`cellfun`

is for applying a function to each *element* of a cell.

When you pass multiple arguments to `cellfun`

like that, it takes the `i`

th argument of `data`

, `indx_first`

, and `indx_last`

, and uses each of them in the anonymous function. Substituting those variables in, your function evaluates to `x(y : z)`

, for each element `x`

in `data`

. In other words, you're doing `data{i}(y : z)`

, i.e., indexing the actual *elements* of the cell array, rather than indexing the cell array itself. I don't think that's what you want. Really you want `data{y : z}`

, for each `(y, z)`

pair given by corresponding elements in `indx_first`

and `indx_last`

, right?

If that's indeed the case, I don't see a vectorized way to solve your problem, because each of the "variables" has different size. But you do know how many variables you have, which is the size of `indx_first`

. So I'd pre-allocate and then loop, like so:

```
>> vars = cell(length(indx_first), 2);
>> for i = 1:length(vars)
vars{i, 1} = data{indx_first(i) - 1}; % store variable name in first column
vars{i, 2} = [data{indx_first(i) : indx_last(i)}]; % store data in last column
end
```

At the end of this, you'll have a cell array with 2 columns. The first column in each row is the name of the variable. The second is the actual data. I.e.

```
{'var_name1', [val1 val2 val3 val4 val5];
'var_name2', [val1 val2];
.
.
.
```

`indx_last`

the same for every "loop" since it has a size of 1? – Suever Jan 11 '17 at 0:44