472 lines
16 KiB
Plaintext
472 lines
16 KiB
Plaintext
include ../../../../_includes/_util-fns
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:marked
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Everything that we can do in Angular 2 in TypeScript, we can also do
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in JavaScript. Translating from one language to the other is mostly a
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matter of changing the way we organize our code and the way we access
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Angular 2 APIs.
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Since TypeScript is a popular language option in Angular 2, many of the
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code examples you see on the Internet as well as on this site are written
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in TypeScript. This cookbook contains recipes for translating these kinds of
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code examples to ES5, so that they can be applied to Angular 2 JavaScript
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applications.
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<a id="toc"></a>
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:marked
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## Table of contents
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[Modularity: imports and exports](#modularity)
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[Classes and Class Metadata](#class-metadata)
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[Input and Output Metadata](#property-metadata)
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[Dependency Injection](#dependency-injection)
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[Host and Query Metadata](#other-property-metadata)
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**Run and compare the live [TypeScript](/resources/live-examples/cb-ts-to-js/ts/plnkr.html) and
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[JavaScript](/resources/live-examples/cb-ts-to-js/js/plnkr.html) code shown in this cookbook.**
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a(id="modularity")
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.l-main-section
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:marked
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## Importing and Exporting
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- var top="vertical-align:top"
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table(width="100%")
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col(width="50%")
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col(width="50%")
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tr
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th TypeScript
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th ES5 JavaScript
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tr(style=top)
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td
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:marked
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### Importing Angular 2 Code
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In TypeScript code, Angular 2 classes, functions, and other members
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are imported with TypeScript `import` statements:
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+makeExample('cb-ts-to-js/ts/app/main.ts', 'ng2import')(format="." )
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td
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:marked
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### Accessing Angular 2 Code through the ng global
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In JavaScript code, when using
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[the Angular 2 packages](../glossary.html#!#scoped-package),
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we can access Angular code through the global `ng` object. In the
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nested members of this object we'll find everything we would import
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from `angular2` in TypeScript:
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+makeExample('cb-ts-to-js/js/app/main.js', 'ng2import')(format="." )
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tr(style=top)
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td
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:marked
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### Importing and Exporting Application Code
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Each file in an Angular 2 TypeScript application constitutes a
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TypeScript module. When we want to make something from a module available
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to other modules, we `export` it.
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+makeExample('cb-ts-to-js/ts/app/hero.component.ts', 'appexport')(format="." )
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:marked
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In other modules we can then `import` things that have been exported
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elsewhere.
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+makeExample('cb-ts-to-js/ts/app/main.ts', 'appimport')(format="." )
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td
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:marked
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### Sharing Application Code
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In an Angular 2 JavaScript application, we load each file to the page
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using a `<script>` tag. Each file can make things available to other
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files via the shared global `window` scope.
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We often introduce an application namespace
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object (such as `"app"`) onto `window` and attach everything we need
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to share to that namespace object.
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We also wrap our code in an
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[Immediately Invoked Function Expression (IIFE)](https://en.wikipedia.org/wiki/Immediately-invoked_function_expression).
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These practices together prevent our code from
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polluting the global scope.
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+makeExample('cb-ts-to-js/js/app/hero.component.js', 'appexport')(format="." )
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:marked
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We can then access anything from this shared namespace in
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other files.
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+makeExample('cb-ts-to-js/js/app/main.js', 'appimport')(format="." )
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:marked
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Note that the order of `<script>` tags on the page is significant.
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We must load a file that defines a shared member before
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a file that uses that member.
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.alert.is-helpful
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:marked
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Alternatively, we can use a module loader such as Webpack or
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Browserify in an Angular 2 JavaScript project. In such a project, we would
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use CommonJS modules and the `require` function to load Angular 2 framework code.
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We would then use `module.exports` and `require` to export and import application
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code.
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a(id="class-metadata")
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.l-main-section
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:marked
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## Classes and Class Metadata
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- var top="vertical-align:top"
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table(width="100%")
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col(width="50%")
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col(width="50%")
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tr
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th TypeScript
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th ES5 JavaScript
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tr(style=top)
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td
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:marked
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### Classes
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We put most of our Angular 2 TypeScript code into TypeScript classes.
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+makeExample('cb-ts-to-js/ts/app/hero.component.ts', 'class')(format="." )
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td
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:marked
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### Constructors and Prototypes
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ES5 JavaScript has no classes. We use the constructor
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pattern instead which works with Angular 2 as well as classes do.
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+makeExample('cb-ts-to-js/js/app/hero.component.js', 'constructorproto')(format="." )
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tr(style=top)
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td
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:marked
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### Metadata with Decorators
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Most Angular 2 classes have one or more TypeScript *decorators*
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attached to provide configuration and metadata. For example,
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a component must have a [`@Component`](../api/core/Component-decorator.html) decorator.
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+makeExample('cb-ts-to-js/ts/app/hero.component.ts', 'metadata')(format="." )
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td
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:marked
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### Metadata with the Annotations Array
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In JavaScript, we can attach an `annotations` array to a constructor
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to provide metadata.
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Each item in the array corresponds to a TypeScript decorator.
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In the following example, we create a new instance of `Component` that corresponds
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to the [`@Component`](../api/core/Component-decorator.html) TypeScript decorator.
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+makeExample('cb-ts-to-js/js/app/hero.component.js', 'metadata')(format="." )
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:marked
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### Metadata with The Class Convenience API
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The pattern of creating a constructor and decorating it with metadata
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is so common that Angular provides an alternative convenience API for it.
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This API lets us define everything in a single expression.
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With this API we first call the `ng.core.Component` function,
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followed by a chained `Class` method call. The argument to `Class`
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is an object that defines the constructor and the instance methods
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of the component:
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+makeExample('cb-ts-to-js/js/app/hero-dsl.component.js', 'component')(format="." )
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:marked
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Similar APIs are also available for other decorators. You can define a
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directive:
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code-example.
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var MyDirective = ng.core.Directive({
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...
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}).Class({
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...
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});
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:marked
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Or a pipe:
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code-example.
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var MyPipe = ng.core.Pipe({
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name: 'myPipe'
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}).Class({
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...
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});
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tr(style=top)
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td
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:marked
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### Interfaces
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When defining classes that need to implement a certain method, it
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is common to use TypeScript interfaces that enforce that the
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method signature is correct. Component lifecycle methods like `ngOnInit`
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are one example of this pattern. `ngOnInit` is defined in the `OnInit`
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interface.
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+makeExample('cb-ts-to-js/ts/app/hero-lifecycle.component.ts')(format="." )
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td
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:marked
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### Implementing Methods without Interfaces
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TypeScript interfaces are purely for developer convenience
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and are not used by Angular 2 at runtime. This means that in JavaScript
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code we don't need to substitute anything for interfaces. We can just
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implement the methods.
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+makeExample('cb-ts-to-js/js/app/hero-lifecycle.component.js')(format="." )
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a(id="property-metadata")
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.l-main-section
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:marked
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## Input and Output Metadata
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- var top="vertical-align:top"
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table(width="100%")
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col(width="50%")
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col(width="50%")
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tr
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th TypeScript
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th ES5 JavaScript
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tr(style=top)
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td
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:marked
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### Input and Output Decorators
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In TypeScript, property decorators are often used to provide additional metadata
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for components and directives.
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For [inputs and outputs](../guide/template-syntax.html#inputs-outputs),
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we use [`@Input`](../api/core/Input-var.html)
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and [`@Output`](../api/core/Output-var.html) property decorators.
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They may optionally specify input and output binding names if we want them to be
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different from the class property names.
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+makeExample('cb-ts-to-js/ts/app/hero-io.component.ts')(format="." )
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.alert.is-helpful
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:marked
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In TypeScript we can also use the `inputs` and `outputs` array metadata
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instead of the `@Input` and `@Output` property decorators.
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td
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:marked
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### Inputs and Outputs in Component Metadata
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There is no equivalent of a property decorator in ES5 JavaScript. Instead,
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we add comparable information to the `Component` (or `Directive`) metadata.
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In this example, we add `inputs` and `outputs` array attributes
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containing the input and output property names.
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If we need a binding name that is different from the
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property itself, we use the `propertyName: bindingName` syntax.
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+makeExample('cb-ts-to-js/js/app/hero-io.component.js')(format="." )
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.l-main-section
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:marked
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## Dependency Injection
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- var top="vertical-align:top"
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table(width="100%")
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col(width="50%")
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col(width="50%")
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tr
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th TypeScript
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th ES5 JavaScript
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tr(style=top)
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td
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:marked
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### Injection by Type
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Angular 2 can often use TypeScript type information to
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determine what needs to be injected.
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+makeExample('cb-ts-to-js/ts/app/hero-di.component.ts')(format="." )
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td
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:marked
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### Injection with Parameter Tokens
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Since no type information is available in ES5 JavaScript,
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we must identify "injectables" in some other way.
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We attach a `parameters` array to the constructor function.
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Each array item is the dependency injection token that identifies the thing to be injected.
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Often the token is the constructor function for the class-like dependency.
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+makeExample('cb-ts-to-js/js/app/hero-di.component.js')(format="." )
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:marked
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When using the class convenience API, we can also supply the parameter
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tokens by wrapping the constructor in an array.
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+makeExample('cb-ts-to-js/js/app/hero-di-inline.component.js')(format="." )
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tr(style=top)
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td
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:marked
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### Injection with the @Inject decorator
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When the thing being injected doesn't correspond directly to a type,
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we use the `@Inject()` decorator to supply the injection token.
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In this example, we're injecting a string identified by the "heroName" token.
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+makeExample('cb-ts-to-js/ts/app/hero-di-inject.component.ts')(format="." )
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td
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:marked
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### Injection with plain string tokens
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In JavaScript we add the token string to the injection parameters array.
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+makeExample('cb-ts-to-js/js/app/hero-di-inject.component.js','parameters')(format="." )
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:marked
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Alternatively, we can create a token with the `Inject` method and
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add that to the constructor array in the annotations like this:
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+makeExample('cb-ts-to-js/js/app/hero-di-inject.component.js','ctor')(format="." )
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tr(style=top)
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td
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:marked
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### Additional Injection Decorators
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We can attach additional decorators to constructor parameters
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to qualify the injection behavior. We can mark
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optional dependencies with the [`@Optional`](../api/core/Optional-var.html),
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inject host element attributes with [`@Attribute`](../api/core/Attribute-var.html),
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inject content child queries with [`@Query`](../api/core/Query-var.html)
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and inject view child queries with [`@ViewQuery`](../api/core/ViewQuery-var.html)).
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+makeExample('cb-ts-to-js/ts/app/hero-di-inject-additional.component.ts')(format="." )
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td
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:marked
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### Additional Injection Metadata with Nested Arrays
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To achieve the same effect in JavaScript, use the constructor array notation
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in which the injection information precedes the constructor function itself.
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Use the injection support functions `Attribute`, `Host`, `Optional`, `Self`, `SkipSelf`,
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`Query` and `ViewQuery` to qualify dependency injection behavior.
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Use a nested array to combine injection functions.
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+makeExample('cb-ts-to-js/js/app/hero-di-inject-additional.component.js')(format="." )
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:marked
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We can apply other additional parameter decorators such as
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[`@Host`](../api/core/Host-var.html) and
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[`@SkipSelf`](../api/core/SkipSelf-var.html) in the same way -
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by adding `new ng.core.Host()` or `ng.core.SkipSelf()` in the
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parameters array.
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a(id="other-property-metadata")
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.l-main-section
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:marked
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## Host and Query Metadata
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- var top="vertical-align:top"
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table(width="100%")
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col(width="50%")
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col(width="50%")
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tr
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th TypeScript
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th ES5 JavaScript
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tr(style=top)
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td
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:marked
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### Host Decorators
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We can use host property decorators to bind a host element to a component or directive.
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The [`@HostBinding`](../api/core/HostBinding-var.html) decorator
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binds host element properties to component data properties.
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The [`@HostListener`](../api/core/HostListener-var.html) decorator bimds
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host element events to component event handlers.
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+makeExample('cb-ts-to-js/ts/app/heroes-bindings.component.ts')(format="." )
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.alert.is-helpful
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:marked
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In TypeScript we can also use `host` metadata
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instead of the `@HostBinding` and `@HostListener` property decorators.
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td
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:marked
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### Host Metadata
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We add a `host` attribute to the component metadata to achieve the
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same effect as `@HostBinding` and `@HostListener`.
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The `host` value is an object whose properties are host property and listener bindings:
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* Each key follows regular Angular 2 binding syntax: `[property]` for host bindings
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or `(event)` for host listeners.
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* Each value identifies the corresponding component property or method.
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+makeExample('cb-ts-to-js/js/app/heroes-bindings.component.js')(format="." )
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tr(style=top)
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td
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:marked
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### Query Decorators
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There are several property decorators for querying the descendants of
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a component or directive.
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The [`@ViewChild`](../api/core/ViewChild-var.html) and
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[`@ViewChildren`](../api/core/ViewChildren-var.html) property decorators
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allow a component to query instances of other components that are used in
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its view.
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+makeExample('cb-ts-to-js/ts/app/heroes-queries.component.ts', 'view')(format="." )
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:marked
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The [`@ContentChild`](../api/core/ContentChild-var.html) and
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[`@ContentChildren`](../api/core/ContentChildren-var.html) property decorators
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allow a component to query instances of other components that have been projected
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into its view from elsewhere.
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+makeExample('cb-ts-to-js/ts/app/heroes-queries.component.ts', 'content')(format="." )
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.alert.is-helpful
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:marked
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In TypeScript we can also use the `queries` metadata
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instead of the `@ViewChild` and `@ContentChild` property decorators.
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td
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:marked
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### Query Metadata
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We access a component's view children by adding a `queries` attribute to
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the component metadata. It should be an object where:
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* Each key is the name of a component property that will hold the view children
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* Each value is an instance of either `ViewChild` or `ViewChildren`.
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+makeExample('cb-ts-to-js/js/app/heroes-queries.component.js', 'view')(format="." )
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:marked
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We add *content* child queries to the same `queries` attribute
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in the same manner, using instances of `ContentChild` or `ContentChildren`:
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+makeExample('cb-ts-to-js/js/app/heroes-queries.component.js', 'content')(format="." )
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