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In C++ pure virtual classes are often used for runtime polymorphism.

So you have:

class IInterfaceA
{
    virtual void DoFoo() = 0;
};

And derived classes like:

class CFancyObject : public IInterfaceA
{
...

Which then can be used in functions like:

void Foo(IInterfaceA &interface);

But this is runtime case, and if the objects are known at compile time, we can do better by using CRTP:

template<class T> class IInterfaceA
{
public:
    void DoFoo()
    {    
        static_cast<T*>(this)->CallDerivedFunction();
    }
}

class CFancyObject : public IInterfaceA<CFancyObject>
{
    ...
}

Is it possible to use CRTP based derived classes in functions that take IInterface as a parameter?

void Foo(IInterfaceA<?> &interface);
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Can't you just have a non-templated base interface from which the templated interface inherits? –  Nick Feb 16 '12 at 17:03
    
@Nick: But it has to call member function of a derived class, which has to be calculated at the compile time. I don't quite see how to describe that in code. –  Coder Feb 16 '12 at 17:05

2 Answers 2

up vote 1 down vote accepted

An interface is meant to decouple the API of a class from its implementation. By introducing a template parameter you are tightly coupling the implementation to the interface, defeating the whole purpose. CRTP is meant to solve a different set of problems.

If you make the interface templated, the function that takes it as a parameter must be templated as well. Once you've done that there's no difference between using the interface class and using the implementation class.

template<class T>
void Foo(IInterfaceA<T> &interface) { interface.DoFoo(); }

is identical to and provides no advantages over

template<class T>
void Foo(T &object) { object.DoFoo(); }
share|improve this answer
    
The difference in coupling is only run time vs compile time. Templated base class still decouples interface from implementation, It would still take less time to switch to completely new derived class implementation. And all derived classes that are derived from Base are actually pretty much interchangeable. I guess even template<class T> void Foo(IInterfaceA<T> &interface); would work, but it's still very clumsy and intellisense hostile, so I wonder if there is a neat way to solve the problem. –  Coder Feb 16 '12 at 17:28
    
@Coder, the point I was trying to make is that the user of the interface needs the full definition of the concrete class in order to fill in the template parameter. At that point there's no benefit to the interface class, you could work with the concrete class directly. –  Mark Ransom Feb 16 '12 at 17:36
    
The benefit I see is the DRY. If 3 or 4 classes have same interface, but different implementations, I could use one function to process them all. At the same time avoiding runtime overhead of pure virtual classes and offering compile time error diagnostics. But with DerivedA, DerivedB, DerivedC all of which are based on CRTPBaseA I just see no way how to use one single sink for all of them. –  Coder Feb 16 '12 at 17:43

Couldn't you just do:

template<class T> class IInterfaceA 
{
public:
    template<class T2>
    void DoFoo(IInterfaceA<T2> &interface)
    {    
        static_cast<T*>(this)->CallDerivedFunction(interface);
    }
}

class CFancyObject : public IInterfaceA<CFancyObject>
{
    template<class T2>
    CallDerivedFunction(IInterfaceA<T2> &interface) {...}
}

?

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