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This is a puzzler I ran across this week. It's partly due to the fact that I have just returned to C++ coding after coding Java for a while. Given the following code:

class Base {

class A : Base {
    virtual void run() { cout << "This is A." << endl; }
class B : Base {
   virtual void run() { cout << "This is B." << endl; }

class C : A, B {
   void run() { cout << "This is C." << endl; }

int main(int argc, char* argv[])
   shared_ptr<A> ptrToA = shared_ptr<C>(new C());

   cout << "Pointer to A: " << ptrToA.get() << endl;
   cout << "Dynamic Cast A ptr to C: " << dynamic_pointer_cast<C>(ptrToA) << endl;


   cout << "Success!" << endl;

Why does it produce the following output?

Pointer to A: 0x1f29c010
Dynamic Cast A ptr to C: 0
This is C.
tester-cpp: tester.cpp:89: int main(int, char **): Assertion `dynamic_pointer_cast<C>(ptrToA)' failed.

Because "This is C" prints out, it's obvious that the polymorphism is working, but it fails when dynamic casting a shared_ptr from the "A" base class to a "C". I wasted hours of time on this subtle issue this week! Hopefully any answers will save future coders with a similar issue from wasting so much time (the bug was very subtle, especially after coding Java for a while).

Why? (I'll give you a hint...this code was compiled with the Intel C++ compiler 12.1.0 on Linux. I tried it with another compiler and my code is fails to compile!)

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Because C privately inherits from A and B; change class C : A, B to class C : public A, public B or struct C : A, B. Also, "This is C" prints out when using an A* but I suspect it would not when using a B*; run() probably needs to be initially declared inside of Base, and you probably need to use virtual inheritance. –  ildjarn Jan 26 '12 at 19:04
What implementation of shared_ptr are you using? I would expect shared_ptr<A> ptrToA = shared_ptr<C>(new C()); to fail because A is an inaccessible base of C. –  James McNellis Jan 26 '12 at 19:11
You should try it without the smart pointers and then I suspect that this may apply: stackoverflow.com/questions/7210321/… –  broc Jan 26 '12 at 19:25
gcc fails to compile with "error: conversion from ‘std::shared_ptr<C>’ to non-scalar type ‘std::shared_ptr<A>’ requested" as I believe it should. –  emsr Jan 26 '12 at 19:26
Ironically, our makefiles were set up to pull in the g++ implementation of std::tr1::shared_ptr! When compiled with gcc, my 4.5 gives the error " ‘A’ is an inaccessible base of ‘C’", which makes the problem very obvious. –  Ogre Psalm33 Jan 26 '12 at 19:34

1 Answer 1

up vote 6 down vote accepted

The fact that it fails to compile on another compiler is a hint: It really should fail to compile. This is because C privately inherits from A and B, so C* should not be convertible to A*. Therefore shared_ptr<A> ptrToA = shared_ptr<C>(new C()); should fail to compile, since the conversation constructor should only participate in overload resolution when the pointer can be converted according to the standard. So this looks like a bug in the standard library used by Intel C++.

Change Class C: A, B to Class C: public A, public B and it should work. Testing on gcc 4.6, the code indeed fails to compile with private inheritance and works just as it should with public inheritance of A.

Since your code contains a diamond inheritance, you might also want to take a look at virtual inheritance.

share|improve this answer
+1 for virtual inheritance comment. –  Petr Budnik Jan 26 '12 at 19:22
Nicely put, and yes, my original code did not have virtual inheritance on "Base" (I was thinking more java interfaces at the time...), but probably should. –  Ogre Psalm33 Jan 26 '12 at 19:29

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