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# Angular Dependency Injection
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**Dependency Injection (DI)** is a way to create objects that depend upon other objects.
A Dependency Injection system supplies the dependent objects (called the _dependencies_ )
when it creates an instance of an object.
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The [Dependency Injection pattern ](guide/dependency-injection-pattern ) page describes this general approach.
_The guide you're reading now_ explains how Angular's own Dependency Injection system works.
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## DI by example
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You'll learn Angular Dependency Injection through a discussion of the sample app that accompanies this guide.
Run the < live-example > < / live-example > anytime.
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Start by reviewing this simplified version of the _heroes_ feature
from the [The Tour of Heroes ](tutorial/ ).
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< code-tabs >
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< code-pane title = "src/app/heroes/heroes.component.ts" path = "dependency-injection/src/app/heroes/heroes.component.1.ts"
region="v1">
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< / code-pane >
< code-pane title = "src/app/heroes/hero-list.component.ts" path = "dependency-injection/src/app/heroes/hero-list.component.1.ts" >
< / code-pane >
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< code-pane title = "src/app/heroes/hero.ts" path = "dependency-injection/src/app/heroes/hero.ts" >
< / code-pane >
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< code-pane title = "src/app/heroes/mock-heroes.ts" path = "dependency-injection/src/app/heroes/mock-heroes.ts" >
< / code-pane >
< / code-tabs >
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The `HeroesComponent` is the top-level heroes component.
It's only purpose is to display the `HeroListComponent`
which displays a list of hero names.
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This version of the `HeroListComponent` gets its `heroes` from the `HEROES` array, an in-memory collection
defined in a separate `mock-heroes` file.
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< code-example title = "src/app/heroes/hero-list.component.ts (class)" path = "dependency-injection/src/app/heroes/hero-list.component.1.ts"
region="class">
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< / code-example >
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That may suffice in the early stages of development, but it's far from ideal.
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As soon as you try to test this component or get heroes from a remote server,
you'll have to change the implementation of `HerosListComponent` and
replace every other use of the `HEROES` mock data.
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It's better to hide these details inside a _service_ class,
[defined in its own file ](#one-class-per-file ).
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## Create an injectable _HeroService_
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The [**Angular CLI** ](https://cli.angular.io/ ) can generate a new `HeroService` class in the `src/app/heroes` folder with this command.
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< code-example language = "sh" class = "code-shell" >
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ng generate service heroes/hero
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< / code-example >
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That command creates the following `HeroService` skeleton.
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< code-example path = "dependency-injection/src/app/heroes/hero.service.0.ts" title = "src/app/heroes/hero.service.ts (CLI-generated)" >
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< / code-example >
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Assume for now that the [`@Injectable` decorator ](#injectable ) is an essential ingredient in every Angular service definition.
The rest of the class has been rewritten to expose a `getHeroes` method
that returns the same mock data as before.
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< code-example path = "dependency-injection/src/app/heroes/hero.service.1.ts" title = "src/app/heroes/hero.service.ts" >
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< / code-example >
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Of course, this isn't a real data service.
If the app were actually getting data from a remote server,
the `getHeroes` method signature would have to be asynchronous.
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That's a defect we can safely ignore in this guide where our focus is on
_injecting the service_ into the `HeroList` component.
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{@a injector-config}
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{@a bootstrap}
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## Register a service provider
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A _service_ is just a class in Angular until you register it with an Angular dependency injector.
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An Angular injector is responsible for creating service instances and injecting them into classes like the `HeroListComponent` .
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You rarely create an Angular injector yourself.
Angular creates injectors for you as it executes the app,
starting with the _root injector_ that it creates during the [bootstrap process ](guide/bootstrapping ).
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You do have to register _providers_ with an injector
before the injector can create that service.
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**Providers** tell the injector _how to create the service_ .
Without a provider, the injector would not know
that it is responsible for injecting the service
nor be able to create the service.
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< div class = "l-sub-section" >
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You'll learn much more about _providers_ [below ](#providers ).
For now it is sufficient to know that they create services
and must be registered with an injector.
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< / div >
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You can register a provider with any Angular decorator that supports the ** `providers` array property**.
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Many Angular decorators accept metadata with a `providers` property.
The two most important examples are `@Component` and `@NgModule` .
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{@a register-providers-component}
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### _@Component_ providers
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### 在组件中注册提供商
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Here's a revised `HeroesComponent` that registers the `HeroService` in its `providers` array.
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下面是修改过的`HerosComponent`,把`HeroService`注册到了它的`providers`数组中。
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< code-example path = "dependency-injection/src/app/heroes/heroes.component.1.ts" title = "src/app/heroes/heroes.component.ts" linenums = "false" >
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< / code-example >
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{@a register-providers-ngmodule}
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### _@NgModule_ providers
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In the following excerpt, the root `AppModule` registers two providers in its `providers` array.
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< code-example path = "dependency-injection/src/app/app.module.ts" linenums = "false" title = "src/app/app.module.ts (providers)" region = "providers" >
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< / code-example >
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The first entry registers the `UserService` class (_not shown_) under the `UserService` _injection token_ .
The second registers a value (`HERO_DI_CONFIG`) under the `APP_CONFIG` _injection token_ .
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Thanks to these registrations, Angular can inject the `UserService` or the `HERO_DI_CONFIG` value
into any class that it creates.
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< div class = "l-sub-section" >
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You'll learn about _injection tokens_ and _provider_ syntax [below ](#providers ).
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< / div >
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{@a ngmodule-vs-comp}
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### _@NgModule_ or _@Component_?
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Should you register a service with an Angular module or with a component?
The two choices lead to differences in service _scope_ and service _lifetime_ .
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**Angular module providers** (`@NgModule.providers`) are registered with the application's root injector.
Angular can inject the corresponding services in any class it creates.
Once created, a service instance lives for the life of the app and Angular injects this one service instance in every class that needs it.
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You're likely to inject the `UserService` in many places throughout the app
and will want to inject the same service instance every time.
Providing the `UserService` with an Angular module is a good choice.
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< div class = "l-sub-section" >
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To be precise, Angular module providers are registered with the root injector
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_unless the module is_ [lazy loaded ](guide/lazy-loading-ngmodules ).
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In this sample, all modules are _eagerly loaded_ when the application starts,
so all module providers are registered with the app's root injector.
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< / div > < br >
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< hr >
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**A component's providers** (`@Component.providers`) are registered with each component instance's own injector.
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Angular can only inject the corresponding services in that component instance or one of its descendant component instances.
Angular cannot inject the same service instance anywhere else.
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Note that a component-provided service may have a limited lifetime. Each new instance of the component gets its own instance of the service
and, when the component instance is destroyed, so is that service instance.
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In this sample app, the `HeroComponent` is created when the application starts
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and is never destroyed so the `HeroService` created for the `HeroComponent` also live for the life of the app.
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If you want to restrict `HeroService` access to the `HeroComponent` and its nested `HeroListComponent` ,
providing the `HeroService` in the `HeroComponent` may be a good choice.
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< div class = "l-sub-section" >
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The scope and lifetime of component-provided services is a consequence of [the way Angular creates component instances ](#component-child-injectors ).
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< / div >
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## Inject a service
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The `HeroListComponent` should get heroes from the `HeroService` .
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The component shouldn't create the `HeroService` with `new` .
It should ask for the `HeroService` to be injected.
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You can tell Angular to inject a dependency in the component's constructor by specifying a **constructor parameter with the dependency type** .
Here's the `HeroListComponent` constructor, asking for the `HeroService` to be injected.
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< code-example title = "src/app/heroes/hero-list.component (constructor signature)" path = "dependency-injection/src/app/heroes/hero-list.component.ts"
region="ctor-signature">
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< / code-example >
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Of course, the `HeroListComponent` should do something with the injected `HeroService` .
Here's the revised component, making use of the injected service, side-by-side with the previous version for comparison.
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< code-tabs >
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< code-pane title = "hero-list.component (with DI)" path = "dependency-injection/src/app/heroes/hero-list.component.2.ts" >
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< / code-pane >
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< code-pane title = "hero-list.component (without DI)" path = "dependency-injection/src/app/heroes/hero-list.component.1.ts" >
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< / code-pane >
< / code-tabs >
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Notice that the `HeroListComponent` doesn't know where the `HeroService` comes from.
_You_ know that it comes from the parent `HeroesComponent` .
But if you decided instead to provide the `HeroService` in the `AppModule` ,
the `HeroListComponent` wouldn't change at all.
The _only thing that matters_ is that the `HeroService` is provided in some parent injector.
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{@a singleton-services}
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## Singleton services
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Services are singletons _within the scope of an injector_ .
There is at most one instance of a service in a given injector.
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There is only one root injector and the `UserService` is registered with that injector.
Therefore, there can be just one `UserService` instance in the entire app
and every class that injects `UserService` get this service instance.
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However, Angular DI is a
[hierarchical injection system ](guide/hierarchical-dependency-injection ),
which means that nested injectors can create their own service instances.
Angular creates nested injectors all the time.
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{@a component-child-injectors}
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## Component child injectors
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For example, when Angular creates a new instance of a component that has `@Component.providers` ,
it also creates a new _child injector_ for that instance.
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Component injectors are independent of each other and
each of them creates its own instances of the component-provided services.
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When Angular destroys one of these component instance, it also destroys the
component's injector and that injector's service instances.
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Thanks to [injector inheritance ](guide/hierarchical-dependency-injection ),
you can still inject application-wide services into these components.
A component's injector is a child of its parent component's injector,
and a descendent of its parent's parent's injector, and so on all the way back to the application's _root_ injector.
Angular can inject a service provided by any injector in that lineage.
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For example, Angular could inject a `HeroListComponent`
with both the `HeroService` provided in `HeroComponent`
and the `UserService` provided in `AppModule` .
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{@a testing-the-component}
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## Testing the component
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## 测试组件
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Earlier you saw that designing a class for dependency injection makes the class easier to test.
Listing dependencies as constructor parameters may be all you need to test application parts effectively.
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前面强调过,设计一个适合依赖注入的类,可以让这个类更容易测试。
要有效的测试应用中的一部分,只需要在构造函数的参数中列出依赖。
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For example, you can create a new `HeroListComponent` with a mock service that you can manipulate
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under test:
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例如,新建的`HeroListComponent`实例使用一个模拟 (mock) 服务,以便可以在测试中操纵它:
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< code-example path = "dependency-injection/src/app/test.component.ts" region = "spec" title = "src/app/test.component.ts" linenums = "false" >
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< / code-example >
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< div class = "l-sub-section" >
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Learn more in the [Testing ](guide/testing ) guide.
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要学习更多知识,参见[测试](guide/testing)一章。
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< / div >
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{@a service-needs-service}
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## When the service needs a service
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## 当服务需要别的服务时
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The `HeroService` is very simple. It doesn't have any dependencies of its own.
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这个`HeroService`非常简单。它本身不需要任何依赖。
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What if it had a dependency? What if it reported its activities through a logging service?
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You'd apply the same *constructor injection* pattern,
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adding a constructor that takes a `Logger` parameter.
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如果它也有依赖,该怎么办呢?例如,它需要通过日志服务来汇报自己的活动。
我们同样用*构造函数注入*模式,来添加一个带有`Logger`参数的构造函数。
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Here is the revised `HeroService` that injects the `Logger` , side-by-side with the previous service for comparison.
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< code-tabs >
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< code-pane title = "src/app/heroes/hero.service (v2)" path = "dependency-injection/src/app/heroes/hero.service.2.ts" >
< / code-pane >
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< code-pane title = "src/app/heroes/hero.service (v1)" path = "dependency-injection/src/app/heroes/hero.service.1.ts" >
< / code-pane >
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< / code-tabs >
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The constructor asks for an injected instance of a `Logger` and stores it in a private field called `logger` .
The `getHeroes()` method logs a message when asked to fetch heroes.
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这个构造函数要求注入一个`Logger`类的实例,并把它存到名为`logger`的私有字段中。
当请求英雄数据时,`getHeroes()`中就会记录一个消息。
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{@a logger-service}
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#### The dependent _Logger_ service
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The sample app's `Logger` service is quite simple:
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< code-example path = "dependency-injection/src/app/logger.service.ts" title = "src/app/logger.service.ts" >
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< / code-example >
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If the app didn't provide this `Logger` ,
Angular would throw an exception when it looked for a `Logger` to inject
into the `HeroService` .
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< code-example language = "sh" class = "code-shell" >
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ERROR Error: No provider for Logger!
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< / code-example >
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Because a singleton logger service is useful everywhere,
it's provided in the root `AppModule` .
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< code-example path = "dependency-injection/src/app/app.module.ts" linenums = "false" title = "src/app/app.module.ts (providers)" region = "providers-2" >
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< / code-example >
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{@a injectable}
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## _@Injectable()_
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The ** [@Injectable() ](api/core/Injectable )** decorator identifies a service class
that _might_ require injected dependencies.
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The `HeroService` must be annotated with `@Injectable()` because it requires an injected `Logger` .
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< div class = "alert is-important" >
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Always write `@Injectable()` with parentheses, not just `@Injectable` .
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< / div >
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When Angular creates a class whose constructor has parameters,
it looks for type and injection metadata about those parameters
so that it can inject the right service.
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If Angular can't find that parameter information, it throws an error.
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Angular can only find the parameter information _if the class has a decorator of some kind_ .
While _any_ decorator will do,
the `@Injectable()` decorator is the standard decorator for service classes.
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< div class = "l-sub-section" >
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The decorator requirement is imposed by TypeScript.
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TypeScript normally discards parameter type information when it _transpiles_ the code to JavaScript.
It preserves this information if the class has a decorator
and the `emitDecoratorMetadata` compiler option is set `true`
in TypeScript's `tsconfig.json` configuration file, .
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The CLI configures `tsconfig.json` with `emitDecoratorMetadata: true`
It's your job to put `@Injectable()` on your service classes.
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< / div >
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The `Logger` service is annotated with `@Injectable()` decorator too,
although it has no constructor and no dependencies.
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In fact, _every_ Angular service class in this app is annotated with the `@Injectable()` decorator, whether or not it has a constructor and dependencies.
`@Injectable()` is a required coding style for services.
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{@a providers}
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## Providers
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## 服务提供商们
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A service provider *provides* the concrete, runtime version of a dependency value.
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The injector relies on **providers** to create instances of the services
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that the injector injects into components, directives, pipes, and other services.
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服务提供商*提供*依赖值的一个具体的、运行时的版本。
注入器依靠**提供商**来创建服务的实例,注入器再将服务的实例注入组件、管道或其它服务。
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You must register a service *provider* with an injector, or it won't know how to create the service.
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必须为注入器注册一个服务的*提供商*,否则它就不知道该如何创建该服务。
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The next few sections explain the many ways you can specify a provider.
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Almost all of the accompanying code snippets are extracts from the sample app's `providers.component.ts` file.
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### The class as its own provider
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There are many ways to *provide* something that looks and behaves like a `Logger` .
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The `Logger` class itself is an obvious and natural provider.
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有很多方式可以*提供*一些实现 `Logger` 类的东西。
`Logger` 类本身是一个显而易见而且自然而然的提供商。
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< code-example path = "dependency-injection/src/app/providers.component.ts" region = "providers-logger" >
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< / code-example >
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But it's not the only way.
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但它不是唯一的途径。
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You can configure the injector with alternative providers that can deliver an object that behaves like a `Logger` .
You could provide a substitute class. You could provide a logger-like object.
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You could give it a provider that calls a logger factory function.
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Any of these approaches might be a good choice under the right circumstances.
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可以用其它备选提供商来配置注入器,只要它们能交付一个行为类似于`Logger`的对象就可以了。
可以提供一个替代类。你可以提供一个类似日志的对象。
可以给它一个提供商,让它调用可以创建日志服务的工厂函数。
所有这些方法,只要用在正确的场合,都可能是一个好的选择。
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What matters is that the injector has a provider to go to when it needs a `Logger` .
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重点是,当注入器需要一个`Logger`时,它得先有一个提供商。
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{@a provide}
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### The _provide_ object literal
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### *provide* 对象字面量
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Here's the class-provider syntax again.
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< code-example path = "dependency-injection/src/app/providers.component.ts" region = "providers-logger" >
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< / code-example >
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This is actually a shorthand expression for a provider registration
using a _provider_ object literal with two properties:
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这其实是用于注册提供商的简写表达式。
使用的是一个带有两个属性的_提供商_对象字面量:
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< code-example path = "dependency-injection/src/app/providers.component.ts" region = "providers-3" >
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< / code-example >
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The `provide` property holds the [token ](guide/dependency-injection#token ) that serves as the key for both locating a dependency value
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and registering the provider.
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`provide` 属性保存的是[令牌 (token)](guide/dependency-injection#token),它作为键值 (key) 使用,用于定位依赖值和注册提供商。
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The second property is always a provider definition object,
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which you can think of as a *recipe* for creating the dependency value.
There are many ways to create dependency values just as there are many ways to write a recipe.
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第二个是一个提供商定义对象。
可以把它看做是指导如何创建依赖值的*配方*。
有很多方式创建依赖值…… 也有很多方式可以写配方。
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{@a class-provider}
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### Alternative class providers
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### 备选的类提供商
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Occasionally you'll ask a different class to provide the service.
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The following code tells the injector
to return a `BetterLogger` when something asks for the `Logger` .
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某些时候,我们会请求一个不同的类来提供服务。
下列代码告诉注入器,当有人请求`Logger`时,返回`BetterLogger`。
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< code-example path = "dependency-injection/src/app/providers.component.ts" region = "providers-4" >
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< / code-example >
{@a class-provider-dependencies}
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### Class provider with dependencies
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### 带依赖的类提供商
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Maybe an `EvenBetterLogger` could display the user name in the log message.
This logger gets the user from the injected `UserService` ,
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which is also injected at the application level.
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假设`EvenBetterLogger`可以在日志消息中显示用户名。
这个日志服务从注入的`UserService`中取得用户,
`UserService` 通常也会在应用级注入。
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< code-example path = "dependency-injection/src/app/providers.component.ts" region = "EvenBetterLogger" linenums = "false" >
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< / code-example >
Configure it like `BetterLogger` .
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就像之前在`BetterLogger`中那样配置它。
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< code-example path = "dependency-injection/src/app/providers.component.ts" region = "providers-5" linenums = "false" >
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< / code-example >
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{@a aliased-class-providers}
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### Aliased class providers
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### 别名类提供商
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Suppose an old component depends upon an `OldLogger` class.
`OldLogger` has the same interface as the `NewLogger` , but for some reason
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you can't update the old component to use it.
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假设某个旧组件依赖一个`OldLogger`类。
`OldLogger` 和`NewLogger`具有相同的接口,但是由于某些原因,
我们不能升级这个旧组件并使用它。
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When the *old* component logs a message with `OldLogger` ,
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you'd like the singleton instance of `NewLogger` to handle it instead.
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当*旧*组件想使用`OldLogger`记录消息时,我们希望改用`NewLogger`的单例对象来记录。
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The dependency injector should inject that singleton instance
when a component asks for either the new or the old logger.
The `OldLogger` should be an alias for `NewLogger` .
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不管组件请求的是新的还是旧的日志服务,依赖注入器注入的都应该是同一个单例对象。
也就是说,`OldLogger`应该是`NewLogger`的别名。
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You certainly do not want two different `NewLogger` instances in your app.
Unfortunately, that's what you get if you try to alias `OldLogger` to `NewLogger` with `useClass` .
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我们当然不会希望应用中有两个不同的`NewLogger`实例。
不幸的是,如果尝试通过`useClass`来把`OldLogger`作为`NewLogger`的别名,就会导致这样的后果。
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< code-example path = "dependency-injection/src/app/providers.component.ts" region = "providers-6a" linenums = "false" >
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< / code-example >
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The solution: alias with the `useExisting` option.
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解决方案:使用`useExisting`选项指定别名。
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< code-example path = "dependency-injection/src/app/providers.component.ts" region = "providers-6b" linenums = "false" >
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< / code-example >
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{@a value-provider}
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### Value providers
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### 值提供商
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Sometimes it's easier to provide a ready-made object rather than ask the injector to create it from a class.
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有时,提供一个预先做好的对象会比请求注入器从类中创建它更容易。
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< code-example path = "dependency-injection/src/app/providers.component.ts" region = "silent-logger" linenums = "false" >
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< / code-example >
Then you register a provider with the `useValue` option,
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which makes this object play the logger role.
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于是可以通过`useValue`选项来注册提供商,它会让这个对象直接扮演 logger 的角色。
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< code-example path = "dependency-injection/src/app/providers.component.ts" region = "providers-7" linenums = "false" >
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< / code-example >
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See more `useValue` examples in the
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[Non-class dependencies ](guide/dependency-injection#non-class-dependencies ) and
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[InjectionToken ](guide/dependency-injection#injection-token ) sections.
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查看更多`useValue`的例子,见[非类依赖](guide/dependency-injection#non-class-dependencies)和 [InjectionToken ](guide/dependency-injection#injection-token )部分。
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{@a factory-provider}
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### Factory providers
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### 工厂提供商
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Sometimes you need to create the dependent value dynamically,
based on information you won't have until the last possible moment.
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Maybe the information changes repeatedly in the course of the browser session.
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有时,我们需要动态创建这个依赖值,因为它所需要的信息直到最后一刻才能确定。
也许这个信息会在浏览器的会话中不停地变化。
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Suppose also that the injectable service has no independent access to the source of this information.
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还假设这个可注入的服务没法通过独立的源访问此信息。
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This situation calls for a **factory provider** .
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这种情况下,请调用**工厂提供商**。
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To illustrate the point, add a new business requirement:
the `HeroService` must hide *secret* heroes from normal users.
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Only authorized users should see secret heroes.
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下面通过添加新的业务需求来说明这一点:
`HeroService` 必须对普通用户隐藏掉*秘密*英雄。
只有授权用户才能看到秘密英雄。
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Like the `EvenBetterLogger` , the `HeroService` needs a fact about the user.
It needs to know if the user is authorized to see secret heroes.
That authorization can change during the course of a single application session,
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as when you log in a different user.
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就像`EvenBetterLogger`那样,`HeroService`需要了解此用户的身份。
它需要知道,这个用户是否有权看到隐藏英雄。
这个授权可能在单一的应用会话中被改变,例如,改用另一个用户的身份登录时。
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Unlike `EvenBetterLogger` , you can't inject the `UserService` into the `HeroService` .
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The `HeroService` won't have direct access to the user information to decide
who is authorized and who is not.
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与`EvenBetterLogger`不同,不能把`UserService`注入到`HeroService`中。
`HeroService` 无权访问用户信息,来决定谁有授权谁没有授权。
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Instead, the `HeroService` constructor takes a boolean flag to control display of secret heroes.
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让`HeroService`的构造函数带上一个布尔型的标志,来控制是否显示隐藏的英雄。
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< code-example path = "dependency-injection/src/app/heroes/hero.service.ts" region = "internals" title = "src/app/heroes/hero.service.ts (excerpt)" linenums = "false" >
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< / code-example >
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You can inject the `Logger` , but you can't inject the boolean `isAuthorized` .
You'll have to take over the creation of new instances of this `HeroService` with a factory provider.
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我们可以注入`Logger`,但是不能注入逻辑型的`isAuthorized`。
我们不得不通过通过工厂提供商创建这个`HeroService`的新实例。
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A factory provider needs a factory function:
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工厂提供商需要一个工厂方法:
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< code-example path = "dependency-injection/src/app/heroes/hero.service.provider.ts" region = "factory" title = "src/app/heroes/hero.service.provider.ts (excerpt)" linenums = "false" >
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< / code-example >
Although the `HeroService` has no access to the `UserService` , the factory function does.
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虽然`HeroService`不能访问`UserService`,但是工厂方法可以。
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You inject both the `Logger` and the `UserService` into the factory provider
and let the injector pass them along to the factory function:
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同时把`Logger`和`UserService`注入到工厂提供商中,并且让注入器把它们传给工厂方法:
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< code-example path = "dependency-injection/src/app/heroes/hero.service.provider.ts" region = "provider" title = "src/app/heroes/hero.service.provider.ts (excerpt)" linenums = "false" >
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< / code-example >
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< div class = "l-sub-section" >
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The `useFactory` field tells Angular that the provider is a factory function
whose implementation is the `heroServiceFactory` .
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`useFactory` 字段告诉 Angular: 这个提供商是一个工厂方法, 它的实现是`heroServiceFactory`。
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The `deps` property is an array of [provider tokens ](guide/dependency-injection#token ).
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The `Logger` and `UserService` classes serve as tokens for their own class providers.
The injector resolves these tokens and injects the corresponding services into the matching factory function parameters.
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`deps` 属性是[提供商令牌](guide/dependency-injection#token)数组。
`Logger` 和`UserService`类作为它们自身类提供商的令牌。
注入器解析这些令牌,把相应的服务注入到工厂函数中相应的参数中去。
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< / div >
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Notice that you captured the factory provider in an exported variable, `heroServiceProvider` .
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This extra step makes the factory provider reusable.
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You can register the `HeroService` with this variable wherever you need it.
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注意,我们在一个导出的变量中捕获了这个工厂提供商:`heroServiceProvider`。
这个额外的步骤让工厂提供商可被复用。
无论哪里需要,都可以使用这个变量注册`HeroService`。
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In this sample, you need it only in the `HeroesComponent` ,
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where it replaces the previous `HeroService` registration in the metadata `providers` array.
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Here you see the new and the old implementation side-by-side:
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在这个例子中,只在`HeroesComponent`中需要它,
这里,它代替了元数据`providers`数组中原来的`HeroService`注册。
对比一下新的和旧的实现:
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< code-tabs >
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< code-pane title = "src/app/heroes/heroes.component (v3)" path = "dependency-injection/src/app/heroes/heroes.component.ts" >
< / code-pane >
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< code-pane title = "src/app/heroes/heroes.component (v2)" path = "dependency-injection/src/app/heroes/heroes.component.1.ts" >
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< / code-pane >
< / code-tabs >
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{@a token}
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## Dependency injection tokens
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## 依赖注入令牌
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When you register a provider with an injector, you associate that provider with a dependency injection token.
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The injector maintains an internal *token-provider* map that it references when
asked for a dependency. The token is the key to the map.
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当向注入器注册提供商时,实际上是把这个提供商和一个 DI 令牌关联起来了。
注入器维护一个内部的*令牌-提供商*映射表,这个映射表会在请求依赖时被引用到。
令牌就是这个映射表中的键值。
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In all previous examples, the dependency value has been a class *instance* , and
the class *type* served as its own lookup key.
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Here you get a `HeroService` directly from the injector by supplying the `HeroService` type as the token:
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在前面的所有例子中,依赖值都是一个类*实例*,并且类的*类型*作为它自己的查找键值。
在下面的代码中,`HeroService`类型作为令牌,直接从注入器中获取`HeroService` 实例:
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< code-example path = "dependency-injection/src/app/injector.component.ts" region = "get-hero-service" title = "src/app/injector.component.ts" linenums = "false" >
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< / code-example >
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You have similar good fortune when you write a constructor that requires an injected class-based dependency.
When you define a constructor parameter with the `HeroService` class type,
Angular knows to inject the
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service associated with that `HeroService` class token:
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编写需要基于类的依赖注入的构造函数对我们来说是很幸运的。
只要定义一个`HeroService`类型的构造函数参数,
Angular 就会知道把跟`HeroService`类令牌关联的服务注入进来:
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< code-example path = "dependency-injection/src/app/heroes/hero-list.component.ts" region = "ctor-signature" title = "src/app/heroes/hero-list.component.ts" >
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< / code-example >
This is especially convenient when you consider that most dependency values are provided by classes.
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这是一个特殊的规约,因为大多数依赖值都是以类的形式提供的。
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{@a non-class-dependencies}
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### Non-class dependencies
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### 非类依赖
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What if the dependency value isn't a class? Sometimes the thing you want to inject is a
string, function, or object.
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如果依赖值不是一个类呢?有时候想要注入的东西是一个字符串,函数或者对象。
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Applications often define configuration objects with lots of small facts
(like the title of the application or the address of a web API endpoint)
but these configuration objects aren't always instances of a class.
They can be object literals such as this one:
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应用程序经常为很多很小的因素定义配置对象( 例如应用程序的标题或网络API终点的地址) 。
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但是这些配置对象不总是类的实例,它们可能是对象,如下面这个:
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< code-example path = "dependency-injection/src/app/app.config.ts" region = "config" title = "src/app/app.config.ts (excerpt)" linenums = "false" >
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< / code-example >
What if you'd like to make this configuration object available for injection?
You know you can register an object with a [value provider ](guide/dependency-injection#value-provider ).
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我们想让这个配置对象在注入时可用,而且知道可以使用[值提供商](guide/dependency-injection#value-provider)来注册一个对象。
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But what should you use as the token?
You don't have a class to serve as a token.
There is no `AppConfig` class.
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但是,这种情况下用什么作令牌呢?
我们没办法找一个类来当作令牌,因为没有`Config`类。
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< div class = "l-sub-section" >
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### TypeScript interfaces aren't valid tokens
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### TypeScript 接口不是一个有效的令牌
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The `HERO_DI_CONFIG` constant conforms to the `AppConfig` interface.
Unfortunately, you cannot use a TypeScript interface as a token:
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`CONFIG` 常量有一个接口:`AppConfig`。不幸的是,不能把 TypeScript 接口用作令牌:
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< code-example path = "dependency-injection/src/app/providers.component.ts" region = "providers-9-interface" linenums = "false" >
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< / code-example >
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< code-example path = "dependency-injection/src/app/providers.component.ts" region = "provider-9-ctor-interface" linenums = "false" >
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< / code-example >
That seems strange if you're used to dependency injection in strongly typed languages, where
an interface is the preferred dependency lookup key.
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对于习惯于在强类型的语言中使用依赖注入的开发人员,这会看起来很奇怪,
因为在强类型语言中,接口是首选的用于查找依赖的主键。
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It's not Angular's doing. An interface is a TypeScript design-time artifact. JavaScript doesn't have interfaces.
The TypeScript interface disappears from the generated JavaScript.
There is no interface type information left for Angular to find at runtime.
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这不是 Angular 的错。接口只是 TypeScript 设计时 (design-time) 的概念。JavaScript 没有接口。
TypeScript 接口不会出现在生成的 JavaScript 代码中。
在运行期,没有接口类型信息可供 Angular 查找。
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< / div >
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{@a injection-token}
### _InjectionToken_
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### _InjectionToken_ 值
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One solution to choosing a provider token for non-class dependencies is
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to define and use an [*InjectionToken* ](api/core/InjectionToken ).
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The definition of such a token looks like this:
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解决方案是为非类依赖定义和使用< a href = "../api/core/InjectionToken" > < b > InjectionToken< / b > < / a > 作为提供商令牌。
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定义方式是这样的:
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< code-example path = "dependency-injection/src/app/app.config.ts" region = "token" title = "src/app/app.config.ts" linenums = "false" >
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< / code-example >
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The type parameter, while optional, conveys the dependency's type to developers and tooling.
The token description is another developer aid.
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类型参数,虽然是可选的,但可以向开发者和开发工具传达类型信息。
而且这个令牌的描述信息也可以为开发者提供帮助。
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Register the dependency provider using the `InjectionToken` object:
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使用这个`InjectionToken`对象注册依赖的提供商:
< code-example path = "dependency-injection/src/app/providers.component.ts" region = "providers-9" linenums = "false" >
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< / code-example >
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Now you can inject the configuration object into any constructor that needs it, with
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the help of an `@Inject` decorator:
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现在,在`@Inject`装饰器的帮助下,这个配置对象可以注入到任何需要它的构造函数中:
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< code-example path = "dependency-injection/src/app/app.component.2.ts" region = "ctor" title = "src/app/app.component.ts" linenums = "false" >
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< / code-example >
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< div class = "l-sub-section" >
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Although the `AppConfig` interface plays no role in dependency injection,
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it supports typing of the configuration object within the class.
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虽然`AppConfig`接口在依赖注入过程中没有任何作用,但它为该类中的配置对象提供了强类型信息。
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< / div >
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Alternatively, you can provide and inject the configuration object in an ngModule like `AppModule` .
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或者在 ngModule 中提供并注入这个配置对象,如`AppModule`。
< code-example path = "dependency-injection/src/app/app.module.ts" region = "providers" title = "src/app/app.module.ts (providers)" > < / code-example >
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{@a optional}
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## Optional dependencies
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## 可选依赖
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The `HeroService` *requires* a `Logger` , but what if it could get by without
a `logger` ?
You can tell Angular that the dependency is optional by annotating the
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constructor argument with `@Optional()` :
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`HeroService` *需要*一个`Logger`,但是如果想不提供 Logger 也能得到它,该怎么办呢?
可以把构造函数的参数标记为`@Optional()`,告诉 Angular 该依赖是可选的:
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< code-example path = "dependency-injection/src/app/providers.component.ts" region = "import-optional" >
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< / code-example >
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< code-example path = "dependency-injection/src/app/providers.component.ts" region = "provider-10-ctor" linenums = "false" >
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< / code-example >
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When using `@Optional()` , your code must be prepared for a null value. If you
don't register a `logger` somewhere up the line, the injector will set the
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value of `logger` to null.
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当使用`@Optional()`时,代码必须准备好如何处理空值。
如果其它的代码没有注册一个 `logger` ,注入器会设置该`logger`的值为空 null。
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## Summary
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## 小结
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You learned the basics of Angular dependency injection in this page.
You can register various kinds of providers,
and you know how to ask for an injected object (such as a service) by
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adding a parameter to a constructor.
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本章,我们学习了 Angular 依赖注入的基础知识。
我们可以注册很多种类的提供商,知道如何通过添加构造函数的参数来请求一个注入对象(例如一个服务)。
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Angular dependency injection is more capable than this guide has described.
You can learn more about its advanced features, beginning with its support for
nested injectors, in
[Hierarchical Dependency Injection ](guide/hierarchical-dependency-injection ).
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Angular 依赖注入比前面描述的更能干。
学习更多高级特性,如对嵌套注入器的支持,见[多级依赖注入](guide/hierarchical-dependency-injection)一章。
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{@a explicit-injector}
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## Appendix: Working with injectors directly
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## 附录:直接使用注入器
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Developers rarely work directly with an injector, but
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here's an `InjectorComponent` that does.
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这里的`InjectorComponent`直接使用了注入器,
但我们很少直接使用它。
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< code-example path = "dependency-injection/src/app/injector.component.ts" region = "injector" title = "src/app/injector.component.ts" >
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< / code-example >
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An `Injector` is itself an injectable service.
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`Injector` 本身是可注入的服务。
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In this example, Angular injects the component's own `Injector` into the component's constructor.
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The component then asks the injected injector for the services it wants in `ngOnInit()` .
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在这个例子中, Angular 把组件自身的`Injector`注入到了组件的构造函数中。
然后,组件在`ngOnInit()`中向注入的注入器请求它所需的服务。
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Note that the services themselves are not injected into the component.
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They are retrieved by calling `injector.get()` .
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注意,这些服务本身没有注入到组件,它们是通过调用`injector.get()`获得的。
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The `get()` method throws an error if it can't resolve the requested service.
You can call `get()` with a second parameter, which is the value to return if the service
is not found. Angular can't find the service if it's not registered with this or any ancestor injector.
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`get()` 方法如果不能解析所请求的服务,会抛出异常。
调用`get()`时,还可以使用第二个参数,一旦获取的服务没有在当前或任何祖先注入器中注册过,
就把它作为返回值。
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< div class = "l-sub-section" >
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The technique is an example of the
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[service locator pattern ](https://en.wikipedia.org/wiki/Service_locator_pattern ).
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刚描述的这项技术是[服务定位器模式](https://en.wikipedia.org/wiki/Service_locator_pattern)的一个范例。
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**Avoid** this technique unless you genuinely need it.
It encourages a careless grab-bag approach such as you see here.
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It's difficult to explain, understand, and test.
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You can't know by inspecting the constructor what this class requires or what it will do.
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It could acquire services from any ancestor component, not just its own.
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You're forced to spelunk the implementation to discover what it does.
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要**避免使用**此技术,除非确实需要它。
它会鼓励鲁莽的方式,就像在这里看到的。
它难以解释、理解和测试。
仅通过阅读构造函数,没法知道这个类需要什么或者它将做什么。
它可以从任何祖先组件中获得服务,而不仅仅是它自己。
会迫使我们深入它的实现,才可能明白它都做了啥。
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Framework developers may take this approach when they
must acquire services generically and dynamically.
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框架开发人员必须采用通用的或者动态的方式获取服务时,可能采用这个方法。
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< / div >
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{@a one-class-per-file}
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## Appendix: one class per file
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## 附录:为什么建议每个文件只放一个类
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Having multiple classes in the same file is confusing and best avoided.
Developers expect one class per file. Keep them happy.
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在同一个文件中有多个类容易造成混淆,最好避免。
开发人员期望每个文件只放一个类。这会让它们开心点。
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If you combine the `HeroService` class with
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the `HeroesComponent` in the same file,
**define the component last**.
If you define the component before the service,
you'll get a runtime null reference error.
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如果我们蔑视这个建议,并且 —— 比如说 —— 把`HeroService`和`HeroesComponent`组合在同一个文件里,
**就得把组件定义放在最后面!**
如果把组件定义在了服务的前面,
在运行时抛出空指针错误。
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< div class = "l-sub-section" >
2017-03-31 07:23:16 -04:00
You actually can define the component first with the help of the `forwardRef()` method as explained
in this [blog post ](http://blog.thoughtram.io/angular/2015/09/03/forward-references-in-angular-2.html ).
2017-10-23 20:44:49 -04:00
2017-07-22 23:51:25 -04:00
在`forwardRef()`方法的帮助下,实际上也可以先定义组件,
具体说明见这篇[博客](http://blog.thoughtram.io/angular/2015/09/03/forward-references-in-angular-2.html)。
2018-02-28 00:43:40 -05:00
But it's best to avoid the problem altogether by defining components and services in separate files.
2017-07-22 23:51:25 -04:00
但是为什么要先给自己找麻烦呢?
还是通过在独立的文件中定义组件和服务,完全避免此问题吧。
2017-04-10 11:51:13 -04:00
< / div >