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I am interested in algorithm in T-SQL calculating Levenshtein distance.

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5 Answers 5

up vote 35 down vote accepted

Arnold Fribble proposes this one:


CREATE FUNCTION edit_distance_within(@s nvarchar(4000), @t nvarchar(4000), @d int)
  DECLARE @sl int, @tl int, @i int, @j int, @sc nchar, @c int, @c1 int,
    @cv0 nvarchar(4000), @cv1 nvarchar(4000), @cmin int
  SELECT @sl = LEN(@s), @tl = LEN(@t), @cv1 = '', @j = 1, @i = 1, @c = 0
  WHILE @j <= @tl
    SELECT @cv1 = @cv1 + NCHAR(@j), @j = @j + 1
  WHILE @i <= @sl
    SELECT @sc = SUBSTRING(@s, @i, 1), @c1 = @i, @c = @i, @cv0 = '', @j = 1, @cmin = 4000
    WHILE @j <= @tl
      SET @c = @c + 1
      SET @c1 = @c1 - CASE WHEN @sc = SUBSTRING(@t, @j, 1) THEN 1 ELSE 0 END
      IF @c > @c1 SET @c = @c1
      SET @c1 = UNICODE(SUBSTRING(@cv1, @j, 1)) + 1
      IF @c > @c1 SET @c = @c1
      IF @c < @cmin SET @cmin = @c
      SELECT @cv0 = @cv0 + NCHAR(@c), @j = @j + 1
    IF @cmin > @d BREAK
    SELECT @cv1 = @cv0, @i = @i + 1
  RETURN CASE WHEN @cmin <= @d AND @c <= @d THEN @c ELSE -1 END
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@Alexander, it seems to work but I would change your variable names to something more meaningfull. Also, I'd get rid of @d, you know the length of the two strings in your input. –  Lieven Keersmaekers Feb 18 '09 at 12:01
@Lieven: It isn't my implementation, the author is Arnold Fribble. @d parameter is a maximal allowed difference between strings after reaching which they are considered too diverse and function returns -1. It's added because the algorithm in T-SQL works too slowly. –  Alexander Prokofyev Feb 18 '09 at 12:26
Great choice of variable names, easy to read :) –  Vince Panuccio Mar 31 '12 at 1:49
You should check out the algorithm psuedo code over at: en.wikipedia.org/wiki/Levenshtein_distance it isn't a whole lot improved. –  Norman H Jan 29 at 22:05

IIRC, with SQL Server 2005 and later you can write stored procedures in any .NET language: Using CLR Integration in SQL Server 2005. With that it shouldn't be hard to write a procedure for calculating Levenstein distance.

A simple Hello, World! extracted from the help:

using System;
using System.Data;
using Microsoft.SqlServer.Server;
using System.Data.SqlTypes;

public class HelloWorldProc
    public static void HelloWorld(out string text)
        SqlContext.Pipe.Send("Hello world!" + Environment.NewLine);
        text = "Hello world!";

Then in your SQL Server run the following:

CREATE ASSEMBLY helloworld from 'c:\helloworld.dll' WITH PERMISSION_SET = SAFE

@i nchar(25) OUTPUT
EXTERNAL NAME helloworld.HelloWorldProc.HelloWorld

And now you can test run it:

DECLARE @J nchar(25)
EXEC hello @J out

Hope this helps.

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I implemented the standard Levenshtein edit distance function in TSQL with several optimizations that improves the speed over the other versions I'm aware of. In cases where the two strings have characters in common at their start (shared prefix), characters in common at their end (shared suffix), and when the strings are large and a max edit distance is provided, the improvement in speed is significant. For example, when the inputs are two very similar 4000 character strings, and a max edit distance of 2 is specified, this is almost three orders of magnitude faster than the edit_distance_within function in the accepted answer, returning the answer in 0.073 seconds (73 milliseconds) vs 55 seconds. It's also memory efficient, using space equal to the larger of the two input strings plus some constant space. It uses a single nvarchar "array" representing a column, and does all computations in-place in that, plus some helper int variables.


  • skips processing of shared prefix and/or suffix
  • early return if larger string starts or ends with entire smaller string
  • early return if difference in sizes guarantees max distance will be exceeded
  • uses only a single array representing a column in the matrix (implemented as nvarchar)
  • when a max distance is given, time complexity goes from (len1*len2) to (min(len1,len2)) i.e. linear
  • when a max distance is given, early return as soon as max distance bound is known not to be achievable

The optimizations are described in a little more detail in my blog post on Levenshtein in TSQL and a link there to another post with a similar Damerau-Levenshtein implementation. But here is the code (updated 1/20/2014 to speed it up a bit more):

-- =============================================
-- Computes and returns the Levenshtein edit distance between two strings, i.e. the
-- number of insertion, deletion, and sustitution edits required to transform one
-- string to the other, or NULL if @max is exceeded. Comparisons use the case-
-- sensitivity configured in SQL Server (case-insensitive by default).
-- http://blog.softwx.net/2014/12/optimizing-levenshtein-algorithm-in-tsql.html
-- Based on Sten Hjelmqvist's "Fast, memory efficient" algorithm, described
-- at http://www.codeproject.com/Articles/13525/Fast-memory-efficient-Levenshtein-algorithm,
-- with some additional optimizations.
-- =============================================
CREATE FUNCTION [dbo].[Levenshtein](
    @s nvarchar(4000)
  , @t nvarchar(4000)
  , @max int
    DECLARE @distance int = 0 -- return variable
          , @v0 nvarchar(4000)-- running scratchpad for storing computed distances
          , @start int = 1      -- index (1 based) of first non-matching character between the two string
          , @i int, @j int      -- loop counters: i for s string and j for t string
          , @diag int          -- distance in cell diagonally above and left if we were using an m by n matrix
          , @left int          -- distance in cell to the left if we were using an m by n matrix
          , @sChar nchar      -- character at index i from s string
          , @thisJ int          -- temporary storage of @j to allow SELECT combining
          , @jOffset int      -- offset used to calculate starting value for j loop
          , @jEnd int          -- ending value for j loop (stopping point for processing a column)
          -- get input string lengths including any trailing spaces (which SQL Server would otherwise ignore)
          , @sLen int = datalength(@s) / datalength(left(left(@s, 1) + '.', 1))    -- length of smaller string
          , @tLen int = datalength(@t) / datalength(left(left(@t, 1) + '.', 1))    -- length of larger string
          , @lenDiff int      -- difference in length between the two strings
    -- if strings of different lengths, ensure shorter string is in s. This can result in a little
    -- faster speed by spending more time spinning just the inner loop during the main processing.
    IF (@sLen > @tLen) BEGIN
        SELECT @v0 = @s, @i = @sLen -- temporarily use v0 for swap
        SELECT @s = @t, @sLen = @tLen
        SELECT @t = @v0, @tLen = @i
    SELECT @max = ISNULL(@max, @tLen)
         , @lenDiff = @tLen - @sLen
    IF @lenDiff > @max RETURN NULL

    -- suffix common to both strings can be ignored
    WHILE(@sLen > 0 AND SUBSTRING(@s, @sLen, 1) = SUBSTRING(@t, @tLen, 1))
        SELECT @sLen = @sLen - 1, @tLen = @tLen - 1

    IF (@sLen = 0) RETURN @tLen

    -- prefix common to both strings can be ignored
    WHILE (@start < @sLen AND SUBSTRING(@s, @start, 1) = SUBSTRING(@t, @start, 1)) 
        SELECT @start = @start + 1
    IF (@start > 1) BEGIN
        SELECT @sLen = @sLen - (@start - 1)
             , @tLen = @tLen - (@start - 1)

        -- if all of shorter string matches prefix and/or suffix of longer string, then
        -- edit distance is just the delete of additional characters present in longer string
        IF (@sLen <= 0) RETURN @tLen

        SELECT @s = SUBSTRING(@s, @start, @sLen)
             , @t = SUBSTRING(@t, @start, @tLen)

    -- initialize v0 array of distances
    SELECT @v0 = '', @j = 1
    WHILE (@j <= @tLen) BEGIN
        SELECT @v0 = @v0 + NCHAR(CASE WHEN @j > @max THEN @max ELSE @j END)
        SELECT @j = @j + 1

    SELECT @jOffset = @max - @lenDiff
         , @i = 1
    WHILE (@i <= @sLen) BEGIN
        SELECT @distance = @i
             , @diag = @i - 1
             , @sChar = SUBSTRING(@s, @i, 1)
             -- no need to look beyond window of upper left diagonal (@i) + @max cells
             -- and the lower right diagonal (@i - @lenDiff) - @max cells
             , @j = CASE WHEN @i <= @jOffset THEN 1 ELSE @i - @jOffset END
             , @jEnd = CASE WHEN @i + @max >= @tLen THEN @tLen ELSE @i + @max END
        WHILE (@j <= @jEnd) BEGIN
            -- at this point, @distance holds the previous value (the cell above if we were using an m by n matrix)
            SELECT @left = UNICODE(SUBSTRING(@v0, @j, 1))
                 , @thisJ = @j
            SELECT @distance = 
                CASE WHEN (@sChar = SUBSTRING(@t, @j, 1)) THEN @diag                    --match, no change
                     ELSE 1 + CASE WHEN @diag < @left AND @diag < @distance THEN @diag    --substitution
                                   WHEN @left < @distance THEN @left                    -- insertion
                                   ELSE @distance                                        -- deletion
                                END    END
            SELECT @v0 = STUFF(@v0, @thisJ, 1, NCHAR(@distance))
                 , @diag = @left
                 , @j = case when (@distance > @max) AND (@thisJ = @i + @lenDiff) then @jEnd + 2 else @thisJ + 1 end
        SELECT @i = CASE WHEN @j > @jEnd + 1 THEN @sLen + 1 ELSE @i + 1 END
    RETURN CASE WHEN @distance <= @max THEN @distance ELSE NULL END
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A really huge performance improvement! –  motoDrizzt Apr 8 at 15:49

Consider using CLR Stored Procedure if those are available. If not, see this and this.

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It seems I have googled a newer version of the Arnold Fribble's implementation. –  Alexander Prokofyev Feb 18 '09 at 11:46

You can use Levenshtein Distance Algorithm for comparing strings

Here you can find a T-SQL example at http://www.kodyaz.com/articles/fuzzy-string-matching-using-levenshtein-distance-sql-server.aspx

CREATE FUNCTION edit_distance(@s1 nvarchar(3999), @s2 nvarchar(3999))
 DECLARE @s1_len int, @s2_len int
 DECLARE @i int, @j int, @s1_char nchar, @c int, @c_temp int
 DECLARE @cv0 varbinary(8000), @cv1 varbinary(8000)

  @s1_len = LEN(@s1),
  @s2_len = LEN(@s2),
  @cv1 = 0x0000,
  @j = 1, @i = 1, @c = 0

 WHILE @j <= @s2_len
  SELECT @cv1 = @cv1 + CAST(@j AS binary(2)), @j = @j + 1

 WHILE @i <= @s1_len
   @s1_char = SUBSTRING(@s1, @i, 1),
   @c = @i,
   @cv0 = CAST(@i AS binary(2)),
   @j = 1

  WHILE @j <= @s2_len
   SET @c = @c + 1
   SET @c_temp = CAST(SUBSTRING(@cv1, @j+@j-1, 2) AS int) +
    CASE WHEN @s1_char = SUBSTRING(@s2, @j, 1) THEN 0 ELSE 1 END
   IF @c > @c_temp SET @c = @c_temp
   SET @c_temp = CAST(SUBSTRING(@cv1, @j+@j+1, 2) AS int)+1
   IF @c > @c_temp SET @c = @c_temp
   SELECT @cv0 = @cv0 + CAST(@c AS binary(2)), @j = @j + 1

 SELECT @cv1 = @cv0, @i = @i + 1


(Function developped by Joseph Gama)

Usage :

 dbo.edit_distance('Fuzzy String Match','fuzzy string match'),
 dbo.edit_distance('Fuzzy String Match','fuzy string match'),
 dbo.edit_distance('levenshtein distance sql','levenshtein sql server'),

The algorithm simply returns the stpe count to change one string into other by replacing a different character at one step

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This unfortunately does not cover the case where a string is blank –  Pheonixblade9 Apr 6 at 21:38

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