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 ingetProxy
Proxy(Proxy&& other)
move constructingp
~Proxy()
destructing the empty shell of the temporary that got its guts taken by move~Proxy() p
goes out of scopeclass Resource { void open(){} public: void close(){} Proxy && getProxy(); }; class Proxy { Resource *pResource_; Proxy(const Proxy& other); //disabled Proxy& operator=(const Proxy& other); //disabled public: Proxy(Resource *pResource):pResource_(pResource){} Proxy(Proxy&& other):pResource_(other.pResource_){other.pResource_ = nullptr;} ~Proxy() { if(pResource_) pResource_->close(); pResource_ = nullptr; } }; Proxy && Resource::getProxy() { open(); 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 callsclose()
earlier than expectedProxy(Proxy&& other)
//moving after destruction givesp.pResource_
a value ofnullptr
~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.
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.