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I have a 2900 x 7 size matrix

re2 = [x y z se index xc yc];

Each column (x, y, z, se, index, xc, yc) contains numbers, all 2900 x 1 same size.

I am trying to make some submatrices from this one, by finding specific elements in 6th & 7th columns. Like this:

rexy_1_1 = re2(xc==1 & yc==1,:);
rexy_1_2 = re2(xc==1 & yc==2,:);
rexy_1_3 = re2(xc==1 & yc==3,:);
rexy_1_4 = re2(xc==1 & yc==4,:);
rexy_1_5 = re2(xc==1 & yc==5,:);
rexy_20_17 = re2(xc==20 & yc==17,:); 

But this means I need to write 340 lines to generate 340 submatrices. Is there any clever way to do this? I tried to use two for-loops:

for i=1:20
    for j=1:17
        rexy_i_j = re2(xc==i & yc==j,:);

But it did not work.

How can I get these submatrices?

share|improve this question
Ouch! You cannot produce a new variable rexy_i_j each time (i.e. rexy_1_1, rexy_1_2`` simply by assignment. This just overruns the old value of the variable literally named rexy_i_j. I would suggest using cell arrays instead: rexy{i, j}. Also, do you have actual variables named xc and yc? I think you're not extracting the sub-matrices correctly... – Eitan T Nov 5 '12 at 16:24
Thanks, xc and yc are 2700 x 1 columns, contains numbers. xc contains nunmbers range from 1 to 20, yc contains 1 to 17. – exsonic01 Nov 5 '12 at 16:53

I concur with @EitanT that you should use cell arrays rather than make lots and lots of differently named arrays. You'd then be able to access these sub-matrices as rexy{i,j}.

To construct this cell array, you can use accumarray as follows:

rexy = accumarray(re2(:,6:7),(1:size(re2,1))',[],@(x){re2(x,:)})
share|improve this answer
That is crafty - I haven't seen accumarray used like that before. If you don't need to retain xc and yc after creating the cell arrays, you could change the last argument to re2(x,1:5) too. – nicktruesdale Nov 5 '12 at 17:20
Great thanks~! I think this is really nice idea – exsonic01 Nov 6 '12 at 2:34
@user1798797: you're welcome. Please consider accepting my answer if it was helpful – Jonas Nov 6 '12 at 4:32

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