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Good afternoon,

Does anyone know of an "out-of-the-box" implementation of Levenshtein DFA (deterministic finite automata) in .NET (or easily translatable to it)? I have a very big dictionary with more than 160000 different words, and I want to, given an inicial word w, find all known words at Levenshtein distance at most 2 of w in an efficient way.

Of course, having a function which computes all possible edits at edit distance one of a given word and applying it again to each of these edits solves the problem (and in a pretty straightforwad way). The problem is effiency --- given a 7 letter word, this can already take over 1 second to complete, and I need something much more efficient --- if possible, as it is with Levenshtein DFAs, a solution that takes O(|w|) steps.

Edit: I know I can construct my own approach to the problem with a little bit of studying, but at the moment I can't afford reading Schulz and Mihov's 60-page-long articles.

Thank you very much.

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5 Answers 5

up vote 2 down vote accepted

We implemented this for apache lucene java, perhaps you could convert it to C# and save yourself time.

the main class is here: its just a builder to get Levenshtein DFAs from a string, using the Schulz and Mihov algorithm.

http://svn.apache.org/repos/asf/lucene/dev/trunk/lucene/src/java/org/apache/lucene/util/automaton/LevenshteinAutomata.java

the parametric descriptions (the precomputed tables) for Lev1 and Lev2 are here: http://svn.apache.org/repos/asf/lucene/dev/trunk/lucene/src/java/org/apache/lucene/util/automaton/Lev1ParametricDescription.java

http://svn.apache.org/repos/asf/lucene/dev/trunk/lucene/src/java/org/apache/lucene/util/automaton/Lev2ParametricDescription.java

you might notice these are generated with a computer, we generated them with this script, using Jean-Phillipe Barrette's great moman implementation (python) http://svn.apache.org/repos/asf/lucene/dev/trunk/lucene/src/java/org/apache/lucene/util/automaton/createLevAutomata.py

we generate the parametric descriptions as packed long[] arrays so that it won't make our jar file too large.

just modify the toAutomaton(int n) to fit your needs/DFA package. in our case we are using a modified form of the brics automaton package, where transitions are represented as unicode codepoint ranges.

efficient unit tests are difficult for this sort of thing, but here is what we came up with... it seems to be thorough and even found a bug (which was fixed immediately by the author!) in the moman implementation.

http://svn.apache.org/repos/asf/lucene/dev/trunk/lucene/src/test/org/apache/lucene/util/automaton/TestLevenshteinAutomata.java

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Is the Levenshtein Automata related code in Lucene available via a maven snapshot repository somewhere? I haven't been able to find it. –  Taylor Leese Feb 5 '11 at 19:33
2  
I did the hard work so you don't have to, you can find the code ported to C# here github.com/mjvh80/LevenshteinDFA (note: wip). –  Marcus Sep 3 at 13:16
    
Links are dead.. :/ –  Ostati Nov 18 at 1:21

Here you go.

/// <summary>
/// Levenshtein Distance Calculator
/// </summary>
public static int DistanceFrom(this string s, string t)
{
    int n = s.Length;
    int m = t.Length;
    int[,] d = new int[n + 1, m + 1];

    // Step 1
    if (n == 0)
        return m;

    if (m == 0)
        return n;

    // Step 2
    for(int i = 0; i <= n; d[i, 0] = i++) ;
    for(int j = 0; j <= m; d[0, j] = j++) ;

    // Step 3
    for (int i = 1; i <= n; i++)
    {
        //Step 4
        for (int j = 1; j <= m; j++)
        {
            // Step 5
            int cost = (t[j - 1] == s[i - 1]) ? 0 : 1;

            // Step 6
            d[i, j] = Math.Min(
                Math.Min(d[i - 1, j] + 1, d[i, j - 1] + 1),
                d[i - 1, j - 1] + cost);
        }
    }
    // Step 7
    return d[n, m];
}
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Thanks but again I am not looking for a distance-calculation algorithm but rather for a DFA implementation of known word search. –  Miguel Oct 20 '10 at 11:32
    
Thanks for the implementation –  samy Dec 3 '10 at 8:57

I understand you want to find near matches in a big dictionary. Here's the way I do it. link.

From what I'm able to figure out about DFA, I can't see how it's any better, or even actually any different, under the skin. NFAs might be faster, but that's because they don't exist. Maybe I'm wrong.

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I ported the relevant Lucene Java code as suggested by Robert Muir to C#. As far as the question goes and "out of the box": it is a work in progress but the code appears¹ to work and can probably be optimized² further, although it performs very well indeed.

You can find it here: https://github.com/mjvh80/LevenshteinDFA/ .


¹ the code needs more tests
² because it's java ported to C# perhaps and because I wrote naive replacements of some classes (e.g. bitset).

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This should be the accepted answer! Can you add test too? –  Ostati Nov 18 at 1:20
    
As yet I have not ported the tests, I'm planning to, but don't have a lot of time to work on this. Please feel free to help out by adding tests or otherwise. –  Marcus Nov 19 at 10:16

Nick Johnson has a very detailed blog post about the construction of a Levenshtein automaton in Python, and the code is here. It is a good read, and I have used a slightly modified version of the code that I found efficient.

The answer of Mike Dunlavey is good too. I wonder what is the most efficient in this case, a trie search or a Levenshtein DFA?

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