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Unicode Default Word Boundary

Build status npm

Implements the Unicode UAX #29 §4.1 default word boundary specification, for finding word breaks in multilingual text.

Use this to split words in text! Using UAX #29 is a lot smarter than the \b word boundary in JavaScript's regular expressions! Note that character classes like \b, \w, \d only work on ASCII characters.

Usage

Import the module and use the split() function:

const split = require('unicode-default-word-boundary').split;

console.log(split(`The quick (“brown”) fox can’t jump 32.3 feet, right?`));

Output:

[ 'The', 'quick', '(', '“', 'brown', '”', ')', 'fox', 'can’t', 'jump', '32.3', 'feet', ',', 'right', '?' ]

But that's not all! Try it with non-English text, like Russian:

split(`В чащах юга жил бы цитрус? Да, но фальшивый экземпляр!`)
[ 'В', 'чащах', 'юга', 'жил', 'бы', 'цитрус', '?', 'Да', ',', 'но', 'фальшивый', 'экземпляр', '!' ]

...Hebrew:

split(`איך בלש תפס גמד רוצח עז קטנה?`);
[ 'איך', 'בלש', 'תפס', 'גמד', 'רוצח', 'עז', 'קטנה', '?' ]

...nêhiyawêwin:

split(`ᑕᐻ ᒥᔪ ᑭᓯᑲᐤ ᐊᓄᐦᐨ᙮`);
[ 'ᑕᐻ', 'ᒥᔪ ᑭᓯᑲᐤ', 'ᐊᓄᐦᐨ', '᙮' ]

...and many more!

More advanced use cases will want to use the findSpans() or the findBoundaries() function.

What doesn't work

Languages that do not have obvious word breaks, such as Chinese, Japanese, Thai, Lao, and Khmer. You'll need to use statistical or dictionary-based approaches to split words in these languages.

API Documentation

The following functions make up the primary API:

split(text: string): string[]

split() splits the text at word boundaries, returning an array of all "words" from the text that contain characters other than whitespace.

See above for examples.

findSpans(text: string): Iterable<BasicSpan>

findSpans() is a generator that yields successive basic spans from the text. A basic span is a chunk of text that is guaranteed to start at a word boundary and end at the next word boundary. In other words, basic spans are indivisible in that there are no word boundaries contained within a basic span.

A basic span has the following properties:

interface BasicSpan {
    /** Where the span starts, relative to the input text. */
    start: number;
    /** At what index does the **next** span begin. */
    end: number;
    /** How many characters are in this span. */
    length: number;
    /** The text contained within this span. */
    text: string;
}

Note that unlike, split(), findSpans() does yield spans that contain whitespace.

Example

Array.from(findSpans("Hello, world🌎!"))

Will yield spans with the following properties:

[ { start: 0, end: 5, length: 5, text: 'Hello' },
  { start: 5, end: 6, length: 1, text: ',' },
  { start: 6, end: 7, length: 1, text: ' ' },
  { start: 7, end: 12, length: 5, text: 'world' },
  { start: 12, end: 14, length: 2, text: '🌎' },
  { start: 14, end: 15, length: 1, text: '!' } ]

N.B.: findSpans() may not yield plain JavaScript objects, as shown above. The objects that findSpans() yield will adhere to the BasicSpan interface, however what findSpans() actually yields may differ from simple objects.

findBoundaries(text: string): Generator<number, void, void>

findBoundaries() is like findSpans() except it yields the index of each successive word boundary. Anecdotally, using this function directly may be faster than generating spans objects with findSpans().

Contributing and Maintaining

When maintaining this package, you might notice something strange. index.ts depends on ./src/gen/WordBreakProperty.ts, but this file does not exist! It is a generated file, created by reading Unicode property data files, downloaded from Unicode's website. These data files have been compressed and committed to this repository in libexec/:

libexec/
libexec/
├── WordBreakProperty-15.1.0.txt.gz
├── compile-word-break.js
└── emoji-data-15.1.0.txt.gz

Note that compile-word-break.js actually creates ./src/gen/WordBreakProperty.ts!

How to generate ./src/gen/WordBreakProperty.ts

When you have just cloned the repository, this file will be generated when you run npm install:

npm install

If you want to regenerate it afterwards, you can run the build script:

npm run build

Benchmarking

To run the benchmarks, you can run the following:

npm run benchmarks

If you want to compare the current implementation with a new implementation, what I do is create a new working tree called opt/:

git worktree add -b «NEW-BRANCH-NAME» opt

Then, I make changes in the working tree inside opt/, compile and run the tests, then, in the main working tree, I run the benchmarks:

cd opt/
npm install
vim       # do whatever you need to do here
npm test  # this also compiles the TypeScript
cd ..
npm run benchmarks

License

TypeScript implementation © 2019 National Research Council Canada, © 2024 Eddie Antonio Santos. MIT Licensed.

The algorithm comes from UAX #29: Unicode Text Segmentation, an integral part of the Unicode Standard, version 15.1.