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Is there a way to define a template class that can be used only with derived classes from a particular class hierarchy?

Say I have Animal base class

class Animal{
    public:
        virtual ~Animal();
        virtual void shout() = 0;
    };

and Dog, Cat,Tiger are derived classes

class Dog : public Animal{
    public:
    virtual void shout(){
        cout<<"Bark";
    }
}
class Cat : public Animal{
    public:
    virtual void shout()
    {
        cout<<"Meow";
    }
}

I need to define a template class say 'AnimalTemplate' that can be used ONLY with the derived class of Animal, so if I try to do 'AnimalTemplate< Duck >', I should get compilation error( or some error ), even if Duck has a method shout() defined in it. (This question is mainly for me to understanding if we can mix OO paradigm with Generic programming)

4
  • 3
    Wait, aren't ducks animals too?
    – DanielKO
    Oct 28, 2013 at 23:13
  • For this discussion lets say that ducks are not animals and they get shout() from a different base class say Bird. :)
    – Coder777
    Oct 28, 2013 at 23:16
  • 1
    Are you using c++11? If so, you could use std::is_base_of and static_assert Oct 28, 2013 at 23:18
  • Ironically, templates provide duck typing. You are trying to strip it down to behave like a plain object oriented design.
    – DanielKO
    Oct 29, 2013 at 0:11

3 Answers 3

4

Two forms of this immediately come to mind:

SFINAE

template<typename T, 
         typename = typename std::enable_if<std::is_base_of<Animal,T>::value>::type>
class AnimalTemplate
{
public:
    AnimalTemplate() {}
};

static_assert

template<typename T>
class AnimalTemplate
{
public:
    static_assert(std::is_base_of<Animal,T>::value, "T must be derived from Animal");
    AnimalTemplate() {}
};

The latter is friendlier in telling you why it failed, obviously.

2
  • For completeness, tag dispatching of specializations? Oct 29, 2013 at 0:01
  • @Yakk yeah, I should probably add it, just thinking of some creative names (for some reason Looney Toonz characters are leaping to mind).
    – WhozCraig
    Oct 29, 2013 at 0:18
2

You can simple define your template in such a way that it uses the template argument as an Animal. For example:

template <typename T,
          bool = sizeof(*static_cast<Animal**>(0) = static_cast<T*>(0))>
class AnimalTemplate
{
    // whatever
};

Producing an error in case a template argument doesn't match is generally fairly trivial. If there is any method which is always instantiated, e.g., the destructor, that could be a palce where the check could go, too.

3
  • I'm sorry, I'm not understanding the code and explanation following it. Can you please explain a bit more? ( Apologies if this is something very common in generic programming world )
    – Coder777
    Oct 28, 2013 at 23:39
  • OK, the idea was to use an implicit conversion from T* to Animal* which exists only if T publicly derives from Animal (using the static_casts() I had originally actually also converts from base or void* to derived). The implicit conversion above is put into a sizeof() expression to make sure it isn't evaluate. Oct 28, 2013 at 23:48
  • The bool argument itself is actually not used: the code there is simply meant to fail when the T argument isn't suitable. Oct 28, 2013 at 23:54
0

If animalTemplate is a function template you could just do:

template<typename T> void animalTemplate(T animal_candidate){
   auto& animal= static_cast<Animal&>(animal_candidate);
   animal.shout();
}

Most often templates trust the user to use the correct input. This is known as duck typing. (suiting for your case!) There is work for future C++ on defining Concepts, which may be used to specify what kind of input a template can take.

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