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Is there a way to access all base classes of a class in C++? Since variadic templates are available I think it would make sense to have e.g. ___BASE which is a variadic list of all types the current class does derive from. This would also enable a check whether a class or it's base classes are of a certain type. Is this already possible or am I missing something here why this isn't possible!?

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I do not think it is possible due to private inheritance. Multiple inheritance might cause problems. – Frigo Sep 2 '11 at 21:02
Multiple inheritance is the reason why I said it should be variadic. I don't see any problem with private inheritance. – abergmeier Sep 3 '11 at 20:01

There isn't a general mechanism in the language that'll tell you all the base classes, though you're free to add a suitable typedef to all members of your class hierarchy that will make this information available (e.g. typedef a tuple whose argument types are the ancestor plus the ancestor's ancestors) -- you could probably write a little mixin for that.

As for checking whether something is a base of another, that's already part of the standard in the shape of the std::is_base_of type trait.

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@Kerrek is completely right, but I think visitation through the hierarchy is often easier to implement compared to assembling a tuple of types or mpl::vector. Just to give a very rough ide what I mean:

#include <iostream>
#include <type_traits>
#include <boost/mpl/and.hpp>

namespace mpl = boost::mpl;

template <template<typename X> class F, typename C>
struct Visitor
        typedef std::true_type type;

template <template<typename X> class F, template <typename ...T> class C, typename ...T>
struct Visitor <F, C<T...> >
        typedef typename F<typename C<T...>::value_type>::type a;
        typedef typename Visitor<F, typename C<T...>::next_level>::type b;
        typedef typename mpl::and_<a, b>::type type;

// Test Class
template <typename ...T> struct C;
template <> struct C<>
template <typename H> struct C<H>
        typedef H value_type;
        typedef void next_level;
template<typename H, typename ...T>  struct C<H, T...> : public C<T...>
        typedef H value_type;
        typedef C<T...> next_level;

// Test Main
int main()
        typedef C<int, double> C1;
        // following should print one becasue int and double are both fundamental
        std::cout << Visitor<std::is_fundamental,C1>::type::value << std::endl;
        // following should print zero becasue int and double are not both floating point
        std::cout << Visitor<std::is_floating_point,C1>::type::value << std::endl;
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