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The query returns 21 million records

They way I loop through this table takes forever. What other solutions are there?

SqlDataReader rd = DbInfo.DataRdr(Conn,
 "FROM myTable a JOIN myTable b ON a.NUM = b.NUM AND a.ID <> b.ID");

while (rd.Read())
   if (rd["ANAME"].ToString().LevenshteinDistance(rd["BNAME"].ToString()) <= 10)



    public static int LevenshteinDistance(this string s, string t)
        if (s == null)
            throw new ArgumentNullException("s");
        if (t == null)
            throw new ArgumentNullException("t");
        int n = s.Length;
        int m = t.Length;
        int[,] d = new int[n+1,m+1];

        if (n == 0 || m == 0)
            return Math.Max(m, n);

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

        for (int i = 0; i < n; i++)
            for (int j = 0; j < m; j++)
                int cost = (t[j] == s[i]) ? 0 : 1;

                d[i + 1, j + 1] = Math.Min(Math.Min(d[i, j + 1] + 1, d[i + 1, j] + 1), d[i, j] + cost);

        return d[n, m];
share|improve this question
SELECT * is bad to start with. Any chance you can improve the query? –  user195488 Jul 8 '11 at 19:34
can we see the code for the LevenshteinDistance function? –  Martin Neal Jul 8 '11 at 19:37
@John haha... he presumably means that one of those should be a "j". –  Chris Cunningham Jul 8 '11 at 19:39
which i ? :P Ok I fixed that –  Sev Jul 8 '11 at 19:51
Not going to be faster, but it is worth noting that this is possible in pure SQL: sqlteam.com/forums/topic.asp?TOPIC_ID=51540&whichpage=1 –  Tremmors Jul 8 '11 at 19:54

5 Answers 5

up vote 3 down vote accepted

You could start by using the following as your query instead, depending on how often the NUM columns are actually equal:

FROM myTable a
JOIN myTable b
ON a.NUM = b.NUM
AND a.id < b.id

Then your SQL query will give you pairs of rows with matching NUMs that you can call LevenshteinDistance on. Something like:

DataTable dt1 = new DataTable();
dt1.Load(DbInfo.DataRdr(Conn, "[the query I wrote above]"));

for (int i = 0; i < dt1.Rows.Count; i++)
   if (dt1.Rows[i]["ANAME"].ToString().LevenshteinDistance(dt1.Rows[i]["BNAME"].ToString()) <= 10)
     Logging.Write(...[modify the query so it returns the things you want to log]...);
share|improve this answer
your query returns more than 7 million records, my table has 130000 records –  Sev Jul 8 '11 at 20:50
The reason your original code took a long time to execute is that you were doing a query that returned 130000 records, then executing your Levenshtein function 130000*130000 = 16.9 billion times. 7 million is a marked improvement (my query returns all the pairs of records to compare)! –  Chris Cunningham Jul 8 '11 at 20:53
hmmmm so what do I do now? lol –  Sev Jul 8 '11 at 20:54
As another answer said, write LevenshteinDistance better so that it doesn't go to so much trouble. If you only ever care about whether the distance is greater than 10, you can stop distance calculations very early in a large number of cases. –  Chris Cunningham Jul 8 '11 at 20:56
count returns 21 million rows –  Sev Jul 8 '11 at 20:56

You're comparing dt1.Rows[i]["Name"].ToString() with dt1.Rows[j]["Name"].ToString() even when i == j.

Try looping 0 <= i < dt1.Rows.Count - 1 and i + 1 <= j < dt1.Rows.Count.

Also, you're logging only if dt1.Rows[i]["NUM"].ToString() == dt1.Rows[i]["NUM"].ToString(), which is probably a faster check. There's no point in doing Levenshtein if that's false.

EDIT: @John is right about the dt1.Rows[i]["NUM"].ToString() == dt1.Rows[i]["NUM"].ToString() (both i?).

share|improve this answer
fixed them both thx –  Sev Jul 8 '11 at 19:46


1) Take a look at your data. Maybe you can do some checks to sort out invalid pairs faster. If the lenght of Name varies over more than 10 you can check if the difference between s.Lenght and t.Length is greater 10 and return a high distance right away (maybe int.MaxValue or just 100). There is no point in calculating the distance if it`s clearly out of scope anyway.

2) Look for small optimizations. Looping twice over 150k rows means 22.5 billion iterations. Small changes may have a great effect. You may try to cache to row objects and remove the ToString() by usign the Equals() method. I think this would be faster than accessing the i-th element of your datatable 150000 times.

for (int i = 0; i < dt1.Rows.Count; i++)
   var outerRow = dt1.Rows[i];
   for (int j = 0; i + 1 < dt1.Rows.Count; j++)
     var innerRow = dt1.Rows[j];
     if (Equals(outerRow["NUM"] == innerRow["NUM"]))
        if (outerRow["Name"].ToString().LevenshteinDistance(innerRow.ToString()) <= 10)

3) Try to reduce/split the datasets. Execute a query to get all possible values of NUM select distinct NUM from myTable. Then for each NUM in your result do your original query but using a where condition and select only the name: SELECT name from myTable where NUM = currentNum.

This way you dont have to compare the NUM row and you dont select odd data. Your code can be optimized to do just the levenshtein distance but using the optimizations stated in 1+2.

4) Try a different approach like fulltext search.

I just hat to solve a similar problem, finding matches in a 1.2 million rows table. I used lucene.net which provides me realtime results when searching over one or more properties of my rows.

They do levenshtein too, but Maybe its faster than your implementation ;) MSSQL Server supports fulltext search, too.

share|improve this answer
my current problme is the System.OutOfMemoryexception error which gets thrown when I run the Chris Cunningham query –  Sev Jul 8 '11 at 21:14
I made some changes to the code, please see the question code above. These changes solved the memory exception error but again it's slow. –  Sev Jul 8 '11 at 22:05
Looks like this is the fastest it can get, I removed the LevenShtein method and it didn't effect the speed that much. –  Sev Jul 8 '11 at 22:14

The biggest improvement you can make is to reduce the solution space being considered. Since you want a max distance of 10, any strings that differ by length more than 10 cannot possibly qualify:

 FROM myTable a JOIN myTable b ON a.NUM = b.NUM AND a.ID < b.ID
 WHERE length(a.NAME) - length(b.NAME) BETWEEN -10 AND 10;

Next, profile your code and see where are the hot spots. A good entry article: Find Application Bottlenecks with Visual Studio Profiler.

And have a look at Optimizing the Levenshtein Algorithm in C#.


Also Chris noticed that since levenshtein(a,b) == levenshtein(b,a) you need only select on the join a.ID < b.ID, since the matrix is symmetrical. This will halve your problem right off the bat.

share|improve this answer

After doing the other optimizations mentioned in this thread, you can move the Levenshtein computation to the server and only SELECT the rows that matches your Edit distance criteria. I needed this functionality in a project, so I made a library out of it, here. The edit distance method used in the lib only requires n * 2 memory instead of n * m.

For instance, even when on the server, you only want to do the EditDistance computation when the difference in string length is < 10, so check for that first. Something like

SELECT a.NAME as NameA, b.NAME as NameB
FROM table a
JOIN table b ON a.NUM = b.NUM
WHERE a.Id < b.Id
AND length(a.NAME) - length(b.NAME) BETWEEN -10 AND 10 OR
    EditDistance(a.Name, b.Name) < 10
share|improve this answer

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