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Say I have two interfaces IFoo, and IBar; plus a concrete type FooBar implementing these interfaces:

class FooBar : public IFoo, public IBar
{
    //FooBar stuff
};

Somewhere I get a void* pointer, pointing on a FooBar instance.

void* fooBar = getOrCreateStuff();

Now I want to get a pointer on IBar from my fooBar instance.

IBar* iBar = static_cast< IBar* >(fooBar);

Unfortunately, iBar is not pointing on the right memory address. The example is silly on purpose -- in the real life, I don't know the concrete type I am pointing to.

EDIT: I am writing an API where I expose template <class StuffT> StuffT getOrCreateStuff() method. At this point, there is absolutely no way to know what type devs are using. The above example is showing you guys the way this method is supposed to be used. We register a concrete type in the API and get it back as an interface. It works like a charm when dealing with single inheritance, but multiple-inheritance is more complicated.

Any idea to get my iBar pointing on the working address offset?

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2  
Give both interfaces some virtual function (probably a pure virtual destructor) so they both have v-tables, then use dynamic_cast<> instead of static_cast<>. –  ildjarn Dec 30 '11 at 0:52
2  
@misterwhy : That only begs the question -- why use void*? –  ildjarn Dec 30 '11 at 0:55
4  
I think the answer is "don't use void* in C++". –  Flexo Dec 30 '11 at 0:55
2  
Shouldn't you first cast from void * to FooBar * and THEN to IBar *? Your fooBar points to beginning of memory block occupied by FooBar object, which is IFoo (if there is no vptr). Compiler does not know that it has to treat void * fooBar pointer as FooBar * before converting it to IBar *, you have to tell him that. –  Petr Budnik Dec 30 '11 at 0:56
2  
@misterwhy - I wouldn't have a function that returned two unrelated types like that. Return via a base, or from two separate functions or erasure. –  Flexo Dec 30 '11 at 0:58

3 Answers 3

If you don't know what you are pointing to you are out of luck! With static_cast(v) where "v" is of type "void*" you can only cast to the type "T*" if "v" resulted from an implicit conversion to "void*". If you really get a "void*" you'll need to first restore a type "B*" (e.g. some sort of base class; it doesn't have to be a common base class of all branches, just known to be present) which has at least one virtual function (e.g. its destructor if there isn't any functionality you want there) and from there you can use dynamic_cast(b) to restore some type somewhere in the inheritance hierarchy. Note that even this doesn't necessarily work if there are multiple "T" subobjects in the actual object.

The reason all this is necessary is that in an object using multiple inheritance the pointers to subobjects are getting adjusted: depending in which branch you are, the same subobject may exist and dealing with a specific one requires a different pointer. You can avoid the use of dynamic_cast(b) but only if you effectively create your own run-time information system.

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Yes, I know. But I was actually looking for help. Maybe someone met the same problem in the past and solved it through a template based design trick. –  mister why Dec 30 '11 at 1:10
2  
The problem is that the run-time type of an object is, well, a run-time issue. You can't determine this at compile time. What you can do is to encapsulate the correct conversion to "void*" (i.e. first converting to a base suitable "B*" and then implicitly to "void*") and back (i.e. first static_cast<B*>(v) and then an appropriate dynamic_cast<T*>(b)). –  Dietmar Kühl Dec 30 '11 at 1:15
    
@misterwhy - they have seen this problem in the past, that's what the type erasure link I posted was about, but that's exactly what boost::variant and friends do. –  Flexo Dec 30 '11 at 1:16
    
@awoodland, type erasure doesn't apply here. We don't want to erase the type :) –  mister why Dec 30 '11 at 1:26
2  
@misterwhy - erasing the type is exactly what void* has done, just not terribly helpfully. –  Flexo Dec 30 '11 at 1:32

Change getOrCreateStuff() to return something other than void*. If it returns IStuff*, and FooBar derives from IStuff, then you can use dynamic_cast to get to IBar*.

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I don't know the concrete type that is returned. –  mister why Dec 30 '11 at 1:08
2  
My answer doesn't require knowing the concrete type. It only requires that the concrete type derives from IStuff. –  Marcelo Cantos Dec 30 '11 at 1:09
    
My bad, you're right but that would be huge strain for devs since they would need to derive from a type I provide so they can use my API. –  mister why Dec 30 '11 at 1:15
    
if the type derive from IBar, do directly : iBar = (dynamic_cast<IBar*> getOrCreateStuff());. but if does not derives from IBar* you could never cast it to IBar* .. and the result of the cast will be NULL so they dont use corrctly the api : you will be happy to return a great "error message". ironic here... –  Hicham from CppDepend Team Dec 30 '11 at 2:04
    
@eharvest: I'm not sure what you're getting at. You can't dynamic cast a void*. –  Marcelo Cantos Dec 30 '11 at 3:34

if you are sure of :"Somewhere I get a void* pointer, pointing on a FooBar instance."

then, this is a solution :

IBar* iBar = static_cast<IBar*>(reinterpret_cast< FooBar* >(fooBar));

or :

IBar* iBar = dynamic_cast<IBar*>(reinterpret_cast< FooBar* >(fooBar));

as IBar is an interface, it must have a pure virtual method, so it is polymorphic, so dynamic cast an be used.

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Nope, the example was silly on purpose. Again, FooBar is imaginary, I don't know the concrete types (plural) that can be returned. –  mister why Dec 30 '11 at 1:33
    
@mister why : can you give examples of the types that can be returned by "getOrCreateStuff();" (if they were not casted to void*) ? getOrCreateStuff() returns void* ? –  Hicham from CppDepend Team Dec 30 '11 at 2:38
    
if the ... returns real object type and those objects inherit from IBar, the solution is : do directly : iBar = (dynamic_cast<IBar*> getOrCreateStuff());. .. and if the result of the cast is NULL, the proramers dont use correctly the api : you will be happy to return a great "error message". ironic here... –  Hicham from CppDepend Team Dec 30 '11 at 2:41

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