Loops tend to do the trick:
A = repmat(1:10,10,1);
B = repmat(1:8,10,1);
C = repmat(1:6,10,1);
D = repmat(1:4,10,1);
E = repmat(1:2,10,1);
data={A,B,C,D,E}; % put the data in 1 cell array
sz=[1 1];%pre-allocate the sz array
% cellfun('ndims',data) is faster than cellfun(@ndims,data), but there are only some functions supported
for n=1:max(cellfun('ndims',data)) % loop through all dimensions (taking the largest)
sz(n)=max(cellfun('size',data,n));% store the maximum size of each dimension
end
%If sz is not a two-element vector at this point, the next loop should be edited.
Z=zeros(sz);
for n=1:numel(data)
%find the indices to the last n columns
ind=sz(2) + (1-size(data{n},2)):0;
Z(:,ind)=Z(:,ind)+data{n};
end
disp(Z)
% confirming this is the same as your code:
A = repmat(1:10,10,1);
B = repmat(1:8,10,1);
C = repmat(1:6,10,1);
D = repmat(1:4,10,1);
E = repmat(1:2,10,1);
Z=zeros(size(A)) + A;
Z(:, 3:10) = Z(:, 3:10) + B;
Z(:, 5:10) = Z(:, 5:10) + C;
Z(:, 7:10) = Z(:, 7:10) + D;
Z(:, 9:10) = Z(:, 9:10) + E;
disp(Z)
