# How to calculate distance similarity measure of given 2 strings?

I need to calculate given 2 strings distance similarity measure. So what exactly i mean ? Let me explain with example

• The real word : `hospital`
• Mistaken word : `haspita`

Now the my aim is how many character do i need to modify mistaken word to obtain real word. At this example i need to modify 2 letters. So what would be the percent ? I take the length of real word always. So it becomes 2 / 8 = 25% so these 2 given string DSM is 75%.

How can I do this in a fastest way in C# 4.0

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It won't get faster than looping through the strings characters and checking them one by one. There's no real optimization opportunity since every character needs to be checked in at least the shortest of the two strings. –  Dervall Feb 26 '12 at 14:09
Thanks Dervall. This is what comes to programmer mind at first but i saw many examples of optimization :D So better to ask and be sure with Experts answers. –  MonsterMMORPG Feb 26 '12 at 14:13
@Dervall How does looping through the characters suffice? Even O(n^2) algorithms for this problem aren't trivial. –  CodesInChaos Feb 26 '12 at 14:14

What you are looking for is called edit distance or Levenshtein distance. The wikipedia article explains how it is calculated, and has a nice piece of pseudocode at the bottom to help you code this algorithm in C# very easily.

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Correct. Are there any good C# example of this algorithm ? –  MonsterMMORPG Feb 26 '12 at 14:11
@MonsterMMORPG here is a rather straightforward implementation in C#. It uses `(M*N)` space, while a better implementation could use `2*MAX(M,N)` space. –  dasblinkenlight Feb 26 '12 at 14:13
Maybe you could adapt the algo at biorecipes.com/DynProgBasic/code.html –  Jeow Li Huan Feb 26 '12 at 14:14
@dasblinkenlight thanks a lot for answer. Does it comes to your mind any better solution ? Or it would not worth to hassle for not important performance gain = –  MonsterMMORPG Feb 26 '12 at 14:21
@MonsterMMORPG If your words are short (say 50 chars or less) I wouldn't bother. –  CodesInChaos Feb 26 '12 at 14:32

I just addressed this exact same issue a few weeks ago. Since someone is asking now, I'll share the code. In my exhaustive tests my code is about 10x faster than the C# example on Wikipedia even when no maximum distance is supplied. When a maximu distance is supplied, this performance gain increases to 30x - 100x +. Note a couple key points for performance:

• If you need to compare the same words over and over, first convert the words to arrays of integers. The Damerau-Levenshtein algorithm includes many >, <, == comparisons, and `ints` compare much faster than `chars`.
• It includes a short-circuiting mechanism to quit if the distance exceeds a provided maximum
• Use a rotating set of three arrays rather than a massive matrix as in all the implementations I've see elsewhere
• Make sure your arrays slice accross the shorter word width.

Code (it works the exact same if you replace `int[]` with `String` in the parameter declarations:

``````/// <summary>
/// Computes the Damerau-Levenshtein Distance between two strings, represented as arrays of
/// integers, where each integer represents the code point of a character in the source string.
/// Includes an optional threshhold which can be used to indicate the maximum allowable distance.
/// </summary>
/// <param name="source">An array of the code points of the first string</param>
/// <param name="target">An array of the code points of the second string</param>
/// <param name="threshold">Maximum allowable distance</param>
/// <returns>Int.MaxValue if threshhold exceeded; otherwise the Damerau-Leveshteim distance between the strings</returns>
public static int DamerauLevenshteinDistance(int[] source, int[] target, int threshold) {

int length1 = source.Length;
int length2 = target.Length;

// Return trivial case - difference in string lengths exceeds threshhold
if (Math.Abs(length1 - length2) > threshold) { return int.MaxValue; }

// Ensure arrays [i] / length1 use shorter length
if (length1 > length2) {
Swap(ref target, ref source);
Swap(ref length1, ref length2);
}

int maxi = length1;
int maxj = length2;

int[] dCurrent = new int[maxi + 1];
int[] dMinus1 = new int[maxi + 1];
int[] dMinus2 = new int[maxi + 1];
int[] dSwap;

for (int i = 0; i <= maxi; i++) { dCurrent[i] = i; }

int jm1 = 0, im1 = 0, im2 = -1;

for (int j = 1; j <= maxj; j++) {

// Rotate
dSwap = dMinus2;
dMinus2 = dMinus1;
dMinus1 = dCurrent;
dCurrent = dSwap;

// Initialize
int minDistance = int.MaxValue;
dCurrent[0] = j;
im1 = 0;
im2 = -1;

for (int i = 1; i <= maxi; i++) {

int cost = source[im1] == target[jm1] ? 0 : 1;

int del = dCurrent[im1] + 1;
int ins = dMinus1[i] + 1;
int sub = dMinus1[im1] + cost;

//Fastest execution for min value of 3 integers
int min = (del > ins) ? (ins > sub ? sub : ins) : (del > sub ? sub : del);

if (i > 1 && j > 1 && source[im2] == target[jm1] && source[im1] == target[j - 2])
min = Math.Min(min, dMinus2[im2] + cost);

dCurrent[i] = min;
if (min < minDistance) { minDistance = min; }
im1++;
im2++;
}
jm1++;
if (minDistance > threshold) { return int.MaxValue; }
}

int result = dCurrent[maxi];
return (result > threshold) ? int.MaxValue : result;
}
``````

Where `Swap` is:

``````static void Swap<T>(ref T arg1,ref T arg2) {
T temp = arg1;
arg1 = arg2;
arg2 = temp;
}
``````
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very helpful! thank you very much! –  lightxx May 7 '12 at 10:46