In conventional applications, CSS rules are duplicated throughout the stylesheet and that just means wasted bytes. Instead, SX generates atomic stylesheet every time so that each rule is defined only once. Each rule has its own CSS class and components can pick up multiple classes to get the same effect as with traditional stylesheets. New JS code doesn't need to mean new CSS (size of CSS grows logarithmically).
First, install the package from NPM:
yarn add @adeira/sx
It's highly recommended (but optional) to use related eslint-plugin-sx as well:
yarn add --dev eslint-plugin-sx
Create a stylesheet and use it to generate className
props for React:
import sx from '@adeira/sx';
export default function Example() {
// className={styles('example')}
// ↓ ↓ ↓
// class="_1DKsqE v2kHO stDQH"
return <div className={styles('example')}>example</div>;
}
const styles = sx.create({
example: {
fontSize: 32, // converted to PX units
textDecoration: 'none',
backgroundColor: 'var(--main-bg-color)', // CSS variables are supported as well
},
});
That's it. The example above will generate atomic CSS like this:
._1DKsqE {
font-size: 32px;
}
.v2kHO {
text-decoration: none;
}
.stDQH {
background-color: var(--main-bg-color);
}
It's highly recommended enabling server-side rendered styles for production use (see below).
SX itself is just a core of the atomic CSS for JS. There are other projects helping with writing the SX code or building on top of it (sorted alphabetically):
- SX Design - inclusive design system based on SX
- SX Eslint - Eslint rules for SX
- SX Jest Snapshot Serializer - Jest serializer for SX (WIP 🚧)
Missing something? Let us know!
The final style depends on the order of styles
arguments rather than the style definitions as it's usual in plain CSS:
export function ColorfulComponent() {
return (
<>
<div className={styles('red', 'blue')}>I am BLUE</div>
<div className={styles('blue', 'red')}>I am RED</div>
</>
);
}
const styles = sx.create({
red: { color: 'red' },
blue: { color: 'blue' },
});
This makes it very predictable and easy to use. Always call className={styles('red', 'blue')}
instead of className={`${styles('red')} ${styles('blue')}`}
! This is very important because the first call guarantees to resolve the CSS precedence correctly as opposed to the second call which does not and might behave unpredictably.
It works similarly for shorthand CSS properties (however, try to avoid them - see below):
export function ButtonsComponent() {
return (
<>
<button className={styles('button', 'primary')}>WITH margin top 10px</button>
<button className={styles('primary', 'button')}>WITHOUT margin top</button>
</>
);
}
const styles = sx.create({
primary: { marginTop: '10px' },
button: { margin: 0 },
});
It's better to avoid shorthand CSS properties in SX because it yields larger output. Using explicit properties like background-color
, margin-top
and similar will result in a smaller output since we can leverage browser defaults better. It's because all shorthand properties need to be expanded into their initial values (which is normally job of a web browser). Without expanding them, we could not resolve cases like this one:
const styles = sx.create({
bgBlue: { background: 'blue' },
bgNone: { background: 'none' },
});
<div className={styles('bgBlue', 'bgNone')}>I am blue or without background?</div>;
The div
should not have a color. We achieve this effect by expanding the background
property and merging it together with the other `background shorthand. The resulting style would be:
background-image: none
background-position: 0% 0%
background-size: auto auto
background-repeat: repeat
background-origin: padding-box
background-clip: border-box
background-attachment: scroll
background-color: transparent
Changing the styles order would result in a blue div
(this is different from how CSS normally works but it's more obvious in CSS-in-JS context):
<div className={styles('bgNone', 'bgBlue')}>I am BLUE!</div>
export function LinkComponent() {
return <a className={styles('link')}>link</a>;
}
const styles = sx.create({
link: {
'textDecoration': 'none',
':hover': {
textDecoration: 'underline',
},
'::after': {
content: '"∞"',
},
},
});
Note that if you want to add some styling of the same property with different pseudo classes, there might be some specificity issues. Say you want to do this:
const styles = sx.create({
button: {
':hover': {
color: 'pink',
},
':active': {
color: 'blue',
},
},
});
These 2 rules will have the same specificity, and the one defined last in the stylesheet will win. It may or may not help to change order in this style, because the class could be created by a different rule. What will help is to raise the specificity of the active class. You can do this:
const styles = sx.create({
button: {
':hover': {
color: 'pink',
},
':active:hover': {
color: 'blue',
},
},
});
The :active:hover
now has higher specificity than :hover
and the result will be what you expected.
export function MediaComponent() {
return <a className={styles('text')}>text</a>;
}
const styles = sx.create({
text: {
'fontSize': 16,
'@media print': {
fontSize: 12,
},
'@media screen': {
'fontSize': 14,
':hover': {
color: 'pink',
},
},
},
});
Media queries can also be nested (see: https://www.w3.org/TR/css3-conditional/#processing):
const styles = sx.create({
text: {
'@media print': {
'color': 'red',
'@media (max-width: 12cm)': {
color: 'blue',
},
},
},
});
The same rules apply to @supports
at rule (including infinite nesting):
const styles = sx.create({
text: {
'@supports (display: grid)': {
display: 'grid',
},
'@supports not (display: grid)': {
float: 'right',
},
},
});
SX also has support for keyframes, it exports a function that generates an animation name from the input you give it. You can use it like this:
export function AnimatedComponent() {
return <div className={styles('text')}>text</div>;
}
const fadeIn = sx.keyframes({
'0%': { opacity: 0 },
'50%, 55%': { opacity: 0.3 },
'100%': { opacity: 1 },
});
const styles = sx.create({
text: {
// See: https://developer.mozilla.org/en-US/docs/Web/CSS/animation
animationName: fadeIn,
animationDuration: '2s',
animationFillMode: 'none',
animationTimingFunction: 'ease',
},
});
It also supports from
and to
for simpler animations.
const simple = sx.keyframes({
from: { opacity: 0 },
to: { opacity: 1 },
});
SX supports composability with external styles. Have a look at this base component example (uses Flow types):
import sx, { type AllCSSProperties } from '@adeira/sx';
type Props = {
+xstyle?: AllCSSProperties,
};
const styles = sx.create({ default: { fontSize: 16 } });
function MyBaseComponent(props: Props) {
return <div className={sx(styles.default, props.xstyle)} />;
}
Now, let's say we are building a design library and we want to affect the base styles externally. Here is how would our customized (wrapper) component look like:
const styles = sx.create({ spacing: { marginTop: 4 } });
function MyCustomComponent() {
return <MyBaseComponent xstyle={styles.spacing} />;
}
Always prefer this style of customization instead of concatenating or prop-drilling external CSS classes in your components. You can merge as many stylesheets as you want with sx(…)
function.
Sometimes it's necessary to apply styles conditionally. For example, changing button styles when the button should be disabled. Or different styles for active links in your menu. There are 2 way how to do it in SX:
- inline conditions
const styles = sx.create({
button: { margin: 4 },
disabled: { opacity: 0.5 },
});
function MyConditionalComponent({ isDisabled }) {
return (
<>
<button style={styles('button', isDisabled && 'disabled')} />
<button style={styles('button', isDisabled ? 'disabled' : null)} />
</>
);
}
- object conditions
// same styles as above
function MyConditionalComponent({ isDisabled }) {
return <button style={styles({ button: true, disabled: isDisabled })} />;
}
Both styles are equivalent, and it's up to you which one do you choose (they cannot be combined). The resulting style would be margin
+ conditional opacity
.
SX knows about almost every property or rule which exists in CSS and tries to help with mistakes when writing the styles.
export function FlowComponent() {
return <div className={styles('aaa')} />;
}
const styles = sx.create({
aaa: {
zIndex: '10', // Flow error: should be number (or 'auto') instead
alignContent: 'unknown', // Flow error: value `unknown` is not alowed for CSS `align-content`
},
});
Sometimes it's hard or even impossible to have sound types for some CSS properties/values though. In such case, we choose the unsound strategy. Typical example of such unsoundness is when it comes to complex media queries or CSS variables - they cannot be statically analyzed. These situations are usually complemented with runtime checks and/or Eslint rules.
Vendor prefixes are automatically added whenever needed.
const styles = sx.create({
title: {
backgroundClip: 'text',
},
});
The example above will generate CSS like this:
._2D4soO {
-webkit-background-clip: text;
background-clip: text;
}
This is an optional part and @adeira/sx
will work even without it. However, it's highly recommended.
Example for Next.js with custom document:
import sx from '@adeira/sx';
import Document from 'next/document';
export default class MyDocument extends Document {
static async getInitialProps({ renderPage }) {
const page = await renderPage();
return { ...page, styles: [sx.getStyleTag()] };
}
// `render` is not needed to change
}
This simple code should create a style
tag in your HTML header with all the CSS styles generated by SX.
First, @adeira/sx
takes all your CSS-in-JS definitions, normalizes it and then fills style buffer and hash registry.
+-------------+ style normalization +-----------------+
| CSS-in-JS | --------+-------------> | Style buffer | ---> CSS output
| styles | | +-----------------+
+-------------+ |
| +-----------------+
\-------------> | Hash registry | ---> HTML classes
+-----------------+
Style buffer contains all the style information which is eventually being printed as an atomic CSS. Hash registry contains all the hashed styles (essentially CSS classes) and prints them into your HTML output.
Internally, these steps are happening:
-
sx.create
gets stylesheet definition:{ "blue": { "color": "blue" }, "default": { "color": "red", "fontSize": 32 } }
-
it generates atomic CSS from it (this is where style buffer and hash registry starts acting)
.c0 { color: blue; } .c1 { color: red; } .c2 { font-size: 32px; }
-
we transform the original stylesheet using these new atomic classes:
{ "blue": { "color": "c0" }, "default": { "color": "c1", "fontSize": "c2" } }
-
now, we reduce the styles to solve specificity issues, there are two example cases:
-
styles('default', 'blue')
resolves like so:{ "color": "c0", "fontSize": "c2" }
-
styles('blue', 'default')
resolves to (notice the change in color, overwritten by default - different from how CSS behaves):{ "color": "c1", "fontSize": "c2" }
-
-
and finally, we collect the values of the final object and print them as
className
sorted alphabetically
- https://github.com/4Catalyzer/astroturf
- https://github.com/cssinjs/jss
- https://github.com/johanholmerin/style9
- https://github.com/Khan/aphrodite
- https://github.com/necolas/react-native-web
- https://github.com/styled-components/styled-components
- https://reactnative.dev/docs/stylesheet
- https://sebastienlorber.com/atomic-css-in-js
- https://twitter.com/wongmjane/status/1187411809667436550
- https://youtu.be/9JZHodNR184