Pigment CSS is a zero-runtime CSS-in-JS library that extracts the colocated styles to their own CSS files at build time.
- Getting started
- Basic usage
- sx prop
- Theming
- Right-to-left support
- How-to guides
- How Pigment CSS works
Pigment CSS supports Next.js and Vite with support for more bundlers in the future. You must install the corresponding plugin, as shown below.
Thanks to recent advancements in CSS (like CSS variables and color-mix()
), "traditional" CSS-in-JS solutions that process styles at runtime are no longer required for unlocking features like color transformations and theme variables which are necessary for maintaining a sophisticated design system.
Pigment CSS addresses the needs of the modern React developer by providing a zero-runtime CSS-in-JS styling solution as a successor to tools like Emotion and styled-components.
Compared to its predecessors, Pigment CSS offers improved DX and runtime performance (though at the cost of increased build time) while also being compatible with React Server Components. Pigment CSS is built on top of WyW-in-JS, enabling to provide the smoothest possible experience for Material UI users when migrating from Emotion in v5 to Pigment CSS in v6.
Use the following commands to quickly create a new Next.js project with Pigment CSS set up:
curl https://codeload.github.com/mui/pigment-css/tar.gz/master | tar -xz --strip=2 pigment-css-master/examples/pigment-css-nextjs-ts
cd pigment-css-nextjs-ts
npm install @pigment-css/react
npm install --save-dev @pigment-css/nextjs-plugin
Then, in your next.config.js
file, import the plugin and wrap the exported config object:
import { withPigment } from '@pigment-css/nextjs-plugin';
export default withPigment({
// ... Your nextjs config.
});
Finally, import the stylesheet in the root layout.tsx
file:
import type { Metadata } from 'next';
+import '@pigment-css/react/styles.css';
export const metadata: Metadata = {
title: 'Create Next App',
description: 'Generated by create next app',
};
export default function RootLayout(props: { children: React.ReactNode }) {
return (
<html lang="en">
<body>{props.children}</body>
</html>
);
}
Use the following commands to quickly create a new Vite project with Pigment CSS set up:
curl https://codeload.github.com/mui/pigment-css/tar.gz/master | tar -xz --strip=2 pigment-css/examples/pigment-css-vite-ts
cd pigment-css-vite-ts
npm install @pigment-css/react@next
npm install --save-dev @pigment-css/vite-plugin@next
Then, in your Vite config file, import the plugin and pass it to the plugins
array as shown:
import { pigment } from '@pigment-css/vite-plugin';
export default defineConfig({
plugins: [
pigment(),
// ... Your other plugins.
],
});
Finally, import the stylesheet in the root main.tsx
file:
import * as React from 'react';
import { createRoot } from 'react-dom/client';
+import '@pigment-css/react/styles.css';
import App from './App';
const rootElement = document.getElementById('root');
const root = createRoot(rootElement);
root.render(
<React.StrictMode>
<App />
</React.StrictMode>,
);
You must configure Pigment CSS with Next.js or Vite first.
Use the css
API to create reusable styles:
import { css } from '@pigment-css/react';
const visuallyHidden = css({
border: 0,
clip: 'rect(0 0 0 0)',
height: '1px',
margin: -1,
overflow: 'hidden',
padding: 0,
position: 'absolute',
whiteSpace: 'nowrap',
width: '1px',
});
function App() {
return <div className={visuallyHidden}>I am invisible</div>;
}
The call to the css
function is replaced with a unique string that represents the CSS class name for the generated styles.
Use a callback function to get access to the theme values:
const title = css(({ theme }) => ({
color: theme.colors.primary,
fontSize: theme.spacing.unit * 4,
fontFamily: theme.typography.fontFamily,
}));
Use the styled
API to create a component by passing styles at the end. The usage should be familiar if you've worked with Emotion or styled-components:
import { styled } from '@pigment-css/react';
const Heading = styled('div')({
fontSize: '4rem',
fontWeight: 'bold',
padding: '10px 0px',
});
function App() {
return <Heading>Hello</Heading>;
}
Pigment CSS differs from "standard" runtime CSS-in-JS libraries in a few ways:
- You never get direct access to props in your styled declarations. This is because prop values are only available at runtime, but the CSS is extracted at build time. See Styling based on runtime values for a workaround.
- Your styles must be declarative and must account for all combinations of props that you want to style.
- The theme lets you declare CSS tokens that become part of the CSS bundle after the build. Any other values and methods that it might have are only available during build time—not at runtime. This leads to smaller bundle sizes.
đź’ˇ This approach is recommended when the value of the prop is known at build time (finite values).
Use the variants
key to define styles for a combination of the component's props.
Each variant is an object with props
and style
keys. The styles are applied when the component's props match the props
object.
Example 1 — A button component with small
and large
sizes:
interface ButtonProps {
size?: 'small' | 'large';
}
const Button = styled('button')<ButtonProps>({
border: 'none',
padding: '0.75rem',
// ...other styles
variants: [
{
props: { size: 'large' },
style: { padding: '1rem' },
},
{
props: { size: 'small' },
style: { padding: '0.5rem' },
},
],
});
<Button>Normal button</Button>; // padding: 0.75rem
<Button size="large">Large button</Button>; // padding: 1rem
<Button size="small">Small button</Button>; // padding: 0.5rem
Example 2 — A button component with variants and colors:
const Button = styled('button')({
border: 'none',
padding: '0.75rem',
// ...other base styles
variants: [
{
props: { variant: 'contained', color: 'primary' },
style: { backgroundColor: 'tomato', color: 'white' },
},
],
});
// `backgroundColor: 'tomato', color: 'white'`
<Button variant="contained" color="primary">
Submit
</Button>;
Example 3 — Apply styles based on a condition:
The value of the props
can be a function that returns a boolean. If the function returns true
, the styles are applied.
const Button = styled('button')({
border: 'none',
padding: '0.75rem',
// ...other base styles
variants: [
{
props: (props) => props.variant !== 'contained',
style: { backgroundColor: 'transparent' },
},
],
});
Note that the props
function doesn't work if it is inside another closure, for example, inside an array.map
:
const Button = styled('button')({
border: 'none',
padding: '0.75rem',
// ...other base styles
variants: ['red', 'blue', 'green'].map((item) => ({
props: (props) => {
// ❌ Cannot access `item` in this closure
return props.color === item && !props.disabled;
},
style: { backgroundColor: 'tomato' },
})),
});
Instead, use plain objects to define the variants:
const Button = styled('button')({
border: 'none',
padding: '0.75rem',
// ...other base styles
variants: ['red', 'blue', 'green'].map((item) => ({
props: { color: item, disabled: false },
style: { backgroundColor: 'tomato' },
})),
});
đź’ˇ This approach is recommended when the value of a prop is unknown ahead of time or possibly unlimited values, for example styling based on the user's input.
There are two ways to achieve this (both involve using a CSS variable):
- Declare a CSS variable directly in the styles and set its value using inline styles:
const Heading = styled('h1')({
color: 'var(--color)',
});
function Heading() {
const [color, setColor] = React.useState('red');
return <Heading style={{ '--color': color }} />;
}
- Use a callback function as a value to create a dynamic style for the specific CSS property:
const Heading = styled('h1')({
color: ({ isError }) => (isError ? 'red' : 'black'),
});
Pigment CSS replaces the callback with a CSS variable and injects the value through inline styles. This makes it possible to create a static CSS file while still allowing dynamic styles.
.Heading_class_akjsdfb {
color: var(--Heading_class_akjsdfb-0);
}
<h1
style={{
'--Heading_class_akjsdfb-0': isError ? 'red' : 'black',
}}
>
Hello
</h1>
All of the components that you create are also available as CSS selectors. For example, for the Heading
component described in the previous section, you can target that component inside another styled component like this:
const Wrapper = styled.div({
[`& ${Heading}`]: {
color: 'blue',
},
});
This enables you to override the default color
of the Heading component rendered inside the Wrapper:
<Wrapper>
<Heading>Hello</Heading>
</Wrapper>
You can also export any styled component you create and use it as the base for additional components:
const ExtraHeading = styled(Heading)({
// ... overridden styled
});
Pigment CSS APIs have built-in support for writing media queries and container queries. Use the @media
and @container
keys to define styles for different screen and container sizes.
import { css, styled } from '@pigment-css/react';
const styles = css({
fontSize: '2rem',
'@media (min-width: 768px)': {
fontSize: '3rem',
},
'@container (max-width: 768px)': {
fontSize: '1.5rem',
},
});
const Heading = styled('h1')({
fontSize: '2rem',
'@media (min-width: 768px)': {
fontSize: '3rem',
},
'@container (max-width: 768px)': {
fontSize: '1.5rem',
},
});
đź’ˇ Good to know:
Pigment CSS uses Emotion behind the scenes for turning tagged templates and objects into CSS strings.
If you use TypeScript, add the props typing before the styles to get the type checking:
const Heading = styled('h1')<{ isError?: boolean }>({
color: ({ isError }) => (isError ? 'red' : 'black'),
});
Use the keyframes
API to create reusable animation keyframes:
import { keyframes } from '@pigment-css/react';
const fadeIn = keyframes`
from {
opacity: 0;
}
to {
opacity: 1;
}
`;
function Example1() {
return <div style={{ animation: `${fadeIn} 0.5s` }}>I am invisible</div>;
}
The call to the keyframes
function is replaced with a unique string that represents the CSS animation name. It can be used with css
or styled
too.
import { css, styled, keyframes } from '@pigment-css/react';
const fadeIn = keyframes(...);
const Example2 = styled('div')({
animation: `${fadeIn} 0.5s`,
});
function App() {
return (
<>
<Example1 />
<div
className={css`
animation: ${fadeIn} 0.5s;
`}
/>
</>
)
}
Use the globalCss
API to create global styles:
import { globalCss } from '@pigment-css/react';
globalCss`
body {
margin: 0;
padding: 0;
}
`;
The globalCss
function should to be called at the top level of your JavaScript file, usually from the entry point of the application.
Calling inside a function or a component will not work as expected. Also, the extraction of global styles will always take place regardless of conditional rendering.
Theming is an optional feature that lets you reuse the same values, such as colors, spacing, and typography, across your application. It is a plain object of any structure that you can define in your config file.
đź’ˇ Good to know:
The theme object is used at build time and does not exist in the final JavaScript bundle. This means that components created using Pigment CSS's
styled
can be used with React Server Components by default while still getting the benefits of theming.
For example, in Next.js, you can define a theme in the next.config.js
file like this:
import { withPigment } from '@pigment-css/nextjs-plugin';
export default withPigment(
{
// ...other nextConfig
},
{
theme: {
colors: {
primary: 'tomato',
secondary: 'cyan',
},
spacing: {
unit: 8,
},
typography: {
fontFamily: 'Inter, sans-serif',
},
// ...more keys and values, it's free style!
},
},
);
A callback can be used with styled() and css() APIs to access the theme values:
const Heading = styled('h1')(({ theme }) => ({
color: theme.colors.primary,
fontSize: theme.spacing.unit * 4,
fontFamily: theme.typography.fontFamily,
}));
Pigment CSS can generate CSS variables from the theme values when you wrap your theme with extendTheme
utility. For example, in a next.config.mjs
file:
import { withPigment, extendTheme } from '@pigment-css/nextjs-plugin';
export default withPigment(
{
// ...nextConfig
},
{
theme: extendTheme({
colors: {
primary: 'tomato',
secondary: 'cyan',
},
spacing: {
unit: 8,
},
typography: {
fontFamily: 'Inter, sans-serif',
},
}),
},
);
The extendTheme
utility goes through the theme and creates a vars
object which represents the tokens that refer to CSS variables.
const theme = extendTheme({
colors: {
primary: 'tomato',
secondary: 'cyan',
},
});
console.log(theme.colors.primary); // 'tomato'
console.log(theme.vars.colors.primary); // 'var(--colors-primary)'
You can add a prefix to the generated CSS variables by providing a cssVarPrefix
option to the extendTheme
utility:
extendTheme({
cssVarPrefix: 'pigment',
});
The generated CSS variables have the pigment
prefix:
:root {
--pigment-colors-background: #f9f9f9;
--pigment-colors-foreground: #121212;
}
Some tokens, especially color-related tokens, can have different values for different scenarios. For example in a daylight condition, the background color might be white, but in a dark condition, it might be black.
The extendTheme
utility lets you define a theme with a special colorSchemes
key:
extendTheme({
colorSchemes: {
light: {
colors: {
background: '#f9f9f9',
foreground: '#121212',
},
},
dark: {
colors: {
background: '#212121',
foreground: '#fff',
},
},
},
});
In the above example, light
(default) and dark
color schemes are defined. The structure of each color scheme must be a plain object with keys and values.
By default, when colorSchemes
is defined, Pigment CSS uses the prefers-color-scheme
media query to switch between color schemes based on the user's system settings.
However, if you want to control the color scheme based on application logic, for example, using a button to switch between light and dark mode, you can customize the behavior by providing a getSelector
function:
extendTheme({
colorSchemes: {
light: { ... },
dark: { ... },
},
+ getSelector: (colorScheme) => colorScheme ? `.theme-${colorScheme}` : ':root',
});
Note that you need to add the logic to a button by yourself. Here is an example of how to do it:
function App() {
return (
<button
onClick={() => {
document.documentElement.classList.toggle('theme-dark');
}}
>
Toggle color scheme
</button>
);
}
The extendTheme
utility attaches a function called applyStyles
to the theme object. It receives a color scheme as the first argument followed by a style object.
It returns a proper CSS selector based on the theme configuration.
const Heading = styled('h1')(({ theme }) => ({
color: theme.colors.primary,
fontSize: theme.spacing.unit * 4,
fontFamily: theme.typography.fontFamily,
...theme.applyStyles('dark', {
color: theme.colors.primaryLight,
}),
}));
To get the type checking for the theme, you need to augment the theme type:
// any file that is included in your tsconfig.json
import type { ExtendTheme } from '@pigment-css/react/theme';
declare module '@pigment-css/react/theme' {
interface ThemeTokens {
// the structure of your theme
}
interface ThemeArgs {
theme: ExtendTheme<{
colorScheme: 'light' | 'dark';
tokens: ThemeTokens;
}>;
}
}
A special sx
prop lets you apply styles directly to an element. When sx
prop is specified on an element, Pigment CSS will replace it with className
and style
props at build time.
The sx
prop works on any element, including HTML elements and 3rd-party custom components as long as it is JSX.
<div sx={{ display: 'flex', flexDirection: 'column' }}>
For a React component like the example below, it must pass the className
and style
props to the underlying DOM element, otherwise the styles won't be applied.
// /path/to/AnyComponent.js
const AnyComponent = (props) => {
return <div {...props} />;
};
// /path/to/App.js
<AnyComponent sx={{ fontSize: 12, color: 'red' }} />;
The value provided to sx
prop can be one of the following:
-
a plain style object (recommended for best performance)
-
a callback function that receives the theme object then return a plain style object:
<div sx={(theme) => ({ color: theme.colors.primary })} />
-
an array of plain style objects or callback functions. This is useful for applying conditional styles based on other variables:
<div sx={[ { color: 'red' }, selected && { fontWeight: 'bold' }, disabled ? (theme) => ({ opacity: theme.state.disabledOpacity }) : { opacity: 1 }, ]} />
To use sx
prop on HTML element, you need to augment the HTMLAttributes
interface. Add the following code to a file that is included in your tsconfig.json:
type Theme = {
// your theme type
};
declare global {
namespace React {
interface HTMLAttributes<T> {
sx?:
| React.CSSProperties
| ((theme: Theme) => React.CSSProperties)
| ReadonlyArray<React.CSSProperties | ((theme: Theme) => React.CSSProperties)>;
}
}
}
To support right-to-left (RTL) languages, add the dir="rtl"
attribute to your app's <html>
element or any other equivalent top level container. Then, update your bundler config as follows to generate styles for both directions:
import { withPigment } from '@pigment-css/nextjs-plugin';
// ...
export default withPigment(nextConfig, {
theme: yourCustomTheme,
// CSS output option
css: {
// Specify your default CSS authoring direction
defaultDirection: 'ltr',
// Generate CSS for the opposite of the `defaultDirection`
// This is set to `false` by default
generateForBothDir: true,
},
});
import { pigment } from '@pigment-css/vite-plugin';
export default defineConfig({
plugins: [
pigment({
theme: yourTheme,
css: {
// Specify your default CSS authoring direction
defaultDirection: 'ltr',
// Generate CSS for the opposite of the `defaultDirection`
// This is set to `false` by default
generateForBothDir: true,
},
}),
// ... other plugins.
],
});
For example, if you've specified defaultDirection: 'ltr'
and dir="rtl"
, and your authored CSS looks like this:
import { css } from '@pigment-css/react';
const className = css`
margin-left: 10px,
margin-right: 20px,
padding: '0 10px 20px 30px'
`;
Then the actual CSS output would be:
.cmip3v5 {
margin-left: 10px;
margin-right: 20px;
padding: 0 10px 20px 30px;
}
[dir='rtl'] .cmip3v5 {
margin-right: 10px;
margin-left: 20px;
padding: 0 30px 20px 10px;
}
The default selector in the output CSS is [dir=rtl]
or [dir=ltr]
. You can customize it by passing an optional getDirSelector
method to the css
property in your bundler config:
css: {
getDirSelector(dir: string) {
// return a custom selector you'd like to use
return `:dir(${dir})`;
},
},
Emotion and styled-components are runtime CSS-in-JS libraries. What you write in your styles is what you get in the final bundle, which means the styles can be as dynamic as you want with bundle size and performance overhead trade-offs.
On the other hand, Pigment CSS extracts CSS at build time and replaces the JavaScript code with hashed class names and some CSS variables. This means that it has to know all of the styles to be extracted ahead of time, so there are rules and limitations that you need to be aware of when using JavaScript callbacks or variables in Pigment CSS's APIs.
Here are some common patterns and how to achieve them with Pigment CSS:
- Fixed set of styles
In Emotion or styled-components, you can use props to create styles conditionally:
const Flex = styled('div')((props) => ({
display: 'flex',
...(props.vertical // ❌ Pigment CSS will throw an error
? {
flexDirection: 'column',
paddingBlock: '1rem',
}
: {
paddingInline: '1rem',
}),
}));
But in Pigment CSS, you need to define all of the styles ahead of time using the variants
key:
const Flex = styled('div')((props) => ({
display: 'flex',
variants: [
{
props: { vertical: true },
style: {
flexDirection: 'column',
paddingBlock: '1rem',
},
},
{
props: { vertical: false },
style: {
paddingInline: '1rem',
},
},
],
}));
đź’ˇ Keep in mind that the
variants
key is for fixed values of props, for example, a component's colors, sizes, and states.
- Programatically generated styles
For Emotion and styled-components, the styles are different on each render and instance because the styles are generated at runtime:
function randomBetween(min: number, max: number) {
return Math.floor(Math.random() * (max - min + 1) + min);
}
function generateBubbleVars() {
return `
--x: ${randomBetween(10, 90)}%;
--y: ${randomBetween(15, 85)}%;
`;
}
function App() {
return (
<div>
{[...Array(10)].map((_, index) => (
<div key={index} className={css`${generateBubbleVars()}`} />
))}
</div>
)
}
However, in Pigment CSS with the same code as above, all instances have the same styles and won't change between renders because the styles are extracted at build time.
To achieve the same result, you need to move the dynamic logic to props and pass the value to CSS variables instead:
function randomBetween(min: number, max: number) {
return Math.floor(Math.random() * (max - min + 1) + min);
}
const Bubble = styled('div')({
'--x': props => props.x,
'--y': props => props.y,
});
function App() {
return (
<div>
{[...Array(10)].map((_, index) => (
<Bubble key={index} x={`${randomBetween(10, 90)}%`} y={`${randomBetween(15, 85)}%`} />
))}
</div>
)
}
The purpose of this guide is to demonstrate how to create reusable components for a UI library that can be shared across multiple projects and used to implement different design systems through custom theming. The approach outlined here is not necessary when constructing components to be consumed and themed in a single project. It's most relevant for developers who want to build a component library that could be published as a package to be consumed and themed by other developers.
The steps below will walk you through how to create a statistics component that could serve as part of a reusable UI library built with Pigment CSS. This process has three parts:
Slots let the consumers customize each individual element of the component by targeting its respective name in the theme's styleOverrides.
This statistics component is composed of three slots:
root
: the container of the componentvalue
: the number to be displayedunit
: the unit or description of the value
đź’ˇ Though you can give these slots any names you prefer, we recommend using
root
for the outermost container element for consistency with the rest of the library.
Use the styled
API with name
and slot
parameters to create the slots, as shown below:
// /path/to/Stat.js
import * as React from 'react';
import { styled } from '@pigment-css/react';
const StatRoot = styled('div', {
name: 'PigmentStat', // The component name
slot: 'root', // The slot name
})({
display: 'flex',
flexDirection: 'column',
gap: '1rem',
padding: '0.75rem 1rem',
backgroundColor: '#f9f9f9',
borderRadius: '8px',
boxShadow: '0 2px 4px rgba(0, 0, 0, 0.1)',
letterSpacing: '-0.025em',
fontWeight: 600,
});
const StatValue = styled('div', {
name: 'PigmentStat',
slot: 'value',
})({
font: '1.2rem "Fira Sans", sans-serif',
});
const StatUnit = styled('div', {
name: 'PigmentStat',
slot: 'unit',
})({
font: '0.875rem "Fira Sans", sans-serif',
color: '#121212',
});
Assemble the component using the slots created in the previous step:
// /path/to/Stat.js
import * as React from 'react';
// ...slot styled-components
const Stat = React.forwardRef(function Stat(props, ref) {
const { value, unit, ...other } = props;
return (
<StatRoot ref={ref} {...other}>
<StatValue>{value}</StatValue>
<StatUnit>{unit}</StatUnit>
</StatRoot>
);
});
export default Stat;
In this example, a prop named variant
is defined to let consumers change the appearance of the Stat
component.
Pass down the variant
prop to <StatRoot>
to style the root
slot, as shown below:
const Stat = React.forwardRef(function Stat(props, ref) {
+ const { value, unit, variant, ...other } = props;
return (
- <StatRoot ref={ref} {...other}>
- <StatValue>{value}</StatValue>
- <StatUnit>{unit}</StatUnit>
- </StatRoot>
+ <StatRoot ref={ref} variant={variant} {...other}>
+ <StatValue>{value}</StatValue>
+ <StatUnit>{unit}</StatUnit>
+ </StatRoot>
);
});
Then you can use Pigment CSS variants API to style it when variant
prop has a value of outlined
:
const StatRoot = styled('div', {
name: 'PigmentStat',
slot: 'root',
})({
display: 'flex',
flexDirection: 'column',
gap: '1rem',
padding: '0.75rem 1rem',
backgroundColor: '#f9f9f9',
borderRadius: '8px',
boxShadow: '0 2px 4px rgba(0, 0, 0, 0.1)',
letterSpacing: '-0.025em',
fontWeight: 600,
+ variants: [
+ {
+ props: { variant: 'outlined' },
+ style: {
+ border: `2px solid #e9e9e9`,
+ },
+ },
+ ],
});
This completes the reusable statistics component. If this were a real UI library, the component would be ready to upload to a package registry so others could use it.
Developers using your component must first install your package as well as the Pigment CSS packages that correspond to the framework they're using.
npm install your-package-name @pigment-css/react
npm install -D @pigment-css/nextjs-plugin
Next, they must set up Pigment CSS in their project:
// framework config file, for example next.config.js
import { withPigment } from '@pigment-css/nextjs-plugin';
export default withPigment(
{
// ... Your nextjs config.
},
{ transformLibraries: ['your-package-name'] },
);
Finally, they must import the stylesheet in the root layout file:
// index.tsx
import '@pigment-css/react/styles.css';
Then they can use your component in their project:
import Stat from 'your-package-name/Stat';
function App() {
return <Stat value={42} unit="km/h" variant="outlined" />;
}
Developers can customize the component's styles using the theme's styleOverrides
key and the component name and slots you defined in step 2.
For example, the custom theme below sets the background color of the statistics component's root slot to tomato
:
export default withPigment(
{ ...nextConfig },
{
theme: {
components: {
PigmentStat: {
styleOverrides: {
root: {
backgroundColor: 'tomato',
},
value: {
color: 'white',
},
unit: {
color: 'white',
},
},
},
},
},
},
);
Developers can also access theme values and apply styles based on the component's props using the variants
key:
export default withPigment(
{ ...nextConfig },
{
theme: {
// user defined colors
colors: {
primary: 'tomato',
primaryLight: 'lightcoral',
},
components: {
PigmentStat: {
styleOverrides: {
root: ({ theme }) => ({
backgroundColor: 'tomato',
variants: [
{
props: { variant: 'outlined' },
style: {
border: `2px solid ${theme.colors.primary}`,
backgroundColor: theme.colors.primaryLight,
},
},
],
}),
value: {
color: 'white',
},
unit: {
color: 'white',
},
},
},
},
},
},
);
See How Pigment CSS works for details on the build process.