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I recently implemented the UDFs of the Damerau–Levenshtein algorithms into MySQL, and was wondering if there is a way to combine the fuzzy matching of the Damerau–Levenshtein algorithm with the wildcard searching of the Like function? If I have the following data in a table:

ID | Text
1  | let's find this document
2  | let's find this docment
3  | When the book is closed
4  | The dcument is locked

I want to run a query that would incorporate the Damerau–Levenshtein algorithm...

select text from table where damlev('Document',tablename.text) <= 5;

...with a wildcard match to return IDs 1, 2, and 4 in my query. I'm not sure of the syntax or if this is possible, or whether I would have to approach this differently. The above select statement works fine in issolation, but is not working on individual words. I would have to change the above SQL to...

select text from table where 
 damlev('let's find this document',tablename.text) <= 5;

...which of course returns just ID 2. I'm hoping there is a way to combine the fuzzy and wildcard together if I want all records returned that have the word "document" or variations of it appearing anyway within the Text field.

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1 Answer 1

up vote 3 down vote accepted

In working with person names, and doing fuzzy lookups on them, what worked for me was to create a second table of words. Also create a third table that is an intersect table for the many to many relationship between the table containing the text, and the word table. When a row is added to the text table, you split the text into words and populate the intersect table appropriately, adding new words to the word table when needed. Once this structure is in place, you can do lookups a bit faster, because you only need to perform your damlev function over the table of unique words. A simple join gets you the text containing the matching words. enter image description here

A query for a single word match would look something like this:

JOIN Intersect AS I ON I.WordId = W.WordId
JOIN Text AS T ON T.TextId = I.TextId
WHERE damlev('document',W.Word) <= 5 

and two words would look like this (off the top of my head, so may not be exactly correct):

JOIN (SELECT I.TextId, COUNT(I.WordId) AS MatchCount FROM Word AS W
      JOIN Intersect AS I ON I.WordId = W.WordId
      WHERE damlev('john',W.Word) <= 2
            OR damlev('smith',W.Word) <=2
      GROUP BY I.TextId) AS Matches ON Matches.TextId = T.TextId
          AND Matches.MatchCount = 2

The advantages here, at the cost of some database space, is that you only have to apply the time-expensive damlev function to the unique words, which will probably only number in the 10's of thousands regardless of the size of your table of text. This matters, because the damlev UDF will not use indexes - it will scan the entire table on which it's applied to compute a value for every row. Scanning just the unique words should be much faster. The other advantage is that the damlev is applied at the word level, which seems to be what you are asking for. Another advantage is that you can expand the query to support searching on multiple words, and can rank the results by grouping the matching intersect rows on TextId, and ranking on the count of matches.

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In fact my text field can contain over 10000 characters, so potentially a lot of words. Not sure I understand. Would I have to take each row and split it into its separate words? –  user1236443 Jan 10 '13 at 16:00
If your text is that long, I'm not sure how ideal my suggestion would be without testing. Yes, each row has its text split to words, and one row is added to the intersect table for each word. I will add a diagram to my answer to make it more clear. –  hatchet Jan 10 '13 at 16:08
Great thanks. Yes a diagram would be extremely useful. –  user1236443 Jan 10 '13 at 16:17
Looks like a good solution. What about when you are looking for two words separated by a space, as in a Person's name. Does the technique still apply if you say wanted to find "John Smith" and/or "Jon Smith". –  user1236443 Jan 10 '13 at 16:57
In my own use, I don't try to do it all in the database. I use the database to provide a relatively small set of candidates. Then I evaluate and score the candidates using more involved algorithms. For example, people commonly transpose names, merge dual last names, and generally mangle them in a multitude of ways that are difficult to handle in the database alone. Regarding your specific example, I'll add another query to the answer. –  hatchet Jan 10 '13 at 17:59

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