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If I have a class with a template:

template<typename T>
class foo{
    T m_a;

    foo(T a){
        m_a = a;
    };

    ~foo(){

    };
};

Is there a way to store multiple variation of it ?

For example a vector that can store a pointer to foo< int > and foo< string > at the same time ?

Edit more info

I want to hide the implementation of this :

EventListener<string> ev1;
EventListener<int, int> ev2;
EventListener<int, string, double> ev3;

ev1(&Events::nameChange, &nameChangeCallback);
ev2(&Events::healthChange, &healthChangeCallback);
ev3(&Events::newUser, &newUserCallback);

ev1.processEvents();
ev2.processEvents();
ev3.processEvents();

into this:

EventManager em;
em.listen(&Events::nameChange, &nameChangeCallback);
em.listen(&Events::healthChange, &healthChangeCallback);
em.listen(&Events::newUser, &newUserCallback);
em.processEvents();

EventManager needs to create and store EventListeners into a vector to be able to remember them and delete them in the destructor.

That's where I'm stuck.

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You could store pointer to base class for your user defined types. –  atoMerz Nov 10 '11 at 14:43

2 Answers 2

up vote 6 down vote accepted

If you want e.g. std::vector<foo<T>*>, then you need to use a non-templated base class. It will need to use dynamic dispatch, so all of the public interface should be declared virtual.

struct foo_base {
    virtual ~foo_base() {}
    virtual void something() = 0;
};

template <typename T>
struct foo : foo_base {
    // ...
    void something() { /* do something with T */ }
};

Then your container is std::vector<foo_base*>. Another, perhaps better, way, is to use boost::variant. This limits the number of types you can store, but at the same time doesn't require base class and virtual interface.

typedef boost::variant<foo<int>, foo<std::string>> foo_variants;
std::vector<foo_variants> v;

Third way is to use boost::any, but that will require boost::any_cast wherever you use them, and allow absolutely anything to be stored in the vector.

std::vector<boost::any> v;
share|improve this answer
    
If something() needs to use T as an argument, eg something(T a). Would this still work? –  Blizter Nov 10 '11 at 15:39
    
@Blizter: No, unless you pack it into e.g. boost::any and unpack it in the concrete subclasses. The interface must be identical in all classes for base class approach to work. –  Cat Plus Plus Nov 10 '11 at 15:43

Different instantiations of a class-template are different (from the compilers perspective completely unrelated) types, so this question applies.

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That brings another question, if the class-template have the same functions, and they are stored. Can I call those functions without knowing their class-type ? –  Blizter Nov 10 '11 at 14:46
1  
Now you are talking about polymorphism. You can do that by making your class-template inherit from a class that defines the functions you want to call polymorphically. Then you'd have to store pointers in your container, and you're good to go. While I was typing this comment, @Cat Plus Plus has posted an answer explaining that. –  Björn Pollex Nov 10 '11 at 14:48

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