As it stands, it's impossible for B or C to detect what else a more derived class inherits from, so you can't add an assertion there. However, by adding a "curiously recursive" template parameter, you can tell C what the derived class is. Unfortunately, this does require the derived class to give the correct template argument, and there's no way to enforce that.
You can then determine whether the derived class inherits from B in more than one way; it is a base class, but you can't convert a derived class pointer to B* (since that conversion is ambiguous). Note that this doesn't necessarily indicate multiple inheritance; the test will also fail if there's non-public inheritance.
So the best solution I can think of is:
#include <type_traits>
template <class T> class A {};
class B {};
template <class T, class S, class D>
class C : public B, public virtual A<T> {
public:
C() {
static_assert(
std::is_base_of<C,D>::value && std::is_convertible<D*,B*>::value,
"Multiple inheritance of C");
}
};
struct Type1 {};
struct Type2 {};
struct Type3 {};
struct Type4 {};
class Good : public C<Type1, Type2, Good> {};
class Evil : public C<Type1, Type2, Evil>, public C<Type3, Type4, Evil> {};
int main()
{
Good good;
Evil evil; // Causes assertion failure
}
I had to put the assertion in the constructor rather than the class definition, since some of the types are incomplete when the class template is instantiated. Unfortunately, this means that the error will only be reported for classes that are actually instantiated.
Cat all, or only oneCfor a particularTandS.Dfrom two specializations ofC, but you want to deriveDfrom only one? I don't understand.