Is it possible to capture the type of a formal argument, having only the function name and the actual arguments?
I would need something similar to decltype, but it should return the function type instead of the return type of the function.
I found a half solution with C++11. If the function is not overloaded, you can use decltype to get the signature, specifying only the function name and template arguments (if any), but not the actual arguments:
template<class F>
struct my_function_traits;
// function pointer
template<class R, class Arg>
struct my_function_traits<R(*)(Arg)> : public my_function_traits<R(Arg)>
{
typedef Arg type;
};
template<class R, class Arg1>
struct my_function_traits<R(Arg1)>
{
typedef Arg1 type;
};
namespace itk
{
template <typename PixelType, unsigned Dimension>
class Image;
}
template <typename TPixel, unsigned VDimension>
void func2(itk::Image<TPixel, VDimension>* image) {}
int main()
{
typedef my_function_traits< decltype(func2<int, 2>) > Traits;
Traits::type var = 0;
return 0;
}
This works well, but if I add this other function, decltype will not able to resolve the type:
template <typename TPixel, unsigned VDimension>
void func2(const itk::Image<TPixel, VDimension>* image, int i) {}
What makes sense, because the function name is ambiguous and both versions have the same template arguments. But the compiler must be able to figure out the correct function from the static type of the actual arguments. The problem is that as soon as I specify them, decltype returns the type of the expression, i.e. the return type of the function.
itk::Image<int, 3>* image;
int a = 3;
...
typedef my_function_traits< decltype(func2<int, 2>(image, 3)) > Traits;
My main goal is to check the constness of the first argument.
Thanks for any help!