Glitz is a CSS-in-JS library that is strictly focused on:
⚡ Performance by caching and avoiding unnecessary re-renders whenever possible
👮‍♂️ Type safety by TypeScript
⚖️ Lightweight by keeping things simple
đź’Ş Flexibility by composition to avoid wrapping elements
🔥 Official React bindings
Along with other built-in features like:
- Atomic CSS (and non-Atomic CSS)
- Shorthand expansion
- Pseudo selectors/elements
- Attribute selectors
- Fallback values
@media
support@keyframes
support@font-face
support- Media query ordering
- Server rendering
- Vendor prefixing (with
@glitz/transformers
) - Number to unit conversion
10 -> "10px"
(with@glitz/transformers
) - Warnings and errors when things goes wrong in development (with
@glitz/transformers
)
- Getting started
- Features
- React
- Server rendering
- Shorthand properties
- TypeScript
- Transformers
- API
- Playground
$ npm install @glitz/core @glitz/transformers
The most basic implementation is really easy. You don't need any config or module loaders to get started.
import { GlitzClient } from '@glitz/core';
import transformers from '@glitz/transformers';
const glitz = new GlitzClient({ transformer: transformers() });
const className = glitz.injectStyle({
color: 'green',
});
Each declaration will be injected individually by default which means that declaration blocks are divided into as small atomic rules as possible before they are injected into a virtual style sheet using the CSSStyleSheet.insertRule()
method. This results in minimal output and maximum performance because each class becomes highly reusable.
const className = glitz.injectStyle({
display: 'flex',
color: 'green',
// Will be injected as:
// .a {
// display: flex;
// }
// .b {
// color: green;
// }
});
So the next time you use display: 'flex'
it will reuse a
instead of injecting a new rule.
However, the side-effect of this is that you cannot guarantee the order of the CSS. That why it's recommended to always use longhand properties. More info about using shorthand properties here. You're able to disable this feature but it's not recommended.
You define your pseudo selector or element as the property name, followed with the style you wish to have for that pseudo.
const className = glitz.injectStyle({
':hover': {
textDecoration: 'underline',
// You're also able to nest
':after': {
content: '"Don\'t forget double quotes when doing this"',
},
},
});
You define your attribute selector as the property name, followed with the style you wish to have for that element.
const className = glitz.injectStyle({
'[disabled]': {
display: 'none',
},
});
An array of values will be injected as one rule.
const className = glitz.injectStyle({
width: ['50%', 'fit-content'],
// Will be injected as:
// .a {
// width: 50%;
// width: fit-content;
// }
});
The animationName
property injects the @keyframes
declaration list and will be replaced by a unique name.
const className = glitz.injectStyle({
animationName: {
// or animation: { name: { ...
from: {
color: 'red',
},
to: {
color: 'green',
},
},
// Will be injected as:
// .a {
// animation-name: a;
// }
// @keyframes a {
// from {
// color: red;
// }
// to {
// color: green;
// }
// }
});
The name will be reused when an identical declaration list is used again.
The fontFamily
property injects the @font-face
rule and will be replaced by a unique name.
const className = glitz.injectStyle({
fontFamily: {
// or font: { family: { ...
fontFamily: '"Custom Font"',
fontStyle: 'normal',
fontWeight: 'normal',
src: "url(https://domain.tld/path/to/font-regular.woff2) format('woff2')",
},
// Will be injected as:
// .a {
// font-family: "Custom Font";
// }
// @font-face {
// font-family: "Custom Font";
// font-style: normal;
// font-weight: 400;
// src: url(https://domain.tld/path/to/font.woff2) format('woff2');
// }
});
The font family name will be reused when an identical block is used again.
You're also able to use fallback values in combination with font faces.
const className = glitz.injectStyle({
fontFamily: [
{
fontFamily: '"Custom Font"',
fontStyle: 'normal',
fontWeight: 'normal,
src: "url(https://domain.tld/path/to/font-regular.woff2) format('woff2')",
},
{
fontFamily: '"Custom Font"',
fontStyle: 'normal',
fontWeight: 'bold',
src: "url(https://domain.tld/path/to/font-bold.woff2) format('woff2')",
},
'sans-serif',
],
});
You can define any @media
property as you like.
const className = glitz.injectStyle({
'@media (min-width: 768px)': {
display: 'block',
},
});
You can apply @supports
condition rules. These can be handy when using server side rendered CSS because CSS.supports()
isn't available on the server.
const className = glitz.injectStyle({
'@supports (display: grid)': {
display: 'grid',
},
'@supports not (display: grid)': {
display: 'flex',
},
});
The official React bindings for Glitz are highly flexible and composable.
The difference between GlitzServer
class and GlitzClient
class is that GlitzClient
inserts new rules into the DOM directly. Instead GlitzServer
collects the rendered style as a string for you to put in the <head>
. The client side will then hydrate the CSS and reuse it.
Problems mixing CSS shorthand and longhand properties are common with styling techniques like this and doesn't only affects Glitz. It often causes unexpected behaviors.
const first = glitz.injectStyle({
marginLeft: 10,
});
// Bad
const second = glitz.injectStyle({
margin: 20,
marginLeft: 10, // <- The order of the CSS will result in this never being applied as expected
});
// Good
const second = glitz.injectStyle({
marginTop: 20,
marginRight: 20,
marginBottom: 20,
marginLeft: 10,
});
Instead of writing each longhand property separately, you're able to use objects with shorthand properties.
// Good
const second = glitz.injectStyle({
margin: {
top: 20,
right: 20,
bottom: 20,
left: 10,
},
});
For margin
, padding
and border
there's some property aliases to make this easier:
x
is an alias forleft
andright
y
is an alias fortop
andbottom
xy
is an alias forleft
,right
,top
andbottom
// Bad
const second = glitz.injectStyle({
padding: '10px 20px',
border: 'red solid 5px',
});
// Good
const second = glitz.injectStyle({
padding: {
y: 10,
x: 20,
},
border: {
xy: {
color: 'red',
style: 'solid',
width: 5,
},
},
});
You can see a complete list of shorthand objects here.
You don't need TypeScript to use Glitz. But if you do, everything is typed! Even CSS! This means you'll get autocompletion and warnings as you write.
const className = glitz.injectStyle({
colour: 'white', // Type error on property
overflow: 'hide', // Type error on value
});
Unknown properties will fail to be able to notify you when there's a typo. This means that function-like pseudos (e.g. :not(:first-child)
) and media query selectors will be considered unknown properties. For those, there's two helper functions (pseudo
and media
) that will make the selectors valid.
import { media, selector } from '@glitz/core';
const className = glitz.injectStyle({
...media(
{ minWidth: '768px' },
{
display: 'block',
},
),
...selector(':not(:first-child)', {
textDecoration: 'underline',
}),
});
You can also extend the interface with custom CSS properties like CSS variables and other unknown properties using module augmentation.
// my-style.d.ts
import * as Glitz from '@glitz/core';
declare module '@glitz/core' {
interface Properties {
// Add CSS property
mozOsxFontSmoothing?: string;
// Add CSS variable name
'--theme-color'?: string;
// Allow any other property
[property: string]: any;
}
}
Styles will be processed by transformers before they are injected. A transform function will receive a flat object with string | number | Array<string | number>
values and expects the same in return. Have in mind that the transformer will receive each unique declaration only ones. The same unique declaration will later use a cached result and will never again reach the transformer.
These are not built in by default because it gives the users the freedom of choice and makes it easier to adopt to other platforms in the future.
The @glitz/transformers
module includes all official transformers:
import { GlitzClient } from '@glitz/core';
import transformers from '@glitz/transformers';
const glitz = new GlitzClient({ transformer: transformers() });
The @glitz/prefixer-transformer
is basically just a TypeScript wrapper for inline-style-prefixer/static
.
import { GlitzClient } from '@glitz/core';
import prefixer from '@glitz/prefixer-transformer';
const glitz = new GlitzClient({ transformer: prefixer });
const className = glitz.injectStyle({
display: 'flex',
// Will be transformed into:
// {
// display: [
// '-webkit-box',
// '-moz-box',
// '-ms-flexbox',
// '-webkit-flex',
// 'flex',
// ],
// }
});
The @glitz/length-transformer
converts numbers to lengths for certain properties.
import { GlitzClient } from '@glitz/core';
import numberToLength from '@glitz/length-transformer';
const glitz = new GlitzClient({ transformer: numberToLength });
const className = glitz.injectStyle({
height: 10,
width: [100, 'max-content'],
// Will be transformed into:
// {
// height: '10px',
// width: ['100px', 'max-content'],
// }
});
The @glitz/devtool-transformer
produces warnings and errors when something does wrong in development.
import { GlitzClient } from '@glitz/core';
import devTool from '@glitz/devtool-transformer';
const glitz = new GlitzClient({ transformer: devTool });
const className = glitz.injectStyle({
width: 'calc(100)',
// Will warn that `width` was ignored by the browser due to an error (unit missing)
});
The Glitz core class for browsers.
Returns: string
The returned value contains the class names of the injected style.
const glitz = new GlitzClient();
const classNames = glitz.injectStyle({ fontWeight: 'bold' });
Returns: void
Injects global styles.
const glitz = new GlitzClient();
glitz.injectStyle({ p: { fontWeight: 'bold' } });
Returns: void
Manually hydrate external Glitz generated CSS.
Note that <style data-glitz>
tags are hydrated automatically.
The Glitz core class for servers.
Note that options
must be identical to the one used with GlitzClient
.
Returns: string
The returned value contains the class names of the injected style.
const glitz = new GlitzServer();
const classNames = glitz.injectStyle({ fontWeight: 'bold' });
Returns: void
Injects global styles.
const glitz = new GlitzServer();
glitz.injectStyle({ p: { fontWeight: 'bold' } });
Returns: void
Manually hydrate external Glitz generated CSS.
Note that <style data-glitz>
tags are hydrated automatically.
Returns: string
Plain CSS will be returned unless markup
is set to true
and it will return markup instead to render directly into <head>
.
identifier: string;
Default: "glitz"
The dataset name that will be used to identify Glitz style elements.
transformer(style: Properties): Properties
Default: undefined
Styles will be processed by transformers before they are injected. A transform function will receive a flat object with string | number | Array<string | number>
values and expects the same in return. Have in mind that the transformer will receive each unique declaration only ones. The same unique declaration will later use a cached result and will never again reach the transformer.
Official transformers are:
- Vendor prefix style
- Number to unit conversion
- Warnings and errors when things goes wrong in development
To use all the official transformers, use @glitz/transformers
:
import { GlitzClient } from '@glitz/core';
import transformers from '@glitz/transformers';
const glitz = new GlitzClient({ transformer: transformers() });
mediaOrder(a: string, b: string): number
Default: undefined
Unordered media style may sometimes cause some unwanted behavior. With this function you're able to sort the order of the injected media styles.
It's recommended that you create your own with the media queries you use.
import { query } from '@glitz/core';
const mediaQueryOrder = [
query({minWidth: '320px'}),
query({minWidth: '768px'}),
...
];
function mediaQuerySorter(a, b) {
const indexA = mediaQueryOrder.indexOf(a);
const indexB = mediaQueryOrder.indexOf(b);
return indexA - indexB;
}
const glitz = new GlitzClient({ mediaOrder: mediaQuerySorter });
It's also possible to use sort-css-media-queries
if you don't have a specific list of media queries.
prefix: string;
Default: ""
Prefix all class names.
selector(selector: string, style?: Style): Style
Validates the pseudo rule. See example.
media(query: Query | string, style?: Style): Style
Parse and validate Query
or string into a valid media rule. See example.
query(query: Query): string
Parse and validate Query
into a valid media query.
To play around with Glitz, just:
$ git clone https://github.com/frenic/glitz.git
$ cd glitz
$ npm install
$ npm example
Open http://localhost:1234 in your browser and edit the code in packages/example
.