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I suspect I don't understand something about move semantics. Given the following code I would expect the debugger (MSVC2010SP1) to call Proxy's members in the following order:

  • Proxy(Resource*) constructing the temporary in getProxy
  • Proxy(Proxy&& other) move constructing p
  • ~Proxy() destructing the empty shell of the temporary that got its guts taken by move
  • ~Proxy() p goes out of scope

    class Resource
        void open(){}
        void close(){}
        Proxy && getProxy();
    class Proxy
        Resource *pResource_;
        Proxy(const Proxy& other); //disabled
        Proxy& operator=(const Proxy& other); //disabled
        Proxy(Resource *pResource):pResource_(pResource){}
        Proxy(Proxy&& other):pResource_(other.pResource_){other.pResource_ = nullptr;}
            pResource_ = nullptr;
    Proxy && Resource::getProxy()
            return Proxy(this);
    //somewhere else, lets say in main()
    Resource r;
        auto p = r.getProxy(); 
    }   // p goes out of scope

Instead the order is:

  • Proxy(Proxy*)
  • ~Proxy() //this already calls close() earlier than expected
  • Proxy(Proxy&& other) //moving after destruction gives p.pResource_ a value of nullptr
  • ~Proxy() //p goes out of scope

This makes no sense to me. What I'm trying to do is track the lifetime of the proxy class passing the job of closing the resource via the move constructor from one object to another.

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We don't know how you create/return one of these objects, but I would suspect you return a reference to a local, which is a nono – PlasmaHH Feb 4 '13 at 14:19
@PlasmaHH sorry didn't post all the code (need coffee) – PorkyBrain Feb 4 '13 at 14:22
You should almost never use an rvalue-reference as a return type. Just use the class type to allow return via move constructor. – aschepler Feb 4 '13 at 14:22
is it guaranteed that the returned value will be move constructed? – PorkyBrain Feb 4 '13 at 14:24
@PorkyBrain: If you return a temporary or a function-local class variable or a std::move(something) and the return type is a class type, then either the returned value will be move constructed or the copy/move will be elided entirely. – aschepler Feb 4 '13 at 14:26
up vote 4 down vote accepted

getProxy() returns a reference to a temporary, which goes out of scope at function end and results in a dangling reference.

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ah I think I understand, so by declaring the return type Proxy&& I'm basically returning a Proxy& with the special privilege that it can get its guts taken by move? – PorkyBrain Feb 4 '13 at 14:26
@PorkyBrain Pretty much. You're still returning a reference, so it has to be backed by something. In your case, you should just return by value. Returning an rvalue ref. would make sense if e.g. you wanted to move something out of the object (return std::move(this->something);). – Angew Feb 4 '13 at 14:33

Returning by rvalue reference doesn't actually cause anything to be moved. It just returns by reference. However, it's different to returning an lvalue reference because an expression calling a function that returns an rvalue reference is an xvalue (as opposed to an lvalue). The xvalue (as a subset of rvalue expressions) can then be moved from. If you wanted to move from the returned object of a function returning lvalue reference, you would have to use std::move to make it an rvalue.

You very rarely will want to actually return an rvalue reference. The only vaguely common use for it is to allow a private member of an object to be moved from. If you want an object to be moved when you return it from a function, just return it by value. In your case, if the return type of getProxy was just Proxy, the temporary would be moved from into the returned object and then that would be moved from into p (save for any elision).

As you have it, your temporary object (contructed by Proxy(this)) is destroyed at the end of the return statement - this is the first call of the destructor. The returned reference is now referencing an invalid object and p is constructed by moving from this invalid reference. That gives you undefined behaviour.

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