# How to sum matrix (vector) elements in a structure

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:

``````myStructure(1,5)

ans =

var: 1
val: [0.0100 0.1800 0.8100]

sum(myStructure(1,5).val)

ans =

1

myStructure(7,8)

ans =

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

myStructure(7,8).val

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.

-
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

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:

``````[N,M]=size(myStructure);
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 `val`length 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);
``````
-

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
end
end
``````

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
``````
-