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After getting an answer to this question I discovered there are two valid ways to typedef a function pointer.

typedef void (Function) ();
typedef void (*PFunction) ();

void foo () {}

Function * p = foo;
PFunction  q = foo;

I now prefer Function * p to PFunction q but apparently this doesn't work for pointer-to-member functions. Consider this contrived example.

#include <iostream>

struct Base {
    typedef void (Base :: *Callback) ();
                        //^^^ remove this '*' and put it below (i.e. *cb)
    Callback cb;

    void go () {
        (this->*cb) ();

    virtual void x () = 0;

    Base () {
        cb = &Base::x;

struct D1 : public Base {
    void x () {
        std :: cout << "D1\n";

struct D2 : public Base {
    void x () {
        std :: cout << "D2\n";

int main () {
    D1 d1;
    D2 d2;
    d1 .go ();
    d2 .go ();

But if I change it to the new preferred style: typedef void (Base :: Callback) () and Callback * cb, I get a compiler error at the point of typedef

extra qualification 'Base::' on member 'Callback'

Demo for error.

Why is this not allowed? Is it simply an oversight or would it cause problems?

share|improve this question
+1; nice question. – iammilind Sep 15 '11 at 10:41
@Als now take the * away from typedef and you'll see what he means. – RedX Sep 15 '11 at 10:46
@Als, no it doesn't compile. – iammilind Sep 15 '11 at 10:47
To be precise: typedef void Function(); defines an alias to the type function taking not arguments and returning nothing, note that there is no pointer in the type there... That typedef defines the signature of a function, not a pointer to a function with that signature. – David Rodríguez - dribeas Sep 15 '11 at 10:51
up vote 10 down vote accepted

For non-member functions, a type such as typedef void(Function)() has several uses, but for member functions the only application is to declare a variable which holds a function pointer. Hence, other than a stylistic preference, there's no strict need to allow this syntax and it has been omitted from the standard.


The :: is a scope resolution operator, and the syntax X::Y is reserved for static member access if X is a class type. So X::*Z was another syntax invented to define pointer-to-member.

Forget member-function for a while, just think about member-data, and see this code:

struct X
   int a;

int X::*pa = &X::a; //pointer-to-member
X x = {100}; //a = 100
cout << (x.*pa) << endl;

It defines a pointer-to-member-data, and the cout uses it to print the value of a of object x, and it prints:


Demo :

Now think, if X::pa (as opposed to X::*pa) were allowed to do that, then you've written the above as:

int X::pa = X::a; //not &X::a

Seeing this syntax, how would you tell if X::a is a static member or non-static member? That is one reason why the Standard came up with pointer-to-member syntax, and uniformly applies it to non-static member-data as well as non-static member-function.

In fact, you cannot write X::a, you've to write &X::a. The syntax X::a would result in compilation error (see this).

Now extend this argument of member-data to member-function. Suppose you've a typedef defined as:

typedef void fun();

then what do you think the following code does?

struct X
   fun a;

Well, it defines member a of type fun (which is function taking no argument, and returning void), and is equivalent to this:

struct X
   void a();

Surprised? Read on.

struct X
   fun a; //equivalent to this: void a();

void X::a() //yes, you can do this!
     cout << "haha" << endl;

We can use exactly the same syntax to refer to a which is now a member-function:

X x;
x.a(); //normal function call

void (X::*pa)() = &X::a; //pointer-to-member
(x.*pa)(); //using pointer-to-member

The similarity is the synatax on the right hand side : &X::a. Whether a refers to a member-function or member-data, the syntax is same.

Demo :


As we know that we cannot write X::a on the RHS, no matter if a is a member-data or member-function. The only syntax which is allowed is &X::f which makes it necessary that the target type (on LHS) must be pointer as well, which in turn makes the syntax void (X::*pa)() absolutely necessary and fundamental, as it fits in with other syntax in the language.

share|improve this answer
Argument for static member access is quite reasonable. However, one thing is still to be addressed that, for member function pointer syntax we enclose it in () which will distinguish it with the static members. – iammilind Sep 15 '11 at 11:12
@iammilind: I don't quite follow your comment... in the case of a member function, as in the case of a non-member function, you have to enclose with () which is funnily interpreted as enclosing everything else other than what is inside the parenthesis (niceties of the C declaration syntax) in the declaration, to distinguish the pointer to function from a function returning a pointer. I don't see where static members have anything to do with that set of parenthesis, or maybe I misunderstood your comment? – David Rodríguez - dribeas Sep 15 '11 at 11:20
@David, according to Nawaz's answer, :: is reserved for static member access (when used with class at LHS). So it's difficult for compiler to interpret that :: is meant for class member function pointer declaration. I agree with that. ..... However, it can be argued that member function pointer can be still distinguished by extra () we put across. E.g. typedef void (Base :: Callback) (); ... in this case we can still say that Callback should be meant for class members and not static members; because it's enclosed in (). – iammilind Sep 15 '11 at 11:25
I'm pretty sure your final section on int X::pa=X::a; isn't relevant because it neither makes sense in and of itself nor has an analogy in member functions. You're talking about objects not types. – spraff Sep 15 '11 at 11:31
@spraff: Because in case of non-member function, Function doesn't exist only for the syntax Function *x. It has other uses where PFunction cannot be used. One example is in my answer itself struct X { fun a; };. Trying using the typedef void (*fun)() here. It would not work. But in case of member function, there is no other use. So if the only is line : MemFunction *x, then why not make MemFunction is pointer itself, because * is a fundamental part of the syntax. – Nawaz Sep 15 '11 at 13:24

To be precise the two typedef's in the case of the non-member pointers are not the same:

typedef void function();
typedef void (*fptr)();

The first defines function as a function taking no arguments and returning void, while the second defines ftpr as a pointer to function taking no arguments and returning void. The confusion probably arises as the function type will be implicitly converted to a pointer type in many contexts. But not all:

function f;            // declares void f();
struct test {
   function f;         // declares void test::f()
void g( function f );  // declares g( void (*f)() ): function decays to pointer to function in declaration
g( f );                // calls g( &f ): function decays to pointer to function
void f() {}            // definition of f
// function h = f;     // error: cannot assign functions
function *h = f;       // f decays to &f
share|improve this answer
Your remove_ptr doesn't work: I guess this means a pointer to type void() is not the same as the type void(*)() ?! – spraff Sep 15 '11 at 11:25
@spraff: You are right, the remove_ptr does not seem to be able to remove the pointer from a pointer to member. Now that I think about it, it would be technically impossible to do that, as the pointer to member is implemented not as a real pointer but as a complex structure that contains different information: for a member variable it will contain an offset from the beginning of the object, for a non-virtual function it will be a pointer to the actual function, and for a virtual function it has to contain an offset from the vtable... I will remove that part of the answer. – David Rodríguez - dribeas Sep 15 '11 at 11:44

Let's skip the "function" part for a second. In C++, we have the int, the int* and the int Foo::* types. That's a regular integer, pointer to integer, and a pointer to an integer member. There is no fourth type "integer member".

Exactly the same applies to functions: there's just no type "member function", even though there are function types, function pointer types, and member function pointer types.

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