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I'm trying to compare a full string with it's abbreviated version and return a score accordingly to its similarity.

Here's an example:

Quarta Vara Civel Santana de Parnaiba

And the possible abbreviations

Qta VC Sta Parnaiba

Q V C Sta Pba

4 VC Sta Parnaiba

I tried using FuzzyStrings dll to do so, but when it comes to severe abbreviation like the second and third examples it doesn't work well.

Any ideas on how to deal with this problem?

  • 1
    Do you have a basic ruleset for exactly how you abbreviate? If so, hardcore that ruleset into a function, and give it input's through parameters. It can work with that ruleset to solve the abbreviation. – Frontear Jan 10 at 18:07
  • I agree with @Frontear, there has to be some kind of standard. You can't program for every conceivable thing a user might do. – Terry Tyson Jan 10 at 18:11
  • No there isn't a pattern/ruleset for abbreviation since the strings comes from documents where I can't control what the user fill in the fields. – Carlos Alexandre Verísimo Jan 10 at 18:16
  • @TerryTyson it doesn't have to get every abbreviation, but at least it should work correctly for most cases – Carlos Alexandre Verísimo Jan 10 at 18:22
  • This sounds like a perfect case for writing the unit tests first. Write the tests so that they only pass if the class works the way you want it to. The tests are the definition of how you want this to work. Then write the code so that the tests pass. – Scott Hannen Jan 10 at 19:16
4

Using the Jaro-Winkler distance class from this answer, which gives priority to matching prefixes, and comparing each abbreviation component to the phrase words (choosing the maximum match to compensate for skipping words), we can write these extensions:

public static class StringExt {
    public static double JaroWinklerDistance(this string s1, string s2) => JaroWinkler.proximity(s1, s2);

    private static Regex AbbrevSplitRE = new Regex(@" |(?=\p{Lu})", RegexOptions.Compiled);
    public static double AbbrevSimilarity(this string abbrev, string phrase) {
        var phraseWords = phrase.Split(new[] { ' ' }, StringSplitOptions.RemoveEmptyEntries);
        return AbbrevSplitRE.Split(abbrev)
                            .Where(aw => !String.IsNullOrEmpty(aw))
                            .Zip(Enumerable.Range(0, phraseWords.Length),
                                 (aw, pwp) => Enumerable.Range(pwp, phraseWords.Length-pwp).Select(n => aw.JaroWinklerDistance(phraseWords[n])).Max()
                            )
                            .Sum() / phraseWords.Length;
    }    
}

Note: The regular expression defines abbreviation components as at each space or capital letter.

Then, we can compare each abbreviation (in abbrevs) to the original phrase:

var ans = abbrevs.Select(Abbrev => new { Abbrev, Similarity = Abbrev.AbbrevSimilarity(phrase) });

For your example, I get this answer:

      Abbrev        |     Similarity
Qta VC Sta Parnaiba | 0.65001322751322754
Q V C Sta Pba       | 0.60371693121693126
4 VC Sta Parnaiba   | 0.53890211640211649

I might add a weight for shorter abbreviations, depending on my final purpose.

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