You can get the type by template metaprogramming:

```
template <class F> struct ArgType;
template <class R, class T>
struct ArgType<R(*)(T)> {
typedef T type;
};
void f(int) {}
#include <type_traits>
#include <iostream>
int main() {
// To prove
std::cout << std::is_same< ArgType<decltype(&f)>::type, int >::value << '\n';
// To use
ArgType<decltype(&f)>::type a;
}
```

Depending on where you want to use it you'd need to specialize this litte template for other callable entities such as member function poitners, functions with more arguments, functors etc. There are more sophisitcated approaches in the Boost libraries, see e.g. http://stackoverflow.com/a/15645459/1838266

**Caveat:** all these utilities work only if the name of the function/callable is unambiguously mapped to one single function signature. If a function is overloaded or if a functor has more than one `operator()`

, the right function/operator has to be picked by explicitly casting to the right signature, which makes finding out part of the signature via the template pretty useless. This applies in a certain way to templates as well, although getting the signature of an explicitly secialized callable might still be useful, e.g.:

```
template <unsigned N, class F> struct Argtype; //somewhat more sophisitcated
template <class T> void f(int, T);
ArgType<0, decltype(&f<double>)> //int - ArgType has it's use here
ArgType<1, decltype(&f<double>)> //double - here it's useless...
```

`f`

is overloaded or a functor with overloaded`operator()`

's – Arne Mertz Mar 25 at 11:03`int a=0`

will be promoted to`double`

if you use it in that context, right? – KitsuneYMG Mar 25 at 13:33