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More of a general MATLAB question than looking for programming advice -- if I have:

y = cellfun(@(x)sum(x(:)), Z, 'un', 0);

where there are a combinations of NaN's and real numbers in each cell matrix, when I sum all elements of those matrices per cell, will I always get total = NaN because there are NaN's in there, or will they be ignored and just sum the real numbers. The reason I ask is because I am getting:

y = [NaN] [NaN] [NaN]
    [NaN] [NaN] [NaN]
    [NaN] [NaN] [NaN]

an example cell matrix (cell element) would be:

x{1,1} = NaN 2   3
         4   5   6
         7   8   9

so I would expect the first element of y to be:

y{1,1} = 44

How am I not getting this?

share|improve this question
up vote 2 down vote accepted

To ignore the NaNs, just use vector indexing in your anonymous function, by replacing the colon (:)
with ~isnan(x):


So you get:

y = cellfun(@(x)sum(x(~isnan(x))), Z, 'un', 0);
share|improve this answer
y = cellfun(@(x) {sum(x(~isnan(x)))} , Z); is more readable. Check out stackoverflow.com/questions/9044712/… – Andrey Rubshtein Jul 2 '12 at 11:32
It allows returning cell array output when running cellfun. - Check out the link above – Andrey Rubshtein Jul 2 '12 at 11:34
@Andrey Thanks for the info. I think I'll stick to my answer for now, since it changes less of the OP's original syntax. – Eitan T Jul 2 '12 at 11:37

You should use nansum (from the Statistics toolbox) rather than sum.

If you don't have the Statistics toolbox, then you can define nansum easily by:

function x = nansum(array,dim)

if nargin < 2
    if size(array,1) == 1
        dim = 2;
        dim = 1;

array(isnan(array)) = 0;

x  = sum(array,dim);

Essentially, the issue is that sum tried to sum every element of the input vector. If one of those elements is NaN then the entire sum is NaN (you can think of NaN as representing unknown data - obviously if you don't know what one of the pieces of data is, then you can't know what the sum of all pieces of data is either).

The function nansum treats all missing data as zero, so the following code gives the result you expect:

>> nansum( [NaN 2 3 4 5 6 7 8 9] )
ans =
share|improve this answer

If you don't have statistics toolbox, you should use ignoreNan from the file exchange.


In your case, you should reshape the matrix first:


It is also more generic than nansum, in the sense that it can be used for any function - whether custom or built-in.

share|improve this answer
all work fine. thanks for your help! – brucezepplin Jul 2 '12 at 12:21

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