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I have a M x N sized structure array with fields var and val which are vectors.

What I would like to do is to get an M x N sized matrix A where each element A(i, j) contains the sum value of vector var (or val) from structure array

For example:


ans = 

    var: 1
    val: [0.0100 0.1800 0.8100]


ans = 



ans = 

     var: [1 3]
     val: [1x9 double]


ans =

  Columns 1 through 6

    0.1111    0.1111    0.1111    0.1111    0.1111    0.1111

  Columns 7 through 9

    0.1111    0.1111    0.1111

Therefore A(1,5) should be 1 and the same way all elements A(i,j) should be equal to sum(myStructure(i,j).val).

Does anyone know how this could be done in Matlab without using for loops?

I've tried to use sum function in a number of ways (sum(messages.val) and sum(messages(:,:).val) ...) but couldn't get the desired result.

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Is the val vector field allways the same length? eg 3 in your example? or can it vary? – Gunther Struyf Aug 7 '12 at 15:48
the val length can vary. – Niko Gamulin Aug 7 '12 at 16:00
up vote 1 down vote accepted

You can get the field elements into one matrix using:

svals = [myStructure.val];

If val is always the same length (let's name it P), this'll be a numel(myStructure)*P x 1 vector containing all values of all fields in sequence. You can reshape it of course back:

P = numel(myStructure(1,1).val);
svals = reshape(svals,[P M N]);

and now just sum the first dimension, which leaves you the MxN sized A matrix:

A = squeeze(sum(svals,1));

squeeze is applied in this last step to remove the resulting singleton dimension (otherwise A would be of size 1xMxN).

If the vallength can vary, I see no other way than looping it, or using arrayfun, which is essentially the same as looping:

A = arrayfun(@(x) sum(x.val),myStructure);
share|improve this answer

Here is a slightly different solution. First lets create an array structure for testing:

s = struct();
for i=1:5
    for j=1:3
        s(i,j).var = i+j;
        s(i,j).val = rand(1,randi(10));  %# different lengths vectors

Now we do the sum:

A = cellfun(@sum, reshape({s.val}, size(s)))

A =
       1.9278       3.0719       5.8731
       3.2377      0.43874       2.2374
       3.0661       2.8892       4.1455
       1.9093       1.4758        1.441
       4.8731       0.5308       3.4076
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