617 lines
22 KiB
Markdown
617 lines
22 KiB
Markdown
# Lifecycle Hooks
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A component has a lifecycle managed by Angular.
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Angular creates and renders components along with their children, checks when their data-bound properties change, and destroys them before removing them from the DOM.
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Angular offers **lifecycle hooks**
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that provide visibility into these key life moments and the ability to act when they occur.
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A directive has the same set of lifecycle hooks.
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{@a hooks-overview}
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## Component lifecycle hooks overview
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Directive and component instances have a lifecycle
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as Angular creates, updates, and destroys them.
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Developers can tap into key moments in that lifecycle by implementing
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one or more of the *lifecycle hook* interfaces in the Angular `core` library.
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Each interface has a single hook method whose name is the interface name prefixed with `ng`.
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For example, the `OnInit` interface has a hook method named `ngOnInit()`
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that Angular calls shortly after creating the component:
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<code-example path="lifecycle-hooks/src/app/peek-a-boo.component.ts" region="ngOnInit" header="peek-a-boo.component.ts (excerpt)"></code-example>
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No directive or component will implement all of the lifecycle hooks.
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Angular only calls a directive/component hook method *if it is defined*.
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{@a hooks-purpose-timing}
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## Lifecycle sequence
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*After* creating a component/directive by calling its constructor, Angular
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calls the lifecycle hook methods in the following sequence at specific moments:
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<table width="100%">
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<col width="20%"></col>
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<col width="80%"></col>
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<tr>
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<th>Hook</th>
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<th>Purpose and Timing</th>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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<code>ngOnChanges()</code>
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</td>
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<td>
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Respond when Angular (re)sets data-bound input properties.
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The method receives a `SimpleChanges` object of current and previous property values.
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Called before `ngOnInit()` and whenever one or more data-bound input properties change.
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</td>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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<code>ngOnInit()</code>
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</td>
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<td>
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Initialize the directive/component after Angular first displays the data-bound properties
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and sets the directive/component's input properties.
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Called _once_, after the _first_ `ngOnChanges()`.
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</td>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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<code>ngDoCheck()</code>
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</td>
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<td>
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Detect and act upon changes that Angular can't or won't detect on its own.
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Called during every change detection run, immediately after `ngOnChanges()` and `ngOnInit()`.
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</td>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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<code>ngAfterContentInit()</code>
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</td>
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<td>
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Respond after Angular projects external content into the component's view / the view that a directive is in.
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Called _once_ after the first `ngDoCheck()`.
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</td>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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<code>ngAfterContentChecked()</code>
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</td>
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<td>
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Respond after Angular checks the content projected into the directive/component.
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Called after the `ngAfterContentInit()` and every subsequent `ngDoCheck()`.
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</td>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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<code>ngAfterViewInit()</code>
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</td>
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<td>
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Respond after Angular initializes the component's views and child views / the view that a directive is in.
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Called _once_ after the first `ngAfterContentChecked()`.
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</td>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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<code>ngAfterViewChecked()</code>
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</td>
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<td>
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Respond after Angular checks the component's views and child views / the view that a directive is in.
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Called after the `ngAfterViewInit()` and every subsequent `ngAfterContentChecked()`.
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</td>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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<code>ngOnDestroy()</code>
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</td>
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<td>
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Cleanup just before Angular destroys the directive/component.
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Unsubscribe Observables and detach event handlers to avoid memory leaks.
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Called _just before_ Angular destroys the directive/component.
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</td>
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</tr>
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</table>
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{@a interface-optional}
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## Interfaces are optional (technically)
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The interfaces are optional for JavaScript and Typescript developers from a purely technical perspective.
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The JavaScript language doesn't have interfaces.
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Angular can't see TypeScript interfaces at runtime because they disappear from the transpiled JavaScript.
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Fortunately, they aren't necessary.
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You don't have to add the lifecycle hook interfaces to directives and components to benefit from the hooks themselves.
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Angular instead inspects directive and component classes and calls the hook methods *if they are defined*.
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Angular finds and calls methods like `ngOnInit()`, with or without the interfaces.
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Nonetheless, it's good practice to add interfaces to TypeScript directive classes
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in order to benefit from strong typing and editor tooling.
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{@a other-lifecycle-hooks}
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## Other Angular lifecycle hooks
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Other Angular sub-systems may have their own lifecycle hooks apart from these component hooks.
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3rd party libraries might implement their hooks as well in order to give developers more
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control over how these libraries are used.
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{@a the-sample}
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## Lifecycle examples
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The <live-example></live-example>
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demonstrates the lifecycle hooks in action through a series of exercises
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presented as components under the control of the root `AppComponent`.
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They follow a common pattern: a *parent* component serves as a test rig for
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a *child* component that illustrates one or more of the lifecycle hook methods.
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Here's a brief description of each exercise:
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<table width="100%">
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<col width="20%"></col>
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<col width="80%"></col>
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<tr>
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<th>Component</th>
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<th>Description</th>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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<a href="#peek-a-boo">Peek-a-boo</a>
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</td>
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<td>
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Demonstrates every lifecycle hook.
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Each hook method writes to the on-screen log.
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</td>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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<a href="#spy">Spy</a>
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</td>
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<td>
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Directives have lifecycle hooks too.
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A `SpyDirective` can log when the element it spies upon is
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created or destroyed using the `ngOnInit` and `ngOnDestroy` hooks.
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This example applies the `SpyDirective` to a `<div>` in an `ngFor` *hero* repeater
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managed by the parent `SpyComponent`.
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</td>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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<a href="#onchanges">OnChanges</a>
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</td>
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<td>
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See how Angular calls the `ngOnChanges()` hook with a `changes` object
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every time one of the component input properties changes.
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Shows how to interpret the `changes` object.
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</td>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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<a href="#docheck">DoCheck</a>
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</td>
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<td>
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Implements an `ngDoCheck()` method with custom change detection.
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See how often Angular calls this hook and watch it post changes to a log.
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</td>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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<a href="#afterview">AfterView</a>
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</td>
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<td>
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Shows what Angular means by a *view*.
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Demonstrates the `ngAfterViewInit` and `ngAfterViewChecked` hooks.
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</td>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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<a href="#aftercontent">AfterContent</a>
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</td>
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<td>
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Shows how to project external content into a component and
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how to distinguish projected content from a component's view children.
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Demonstrates the `ngAfterContentInit` and `ngAfterContentChecked` hooks.
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</td>
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</tr>
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<tr style='vertical-align:top'>
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<td>
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Counter
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</td>
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<td>
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Demonstrates a combination of a component and a directive
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each with its own hooks.
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In this example, a `CounterComponent` logs a change (via `ngOnChanges`)
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every time the parent component increments its input counter property.
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Meanwhile, the `SpyDirective` from the previous example is applied
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to the `CounterComponent` log where it watches log entries being created and destroyed.
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</td>
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</tr>
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</table>
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The remainder of this page discusses selected exercises in further detail.
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{@a peek-a-boo}
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## Peek-a-boo: all hooks
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The `PeekABooComponent` demonstrates all of the hooks in one component.
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You would rarely, if ever, implement all of the interfaces like this.
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The peek-a-boo exists to show how Angular calls the hooks in the expected order.
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This snapshot reflects the state of the log after the user clicked the *Create...* button and then the *Destroy...* button.
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<div class="lightbox">
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<img src="generated/images/guide/lifecycle-hooks/peek-a-boo.png" alt="Peek-a-boo">
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</div>
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The sequence of log messages follows the prescribed hook calling order:
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`OnChanges`, `OnInit`, `DoCheck` (3x), `AfterContentInit`, `AfterContentChecked` (3x),
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`AfterViewInit`, `AfterViewChecked` (3x), and `OnDestroy`.
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<div class="alert is-helpful">
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The constructor isn't an Angular hook *per se*.
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The log confirms that input properties (the `name` property in this case) have no assigned values at construction.
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</div>
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Had the user clicked the *Update Hero* button, the log would show another `OnChanges` and two more triplets of
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`DoCheck`, `AfterContentChecked` and `AfterViewChecked`.
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Clearly these three hooks fire *often*. Keep the logic in these hooks as lean as possible!
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The next examples focus on hook details.
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{@a spy}
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## Spying *OnInit* and *OnDestroy*
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Go undercover with these two spy hooks to discover when an element is initialized or destroyed.
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This is the perfect infiltration job for a directive.
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The heroes will never know they're being watched.
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<div class="alert is-helpful">
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Kidding aside, pay attention to two key points:
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1. Angular calls hook methods for *directives* as well as components.<br><br>
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2. A spy directive can provide insight into a DOM object that you cannot change directly.
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Obviously you can't touch the implementation of a native `<div>`.
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You can't modify a third party component either.
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But you can watch both with a directive.
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</div>
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The sneaky spy directive is simple, consisting almost entirely of `ngOnInit()` and `ngOnDestroy()` hooks
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that log messages to the parent via an injected `LoggerService`.
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<code-example path="lifecycle-hooks/src/app/spy.directive.ts" region="spy-directive" header="src/app/spy.directive.ts"></code-example>
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You can apply the spy to any native or component element and it'll be initialized and destroyed
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at the same time as that element.
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Here it is attached to the repeated hero `<div>`:
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<code-example path="lifecycle-hooks/src/app/spy.component.html" region="template" header="src/app/spy.component.html"></code-example>
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Each spy's birth and death marks the birth and death of the attached hero `<div>`
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with an entry in the *Hook Log* as seen here:
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<div class="lightbox">
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<img src='generated/images/guide/lifecycle-hooks/spy-directive.gif' alt="Spy Directive">
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</div>
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Adding a hero results in a new hero `<div>`. The spy's `ngOnInit()` logs that event.
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The *Reset* button clears the `heroes` list.
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Angular removes all hero `<div>` elements from the DOM and destroys their spy directives at the same time.
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The spy's `ngOnDestroy()` method reports its last moments.
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The `ngOnInit()` and `ngOnDestroy()` methods have more vital roles to play in real applications.
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{@a oninit}
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### _OnInit()_
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Use `ngOnInit()` for two main reasons:
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1. To perform complex initializations shortly after construction.
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1. To set up the component after Angular sets the input properties.
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Experienced developers agree that components should be cheap and safe to construct.
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<div class="alert is-helpful">
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Misko Hevery, Angular team lead,
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[explains why](http://misko.hevery.com/code-reviewers-guide/flaw-constructor-does-real-work/)
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you should avoid complex constructor logic.
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</div>
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Don't fetch data in a component constructor.
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You shouldn't worry that a new component will try to contact a remote server when
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created under test or before you decide to display it.
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Constructors should do no more than set the initial local variables to simple values.
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An `ngOnInit()` is a good place for a component to fetch its initial data. The
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[Tour of Heroes Tutorial](tutorial/toh-pt4#oninit) guide shows how.
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Remember also that a directive's data-bound input properties are not set until _after construction_.
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That's a problem if you need to initialize the directive based on those properties.
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They'll have been set when `ngOnInit()` runs.
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<div class="alert is-helpful">
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The `ngOnChanges()` method is your first opportunity to access those properties.
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Angular calls `ngOnChanges()` before `ngOnInit()` and many times after that.
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It only calls `ngOnInit()` once.
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</div>
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You can count on Angular to call the `ngOnInit()` method _soon_ after creating the component.
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That's where the heavy initialization logic belongs.
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{@a ondestroy}
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### _OnDestroy()_
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Put cleanup logic in `ngOnDestroy()`, the logic that *must* run before Angular destroys the directive.
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This is the time to notify another part of the application that the component is going away.
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This is the place to free resources that won't be garbage collected automatically.
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Unsubscribe from Observables and DOM events. Stop interval timers.
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Unregister all callbacks that this directive registered with global or application services.
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You risk memory leaks if you neglect to do so.
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{@a onchanges}
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## _OnChanges()_
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Angular calls its `ngOnChanges()` method whenever it detects changes to ***input properties*** of the component (or directive).
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This example monitors the `OnChanges` hook.
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<code-example path="lifecycle-hooks/src/app/on-changes.component.ts" region="ng-on-changes" header="on-changes.component.ts (excerpt)"></code-example>
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The `ngOnChanges()` method takes an object that maps each changed property name to a
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[SimpleChange](api/core/SimpleChange) object holding the current and previous property values.
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This hook iterates over the changed properties and logs them.
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The example component, `OnChangesComponent`, has two input properties: `hero` and `power`.
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<code-example path="lifecycle-hooks/src/app/on-changes.component.ts" region="inputs" header="src/app/on-changes.component.ts"></code-example>
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The host `OnChangesParentComponent` binds to them like this:
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<code-example path="lifecycle-hooks/src/app/on-changes-parent.component.html" region="on-changes" header="src/app/on-changes-parent.component.html"></code-example>
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Here's the sample in action as the user makes changes.
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<div class="lightbox">
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<img src='generated/images/guide/lifecycle-hooks/on-changes-anim.gif' alt="OnChanges">
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</div>
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The log entries appear as the string value of the *power* property changes.
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But the `ngOnChanges` does not catch changes to `hero.name`
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That's surprising at first.
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Angular only calls the hook when the value of the input property changes.
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The value of the `hero` property is the *reference to the hero object*.
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Angular doesn't care that the hero's own `name` property changed.
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The hero object *reference* didn't change so, from Angular's perspective, there is no change to report!
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{@a docheck}
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## _DoCheck()_
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Use the `DoCheck` hook to detect and act upon changes that Angular doesn't catch on its own.
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<div class="alert is-helpful">
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Use this method to detect a change that Angular overlooked.
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</div>
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The *DoCheck* sample extends the *OnChanges* sample with the following `ngDoCheck()` hook:
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<code-example path="lifecycle-hooks/src/app/do-check.component.ts" region="ng-do-check" header="DoCheckComponent (ngDoCheck)"></code-example>
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This code inspects certain _values of interest_, capturing and comparing their current state against previous values.
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It writes a special message to the log when there are no substantive changes to the `hero` or the `power`
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so you can see how often `DoCheck` is called. The results are illuminating:
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<div class="lightbox">
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<img src='generated/images/guide/lifecycle-hooks/do-check-anim.gif' alt="DoCheck">
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</div>
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While the `ngDoCheck()` hook can detect when the hero's `name` has changed, it has a frightful cost.
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This hook is called with enormous frequency—after _every_
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change detection cycle no matter where the change occurred.
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It's called over twenty times in this example before the user can do anything.
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Most of these initial checks are triggered by Angular's first rendering of *unrelated data elsewhere on the page*.
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Mere mousing into another `<input>` triggers a call.
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Relatively few calls reveal actual changes to pertinent data.
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Clearly our implementation must be very lightweight or the user experience suffers.
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{@a afterview}
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## AfterView
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The *AfterView* sample explores the `AfterViewInit()` and `AfterViewChecked()` hooks that Angular calls
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*after* it creates a component's child views.
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Here's a child view that displays a hero's name in an `<input>`:
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<code-example path="lifecycle-hooks/src/app/after-view.component.ts" region="child-view" header="ChildComponent"></code-example>
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The `AfterViewComponent` displays this child view *within its template*:
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<code-example path="lifecycle-hooks/src/app/after-view.component.ts" region="template" header="AfterViewComponent (template)"></code-example>
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The following hooks take action based on changing values *within the child view*,
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which can only be reached by querying for the child view via the property decorated with
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[@ViewChild](api/core/ViewChild).
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<code-example path="lifecycle-hooks/src/app/after-view.component.ts" region="hooks" header="AfterViewComponent (class excerpts)"></code-example>
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{@a wait-a-tick}
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### Abide by the unidirectional data flow rule
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The `doSomething()` method updates the screen when the hero name exceeds 10 characters.
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<code-example path="lifecycle-hooks/src/app/after-view.component.ts" region="do-something" header="AfterViewComponent (doSomething)"></code-example>
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Why does the `doSomething()` method wait a tick before updating `comment`?
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Angular's unidirectional data flow rule forbids updates to the view *after* it has been composed.
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Both of these hooks fire _after_ the component's view has been composed.
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Angular throws an error if the hook updates the component's data-bound `comment` property immediately (try it!).
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The `LoggerService.tick_then()` postpones the log update
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for one turn of the browser's JavaScript cycle and that's just long enough.
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Here's *AfterView* in action:
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<div class="lightbox">
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<img src='generated/images/guide/lifecycle-hooks/after-view-anim.gif' alt="AfterView">
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</div>
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Notice that Angular frequently calls `AfterViewChecked()`, often when there are no changes of interest.
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Write lean hook methods to avoid performance problems.
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{@a aftercontent}
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## AfterContent
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The *AfterContent* sample explores the `AfterContentInit()` and `AfterContentChecked()` hooks that Angular calls
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*after* Angular projects external content into the component.
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{@a content-projection}
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### Content projection
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*Content projection* is a way to import HTML content from outside the component and insert that content
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into the component's template in a designated spot.
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<div class="alert is-helpful">
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AngularJS developers know this technique as *transclusion*.
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</div>
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Consider this variation on the [previous _AfterView_](guide/lifecycle-hooks#afterview) example.
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This time, instead of including the child view within the template, it imports the content from
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the `AfterContentComponent`'s parent. Here's the parent's template:
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<code-example path="lifecycle-hooks/src/app/after-content.component.ts" region="parent-template" header="AfterContentParentComponent (template excerpt)"></code-example>
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Notice that the `<app-child>` tag is tucked between the `<after-content>` tags.
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Never put content between a component's element tags *unless you intend to project that content
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into the component*.
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Now look at the component's template:
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<code-example path="lifecycle-hooks/src/app/after-content.component.ts" region="template" header="AfterContentComponent (template)"></code-example>
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The `<ng-content>` tag is a *placeholder* for the external content.
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It tells Angular where to insert that content.
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In this case, the projected content is the `<app-child>` from the parent.
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|
|
<div class="lightbox">
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<img src='generated/images/guide/lifecycle-hooks/projected-child-view.png' alt="Projected Content">
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</div>
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<div class="alert is-helpful">
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The telltale signs of *content projection* are twofold:
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* HTML between component element tags.
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* The presence of `<ng-content>` tags in the component's template.
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</div>
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|
{@a aftercontent-hooks}
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|
|
### AfterContent hooks
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|
*AfterContent* hooks are similar to the *AfterView* hooks.
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The key difference is in the child component.
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* The *AfterView* hooks concern `ViewChildren`, the child components whose element tags
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|
appear *within* the component's template.
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|
* The *AfterContent* hooks concern `ContentChildren`, the child components that Angular
|
|
projected into the component.
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The following *AfterContent* hooks take action based on changing values in a *content child*,
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which can only be reached by querying for them via the property decorated with
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|
[@ContentChild](api/core/ContentChild).
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|
|
<code-example path="lifecycle-hooks/src/app/after-content.component.ts" region="hooks" header="AfterContentComponent (class excerpts)"></code-example>
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{@a no-unidirectional-flow-worries}
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### No unidirectional flow worries with _AfterContent_
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|
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|
This component's `doSomething()` method update's the component's data-bound `comment` property immediately.
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There's no [need to wait](guide/lifecycle-hooks#wait-a-tick).
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|
|
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Recall that Angular calls both *AfterContent* hooks before calling either of the *AfterView* hooks.
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Angular completes composition of the projected content *before* finishing the composition of this component's view.
|
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There is a small window between the `AfterContent...` and `AfterView...` hooks to modify the host view.
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