Let us suppose that we have a function of n variables

```
y = f (x1, ..., xn)
```

Such a function I would like to pass as an argument.

In Matlab the following construction using a handle is available:

```
function y=func(x)
y = sin(x(0)) * cos(x(1)) //Any definition, not important
p_func=@func; //Define handle
```

It is possible to use the handle as a parameter of another function:

```
y = function2(p_func, n);
```

where n represents a dimension...

How to rewrite this code using C++? We use a simple model with the function template

```
temmplate <typename T>
T func( const T *arg, const short n) {return sin(arg[0]) * cos(arg[1])};
```

where xi arguments are represented by the 1-dimensional array of n elements. The problem is that in this case it is not possible to use a pointer to the function template

```
template <class T>
static T ( *pfunc ) ( const T *arg, const short n )
```

only a specialization... Perhaps another model could be more appropriate...Thanks for your help...

**Remark:**
I know that a class template is useful

```
template <typename T>
class Foo
{
T func( const T *args, const short n);
};
```

and this construction works:

```
template <class T>
static T ( *pfunc ) ( const T *arg, const short n )
```

But it may not be used in the current model of the library (I can not affect this).

But it may not be used in the current model of the library (I can not affect this)." What specifically about this can't be used? Or more to the point, what are the exact limitations? – Nicol Bolas Oct 1 '12 at 19:31