67

This code is what I want to do:

Tony& Movie::addTony()
{
    Tony *newTony = new Tony;
    std::unique_ptr<Tony> tony(newTony);
    attachActor(std::move(tony));
    return *newTony;
}

I am wondering if I could do this instead:

Tony& Movie::addTony()
{
    std::unique_ptr<Tony> tony(new Tony);
    attachActor(std::move(tony));
    return *tony.get();
}

But will *tony.get() be the same pointer or null? I know I could verify, but what is the standard thing for it to do?

1
  • 1
    Why are you move()'ing the unique_ptr into attachActor() to begin with? What does attachActor() actually do? Mar 17, 2016 at 20:45

3 Answers 3

53

No, you cannot do that instead. Moving the unique_ptr nulls it. If it didn't, then it would not be unique. I am of course assuming that attachActor doesn't do something silly like this:

attachActor(std::unique_ptr<Tony>&&) {
    // take the unique_ptr by r-value reference,
    // and then don't move from it, leaving the
    // original intact
}

Section 20.8.1 paragraph 4.

Additionally, u (the unique_ptr object) can, upon request, transfer ownership to another unique pointer u2. Upon completion of such a transfer, the following postconditions hold:
   -- u2.p is equal to the pre-transfer u.p,
   -- u.p is equal to nullptr, and
   -- if the pre-transfer u.d maintained state, such state has been transferred to u2.d.

3
  • Though, it's probably not a great idea to have a function that takes unique_ptr&& anyway (aside from move-constructor and move-assigners).
    – Rufflewind
    Mar 17, 2016 at 20:48
  • @BenjaminLindley, thank you for the answer! Yeah, attachActor() takes std::unique_ptr<Tony>, nothing fancy. Mar 17, 2016 at 21:00
  • @Rufflewind Not necessary, it might be handy if the function can throw and you don't want to lose the object you passed to it. Basically every container insert/push_back function.
    – sbabbi
    Mar 17, 2016 at 21:06
22

The standard says (§ 20.8.1.2.1 ¶ 16, emphasis added) that the move constructor of std::unique_ptr

unique_ptr(unique_ptr&& u) noexcept;

Constructs a unique_ptr by transferring ownership from u to *this.

Therefore, after you move-construct the temporary object that gets passed as argument to attachActor form your tony, tony no longer owns the object and hence tony.get() == nullptr. (This is one of the few cases where the standard library actually makes assertions about the state of a moved-away-from object.)

However, the desire to return the reference can be fulfilled without resorting to naked new and raw pointers.

Tony&
Movie::addTony()
{
  auto tony = std::make_unique<Tony>();
  auto p = tony.get();
  attachActor(std::move(tony));
  return *p;
}

This code assumes that attachActor will not drop its argument on the floor. Otherwise, the pointer p would dangle after attachActor has returned. If this cannot be relied upon, you'll have to re-design your interface and use shared pointers instead.

std::shared_ptr<Tony>
Movie::addTony()
{
  auto tony = std::make_shared<Tony>();
  attachActor(tony);
  return tony;
}
1
  • 2
    Transfer of ownership does not imply that u does not own anything, only that it does no longer own the object it owned before. If this was the only requirement, the transfer could happen by just swapping object ownership between u and *this (which is what some other move constructors do to prevent any allocation and deallocation). But as Benjamin Lindley notes, there are additional requirements on std::unique_ptr beyond just the textual "transferring ownership".
    – Dreamer
    Jan 24, 2017 at 12:58
4

After move, unique_ptrs are set to nullptr. Finally, I think it depends on what attachActor is doing, however, in many cases, a good approach would be to use move semantics to guarantee single ownership for Tony at all times which is a way to reduce the risks of some types of bugs. My idea is to try to mimic ownership and borrowing from Rust.

    #include <string>
    #include <memory>
    #include <vector>
    #include <iostream>
    
    
    using namespace std;
    
    class Tony {
        public:
            string GetFullName(){
                return "Tony " + last_name_;
            }
            void SetLastName(string lastname) {
                last_name_ = lastname;
            }
        private:
            string last_name_;
    };
    
    class Movie {
        public:
            unique_ptr<Tony> MakeTony() {
                auto tony_ptr = make_unique<Tony>();
                auto attached_tony_ptr = AttachActor(move(tony_ptr));
                return attached_tony_ptr;
            }
            vector<string> GetActorsList(){
                return actors_list_;
            }
    
        private:
            unique_ptr<Tony> AttachActor(unique_ptr<Tony> tony_ptr) {
                tony_ptr->SetLastName("Garcia");
                actors_list_.push_back(tony_ptr->GetFullName());
                return tony_ptr;   // Implicit move
            }
    
            vector<string> actors_list_;
    };
    
    
    int main (int argc, char** argv) {
        auto movie = make_unique<Movie>();
        auto tony = movie->MakeTony();
        cout << "Newly added: " << tony->GetFullName() << endl;
        for(const auto& actor_name: movie->GetActorsList()) {
            cout << "Movie actors: " << actor_name << endl;
        }
    }

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