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Is it possible to deduce a non-type function pointer type template argument (function pointer) from a function argument?

template <void(*fptr)()>
  void test(void(*fp)()) { fp(); }

to call this function I must explicitly declare the function template parameter:


I know I could also do it this way:

template <void(*fptr)()>
  void test() { fp(); }


But I am just wondering if It is possible to do this way:

template <void(*fptr)()>
  void test() { fp(); }


Is it possible to declare in such a way that the compilier (GCC 4.7) will deduce from the function arguments?

Thanks alot in advance, been really wondering how to do this. -Bryan

share|improve this question
Alex, what do you mean? –  bryan sammon Sep 7 '12 at 16:11
I misunderstood, but let me try something. –  Alex Brown Sep 7 '12 at 16:20
Broadly speaking, the code above should work. What problems are you having? –  Pete Becker Sep 7 '12 at 16:39
I think I have a reasonable solution (below) –  Alex Brown Sep 7 '12 at 17:15
You should review the code in the question, as it does not really make sense. In particular, in the last block test takes no arguments, but you are calling it with a function. At any rate, providing the argument would not cut it... the usual questions are: do you really need the function pointer to be a compile time argument? or would a runtime argument suffice (then you can infer the type of the function pointer, but pass the actual pointer to the function) –  David Rodríguez - dribeas Sep 7 '12 at 17:35

4 Answers 4

up vote 1 down vote accepted

Bryan, that seems to be quite eccentric mix of low-level C and C++. Why do you need that? Why not to use functors?

struct clean
    void operator() () 
        // do something here        

template <typename FuncType> void call_func(FuncType func)

// here is how to pass 'clean' to be called

More on functors, for example, here: http://www.cprogramming.com/tutorial/functors-function-objects-in-c++.html

share|improve this answer
That is awesome, I like this idea best –  bryan sammon Sep 7 '12 at 16:29
Gosh, I guess we were mistaken when we designed all of the standard library components that take function objects so that they work with pointers to functions. <g> –  Pete Becker Sep 7 '12 at 16:37
@PeteBecker, Ive only been practicing c++ for about 8 months, am I missing something, the functor idea looks pretty cool, but I understand your a real expert on the topic. Should I look into something else? –  bryan sammon Sep 7 '12 at 16:54
@bryansammon - if a function object works for you, use it. I was responding more to the "eccentric mix of low-level C and C++" bit. The fundamental notion here is what the standard calls a "callable type". It encompasses function pointers, objects whose type has an operator(), pointers to member functions, and (don't ask!) pointers to member data. All of the function wrappers (except, for obvious reasons, memfun and memfn) handle any callable type. –  Pete Becker Sep 7 '12 at 17:00
@PeteBecker C standard library you mean? In standard library for C++ (STL), functors are used widely... –  Sergey Sirotkin Sep 7 '12 at 17:07

Is it possible to deduce a non-type template argument (function pointer) from a function argument?

No. Function arguments are runtime entities, and template arguments are compile-time entities. To be deduced, such a template argument would have to be deduced at runtime, which is just not possible.

share|improve this answer
But in thsi case, (despite what he says) all he needs to do is deduce the function type from the function argument, which is available at compile-time. The actual value is being passed as the argument. –  Alex Brown Sep 7 '12 at 17:19
Yeah, judging from the accepted answer that seems like it, despite the fact that the question starts with "Is it possible to deduce a non-type template argument (...)". I guess it was another case of the XY problem... sigh. –  R. Martinho Fernandes Sep 7 '12 at 17:25

I this this may do what you want:

Declare a base template which doesn't have a function type yet:

template <typename T> void test(T fp) { printf("function signature not supported\n"); }

Specialise for function types (mostly number of arguments):

typedef void(fptr0)();
template <> void test(fptr0 fp) { fp(); }
typedef void(fptr1)(int);
template <> void test(fptr1 fp) { fp(1); }

Declare some test functions with different signatures:

void myfn0() { printf("hi 0\n"); }
void myfn1(int x) { printf("hi 1:%i\n",x); }
void myfnD(float y) { printf("hi D %f\n",y); }

Now execute them:

int main(int,char**) {
   return 0;


hi 0
hi 1:1
function signature not supported
share|improve this answer
I suspect this isn't what you wanted. –  Alex Brown Sep 7 '12 at 16:55
Yea, I like the functor idea better. I was looking for doing something like you added, but without the explicit template parameters when you call the function –  bryan sammon Sep 7 '12 at 17:00
okay, I have removed the explicit template parameters –  Alex Brown Sep 7 '12 at 17:10
just for fun, try adding these templates to the mix: template <typename E> void test(void(*fp)(E)) { printf("function type for 1-arg signature not supported\n"); } template <typename E, typename F> void test(void(*fp)(E,F)) { printf("function type for 2-arg signature not supported \n"); } –  Alex Brown Sep 7 '12 at 17:14

Is this what you're looking for?

#include <iostream>

typedef void (*fptr)();

void f() {
    std::cout << "hello, world\n";

template <class fptr> void g(fptr fp) {

int main() {
    return 0;
share|improve this answer

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