I want to do fuzzy string comparison, but confused with which library to use.

Option 1:

import Levenshtein
Levenshtein.ratio('hello world', 'hello')

Result: 0.625

Option 2:

import difflib
difflib.SequenceMatcher(None, 'hello world', 'hello').ratio()

Result: 0.625

In this example both gives the same answer. But I prefer to use difflib. Any suggestions from experts. Thanks.

Updated:

I am doing clinical message normalization (spell check) in which I check each given word against 900,000 word medical dictionary. I am more concern about the time complexity/performance.

Do you think both perform alike in this case.

closed as primarily opinion-based by Tordek, J Richard Snape, HaveNoDisplayName, David Makogon, ale Aug 15 '15 at 3:55

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise. If this question can be reworded to fit the rules in the help center, please edit the question.

In case you're interested in a quick visual comparison of Levenshtein and Difflib similarity, I calculated both for ~2.3 million book titles:

import codecs, difflib, Levenshtein, distance

with codecs.open("titles.tsv","r","utf-8") as f:
    title_list = f.read().split("\n")[:-1]

    for row in title_list:

        sr      = row.lower().split("\t")

        diffl   = difflib.SequenceMatcher(None, sr[3], sr[4]).ratio()
        lev     = Levenshtein.ratio(sr[3], sr[4]) 
        sor     = 1 - distance.sorensen(sr[3], sr[4])
        jac     = 1 - distance.jaccard(sr[3], sr[4])

        print diffl, lev, sor, jac

I then plotted the results with R:

enter image description here

Strictly for the curious, I also compared the Difflib, Levenshtein, Sørensen, and Jaccard similarity values:

library(ggplot2)
require(GGally)

difflib <- read.table("similarity_measures.txt", sep = " ")
colnames(difflib) <- c("difflib", "levenshtein", "sorensen", "jaccard")

ggpairs(difflib)

Result: enter image description here

The Difflib / Levenshtein similarity really is quite interesting.

2018 edit: If you're working on identifying similar strings, you could also check out minhashing--there's a great overview here. Minhashing is amazing at finding similarities in large text collections in much faster than O(n**2) time. My lab put together an app that detects and visualizes text reuse using minhashing here: https://github.com/YaleDHLab/intertext

  • This is super cool! What is your take on this then? Is Levenshtein just bad for title-length strings? – Ulf Aslak Nov 25 '15 at 15:42
  • 2
    It really depends what you're trying to capture in your similarity metric... – duhaime Nov 25 '15 at 18:03
  • 1
    I think some of the disagreement between difflib and levenshtein may be explained because of the autojunk heuristic used by difflib. What happens if you disable it? – Michael Jun 23 '16 at 14:55
  • That's a good question. The autojunk filter only takes effect if the number of observations is >200, so I'm not sure if this particular dataset (book titles) would have been greatly affected, but it's worth investigation... – duhaime Jun 23 '16 at 22:29
  • 1
    @duhaime, right, levenshtein similarity >= difflib. Thank you! – Zachary Young Jul 6 '17 at 15:23
  • difflib.SequenceMatcher uses the Ratcliff/Obershelp algorithm it computes the doubled number of matching characters divided by the total number of characters in the two strings.

  • Levenshtein uses Levenshtein algorithm it computes the minimum number of edits needed to transform one string into the other

Complexity

SequenceMatcher is quadratic time for the worst case and has expected-case behavior dependent in a complicated way on how many elements the sequences have in common. (from here)

Levenshtein is O(m*n), where n and m are the length of the two input strings.

Performance

According to the source code of the Levenshtein module : Levenshtein has a some overlap with difflib (SequenceMatcher). It supports only strings, not arbitrary sequence types, but on the other hand it's much faster.

  • Thanks alot for the info. I have added more details. here it is: I am doing clinical message normalization (spell check) in which I check each given word against 900,000 word medical dictionary. I am more concern about the time complexity/performance. Do you think both perform alike in this case. – Maggie Jul 14 '11 at 9:29
  • I updated my response. – Ghassen Hamrouni Jul 14 '11 at 11:25

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