# CRTP intermediate class that needs to also be made final

I have an inheritance chain of CRTP classes. The CRTP classes derive from each other, until a 'final' derived class passes itself as the CRTP parameter and finalizes the inheritance chain.

template <class W>
struct Base
{
.....
};
template <class W>
struct Derived_inheritable: public Base<W>
{
....
}

template <class W>
struct Derived2_inheritable: public Derived_inheritable<W>
{
....
}

...


What I want to do is to be able to have such 'final' end-user classes at each level of the CRTP inheritance chain, that involve no templates:

typedef Derived1_inheritable<Derived1> Derived1;


As you can guess, this typedef does not work, because it references its own type being defined. The question is how to achieve this? The way I could think of, is:

struct Derived1: public Derived1_inheritable<Derived1>
{
//not convenient, need to redefine at least a forwarding constructor
}


As the comment in the code says, this is not a very elegant solution - I need to redefine the constructor to forward to the base constructor. Does anyone know a more elegant way?

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I can't say your examples were illuminating, and the phrasing of the question, an intermediate class that is final, is self-contradictory. What are you trying to achieve, exactly? –  Cheers and hth. - Alf Apr 17 '12 at 13:09
Intermediate here means that I have CRTP classes that derive from each other, until a final derived class passes itself as the CRTP parameter and finalizes the inheritance chain. What I want to do is th be able to have such 'final' classes at each level of the CRTP inheritance chain –  Alexander Vassilev Apr 17 '12 at 13:17

typedef Derived1_inheritable Derived1;

That line makes no sense, the argument to the template is a type but you are trying to pass a template (incidentally the same template that you are instantiating, but besides that extra quirk the fact is that your template takes a type as argument and you are passing a non-type)

It is not really clear from the question what you are trying to achieve. You should work on stating your goal rather than your approach to solving that goal.

I want to make a "final" class for each DerivedX_inheritable that is non-template and passes itself as the W parameter.

That is exactly done in the code that you produded:

struct Derived1: public Derived1_inheritable<Derived1> {}


which is a type definition (make a "final" class). The fact that your CRTP bases require arguments that must be provided by the end user and the need of the forwarding constructor thereof is just a side effect of your design.

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Sorry, it's a typo. I updated the code –  Alexander Vassilev Apr 17 '12 at 13:15
Well, I thought the best way to illustrate it is to write the code that shows the class hierarchy. I guess the typedef line is what is confusing here, so I have clarified it in the comment to the first answer. –  Alexander Vassilev Apr 17 '12 at 13:21
Yes, it's a side effect, and I am looking for a way to compensate for it, by defining end-user classes at each level, that involve no templates. I am looking for an alternative solution to the one I have found, because I don't want to create (hence the typedef, if it were possible) additional classes (and constructors) –  Alexander Vassilev Apr 17 '12 at 13:27
@AlexanderVassilev: Whether you like it or not, that is what your design leads to. There's nothing you can do there. You could try writing a macro that will take some of the boiler plate, but you need to define a new type, and that type must have a constructor –  David Rodríguez - dribeas Apr 17 '12 at 14:44
I came to the same conclusion. There is no other way I can achieve the benefits of this design, so this inconvenience is quite small compared to the benefits. Thanks for the help. –  Alexander Vassilev Apr 17 '12 at 15:44

I think I found an elegant solution:

template <class W>
struct Base
{
.....
};
template <class W>
struct Derived_inheritable: public Base<W>
{
....
}

//solution
struct Derived2_dummy;

template <class W=derived2d_ummy>
struct Derived2_inheritable: public Derived_inheritable<W>
{
....
}
struct derived2_dummy: public: Derived_inheritable<>{};
typedef Derived2_inheritable<> Derived2;

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