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How do I get the absolute address of a member function in C++? (I need this for thunking.)

Member function pointers don't work because I can't convert them to absolute addresses (void *) -- I need to know the address of the actual function in memory, not simply the address relative to the type.

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Might be worth mentioning that this is for Visual C++ in more than just tags, save anyone who overlooks them from wasting time on the obvious answer, "you can't". –  Steve Jessop Nov 14 '11 at 12:12
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@thiton: Suppose the function that Mehrdad wants the actual location of, happens to be a virtual function. Then the base class implementation still has an entry point somewhere in the executable, but a pointer-to-member for that function will not refer to that entry point, because a call through it uses the virtual mechanism. –  Steve Jessop Nov 14 '11 at 12:15
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@thiton: It doesn't work as simple as that. Virtual functions and multiple inheritance add complexity. –  MSalters Nov 14 '11 at 12:16
    
Why do you want to do that? –  ali_bahoo Nov 14 '11 at 12:20
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Out of interest, why do you need the address for thunking? That is: why can't you just keep the member function pointer around, since you need to keep an instance pointer to use it anyway? –  Useless Nov 14 '11 at 12:57
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2 Answers

up vote 8 down vote accepted

There exists a syntax to get the address of the member function in MSVC (starting from MSVC 2005 IMHO). But it's pretty tricky. Moreover, the obtained pointer is impossible to cast to other pointer type by conventional means. Though there exists a way to do this nevertheless.

Here's the example:

// class declaration
class MyClass
{
public:
    void Func();
    void Func(int a, int b);
};

// get the pointer to the member function
void (__thiscall MyClass::* pFunc)(int, int) = &MyClass::Func;

// naive pointer cast
void* pPtr = (void*) pFunc; // oops! this doesn't compile!

// another try
void* pPtr = reinterpret_cast<void*>(pFunc); // Damn! Still doesn't compile (why?!)

// tricky cast
void* pPtr = (void*&) pFunc; // this works

The fact that conventional cast doesn't work, even with reinterpret_cast probably means that MS doesn't recommend this casting very strongly.

Nevertheless you may do this. Of course this is all implementation-dependent, you must know the appropriate calling convention to do the thunking + have appropriate assembler skills.

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What you're seeing is implementation-dependent behavior and is nonportable. This technique may stop working at any time. As for the "why?" it's because member function pointers are not function pointers. They are weird complicated things. –  Raymond Chen Nov 14 '11 at 14:22
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@Raymond Chen: of course the is "implementation-dependent" and "nonportable". And I mentioned that. But this doesn't necessarily mean this should never be done. Do this at will, just be aware of consequences. –  valdo Nov 14 '11 at 14:33
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You may be surprised what happens if Func is a virtual function. –  Raymond Chen Nov 14 '11 at 14:56
    
Oh damn, that's really clever. Thanks. –  Mehrdad Nov 14 '11 at 15:08
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I'm not sure whether this line void* pPtr = (void*&) pFunc; is portable or not but works in gcc and msvs. I most interested in knowing why (void*&) pFunc; but (void*) pFunc; doesn't works? . both are almost same thing except you add the lvalue ref. Can you explain why one works and other doesn't? –  Mr.Anubis Apr 7 '12 at 9:55
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By default, C++ member functions use the __thiscall calling convention. In order to Detour a member function, both the trampoline and the detour must have exactly the same calling convention as the target function. Unfortunately, the VC compiler does not support a __thiscall, so the only way to create legal detour and trampoline functions is by making them class members of a "detour" class.

In addition, C++ does not support converting a pointer to a member function to an arbitrary pointer. To get a raw pointer, the address of the member function must be moved into a temporrary member-function pointer, then passed by taking it's address, then de-referencing it. Fortunately, the compiler will optimize the code to remove the extra pointer operations.

from Microsoft Detour library. They deal with code injection and discuss getting address of non-virual member functions. Of course it is compiler implementation specific stuff.

you can find the library here http://research.microsoft.com/en-us/downloads/d36340fb-4d3c-4ddd-bf5b-1db25d03713d/default.aspx

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