Is it possible to 'move' an rvalue into a shared_ptr. All the methods which I've tried so far result in a copy.

My desired usage pattern is:

class Element {
    Element(const string &);
    Element(const Element &) = delete; //delete copy constructor
    // ...

class MyCollectionOfElements {
    void add(Element &&); // add by rvalue
    // ...
    vector<shared_ptr<Element>> elements;

MyCollectionOfElements elements;

There are reasons why I want this pattern, and understand that there are alternative patterns which naturally work (e.g. passing the new Element as a pointer rather than an rvalue).

My current suspicion is that the incoming rvalue is on the stack, whilst I need to have it on the heap to store it in a shared_ptr, therefore a copy is inevitable.

  • There's no "stack" or "heap" in C++ (except for std::stack and std::make_heap).
    – Kerrek SB
    Commented Feb 24, 2016 at 13:26
  • 8
    I think he's referring to the program's stack and heap, which absolutely do exist in C++
    – Conduit
    Commented Feb 24, 2016 at 13:30
  • 1
    @Conduit: Citation needed for C++.
    – Kerrek SB
    Commented Feb 24, 2016 at 13:31
  • 5
    They're a staple of programming languages. When you allocate variables, pass them to functions, or do literally anything with memory, the data is stored in one of those two structures.
    – Conduit
    Commented Feb 24, 2016 at 13:32
  • 1
    I'll just leave this here and be on my way.
    – Conduit
    Commented Feb 24, 2016 at 13:34

2 Answers 2



void add(Element && e)

You also have to make sure your class actually has a move constructor:

class Element
    Element(Element &&) = default;
    // ...

By declaring a copy constructor, you inhibit the implicit declaration of a move constructor, so you need to declare it explicitly.

  • Thank you Kerrek. This doesn't work as I expected in Visual Studio. This won't compile unless I don't delete the copy constructor. When it has the copy constructor back, I can see that the memory address changes after the make_shared<Element>(std::move(e)), so this inside Element's lambda functions are still invalidated. Commented Feb 24, 2016 at 13:45
  • 3
    @ElliotWoods: Your question does not state that you have this pointers that should be unchanged -- you should clarify this in the question. It is probably not possible to avoid changing the this pointer (but that is another issue than move vs. copy). Commented Feb 24, 2016 at 13:53
  • 1
    @ElliotWoods: That's not what "moving" usually means. You can never "move" an actual variable. "Moving" always refers to moving a variable's value. The presented code is what you should want.
    – Kerrek SB
    Commented Feb 24, 2016 at 14:08
  • @KerrekSB - thank you. can you imagine why I might need to allow the copy constructor in Visual Studio for your method to work? Commented Feb 24, 2016 at 14:20
  • @ElliotWoods: I don't quite understand your question. Can you reduce the problem to its smallest possible form and post it as a separate question?
    – Kerrek SB
    Commented Feb 24, 2016 at 15:53

Guess you misunderstand the idea of movement semantic. You have to pass pointer to smart pointer, and pointer can have any type - lvalue/rvalue

    void f(A *&&p) {}

function which accept rvalue ref to pointer which points to A; but p is still lvalue which has type r-value reference to a pointer, so u have to "cast"(std::move - does nothing just cast l-value to r-value) std::shared_ptr(std::move(p));

    A *g() { return new A;}
    A *a;
    f(g());//works fine
    f(new A());//also fine
  • 1
    Thank you jonezq, but the question is how (if possible) to create a shared_ptr<Element> from Element && (not Element * &&), without causing a copy of the Element Commented Feb 24, 2016 at 13:50
  • You can take address of rvalue object and to pass it to shared_ptr<>, then you get out of function/method scope - object gets destroyed, and when shared_ptr decrements ref counter to zero will also call destructor of destroyed object (unexpected behavior).
    – jonezq
    Commented Feb 24, 2016 at 13:56

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