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0.2.0 Jun 23, 2023
0.1.2 Jul 15, 2022
0.1.1 Mar 5, 2022
0.1.0 Feb 8, 2022

#1057 in Algorithms

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848 downloads per month
Used in 2 crates

MIT license

125KB
3K SLoC

Gaoya

About

This project implements Locality Sensitive Hashing algorithms and data structures for indexing and querying text documents. The primary use cases for Gaoya are deduplication and clustering.

Main Features

  • 64,32,16,8 bit minhash
  • 64,128 bit simhash
  • Fast implementation in Rust
  • Multi-threaded thanks to rayon
  • Python bindings

Python Example

>>> import gaoya
>>> index = gaoya.minhash.MinHashStringIndex(hash_size=32, 
                                             jaccard_threshold=0.5, 
                                             num_bands=42, 
                                             band_size=3,
                                             num_hashes=42*3,
                                             analyzer='word', 
                                             lowercase=True, 
                                             ngram_range=(1,1))
>>> corpus = [
...     'This is the first document.',
...     'This document is the second document.',
...     'And this is the third document.',
...     'Is this the first document?',
...     'This not the first nor the second nor the third, but the fourth document'
... ]
>>> 
>>> for i, doc in enumerate(corpus): index.insert_document(i, doc)
... 
>>> index.query('This is the first document.')
[0, 1, 2, 3]
>>> 

Installation

$ pip3 install gaoya

Examples

Document Deduplication with Gaoya

Rust Example

use gaoya::minhash::{MinHashIndex, MinHasher32, MinHasher} ;
use gaoya::text::whitespace_split;
use fxhash::FxHashSet;
let corpus = [
    "This is the first document.",
    "This document is the second document.",
    "And this is the third document.",
    "Is this the first document?",
    "This not the first nor the second nor the third, but the fourth document"];
let (num_bands, band_width) = (42, 3);
let minhasher = MinHasher32::new(num_bands * band_width);
let mut index = MinHashIndex::new(num_bands, band_width, 0.5);
for (i, doc) in corpus.iter().enumerate() {
    index.insert(i, minhasher.create_signature(whitespace_split(&doc.to_lowercase())));
}
for (i, doc) in corpus.iter().enumerate() {
    if i < 4 {
        let mut expected = FxHashSet::default();
        expected.extend(vec![0, 1, 2, 3].into_iter());
        let signature = minhasher.create_signature(whitespace_split(&doc.to_lowercase()));
        assert_eq!(index.query_owned(&signature), expected);
    } else {
        let mut expected = FxHashSet::default();
        expected.insert(4);
        let signature = minhasher.create_signature(whitespace_split(&doc.to_lowercase()));
        assert_eq!(index.query_owned(&signature), expected);
    }
}

References

[1] Chapter 3, Mining of Massive Datasets

[2] Similarity Estimation Techniques from Rounding Algorithms

[3] Detecting Near-Duplicates for Web Crawling

Dependencies

~4.5MB
~75K SLoC