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▒ μFuzzy

A tiny, efficient, fuzzy search that doesn't suck. This is my fuzzy 🐈. There are many like it, but this one is mine.


Overview

uFuzzy is a fuzzy search library designed to match a relatively short search phrase (needle) against a large list of short-to-medium phrases (haystack). It might be best described as a more forgiving String.prototype.indexOf(). Common use cases are list filtering, auto-complete/suggest, and title/name/description/filename/function searches.

Each uFuzzy match must contain all alpha-numeric characters from the needle in the same sequence, so is likely a poor fit for applications like spellcheck or fulltext/document search. However, its speed leaves ample headroom to match out-of-order terms by combining results from all permutations of the needle. When held just right, it can efficiently match against multiple object properties, too.


Features

  • Junk-free, high quality results that are dataset-independent. No need to fine-tune indexing options or boosting params to attain some arbitrary quality score cut-off.
  • Straightforward fuzziness control that can be explained to your grandma in 5min.
  • Sorting you can reason about and customize using a simple Array.sort() which gets access to each match's stats/counters. There's no composite, black box "score" to understand.
  • Concise set of options that don't interact in mysterious ways to drastically alter combined behavior.
  • Fast with low resource usage - there's no index to build, so startup is below 1ms with near-zero memory overhead. Searching a three-term phrase in a 162,000 phrase dataset takes 12ms with in-order terms or 50ms with out-of-order terms.
  • Micro, with zero dependencies - currently < 3KB min

uFuzzy demo


Demos

NOTE: The testdata.json file is a diverse 162,000 string/phrase dataset 4MB in size, so first load may be slow due to network transfer. Try refreshing once it's been cached by your browser.

First, uFuzzy in isolation to demonstrate its performance.

https://leeoniya.github.io/uFuzzy/demos/compare.html?libs=uFuzzy&search=super%20ma

Now the same comparison page, booted with fuzzysort, QuickScore, and Fuse.js:

https://leeoniya.github.io/uFuzzy/demos/compare.html?libs=uFuzzy,fuzzysort,QuickScore,Fuse&search=super%20ma

Here is the full library list but with a reduced dataset (just hearthstone_750, urls_and_titles_600) to avoid crashing your browser:

https://leeoniya.github.io/uFuzzy/demos/compare.html?lists=hearthstone_750,urls_and_titles_600&search=moo


Installation

Node

npm i ufuzzy
const uFuzzy = require('ufuzzy');

Browser

<script src="./dist/uFuzzy.iife.min.js"></script>

Usage

uFuzzy works in 3 phases:

  1. Filter - This filters the full haystack with a fast RegExp compiled from your needle without doing any extra ops. It returns an array of matched indices in original order.
  2. Info - This collects more detailed stats about the filtered matches, such as start offsets, fuzz level, prefix/suffix counters, etc. It also gathers substring match positions for range highlighting. Finally, it filters out any matches that don't conform to the desired prefix/suffix rules. To do all this it re-compiles the needle into two more-expensive RegExps that can partition each match. Therefore, it should be run on a reduced subset of the haystack, usually returned by the Filter phase. The uFuzzy demo is gated at <= 1,000 filtered items, before moving ahead with this phase.
  3. Sort - This does an Array.sort() to determine final result order, utilizing the info object returned from the previous phase. A custom sort function can be provided via a uFuzzy option: {sort: (info, haystack, needle) => idxsOrder}.
let haystack = [
    'puzzle',
    'Super Awesome Thing (now with stuff!)',
    'FileName.js',
    '/feeding/the/catPic.jpg',
];

let needle = 'feed cat';

let opts = {};

let uf = new uFuzzy(opts);

// pre-filter
let idxs = uf.filter(haystack, needle);

// sort/rank only when <= 1,000 items
if (idxs.length <= 1e3) {
  let info = uf.info(idxs, haystack, needle);

  // order is a double-indirection array (a re-order of the passed-in idxs)
  // this allows corresponding info to be grabbed directly by idx, if needed
  let order = uf.sort(info, haystack, needle);

  // render post-filtered & ordered matches
  for (let i = 0; i < order.length; i++) {
    // using info.idx here instead of idxs because uf.info() may have
    // further reduced the initial idxs based on prefix/suffix rules
    console.log(haystack[info.idx[order[i]]]);
  }
}
else {
  // render pre-filtered but unordered matches
  for (let i = 0; i < idxs.length; i++) {
    console.log(haystack[i]);
  }
}

Options

Options with an inter prefix apply to allowances in between search terms, while those with an intra prefix apply to allowances within each search term.

Option Description Default Examples
intraMax Max number of extra chars allowed
between each char within a term
0 Searching "cat"...
0 can match: cat, scat, catch, vacate
1 also matches: cart, chapter, outcast
interMax Max number of extra chars allowed between terms Infinity Searching "where is"...
Infinity can match: where is, where have blah wisdom
5 cannot match: where have blah wisdom
intraChars Partial regexp for allowed extra
chars between each char within a term
[a-z\d] [a-z\d] matches only alpha-numeric (case-insensitive)
[\w-] would match alpha-numeric, undercore, and hyphen
intraFilt Callback for excluding results based on term & match (term, match, index) => true Do your own thing, maybe... - Length diff threshold
- Levenshtein distance
- Term offset or content
interChars Partial regexp for allowed chars between terms . . matches all chars
[^a-z\d] would only match whitespace and punctuation
interLft Determines allowable term left boundary 0 Searching "mania"...
0 any - anywhere: romanian
1 loose - whitespace, punctuation, alpha-num, case-change transitions: TrackMania, maniac
2 strict - whitespace, punctuation: maniacally
interRgt Determines allowable term right boundary 0 Searching "mania"...
0 any - anywhere: romanian
1 loose - whitespace, punctuation, alpha-num, case-change transitions: ManiaStar
2 strict - whitespace, punctuation: mania_foo
sort Custom result sorting function (info, haystack, needle) => idxsOrder Default: Search sort, prioritizes full term matches and char density
Demo: Typeahead sort, prioritizes start offset and match length

A biased appraisal of similar work

Forget "apples and oranges"; me comparing text search engines is closer to "planes, trains, and cars". However, that doesnt mean we cannot gain some insight into a slice of operational behavior. This assessment is extremely narrow and, of course, biased towards my use cases, text corpus, and my complete expertise in operating my own library. It is highly probable that I'm not taking full advantage of some feature in other libraries that may significantly improve outcomes along some axis; I welcome improvement PRs from anyone with deeper library knowledge than afforded by my hasty 10min skim over any "Basic usage" example and README doc.

Search quality

Can-of-worms #1.

Before we discuss performance let's talk about search quality, because speed is irrelevant when your results are a strange medly of "Oh yeah!" and "WTF?".

Search quality is very subjective. What constitutes a good top match in a "typeahead / auto-suggest" case can be a poor match in a "search / find-all" scenario. Some solutions optimize for the latter, some for the former. It's common to find knobs that skew the results in either direction, but these are often by-feel and imperfect, being little more than a proxy to producing a single, composite match "score".

Let's take a look at some matches produced by the most popular fuzzy search library, Fuse.js and a some others for which match highlighting is implemented in the demo.

TODO...

Performance

Can-of-worms #2.

I've tried to follow any "best performance" advice when I could find it in each library's docs, but it's a certainty that some stones were left unturned when implementing ~20 different search engines.

The task:

  1. Given a diverse list of 162,000 words and phrases, assume a Latin/Western European charset (can skip any diacritics/accents normalization)
  2. Do a case-insensitive, partial/fuzzy match of the search string "super ma"
  3. Sort the results in the most sensible way, following the Principle of least astonishment
  4. Optionally highlight the matched substrings in each result
  5. Bonus points for matches with out-of-order terms
  6. Do it with the fewest resources (CPU and RAM)
Lib Stars Size (min) Init Search Heap (peak) Retained
uFuzzy (try) ★ 0 2.5KB 0.3ms 11.7ms 7.7MB 7.5MB
Fuse.js (try) ★ 14.8k 23.5KB 34ms 600ms 20.6MB 14.2MB
FlexSearch (Light) (try) ★ 8.9k 5.9KB 3500ms 8.1ms 322MB 323MB
Lunr.js (try) ★ 8.2k 29.4KB 1700ms 8.7ms 128MB 127MB
LyraSearch (try) ★ 3.3k
match-sorter (try) ★ 3.1k 7.3KB 0.03ms 125ms 13.1MB 12.9MB
fuzzysort (try) ★ 3k 5.5KB 50ms 12ms 54.7MB 54.4MB
fuzzysearch (try) ★ 2.6k
Elasticlunr.js (try) ★ 1.9k 18.1KB 1000ms 1.5ms 73.6MB 73.4MB
MiniSearch (try) ★ 1.5k 22.4KB 575ms 1ms 70.2MB 70MB
Fuzzyset (try) ★ 1.3k 2.8KB 2900ms 31ms 246MB 244MB
search-index (try) ★ 1.3k
LiquidMetal (try) ★ 285
ItemJS (try) ★ 260
FuzzySearch (try) ★ 184
FuzzySearch2 (try) ★ 173
QuickScore (try) ★ 131 9.1KB 26ms 155ms 26.1MB 18.7MB
fzy (try) ★ 115
fuzzyMatch (try) ★ 0

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