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I want to pass a function value as a template parameter to a function. Currently the best I managed to do is :

template< typename F, F f >
void pass()
{
    ...
}

...which is used:

pass< decltype(&func), &func >();

What I would really like is to have:

pass< &func >();

Is there any way to achieve this without macros? Basically to pass both the type and the value at the same time? The compiler obviously has all the information needed for that...

The solution must work with variable parameters and return types. The function value is used at compile time, so it cannot be passed as an argument.

C++11 solutions welcome.


Edit: use case - I'm generating bindings at compile-time, where I need to create a C++ function for each passed function. The use case of this code looks (simplified) more or less like this:

template < typename F, F f > 
int function_wrapper( lua_State* L ) 
{
    return dispatcher<typename return_type<F>::type>::call( L, 1, f );
}

void register_native_function( lua_Function f, const char* name )
{
    // binding call using pure C function f
}

template < typename F, F f >
void register_function( const char* name )
{
    register_native_function( function_wrapper< F, f >, name );
}

Please note that I need to create a compile-time function wrapper, so I need the pass function value at compile time. There are binding solutions that allow binding at runtime, but they always require boilerplate code compared to hand-written bindings. I'm aiming to achieve a hand-written performance here.

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2  
did you measure whether template<class F> pass (F fun) gives you any overhead at all? The fundamental problem is that you cannot pass anything other than an integral value as non-type template parameter. –  TemplateRex Jun 12 at 13:42
    
Passing the function doesn't (obviously) give any overhead, but the need to use a generic call function is significantly visible when binding things like a vec3d class whose methods may be called thousands of times during a frame. –  Kornel Kisielewicz Jun 12 at 13:57
    
@TemplateRex "you cannot pass anything other than an integral value" --- this is not quite true. –  n.m. Jun 14 at 19:32
    
The only way to pass a non-type template parameter of a type not known to the template is to pass its type as a type template parameter, then to pass the value. So decltype(&func), &func is about the best you can get. –  n.m. Jun 14 at 19:44
1  

2 Answers 2

up vote 11 down vote accepted
+50

I believe shortening this is currently impossible. A year ago, the C++ committee looked at http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2013/n3601.html to fix this, and they encouraged the authors to pursue it further after C++14 was released.

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1  
FWIW, I've been arguing for using the more compact notation template<auto X> (retrieve the type part with decltype). I believe that now has traction, so the revision of the paper will hopefully suggest that. –  Daveed V. Jun 23 at 16:05

You need to make a typedef for whatever function type you want to pass as a pointer, like this:

typedef int (*MyFunctionType)(int);

template <typename FunctionTypedef, typename ReturnType, typename ParameterType>
ReturnType callFunction(FunctionTypedef functionPointer, ParameterType i)
{
  static MyFunctionType myFunctionPointer = functionPointer;
  return (*functionPointer)(i);
}
int myFunction(int i)
{
}


int main()
{
  int i = 7;
  MyFunctionType myFunctionPointer = myFunction;
  return callFunction<MyFunctionType, int, int>(myFunctionPointer, i);
}

Edit: If you want to store these arbitrarily typed function pointers, then make a base class with a virtual "call function" function, and a templated derived class that implements this function.

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