Cell array in a loop
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Hi everyone,
I have created a cell array of dimensions 1x10, named A. Each element contains a 100x5 matrix. Hence, I got 10 matrices 100x5. However, I want to put every matrix of the cell array into a loop. If Bis a 100x5 matrix, the loop should look like:
for t=1:100;
j=1:5;
x=B(t,j)-A(t,j)
end;
end;
At the end x should deliver a 1x10 cell array that will contain 10 elements of matrices 100x5.
I would appreciate any help. Thank you in advance!
Answers (1)
% B is already defined, a matrix of doubles
% A is already defined, a cell array of matrices
% B and the matrices in A have the same size
x = cellfun(@(X) B - X, A, 'UniformOutput', 0);
6 Comments
gsourop
on 9 Nov 2016
Mostafa
on 9 Nov 2016
You missed a bracket somewhere so I don't know do what you want this to evaluate to
x=c*inv((B(t,j)-A(t,j))*((B(t,j)-A(t,j))')*(A(t,j)-C(t,1)*ones(1,5));
In any case, what cellfun does is that it loops on a cell array and applies the same function to all the elements in it. In your case, each element is a 100x5 matrix. It can be also written as this:
for i = 1:length(A)
x{i} = B - A{i};
end
%Since A is a cell and we need to address the data inside, we used A{i}
Matlab can evaluate a summation or subtraction of two matrices when they have the same size, and can do multiplication when the inner dimensions agree (100x5 * 5x100). What you can also do, is to multiply each element in the matrix to the corresponding one in the next matrix using the .* notation.
%For example:
x = cellfun(@(X) B.*X, A, 'UniformOutput', 0);
%Let's say you want to evaluate this:
C2 = = C*ones(1,5);
x = cellfun(@(X) c*inv((B-X)*((B-X)'))*(X-C2), A, 'UniformOutput', 0);
As you can see, using cellfun doesn't change the notation that much. You need to identify the cell array (X) and write it in the equation as X, then pass it as the second argument to the cellfun.
%So basically
cellfun(@(Variable) Variable*2, CellArray, 'UniformOutput', 0);
Guillaume
on 9 Nov 2016
Note, for accuracy, the exact equivalent loop of the cellfun statement would be:
x = cell(size(A)); %output will be exactly the same shape as input
for i = 1 : numel(A) %certainly not length
x{i} = B - A{i};
end
Mostafa
on 10 Nov 2016
Since we are dealing with a 1-D array, numel and length will evaluate to the same value. I tend to use length with 1-D arrays and numel with 2-D arrays to improve code readability.
Also, pre-allocation is a good idea since it saves sufficient processor time, so consider @Guillaume's advice whenever you want to make a for loop.
Guillaume
on 10 Nov 2016
While preallocation is indeed advisable, my main reason for creating x beforehand was actually to demonstrate that cellfun creates an output the same shape as the input. Without that preallocation, the output is a row vector.
The problem with length is that you open yourself to bugs if in the future the input changes from vector to multidimensional. The above is a perfect example: if the input is a matrix instead of a vector, your loop will only process the first X elements of the ND cell array, where X is the size of the largest dimension.
My version with numel works with any shape and any number of dimensions.
For that reason, I never use length. If I want to operate over all the elements of the inputs (regardless of shape), I use numel. If I want to operate over a particular dimension, I use size with the dimension specified.
Mostafa
on 13 Nov 2016
I'm not arguing with your point, I'm saying that it's a personal preference in case of 1-D arrays (which was the case in the fore mentioned example). In my codes, whenever I see length, I immediately understand that I'm dealing with an array - not a matrix or an input of unspecified size.
I totally agree that the general form is to use numel, or even better: cellfun
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on 13 Nov 2016
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