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A tweak on this question that I've run into. Consider:

class A {};

class B : private A {
   static void foo();

void B::foo(){
   B* bPtr1 = new B;
   A* aPtr1 = dynamic_cast<A*>(bPtr1); // gives pointer
   B* bPtr2 = dynamic_cast<B*>(aPtr1); // gives NULL

Since aPtr1 is, in fact, of type B*, and since we've got full access to B and its inheritance from A, I'd expected both casts to work. But they don't; why? Is there another way to achieve this cast?

Note that:

  • If foo() were not a member of B, both casts would fail.
  • If B inherits from A publicly, both casts would work.
share|improve this question
up vote 13 down vote accepted

5.2.7 (ISO/IEC 14882, 12/29/2003) is pretty explicit on this point:

[about the expression dynamic_cast<T>(v)]

If T is “pointer to cv1 B” and v has type “pointer to cv2 D” such that B is a base class of D, the result is a pointer to the unique B sub-object of the D object pointed to by v. [... bla bla about cv1 and cv2 ...] and B shall be an accessible unambiguous base class of D (emphasis mine)

(recall 11.2 "A base class is said to be accessible if an invented public member of the base class is accessible.").

This explains why the first cast works. Now, for the second:


Otherwise, a run-time check is applied to see if the object pointed or referred to by v can be converted to the type pointed or referred to by T.

The run-time check logically executes as follows:

  • If, in the most derived object pointed (referred) to by v, v points (refers) to a public base class subobject of a T object, and if only one object of type T is derived from the sub-object pointed (referred) to by v, the result is a pointer (an lvalue referring) to that T object.
  • Otherwise, if v points (refers) to a public base class sub-object of the most derived object, and the type of the most derived object has a base class, of type T, that is unambiguous and public, the result is a pointer (an lvalue referring) to the T sub-object of the most derived object.
  • Otherwise, the run-time check fails.

The value of a failed cast to pointer type is the null pointer value of the required result type. A failed cast to reference type throws bad_cast (18.5.2).

So it seems that the behavior you observe is due to the private inheritance: even if the base class is accessible, it is not public, and the standard requires public, not accessible.

Annoying, isn't it ? I don't have the C++0x draft handy, perhaps someone can edit my answer with quotes from it, in case things have changed.

Is there another way to achieve this cast?

It depends on what you want to do. Basically, private inheritance is just another device for performing composition. If you really are to return a pointer to the private derived instance, then either make the inheritance public, or return a member.

Anyways, you'll happy to know that static_cast doesn't seem to have this limitation:

5.2.9. [about static_cast<T>(v)] [...]

An rvalue of type “pointer to cv1 B”, where B is a class type, can be converted to an rvalue of type “pointer to cv2 D”, where D is a class derived (clause 10) from B, if a valid standard conversion from “pointer to D” to “pointer to B” exists (4.10), cv2 is the same cv-qualification as, or greater cv-qualification than, cv1, and B is not a virtual base class of D. The null pointer value (4.10) is converted to the null pointer value of the destination type. If the rvalue of type “pointer to cv1 B” points to a B that is actually a sub-object of an object of type D, the resulting pointer points to the enclosing object of type D. Otherwise, the result of the cast is undefined.

so if you know for sure what the actual dynamic type of the pointer is, you are allowed to static_cast inside foo.

I'd be interested in any additional information about why this inconsistency exists.

share|improve this answer
It's interesting that Visual Studio 2010 behaves consistently (and, therefore, not standard compliant :) both castings work Ok after making class A polimorphic. – user396672 Aug 3 '11 at 15:07
@user396672: gcc 4.3.4 has standard compliant behavior: – Alexandre C. Aug 3 '11 at 15:14
This isn't fair , specially when foo() is member of B and relationship btw Aand B is exposed to members of B . why would standard do this? – user72424 Aug 3 '11 at 15:15
@Hades: you still have static_cast. The point is that an intermediate class cannot cast to a more derived class if the top most inheritance is not public (even if it is protected). – Alexandre C. Aug 3 '11 at 15:16
@user396672: I just tested with VS2010 (version 10.0.40219.1.SP1Rel) and it gives the same standard compliant result as GCC. What version were you using ? – Alexandre C. Aug 3 '11 at 15:19

They don't work because there's no virtual functions in A. When you do the downcast then that's trivial- the compiler probably doesn't even bother making a check. When you make an upcast then the compiler must check, but it's only defined to work when you have virtual functions. When you don't, then the compiler will fail to make the check and the result is NULL.

The inheritance protection level and other accessibility issues are orthogonal to the problem, and they only exist at compile-time, if the program compiles then they work fine.

Note that:

If foo() were not a member of B, both casts would fail.

If B inherits from A publicly, both casts would work.

That's just not true. foo() has absolutely no bearing on RTTI functionality- it's not virtual and it's not even an instance member. If B inherits from A publicly- then A still has no virtual functions and it still won't work.

share|improve this answer
Adding virtual functions to the example doesn't change the results. Tried that... The quote @Alexandre C. brings actually claim accessibility is not orthogonal to the problem, but is in fact its source. – eran Aug 3 '11 at 14:35
@eran: in VS 2010 adding virtual functions changes the result... but it probably is a bug :) – user396672 Aug 3 '11 at 15:13
@user396672: the code refuses to compile on VS2010 if the base class is not polymorphic. Also, VS2010 (SP1) exhibits correct behavior on my box. – Alexandre C. Aug 3 '11 at 15:28
@Alexandre C. yes, it refuses to compile with non-polimorphic class. As to the result (after adding polimorphism) it is probably because my VS version is outdated.. sorry if so. – user396672 Aug 3 '11 at 15:43
@Alexandre: sorry, I found a bug in my std::cout<<... I print another pointer... MSVC is compliant. – user396672 Aug 3 '11 at 16:00

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