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I need to derive a child class CDerived from two different base classes CBaseA and CBaseB.

In addition, I need to call virtual functions of both parents on the derived class. Since I want to manage differently typed objects in one single vector later (this is not part of this minimal code expample), I need to call the virtual functions from a base class pointer to the derived class object:

#include <iostream>
#include <stdlib.h>

class CBaseA
    virtual void FuncA(){ std::cout << "CBaseA::FuncA()" << std::endl; };

class CBaseB
    virtual void FuncB(){ std::cout << "CBaseB::FuncB()" << std::endl; };

class CDerived : public CBaseB, public CBaseA

int main( int argc, char* argv[] )
  // An object of the derived type:
  CDerived oDerived;

  // A base class pointer to the object, as it could later
  // be stored in a general vector:
  CBaseA* pAHandle = reinterpret_cast<CBaseA*>( &oDerived );

  // Calling method A:

  return 0; 

Problem: But when running this on my computer, FuncB() is called instead of FuncA(). I get the right result, if I "flip" the parent class deklarations around, i.e.

class CDerived : public CBaseA, public CBaseB

but this doesn't solve my problem, since I cannot be sure which function will be called.

So my question is: What am I doing wrong and what is the correct way of handling such a problem?

(I am using g++ 4.6.2, by the way)

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2 Answers 2

up vote 7 down vote accepted
CBaseA* pAHandle = reinterpret_cast<CBaseA*>( &oDerived );

Do not use reinterpret_cast for performing a conversion to a base class. No cast is required; the conversion is implicit:

CBaseA* pAHandle = &oDerived;

For converting to a derived class, use static_cast if the object is known to be of the target type or dynamic_cast if it is not.

Your use of reinterpret_cast yields undefined behavior, hence the "odd" behavior that you see. There are few correct uses of reinterpret_cast and none of them involve conversions within a class hierarchy.

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In fact, there are no correct uses of reinterpret_cast that don't involve casting it back to the old type before doing anything with it. – Dirk Holsopple Aug 27 '12 at 18:20
@DirkHolsopple: There are other valid uses. For example, any object may be reinterpreted as an array of bytes. – James McNellis Aug 27 '12 at 18:22
I was referring to portable uses. Reinterpreting an object as an array of bytes is inherently platform-specific. – Dirk Holsopple Aug 27 '12 at 18:35
Interesting Conversions covered by the standard: & 5: Converting a pointer to an integral type and back. Casting a T object to T& or T&&. 9.2.20: "A pointer to a standard-layout struct object, suitably converted using a reinterpret_cast, points to its initial member (or if that member is a bit-field, then to the unit in which it resides) and vice versa." 26.4.4: Using reinterpret_cast for complex<T> types. Also 3.9.2 sort of implies (and gives reasons for) James McNellis' example. – Oct 25 '12 at 12:42

Common implementation which may help you to understand what happens.

CBaseA in memory look like this

| __vptrA |

CBaseB in memory looks like this

| __vptrB |

CDerived looks like this:

&oDerived->  | __vptrB |
             | __vptrA |

If you simply assign &oDerived to a CBaseA*, the compiler puts code to add the offset so that you have

&oDerived--->| __vptrB |
pAHandle---->| __vptrA |

an during execution the program find pointers to A virtual function in __vptrA. If you static_cast or dynamic_cast pAHandle back to a CDerived (or even dynamic_cast pAHandle to a CBaseA), the compiler will put code to subtract the offset so that the result point to the start of the object (dynamic_cast will find the information about how much to substract in the vtable along with the pointers to virtual functions).

When you reinterpret_casted &oDerived as a CBaseA*, the compiler don't put such code to adjust the pointer, you get

pAHandle, &oDerived--->| __vptrB |
                       | __vptrA |

and during the execution, the program looked at __vptrB for A virtual function, finding instead B virtual functions.

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Thank you, this helps me to understand the class pointer casting issue a lot better. This piece of information is difficult to find in the internet. – user1628282 Aug 28 '12 at 9:29

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