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I have a vector of unique_ptrs which point to Models, Meshes, etc like this:

std::vector<std::unique_ptr<Model>> mLoadedModels;

I choose unique_ptr because it automatically frees the data upon vector destructor, and also because later on if I need to for example reload all the models (due to OpenGL context tear down/created) I can just internally in my resource manager reset() and make it point to a new Model instance and it wouldnt affect the rest of the system.

My question though is, how would you share the contents of the vector with other systems? You cant just pass the unique_ptr around, because that would change the ownership (due to its unique_ptr), and I want sole ownership in the rersource manager.

The solution I came up with is the following, to wrap the access in the following struct:

template<typename T>
struct Handle
    Handle(std::unique_ptr<T>& resource) : mResource(resource)

    T& operator*()                  { return mResource.get(); }
    const T& operator*() const      { return mResource.get(); }
    T* operator->()                 { return mResource.get(); }
    const T* operator->() const     { return mResource.get(); }

    std::unique_ptr<T>& mResource;

typedef Handle<Model> ModelPtr;

ModelPtr GetModel(const std::string& modelName);

// example:
ModelPtr monkey = GetModel("Monkey");

// reload resources, and then monkey dereferences to the new Model instance 

It feels abit gimmicky though, surely theres a better, more straightforward solution to this?

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Use shared_ptr if you need shared ownership. You could then hand out weak_ptrs to observers. –  Praetorian Jul 19 '13 at 18:54
Handle should obviously be named unique_ptr_ptr. Kidding aside, your Handle will be invalidated when the vector resizes. –  Casey Jul 19 '13 at 18:54
What's wrong with handing out raw Model*? –  Igor Tandetnik Jul 19 '13 at 18:54
@Casey really, it should be shared_unique_ptr to deal with lifetime issues (I kid). –  Yakk Jul 19 '13 at 19:00
@Yakk I like to use shared_unique_ptr* to cover all my bases. –  Casey Jul 19 '13 at 19:27
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2 Answers

up vote 9 down vote accepted

There is a simple solution to this.

Pass around vec[n].get() -- raw pointers. So long as you don't store them, and always get them back from the owner, and the owner doesn't destroy them while you are using them, you are safe.

If you aren't willing to follow that level of discipline, what you need is a std::shared_ptr in the vector, and pass around and store std::weak_ptrs. The weak_ptrs will auto-invalidate when the last shared_ptr goes away (and by policy, the only persistent shared_ptr is the one in the owning vector).

This has the added advantage that if you are in the middle of doing work on an element and the vector clears itself, you don't segfault. You access a weak_ptr by .lock(), which returns a shared_ptr, during whose lifetime the raw pointer is guaranteed to be good.

The downside is that this ups the cost, the upside is that it allows for weak shared ownership and lazy notification of invalidation.

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I do need to store them though, for example my Model stores a MeshPtr and a MaterialPtr, etc. I want to make it as transparent as a pointer also, with weak_ptr you have to do lock() every time you want to access the resource right? –  KaiserJohaan Jul 19 '13 at 19:30
What about passing around a vec& and then an index number, wrapped in a struct like the Handle`` –  KaiserJohaan Jul 19 '13 at 19:39
@KaiserJohaan First, There is rarely a good reason to store references in persistent objects. Second, "transparent as a pointer" is no good if the pointer can be made invalid at any point. .lock() defines a scope in which the pointer cannot be made invalid and can be safely used. It might be overkill if you can prove that the pointer in question will only be destroyed at certain points... –  Yakk Jul 19 '13 at 19:47
Is there no good alternatives to avoid having to perform .lock() every time you access it then? –  KaiserJohaan Jul 19 '13 at 19:50
@kaiserjohaan sure: have sensible lifetime and access rules. Who owns it provides it, and destruction happens at known times that does not overlap with non owning pointer lifetimes. –  Yakk Jul 19 '13 at 21:34
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Use a plain std::vector <Model> and hand out raw pointers to the individual elements. You shouldn’t need to make it any more complicated than that unless you need dynamic polymorphism or expect references to the Models to outlive the vector.

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The pointers to Model are then invalidated if std::vector resizes, so they cannot persist over any code that could modify the length of the std::vector. –  Yakk Jul 19 '13 at 20:12
@Yakk Ah yes, that’s all too easy to forget. Now, depending on how the container is manipulated, std::deque <Model> might be appropriate, but probably the std::unique_ptr/get solution is the best. –  Stuart Olsen Jul 19 '13 at 20:36
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