# How to make a block of matrices from large matrix in matlab?

I have a 256x256 matrix from that I want to create block of 8x8 matrices. I have a below code which shows just one block i want all the blocks then subtract a number from each element of the matrix. When i do the subtract 128 from each element it doesn't show negative values rather showing only 0.

``````[x,y] = size(M);

for i=1:8
for j=1:8
k(i,j) = M(i,j);
end
end

disp(k);

for a=1:size(k)
for b=1:size(k)
A(a,b) = k(a,b) - 128;
end
end

disp(A);
``````
-

well, if you have to subtract a fixed value it's better to do it as

``````M = M - 128;
``````

It's faster.

You said you get `0` values instead of negative ones; it is likely due to the type of the matrix which is `unsigned` (i.e. the guys are just positive). A cast to general integer is necessary. Try:

``````M = int16(M) - 128;
``````

To obtain the partition I propose the following, there can be more efficient ways, btw:

``````r = rand(256,256);            %// test case, substitute with your matrix M
[i j] = meshgrid(1:8:256);    %// lattice of indices
idx = num2cell([ i(:) , j(:) ],2); %// cell version

matr = cellfun( @(i) r(i(1):i(1)+7,i(2):i(2)+7), idx, 'UniformOutput',false); %// blocks
``````

matr will contain all the sub-matrices in lexicographical order. e.g.

``````matr{2}

ans =

0.4026    0.3141    0.4164    0.5005    0.6952    0.1955    0.9803    0.5097
0.8186    0.9280    0.1737    0.6133    0.8562    0.7405    0.8766    0.0975
0.2704    0.8333    0.1892    0.7661    0.5168    0.3856    0.1432    0.9958
0.9973    0.8488    0.6937    0.2630    0.1004    0.5842    0.1844    0.5206
0.4052    0.0629    0.6982    0.1530    0.9234    0.1271    0.7317    0.3541
0.2984    0.3633    0.1510    0.0297    0.0225    0.7945    0.2925    0.0396
0.5097    0.0802    0.8744    0.1032    0.8523    0.6150    0.4845    0.5703
0.8635    0.0194    0.1879    0.5017    0.5297    0.6319    0.2406    0.5125
``````

Explanation: In matlab you can efficiently operate on matrices and slices of them. For instance, you can easily copy submatrices, e.g. the first 8x8 matrix is

``````  sub = M(1:8,1:8);
``````

You want all the submatrices, thus you need kind of a lattice of indices to get

``````  sub_ij = M(1+8*(i-1) : 7 * 8*(i-1) , 1+8*(j-1) : 7 * 8*(j-1))
``````

i.e. you need the lattice

``````  (1+8*(i-1) : 7 * 8*(i-1) , 1+8*(j-1) : 7 * 8*(j-1))   % // for all i,j
``````

you can use `meshgrid` for that.

Finally you have to cut off the pieces, that is what the last two instruction do. particularly the first one generates the indices (try `idx{1}`,...), and the second one generates the submatrices (try `matr{1}`,...).

-
One of my 8x8 matrix is 91 93 93 95 94 92 96 97 93 95 94 94 94 93 95 100 93 94 94 92 95 97 95 99 94 95 94 94 98 99 97 96 92 94 94 94 97 98 98 101 93 93 91 94 95 96 102 104 92 91 92 93 96 95 101 101 92 94 92 90 92 97 99 100 if i use M = M-128 then I get 0 for all the elements 0 0 0 0 0 0 0 0 –  smiley Nov 27 '12 at 21:24
I am sorry i am not getting your last two lines of code idx = num2cell([ i(:) , j(:) ],2); %// cell version matr = cellfun( @(i) r(i(1):i(1)+7,i(2):i(2)+7), idx, 'UniformOutput',false); %// I have also got error while using it –  smiley Nov 27 '12 at 21:28
@sazib, I am extending the answer. –  Acorbe Nov 27 '12 at 22:30
@sazib, which error do you get? –  Acorbe Nov 27 '12 at 22:39
thanks for the solution. it works. –  smiley Nov 27 '12 at 23:17