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Attribute Directives
An Attribute directive changes the appearance or behavior of a DOM element.
Try the .
{@a directive-overview}
Directives overview
There are three kinds of directives in Angular:
- Components—directives with a template.
- Structural directives—change the DOM layout by adding and removing DOM elements.
- Attribute directives—change the appearance or behavior of an element, component, or another directive.
Components are the most common of the three directives. You saw a component for the first time in the Getting Started.
Structural Directives change the structure of the view. Two examples are NgFor and NgIf. Learn about them in the Structural Directives guide.
Attribute directives are used as attributes of elements. The built-in NgStyle directive in the Template Syntax guide, for example, can change several element styles at the same time.
Build a simple attribute directive
An attribute directive minimally requires building a controller class annotated with
@Directive
, which specifies the selector that identifies
the attribute.
The controller class implements the desired directive behavior.
This page demonstrates building a simple appHighlight attribute directive to set an element's background color when the user hovers over that element. You can apply it like this:
{@a write-directive}
Please note that directives do not support namespaces.
Write the directive code
Create the directive class file in a terminal window with the CLI command ng generate directive
.
The CLI creates src/app/highlight.directive.ts
, a corresponding test file src/app/highlight.directive.spec.ts
, and declares the directive class in the root AppModule
.
Directives must be declared in Angular Modules in the same manner as components.
The generated src/app/highlight.directive.ts
is as follows:
The imported Directive
symbol provides Angular the @Directive
decorator.
The @Directive
decorator's lone configuration property specifies the directive's
CSS attribute selector, [appHighlight]
.
It's the brackets ([]
) that make it an attribute selector.
Angular locates each element in the template that has an attribute named appHighlight
and applies the logic of this directive to that element.
The attribute selector pattern explains the name of this kind of directive.
Why not "highlight"?
Though highlight would be a more concise selector than appHighlight and it would work,
the best practice is to prefix selector names to ensure
they don't conflict with standard HTML attributes.
This also reduces the risk of colliding with third-party directive names.
The CLI added the app
prefix for you.
Make sure you do not prefix the highlight
directive name with ng
because
that prefix is reserved for Angular and using it could cause bugs that are difficult to diagnose.
After the @Directive
metadata comes the directive's controller class,
called HighlightDirective
, which contains the (currently empty) logic for the directive.
Exporting HighlightDirective
makes the directive accessible.
Now edit the generated src/app/highlight.directive.ts
to look as follows:
The import
statement specifies an additional ElementRef
symbol from the Angular core
library:
You use the ElementRef
in the directive's constructor
to inject a reference to the host DOM element,
the element to which you applied appHighlight
.
ElementRef
grants direct access to the host DOM element
through its nativeElement
property.
This first implementation sets the background color of the host element to yellow.
{@a apply-directive}
Apply the attribute directive
To use the new HighlightDirective
, add a paragraph (<p>
) element to the template of the root AppComponent
and apply the directive as an attribute.
Now run the application to see the HighlightDirective
in action.
To summarize, Angular found the appHighlight
attribute on the host <p>
element.
It created an instance of the HighlightDirective
class and
injected a reference to the <p>
element into the directive's constructor
which sets the <p>
element's background style to yellow.
{@a respond-to-user}
Respond to user-initiated events
Currently, appHighlight
simply sets an element color.
The directive could be more dynamic.
It could detect when the user mouses into or out of the element
and respond by setting or clearing the highlight color.
Begin by adding HostListener
to the list of imported symbols.
Then add two eventhandlers that respond when the mouse enters or leaves,
each adorned by the HostListener
decorator.
The @HostListener
decorator lets you subscribe to events of the DOM
element that hosts an attribute directive, the <p>
in this case.
Of course you could reach into the DOM with standard JavaScript and attach event listeners manually. There are at least three problems with that approach:
- You have to write the listeners correctly.
- The code must detach the listener when the directive is destroyed to avoid memory leaks.
- Talking to DOM API directly isn't a best practice.
The handlers delegate to a helper method that sets the color on the host DOM element, el
.
The helper method, highlight
, was extracted from the constructor.
The revised constructor simply declares the injected el: ElementRef
.
Here's the updated directive in full:
Run the app and confirm that the background color appears when
the mouse hovers over the p
and disappears as it moves out.
{@a bindings}
Pass values into the directive with an @Input data binding
Currently the highlight color is hard-coded within the directive. That's inflexible. In this section, you give the developer the power to set the highlight color while applying the directive.
Begin by adding Input
to the list of symbols imported from @angular/core
.
Add a highlightColor
property to the directive class like this:
{@a input}
Binding to an @Input property
Notice the @Input
decorator. It adds metadata to the class that makes the directive's highlightColor
property available for binding.
It's called an input property because data flows from the binding expression into the directive. Without that input metadata, Angular rejects the binding; see below for more about that.
Try it by adding the following directive binding variations to the AppComponent
template:
Add a color
property to the AppComponent
.
Let it control the highlight color with a property binding.
That's good, but it would be nice to simultaneously apply the directive and set the color in the same attribute like this.
The [appHighlight]
attribute binding both applies the highlighting directive to the <p>
element
and sets the directive's highlight color with a property binding.
You're re-using the directive's attribute selector ([appHighlight]
) to do both jobs.
That's a crisp, compact syntax.
You'll have to rename the directive's highlightColor
property to appHighlight
because that's now the color property binding name.
This is disagreeable. The word, appHighlight
, is a terrible property name and it doesn't convey the property's intent.
{@a input-alias}
Bind to an @Input alias
Fortunately you can name the directive property whatever you want and alias it for binding purposes.
Restore the original property name and specify the selector as the alias in the argument to @Input
.
Inside the directive the property is known as highlightColor
.
Outside the directive, where you bind to it, it's known as appHighlight
.
You get the best of both worlds: the property name you want and the binding syntax you want:
Now that you're binding via the alias to the highlightColor
, modify the onMouseEnter()
method to use that property.
If someone neglects to bind to appHighlightColor
, highlight the host element in red:
Here's the latest version of the directive class.
Write a harness to try it
It may be difficult to imagine how this directive actually works.
In this section, you'll turn AppComponent
into a harness that
lets you pick the highlight color with a radio button and bind your color choice to the directive.
Update app.component.html
as follows:
Revise the AppComponent.color
so that it has no initial value.
Here are the harness and directive in action.
{@a second-property}
Bind to a second property
This highlight directive has a single customizable property. In a real app, it may need more.
At the moment, the default color—the color that prevails until the user picks a highlight color—is hard-coded as "red". Let the template developer set the default color.
Add a second input property to HighlightDirective
called defaultColor
:
Revise the directive's onMouseEnter
so that it first tries to highlight with the highlightColor
,
then with the defaultColor
, and falls back to "red" if both properties are undefined.
How do you bind to a second property when you're already binding to the appHighlight
attribute name?
As with components, you can add as many directive property bindings as you need by stringing them along in the template.
The developer should be able to write the following template HTML to both bind to the AppComponent.color
and fall back to "violet" as the default color.
Angular knows that the defaultColor
binding belongs to the HighlightDirective
because you made it public with the @Input
decorator.
Here's how the harness should work when you're done coding.
Summary
This page covered how to:
- Build an attribute directive that modifies the behavior of an element.
- Apply the directive to an element in a template.
- Respond to events that change the directive's behavior.
- Bind values to the directive.
The final source code follows:
You can also experience and download the .
{@a why-input}
Appendix: Why add @Input?
In this demo, the highlightColor
property is an input property of
the HighlightDirective
. You've seen it applied without an alias:
You've seen it with an alias:
Either way, the @Input
decorator tells Angular that this property is
public and available for binding by a parent component.
Without @Input
, Angular refuses to bind to the property.
You've bound template HTML to component properties before and never used @Input
.
What's different?
The difference is a matter of trust.
Angular treats a component's template as belonging to the component.
The component and its template trust each other implicitly.
Therefore, the component's own template may bind to any property of that component,
with or without the @Input
decorator.
But a component or directive shouldn't blindly trust other components and directives.
The properties of a component or directive are hidden from binding by default.
They are private from an Angular binding perspective.
When adorned with the @Input
decorator, the property becomes public from an Angular binding perspective.
Only then can it be bound by some other component or directive.
You can tell if @Input
is needed by the position of the property name in a binding.
-
When it appears in the template expression to the right of the equals (=), it belongs to the template's component and does not require the
@Input
decorator. -
When it appears in square brackets () to the left of the equals (=), the property belongs to some other component or directive; that property must be adorned with the
@Input
decorator.
Now apply that reasoning to the following example:
-
The
color
property in the expression on the right belongs to the template's component. The template and its component trust each other. Thecolor
property doesn't require the@Input
decorator. -
The
appHighlight
property on the left refers to an aliased property of theHighlightDirective
, not a property of the template's component. There are trust issues. Therefore, the directive property must carry the@Input
decorator.