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If I have a base class with a pure-virtual function, and a derived class that implements that function - what's the easiest way I can print out the address that the function actually gets called at?

class A { public: virtual void func()=0; }

class B:A { 
    public: 
        void func() { /*implementation*/ }
        void func2() { *** I WANT TO PRINT THE ADDRESS OF func() HERE! *** }
};

Also, what's the easiest way to print out the address of a static function in a class, and to print out the address of a global function?

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1  
When you say fast, do you mean speed of execution, or short code? –  Björn Pollex Aug 23 '11 at 19:12
1  
What do you mean by fast? Fast to program, or fast in execution time? –  Roland Illig Aug 23 '11 at 19:13
    
Doesn't this reduce to "the fastest way to print a constant"? I mean, If you use &B::func2, the address will likely be resolved at compile-time, right? –  André Caron Aug 23 '11 at 19:14
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There's only one syntax for taking the address of a member function, so I'm not sure what this question is about. –  André Caron Aug 23 '11 at 19:18
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+1 to counter anonymous downvoter (even if the question is very far from perfect) –  Cheers and hth. - Alf Aug 23 '11 at 19:36

4 Answers 4

up vote 0 down vote accepted

[Edited] As far as I know, there's no way to get the address of the function that actually will be called, regardless of virtualness. For virtual methods specifically, the method and destination of virtual dispatch is left to the implementation. However even for normal functions the function pointer may not be the actual code address of the function (although I suspect there are cases where it is).

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Indeed, but every function has an address. I'm sure B::func2() has one too! –  André Caron Aug 23 '11 at 19:22
    
@André Caron: And while it may have an address, the compiler is not required to provide it. It provides a handle: a member pointer. Nothing more. That might be an address. It might not. Technically, function pointers of any kind don't have to be addresses. They could be indices in a lookup table. –  Nicol Bolas Aug 23 '11 at 19:34
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-1 "you should be able to do std::cout << &funcname << std::endl;" is meaningless. –  Cheers and hth. - Alf Aug 23 '11 at 19:34
    
@André: In the case of member function pointers, "address" isn't necessarily equal to "pointer". A member function pointer might just as well be a pointer to a virtual table plus an index into it. Or it might be something else completely. –  sbi Aug 23 '11 at 19:42
    
@sbi: I'm totally aware of this. I've already linked to a reference on function pointer implementation in some other comment. However, OP asked for "the address that the function". Everyone who answered tried to use function pointers. –  André Caron Aug 23 '11 at 19:45

c++ does not give any portable means of printing the address of a virtual function.

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I know member function pointers are pretty messy, but why is there no support for this? Do you mean that there is no support from the standard library or that it's an illegal construct in C++? –  André Caron Aug 23 '11 at 19:21
    
I believe he means that you can only get the addresses of fully qualified functions. So A::func(), and B::func(), but not just func(). –  TBohne Aug 23 '11 at 19:24
    
@Andre: I mean that there is no support from the standard library. If you pass a member function to an iostream then I think it's converted to bool... Also there is no portable way to delve into the innards of a member pointer, but it can be done non-portably e.g. for visual c++. –  Cheers and hth. - Alf Aug 23 '11 at 19:26

The easiest way is to figure out the option to get your linker to output a link map, and look up the function name there.

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A method pointer is not always an address. It is in fact (on gcc) two things:

  • An offset
  • An address or an index

When the last bit of the member function pointer is 1 the second part is the offset in the vtable which indicate the method to call otherwise it is the address of the member function. The offset is added to the this pointer.

That's why a member function pointer is bigger than a common pointer. Also, you should notice that contrary to the function pointer, there is an overhead using member function pointer.

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