I'd like to write this

typedef void (*FunctionPtr)();

using using. How would I do that?

  • very confusing indeed, especially because function pointer identifiers usually resided in the middle of a typedef statement and move to the front using using. At least that's where I'm lost. – starturtle Jun 16 '16 at 21:01

It has a similar syntax, except you remove the identifier from the pointer:

using FunctionPtr = void (*)();

Here is an Example

If you want to "take away the uglyness", try what Xeo suggested:

#include <type_traits>

using FunctionPtr = std::add_pointer<void()>::type;

And here is another demo.

  • 21
    Dang, I hoped it would take away the ugliness :( – rubenvb May 11 '13 at 15:52
  • 10
    @rubenvb: using FunctionPtr = AddPointer<void()>; ;) – Xeo May 11 '13 at 15:52
  • 23
    @Xeo I'm not entirely convinced that's more readable. – Cubic May 11 '13 at 17:05
  • 5
    These type aliases change the type syntax from obscure, inside-out syntax to a simple left-to-right syntax, which largely eliminates the need for custom typedefs for specific APIs that make it easier to write that API's compound types. – bames53 May 14 '13 at 0:12
  • 8
    In C++14, you will be able to write: using FunctionPtr = std::add_pointer_t<void()>; – Andrzej May 15 '13 at 9:59

The "ugliness" can also be taken away if you avoid typedef-ing a pointer:

void f() {}
using Function_t = void();    
Function_t* ptr = f;


  • This is an interesting approach, though I might be worried I'd forget the * later and get confusing errors. – Apollys Jul 26 at 22:25

You want a type-id, which is essentially exactly the same as a declaration except you delete the declarator-id. The declarator-id is usually an identifier, and the name you are declaring in the equivilant declaration.

For example:

int x

The declarator-id is x so just remove it:



int x[10]

Remove the x:


For your example:

void (*FunctionPtr)()

Here the declarator-id is FunctionPtr. so just remove it to get the type-id:

void (*)()

This works because given a type-id you can always determine uniquely where the identifier would go to create a declaration. From 8.1.1 in the standard:

It is possible to identify uniquely the location in the [type-id] where the identifier would appear if the construction were a [declaration]. The named type is then the same as the type of the hypothetical identifier.


How about this syntax for clarity? (Note double parenthesis)

void func();
using FunctionPtr = decltype((func));
  • 1
    What do the double parenthesis mean in this context? A reference to a function pointer? – 0x499602D2 May 16 '13 at 20:07
  • 5
    Your FunctionPtr is not a function pointer, but decltype(&f) is, see here. – rubenvb May 17 '13 at 7:08
  • @1234597890 FunctionPtr is a non-const lvalue reference to type 'void ()' – Leo Goodstadt Jun 13 '13 at 18:04
  • @rubenvb: You are right. It is not a function pointer but a lvalue reference to the function (type). Which is why static_assert fails...<br/> Try using FunctionPtr: using namespace std; #include <iostream> void do_f() { cerr << "what?\n"; } void f(); using FunctionPtr = decltype((f)); using FunctionPtr2 = decltype(&f); // Doesn't work //using FunctionPtr3 = decltype(f); int main() { FunctionPtr ff = do_f; ff(); FunctionPtr2 ff2 = do_f; ff2(); } – Leo Goodstadt Jun 13 '13 at 18:06

Another approach might using auto return type with trailing return type.

using FunctionPtr = auto (*)(int*) -> void;

This has the arguable advantage of being able to tell something is a function ptr when the alias begins with "auto(*)" and it's not obfuscated by the identifier names.


typedef someStructureWithAWeirdName& (FunctionPtr*)(type1*, type2**, type3<type4&>);


using FunctionPtr = auto (*)(type1*, type2**, type3<type4&>) -> someStructureWithAWeirdName&;

Disclaimer: I took this from Bean Deane's "Easing into Modern C++" talk

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.