Here's how I would do it:

```
% some example data
A = { [], [], [3 4 5]
[4 8 ], [], [0 2 3 0 1] };
p = 4; % value of interest
% Finding the indices:
% -------------------------
% use cellfun to find indices
I = cellfun(@(x) find(x==p), A, 'UniformOutput', false);
% check again for empties
% (just for consistency; you may skip this step)
I(cellfun('isempty', I)) = {[]};
```

Call this method1.

A loop is also possible:

```
I = cell(size(A));
for ii = 1:numel(I)
I{ii} = find(A{ii} == p);
end
I(cellfun('isempty',I)) = {[]};
```

Call this method2.

Comparing the two methods for speed like so:

```
tic; for ii = 1:1e3, [method1], end; toc
tic; for ii = 1:1e3, [method2], end; toc
```

gives

```
Elapsed time is 0.483969 seconds. % method1
Elapsed time is 0.047126 seconds. % method2
```

on Matlab R2010b/32bit w/ Intel Core i3-2310M@2.10GHz w/ Ubuntu 11.10/2.6.38-13. This is mostly due to JIT on loops (and how terribly `cellfun`

and anonymous functions seem to be implemented, mumblemumble..)

Anyway, in short, use the loop: it's better readable, and an order of magnitude faster than the vectorized solution.