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ClassGroup

ClassGroup is a utility to help keep your CSS classes in JS consistently and semantically grouped while allowing for a separation of concerns.

It helps unclutter your markup when using utility-driven CSS principles or frameworks such as TailwindCSS with negligible performance impact. It improves readability of components, improving Developer Experience.

Installation

npm i -D classgroup

Usage

To use ClassGroup, import it as you would any other utility:

import ClassGroup from 'classgroup';

If your project uses CommonJS, then:

import ClassGroup from 'classgroup/commonjs';

We then use this simple function by passing in an object with our groupings.

const classes = ClassGroup({
  identifier: value,
});

The key is an identifier and is just for our own reference - think of it like the class names you would give when writing traditional CSS.

The value can be a string, array or object with no limit on nesting depth so you can group in anyway you like.

It will return a flattened object that for convention we store in a variable called classes. You can then access the resultant string referencing by dot notation

// Svelte, Vue
<div class="{classes.identifier}">...</div>

// React
render() {
  return <div className={classes.identifier}>...</div>
}

ClassGroup is written in Typescript and uses the following types internally:

// ClassGroup.d.ts

export interface Output {
  [key: string]: string;
}

export type OptionValue = boolean | string | Array<string> | Options;

export interface Options {
  [key: string]: OptionValue;
}

export default function ClassGroup(collection: Options, ...overrides: Options[]): Output;

Let's take a look at a few examples so that this makes sense and see how we can apply this.

Basic Abstraction with Strings or Arrays

const classes = ClassGroup({
  container: 'class1 class2',
  btn: ['class3', 'class4'],
});

console.log(classes);

// Results in:
// {
//   container: "class1 class2",
//   btn: "class3 class4",
// }

// In template:
<div class="{classes.container}">
  <button class="{classes.button}">Click!</button>
</div>

Grouping with Objects

The ability to use an object gives the developer the convenience of grouping classes semantically for better readability.

const classes = ClassGroup({
  alert: {
    layout: 'flex p-4',
    appearance: 'rounded-md bg-yellow-50',
    hover: 'hover:bg-yellow-100',
    md: { ... },
    lg: { ... }
  },
  ...
});

console.log(classes);

// Results in:
// {
//   alert: "flex p-4 rounded-md bg-yellow-50 hover:bg-yellow-100 ..."
// }

It is advised that each subsequent key represents a breakpoint (e.g. sm, md, lg, xl), a state (e.g. hover, focus, disabled), or a semantic group (e.g. layout, appearance, transition, animation).

There is no limit on nesting depth and you can mix and match types. Other than the primary root key(s) i.e. the identifier key of alert, all other nested key names are discarded.

In any case, you are free to define whatever naming pattern works best for you! Know that consistent patterns will facilitate theming by reducing multiple objects. As per its type definition, ClassGroup accepts n number of parameters of the same type. Read more below.

Advanced Use

By keeping our data in an object, it opens up quite a few patterns. You can for example use functions and ternary operators, or pre-process and combine multiple objects. As long as they return one of the expected types (object, string, array), it'll work. Any other types are ignored.

const classes = ClassGroup({
  btn: {
    border: isRounded ? 'rounded' : '',
    animation: (() => {
      switch (arg) {
          case 'spin':
            return 'animation-spin';

            ...

          default:
            return 'animation-none';
      }
    })(),
  },
});

The Overrides parameter

ClassGroup accepts n number of subsequent object parameters internally referenced as Overrides, all governed by same type. In runtime, supplied Overrides arguments will be effectively reduced, merged and flattened into one single object by replacing the matching successive argument key values.

The overrides parameter structure must exactly correspond to that of the initial argument targeted object key structures.

These subsequent parameters intention is to provide an interface to override key values when recycling styling objects (for instance, in a component library) where default values are already present.

const baseStyles = {
  alert: {
    layout: 'flex p-4',
    appearance: 'rounded-md bg-yellow-50',
  },
};

const styleOverrides = {
  alert: {
    appearance: 'bg-red-50',
  },
};

const classes = ClassGroup(baseStyles, styleOverrides);

console.log(classes);

// Results in:
// effectively overriding the classes from 'baseStyles.alert.appearance'
// and leaving 'baseStyles.alert.layout' intact
// {
//   alert: 'flex p-4 bg-red-50',
// }

// Styles can also be reused and extended
const extendOverrides = {
  alert: {
    animation: 'animate-ping',
  },
};

const classes = ClassGroup(baseStyles, extendOverrides);

console.log(classes);

// Results in:
// {
//   alert: 'flex p-4 rounded-md bg-yellow-50 animate-ping',
// }

VS Code Tailwind CSS IntelliSense

In order to make the Tailwind CSS IntelliSense plugin work, make sure to use the tailwindCSS.experimental.classRegex setting with the following regex:

{
  ...
  "tailwindCSS.experimental.classRegex":[
    ["ClassGroup\(([^;])", "'([^'])'"]
  ],
  ...
}