# Octave: Multiple submatrices from a matrix

I have a large matrix from which I would like to gather a collection of submatrices. If my matrix is NxN and the submatrix size is MxM, I want to collect `I=(N - M + 1)^2` submatrices. In other words I want one MxM submatrix for each element in the original matrix that can be in the top-left corner of such a matrix.

Here's the code I have:

``````for y = 1:I
for x = 1:I
index = (y - 1) * I + x;
block_set(index) = big_mat(x:x+M-1, y:y+M-1)
endfor
endfor
``````

The output if a) wrong, and b) implying there is something in the `big_mat(x:x+M-1, y:y+M-1)` expression that can get me what I want without needing the two for loops. Any help would be much appreciated

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It appears that you are doing this in Octave, but maybe this MATLAB question will help to give you some ideas: stackoverflow.com/questions/2678857/…. – gnovice Apr 26 '10 at 20:33

There seem to be a few things wrong in your code. Here's how I'd do it if I were to use the double loop:

``````M = someNumber;
N = size(big_mat,1); %# I assume big_mat is square here

%# you need different variables for maxCornerCoord and nSubMatrices (your I)
%# otherwise, you are going to index outside the image in the loops!
maxCornerCoord = N-M+1;
nSubMatrices = maxCornerCoord^2;

%# if you want a vector of submatrices, you have to use a cell array...
block_set = cell(nSubMatrices,1);
%# ...or a M-by-M-by-nSubMatrices array...
block_set = zeros(M,M,nSubMatrices);
%# ...or a nSubMatrices-by-M^2 array
block_set = zeros(nSubMatrices,M^2);

for y = 1:maxCornerCoord
for x = 1:maxCornerCoord
index = (y - 1) * maxCornerCoord + x;
%# use this line if block_set is a cell array
block_set{index} = big_mat(x:x+M-1, y:y+M-1);
%# use this line if block_set is a M-by-M-by-nSubMatrices array
block_set(:,:,index) = big_mat(x:x+M-1, y:y+M-1);
%# use this line if block_set is a nSubMatrices-by-M^2 array
block_set(index,:) = reshape(big_mat(x:x+M-1, y:y+M-1),1,M^2);
endfor
endfor
``````

EDIT

I just saw that there is an implementation of im2col for Octave. Thus, you can rewrite the double-loop as

``````%# block_set is a M^2-by-nSubMatrices array
block_set = im2col(big_mat,[M,M],'sliding');

%# if you want, you can reshape the result to a M-by-M-by-nSubMatrices array
block_set = reshape(block_set,M,M,[]);
``````

This is probably faster, and saves lots of digital trees.

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Thanks; is there a way to do it without the double-loop? I'm assuming if there is the performance of such would be much better than the looped version... – fbrereto Apr 26 '10 at 23:42
@fbereto: It turns out you can write this as a 1-liner. See my edit. – Jonas Apr 27 '10 at 0:30
@Jonas: oh it seems you already thought of IM2COL, I guess I didnt see your edit... Consider adding permute/reshape to turn it into the desired shape: `block_set = reshape(permute(im2col(big_mat,[M M],'sliding'),[1 3 2]),2,2,[]);` – Amro Apr 27 '10 at 1:09
BTW the proper link to the function documentation is: octave.sourceforge.net/image/function/im2col.html – Amro Apr 27 '10 at 1:12
@Amro: Thanks for the suggestions! I think the call to permute isn't necessary, though - or is this something special about Octave? – Jonas Apr 27 '10 at 1:34

With Mathematica: This code makes a matrix where each element is a matrix of MxM with each element in the original matrix in the top-left corner of such a matrix.

The matrix elements along the right and bottom are padded with x.

``````Partition[big_mat, {M, M}, {1, 1}, {1, 1}, x]
``````

Example:

If you leave off x argument, then then it automatically samples periodically.

-

About your output being wrong, it might be because of the assignment. You're trying to assign a matrix to a vector position. Try using

``````block_set(:,:,index) = big_mat(x:x+M-1, y:y+M-1)
``````