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I would like to be able to search a table as follows for smith as get everything that it within 1 variance.

Data:

O'Brien
Smithe
Dolan
Smuth
Wong
Smoth
Gunther
Smiht

I have looked into using Levenshtein distance does anyone know how to implement this with it?

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I have looked a lot on google and haven't found a decent implementation. –  Andrew Clark Mar 11 '09 at 15:39
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8 Answers 8

Does this help? MySQL Levenshtein distance query

EDIT: The old link Levenshtein Distance as a MySQL stored function (Google Cache) is broken, thanks to Robert for pointing this out in the comment.

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+1 - I have implemented this one, I looked at it before posting. Its works but the putting it in a search(with some performance) is what I am trying to figure out. –  Andrew Clark Mar 11 '09 at 16:06
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The link doesn't seem to be up anymore. Here's another artfulsoftware.com/infotree/queries.php#552 –  Robert Gowland May 10 '11 at 19:17
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In order to efficiently search using levenshtein distance, you need an efficient, specialised index, such as a bk-tree. Unfortunately, no database system I know of, including MySQL, implements bk-tree indexes. This is further complicated if you're looking for full-text search, instead of just a single term per row. Off-hand, I can't think of any way that you could do full-text indexing in a manner that allows for searching based on levenshtein distance.

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An implementation for the damerau-levenshtein distance can be found here: Damerau-Levenshtein algorithm: Levenshtein with transpositions The improvement over pure Levenshtein distance is that the swapping of characters is considered. I found it in the comments of schnaader's link, thanks!

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unfortunately this result in it being 10% slower. I have however implemented the string length, he proposes using string at max or smaller, I have implemented a compare on only string +/- 1 length. –  Andrew Clark Mar 13 '09 at 14:42
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you can use this function


CREATE FUNCTION `levenshtein`( s1 text, s2 text) RETURNS int(11)
    DETERMINISTIC
BEGIN 
    DECLARE s1_len, s2_len, i, j, c, c_temp, cost INT; 
    DECLARE s1_char CHAR; 
    DECLARE cv0, cv1 text; 
    SET s1_len = CHAR_LENGTH(s1), s2_len = CHAR_LENGTH(s2), cv1 = 0x00, j = 1, i = 1, c = 0; 
    IF s1 = s2 THEN 
      RETURN 0; 
    ELSEIF s1_len = 0 THEN 
      RETURN s2_len; 
    ELSEIF s2_len = 0 THEN 
      RETURN s1_len; 
    ELSE 
      WHILE j  c_temp THEN SET c = c_temp; END IF; 
            SET c_temp = CONV(HEX(SUBSTRING(cv1, j+1, 1)), 16, 10) + 1; 
            IF c > c_temp THEN  
              SET c = c_temp;  
            END IF; 
            SET cv0 = CONCAT(cv0, UNHEX(HEX(c))), j = j + 1; 
        END WHILE; 
        SET cv1 = cv0, i = i + 1; 
      END WHILE; 
    END IF; 
    RETURN c; 
  END

and for getting it as XX% use this function


CREATE FUNCTION `levenshtein_ratio`( s1 text, s2 text ) RETURNS int(11)
    DETERMINISTIC
BEGIN 
    DECLARE s1_len, s2_len, max_len INT; 
    SET s1_len = LENGTH(s1), s2_len = LENGTH(s2); 
    IF s1_len > s2_len THEN  
      SET max_len = s1_len;  
    ELSE  
      SET max_len = s2_len;  
    END IF; 
    RETURN ROUND((1 - LEVENSHTEIN(s1, s2) / max_len) * 100); 
  END
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Sorry for the noob question but when I copy this to a text file leven, and then run \. leven, I get multiple errors from MySQL 5: ERROR 1064 (42000): You have an error in your SQL syntax; check the manual that corresponds to your MySQL server... near '' at line 4. –  max Nov 1 '12 at 7:15
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I am setting up a search based on Levenshtein or Damerau-Levenshtein (probably the latter) for multiple searches over an indexed text, based on a paper by by Gonzalo Navarro and Ricardo Baeza-yates: link text

After building a suffix array (see wikipedia), if you are interested in a string with at most k mismatches to the search string, break the search string into k+1 pieces; at least one of those must be intact. Find the substrings by binary search over the suffix array, then apply the distance function to the patch around each matched piece.

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There is a mysql UDF implementation of Levenshtein Distance function

https://github.com/jmcejuela/Levenshtein-MySQL-UDF

It is implemented in C and has better performance than the "MySQL Levenshtein distance query" mentioned by schnaader

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I had a specialized case of k-distance searching and after installing the Damerau-Levenshtein UDF in MySQL found that the query was taking too long. I came up with the following solution:

  • I have a very restrictive search space (9 character string limited to numeric values).

Create a new table (or append columns to your target table) with columns for each character position in your target field. ie. My VARCHAR(9) ended up as 9 TINYINT columns + 1 Id column that matches my main table (add indexes for each column). I added triggers to ensure that these new columns always get updated when my main table gets updated.

To perform a k-distance query use the following predicate:

(Column1=s[0]) + (Column2=s[1]) + (Column3=s[2]) + (Column4=s[3]) + ... >= m

where s is your search string and m is the required number of matching characters (or m = 9 - d in my case where d is the maximum distance I want returned).

After testing I found that a query over 1 million rows that was taking 4.6 seconds on average was returning matching ids in less than a second. A second query to return the data for the matching rows in my main table similarly took under a second. (Combining these two queries as a subquery or join resulted in significantly longer execution times and I'm not sure why.)

Though this is not Damerau-Levenshtein (doesn't account for substitution) it suffices for my purposes.

Though this solution probably doesn't scale well for a larger (length) search space it worked for this restrictive case very well.

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If you only want to know if the levenshtein-distance <= 1 you can use the following mysql function

CREATE FUNCTION `lv_leq_1` (
`s1` VARCHAR( 255 ) ,
`s2` VARCHAR( 255 )
) RETURNS TINYINT( 1 ) DETERMINISTIC
BEGIN
    DECLARE s1_len, s2_len, i INT;
    SET s1_len = CHAR_LENGTH(s1), s2_len = CHAR_LENGTH(s2), i = 1;
    IF s1 = s2 THEN
        RETURN TRUE;
    ELSEIF ABS(s1_len - s2_len) > 1 THEN
        RETURN FALSE;
    ELSE
        WHILE SUBSTRING(s1,s1_len - i,1) = SUBSTRING(s2,s2_len - i,1) DO
            SET i = i + 1;
        END WHILE;
        RETURN SUBSTRING(s1,1,s1_len-i) = SUBSTRING(s2,1,s2_len-i) OR SUBSTRING(s1,1,s1_len-i) = SUBSTRING(s2,1,s2_len-i+1) OR SUBSTRING(s1,1,s1_len-i+1) = SUBSTRING(s2,1,s2_len-i);
    END IF;
END

This basicly a step in the recursive description of the levenshtein distance. The function returns 1 if the distance is at most 1, else it returns 0.

Since this function does not completly compute the levenshtein-distance, it is much faster.

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