Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm learning C++ using Eckel's "Thinking in C++". It states the following:

  • If a class contains virtual methods, a virtual function table is created for that class etc. The workings of the function table are explained roughly. (I know a vtable is not mandatory, but Visual C++ creates one.)
  • The calling object is passed to the called function as an argument. (This might not be true for Visual C++ (or any compiler).) I'm trying to find out how VC++ passes the calling object to the function.

To test both points in Visual C++, I've created the following class (using Visual Studio 2010, WinXP Home 32bit):


#pragma once
class ByteExaminer
short b[2];
    virtual void f() const;
    virtual void g() const;
    void bruteFG();


#include "StdAfx.h"
#include "ByteExaminer.h"

using namespace std;

    b[0] = 25;
    b[1] = 26;

void ByteExaminer::f(void) const
    cout << "virtual f(); b[0]: " << hex << b[0] << endl;

void ByteExaminer::g(void) const
    cout << "virtual g(); b[1]: " << hex << b[1] << endl;

void ByteExaminer::bruteFG(void)
    int *mem = reinterpret_cast<int*>(this);
    void (*fg[])(ByteExaminer*) = { (void (*)(ByteExaminer*))(*((int *)*mem)), (void (*)(ByteExaminer*))(*((int *)(*mem + 4))) };

The navigation through the vtable in bruteFG() works - when I call fg[0](this), f() is called. What does NOT work, however, is the passing of this to the function - meaning that this->b[0] is not printed correctly (garbage comes out instead. I'm actually lucky this doesn't produce a segfault).

So the actual output for

ByteExaminer be;


virtual f(); b[0]: 1307
virtual g(); b[1]: 0

So how should I proceed to get the correct result? How are the this pointers passed to functions in VC++?

(Nota bene: I'm NOT going to program this way seriously, ever. This is "for the lulz"; or for the learning experience. So don't try to convert me to proper C++ianity :))

share|improve this question
Are you just curious how it works (in which chase DeadMG's answer should satisfy you), or are you looking for something like pointer-to-member operators (which are part of the C++ language) or 'delegates', for which there are several implementations (because pointer-to-member operators have limitations), including in Boost or TR1? –  Michael Burr Jul 23 '11 at 19:13
add comment

2 Answers 2

up vote 4 down vote accepted

Member functions in Visual Studio have a special calling convention, __thiscall, where this is passed in a special register. Which one, I don't recall, but MSDN will say. You will have to go down to assembler if you want to call a function pointer which is in a vtable.

Of course, your code exhibits massively undefined behaviour- it's only OK to alias an object using a char or unsigned char pointer, and definitely not an int pointer- even ignoring the whole vtable assumptions thing.

share|improve this answer
On x86 and x64, ecx. –  James McNellis Jul 23 '11 at 18:36
oh. Thanks for the hint - googling __thiscall was actually enough. this is always passed in ecx (on x86 also). See msdn.microsoft.com/en-us/library/ek8tkfbw%28v=vs.80%29.aspx –  Hinton Jul 23 '11 at 18:38
add comment

OK using DeadMG's hint I've found a way without using assembler:

1) Remove the ByteExaminer* arg from the functions in the fg[] array 2) Add a function void callfunc(void (*)()); to ByteExaminer:

void ByteExaminer::callfunc(void (*func)())

... this apparently works because func() is the first thing to be used in callfunc, so ecx is apparently not changed before. But this is a dirty trick (as you can see in the code above, I'm always on the hunt for clean code). I'm still looking for better ways.

share|improve this answer
This should really be an edit into the question. –  Puppy Jul 23 '11 at 18:50
I've been notified recently that answers should not be included in the original question... –  Hinton Jul 25 '11 at 8:07
add comment

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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