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I was informed Levenshtein distance is symmetric. When I used google's diffMatchPatch tool which computes Levenshtein distance among other things, the results don't imply Levenshtein distance is symmetric. i.e Levenshtein(x1,x2) is not equal to Levenshtein(x2,x1). Is Levenshtein not symmetric or is there a problem with that particular implementation? Thanks.

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3 Answers 3

up vote 8 down vote accepted

Just looking at the basic algorithm it definitely is symmetric given the same cost for the operations - the number of additions, deletions and substitutions to get from a word A to a word B is the same as getting from word B to word A.

If there is a different cost on any of the operations there can be a difference though, e.g. if addition has a cost of 2 and deletion a cost of 1 to get from Zombie to Zombies results in a distance of 2, the other way round would be 1 - not symmetric.

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The classical Levenshtein algorithm is symmetric - what is an insertion going from x1 to x2 is a deletion going from x2 to x1.

Unfortunately, the algorithm is O(length(x1) * length(x2)) . After a brief look at the google's library, it seems it tries some heuristics to assure that the runtime is not too big. I think there lies Your discrepancy.

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+1 for looking at the diffMatchPatch implementation. –  Hugh Brackett Mar 15 '12 at 15:21

Yes, the levenshtein distance is a distance in the proper sense, that is dist(a,b)==dist(b,a) is a part of the definition of a distance. If a function does not have this property it is not a distance function. This suggests a problem with that implementation.

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