Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm working on a class that lets you dynamically register types with a common base type to keys, then dynamically construct instances of that type based on key. Here's what it looks like right now:

template<class Key, class Base>
class TypeRegistry
{
private:
    FunctionRegistry<Key, Base*> m_registry;

    template<class Derived>
    static Base* make()
    {
        return new Derived();
    }

public:
    template<class Derived>
    void register_type(const Key& key)
    {
        m_registry.register_function(key, &make<Derived>);
    }

    Base* make_type(const Key& key) const
    {
        auto maker = m_registry.get_function(key);
        if(maker) return maker();
        else return nullptr;
    }
};

The FunctionRegistry class has this interface:

template<class Key, class Ret, class... Args>
class FunctionRegistry
{
public:
    typedef Ret (*function_type)(Args...);

    //register a key and function pointer
    void register_function(const Key& key, function_type func);

    //get a function pointer, or nullptr if the key is not registered
    function_type get_function(const Key& key) const;
};

Now, my question is about extending TypeRegistry to support constructor arguments, using a variadic template. I don't know I should do the TypeRegistry::make function. Here's what I'm hoping for:

template<class Key, class Base, class... ConstructorArgs>
class TypeRegistry
{
private:
    FunctionRegistry<Key, Base*, ConstructorArgs...> m_registry;

    template<class Derived, ???>
    static Base* make(???)
    {
        return new Derived(???);
    }

public:
    template<class Derived>
    void register_type(const Key& key)
    {
        m_registry.register_function(key, &make<Derived, ???>);
    }

    template<class... DeterminedArgs>
    Base* make_type(const Key& key, DeterminedArgs&&... args) const
    {
        auto maker = m_registry.get_function(key);
        if(maker) return maker(std::forward<DeterminedArgs>(args)...);
        else return nullptr;
    }
};

The trouble is, I don't know how to properly template the make() function. Presumably it has to just be take ConstructorArgs... as its arguments, so that it can be properly registered in the FunctionRegistry, but then how do I make sure that all the arguments are properly forwarded (rvalue vs lvalue) to the Derived constructor?

share|improve this question
    
have you heard of perfect forwarding? –  Yakk Oct 14 '13 at 4:37
    
Yes, I'm doing it it make_type. The trouble is that it isn't clear how to do perfect forwarding when you have to explicitly instantiate the function template (as in register_type), as opposed to when the compiler does it for you (as in make_type) –  Lucretiel Oct 14 '13 at 4:45
1  
Perfect forwarding needs template argument deduction, and there are no function-pointer templates. –  Xeo Oct 14 '13 at 13:57
    
So every one of your registered types are constructed with the exact same arguments? –  Yakk Oct 14 '13 at 18:55
    
That's a requirement, yes. –  Lucretiel Oct 17 '13 at 14:03

1 Answer 1

Since you didn't put the definition of FunctionRegistry, I could not test it. Now I created the real example (which compiles) and where I fixed the issues. One of the biggest issue is that you tried to pass pointer to member function to a function pointer. For that reason, you must make the TypeRegistry::make a static method.

So, here is it :

#include <iostream>
#include <utility>

struct Abase
{
    virtual ~Abase(){}
    virtual void bar()=0;
};
struct A : Abase
{
    A(int g,float h) : Abase(), a(g),b(h)
    {
    }
    virtual ~A(){}

    virtual void bar()
    {
        std::cout<<a<<b<<std::endl;
    }
    int a;float b;
};
Abase* foo(int&& v,float&& b)
{
    return new A(v,b);
}

template<class Key, class Ret, class... Args>
class FunctionRegistry
{
public:
    typedef Ret (*function_type)(Args...);

    //register a key and function pointer
    void register_function(const Key& key, function_type func)
    {}

    //get a function pointer, or nullptr if the key is not registered
    function_type get_function(const Key& key) const
    {
        (void)key;
        return foo;
    }
};

template<class Key, class Base, class... ConstructorArgs>
class TypeRegistry
{
private:
    FunctionRegistry<Key, Base*, ConstructorArgs&&...> m_registry;

    template<class Derived>
    static Base* make(ConstructorArgs&&... args)
    {
        return new Derived(std::forward<ConstructorArgs>(args)...);
    }

public:
    template<class Derived>
    void register_type(const Key& key)
    {
        m_registry.register_function(key, &make<Derived> );
    }

    Base* make_type(const Key& key, ConstructorArgs&&... args) const
    {
        auto maker = m_registry.get_function(key);
        if(maker) return maker(std::forward<ConstructorArgs>(args)...);
        else return nullptr;
    }
};


int main()
{
    TypeRegistry< int, Abase, int, float > tr;

    tr.register_type< A >( 5 );

    auto a = tr.make_type( 5, 3, 5.3f );
    a->bar();
}
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.