559 lines
25 KiB
Markdown
559 lines
25 KiB
Markdown
@title
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Architecture Overview
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@intro
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The basic building blocks of Angular applications.
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@description
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Angular is a framework for building client applications in HTML and
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either JavaScript or a language like TypeScript that compiles to JavaScript.
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The framework consists of several libraries, some of them core and some optional.
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You write Angular applications by composing HTML *templates* with Angularized markup,
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writing *component* classes to manage those templates, adding application logic in *services*,
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and boxing components and services in *modules*.
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Then you launch the app by *bootstrapping* the _root module_.
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Angular takes over, presenting your application content in a browser and
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responding to user interactions according to the instructions you've provided.
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Of course, there is more to it than this.
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You'll learn the details in the pages that follow. For now, focus on the big picture.
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<figure>
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<img src="generated/images/guide/architecture/overview2.png" alt="overview" width="700" height="356">
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</figure>
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<!--
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The architecture diagram identifies the eight main building blocks of an Angular application:
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* [Modules](guide/architecture#modules)
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* [Components](guide/architecture#components)
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* [Templates](guide/architecture#templates)
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* [Metadata](guide/architecture#metadata)
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* [Data binding](guide/architecture#data-binding)
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* [Directives](guide/architecture#directives)
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* [Services](guide/architecture#services)
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* [Dependency injection](guide/architecture#dependency-injection)
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Learn these building blocks, and you're on your way.
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-->
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<div class="l-sub-section">
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The code referenced on this page is available as a <live-example></live-example>.
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</div>
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## Modules
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<img src="generated/images/guide/architecture/module.png" alt="Component" class="left" width="240" height="183">
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Angular apps are modular and Angular has its own modularity system called _Angular modules_ or _NgModules_.
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_Angular modules_ are a big deal.
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This page introduces modules; the [Angular modules](guide/ngmodule) page covers them in depth.
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<br class="clear">
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Every Angular app has at least one Angular module class, [the _root module_](guide/appmodule "AppModule: the root module"),
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conventionally named `AppModule`.
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While the _root module_ may be the only module in a small application, most apps have many more
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_feature modules_, each a cohesive block of code dedicated to an application domain,
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a workflow, or a closely related set of capabilities.
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An Angular module, whether a _root_ or _feature_, is a class with an `@NgModule` decorator.
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<div class="l-sub-section">
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Decorators are functions that modify JavaScript classes.
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Angular has many decorators that attach metadata to classes so that it knows
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what those classes mean and how they should work.
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<a href="https://medium.com/google-developers/exploring-es7-decorators-76ecb65fb841#.x5c2ndtx0">
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Learn more</a> about decorators on the web.
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</div>
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`NgModule` is a decorator function that takes a single metadata object whose properties describe the module.
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The most important properties are:
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* `declarations` - the _view classes_ that belong to this module.
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Angular has three kinds of view classes: [components](guide/architecture#components), [directives](guide/architecture#directives), and [pipes](guide/pipes).
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* `exports` - the subset of declarations that should be visible and usable in the component [templates](guide/architecture#templates) of other modules.
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* `imports` - other modules whose exported classes are needed by component templates declared in _this_ module.
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* `providers` - creators of [services](guide/architecture#services) that this module contributes to
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the global collection of services; they become accessible in all parts of the app.
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* `bootstrap` - the main application view, called the _root component_,
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that hosts all other app views. Only the _root module_ should set this `bootstrap` property.
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Here's a simple root module:
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<code-example path="architecture/src/app/mini-app.ts" region="module" title="src/app/app.module.ts" linenums="false"></code-example>
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<div class="l-sub-section">
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The `export` of `AppComponent` is just to show how to export; it isn't actually necessary in this example. A root module has no reason to _export_ anything because other components don't need to _import_ the root module.
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</div>
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Launch an application by _bootstrapping_ its root module.
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During development you're likely to bootstrap the `AppModule` in a `main.ts` file like this one.
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<code-example path="architecture/src/main.ts" title="src/main.ts" linenums="false"></code-example>
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### Angular modules vs. JavaScript modules
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The Angular module — a class decorated with `@NgModule` — is a fundamental feature of Angular.
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JavaScript also has its own module system for managing collections of JavaScript objects.
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It's completely different and unrelated to the Angular module system.
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In JavaScript each _file_ is a module and all objects defined in the file belong to that module.
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The module declares some objects to be public by marking them with the `export` key word.
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Other JavaScript modules use *import statements* to access public objects from other modules.
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<code-example path="architecture/src/app/app.module.ts" region="imports" linenums="false"></code-example>
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<code-example path="architecture/src/app/app.module.ts" region="export" linenums="false"></code-example>
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<div class="l-sub-section">
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<a href="http://exploringjs.com/es6/ch_modules.html">Learn more about the JavaScript module system on the web.</a>
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</div>
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These are two different and _complementary_ module systems. Use them both to write your apps.
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### Angular libraries
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<img src="generated/images/guide/architecture/library-module.png" alt="Component" class="left" width="240" height="181">
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Angular ships as a collection of JavaScript modules. You can think of them as library modules.
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Each Angular library name begins with the `@angular` prefix.
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You install them with the **npm** package manager and import parts of them with JavaScript `import` statements.
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<br class="clear">
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For example, import Angular's `Component` decorator from the `@angular/core` library like this:
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<code-example path="architecture/src/app/app.component.ts" region="import" linenums="false"></code-example>
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You also import Angular _modules_ from Angular _libraries_ using JavaScript import statements:
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<code-example path="architecture/src/app/mini-app.ts" region="import-browser-module" linenums="false"></code-example>
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In the example of the simple root module above, the application module needs material from within that `BrowserModule`. To access that material, add it to the `@NgModule` metadata `imports` like this.
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<code-example path="architecture/src/app/mini-app.ts" region="ngmodule-imports" linenums="false"></code-example>
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In this way you're using both the Angular and JavaScript module systems _together_.
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It's easy to confuse the two systems because they share the common vocabulary of "imports" and "exports".
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Hang in there. The confusion yields to clarity with time and experience.
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<div class="l-sub-section">
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Learn more from the [Angular modules](guide/ngmodule) page.
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</div>
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<hr/>
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## Components
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<img src="generated/images/guide/architecture/hero-component.png" alt="Component" class="left" width="200" height="115">
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A _component_ controls a patch of screen called a *view*.
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For example, the following views are controlled by components:
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* The app root with the navigation links.
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* The list of heroes.
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* The hero editor.
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You define a component's application logic—what it does to support the view—inside a class.
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The class interacts with the view through an API of properties and methods.
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{@a component-code}
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For example, this `HeroListComponent` has a `heroes` property that returns an array of heroes
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that it acquires from a service.
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`HeroListComponent` also has a `selectHero()` method that sets a `selectedHero` property when the user clicks to choose a hero from that list.
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<code-example path="architecture/src/app/hero-list.component.ts" linenums="false" title="src/app/hero-list.component.ts (class)" region="class"></code-example>
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Angular creates, updates, and destroys components as the user moves through the application.
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Your app can take action at each moment in this lifecycle through optional [lifecycle hooks](guide/lifecycle-hooks), like `ngOnInit()` declared above.
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<hr/>
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## Templates
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<img src="generated/images/guide/architecture/template.png" alt="Template" class="left" width="200">
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You define a component's view with its companion **template**. A template is a form of HTML
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that tells Angular how to render the component.
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A template looks like regular HTML, except for a few differences. Here is a
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template for our `HeroListComponent`:
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<code-example path="architecture/src/app/hero-list.component.html" title="src/app/hero-list.component.html"></code-example>
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Although this template uses typical HTML elements like `<h2>` and `<p>`, it also has some differences. Code like `*ngFor`, `{{hero.name}}`, `(click)`, `[hero]`, and `<hero-detail>` uses Angular's [template syntax](guide/template-syntax).
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In the last line of the template, the `<hero-detail>` tag is a custom element that represents a new component, `HeroDetailComponent`.
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The `HeroDetailComponent` is a *different* component than the `HeroListComponent` you've been reviewing.
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The `HeroDetailComponent` (code not shown) presents facts about a particular hero, the
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hero that the user selects from the list presented by the `HeroListComponent`.
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The `HeroDetailComponent` is a **child** of the `HeroListComponent`.
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<img src="generated/images/guide/architecture/component-tree.png" alt="Metadata" class="left" width="300" height="260">
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Notice how `<hero-detail>` rests comfortably among native HTML elements. Custom components mix seamlessly with native HTML in the same layouts.
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<hr class="clear"/>
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## Metadata
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<img src="generated/images/guide/architecture/metadata.png" alt="Metadata" class="left">
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Metadata tells Angular how to process a class.
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<br class="clear">
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[Looking back at the code](guide/architecture#component-code) for `HeroListComponent`, you can see that it's just a class.
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There is no evidence of a framework, no "Angular" in it at all.
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In fact, `HeroListComponent` really is *just a class*. It's not a component until you *tell Angular about it*.
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To tell Angular that `HeroListComponent` is a component, attach **metadata** to the class.
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In TypeScript, you attach metadata by using a **decorator**.
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Here's some metadata for `HeroListComponent`:
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<code-example path="architecture/src/app/hero-list.component.ts" linenums="false" title="src/app/hero-list.component.ts (metadata)" region="metadata"></code-example>
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Here is the `@Component` decorator, which identifies the class
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immediately below it as a component class.
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The `@Component` decorator takes a required configuration object with the
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information Angular needs to create and present the component and its view.
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Here are a few of the most useful `@Component` configuration options:
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* `selector`: CSS selector that tells Angular to create and insert an instance of this component
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where it finds a `<hero-list>` tag in *parent* HTML.
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For example, if an app's HTML contains `<hero-list></hero-list>`, then
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Angular inserts an instance of the `HeroListComponent` view between those tags.
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* `templateUrl`: module-relative address of this component's HTML template, shown [above](guide/architecture#templates).
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* `providers`: array of **dependency injection providers** for services that the component requires.
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This is one way to tell Angular that the component's constructor requires a `HeroService`
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so it can get the list of heroes to display.
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<img src="generated/images/guide/architecture/template-metadata-component.png" alt="Metadata" class="left" width="114" height="200">
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The metadata in the `@Component` tells Angular where to get the major building blocks you specify for the component.
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The template, metadata, and component together describe a view.
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Apply other metadata decorators in a similar fashion to guide Angular behavior.
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`@Injectable`, `@Input`, and `@Output` are a few of the more popular decorators.
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<br class="clear">
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The architectural takeaway is that you must add metadata to your code
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so that Angular knows what to do.
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<hr/>
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## Data binding
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Without a framework, you would be responsible for pushing data values into the HTML controls and turning user responses
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into actions and value updates. Writing such push/pull logic by hand is tedious, error-prone, and a nightmare to
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read as any experienced jQuery programmer can attest.
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<img src="generated/images/guide/architecture/databinding.png" alt="Data Binding" class="left" width="220" height="204">
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Angular supports **data binding**,
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a mechanism for coordinating parts of a template with parts of a component.
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Add binding markup to the template HTML to tell Angular how to connect both sides.
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As the diagram shows, there are four forms of data binding syntax. Each form has a direction — to the DOM, from the DOM, or in both directions.
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<br class="clear">
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The `HeroListComponent` [example](guide/architecture#templates) template has three forms:
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<code-example path="architecture/src/app/hero-list.component.1.html" linenums="false" title="src/app/hero-list.component.html (binding)" region="binding"></code-example>
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* The `{{hero.name}}` [*interpolation*](guide/displaying-data#interpolation)
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displays the component's `hero.name` property value within the `<li>` element.
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* The `[hero]` [*property binding*](guide/template-syntax#property-binding) passes the value of `selectedHero` from
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the parent `HeroListComponent` to the `hero` property of the child `HeroDetailComponent`.
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* The `(click)` [*event binding*](guide/user-input#click) calls the component's `selectHero` method when the user clicks a hero's name.
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**Two-way data binding** is an important fourth form
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that combines property and event binding in a single notation, using the `ngModel` directive.
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Here's an example from the `HeroDetailComponent` template:
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<code-example path="architecture/src/app/hero-detail.component.html" linenums="false" title="src/app/hero-detail.component.html (ngModel)" region="ngModel"></code-example>
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In two-way binding, a data property value flows to the input box from the component as with property binding.
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The user's changes also flow back to the component, resetting the property to the latest value,
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as with event binding.
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Angular processes *all* data bindings once per JavaScript event cycle,
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from the root of the application component tree through all child components.
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<figure>
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<img src="generated/images/guide/architecture/component-databinding.png" alt="Data Binding">
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</figure>
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Data binding plays an important role in communication between a template and its component.
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<figure>
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<img src="generated/images/guide/architecture/parent-child-binding.png" alt="Parent/Child binding" width="358" height="171">
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</figure>
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Data binding is also important for communication between parent and child components.
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<hr class="clear"/>
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## Directives
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<img src="generated/images/guide/architecture/directive.png" alt="Parent child" class="left" width="150" height="147">
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Angular templates are *dynamic*. When Angular renders them, it transforms the DOM
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according to the instructions given by **directives**.
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A directive is a class with a `@Directive` decorator.
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A component is a *directive-with-a-template*;
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a `@Component` decorator is actually a `@Directive` decorator extended with template-oriented features.
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<div class="l-sub-section clear">
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While **a component is technically a directive**,
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components are so distinctive and central to Angular applications that this architectural overview separates components from directives.
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</div>
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Two *other* kinds of directives exist: _structural_ and _attribute_ directives.
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They tend to appear within an element tag as attributes do,
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sometimes by name but more often as the target of an assignment or a binding.
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**Structural** directives alter layout by adding, removing, and replacing elements in DOM.
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The [example template](guide/architecture#templates) uses two built-in structural directives:
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<code-example path="architecture/src/app/hero-list.component.1.html" linenums="false" title="src/app/hero-list.component.html (structural)" region="structural"></code-example>
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* [`*ngFor`](guide/displaying-data#ngFor) tells Angular to stamp out one `<li>` per hero in the `heroes` list.
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* [`*ngIf`](guide/displaying-data#ngIf) includes the `HeroDetail` component only if a selected hero exists.
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**Attribute** directives alter the appearance or behavior of an existing element.
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In templates they look like regular HTML attributes, hence the name.
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The `ngModel` directive, which implements two-way data binding, is
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an example of an attribute directive. `ngModel` modifies the behavior of
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an existing element (typically an `<input>`)
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by setting its display value property and responding to change events.
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<code-example path="architecture/src/app/hero-detail.component.html" linenums="false" title="src/app/hero-detail.component.html (ngModel)" region="ngModel"></code-example>
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Angular has a few more directives that either alter the layout structure
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(for example, [ngSwitch](guide/template-syntax#ngSwitch))
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or modify aspects of DOM elements and components
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(for example, [ngStyle](guide/template-syntax#ngStyle) and [ngClass](guide/template-syntax#ngClass)).
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Of course, you can also write your own directives. Components such as
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`HeroListComponent` are one kind of custom directive.
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<!-- PENDING: link to where to learn more about other kinds! -->
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<hr/>
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## Services
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<img src="generated/images/guide/architecture/service.png" alt="Service" class="left">
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_Service_ is a broad category encompassing any value, function, or feature that your application needs.
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Almost anything can be a service.
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A service is typically a class with a narrow, well-defined purpose. It should do something specific and do it well.<br class="l-clear-both">
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Examples include:
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* logging service
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* data service
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* message bus
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* tax calculator
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* application configuration
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There is nothing specifically _Angular_ about services. Angular has no definition of a service.
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There is no service base class, and no place to register a service.
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Yet services are fundamental to any Angular application. Components are big consumers of services.
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Here's an example of a service class that logs to the browser console:
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<code-example path="architecture/src/app/logger.service.ts" linenums="false" title="src/app/logger.service.ts (class)" region="class"></code-example>
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Here's a `HeroService` that uses a [Promise](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Promise) to fetch heroes.
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The `HeroService` depends on the `Logger` service and another `BackendService` that handles the server communication grunt work.
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<code-example path="architecture/src/app/hero.service.ts" linenums="false" title="src/app/hero.service.ts (class)" region="class"></code-example>
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Services are everywhere.
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Component classes should be lean. They don't fetch data from the server,
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validate user input, or log directly to the console.
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They delegate such tasks to services.
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A component's job is to enable the user experience and nothing more. It mediates between the view (rendered by the template)
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and the application logic (which often includes some notion of a _model_).
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A good component presents properties and methods for data binding.
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It delegates everything nontrivial to services.
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Angular doesn't *enforce* these principles.
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It won't complain if you write a "kitchen sink" component with 3000 lines.
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Angular does help you *follow* these principles by making it easy to factor your
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application logic into services and make those services available to components through *dependency injection*.
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<hr/>
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## Dependency injection
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<img src="generated/images/guide/architecture/dependency-injection.png" alt="Service" class="left" width="200" height="89">
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_Dependency injection_ is a way to supply a new instance of a class
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with the fully-formed dependencies it requires. Most dependencies are services.
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Angular uses dependency injection to provide new components with the services they need.
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<br class="clear">
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Angular can tell which services a component needs by looking at the types of its constructor parameters.
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For example, the constructor of your `HeroListComponent` needs a `HeroService`:
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<code-example path="architecture/src/app/hero-list.component.ts" linenums="false" title="src/app/hero-list.component.ts (constructor)" region="ctor"></code-example>
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When Angular creates a component, it first asks an **injector** for
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the services that the component requires.
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An injector maintains a container of service instances that it has previously created.
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If a requested service instance is not in the container, the injector makes one and adds it to the container
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before returning the service to Angular.
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When all requested services have been resolved and returned,
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Angular can call the component's constructor with those services as arguments.
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This is *dependency injection*.
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The process of `HeroService` injection looks a bit like this:
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<figure>
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<img src="generated/images/guide/architecture/injector-injects.png" alt="Service">
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</figure>
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If the injector doesn't have a `HeroService`, how does it know how to make one?
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In brief, you must have previously registered a **provider** of the `HeroService` with the injector.
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A provider is something that can create or return a service, typically the service class itself.
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You can register providers in modules or in components.
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In general, add providers to the [root module](guide/architecture#modules) so that
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the same instance of a service is available everywhere.
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<code-example path="architecture/src/app/app.module.ts" linenums="false" title="src/app/app.module.ts (module providers)" region="providers"></code-example>
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Alternatively, register at a component level in the `providers` property of the `@Component` metadata:
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<code-example path="architecture/src/app/hero-list.component.ts" linenums="false" title="src/app/hero-list.component.ts (component providers)" region="providers"></code-example>
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Registering at a component level means you get a new instance of the
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service with each new instance of that component.
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|
|
<!-- We've vastly oversimplified dependency injection for this overview.
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The full story is in the [dependency injection](guide/dependency-injection) page. -->
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Points to remember about dependency injection:
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* Dependency injection is wired into the Angular framework and used everywhere.
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* The *injector* is the main mechanism.
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* An injector maintains a *container* of service instances that it created.
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* An injector can create a new service instance from a *provider*.
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* A *provider* is a recipe for creating a service.
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* Register *providers* with injectors.
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<hr/>
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## Wrap up
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You've learned the basics about the eight main building blocks of an Angular application:
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|
* [Modules](guide/architecture#modules)
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* [Components](guide/architecture#components)
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* [Templates](guide/architecture#templates)
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* [Metadata](guide/architecture#metadata)
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* [Data binding](guide/architecture#data-binding)
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* [Directives](guide/architecture#directives)
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* [Services](guide/architecture#services)
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* [Dependency injection](guide/architecture#dependency-injection)
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|
|
That's a foundation for everything else in an Angular application,
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|
and it's more than enough to get going.
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|
But it doesn't include everything you need to know.
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Here is a brief, alphabetical list of other important Angular features and services.
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Most of them are covered in this documentation (or soon will be).
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|
> [**Animations**](guide/animations): Animate component behavior
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|
without deep knowledge of animation techniques or CSS with Angular's animation library.
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> **Change detection**: The change detection documentation will cover how Angular decides that a component property value has changed,
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|
when to update the screen, and how it uses **zones** to intercept asynchronous activity and run its change detection strategies.
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|
> **Events**: The events documentation will cover how to use components and services to raise events with mechanisms for
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publishing and subscribing to events.
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> [**Forms**](guide/forms): Support complex data entry scenarios with HTML-based validation and dirty checking.
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> [**HTTP**](guide/http): Communicate with a server to get data, save data, and invoke server-side actions with an HTTP client.
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> [**Lifecycle hooks**](guide/lifecycle-hooks): Tap into key moments in the lifetime of a component, from its creation to its destruction,
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|
by implementing the lifecycle hook interfaces.
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|
|
> [**Pipes**](guide/pipes): Use pipes in your templates to improve the user experience by transforming values for display. Consider this `currency` pipe expression:
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>
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> > `price | currency:'USD':true`
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>
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> It displays a price of 42.33 as `$42.33`.
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|
> [**Router**](guide/router): Navigate from page to page within the client
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|
application and never leave the browser.
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|
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> [**Testing**](guide/testing): Run unit tests on your application parts as they interact with the Angular framework
|
|
using the _Angular Testing Platform_.
|