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For practical reasons, I've got a class like

template <class A>
class CRTP
{
    template <int (A::*Member)()>
    int func(void * obj)
    {
        int result
        // Do something with Member, like
        // result = (reinterpret_cast<A*>(obj)->*Member)();
        return result;
    }
};

The template <void (A::*Member)()> is a requirement, it cannot be passed as an argument.

And I also have a class Base

class Base : public CRTP<Base>
{
    int aMemberOfBase() {...}
};

And its derived which I want to also inherit CRTP

class Derived : public CRTP<Derived>, public Base
{
    int aMemberOfDerived() {...}
};

In some member of Derived, I'll do something like

func<&Derived::aMemberOfDerived>(this);
func<&Base::aMemberOfBase>(this);

Is that possible ?

(Well, VC++ compile only the first line and don't want to read about the second one... but Derived should have the members

template <int (Base::*Member)()> int func(void * obj);
template <int (Derived::*Member)()> int func(void * obj);

which looks strange, I admit it. But the following piece of code

template <void (Base::*Member)()> int func() {return 0;}
template <void (Derived::*Member)()> int func() {return 1;}

compiles and return func<&Base::someMember>() != func<&Derived::someMember>(), because the signature of the template is not the same and can't be the same.)

I must admit that I'm not well award of what the standard says. But is the inheritance pattern I'm trying to make allowed? And if yes, why one of the line doesn't compile?

Moreover, if I declare

class Derived : public Base, public CRTP<Derived>

instead of

class Derived : public CRTP<Derived>, public Base

I get compile time error (on all the func<...>(...)), which means that there's something wrong somewhere.

On the other hand, I know that

template <class A, int (A::*Member)()> int func(void * obj)

would remove the need of a CRTP, but it's painfull to write func<Derived, &Derived::aMember>(). Is there a workaround like

template <class Class, void (Class::*Member)()> class A 
{
    void func(void * obj) {...(reinterpret_cast<Class*>(obj)->*Member)();...} 
};
template <typename Signature> class B;

template <typename Class, typename Member>
class B<&Class::Member> : public class A<Class, &Class::Member> {};

which would allow B<&Base::Derived>().func(somePtrToBase)?

share|improve this question
    
Well, after reading unrelated articles, it seems that Don Clugston, in his "fastest delegate" encountered the same problems. So I decided to drop the CRTP and repeat the arguments. Thanks for your help anyway. –  Fred Mar 10 '13 at 16:19

1 Answer 1

You can disambiguate by qualifying the name of the base member template. The following should work:

template <typename A> struct CRTP
{
    template <int (A::*Member)()> int func();
};

struct Base : CRTP<Base>
{
    int aMemberOfBase();
};

struct Derived : CRTP<Derived>, Base
{
    int aMemberOfDerived();

    void foo()
    {
        CRTP<Derived>::func<&Derived::aMemberOfDerived>();
        CRTP<Base>::func<&Base::aMemberOfBase>();
    }
};

I made everything public to avoid getting bogged down in access control details.

share|improve this answer
    
Yes. But I don't want to repeat myself. My question is "Can I avoid this repetition? If yes how. If no, why?" –  Fred Mar 9 '13 at 22:57
    
Oh by the way, I tried to use public/private inheritance (class Base : private CRTP<Base>) to disable the use of Base::fun<...>(...) in the Derived class, so there couln't be any ambiguity, but the class Derived : public Base, private CRTP<Derived> don't work. –  Fred Mar 9 '13 at 23:05
    
@Fred: Access check is performed after overload resolution, not before. Playing with private and public won't help. –  Andy Prowl Mar 9 '13 at 23:06
    
Didn't know that. Thanks, that's one more thing I know now. But it should be useful (in that very case at least...) to do it before. but ok. Thanks for the info ! –  Fred Mar 9 '13 at 23:11
    
@Fred: Well, I'd re-engineer this to use an argument-deducing function template, like f(&Base::aMemberOfBase, this). –  Kerrek SB Mar 9 '13 at 23:18

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