667 lines
29 KiB
Markdown
667 lines
29 KiB
Markdown
# NgModule FAQs
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#### Prerequisites:
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A basic understanding of the following concepts:
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* [NgModules](guide/ngmodules).
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<hr />
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NgModules help organize an application into cohesive blocks of functionality.
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This page answers the questions many developers ask about NgModule design and implementation.
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## What classes should I add to the `declarations` array?
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Add [declarable](guide/bootstrapping#the-declarations-array) classes—components, directives, and pipes—to a `declarations` list.
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Declare these classes in _exactly one_ module of the application.
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Declare them in a module if they belong to that particular module.
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<hr/>
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{@a q-declarable}
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## What is a _declarable_?
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Declarables are the class types—components, directives, and pipes—that
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you can add to a module's `declarations` list.
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They're the only classes that you can add to `declarations`.
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<hr/>
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## What classes should I _not_ add to `declarations`?
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Add only [declarable](guide/bootstrapping#the-declarations-array) classes to an NgModule's `declarations` list.
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Do *not* declare the following:
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* A class that's already declared in another module, whether an app module, @NgModule, or third-party module.
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* An array of directives imported from another module.
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For example, don't declare `FORMS_DIRECTIVES` from `@angular/forms` because the `FormsModule` already declares it.
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* Module classes.
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* Service classes.
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* Non-Angular classes and objects, such as
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strings, numbers, functions, entity models, configurations, business logic, and helper classes.
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<hr/>
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## Why list the same component in multiple `NgModule` properties?
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`AppComponent` is often listed in both `declarations` and `bootstrap`.
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You might see the same component listed in `declarations`, `exports`, and `entryComponents`.
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While that seems redundant, these properties have different functions.
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Membership in one list doesn't imply membership in another list.
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* `AppComponent` could be declared in this module but not bootstrapped.
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* `AppComponent` could be bootstrapped in this module but declared in a different feature module.
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* A component could be imported from another app module (so you can't declare it) and re-exported by this module.
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* A component could be exported for inclusion in an external component's template
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as well as dynamically loaded in a pop-up dialog.
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<hr/>
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## What does "Can't bind to 'x' since it isn't a known property of 'y'" mean?
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This error often means that you haven't declared the directive "x"
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or haven't imported the NgModule to which "x" belongs.
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<div class="l-sub-section">
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Perhaps you declared "x" in an application sub-module but forgot to export it.
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The "x" class isn't visible to other modules until you add it to the `exports` list.
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</div>
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<hr/>
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## What should I import?
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Import NgModules whose public (exported) [declarable classes](guide/bootstrapping#the-declarations-array)
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you need to reference in this module's component templates.
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This always means importing `CommonModule` from `@angular/common` for access to
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the Angular directives such as `NgIf` and `NgFor`.
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You can import it directly or from another NgModule that [re-exports](guide/ngmodule-faq#q-reexport) it.
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Import `FormsModule` from `@angular/forms`
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if your components have `[(ngModel)]` two-way binding expressions.
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Import _shared_ and _feature_ modules when this module's components incorporate their
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components, directives, and pipes.
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Import only [BrowserModule](guide/ngmodule-faq#q-browser-vs-common-module) in the root `AppModule`.
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<hr/>
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{@a q-browser-vs-common-module}
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## Should I import `BrowserModule` or `CommonModule`?
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The root application module, `AppModule`, of almost every browser application
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should import `BrowserModule` from `@angular/platform-browser`.
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`BrowserModule` provides services that are essential to launch and run a browser app.
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`BrowserModule` also re-exports `CommonModule` from `@angular/common`,
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which means that components in the `AppModule` module also have access to
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the Angular directives every app needs, such as `NgIf` and `NgFor`.
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Do not import `BrowserModule` in any other module.
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*Feature modules* and *lazy-loaded modules* should import `CommonModule` instead.
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They need the common directives. They don't need to re-install the app-wide providers.
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Importing `CommonModule` also frees feature modules for use on _any_ target platform, not just browsers.
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<hr/>
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{@a q-reimport}
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## What if I import the same module twice?
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That's not a problem. When three modules all import Module 'A',
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Angular evaluates Module 'A' once, the first time it encounters it, and doesn't do so again.
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That's true at whatever level `A` appears in a hierarchy of imported NgModules.
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When Module 'B' imports Module 'A', Module 'C' imports 'B', and Module 'D' imports `[C, B, A]`,
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then 'D' triggers the evaluation of 'C', which triggers the evaluation of 'B', which evaluates 'A'.
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When Angular gets to the 'B' and 'A' in 'D', they're already cached and ready to go.
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Angular doesn't like NgModules with circular references, so don't let Module 'A' import Module 'B', which imports Module 'A'.
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<hr/>
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{@a q-reexport}
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## What should I export?
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Export [declarable](guide/bootstrapping#the-declarations-array) classes that components in _other_ NgModules
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are able to reference in their templates. These are your _public_ classes.
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If you don't export a declarable class, it stays _private_, visible only to other components
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declared in this NgModule.
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You _can_ export any declarable class—components, directives, and pipes—whether
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it's declared in this NgModule or in an imported NgModule.
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You _can_ re-export entire imported NgModules, which effectively re-exports all of their exported classes.
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An NgModule can even export a module that it doesn't import.
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<hr/>
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## What should I *not* export?
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Don't export the following:
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* Private components, directives, and pipes that you need only within components declared in this NgModule.
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If you don't want another NgModule to see it, don't export it.
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* Non-declarable objects such as services, functions, configurations, and entity models.
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* Components that are only loaded dynamically by the router or by bootstrapping.
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Such [entry components](guide/ngmodule-faq#q-entry-component-defined) can never be selected in another component's template.
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While there's no harm in exporting them, there's also no benefit.
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* Pure service modules that don't have public (exported) declarations.
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For example, there's no point in re-exporting `HttpClientModule` because it doesn't export anything.
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Its only purpose is to add http service providers to the application as a whole.
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<hr/>
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## Can I re-export classes and modules?
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Absolutely.
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NgModules are a great way to selectively aggregate classes from other NgModules and
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re-export them in a consolidated, convenience module.
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An NgModule can re-export entire NgModules, which effectively re-exports all of their exported classes.
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Angular's own `BrowserModule` exports a couple of NgModules like this:
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```typescript
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exports: [CommonModule, ApplicationModule]
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```
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An NgModule can export a combination of its own declarations, selected imported classes, and imported NgModules.
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Don't bother re-exporting pure service modules.
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Pure service modules don't export [declarable](guide/bootstrapping#the-declarations-array) classes that another NgModule could use.
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For example, there's no point in re-exporting `HttpClientModule` because it doesn't export anything.
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Its only purpose is to add http service providers to the application as a whole.
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<hr/>
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## What is the `forRoot()` method?
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The `forRoot()` static method is a convention that makes it easy for developers to configure the module's providers.
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The `RouterModule.forRoot()` method is a good example.
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Apps pass a `Routes` object to `RouterModule.forRoot()` in order to configure the app-wide `Router` service with routes.
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`RouterModule.forRoot()` returns a [ModuleWithProviders](api/core/ModuleWithProviders).
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You add that result to the `imports` list of the root `AppModule`.
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Only call and import a `.forRoot()` result in the root application module, `AppModule`.
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Importing it in any other module, particularly in a lazy-loaded module,
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is contrary to the intent and will likely produce a runtime error.
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For more information, see [Singleton Services](guide/singleton-services).
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`RouterModule` also offers a `forChild` static method for configuring the routes of lazy-loaded modules.
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`forRoot()` and `forChild()` are conventional names for methods that
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configure services in root and feature modules respectively.
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Angular doesn't recognize these names but Angular developers do.
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Follow this convention when you write similar modules with configurable service providers.
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<!--KW--I don't understand how Angular doesn't understand these methods...-->
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<hr/>
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## Why is a service provided in a feature module visible everywhere?
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Providers listed in the `@NgModule.providers` of a bootstrapped module have application scope.
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Adding a service provider to `@NgModule.providers` effectively publishes the service to the entire application.
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When you import an NgModule,
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Angular adds the module's service providers (the contents of its `providers` list)
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to the application root injector.
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This makes the provider visible to every class in the application that knows the provider's lookup token, or knows its name.
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This is by design.
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Extensibility through NgModule imports is a primary goal of the NgModule system.
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Merging NgModule providers into the application injector
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makes it easy for a module library to enrich the entire application with new services.
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By adding the `HttpClientModule` once, every application component can make HTTP requests.
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However, this might feel like an unwelcome surprise if you expect the module's services
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to be visible only to the components declared by that feature module.
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If the `HeroModule` provides the `HeroService` and the root `AppModule` imports `HeroModule`,
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any class that knows the `HeroService` _type_ can inject that service,
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not just the classes declared in the `HeroModule`.
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<hr/>
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{@a q-lazy-loaded-module-provider-visibility}
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## Why is a service provided in a lazy-loaded module visible only to that module?
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Unlike providers of the modules loaded at launch,
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providers of lazy-loaded modules are *module-scoped*.
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When the Angular router lazy-loads a module, it creates a new execution context.
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That [context has its own injector](guide/ngmodule-faq#q-why-child-injector "Why Angular creates a child injector"),
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which is a direct child of the application injector.
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The router adds the lazy module's providers and the providers of its imported NgModules to this child injector.
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These providers are insulated from changes to application providers with the same lookup token.
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When the router creates a component within the lazy-loaded context,
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Angular prefers service instances created from these providers to the service instances of the application root injector.
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<hr/>
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## What if two modules provide the same service?
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When two imported modules, loaded at the same time, list a provider with the same token,
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the second module's provider "wins". That's because both providers are added to the same injector.
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When Angular looks to inject a service for that token,
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it creates and delivers the instance created by the second provider.
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_Every_ class that injects this service gets the instance created by the second provider.
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Even classes declared within the first module get the instance created by the second provider.
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If NgModule A provides a service for token 'X' and imports an NgModule B
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that also provides a service for token 'X', then NgModule A's service definition "wins".
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The service provided by the root `AppModule` takes precedence over services provided by imported NgModules.
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The `AppModule` always wins.
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<hr/>
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## How do I restrict service scope to a module?
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When a module is loaded at application launch,
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its `@NgModule.providers` have *application-wide scope*;
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that is, they are available for injection throughout the application.
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Imported providers are easily replaced by providers from another imported NgModule.
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Such replacement might be by design. It could be unintentional and have adverse consequences.
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As a general rule, import modules with providers _exactly once_, preferably in the application's _root module_.
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That's also usually the best place to configure, wrap, and override them.
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Suppose a module requires a customized `HttpBackend` that adds a special header for all Http requests.
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If another module elsewhere in the application also customizes `HttpBackend`
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or merely imports the `HttpClientModule`, it could override this module's `HttpBackend` provider,
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losing the special header. The server will reject http requests from this module.
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To avoid this problem, import the `HttpClientModule` only in the `AppModule`, the application _root module_.
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If you must guard against this kind of "provider corruption", *don't rely on a launch-time module's `providers`.*
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Load the module lazily if you can.
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Angular gives a [lazy-loaded module](guide/ngmodule-faq#q-lazy-loaded-module-provider-visibility) its own child injector.
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The module's providers are visible only within the component tree created with this injector.
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If you must load the module eagerly, when the application starts,
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*provide the service in a component instead.*
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Continuing with the same example, suppose the components of a module truly require a private, custom `HttpBackend`.
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Create a "top component" that acts as the root for all of the module's components.
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Add the custom `HttpBackend` provider to the top component's `providers` list rather than the module's `providers`.
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Recall that Angular creates a child injector for each component instance and populates the injector
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with the component's own providers.
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When a child of this component asks for the `HttpBackend` service,
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Angular provides the local `HttpBackend` service,
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not the version provided in the application root injector.
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Child components make proper HTTP requests no matter what other modules do to `HttpBackend`.
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Be sure to create module components as children of this module's top component.
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You can embed the child components in the top component's template.
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Alternatively, make the top component a routing host by giving it a `<router-outlet>`.
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Define child routes and let the router load module components into that outlet.
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<hr/>
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{@a q-root-component-or-module}
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## Should I add application-wide providers to the root `AppModule` or the root `AppComponent`?
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Register application-wide providers in the root `AppModule`, not in the `AppComponent`.
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Lazy-loaded modules and their components can inject `AppModule` services;
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they can't inject `AppComponent` services.
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Register a service in `AppComponent` providers _only_ if the service must be hidden
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from components outside the `AppComponent` tree. This is a rare use case.
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More generally, [prefer registering providers in NgModules](guide/ngmodule-faq#q-component-or-module) to registering in components.
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<h3 class="no-toc">Discussion</h3>
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Angular registers all startup module providers with the application root injector.
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The services that root injector providers create have application scope, which
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means they are available to the entire application.
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Certain services, such as the `Router`, only work when you register them in the application root injector.
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By contrast, Angular registers `AppComponent` providers with the `AppComponent`'s own injector.
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`AppComponent` services are available only to that component and its component tree.
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They have component scope.
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The `AppComponent`'s injector is a child of the root injector, one down in the injector hierarchy.
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For applications that don't use the router, that's almost the entire application.
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But in routed applications, routing operates at the root level
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where `AppComponent` services don't exist.
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This means that lazy-loaded modules can't reach them.
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<hr/>
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{@a q-component-or-module}
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## Should I add other providers to a module or a component?
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In general, prefer registering feature-specific providers in modules (`@NgModule.providers`)
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to registering in components (`@Component.providers`).
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Register a provider with a component when you _must_ limit the scope of a service instance
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to that component and its component tree.
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Apply the same reasoning to registering a provider with a directive.
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For example, an editing component that needs a private copy of a caching service should register
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the service with the component.
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Then each new instance of the component gets its own cached service instance.
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The changes that editor makes in its service don't touch the instances elsewhere in the application.
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[Always register _application-wide_ services with the root `AppModule`](guide/ngmodule-faq#q-root-component-or-module),
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not the root `AppComponent`.
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<hr/>
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{@a q-why-bad}
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## Why is it bad if a shared module provides a service to a lazy-loaded module?
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### The eagerly loaded scenario
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When an eagerly loaded module provides a service, for example a `UserService`, that service is available application-wide. If the root module provides `UserService` and
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imports another module that provides the same `UserService`, Angular registers one of
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them in the root app injector (see [What if I import the same module twice?](guide/ngmodule-faq#q-reimport)).
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Then, when some component injects `UserService`, Angular finds it in the app root injector,
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and delivers the app-wide singleton service. No problem.
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### The lazy loaded scenario
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Now consider a lazy loaded module that also provides a service called `UserService`.
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When the router lazy loads a module, it creates a child injector and registers the `UserService`
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provider with that child injector. The child injector is _not_ the root injector.
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When Angular creates a lazy component for that module and injects `UserService`,
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it finds a `UserService` provider in the lazy module's _child injector_
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and creates a _new_ instance of the `UserService`.
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This is an entirely different `UserService` instance
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than the app-wide singleton version that Angular injected in one of the eagerly loaded components.
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This scenario causes your app to create a new instance every time, instead of using the singleton.
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<!--KW--What does this cause? I wasn't able to get the suggestion of this to work from
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the current FAQ:
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To demonstrate, run the <live-example name="ngmodule">live example</live-example>.
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Modify the `SharedModule` so that it provides the `UserService` rather than the `CoreModule`.
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Then toggle between the "Contact" and "Heroes" links a few times.
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The username goes bonkers as the Angular creates a new `UserService` instance each time.
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I'd like to see the error so I can include it.-->
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<hr/>
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{@a q-why-child-injector}
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## Why does lazy loading create a child injector?
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Angular adds `@NgModule.providers` to the application root injector, unless the NgModule is lazy-loaded.
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For a lazy-loaded NgModule, Angular creates a _child injector_ and adds the module's providers to the child injector.
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This means that an NgModule behaves differently depending on whether it's loaded during application start
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or lazy-loaded later. Neglecting that difference can lead to [adverse consequences](guide/ngmodule-faq#q-why-bad).
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Why doesn't Angular add lazy-loaded providers to the app root injector as it does for eagerly loaded NgModules?
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The answer is grounded in a fundamental characteristic of the Angular dependency-injection system.
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An injector can add providers _until it's first used_.
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Once an injector starts creating and delivering services, its provider list is frozen; no new providers are allowed.
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When an applications starts, Angular first configures the root injector with the providers of all eagerly loaded NgModules
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_before_ creating its first component and injecting any of the provided services.
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Once the application begins, the app root injector is closed to new providers.
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Time passes and application logic triggers lazy loading of an NgModule.
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Angular must add the lazy-loaded module's providers to an injector somewhere.
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It can't add them to the app root injector because that injector is closed to new providers.
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So Angular creates a new child injector for the lazy-loaded module context.
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<hr/>
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{@a q-is-it-loaded}
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## How can I tell if an NgModule or service was previously loaded?
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Some NgModules and their services should be loaded only once by the root `AppModule`.
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Importing the module a second time by lazy loading a module could [produce errant behavior](guide/ngmodule-faq#q-why-bad)
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that may be difficult to detect and diagnose.
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To prevent this issue, write a constructor that attempts to inject the module or service
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from the root app injector. If the injection succeeds, the class has been loaded a second time.
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You can throw an error or take other remedial action.
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Certain NgModules, such as `BrowserModule`, implement such a guard.
|
|
Here is a custom constructor for an NgModule called `CoreModule`.
|
|
|
|
<code-example path="ngmodule-faq/src/app/core/core.module.ts" region="ctor" title="src/app/core/core.module.ts (Constructor)" linenums="false">
|
|
</code-example>
|
|
|
|
<hr/>
|
|
|
|
{@a q-entry-component-defined}
|
|
|
|
## What is an `entry component`?
|
|
|
|
An entry component is any component that Angular loads _imperatively_ by type.
|
|
|
|
A component loaded _declaratively_ via its selector is _not_ an entry component.
|
|
|
|
Angular loads a component declaratively when
|
|
using the component's selector to locate the element in the template.
|
|
Angular then creates the HTML representation of the component and inserts it into the DOM at the selected element. These aren't entry components.
|
|
|
|
The bootstrapped root `AppComponent` is an _entry component_.
|
|
True, its selector matches an element tag in `index.html`.
|
|
But `index.html` isn't a component template and the `AppComponent`
|
|
selector doesn't match an element in any component template.
|
|
|
|
Components in route definitions are also _entry components_.
|
|
A route definition refers to a component by its _type_.
|
|
The router ignores a routed component's selector, if it even has one, and
|
|
loads the component dynamically into a `RouterOutlet`.
|
|
|
|
For more information, see [Entry Components](guide/entry-components).
|
|
|
|
<hr/>
|
|
|
|
## What's the difference between a _bootstrap_ component and an _entry component_?
|
|
|
|
A bootstrapped component _is_ an [entry component](guide/ngmodule-faq#q-entry-component-defined)
|
|
that Angular loads into the DOM during the bootstrap process (application launch).
|
|
Other entry components are loaded dynamically by other means, such as with the router.
|
|
|
|
The `@NgModule.bootstrap` property tells the compiler that this is an entry component _and_
|
|
it should generate code to bootstrap the application with this component.
|
|
|
|
There's no need to list a component in both the `bootstrap` and `entryComponents` lists,
|
|
although doing so is harmless.
|
|
|
|
For more information, see [Entry Components](guide/entry-components).
|
|
|
|
<hr/>
|
|
|
|
## When do I add components to _entryComponents_?
|
|
|
|
Most application developers won't need to add components to the `entryComponents`.
|
|
|
|
Angular adds certain components to _entry components_ automatically.
|
|
Components listed in `@NgModule.bootstrap` are added automatically.
|
|
Components referenced in router configuration are added automatically.
|
|
These two mechanisms account for almost all entry components.
|
|
|
|
If your app happens to bootstrap or dynamically load a component _by type_ in some other manner,
|
|
you must add it to `entryComponents` explicitly.
|
|
|
|
Although it's harmless to add components to this list,
|
|
it's best to add only the components that are truly _entry components_.
|
|
Don't include components that [are referenced](guide/ngmodule-faq#q-template-reference)
|
|
in the templates of other components.
|
|
|
|
For more information, see [Entry Components](guide/entry-components).
|
|
|
|
<hr/>
|
|
|
|
|
|
## Why does Angular need _entryComponents_?
|
|
|
|
The reason is _tree shaking_. For production apps you want to load the smallest, fastest code possible. The code should contain only the classes that you actually need.
|
|
It should exclude a component that's never used, whether or not that component is declared.
|
|
|
|
In fact, many libraries declare and export components you'll never use.
|
|
If you don't reference them, the tree shaker drops these components from the final code package.
|
|
|
|
If the [Angular compiler](guide/ngmodule-faq#q-angular-compiler) generated code for every declared component, it would defeat the purpose of the tree shaker.
|
|
|
|
Instead, the compiler adopts a recursive strategy that generates code only for the components you use.
|
|
|
|
The compiler starts with the entry components,
|
|
then it generates code for the declared components it [finds](guide/ngmodule-faq#q-template-reference) in an entry component's template,
|
|
then for the declared components it discovers in the templates of previously compiled components,
|
|
and so on. At the end of the process, the compiler has generated code for every entry component
|
|
and every component reachable from an entry component.
|
|
|
|
If a component isn't an _entry component_ or wasn't found in a template,
|
|
the compiler omits it.
|
|
|
|
<hr/>
|
|
|
|
## What kinds of modules should I have and how should I use them?
|
|
|
|
Every app is different. Developers have various levels of experience and comfort with the available choices.
|
|
Some suggestions and guidelines appear to have wide appeal.
|
|
|
|
### `SharedModule`
|
|
`SharedModule` is a conventional name for an `NgModule` with the components, directives, and pipes that you use
|
|
everywhere in your app. This module should consist entirely of `declarations`,
|
|
most of them exported.
|
|
|
|
The `SharedModule` may re-export other widget modules, such as `CommonModule`,
|
|
`FormsModule`, and NgModules with the UI controls that you use most widely.
|
|
|
|
The `SharedModule` should not have `providers` for reasons [explained previously](guide/ngmodule-faq#q-why-bad).
|
|
Nor should any of its imported or re-exported modules have `providers`.
|
|
|
|
Import the `SharedModule` in your _feature_ modules,
|
|
both those loaded when the app starts and those you lazy load later.
|
|
|
|
### `CoreModule`
|
|
`CoreModule` is a conventional name for an `NgModule` with `providers` for
|
|
the singleton services you load when the application starts.
|
|
|
|
Import `CoreModule` in the root `AppModule` only.
|
|
Never import `CoreModule` in any other module.
|
|
|
|
Consider making `CoreModule` a pure services module
|
|
with no `declarations`.
|
|
|
|
For more information, see [Sharing NgModules](guide/sharing-ngmodules)
|
|
and [Singleton Services](guide/singleton-services).
|
|
|
|
### Feature Modules
|
|
|
|
Feature modules are modules you create around specific application business domains, user workflows, and utility collections. They support your app by containing a particular feature,
|
|
such as routes, services, widgets, etc. To conceptualize what a feature module might be in your
|
|
app, consider that if you would put the files related to a certain functionality, like a search,
|
|
in one folder, that the contents of that folder would be a feature module that you might call
|
|
your `SearchModule`. It would contain all of the components, routing, and templates that
|
|
would make up the search functionality.
|
|
|
|
For more information, see [Feature Modules](guide/feature-modules) and
|
|
[Module Types](guide/module-types)
|
|
|
|
|
|
|
|
## What's the difference between NgModules and JavaScript Modules?
|
|
|
|
In an Angular app, NgModules and JavaScript modules work together.
|
|
|
|
In modern JavaScript, every file is a module
|
|
(see the [Modules](http://exploringjs.com/es6/ch_modules.html) page of the Exploring ES6 website).
|
|
Within each file you write an `export` statement to make parts of the module public.
|
|
|
|
An Angular NgModule is a class with the `@NgModule` decorator—JavaScript modules
|
|
don't have to have the `@NgModule` decorator. Angular's `NgModule` has `imports` and `exports` and they serve a similar purpose.
|
|
|
|
You _import_ other NgModules so you can use their exported classes in component templates.
|
|
You _export_ this NgModule's classes so they can be imported and used by components of _other_ NgModules.
|
|
|
|
For more information, see [JavaScript Modules vs. NgModules](guide/ngmodule-vs-jsmodule).
|
|
|
|
<hr/>
|
|
|
|
{@a q-template-reference}
|
|
|
|
## How does Angular find components, directives, and pipes in a template?<br>What is a <i><b>template reference</b></i>?
|
|
|
|
The [Angular compiler](guide/ngmodule-faq#q-angular-compiler) looks inside component templates
|
|
for other components, directives, and pipes. When it finds one, that's a template reference.
|
|
|
|
The Angular compiler finds a component or directive in a template when it can match the *selector* of that component or directive to some HTML in that template.
|
|
|
|
The compiler finds a pipe if the pipe's *name* appears within the pipe syntax of the template HTML.
|
|
|
|
Angular only matches selectors and pipe names for classes that are declared by this module
|
|
or exported by a module that this module imports.
|
|
|
|
<hr/>
|
|
|
|
{@a q-angular-compiler}
|
|
|
|
## What is the Angular compiler?
|
|
|
|
The Angular compiler converts the application code you write into highly performant JavaScript code.
|
|
The `@NgModule` metadata plays an important role in guiding the compilation process.
|
|
|
|
The code you write isn't immediately executable. For example, components have templates that contain custom elements, attribute directives, Angular binding declarations,
|
|
and some peculiar syntax that clearly isn't native HTML.
|
|
|
|
The Angular compiler reads the template markup,
|
|
combines it with the corresponding component class code, and emits _component factories_.
|
|
|
|
A component factory creates a pure, 100% JavaScript representation
|
|
of the component that incorporates everything described in its `@Component` metadata:
|
|
the HTML, the binding instructions, the attached styles.
|
|
|
|
Because directives and pipes appear in component templates,
|
|
the Angular compiler incorporates them into compiled component code too.
|
|
|
|
`@NgModule` metadata tells the Angular compiler what components to compile for this module and
|
|
how to link this module with other modules.
|