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So sometimes I want an object to have a reference to a shared resource (let's say something of type A), or alternatively to have its own copy of an A.

Furthermore the object may find itself inserted and manipulated inside of containers (vector, list, set).

So far what I know is that I will want to use an implementation of unique_ptr if I have a polymorphic type that is to be in a container. So for a class HasAnA which owns an A to be able to be placed inside a container while still allowing its A's to also be B's (B in this case being a derived class of A), it must be like this:

class A {
  virtual void a() { std::cout << "A" << endl; }
  payloadA payload;
class B: public A {
  void a() { std::cout << "A(B)" << endl; }
  void b() { std::cout << "B" << endl; }
  payloadB payload;
class HasAnA {
  std::unique_ptr<A> my_A; // this allows me to build a std::vector<HasAnA>
  OtherStuff my_other_stuff;

So this is great, what I'm looking for is how to implement a class I'll call RefersAnA. I'd like for a RefersAnA to either have ownership of its own A, OR refer to an A owned by something else.

Let's see.

class RefersAnA {
  std::unique_ptr<A> my_A; // represents my own A: when I die, this A is dealloc'd
  A* not_my_A;             // someone else's A. 
  OtherStuff my_other_stuff;
  RefersAnA () {
    // in here is code that would skip initializing my_A if a valid A* was provided.

To me this isn't really as friendly as I would like. Could I make some sort of template class which abstracts the notion of "either being a unique ptr to the resource or a raw ptr to the resource"? It needs one bit to say which of the two it is, and one pointer.

share|improve this question
Can't you just use another type of pointer like a shared_ptr, which can either be the only pointer to that object or one of multiple? –  Jasper Oct 29 '12 at 22:39
I love C++ simply for this kind of terminology... The title is just beautiful (NO) –  user529758 Oct 29 '12 at 22:39
unique_ptr supports custom deleters. Now all you need to do is to write one named delete_me_maybe. –  Ben Voigt Oct 29 '12 at 22:42
@Jasper I think you're right. I think using shared_ptr for everything would prevent the problem I'm having in the first place, at the cost of having reference counting where it is not needed. –  Steven Lu Oct 29 '12 at 22:52
@BenVoigt I will look into that, thanks. –  Steven Lu Oct 29 '12 at 22:52

1 Answer 1

up vote 0 down vote accepted

Here's an idea:

struct RefersOrOwns
    std::unique_ptr<T> own;
    T & ref;

    RefersOrOwns() : own(new T), ref(*own) { }

    RefersOrOwns(T & t) : ref(t) { }

(Instead of own(new T) I would of course prefer own(make_unique<T>()), but that's a separate issue.)

share|improve this answer
Hmm okay. so I'd just use the ref to look it up. Looks pretty good. So this would be a template (start the declaration with template <class T>)? –  Steven Lu Oct 29 '12 at 22:41
This is not different in any substantial way from the code presented in the question with a unique_ptr<A> and an A*. It isn't space efficient the way the question requested, either. –  Ben Voigt Oct 29 '12 at 22:43
True, but it lets me templatize it so I can rather easily make one for any type I wish. And I wasn't able to come up with that on my own. so it does help. However the situation is probably that I'll have many instances referring to something and only a few having their own copy, it will be inefficient to have each and every one have a unique_ptr. –  Steven Lu Oct 29 '12 at 22:47
@BenVoigt: You will need some kind of state to describe whether your resource is owned by you or not. There's no getting around that. –  Kerrek SB Oct 29 '12 at 23:03
@BenVoigt: Practically, the distinction between one bit, one byte and one machine-word is going to be negligible, though. The alignment of the whole thing is going to be on the pointer anyway. –  Kerrek SB Oct 29 '12 at 23:10

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