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Version: v4.16

Styling Components

Shadow DOM​

What is the Shadow DOM?​

The shadow DOM is an API built into the browser that allows for DOM encapsulation and style encapsulation. It is a core aspect of the Web Component standards. The shadow DOM shields a component’s styles, markup, and behavior from its surrounding environment. This means that we do not need to be concerned about scoping our CSS to our component, nor worry about a component’s internal DOM being interfered with by anything outside the component.

When talking about the shadow DOM, we use the term "light DOM" to refer to the “regular” DOM. The light DOM encompasses any part of the DOM that does not use the shadow DOM.

Shadow DOM in Rindo​

The shadow DOM hides and separates the DOM of a component in order to prevent clashing styles or unwanted side effects. We can use the shadow DOM in our Rindo components to ensure our components won’t be affected by the applications in which they are used.

To use the Shadow DOM in a Rindo component, you can set the shadow option to true in the component decorator.

@Component({
tag: 'shadow-component',
styleUrl: 'shadow-component.css',
shadow: true,
})
export class ShadowComponent {}

If you'd like to learn more about enabling and configuring the shadow DOM, see the shadow field of the component api.

By default, components created with the rindo generate command use the shadow DOM.

Styling with the Shadow DOM​

With the shadow DOM enabled, elements within the shadow root are scoped, and styles outside of the component do not apply. As a result, CSS selectors inside the component can be simplified, as they will only apply to elements within the component. We do not have to include any specific selectors to scope styles to the component.

:host {
color: black;
}

div {
background: blue;
}
note

The :host pseudo-class selector is used to select the Host element of the component

With the shadow DOM enabled, only these styles will be applied to the component. Even if a style in the light DOM uses a selector that matches an element in the component, those styles will not be applied.

Shadow DOM QuerySelector​

When using Shadow DOM and you want to query an element inside your web component, you must first use the @Element decorator to gain access to the host element, and then you can use the shadowRoot property to perform the query. This is because all of your DOM inside your web component is in a shadowRoot that Shadow DOM creates. For example:

import { Component, Element } from '@rindo/core';

@Component({
tag: 'shadow-component',
styleUrl: 'shadow-component.css',
shadow: true
})
export class ShadowComponent {

@Element() el: HTMLElement;

componentDidLoad() {
const elementInShadowDom = this.el.shadowRoot.querySelector('.a-class-selector');

...
}

}

Shadow DOM Browser Support​

The shadow DOM is currently natively supported in the following browsers:

  • Chrome
  • Firefox
  • Safari
  • Edge (v79+)
  • Opera

In browsers which do not support the shadow DOM we fall back to scoped CSS. This gives you the style encapsulation that comes along with the shadow DOM but without loading in a huge shadow DOM polyfill.

Scoped CSS​

An alternative to using the shadow DOM is using scoped components. You can use scoped components by setting the scoped option to true in the component decorator.

@Component({
tag: 'scoped-component',
styleUrl: 'scoped-component.css',
scoped: true,
})
export class ScopedComponent {}

Scoped CSS is a proxy for style encapsulation. It works by appending a data attribute to your styles to make them unique and thereby scope them to your component. It does not, however, prevent styles from the light DOM from seeping into your component.

CSS Custom Properties​

CSS custom properties, also often referred to as CSS variables, are used to contain values that can then be used in multiple CSS declarations. For example, we can create a custom property called --color-primary and assign it a value of blue.

:host {
--color-primary: blue;
}

And then we can use that custom property to style different parts of our component

h1 {
color: var(--color-primary);
}

Customizing Components with Custom Properties​

CSS custom properties can allow the consumers of a component to customize a component’s styles from the light DOM. Consider a shadow-card component that uses a custom property for the color of the card heading.

:host {
--heading-color: black;
}

.heading {
color: var(--heading-color);
}
note

CSS custom properties must be declared on the Host element (:host) in order for them to be exposed to the consuming application.

The shadow-card heading will have a default color of black, but this can now be changed in the light DOM by selecting the shadow-card and changing the value of the --heading-color custom property.

shadow-card {
--heading-color: blue;
}

CSS Parts​

CSS custom properties can be helpful for customizing components from the light DOM, but they are still a little limiting as they only allow a user to modify specific properties. For situations where users require a higher degree of flexibility, we recommend using the CSS ::part() pseudo-element. You can define parts on elements of your component with the “part” attribute.

@Component({
tag: 'shadow-card',
styleUrl: 'shadow-card.css',
shadow: true,
})
export class ShadowCard {
@Prop() heading: string;

render() {
return (
<Host>
<h1 part="heading">{this.heading}</h1>
<slot></slot>
</Host>
);
}
}

Then you can use the ::part() pseudo-class on the host element to give any styles you want to the element with the corresponding part.

shadow-card::part(heading) {
text-transform: uppercase;
}

This allows for greater flexibility in styling as any styles can now be added to this element.

Exportparts​

If you have a Rindo component nested within another component, any part specified on elements of the child component will not be exposed through the parent component. In order to expose the parts of the child component, you need to use the exportparts attribute. Consider this OuterComponent which contains the InnerComponent.

@Component({
tag: 'outer-component',
styleUrl: 'outer-component.css',
shadow: true,
})
export class OuterComponent {
render() {
return (
<Host>
<h1>Outer Component</h1>
<inner-component exportparts="inner-text" />
</Host>
);
}
}

@Component({
tag: 'inner-component',
styleUrl: 'inner-component.css',
shadow: true,
})
export class InnerComponent {
render() {
return (
<Host>
<h1 part="inner-text">Inner Component</h1>
</Host>
);
}
}

By specifying "inner-text" as the value of the exportparts attribute, elements of the InnerComponent with a part of "inner-text" can now be styled in the light DOM. Even though the InnerComponent is not used directly, we can style its parts through the OuterComponent.

<style>
outer-component::part(inner-text) {
color: blue;
}
</style>

<outer-component />

Style Modes​

Component Style Modes enable you to create versatile designs for your components by utilizing different styling configurations. This is achieved by assigning the styleUrls property of a component to a collection of style mode names, each linked to their respective CSS files.

Example: Styling a Button Component​

Consider a basic button component that supports both iOS and Material Design aesthetics:

Using style modes to style a component
@Component({
tag: 'simple-button',
styleUrls: {
md: './simple-button.md.css', // styles for Material Design
ios: './simple-button.ios.css', // styles for iOS
},
})
export class SimpleButton {
// ...
}

In the example above, two different modes are declared. One mode is named md (for 'Material Design') and refers back to a Material Design-specific stylesheet. Likewise, the other is named ios (for iOS) and references a different stylesheet for iOS-like styling. Both stylesheets are relative paths to the file that declares the component. While we have chosen short names in the above example, there's no limitation to the keys used in the styleUrls object.

To dictate the style mode (Material Design or iOS) in which the button should be rendered, you must initialize the desired mode before any component rendering occurs. This can be done as follows:

import { setMode } from '@rindo/core';
setMode(() => 'ios'); // Setting iOS as the default mode for all components

The setMode function processes all elements, enabling the assignment of modes individually based on specific element attributes. For instance, by assigning the mode attribute to a component:

<simple-button mode="ios"></simple-button>

You can conditionally set the style mode based on the mode property:

import { setMode } from '@rindo/core';

const defaultMode = 'md'; // Default to Material Design
setMode((el) => el.getAttribute('mode') || defaultMode);

The reason for deciding which mode to apply can be very arbitrary and based on your requirements, using an element property called mode is just one example.

Important Considerations​

  • Initialization: Style modes must be defined at the start of the component lifecycle and cannot be changed thereafter. If you like to change the components mode dynamically you will have to re-render it entirely.
  • Usage Requirement: A style mode must be set to ensure the component loads with styles. Without specifying a style mode, the component will not apply any styles.
  • Input Validation: Verify a style mode is supported by a component you are setting it for. Setting an un-supported style mode keeps the component unstyled.
  • Querying Style Mode: To check the current style mode and e.g. provide different functionality based on the mode, use the getMode function:
import { getMode } from '@rindo/core';

const simpleButton = document.queryElement('simple-button');
console.log(getMode(simpleButton)); // Outputs the current style mode of component

This approach ensures your components are adaptable and can dynamically switch between different styles, enhancing the user experience across various platforms and design preferences.

Global styles​

While most styles are usually scoped to each component, sometimes it's useful to have styles that are available to all the components in your project. To create styles that are globally available, start by creating a global stylesheet. For example, you can create a folder in your src directory called global and create a file called global.css within that. Most commonly, this file is used to declare CSS custom properties on the root element via the :root pseudo-class. This is because styles provided via the :root pseudo-class can pass through the shadow boundary. For example, you can define a primary color that all your components can use.

:root {
--color-primary: blue;
}

In addition to CSS custom properties, other use cases for a global stylesheet include

  • Theming: defining CSS variables used across the app
  • Load fonts with @font-face
  • App wide font-family
  • CSS resets

To make the global styles available to all the components in your project, the rindo.config.ts file comes with an optional globalStyle setting that accepts the path to your global stylesheet.

export const config: Config = {
namespace: 'app',
globalStyle: 'src/global/global.css',
outputTarget: [
{
type: 'www',
},
],
};

The compiler will run the same minification, autoprefixing, and plugins over global.css and generate an output file for the www and dist output targets. The generated file will always have the .css extension and be named as the specified namespace.

In the example above, since the namespace is app, the generated global styles file will be located at: ./www/build/app.css.

This file must be manually imported in the index.html of your application.

<link rel="stylesheet" href="/build/app.css" />