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I'm having trouble adding two arrays with different sizes. When I explored a bit on this site it seemed like most questions involved vectors with different sizes, but not actual matrices with multiple dimensions in both rows and columns.

I know it "doesn't make sense" mathematically to add matrices with different dimensions. It's just a tool I'm using to make code work easier, but here goes the question:

A = magic(4);
B = magic(3);
C = A + B

That is basically what I want to do. I just want to make B have zeros along the 4th row and 4th column, and then I could have the same dimensions and add them. But how do I do it? Thanks in advance =)

EDIT: Also, in particular I would like to add B to A in a way so the original 3x3 from A basically "moves over" 1 column but stays in the same row.

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closed as off-topic by Eitan T, Mario Sannum, Jeremiah Willcock, Will Eddins, Graviton Jul 17 '13 at 6:28

This question appears to be off-topic. The users who voted to close gave this specific reason:

  • "Questions asking for code must demonstrate a minimal understanding of the problem being solved. Include attempted solutions, why they didn't work, and the expected results. See also: Stack Overflow question checklist" – Eitan T, Mario Sannum, Jeremiah Willcock, Will Eddins, Graviton
If this question can be reworded to fit the rules in the help center, please edit the question.

I'm not sure I understand your edit. Care to give an example? – beaker Jul 15 '13 at 15:18
up vote 3 down vote accepted

pad the array B with zeros before adding A and B. Use the function "padarray"

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@A S Ahh! Thank you that is the perfect thing =) – spaderdabomb Jul 15 '13 at 13:01
@ASHmm...actually it's being a little difficult. The argument 'pre' for padarray almost does what I want, except I only one it to 'pre' in the column dimension and 'post' in the row dimension....I do not see a method to do that. – spaderdabomb Jul 15 '13 at 13:08

Note that padarray requires the Image Processing Toolbox to be installed.

A native solution involving padding would look like this:

C = B;
C(end + 1:size(A, 1), end + 1:size(A, 1)) = 0;
C = C + A;

This assumes that matrix A is larger in dimensions than B, but you can easily modify this code if not.

An alternative to padding is adding the matrix B to the appropriate elements in A. This can be accomplished in a lot of ways, for instance:

C = zeros(max(size(A), size(B)));  %// Preallocate matrix to accommodate result
C(1:size(A, 1), 1:size(A, 2)) = A;
C(1:size(B, 1), 1:size(B, 2)) = C(1:size(B, 1), 1:size(B, 2)) + B;

This specific example computes the indices of the elements of A and B in the matrix C, and sums overlapping elements.

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Assuming A may be re-used destructively, you can also accomplish it with direct indexing into A. This saves a dependency (padarray) and reduces the memory complexity to O(N) (instead of O(N²) for padarray or manual padding):

idx = {1:size(B,1), 1:size(B,2)};
A(idx{:}) = A(idx{:}) + B;

Or, for arbitrarily shaped matrices,

A(1:size(B,1),1:size(B,2),2) = B;

but I advise you to be really careful with all this, and at most use it sparingly. The fact that it is not possible natively is actually a protection against creating bugs. The dimensions of a matrix have mathematical meaning; trying to automate resizing by one of the standard operations breaks the mathematical rules, which more often than not is a fertile breading ground for bugs.

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What if you don't want to modify matrix A? :) – Eitan T Jul 15 '13 at 13:46
@EitanT: then just say C = A and index C :) – Rody Oldenhuis Jul 15 '13 at 13:52
and what if A is smaller in size than B? (Just nitpickin'... :P ) – Eitan T Jul 15 '13 at 14:12
@EitanT or size(A,1) > size(B,1) and size(A,2) < size(B,2) (Just sayin'... :P ) – beaker Jul 15 '13 at 14:30
@EitanT: I must admit I saw your solution only after I posted the second edit to my answer, so I apologize if it seemed I tried to hijack your post. And you weren't irritating me, just...stimulating me to conjure up good counterarguments :p – Rody Oldenhuis Jul 15 '13 at 14:55

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