I have a matrix A and B as the following:

A = [1 NaN 3 4 5 NaN NaN 8 9 10];
B = [2 6 7];

Matrix B has the same size as there are NaN values in matrix A (so 3x1 in this case).

I would like to replace the NaN values in the same order as the values appear in B. So the output should look like:

C = [1 2 3 4 5 6 7 8 9 10];

I can replace the NaN, if both matrices have the same size. For T = 10 and N = 1, I would use:

for t=1:T
    for i=1:N
        if A == NaN
        C(t,i) = B;
        C(t,i) = A(t,i);

However, I would like to know whether I could compare these matrices and replace the values even if the matrices are of different size? Saying differently, if A = NaN take the first value of B. For the next A = NaN take the second value in B.


You can simply do:

A(find(isnan(A))) = B; % store the result of find(...) to keep track of NaN indices

isnan() is the proper way of determining whether a value is NaN (since NaN ~= NaN), while find() returns the indices of A where an element is NaN in this case.

As per @Adiel's suggestion, you can use logical indexing instead to more compactly achieve the same result, provided you don't need the indices of NaN elements later on:

A(isnan(A)) = B;
  • Thank you. That's a good point. However, just executing your code would give me "In an assignment A(:) = B, the number of elements in A and B must be the same.", as A is of size 10x1 and B is of size 3x1. – Joe Nov 23 '17 at 22:48
  • 1
    @Joe That's odd; A(find(isnan(A))) should give you a 3x1 matrix that you can assign another 3x1 matrix to, unless the number of NaNs in A doesn't match the size of B. – frslm Nov 23 '17 at 22:51
  • 2
    It's better and faster to use here logical indexing- just omit the find – Adiel Nov 23 '17 at 23:24

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