# Adding 2x2 matrix with NaNs

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?

-

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

``````@(x)sum(x(~isnan(x)))
``````

So you get:

``````y = cellfun(@(x)sum(x(~isnan(x))), Z, 'un', 0);
``````
-
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;
else
dim = 1;
end
end

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 =
44
``````
-

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

``````   ignoreNan(array,@sum,dim)
``````

In your case, you should reshape the matrix first:

``````   ignoreNan(x(:),@sum);
``````

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

-
all work fine. thanks for your help! – brucezepplin Jul 2 '12 at 12:21