@mxenabled/cssinjs

Write CSS in JS notation; get a className back.

Usage no npm install needed!

<script type="module">
  import mxenabledCssinjs from 'https://cdn.skypack.dev/@mxenabled/cssinjs';
</script>

README

CSS-in-JS

Write CSS as nested JS object notation; get a unique className back. That's it.

A thin, declarative, no-frills, "only one way to do it" wrapper around the excellent and lightweight free-style library.

Documentation

There are three export functions:

import { css, global, keyframes } from '@mxenabled/cssinjs'

Write regular, vanilla CSS in JavaScript object notation:

const className = css({
  color: 'white',
  backgroundColor: 'black',
})

CSS added to the document:

.f6e2hlp {
  background-color: black;
  color: white;
}

The generated className is a unique string that can be added to any HTML element to style it and its children using regular CSS semantics.

Caveat: CSS specficity rules apply as usual with the exception of order. This is because JavaScript objects are unordered. Do not rely on order.

Nesting and parent references

The CSS object may include nested objects. The keys of those nested objects may contain any valid CSS selector. The & symbol references the parent style.

JavaScript:

css({
  backgroundColor: 'black',

  '& .foo': { color: 'white' },

  '& #myid ~ ul > li:last-child': { color: 'green' },

  '& .foo.bar': {
    '& span.baz': {
      color: 'red',
    },
  },
})

CSS:

.f1wuspsr {
  background-color: black;
}
.f1wuspsr .foo {
  color: white;
}
.f1wuspsr #myid ~ ul > li:last-child {
  color: green;
}
.f1wuspsr .foo.bar span.baz {
  color: red;
}

Pseudo-selectors

JavaScript:

css({
  '& > ul': {
    listStyleType: 'none',
    paddingLeft: '0',

    '& li': {
      cursor: 'pointer',

      '&:hover': {
        backgroundColor: 'yellow',
      },
    },
  },
})

CSS:

.fodl7pe > ul {
  list-style-type: none;
  padding-left: 0;
}
.fodl7pe > ul li {
  cursor: pointer;
}
.fodl7pe > ul li:hover {
  background-color: yellow;
}

Media queries

JavaScript:

css({
  '@media(min-width: 300px)': {
    '& h2': { fontSize: '30px' },
  },
})

CSS:

@media (min-width: 300px) {
  .fdnu0l2 h2 {
    font-size: 30px;
  }
}

Keyframes

The special keyframes function takes key/value pairs used for a CSS @keyframes rule and returns a string identifier that can be used in an animation-name rule.

It can be called in two ways:

  1. If you wish to manually specify the animation name pass a string you wish to use as the first argument and the CSS object as the second argument:

    JavaScript:

    const colorAnimation = keyframes('custom-name-here', {
      from: { color: 'red' },
      to: { color: 'blue' },
    })
    
    const className = css({
      animationName: colorAnimation,
      animationDuration: '1s',
    })
    

    CSS:

    @keyframes custom-name-here {
      from {
        color: red;
      }
      to {
        color: blue;
      }
    }
    
    .f17e5e93 {
      animation-duration: 1s;
      animation-name: custom-name-here;
      animation-name: @keyframes custom-name-here {
        from {
          color: red;
        }
        to {
          color: blue;
        }
      }
    }
    
  2. If you prefer an automatically generated animation name then simply pass the CSS object as a single argument.

    JavaScript:

    const colorAnimation = keyframes({
      '0%': { color: 'red' },
      '60%': { color: 'purple' },
      '100%': { color: 'blue' },
    })
    
    const className = css({
      animationName: colorAnimation,
      animationDuration: '1s',
    })
    
    @keyframes f167zcak {
      0% {
        color: red;
      }
      100% {
        color: blue;
      }
      60% {
        color: purple;
      }
    }
    
    .f1inlm1z {
      animation-duration: 1s;
      animation-name: f167zcak;
      animation-name: @keyframes f167zcak {
        0% {
          color: red;
        }
        100% {
          color: blue;
        }
        60% {
          color: purple;
        }
      }
    }
    

If you do not plan to reference an animation-name in more than one place, you may simply specify it inline:

const className = css({
  animationName: keyframes({
    '0%': { color: 'red' },
    '60%': { color: 'purple' },
    '100%': { color: 'blue' },
  }),

  animationDuration: '1s',
})

Global styles

Global CSS styles, without a namespace, may be created with the global() function. It does not return a value.

JavaScript:

global({
  a: {
    textDecoration: 'underline',
    color: 'blue',

    '&:hover': { color: 'green' },
  },
})

CSS:

font-family: 'Comic Sans MS', 'Comic Sans', cursive;

Implementation notes

The contents of the JavaScript object will be inspected to produce a deterministic className that can be reused in multiple places. Multiple invocations of css() with the same value are idempotent and will only add the generated CSS to the page once.

Suggestions

Do: reference values and variables

The syntax is JavaScript. Use it!

css({
  '& h1': {
    ...mixins.headers.h1,
  },

  '& .someEl': {
    backgroundColor: theme.colors.gray100,
  },

  [`@media (max-width: ${theme.BreakPoints.medium}px)`]: { /* ... */ },
})

Do: make use of multiple classes

Do: pretend you're writing regular CSS

Create CSS classes as you would if you were writing CSS in a regular .css file and use JavaScript to toggle classes on and off. This works great for CSS animations too.

const MyComponent = () => {
  const [focusedSection, setFocus] = useState('foo')

  <div className={className}>
      <div className={focusedSection === 'foo' ? 'foreground' : 'background'}>Foo</div>
      <div className={focusedSection === 'bar' ? 'foreground' : 'background'}>Bar</div>
  </div>
}

const className = css({
  '& .foreground': { backgroundColor: 'white' },
  '& .background': { backgroundColor: 'gray' },
})

Don't: programmatically generate CSS

This system will not de-duplicate any CSS styles. If the contents of the CSS object produce a unique combination style then that will be added to the page.

In general be wary of calling css() programmatically or wrapping it in a function that accepts parameters and generates CSS depending on those parameters. That pattern is fine if done sparingly -- for example, once as the app is first loading to initialize CSS values for a site-wide theme. But if done frequently it can lead to memory concerns.

const genRandomColor = () => '#' + (0x1000000 + Math.random() * 0xffffff)
  .toString(16)
  .substr(1, 6)

const MyComponent = () => {
  const [className, setClassName] = useState('#ffffff')

  useEffect(() => {
    setInterval(() => {
      const newClassName = css({
        width: '100px',
        height: '100px',
        backgroundColor: genRandomColor(),
      })

      setClassName(newClassName)
    }, 100)
  }, [])

  return (
    <div className={className} />
  )
}

Development

  1. The source files live in the src directory and the build files will be written to dist.

    These are written as ES5 and should be consumable by a bundler directly. We can relax this requirement and simplify the build process once all our frontend projects no longer need to support IE11.

  2. Run npm start to start a watcher that will rebuild files as they change.

  3. Run npm run watch to start a watcher that will run the test suite as build files change. (Note, you will also need the build watcher running.)

Benchmarks

  1. Manually run npm install --no-save benchmark glamor.

    These are not in optionalDependencies to not install them, and associated dependencies, with a default install.

  2. Run npm run test:benchmarks.

Release

  1. Run npm version [major|minor|patch] to build the project and tag a new version.
  2. Push the new Git commit and new tag to the repository (referenced as the 'origin' remote in this example):
    git push origin master
    git push origin <new-tag-here>
    
  3. Run npm publish to deploy the source and build artifacts to npm.