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I want to create a C++ objects factory that will create some objects by id. Each object must have a references counter. If an object with the same id is requested again, the same object must be returned if it's still in memory.

While there is something keeping a pointer to an object, this object will not be deleted. When there is no pointers to the object but pointer in factory cache, this object is placed in QCache and will be deleted if it will not be requested again for some time.

What's the best way to implement this?

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Your factory could hand out shared_ptrs and itself keep a weak_ptr. Then, when the ID is requested again, you try to lock() the weak_ptr. If you succeed, you hand out the resulting shared_ptr, and if you fail, you make a new object. –  Kerrek SB Feb 2 '13 at 16:05
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1 Answer

Here is how I would do it.

First of all, the factory class would only hold observing pointers to the objects it instantiates. This way, objects will be immediately deleted when no owning references to them exist, without putting them in a queue.

Then, the factory class would return shared pointers to the objects it instantiates, and those shared pointers would specify a custom deleter to unregister the deleted object from the factory's map upon destruction.

Assuming that the objects you want to instantiate have a constructor which accept their ID as an argument, and a function get_id() to return their ID, here is the code for the factory class:

#include <memory>
#include <unordered_map>
#include <functional>

using namespace std;
using namespace std::placeholders;

template<typename T>
class factory
{

public:

    shared_ptr<T> get_instance(int id)
    {
        auto i = m_map.find(id);
        if (i == m_map.end())
        {
            return create(id);
        }
        else
        {
            shared_ptr<T> p = i->second.lock();
            if (p == nullptr)
            {
                p = create(id);
            }

            return p;
        }
    }

    shared_ptr<T> create_instance()
    {
        shared_ptr<T> p = create(nextId);
        nextId++;
        return p;
    }

    void unregister(T* p)
    {
        int id = p->get_id();
        m_map.erase(id);
        delete p;
    }

private:

    shared_ptr<T> create(int id)
    {
        shared_ptr<T> p(new T(id), bind(&factory::unregister, this, _1));
        m_map[id] = p;
        return p;
    }

    unordered_map<int, weak_ptr<T>> m_map;
    int nextId = 0;

};

And that's how you would use it:

struct A
{
    A(int id) : _id(id) { }
    int get_id() const { return _id; }
    int _id;
};

int main()
{
    factory<A> f;

    {
        shared_ptr<A> pA = f.get_instance(5);
        shared_ptr<A> pB = pA;
        // ...
        // The object with ID 5 will go out of scope and get unregistered
    }

    shared_ptr<A> pA = f.get_instance(3);
    shared_ptr<A> pB = f.get_instance(3); // This will return the existing object
    //
    // Instance with ID 3 will go out of scope and get unregistered
}
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This doesn't do for my task because I need a cache (object construction is slow). Also I want to make clear that custom deleter is not necessary here, one can just check if m_map item has expired or not. It seems that I found a solution and I hope I'll post it here later. –  Pavel Strakhov Feb 7 '13 at 15:13
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