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I have a cell array of cell(1, n) called A, with each cell entry containing a matrix of mxn. So, in effect, my cell array contains n matrices of size mxn.

I then have another cell array called B, with n pxm matrices stored in it.

What I need to do is multiply the two against each other, as in: A[1] * B[1], A[2] * B[2], ..., A[n] * B[n]. I then need to store the results as individual matrices of their own, and sum them up.

The matrices are conformal for multiplication, but because cell array B contains less rows than cell array A, when I use cellfun(@times A, B, 'UniformOutput', true) I get an unequal matrices error.

This seems to indicate that cellfun can only multiply individual cells when the matrices have equal numbers of rows and columns.

Now, I could perform this by using various loops, or by calling cell2mat and mat2cell, and so on. I could also just store everything as a matrix array rather than using cells... but - I would prefer to use cells.

So - my question is: Is there a good way of doing this using only cellfun? I have tried various combinations of argument inputs already - but with no luck so far.

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2 Answers 2

up vote 1 down vote accepted

To do this with cellfun, just define your own anonymous function:

C = cellfun(@(a,b) a*b, A, B, 'UniformOutput', 0);

Now, as you posed the question, you cannot multiply A*B, because the inner dimensions don't agree. Instead, I tested this with B*A, where the dimensions do agree: p=1, m=3, n=3.

A = {eye(3), rand(3), magic(3)};
B = {[1 2 3], [3 5 1], [7 8 8]};

C = cellfun(@(a,b) b*a, A, B, 'UniformOutput', 0);

Cmat = cat(3, C{:});
S = sum(Cmat, 3);

The sum is done by concatenating each array of C over a third dimension then summing over it.

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Thank you very much, that was exactly what i was looking for, I tried something similar before but noticed I wrote something along the lines of a*b rather than b*a. Much appreciated for your help :) –  James Dec 5 '12 at 22:16
    
If this answered your question, please accept it by hitting the check mark to indicate the question is closed. If not, thanks for the kind comment :) –  Sticky073 Dec 6 '12 at 6:01

Yes, the arguments need to be of the same size. From help cellfun:

A = cellfun(FUN, B, C, ...) evaluates FUN using the contents of the cells of cell arrays B, C, ... as input arguments. The (I,J,...)th element of A is equal to FUN(B{I,J,...}, C{I,J,...}, ...). B, C, ... must all have the same size.

So either use loops, or remove the extra elements from the cell with a larger number of elements before you call cellfun:

% assuming B has more elements than A
B(numel(A)+1:end) = [];
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Unfortunately I cant delete the extra columns in the matrices. The matrices in the cells were uneven i.e. there were not of same dimension but were conformal for multiplication, both cell arrays have save number of elements just the matrices are different and cellfun(@times ,,,,) did not allow the multiplication to take place. Thanks very much for the reply regardless :) –  James Dec 5 '12 at 22:21

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