I have a (pretty complicated - for me anyway) cellfun operation and I need a wise head to cast their eye over it to tell if is actually doing what I have intended:

```
b = cellfun(@(x) nansum(bsxfun(@times, mag(:),cross(u{1},x))),r,'UniformOutput',false);
size(mag)
ans =
81 3
size(u{1})
ans =
81 3
size(r)
ans =
1 81
```

u and r are cell arrays. The algorithm I need:

-> take each element of u{1} and cross product those with each element of r{1}. -> multiply the resulting 81 x 3 cell with mag (size 81 x 3). -> take each element of u{1} and cross product those with each element of r{2}. -> multiply the resulting 81 x 3 cell with mag (size 81 x 3).

and so on.....

I am getting the following error:

```
??? Error using ==> bsxfun
Non-singleton dimensions of the two input arrays must match each other.
Error in ==> cellcross>@(x)nansum(bsxfun(@times,mag(:),cross(u{1},x))) at 2
b = cellfun(@(x) nansum(bsxfun(@times, mag(:),cross(u{1},x))),r,'UniformOutput',false);
Error in ==> cellcross at 2
b = cellfun(@(x) nansum(bsxfun(@times, mag(:),cross(u{1},x))),r,'UniformOutput',false);
```

where is my logic failing me? would it be easier to change mag to a cell array, like u, and then do the mulitplication using cellfun?

would also point out that removing mag:

```
b = cellfun(@(x) nansum(cross(u{1},x)),r,'UniformOutput',false);
```

works as expected, so it is a problem with multiplying the result by u.

**edit for gunthers comment:**

Let's just say I have two objects u and r - both are cell

```
u =
1 1 0 1st element
2 2 0 2nd element
3 3 0 3rd element
r =
3 3 0
2 2 0
1 1 0
```

all I want to do is:

```
cross(u{1},r{1})
```

= cross([1 1 0],[3,3,0]) + cross([2 2 0],[2,2,0]) + cross([3 3 0],[1,1,0])

Then repeat:

```
sum(cross(u{1},r{2}))
sum(cross(u{1},r{3}))
.
.
.
.
```

`cell/array/...fun`

call (assuming no recursion, interdependence, etc.) – Gunther Struyf Sep 6 '12 at 11:43`cellfun`

rather than a loop? It looks like this may be a situation where a for loop will result in cleaner, easier to understand/debug code. Additionally, it is certainly possible that a for loop will execute just as fast (if not faster) than`cellfun`

. (Obviously you would want to use tic/toc or the MATLAB Profiler to see if this is true for your particular use case) – grungetta Sep 7 '12 at 15:41