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  • License MIT

Calculate specificity of a CSS Selector

Package Exports

  • @bramus/specificity
  • @bramus/specificity/compare
  • @bramus/specificity/filter
  • @bramus/specificity/sort
  • @bramus/specificity/types
  • @bramus/specificity/util

Readme

Calculate CSS Specificity

Specificity

Package to calculate the Specificity of CSS Selectors. Also includes some convenience functions to compare, sort, and filter an array of specificity values.

Supports Selectors Level 4, including those special cases :is(), :where(), :not(), etc.

Installation

npm i @bramus/specificity

Usage / Example

This library comes as an ES Module and exposes a calculate function which calculates the specificity of a given CSS SelectorList.

import { calculate } from '@bramus/specificity';
const specificities = calculate('.foo :is(.bar, #baz), body');

Because calculate accepts a Selector List — which can contain more than 1 Selector — it will always return an array.

import { calculate } from '@bramus/specificity';
const specificities = calculate('#foo.bar.baz a b c, .second-selector');
specificities.map(s => s.toString()); // ["(1,2,3)","(0,1,0)"]

If you know you’re passing only a single Selector into calculate(), you can use JavaScript’s built-in destructuring to keep your variable names clean.

import { calculate } from '@bramus/specificity';
const [specificity] = calculate('.foo :is(.bar, #baz)');
specificity.toString(); // "(1,1,0)"

The Return Format

A calculated specificity is represented as an instance of the Specificity class, which also comes with @bramus/specificity.

The Specificity class includes methods to get the specificity value in a certain format, along with some convenience methods to compare it against other instances.

import { calculate } from '@bramus/specificity';

// ✨ Calculate specificity for each Selector in the given Selector List
const specificities = calculate('#foo.bar.baz a b c, .second-selector');

// 🚚 The values in the array are instances of a Specificity class
const specificity = specificities[0]; // Instance of Specificity

// 🛠 From an instance you can get the value in various formats
specificity.value; // { a: 1, b: 2, c: 3 }
specificity.a; // 1
specificity.b; // 2
specificity.c; // 3
specificity.toString(); // "(1,2,3)"
specificity.toArray(); // [1, 2, 3]
specificity.toObject(); // { a: 1, b: 2, c: 3 }

// 💡 From an instance you can also get the selector (as a String)
specificity.selectorString(); // "#foo.bar.baz a b c"

// 💻 These instances also play nice with JSON.stringify()
console.log(JSON.stringify(specificity));
// {
//    "selector": '#foo.bar.baz a b c',
//    "asObject": { "a": 1, "b": 2, "c": 3 },
//    "asArray": [1, 2, 3],
//    "asString": "(1,2,3)",
// }

// 🔀 Need to compare against another instance? That's possible!
specificity.equals(specificities[1])); // false
specificity.isGreaterThan(specificities[1])); // true
specificity.isLessThan(specificities[1])); // false

Helper Functions

This package also exposes some convenience functions to work with an array specificities:

  • Comparison functions:

    • compare(s1, s2): Compares s1 to s2. Returns a value that can be:
      • > 0 = Sort s2 before s1 (i.e. s2 is less specific than s1)
      • 0 = Keep original order of s1 and s2 (i.e. s2 and s1 are equally specific)
      • < 0 = Sort s1 before s2 (i.e. s1 is more specific than s2)
    • equals(s1, s2): Returns true if s1 and s2 have the same specificity. If not, false is returned.
    • greaterThan(s1, s2): Returns true if s1 has a higher specificity than s2. If not, false is returned.
    • lessThan(s1, s2): Returns true if s1 has a lower specificity than s2. If not, false is returned.

  • Sorting functions:

    • ascending(specificities): Sorts the array of given specificities in ascending order (low specificity to high specificity)
    • descending(specificities): Sorts the array of given specificities in descending order (high specificity to low specificity)
    • sort(specificities, order = 'ASC'): Sorts the array of given specificities in the give order ('ASC' or 'DESC')

  • Filter functions:

    • min(specificities): Filters out the value with the lowest specificity
    • max(specificities): Filters out the value with the highest specificity

A specificity passed into any of these utility functions can be any of:

  • An instance of the included Specificity class
  • A simple Object such as {'a': 1, 'b': 0, 'c': 2}

All these functions are exported from the main index.js entrypoint, in addition to the calculate function.

import {
    compare, equals, greaterThan, lessThan,
    ascending, descending, sort,
    min, max
} from '@bramus/specificity'

💡 If you're only interested in including these helper functions into your project — without calculate — you can import them from @bramus/specificity/util. As a result, your bundle size will be reduced greatly.

License

@bramus/specificity is released under the MIT public license. See the enclosed LICENSE for details.

Acknowledgements

The idea to create this package was sparked by the wonderful Specificity Calculator created by Kilian Valkhof / Polypane, a highly educational tool that not only calculates the specificity, but also explains which parts are responsible for it.

The heavy lifting of doing the actual parsing is done by CSSTree.