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I have a C++ lib that makes use of a object hierarchy like this:

class A { ... }
class B : public A { ... }
class C : public A { ... }

I expose functionality through a C API via typedefs and functions, like this:

#ifdef __cplusplus
    typedef A* APtr;
#else
    typedef struct A* APtr;
#endif

extern "C" void some_function(APtr obj);

However, say a use of the C API does something like this:

BPtr b = bptr_create();
some_function((APtr) b);

This is polymorphically valid, since B extends A, and my API depends on such functionality being possible, but I want to make sure that this will still interoperate properly with the C++ code, even if B overrides some of A's virtual methods.

More importantly, why or why not? How can C++ identify at runtime that the obj parameter of some_function is actually a pointer to B, and therefore call its overridden virtual methods instead?

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You're using a C-style cast when calling some_function. This cast doesn't care whether b has the right type; if not, you'll simply get garbage results. Or worse, a hard-to-track and intermittent segfault or something like that. –  arne Jun 19 '13 at 7:27
    
@arne Is there a better solution? I was just assuming in this case that users of a library aren't stupid and don't try and pass something silly into some_function, but is that wrong? –  Alexis King Jun 19 '13 at 7:36
    
Sadly, no. As long as your library (interface) has to be plain old C, you'll have to trust your users, or rather don't care if they choose to do something stupid. –  arne Jun 19 '13 at 7:59

3 Answers 3

up vote 7 down vote accepted

The C code is not valid (nor would the equivalent C++ code in a context where the class definition is not visible) because what C does in this case is the equivalent of a reinterpret_cast. Note that in a simple situation like yours it will likely "work" because most compilers will put the single base object at the beginning of the derived object, so a pointer adjustment is not necessary. However, in the general case (especially when using multiple inheritance), the pointer will have to be adjusted to point to the correct subobject, and since C does not know how to do that, the cast is wrong.

So what is meant with "pointer adjustment"? Consider the following situation:

class A { virtual ~A(); int i; ... };
class B { virtual ~B(); int j; ... };
class C: public A, public B { ... };

Now the layout of C may be as follows:

+----------------------------+----------------------------+
| A subobject (containing i) | B subobject (containing j) |
+----------------------------+----------------------------+

where the virtual pointers of both the A and B subobjects point to C.

Now imagine you've got a C* which you want to convert to a B*. Of course the code which receives the B* may not know about the existence of C; indeed, it may have been compiled before C was even written. Therefore the B* must point to the B subobject of the C object. In other words, on conversion from C* to B*, the size of the A subobject has to be added to the address stored into the pointer. If you do not do this, the B* will actually point to the A subobject, which clearly is wrong.

Now without access to the class definition of C, there's of course no way to know that there even is an A subobject, not to mention how large it is. Therefore it is impossible to do a correct conversion from C* to B* if the class definition of C is not available.

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I'm a little confused about what you're saying here. Could you explain why that's wrong? –  Alexis King Jun 19 '13 at 7:35
    
See my edit; I hope that makes it clear. –  celtschk Jun 19 '13 at 7:45
    
Aha, thanks for the update. Do you know if the standard guarantees the behavior I'm looking for if I'm only using single inheritance? And either way, is there a better way to do what I'm looking for? Good answer, though, +1 from me. –  Alexis King Jun 19 '13 at 7:48
    
I'm not aware of the standard guaranteeing anything about where base classes are placed in the derived class. –  celtschk Jun 19 '13 at 7:57
2  
I can think of the following alternatives: 1. Have the C API just deal with A pointers, and if you need derived class features (try to minimize those cases), use a dynamic_cast in the wrapper layer and return an error to the calling C code if the object isn't of the right type. 2. Provide explicit conversion functions like AfromB. 3. If there are only a few derived classes which you need to expose, just write the interface wrapper functions for each one of them separately. –  celtschk Jun 19 '13 at 8:08

C++ uses the virtual function table which is in memory per class , and when an object is created of that particular derived class its virtual table decides which function gets called.

So its bit c++ compile time Plus Runtime magic :)

http://en.wikipedia.org/wiki/Virtual_method_table

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Short answer: Yes this will work.

Why: since A and some_function is implemented in C++, all virtual function calls will occur in C++ code as usual, where the class definition is included, and there is nothing magic about it. In C code only opaque pointers are passed around, and C code never will be able to call the virtual functions directly, because it never could compile the definition of A.

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