# string “cross correlation” in matlab

Assume that I have 2 strings of characters:

``````AACCCGGAAATTTGGAATTTTCCCCAAATACG

CGATGATCGATGAATTTTAGCGGATACGATTC
``````

I want to find by how much I should move the second string such that it matches the first one the most.

There are 2 cases. The first one is that we assume that the string are wrapped around, and the second one is that we don't.

Is there a matlab function that does returns either a N array or 2N+1 array of values for how much the shifted string 2 correlates with string 1?

If not, is there a faster/simpler method than something like

``````result = zeroes(length, 1)
for i = 0:length-1
result(i+1) = sum (str1 == circshift(str2, i));
end
``````
-
You might like to take a look at Bioinformatics Toolbox, which contains implementations of Smith-Waterman and Needleman-Wunsch alignment algorithms. –  Sam Roberts Jun 15 '13 at 8:59

You can convert each char into a binary column of size 4:

``````A -> [1;0;0;0]
C -> [0;1;0;0]
G -> [0;0;1;0]
T -> [0;0;0;1]
``````

As a result a string of length `n` becomes a binary matrix of size `4`-by-`n`.

You can now cross-correlate (along X axis only) the two `n`-by-4 and `m`-by-4 to get your result.

-
Why `4`-by-`n` matrix? Isn't it simpler to convert the string to ASCII codes with `double(String)` and work with `1`-by-`n` (or `n`-by-`1`, if you like) vector? –  anandr Jun 14 '13 at 5:51
@anandr - good question. If you convert the string to numeric (by ascii or any other conversion) you will have positive correlation between the numeric values of one character and a different one. By converting to binary vectors the correlation between two vectors of different chars is zero. –  Shai Jun 14 '13 at 6:07
Good point. +1 for solving one of my old problems in more efficient way :o) –  anandr Jun 14 '13 at 8:17
Fascinating. The conversion would be done through a for loop, I'd imagine? –  user e to the power of 2pi Jun 20 '13 at 17:20
@useretothepowerof2pi not at all! you can use look-up-table and vectorize this operation quite easily. –  Shai Jun 20 '13 at 18:17

With a hat tip to John d'Errico:

``````str1 = 'CGATGATCGATGAATTTTAGCGGATACGATTC';
str2 = 'AACCCGGAAATTTGGAATTTTCCCCAAATACG';

% the circulant matrix
n = length(str2);
C = str2( mod(bsxfun(@plus,(0:n-1)',0:n-1),n)+1 ); %//'

% Find the maximum number of matching characters, and the amount
% by which to shift the string to achieve this result
[score, shift] = max( sum(bsxfun(@eq, str1, C), 2) );
``````

Faster yes, simpler...well, I'll leave that up to you to decide :)

Note that this method trades memory for speed. That is, it creates the matrix of all possible shifts in memory (efficiently), and compares the string to all rows of this matrix. That matrix will contain `N²` elements, so if `N` becomes large, it's better to use the loop (or Shai's method).

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But this will not give me an array of how much they match, will it? –  user e to the power of 2pi Jun 13 '13 at 22:04
"I want to find by how much I should move the second string such that it matches the first one the most." That's what I implemented... –  Rody Oldenhuis Jun 13 '13 at 22:07
But just remove the `max(...)` and you'll get the full array for all shifts. –  Rody Oldenhuis Jun 13 '13 at 22:08
@RodyOldenhuis sometimes you just can't make them happy... +1 for the nice solution (and patience) –  Shai Jun 13 '13 at 22:17
Indeed, some people are just naturally unhappy. Hmm, n won't be too large, I think. So this solution will work. –  user e to the power of 2pi Jun 20 '13 at 17:23