11 KiB
@title Component Styles
@intro Learn how to apply CSS styles to components.
@description Angular applications are styled with regular CSS. That means we can apply everything we know about CSS stylesheets, selectors, rules, and media queries to our Angular applications directly.
On top of this, Angular has the ability to bundle component styles with our components enabling a more modular design than regular stylesheets.
In this chapter we learn how to load and apply these component styles.
Table Of Contents
- Using Component Styles
- Special selectors
- Loading Styles into Components
- Controlling View Encapsulation: Emulated, Native, and None
- Appendix 1: Inspecting the generated runtime component styles
- Appendix 2: Loading Styles with Relative URLs
Run the of the code shown in this chapter.
Using Component Styles
For every Angular component we write, we may define not only an HTML template, but also the CSS styles that go with that template, specifying any selectors, rules, and media queries that we need.
One way to do this is to set the styles
property in the component metadata.
The styles
property takes #{_an} #{_array} of strings that contain CSS code.
Usually we give it one string as in this example:
{@example 'component-styles/ts/src/app/hero-app.component.ts'}
Component styles differ from traditional, global styles in a couple of ways.
Firstly, the selectors we put into a component's styles only apply within the template
of that component. The h1
selector in the example above only applies to the <h1>
tag
in the template of HeroAppComponent
. Any <h1>
elements elsewhere in
the application are unaffected.
This is a big improvement in modularity compared to how CSS traditionally works:
-
We can use the CSS class names and selectors that make the most sense in the context of each component.
-
Class names and selectors are local to the component and won't collide with classes and selectors used elsewhere in the application.
-
Our component's styles cannot be changed by changes to styles elsewhere in the application.
-
We can co-locate the CSS code of each component with the TypeScript and HTML code of the component, which leads to a neat and tidy project structure.
-
We can change or remove component CSS code in the future without trawling through the whole application to see where else it may have been used. We just look at the component we're in.
{@a special-selectors}
Special selectors
Component styles have a few special selectors from the world of shadow DOM style scoping:
:host
Use the :host
pseudo-class selector to target styles in the element that hosts the component (as opposed to
targeting elements inside the component's template):
{@example 'component-styles/ts/src/app/hero-details.component.css' region='host'}
This is the only way we can target the host element. We cannot reach it from inside the component with other selectors, because it is not part of the component's own template. It is in a parent component's template.
Use the function form to apply host styles conditionally by
including another selector inside parentheses after :host
.
In the next example we target the host element again, but only when it also has the active
CSS class.
{@example 'component-styles/ts/src/app/hero-details.component.css' region='hostfunction'}
:host-context
Sometimes it is useful to apply styles based on some condition outside a component's view.
For example, there may be a CSS theme class applied to the document <body>
element, and
we want to change how our component looks based on that.
Use the :host-context()
pseudo-class selector. It works just like the function
form of :host()
. It looks for a CSS class in any ancestor of the component host element, all the way
up to the document root. It's useful when combined with another selector.
In the following example, we apply a background-color
style to all <h2>
elements inside the component, only
if some ancestor element has the CSS class theme-light
.
{@example 'component-styles/ts/src/app/hero-details.component.css' region='hostcontext'}
/deep/
Component styles normally apply only to the HTML in the component's own template.
We can use the /deep/
selector to force a style down through the child component tree into all the child component views.
The /deep/
selector works to any depth of nested components, and it applies both to the view
children and the content children of the component.
In this example, we target all <h3>
elements, from the host element down
through this component to all of its child elements in the DOM:
{@example 'component-styles/ts/src/app/hero-details.component.css' region='deep'}
The /deep/
selector also has the alias >>>
. We can use either of the two interchangeably.
The `/deep/` and `>>>` selectors should only be used with **emulated** view encapsulation.
This is the default and it is what we use most of the time. See the
[Controlling View Encapsulation](#view-encapsulation)
section for more details.
{@a loading-styles}
Loading Styles into Components
We have several ways to add styles to a component:
- inline in the template HTML
- by setting
styles
orstyleUrls
metadata - with CSS imports
The scoping rules outlined above apply to each of these loading patterns.
Styles in Metadata
We can add a styles
#{_array} property to the @Component
#{_decorator}.
Each string in the #{_array} (usually just one string) defines the CSS.
{@example 'component-styles/ts/src/app/hero-app.component.ts'}
Template Inline Styles
We can embed styles directly into the HTML template by putting them
inside <style>
tags.
{@example 'component-styles/ts/src/app/hero-controls.component.ts' region='inlinestyles'}
Style URLs in Metadata
We can load styles from external CSS files by adding a styleUrls
attribute
into a component's @Component
#{_decorator}:
{@example 'component-styles/ts/src/app/hero-details.component.ts' region='styleurls'}
Template Link Tags
We can also embed <link>
tags into the component's HTML template.
As with styleUrls
, the link tag's href
URL is relative to the
application root, not relative to the component file.
{@example 'component-styles/ts/src/app/hero-team.component.ts' region='stylelink'}
CSS @imports
We can also import CSS files into our CSS files by using the standard CSS
@import
rule.
{@example 'component-styles/ts/src/app/hero-details.component.css' region='import'}
{@a view-encapsulation}
Controlling View Encapsulation: Native, Emulated, and None
As discussed above, component CSS styles are encapsulated into the component's own view and do not affect the rest of the application.
We can control how this encapsulation happens on a per component basis by setting the view encapsulation mode in the component metadata. There are three modes to choose from:
-
Native
view encapsulation uses the browser's native Shadow DOM implementation to attach a Shadow DOM to the component's host element, and then puts the component view inside that Shadow DOM. The component's styles are included within the Shadow DOM. -
Emulated
view encapsulation (the default) emulates the behavior of Shadow DOM by preprocessing (and renaming) the CSS code to effectively scope the CSS to the component's view. See Appendix 1 for details. -
None
means that Angular does no view encapsulation. Angular adds the CSS to the global styles. The scoping rules, isolations, and protections discussed earlier do not apply. This is essentially the same as pasting the component's styles into the HTML.
Set the components encapsulation mode using the encapsulation
property in the component metadata:
{@example 'component-styles/ts/src/app/quest-summary.component.ts' region='encapsulation.native'}
Native
view encapsulation only works on browsers that have native support
for Shadow DOM. The support is still limited,
which is why Emulated
view encapsulation is the default mode and recommended
in most cases.
{@a inspect-generated-css}
Appendix 1: Inspecting The CSS Generated in Emulated View Encapsulation
When using the default emulated view encapsulation, Angular preprocesses all component styles so that they approximate the standard Shadow CSS scoping rules.
When we inspect the DOM of a running Angular application with emulated view encapsulation enabled, we see that each DOM element has some extra attributes attached to it:
<hero-details _nghost-pmm-5> <h2 _ngcontent-pmm-5>Mister Fantastic</h2> <hero-team _ngcontent-pmm-5 _nghost-pmm-6> <h3 _ngcontent-pmm-6>Team</h3> </hero-team> </hero-detail>We see two kinds of generated attributes:
-
An element that would be a Shadow DOM host in native encapsulation has a generated
_nghost
attribute. This is typically the case for component host elements. -
An element within a component's view has a
_ngcontent
attribute that identifies to which host's emulated Shadow DOM this element belongs.
The exact values of these attributes are not important. They are automatically
generated and we never refer to them in application code. But they are targeted
by the generated component styles, which we'll find in the <head>
section of the DOM:
h3[_ngcontent-pmm-6] {
background-color: white;
border: 1px solid #777;
}
These are the styles we wrote, post-processed so that each selector is augmented
with _nghost
or _ngcontent
attribute selectors.
These extra selectors enable the scoping rules described in this guide.
We'll likely live with emulated mode until shadow DOM gains traction.
{@a relative-urls}
Appendix 2: Loading Styles with Relative URLs
It's common practice to split a component's code, HTML, and CSS into three separate files in the same directory:
quest-summary.component.ts
quest-summary.component.html
quest-summary.component.css
We include the template and CSS files by setting the templateUrl
and styleUrls
metadata properties respectively.
Because these files are co-located with the component,
it would be nice to refer to them by name without also having to specify a path back to the root of the application.