to define forms in Angular, along with
<a href="Control-class.html"><code>Control</code></a> and <a href="ControlGroup-class.html"><code>ControlGroup</code></a>. <a href="ControlGroup-class.html"><code>ControlGroup</code></a> can also contain other controls, but is of fixed
length.
.l-main-section
h2 Members
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h3 constructor
pre.prettyprint
code.
constructor(controls:List&lt;AbstractControl&gt;, validator:Function = Validators.array)
:markdown
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h3 at
pre.prettyprint
code.
at(index:number)
:markdown
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h3 controls
:markdown
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h3 insert
pre.prettyprint
code.
insert(index:number, control:AbstractControl)
:markdown
.l-sub-section
h3 length
:markdown
.l-sub-section
h3 push
pre.prettyprint
code.
push(control:AbstractControl)
:markdown
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h3 removeAt
pre.prettyprint
code.
removeAt(index:number)
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p.location-badge.
exported from <a href="/angular2/forms.html">angular2/forms</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/forms/directives.js#L114">angular2/src/forms/directives.js (line 114)</a>
:markdown
Binds a control to a DOM element.
# Example
In this example, we bind the control to an input element. When the value of the input element changes, the value of
the control will reflect that change. Likewise, if the value of the control changes, the input element reflects that
change.
Here we use <a href="FormDirectives-var.html"><code>FormDirectives</code></a>, rather than importing each form directive individually, e.g.
`ControlDirective`, `ControlGroupDirective`. This is just a shorthand for the same end result.
```
@Component({selector: "login-comp"})
@View({
directives: [FormDirectives],
inline: "<input type='text' [control]='loginControl'>"
})
class LoginComp {
loginControl:Control;
constructor() {
this.loginControl = new Control('');
}
}
```
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h2 Members
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h3 constructor
pre.prettyprint
code.
constructor(groupDirective:ControlGroupDirective, valueAccessor:DefaultValueAccessor)
:markdown
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h3 controlOrName
:markdown
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h3 onChange
pre.prettyprint
code.
onChange(_)
:markdown
.l-sub-section
h3 validator
:markdown
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h3 valueAccessor
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p.location-badge.
exported from <a href="/angular2/forms.html">angular2/forms</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/forms/model.js#L132">angular2/src/forms/model.js (line 132)</a>
:markdown
Defines a part of a form, of fixed length, that can contain other controls.
A ControlGroup aggregates the values and errors of each <a href="Control-class.html"><code>Control</code></a> in the group. Thus, if one of the controls
in a group is invalid, the entire group is invalid. Similarly, if a control changes its value, the entire group
changes as well.
`ControlGroup` is one of the three fundamental building blocks used to define forms in Angular, along with
<a href="Control-class.html"><code>Control</code></a> and <a href="ControlArray-class.html"><code>ControlArray</code></a>. <a href="ControlArray-class.html"><code>ControlArray</code></a> can also contain other controls, but is of variable
length.
.l-main-section
h2 Members
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h3 constructor
pre.prettyprint
code.
constructor(controls:StringMap, optionals:StringMap = null, validator:Function = Validators.group)
:markdown
.l-sub-section
h3 contains
pre.prettyprint
code.
contains(controlName:string)
:markdown
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h3 controls
:markdown
.l-sub-section
h3 exclude
pre.prettyprint
code.
exclude(controlName:string)
:markdown
.l-sub-section
h3 include
pre.prettyprint
code.
include(controlName:string)
:markdown

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p.location-badge.
exported from <a href="/angular2/forms.html">angular2/forms</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/forms/directives.js#L210">angular2/src/forms/directives.js (line 210)</a>
:markdown
Binds a control group to a DOM element.
# Example
In this example, we bind the control group to the form element, and we bind the login and password controls to the
login and password elements.
Here we use <a href="FormDirectives-var.html"><code>FormDirectives</code></a>, rather than importing each form directive individually, e.g.
`ControlDirective`, `ControlGroupDirective`. This is just a shorthand for the same end result.
```
@Component({selector: "login-comp"})
@View({
directives: [FormDirectives],
inline: "<form [control-group]='loginForm'>" +
"Login <input type='text' control='login'>" +
"Password <input type='password' control='password'>" +
"<button (click)="onLogin()">Login</button>" +
"</form>"
})
class LoginComp {
loginForm:ControlGroup;
constructor() {
this.loginForm = new ControlGroup({
login: new Control(""),
password: new Control("")
});
}
onLogin() {
// this.loginForm.value
}
}
```
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h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(groupDirective:ControlGroupDirective)
:markdown
.l-sub-section
h3 addDirective
pre.prettyprint
code.
addDirective(c:ControlDirective)
:markdown
.l-sub-section
h3 controlGroup
pre.prettyprint
code.
controlGroup(controlGroup)
:markdown
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h3 findControl
pre.prettyprint
code.
findControl(name:string)
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p.location-badge.
exported from <a href="/angular2/forms.html">angular2/forms</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/forms/directives.js#L31">angular2/src/forms/directives.js (line 31)</a>
:markdown
The default accessor for writing a value and listening to changes that is used by a <a href="Control-class.html"><code>Control</code></a> directive.
This is the default strategy that Angular uses when no other accessor is applied.
# Example
```
<input type="text" [control]="loginControl">
```
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h2 Members
.l-sub-section
h3 constructor
pre.prettyprint
code.
constructor(setValueProperty:Function)
:markdown
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h3 onChange
:markdown
.l-sub-section
h3 writeValue
pre.prettyprint
code.
writeValue(value)
:markdown

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p.location-badge.
exported from <a href="/angular2/forms.html">angular2/forms</a>
defined in <a href="https://github.com/angular/angular/tree/master/modules/angular2/src/forms/form_builder.js#L26">angular2/src/forms/form_builder.js (line 26)</a>
:markdown
Creates a form object from a user-specified configuration.
# Example
This example creates a <a href="ControlGroup-class.html"><code>ControlGroup</code></a> that consists of a `login` <a href="Control-class.html"><code>Control</code></a>, and a nested
<a href="ControlGroup-class.html"><code>ControlGroup</code></a> that defines a `password` and a `passwordConfirmation` <a href="Control-class.html"><code>Control</code></a>.
```
var loginForm = builder.group({
login: ["", Validators.required],
passwordRetry: builder.group({
password: ["", Validators.required],
passwordConfirmation: ["", Validators.required]
})
});
```
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h2 Members
.l-sub-section
h3 array
pre.prettyprint
code.
array(controlsConfig:List, validator:Function = null)
:markdown
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h3 control
pre.prettyprint
code.
control(value, validator:Function = null)
:markdown
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h3 group
pre.prettyprint
code.
group(controlsConfig, extra = null)
:markdown

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.l-main-section
h2 FormDirectives <span class="type">variable</span>
p.location-badge.
exported from <a href="/angular2/forms.html">angular2/forms</a>
:markdown
A list of all the form directives used as part of a `@View` annotation.
This is a shorthand for importing them each individually.

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h2 INVALID <span class="type">variable</span>
p.location-badge.
exported from <a href="/angular2/forms.html">angular2/forms</a>
:markdown
Indicates that a Control is invalid, i.e. that an error exists in the input value.

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.l-main-section
h2 VALID <span class="type">variable</span>
p.location-badge.
exported from <a href="/angular2/forms.html">angular2/forms</a>
:markdown
Indicates that a Control is valid, i.e. that no errors exist in the input value.

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