I think I understand most of the rvalue stuff, but when I tried to implement the following code, I got segmentation fault(core dumped) :( maybe I'm still missing some details and would appreciate any help!

I have this struct Mode in my header:

#include <memory>
#include <iostream>

struct Mode
    explicit Mode(const int id_in, const int p_val=1) : id{id_in}, p{new int{p_val}} {
        std::cout << "explicit param default ctr called..." << std::endl;

    Mode() : id{42}, p{nullptr}{
        std::cout << "default ctr called..." << std::endl;

    Mode&& clone() {
        Mode m(*this);
        m.p.reset(new int{*m.p});
        return std::move(m);
    int id;
    std::shared_ptr<int> p;

and in main.cpp I do this:

int main()
    Mode m{42, 43};
    Mode m2;
    m2 = m.clone();

    cout << m.p << endl;
    cout << m2.p;

what happens in detail in the line m2 = m.clone()? What I understand so far is: in clone() it creates a temporary copy of m using the copy constructor Mode m(*this), and std::move the contents of this temp object, and finally returns to its caller m2. And in main.cpp I assign the rvalue to m2 using move assignment? I'm not so sure till this step...

  • 1
    gcc would warn you about redundancy in return std::move(m);. If you return a local variable, just return it as is, without a rvalue reference, and let the compiler optimize the return value, it does that really well
    – Geoffroy
    Apr 14 '20 at 10:55
  • It should be Mode clone() and return m;
    – M.M
    Apr 14 '20 at 11:18

You code has undefined behavior.

You're binding the local variable m to the rvalue-reference returned; the local variable would be destroyed when the function returns, so what it returns is always a dangled reference.

and std::move the contents of this temp object

You might be misunderstanding std::move; it just converts the argument to rvalue, but won't perform move operation in fact.

  • Thanks for your answer! That makes sense. My motivation was, if Mode is a very large data struct, and I just return as is, like mentioned by @Geoffroy and M.M, wouldn't it be inefficient as I make a copy again while returning? How does the compiler optimize it? And is there a better way to deal with it?
    – Mr. 787
    Apr 14 '20 at 12:42
  • @Mr.787 Yes, what Geoffroy and M.M suggested is the best idea; copy elision will help you. Apr 14 '20 at 14:25

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