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I've stumbled into a problem which, at a glance, is easy cplusplusable, but on careful study appears not to be.

I have items in my program which I will need to work with many types, so I have decided to handle these in a generic, extensible way:

class ItemBase
 virtual ~ItemBase() = 0 {}
    // pure virtual class, some extra members

template<typename T>
class ItemT : public ItemBase
 ItemT(const T &data) : m_Data(data) {}

 T m_Data;

I can now store any type in a collection:

std::vector<ItemBase*> items;

This is fine. Now I have GUI components I want to keep separate from this class so I want to generate the GUI components depending on type:

GuiComponent* BuildComponent(ItemT<int> &item)
    // do whatever based on this type, the int is needed

GuiComponent* BuildComponent(ItemT<double> &item)
    // do whatever based on this type, the double is needed

Which is almost beautiful coding. Unfortunately it does not work. As this program shows:

std::vector<ItemBase*> m_Items;
m_Items.push_back(new ItemT<int>(3));
m_Items.push_back(new ItemT<double>(2.0));

Because m_Items[0] is of type ItemBase*.

So how do I solve this problem? What design pattern or template trickery can help me out here?

share|improve this question
Are you getting compile time errors? Run time errors? – C Johnson Nov 9 '10 at 19:38
Compile time "none of the overloads could convert all argument types" – DanDan Nov 9 '10 at 19:40
well, for one thing, your abstract declaration is incorrect. An abstract declaration should not have the {} after it. The {} is for the derived class to implement. That also means your ItemT class needs to implement the destructor for the base class. – C Johnson Nov 9 '10 at 19:46
It's called a pure virtual with a body : pretty uncommon, but perfectly legal. – icecrime Nov 9 '10 at 19:53
up vote 4 down vote accepted

The easy answer would be : add a virtual buildComponent method in ItemBase. However, as you want to keep the GUI Components separated, I'd recommend a Visitor pattern.

A very simple implementation would consist of :

  • Adding a single accept(AbstractVisitorType &) virtual method in ItemBase
  • Implementing this method in every derived class by calling visitor.visit(*this), which means that the AbstractVisitorType must provide a virtual visit method for every concrete type it might be called with (see note below)
  • Provide a concrete implementation of this visitor which will instantiate the appropriate GUI object in each of its visit overload based on the parameter type.

Note however that the Visitor pattern is only appropriate for a reasonably stable class hierarchy : using a new instantiation of the ItemT template will require maintenance on the Visitor side to handle this new type (but your initial idea had the same issue).

Chapter 10 of Modern C++ Design (Andrei Alexandrescu) is a great read regarding the visitor pattern.

share|improve this answer
Yes, I understood I needed to maintain two class heirarchies in parallel. Do you have a different idea I could use? – DanDan Nov 9 '10 at 19:52
The visitor pattern is almost perfect. Unfortunately I have to give this class knowledge of how it is going to be used, by including the header file with all these overidable functions in it. It is a shame a virtual function cannot be templated. – DanDan Nov 9 '10 at 20:27
Actually this works! – DanDan Nov 9 '10 at 20:33
struct Visitor { template<class T> void visit(const ItemT<T> &t) { T item = t.m_Data; }; }; – DanDan Nov 9 '10 at 20:34
Glad it does :) You might want to google for acyclic visitor to go a little further (although it's a little overkill for your needs) – icecrime Nov 9 '10 at 20:35

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