1

I have these classes:

class A{};
class B{};
class C : public A{};
class D : public A, public B{};

I want to make a template function like this:

template<typename T>
void f(T* arg);

And to make 2 specializations for it:

  • one when T doesn't uses inheritance or uses single inheritance
  • one when T uses multiple inheritance

Let's say f_specialization1() is for first case and f_specialization2() (I know hey must have same name, this is just a convenient convention). I want this behavior:

A a;
B b;
C c;
D d;

f(&a);//here f_specialization1 is called
f(&b);//here f_specialization1 is called
f(&c);//here f_specialization1 is called
f(&d);//here f_specialization2 is called

Is it possible to achieve this behavior?

  • 6
    What problem are you trying to solve with this hacky mechanism? – Pete Becker Jan 28 '13 at 17:16
  • The only possible use I could think of for this is if you want to do something horrible that depends on the class having a certain memory layout. – Omnifarious Jan 28 '13 at 17:27
  • Is this function for some sort of explicit type introspection? Otherwise, it would be unusual for a function to need a different implementation specifically for any object that happens to use multiple inheritance in its design. – Drew Dormann Jan 28 '13 at 17:28
  • as far as I know, it is not possible to do this with just c++ constructs. however, you can build an infrastructure on top of c++ that will let you do this. for example, create a base type Object. have all your classes be derived from it. track the entire inheritance hierarchy by adding code in the constructor. otherwise, you can assume certain RTTI implementation and use that to track your inheritance hierarchy, but this isn't portable. – thang Jan 28 '13 at 17:29
  • Not possible. What do you want to do with the value, assuming you can get it somehow? – n.m. Jan 28 '13 at 17:33
1

While I do not know your intent and agree that the intended behavior should be included in the question to receive better design solutions, a simple mechanism to achieve what you request is to create a blank interface that all of your multiply-inherited classes must also inherit from and to specialize for that MultipleInheritance "interface".

class MultipleInheritance
{
protected:
    MultipleInheritance() {}
};


class A{};
class B{};
class C : public A{};
class D : public A, public B, public MultipleInheritance {};

template<>
void f(MultipleInheritance* arg);

template<typename T>
void f(T* arg);

However, I personally think think this would be very much begging for a redesign at this point depending on the design constraints and it really does not allow you to do much useful since an otherwise useless type is used to select this function specialization.

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