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While working with std::shared_ptr a lot I kind of miss a shared_ref implementation. That is a specialization of shared_ptr, which guarantees, that it never wraps a nullptr (given right usage, of course). I kind of wonder why it is not in the C++11 standard. Are there any mayor problems when implementing it? On the top of my head I cannot think of any.


I would expect to have an interface similar to:

template <typename T>
class shared_ref {
  shared_ref( T&& ref );
  T& get();
  T* operator&() const;

  template< class Y > 
  void reset( Y&& obj );

  long use_count() const;
  bool unique() const;

  void swap( shared_ref& r );
share|improve this question
shared_ptr shouldn't be nullptr given right usage, either. It's not there probably because nobody thought about it, or they did and rejected it on the grounds of not being useful enough to justify adding it. – Cat Plus Plus Jul 6 '12 at 15:28
shared_ptr will be nullptr e.g. when using the default constructor. – abergmeier Jul 6 '12 at 15:40
shared_ref wouldn't have a default constructor, so just don't use default ctor on shared_ptr. – Cat Plus Plus Jul 6 '12 at 15:59
@R.MartinhoFernandes, the question is how best to enforce a contract, the contract being that the pointer is not null. The earlier you catch such errors the better. The gold standard is strict type checking, where you catch the error at compile time. – Mark Ransom Jul 6 '12 at 16:36
@R.MartinhoFernandes That is exactly the reason why I want a shared_ref! – abergmeier Jul 6 '12 at 16:43
up vote 4 down vote accepted

Are there any mayor problems when implementing it?

Here's one: you can't take ownership of a reference. The whole point of a smart pointer is to claim ownership of the pointer itself. shared_ref can't work because you can't control the lifetime of a reference.

And no, this isn't going to fly either:

shared_ref( T&& ref ) : p(&ref) {}

The user may have given you a stack variable, which now means you have "shared" ownership between this object and a stack variable. And stack variables cannot share ownership with something.

You can only control the lifetime of a pointer. And pointers can be NULL. Therefore, the only thing you can do is a runtime check to see if a pointer is NULL.

The absolute best you can do is an interface equivalent to shared_ptr except that it has no default constructor and throws in the event of being given NULL. Is that really worth creating a whole new pointer type over?

share|improve this answer
Well you are right. I would perhaps solve this by requiring T to have a move constructor. Then you could internally build a pointer and indeed take ownership. This kind of verbose requirement is probably the reason, why it is not in the standard library. – abergmeier Jul 6 '12 at 17:31
Also perhaps the name is wrong - perhaps shared_obj is probably the more correct name!? – abergmeier Jul 6 '12 at 17:33

There are only two ways for a shared_ptr to be null - either it was default constructed, or it was assigned a null value at some point. Since you already agree it doesn't make sense to default construct your hypothetical shared_ref class, that leaves only the second condition.

If you tried to assign a nullptr to your shared_ref object, what would you expect to happen? Should it throw an error? It's trivial to do the same thing with a regular shared_ptr using a simple template function:

template<typename T>
T* notnull(T* ptr)
    if (ptr == std::nullptr)
        throw std::invalid_argument(std::string("nullptr"));
    return ptr;

std::shared_ptr<int> pint = notnull(GetIntPtr());

Generally things aren't added to the standard unless there's a compelling need with no easy workarounds.

share|improve this answer
See my edit. I would perhaps also allow overloads for pointers, but they would have to throw exceptions when finding a ptr to be null. – abergmeier Jul 6 '12 at 17:16
@LCIDFire, again I ask: what is supposed to happen when you try to assign a nullptr to this object? I.e. T* p = nullptr; my_ref.reset(*p); – Mark Ransom Jul 6 '12 at 17:21
The only real problem is that getting the ref easier is a little problematic. Calling get() is indeed a little verbose :( – abergmeier Jul 6 '12 at 17:21
That is, like anywhere in the std library, undefined behavior. And a bug in the calling code, btw. – abergmeier Jul 6 '12 at 17:23

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